SNAU261 December 2020 LMK5C33216
Table 1-1 lists the Device registers. All register offset addresses not listed in Table 1-1 should be considered as reserved locations and the register contents should not be modified.
| Offset | Acronym | Register Name | Section |
|---|---|---|---|
| 0x0 | R0 | VNDRID_BY1 | Go |
| 0x1 | R1 | VNDRID_BY0 | Go |
| 0x2 | R2 | PRODID | Go |
| 0x3 | R3 | REVID | Go |
| 0x10 | R16 | NVMCNT | Go |
| 0x12 | R18 | SLAVEADR | Go |
| 0x13 | R19 | EEREV | Go |
| 0x14 | R20 | EE_ROM_PAGE | Go |
| 0x15 | R21 | DEV_CTL1 | Go |
| 0x16 | R22 | DEV_CTL2 | Go |
| 0x17 | R23 | SWRST | Go |
| 0x18 | R24 | STRT_PRTY | Go |
| 0x19 | R25 | SYNC_CTL | Go |
| 0x1A | R26 | SYSREF_REQ_CTL | Go |
| 0x1B | R27 | TOD_BY4 | Go |
| 0x1C | R28 | TOD_BY3 | Go |
| 0x1D | R29 | TOD_BY2 | Go |
| 0x1E | R30 | TOD_BY1 | Go |
| 0x1F | R31 | TOD_BY0 | Go |
| 0x20 | R32 | TOD_CTRL | Go |
| 0x21 | R33 | INT_LIVE0 | Go |
| 0x22 | R34 | INT_LIVE1 | Go |
| 0x23 | R35 | INT_LIVE2 | Go |
| 0x24 | R36 | INT_LIVE3 | Go |
| 0x25 | R37 | INT_MASK0 | Go |
| 0x26 | R38 | INT_MASK1 | Go |
| 0x27 | R39 | INT_MASK2 | Go |
| 0x28 | R40 | INT_MASK3 | Go |
| 0x29 | R41 | INT_FLAG_POL0 | Go |
| 0x2A | R42 | INT_FLAG_POL1 | Go |
| 0x2B | R43 | INT_FLAG_POL2 | Go |
| 0x2C | R44 | INT_FLAG_POL3 | Go |
| 0x2D | R45 | INT_FLAG0 | Go |
| 0x2E | R46 | INT_FLAG1 | Go |
| 0x2F | R47 | INT_FLAG2 | Go |
| 0x30 | R48 | INT_FLAG3 | Go |
| 0x31 | R49 | INT_CTL | Go |
| 0x32 | R50 | REFIN_STAT | Go |
| 0x34 | R52 | REFIN_STAT3 | Go |
| 0x35 | R53 | OPCTRL_STAT | Go |
| 0x36 | R54 | GPIO0_CONFIG | Go |
| 0x37 | R55 | GPIO1_CONFIG | Go |
| 0x38 | R56 | GPIO2_CONFIG | Go |
| 0x39 | R57 | GPIO0_SEL | Go |
| 0x3A | R58 | GPIO1_SEL | Go |
| 0x3B | R59 | GPIO2_SEL | Go |
| 0x3C | R60 | GPIO_OUT_CTL | Go |
| 0x3D | R61 | DPLL_MUTE | Go |
| 0x3E | R62 | DPLL_MUTE | Go |
| 0x3F | R63 | XO_CLKCTL | Go |
| 0x40 | R64 | XO_OUT_SEL | Go |
| 0x43 | R67 | REF1_CTL | Go |
| 0x44 | R68 | REF0_CTL | Go |
| 0x45 | R69 | OUT0_1_CMV | Go |
| 0x46 | R70 | OUT2_3_CMV | Go |
| 0x47 | R71 | OUT4_7_CMV | Go |
| 0x48 | R72 | OUT8_13_CMV | Go |
| 0x49 | R73 | OUT8_13_CMV | Go |
| 0x4A | R74 | OUT14_15_CMV | Go |
| 0x4B | R75 | TDC3_ZDLY | Go |
| 0x4C | R76 | TDC2_ZDLY | Go |
| 0x4D | R77 | TDC1_ZDLY | Go |
| 0x4E | R78 | REF_OUT_SEL | Go |
| 0x4F | R79 | REF0_DETEN | Go |
| 0x50 | R80 | REF1_DETEN | Go |
| 0x53 | R83 | REF0_3_CLK_DIV | Go |
| 0x54 | R84 | REF0_MISSCLK_DIV_BY2 | Go |
| 0x55 | R85 | REF0_MISSCLK_DIV_BY1 | Go |
| 0x56 | R86 | REF0_MISSCLK_DIV_BY0 | Go |
| 0x57 | R87 | REF1_MISSCLK_DIV_BY2 | Go |
| 0x58 | R88 | REF1_MISSCLK_DIV_BY1 | Go |
| 0x59 | R89 | REF1_MISSCLK_DIV_BY0 | Go |
| 0x60 | R96 | REF_MISSCLK_CTL | Go |
| 0x61 | R97 | REF0_EARLY_CLK_DIV_BY2 | Go |
| 0x62 | R98 | REF0_EARLY_CLK_DIV_BY1 | Go |
| 0x63 | R99 | REF0_EARLY_CLK_DIV_BY0 | Go |
| 0x64 | R100 | REF1_EARLY_CLK_DIV_BY2 | Go |
| 0x65 | R101 | REF1_EARLY_CLK_DIV_BY1 | Go |
| 0x66 | R102 | REF1_EARLY_CLK_DIV_BY0 | Go |
| 0x6D | R109 | REF0_PPM_MIN_BY1 | Go |
| 0x6E | R110 | REF0_PPM_MIN_BY0 | Go |
| 0x6F | R111 | REF0_PPM_MAX_BY1 | Go |
| 0x70 | R112 | REF0_PPM_MAX_BY0 | Go |
| 0x71 | R113 | REF1_PPM_MIN_BY1 | Go |
| 0x72 | R114 | REF1_PPM_MIN_BY0 | Go |
| 0x73 | R115 | REF1_PPM_MAX_BY1 | Go |
| 0x74 | R116 | REF1_PPM_MAX_BY0 | Go |
| 0x9D | R157 | REF0_VLDTMR | Go |
| 0x9E | R158 | REF1_VLDTMR | Go |
| 0xA1 | R161 | REF0_PH_VALID_THR_BY1 | Go |
| 0xA2 | R162 | REF0_PH_VALID_THR_BY0 | Go |
| 0xA3 | R163 | REF1_PH_VALID_THR_BY1 | Go |
| 0xA4 | R164 | REF1_PH_VALID_THR_BY0 | Go |
| 0xAA | R170 | NVMSCRC | Go |
| 0xAB | R171 | NVMCTL | Go |
| 0xAD | R173 | MEMADR_BY1 | Go |
| 0xAE | R174 | MEMADR_BY0 | Go |
| 0xB0 | R176 | RAMDAT | Go |
| 0xB4 | R180 | NVMUNLK | Go |
| 0xDE | R222 | DFT_CTL | Go |
| 0xDF | R223 | DPLL1_REF1 | Go |
| 0xE1 | R225 | DPLL1_REF3 | Go |
| 0xE2 | R226 | DPLL1_REF4 | Go |
| 0xE3 | R227 | DPLL1_REFSEL_STAT | Go |
| 0xE4 | R228 | DPLL1_FDET_LCK_BY1 | Go |
| 0xE5 | R229 | DPLL1_FDET_LCK_BY0 | Go |
| 0xE6 | R230 | DPLL1_FDET_UNLCK_BY1 | Go |
| 0xE7 | R231 | DPLL1_FDET_UNLCK_BY0 | Go |
| 0xE8 | R232 | DPLL1_FDET2_CNTSTRT_BY3 | Go |
| 0xE9 | R233 | DPLL1_FDET2_CNTSTRT_BY2 | Go |
| 0xEA | R234 | DPLL1_FDET2_CNTSTRT_BY1 | Go |
| 0xEB | R235 | DPLL1_FDET2_CNTSTRT_BY0 | Go |
| 0xEC | R236 | DPLL1_FDET_CNTSTRT_BY3 | Go |
| 0xED | R237 | DPLL1_FDET_CNTSTRT_BY2 | Go |
| 0xEE | R238 | DPLL1_FDET_CNTSTRT_BY1 | Go |
| 0xEF | R239 | DPLL1_FDET_CNTSTRT_BY0 | Go |
| 0xF0 | R240 | DPLL1_FDET_VCO_CNTSTRT_BY3 | Go |
| 0xF1 | R241 | DPLL1_FDET_VCO_CNTSTRT_BY2 | Go |
| 0xF2 | R242 | DPLL1_FDET_VCO_CNTSTRT_BY1 | Go |
| 0xF3 | R243 | DPLL1_FDET_VCO_CNTSTRT_BY0 | Go |
| 0xF4 | R244 | DPLL1_FDET_STATUS | Go |
| 0xF7 | R247 | DPLL1_CTRL1 | Go |
| 0xF8 | R248 | DPLL1_SCLR_BY1 | Go |
| 0xFA | R250 | DPLL1_PHOFF_BY5 | Go |
| 0xFB | R251 | DPLL1_PHOFF_BY4 | Go |
| 0xFC | R252 | DPLL1_PHOFF_BY3 | Go |
| 0xFD | R253 | DPLL1_PHOFF_BY2 | Go |
| 0xFE | R254 | DPLL1_PHOFF_BY1 | Go |
| 0xFF | R255 | DPLL1_PHOFF_BY0 | Go |
| 0x100 | R256 | DPLL1_FREERUN_BY4 | Go |
| 0x101 | R257 | DPLL1_FREERUN_BY3 | Go |
| 0x102 | R258 | DPLL1_FREERUN_BY2 | Go |
| 0x103 | R259 | DPLL1_FREERUN_BY1 | Go |
| 0x104 | R260 | DPLL1_FREERUN_BY0 | Go |
| 0x122 | R290 | DPLL1_LCKTMR_BY1 | Go |
| 0x123 | R291 | DPLL1_LCKTMR_BY0 | Go |
| 0x126 | R294 | DPLL1_HOLDTMR_BY1 | Go |
| 0x127 | R295 | DPLL1_HOLDTMR_BY0 | Go |
| 0x128 | R296 | DPLL1_PHS1TMR_BY1 | Go |
| 0x129 | R297 | DPLL1_PHS1TMR_BY0 | Go |
| 0x12F | R303 | DPLL1_PLLK | Go |
| 0x130 | R304 | DPLL1_PLUNLK | Go |
| 0x131 | R305 | DPLL1_PHS1LIM | Go |
| 0x134 | R308 | DPLL1_HOLDLIM | Go |
| 0x136 | R310 | DPLL1_DBG2 | Go |
| 0x137 | R311 | DPLL1_DBG3 | Go |
| 0x13A | R314 | DPLL1_FBDIV_BY4 | Go |
| 0x13B | R315 | DPLL1_FBDIV_BY3 | Go |
| 0x13C | R316 | DPLL1_FBDIV_BY2 | Go |
| 0x13D | R317 | DPLL1_FBDIV_BY1 | Go |
| 0x13E | R318 | DPLL1_FBDIV_BY0 | Go |
| 0x13F | R319 | DPLL1_FBNUM_BY4 | Go |
| 0x140 | R320 | DPLL1_FBNUM_BY3 | Go |
| 0x141 | R321 | DPLL1_FBNUM_BY2 | Go |
| 0x142 | R322 | DPLL1_FBNUM_BY1 | Go |
| 0x143 | R323 | DPLL1_FBNUM_BY0 | Go |
| 0x144 | R324 | DPLL1_FBDEN_BY4 | Go |
| 0x145 | R325 | DPLL1_FBDEN_BY3 | Go |
| 0x146 | R326 | DPLL1_FBDEN_BY2 | Go |
| 0x147 | R327 | DPLL1_FBDEN_BY1 | Go |
| 0x148 | R328 | DPLL1_FBDEN_BY0 | Go |
| 0x149 | R329 | DPLL1_FBDIV2_BY4 | Go |
| 0x14A | R330 | DPLL1_FBDIV2_BY3 | Go |
| 0x14B | R331 | DPLL1_FBDIV2_BY2 | Go |
| 0x14C | R332 | DPLL1_FBDIV2_BY1 | Go |
| 0x14D | R333 | DPLL1_FBDIV2_BY0 | Go |
| 0x14E | R334 | DPLL1_FBNUM2_BY4 | Go |
| 0x14F | R335 | DPLL1_FBNUM2_BY3 | Go |
| 0x150 | R336 | DPLL1_FBNUM2_BY2 | Go |
| 0x151 | R337 | DPLL1_FBNUM2_BY1 | Go |
| 0x152 | R338 | DPLL1_FBNUM2_BY0 | Go |
| 0x153 | R339 | DPLL1_FBDEN2_BY4 | Go |
| 0x154 | R340 | DPLL1_FBDEN2_BY3 | Go |
| 0x155 | R341 | DPLL1_FBDEN2_BY2 | Go |
| 0x156 | R342 | DPLL1_FBDEN2_BY1 | Go |
| 0x157 | R343 | DPLL1_FBDEN2_BY0 | Go |
| 0x158 | R344 | DPLL1_FBDIV_SEL | Go |
| 0x159 | R345 | DPLL1_FBMASHCTL | Go |
| 0x15A | R346 | DPLL1_FBFDEV_BY4 | Go |
| 0x15B | R347 | DPLL1_FBFDEV_BY3 | Go |
| 0x15C | R348 | DPLL1_FBFDEV_BY2 | Go |
| 0x15D | R349 | DPLL1_FBFDEV_BY1 | Go |
| 0x15E | R350 | DPLL1_FBFDEV_BY0 | Go |
| 0x15F | R351 | DPLL1_FBFDEVUPDATE | Go |
| 0x160 | R352 | DPLL1_FBFDEVEN | Go |
| 0x161 | R353 | DPLL1_FBNUM_STAT_BY4 | Go |
| 0x162 | R354 | DPLL1_FBNUM_STAT_BY3 | Go |
| 0x163 | R355 | DPLL1_FBNUM_STAT_BY2 | Go |
| 0x164 | R356 | DPLL1_FBNUM_STAT_BY1 | Go |
| 0x165 | R357 | DPLL1_FBNUM_STAT_BY0 | Go |
| 0x166 | R358 | DPLL1_REF_DBLR | Go |
| 0x167 | R359 | DPLL1_REF0RDIV1 | Go |
| 0x168 | R360 | DPLL1_REF0RDIV2 | Go |
| 0x169 | R361 | DPLL1_REF1RDIV1 | Go |
| 0x16A | R362 | DPLL1_REF1RDIV2 | Go |
| 0x171 | R369 | DPLL1_REF5RDIV1 | Go |
| 0x172 | R370 | DPLL1_REF5RDIV2 | Go |
| 0x175 | R373 | DPLL2_REF1 | Go |
| 0x177 | R375 | DPLL2_REF3 | Go |
| 0x178 | R376 | DPLL2_REF4 | Go |
| 0x179 | R377 | DPLL2_REFSEL_STAT | Go |
| 0x17A | R378 | DPLL2_FDET_LCK_BY1 | Go |
| 0x17B | R379 | DPLL2_FDET_LCK_BY0 | Go |
| 0x17C | R380 | DPLL2_FDET_UNLCK_BY1 | Go |
| 0x17D | R381 | DPLL2_FDET_UNLCK_BY0 | Go |
| 0x17E | R382 | DPLL2_FDET2_CNTSTRT_BY3 | Go |
| 0x17F | R383 | DPLL2_FDET2_CNTSTRT_BY2 | Go |
| 0x180 | R384 | DPLL2_FDET2_CNTSTRT_BY1 | Go |
| 0x181 | R385 | DPLL2_FDET2_CNTSTRT_BY0 | Go |
| 0x182 | R386 | DPLL2_FDET_CNTSTRT_BY3 | Go |
| 0x183 | R387 | DPLL2_FDET_CNTSTRT_BY2 | Go |
| 0x184 | R388 | DPLL2_FDET_CNTSTRT_BY1 | Go |
| 0x185 | R389 | DPLL2_FDET_CNTSTRT_BY0 | Go |
| 0x186 | R390 | DPLL2_FDET_VCO_CNTSTRT_BY3 | Go |
| 0x187 | R391 | DPLL2_FDET_VCO_CNTSTRT_BY2 | Go |
| 0x188 | R392 | DPLL2_FDET_VCO_CNTSTRT_BY1 | Go |
| 0x189 | R393 | DPLL2_FDET_VCO_CNTSTRT_BY0 | Go |
| 0x18A | R394 | DPLL2_FDET_STATUS | Go |
| 0x18D | R397 | DPLL2_CTRL1 | Go |
| 0x18E | R398 | DPLL2_SCLR_BY1 | Go |
| 0x190 | R400 | DPLL2_PHOFF_BY5 | Go |
| 0x191 | R401 | DPLL2_PHOFF_BY4 | Go |
| 0x192 | R402 | DPLL2_PHOFF_BY3 | Go |
| 0x193 | R403 | DPLL2_PHOFF_BY2 | Go |
| 0x194 | R404 | DPLL2_PHOFF_BY1 | Go |
| 0x195 | R405 | DPLL2_PHOFF_BY0 | Go |
| 0x196 | R406 | DPLL2_FREERUN_BY4 | Go |
| 0x197 | R407 | DPLL2_FREERUN_BY3 | Go |
| 0x198 | R408 | DPLL2_FREERUN_BY2 | Go |
| 0x199 | R409 | DPLL2_FREERUN_BY1 | Go |
| 0x19A | R410 | DPLL2_FREERUN_BY0 | Go |
| 0x1B8 | R440 | DPLL2_LCKTMR_BY1 | Go |
| 0x1B9 | R441 | DPLL2_LCKTMR_BY0 | Go |
| 0x1BC | R444 | DPLL2_HOLDTMR_BY1 | Go |
| 0x1BD | R445 | DPLL2_HOLDTMR_BY0 | Go |
| 0x1BE | R446 | DPLL2_PHS1TMR_BY1 | Go |
| 0x1BF | R447 | DPLL2_PHS1TMR_BY0 | Go |
| 0x1C5 | R453 | DPLL2_PLLK | Go |
| 0x1C6 | R454 | DPLL2_PLUNLK | Go |
| 0x1C7 | R455 | DPLL2_PHS1LIM | Go |
| 0x1CA | R458 | DPLL2_HOLDLIM | Go |
| 0x1CC | R460 | DPLL2_DBG2 | Go |
| 0x1CD | R461 | DPLL2_DBG3 | Go |
| 0x1D0 | R464 | DPLL2_FBDIV_BY4 | Go |
| 0x1D1 | R465 | DPLL2_FBDIV_BY3 | Go |
| 0x1D2 | R466 | DPLL2_FBDIV_BY2 | Go |
| 0x1D3 | R467 | DPLL2_FBDIV_BY1 | Go |
| 0x1D4 | R468 | DPLL2_FBDIV_BY0 | Go |
| 0x1D5 | R469 | DPLL2_FBNUM_BY4 | Go |
| 0x1D6 | R470 | DPLL2_FBNUM_BY3 | Go |
| 0x1D7 | R471 | DPLL2_FBNUM_BY2 | Go |
| 0x1D8 | R472 | DPLL2_FBNUM_BY1 | Go |
| 0x1D9 | R473 | DPLL2_FBNUM_BY0 | Go |
| 0x1DA | R474 | DPLL2_FBDEN_BY4 | Go |
| 0x1DB | R475 | DPLL2_FBDEN_BY3 | Go |
| 0x1DC | R476 | DPLL2_FBDEN_BY2 | Go |
| 0x1DD | R477 | DPLL2_FBDEN_BY1 | Go |
| 0x1DE | R478 | DPLL2_FBDEN_BY0 | Go |
| 0x1DF | R479 | DPLL2_FBDIV2_BY4 | Go |
| 0x1E0 | R480 | DPLL2_FBDIV2_BY3 | Go |
| 0x1E1 | R481 | DPLL2_FBDIV2_BY2 | Go |
| 0x1E2 | R482 | DPLL2_FBDIV2_BY1 | Go |
| 0x1E3 | R483 | DPLL2_FBDIV2_BY0 | Go |
| 0x1E4 | R484 | DPLL2_FBNUM2_BY4 | Go |
| 0x1E5 | R485 | DPLL2_FBNUM2_BY3 | Go |
| 0x1E6 | R486 | DPLL2_FBNUM2_BY2 | Go |
| 0x1E7 | R487 | DPLL2_FBNUM2_BY1 | Go |
| 0x1E8 | R488 | DPLL2_FBNUM2_BY0 | Go |
| 0x1E9 | R489 | DPLL2_FBDEN2_BY4 | Go |
| 0x1EA | R490 | DPLL2_FBDEN2_BY3 | Go |
| 0x1EB | R491 | DPLL2_FBDEN2_BY2 | Go |
| 0x1EC | R492 | DPLL2_FBDEN2_BY1 | Go |
| 0x1ED | R493 | DPLL2_FBDEN2_BY0 | Go |
| 0x1EE | R494 | DPLL2_FBDIV_SEL | Go |
| 0x1EF | R495 | DPLL2_FBMASHCTL | Go |
| 0x1F0 | R496 | DPLL2_FBFDEV_BY4 | Go |
| 0x1F1 | R497 | DPLL2_FBFDEV_BY3 | Go |
| 0x1F2 | R498 | DPLL2_FBFDEV_BY2 | Go |
| 0x1F3 | R499 | DPLL2_FBFDEV_BY1 | Go |
| 0x1F4 | R500 | DPLL2_FBFDEV_BY0 | Go |
| 0x1F5 | R501 | DPLL2_FBFDEVUPDATE | Go |
| 0x1F6 | R502 | DPLL2_FBFDEVEN | Go |
| 0x1F7 | R503 | DPLL2_FBNUM_STAT_BY4 | Go |
| 0x1F8 | R504 | DPLL2_FBNUM_STAT_BY3 | Go |
| 0x1F9 | R505 | DPLL2_FBNUM_STAT_BY2 | Go |
| 0x1FA | R506 | DPLL2_FBNUM_STAT_BY1 | Go |
| 0x1FB | R507 | DPLL2_FBNUM_STAT_BY0 | Go |
| 0x1FC | R508 | DPLL2_REF_DBLR | Go |
| 0x1FD | R509 | DPLL2_REF0RDIV1 | Go |
| 0x1FE | R510 | DPLL2_REF0RDIV2 | Go |
| 0x1FF | R511 | DPLL2_REF1RDIV1 | Go |
| 0x200 | R512 | DPLL2_REF1RDIV2 | Go |
| 0x205 | R517 | DPLL2_REF4RDIV1 | Go |
| 0x206 | R518 | DPLL2_REF4RDIV2 | Go |
| 0x207 | R519 | DPLL2_REF5RDIV1 | Go |
| 0x208 | R520 | DPLL2_REF5RDIV2 | Go |
| 0x20B | R523 | DPLL3_REF1 | Go |
| 0x20D | R525 | DPLL3_REF3 | Go |
| 0x20E | R526 | DPLL3_REF4 | Go |
| 0x20F | R527 | DPLL3_REFSEL_STAT | Go |
| 0x210 | R528 | DPLL3_FDET_LCK_BY1 | Go |
| 0x211 | R529 | DPLL3_FDET_LCK_BY0 | Go |
| 0x212 | R530 | DPLL3_FDET_UNLCK_BY1 | Go |
| 0x213 | R531 | DPLL3_FDET_UNLCK_BY0 | Go |
| 0x214 | R532 | DPLL3_FDET2_CNTSTRT_BY3 | Go |
| 0x215 | R533 | DPLL3_FDET2_CNTSTRT_BY2 | Go |
| 0x216 | R534 | DPLL3_FDET2_CNTSTRT_BY1 | Go |
| 0x217 | R535 | DPLL3_FDET2_CNTSTRT_BY0 | Go |
| 0x218 | R536 | DPLL3_FDET_CNTSTRT_BY3 | Go |
| 0x219 | R537 | DPLL3_FDET_CNTSTRT_BY2 | Go |
| 0x21A | R538 | DPLL3_FDET_CNTSTRT_BY1 | Go |
| 0x21B | R539 | DPLL3_FDET_CNTSTRT_BY0 | Go |
| 0x21C | R540 | DPLL3_FDET_VCO_CNTSTRT_BY3 | Go |
| 0x21D | R541 | DPLL3_FDET_VCO_CNTSTRT_BY2 | Go |
| 0x21E | R542 | DPLL3_FDET_VCO_CNTSTRT_BY1 | Go |
| 0x21F | R543 | DPLL3_FDET_VCO_CNTSTRT_BY0 | Go |
| 0x220 | R544 | DPLL3_FDET_STATUS | Go |
| 0x223 | R547 | DPLL3_CTRL1 | Go |
| 0x224 | R548 | DPLL3_SCLR_BY1 | Go |
| 0x226 | R550 | DPLL3_PHOFF_BY5 | Go |
| 0x227 | R551 | DPLL3_PHOFF_BY4 | Go |
| 0x228 | R552 | DPLL3_PHOFF_BY3 | Go |
| 0x229 | R553 | DPLL3_PHOFF_BY2 | Go |
| 0x22A | R554 | DPLL3_PHOFF_BY1 | Go |
| 0x22B | R555 | DPLL3_PHOFF_BY0 | Go |
| 0x22C | R556 | DPLL3_FREERUN_BY4 | Go |
| 0x22D | R557 | DPLL3_FREERUN_BY3 | Go |
| 0x22E | R558 | DPLL3_FREERUN_BY2 | Go |
| 0x22F | R559 | DPLL3_FREERUN_BY1 | Go |
| 0x230 | R560 | DPLL3_FREERUN_BY0 | Go |
| 0x24E | R590 | DPLL3_LCKTMR_BY1 | Go |
| 0x24F | R591 | DPLL3_LCKTMR_BY0 | Go |
| 0x252 | R594 | DPLL3_HOLDTMR_BY1 | Go |
| 0x253 | R595 | DPLL3_HOLDTMR_BY0 | Go |
| 0x254 | R596 | DPLL3_PHS1TMR_BY1 | Go |
| 0x255 | R597 | DPLL3_PHS1TMR_BY0 | Go |
| 0x25B | R603 | DPLL3_PLLK | Go |
| 0x25C | R604 | DPLL3_PLUNLK | Go |
| 0x25D | R605 | DPLL3_PHS1LIM | Go |
| 0x262 | R610 | DPLL3_DBG2 | Go |
| 0x263 | R611 | DPLL3_DBG3 | Go |
| 0x266 | R614 | DPLL3_FBDIV_BY4 | Go |
| 0x267 | R615 | DPLL3_FBDIV_BY3 | Go |
| 0x268 | R616 | DPLL3_FBDIV_BY2 | Go |
| 0x269 | R617 | DPLL3_FBDIV_BY1 | Go |
| 0x26A | R618 | DPLL3_FBDIV_BY0 | Go |
| 0x26B | R619 | DPLL3_FBNUM_BY4 | Go |
| 0x26C | R620 | DPLL3_FBNUM_BY3 | Go |
| 0x26D | R621 | DPLL3_FBNUM_BY2 | Go |
| 0x26E | R622 | DPLL3_FBNUM_BY1 | Go |
| 0x26F | R623 | DPLL3_FBNUM_BY0 | Go |
| 0x270 | R624 | DPLL3_FBDEN_BY4 | Go |
| 0x271 | R625 | DPLL3_FBDEN_BY3 | Go |
| 0x272 | R626 | DPLL3_FBDEN_BY2 | Go |
| 0x273 | R627 | DPLL3_FBDEN_BY1 | Go |
| 0x274 | R628 | DPLL3_FBDEN_BY0 | Go |
| 0x275 | R629 | DPLL3_FBDIV2_BY4 | Go |
| 0x276 | R630 | DPLL3_FBDIV2_BY3 | Go |
| 0x277 | R631 | DPLL3_FBDIV2_BY2 | Go |
| 0x278 | R632 | DPLL3_FBDIV2_BY1 | Go |
| 0x279 | R633 | DPLL3_FBDIV2_BY0 | Go |
| 0x27A | R634 | DPLL3_FBNUM2_BY4 | Go |
| 0x27B | R635 | DPLL3_FBNUM2_BY3 | Go |
| 0x27C | R636 | DPLL3_FBNUM2_BY2 | Go |
| 0x27D | R637 | DPLL3_FBNUM2_BY1 | Go |
| 0x27E | R638 | DPLL3_FBNUM2_BY0 | Go |
| 0x27F | R639 | DPLL3_FBDEN2_BY4 | Go |
| 0x280 | R640 | DPLL3_FBDEN2_BY3 | Go |
| 0x281 | R641 | DPLL3_FBDEN2_BY2 | Go |
| 0x282 | R642 | DPLL3_FBDEN2_BY1 | Go |
| 0x283 | R643 | DPLL3_FBDEN2_BY0 | Go |
| 0x284 | R644 | DPLL3_FBDIV_SEL | Go |
| 0x285 | R645 | DPLL3_FBMASHCTL | Go |
| 0x286 | R646 | DPLL3_FBFDEV_BY4 | Go |
| 0x287 | R647 | DPLL3_FBFDEV_BY3 | Go |
| 0x288 | R648 | DPLL3_FBFDEV_BY2 | Go |
| 0x289 | R649 | DPLL3_FBFDEV_BY1 | Go |
| 0x28A | R650 | DPLL3_FBFDEV_BY0 | Go |
| 0x28B | R651 | DPLL3_FBFDEVUPDATE | Go |
| 0x28C | R652 | DPLL3_FBFDEVEN | Go |
| 0x28D | R653 | DPLL3_FBNUM_STAT_BY4 | Go |
| 0x28E | R654 | DPLL3_FBNUM_STAT_BY3 | Go |
| 0x28F | R655 | DPLL3_FBNUM_STAT_BY2 | Go |
| 0x290 | R656 | DPLL3_FBNUM_STAT_BY1 | Go |
| 0x291 | R657 | DPLL3_FBNUM_STAT_BY0 | Go |
| 0x292 | R658 | DPLL3_REF_DBLR | Go |
| 0x293 | R659 | DPLL3_REF0RDIV1 | Go |
| 0x294 | R660 | DPLL3_REF0RDIV2 | Go |
| 0x295 | R661 | DPLL3_REF1RDIV1 | Go |
| 0x296 | R662 | DPLL3_REF1RDIV2 | Go |
| 0x297 | R663 | DPLL3_REF2RDIV1 | Go |
| 0x298 | R664 | DPLL3_REF2RDIV2 | Go |
| 0x29D | R669 | DPLL3_REF5RDIV1 | Go |
| 0x29E | R670 | DPLL3_REF5RDIV2 | Go |
| 0x2C3 | R707 | APLL1_CP_RPU | Go |
| 0x2C4 | R708 | APLL1_CPG | Go |
| 0x2C5 | R709 | APLL1_LPF_R2 | Go |
| 0x2C6 | R710 | APLL1_LPF_R3 | Go |
| 0x2C7 | R711 | APLL1_LPF_R4 | Go |
| 0x2C8 | R712 | APLL1_LPF_C3C4 | Go |
| 0x2C9 | R713 | APLL1_RDIV_BY1 | Go |
| 0x2CA | R714 | APLL1_RDIV_BY0 | Go |
| 0x2CB | R715 | APLL1_RDIV_CTL | Go |
| 0x2CC | R716 | APLL1_NDIV_BY1 | Go |
| 0x2CD | R717 | APLL1_NDIV_BY0 | Go |
| 0x2CE | R718 | APLL1_NUM_MSB | Go |
| 0x2CF | R719 | APLL1_NUM_BY4 | Go |
| 0x2D0 | R720 | APLL1_NUM_BY3 | Go |
| 0x2D1 | R721 | APLL1_NUM_BY2 | Go |
| 0x2D2 | R722 | APLL1_NUM_BY1 | Go |
| 0x2D3 | R723 | APLL1_NUM_BY0 | Go |
| 0x2D4 | R724 | APLL1_MASH_CTL | Go |
| 0x2D5 | R725 | APLL1_NUM_STAT_BY4 | Go |
| 0x2D6 | R726 | APLL1_NUM_STAT_BY3 | Go |
| 0x2D7 | R727 | APLL1_NUM_STAT_BY2 | Go |
| 0x2D8 | R728 | APLL1_NUM_STAT_BY1 | Go |
| 0x2D9 | R729 | APLL1_NUM_STAT_BY0 | Go |
| 0x2DB | R731 | APLL1_VCO_PRIDIV_CTL | Go |
| 0x2DC | R732 | APLL1_VCO_SECDIV_CTL | Go |
| 0x2DD | R733 | APLL1_VCO_BUF_CTL | Go |
| 0x2E5 | R741 | APLL1_CALSTAT1 | Go |
| 0x305 | R773 | APLL2_CAL | Go |
| 0x309 | R777 | APLL2_CP_PU | Go |
| 0x30A | R778 | APLL2_CPG | Go |
| 0x30B | R779 | APLL2_LPF_R2 | Go |
| 0x30C | R780 | APLL2_LPF_R3 | Go |
| 0x30D | R781 | APLL2_LPF_R4 | Go |
| 0x30E | R782 | APLL2_LPF_C3C4 | Go |
| 0x30F | R783 | APLL2_RDIV_BY1 | Go |
| 0x310 | R784 | APLL2_RDIV_BY0 | Go |
| 0x311 | R785 | APLL2_RDIV_CTL | Go |
| 0x312 | R786 | APLL2_NDIV_BY1 | Go |
| 0x313 | R787 | APLL2_NDIV_BY0 | Go |
| 0x314 | R788 | APLL2_NUM_MSB | Go |
| 0x315 | R789 | APLL2_NUM_BY4 | Go |
| 0x316 | R790 | APLL2_NUM_BY3 | Go |
| 0x317 | R791 | APLL2_NUM_BY2 | Go |
| 0x318 | R792 | APLL2_NUM_BY1 | Go |
| 0x319 | R793 | APLL2_NUM_BY0 | Go |
| 0x31A | R794 | APLL2_MASH_CTL | Go |
| 0x31B | R795 | APLL2_NUM_STAT_BY4 | Go |
| 0x31C | R796 | APLL2_NUM_STAT_BY3 | Go |
| 0x31D | R797 | APLL2_NUM_STAT_BY2 | Go |
| 0x31E | R798 | APLL2_NUM_STAT_BY1 | Go |
| 0x31F | R799 | APLL2_NUM_STAT_BY0 | Go |
| 0x323 | R803 | APLL2_VCO_BUF_CTL | Go |
| 0x324 | R804 | APLL2_VCO_DIV | Go |
| 0x325 | R805 | APLL2_VCO_DRVR | Go |
| 0x32D | R813 | APLL2_CALSTAT1 | Go |
| 0x348 | R840 | APLL3_CPBLEED | Go |
| 0x349 | R841 | APLL3_CPG | Go |
| 0x34A | R842 | APLL3_LPF_R2 | Go |
| 0x34B | R843 | APLL3_LPF_R3 | Go |
| 0x34C | R844 | APLL3_LPF_R4 | Go |
| 0x34D | R845 | APLL3_LPF_C3C4 | Go |
| 0x34E | R846 | APLL3_RDIV_BY1 | Go |
| 0x34F | R847 | APLL3_RDIV_BY0 | Go |
| 0x350 | R848 | APLL3_RDIV_CTL | Go |
| 0x351 | R849 | APLL3_NDIV_BY1 | Go |
| 0x352 | R850 | APLL3_NDIV_BY0 | Go |
| 0x353 | R851 | APLL3_NUM_MSB | Go |
| 0x354 | R852 | APLL3_NUM_BY4 | Go |
| 0x355 | R853 | APLL3_NUM_BY3 | Go |
| 0x356 | R854 | APLL3_NUM_BY2 | Go |
| 0x357 | R855 | APLL3_NUM_BY1 | Go |
| 0x358 | R856 | APLL3_NUM_BY0 | Go |
| 0x359 | R857 | APLL3_MASH_CTL | Go |
| 0x35A | R858 | APLL3_NUM_STAT_BY4 | Go |
| 0x35B | R859 | APLL3_NUM_STAT_BY3 | Go |
| 0x35C | R860 | APLL3_NUM_STAT_BY2 | Go |
| 0x35D | R861 | APLL3_NUM_STAT_BY1 | Go |
| 0x35E | R862 | APLL3_NUM_STAT_BY0 | Go |
| 0x360 | R864 | APLL3_VCO_CTL | Go |
| 0x361 | R865 | APLL3_VCO_CTL2 | Go |
| 0x362 | R866 | APLL3_VCO_BUF_CTL | Go |
| 0x3C1 | R961 | OUT0_MODE | Go |
| 0x3C2 | R962 | OUT0_CTL | Go |
| 0x3C3 | R963 | OUT0_CTL | Go |
| 0x3C4 | R964 | OUT1_MODE | Go |
| 0x3C5 | R965 | OUT1_CTL | Go |
| 0x3C6 | R966 | OUT1_CTL | Go |
| 0x3C7 | R967 | OUT0_1_CMOS_CTL | Go |
| 0x3C8 | R968 | CH0_1_ZDLY | Go |
| 0x3C9 | R969 | CH0_1_CTL | Go |
| 0x3CC | R972 | CH0_1_MUX_CTL2 | Go |
| 0x3CD | R973 | CH0_1_MUX_CTL2 | Go |
| 0x3CE | R974 | CH0_1_CH0_STATIC_OFFSET_BY1 | Go |
| 0x3CF | R975 | CH0_1_CH0_STATIC_OFFSET_BY0 | Go |
| 0x3D0 | R976 | CH0_1_CH1_STATIC_OFFSET_BY1 | Go |
| 0x3D1 | R977 | CH0_1_CH1_STATIC_OFFSET_BY0 | Go |
| 0x3D2 | R978 | CH0_1_CH0_DIV_BY1 | Go |
| 0x3D3 | R979 | CH0_1_CH0_DIV_BY0 | Go |
| 0x3D4 | R980 | CH0_1_CH1_DIV_BY1 | Go |
| 0x3D5 | R981 | CH0_1_CH1_DIV_BY0 | Go |
| 0x3D6 | R982 | CH0_1_SR_ANA_DELAY | Go |
| 0x3D7 | R983 | CH0_1_SR_ANA_DELAY_CTL | Go |
| 0x3D8 | R984 | CH0_1_SR_DDLY | Go |
| 0x3D9 | R985 | CH0_1_SR_DIV_BY2 | Go |
| 0x3DA | R986 | CH0_1_SR_DIV_BY1 | Go |
| 0x3DB | R987 | CH0_1_SR_DIV_BY0 | Go |
| 0x3DC | R988 | CH0_1_SR_STATIC_OFFSET_BY1 | Go |
| 0x3DD | R989 | CH0_1_SR_STATIC_OFFSET_BY0 | Go |
| 0x3DE | R990 | CH0_1_SR_CTL | Go |
| 0x3DF | R991 | CH0_1_DFT | Go |
| 0x400 | R1024 | OUT2_MODE | Go |
| 0x401 | R1025 | OUT2_CTL | Go |
| 0x402 | R1026 | CH2_CTL | Go |
| 0x403 | R1027 | CH2_CTL2 | Go |
| 0x404 | R1028 | CH2_STATIC_OFFSET_BY1 | Go |
| 0x405 | R1029 | CH2_STATIC_OFFSET_BY0 | Go |
| 0x406 | R1030 | CH2_DIV_BY1 | Go |
| 0x407 | R1031 | CH2_DIV_BY0 | Go |
| 0x420 | R1056 | OUT3_MODE | Go |
| 0x421 | R1057 | OUT3_CTL | Go |
| 0x422 | R1058 | CH3_CTL | Go |
| 0x423 | R1059 | CH3_CTL2 | Go |
| 0x424 | R1060 | CH3_STATIC_OFFSET_BY1 | Go |
| 0x425 | R1061 | CH3_STATIC_OFFSET_BY0 | Go |
| 0x426 | R1062 | CH3_DIV_BY1 | Go |
| 0x427 | R1063 | CH3_DIV_BY0 | Go |
| 0x440 | R1088 | CH4_5_SR_ANA_DLY_TRIM | Go |
| 0x441 | R1089 | OUT4_MODE | Go |
| 0x442 | R1090 | OUT4_CTL | Go |
| 0x443 | R1091 | OUT5_MODE | Go |
| 0x444 | R1092 | OUT5_CTL | Go |
| 0x445 | R1093 | CH4_5_CTL | Go |
| 0x446 | R1094 | CH4_5_CTL2 | Go |
| 0x447 | R1095 | CH4_5_STATIC_OFFSET_BY1 | Go |
| 0x448 | R1096 | CH4_5_STATIC_OFFSET_BY0 | Go |
| 0x449 | R1097 | CH4_5_DIV_BY1 | Go |
| 0x44A | R1098 | CH4_5_DIV_BY0 | Go |
| 0x44B | R1099 | CH4_5_SR_ANA_DELAY | Go |
| 0x44C | R1100 | CH4_5_SR_ANA_DELAY_CTL | Go |
| 0x44D | R1101 | CH4_5_SR_DDLY | Go |
| 0x44E | R1102 | CH4_5_SR_DIV_BY2 | Go |
| 0x44F | R1103 | CH4_5_SR_DIV_BY1 | Go |
| 0x450 | R1104 | CH4_5_SR_DIV_BY0 | Go |
| 0x451 | R1105 | CH4_5_SR_STATIC_OFFSET_BY1 | Go |
| 0x452 | R1106 | CH4_5_SR_STATIC_OFFSET_BY0 | Go |
| 0x453 | R1107 | CH4_5_SR_PULSE_CTL | Go |
| 0x454 | R1108 | CH4_5_DFT | Go |
| 0x461 | R1121 | OUT6_MODE | Go |
| 0x462 | R1122 | OUT6_CTL | Go |
| 0x463 | R1123 | OUT7_MODE | Go |
| 0x464 | R1124 | OUT7_CTL | Go |
| 0x465 | R1125 | CH6_7_CTL | Go |
| 0x466 | R1126 | CH6_7_CTL2 | Go |
| 0x467 | R1127 | CH6_7_STATIC_OFFSET_BY1 | Go |
| 0x468 | R1128 | CH6_7_STATIC_OFFSET_BY0 | Go |
| 0x469 | R1129 | CH6_7_DIV_BY1 | Go |
| 0x46A | R1130 | CH6_7_DIV_BY0 | Go |
| 0x46B | R1131 | CH6_7_SR_ANA_DELAY | Go |
| 0x46C | R1132 | CH6_7_SR_ANA_DELAY_CTL | Go |
| 0x46D | R1133 | CH6_7_SR_DDLY | Go |
| 0x46E | R1134 | CH6_7_SR_DIV_BY2 | Go |
| 0x46F | R1135 | CH6_7_SR_DIV_BY1 | Go |
| 0x470 | R1136 | CH6_7_SR_DIV_BY0 | Go |
| 0x471 | R1137 | CH6_7_SR_STATIC_OFFSET_BY1 | Go |
| 0x472 | R1138 | CH6_7_SR_STATIC_OFFSET_BY0 | Go |
| 0x473 | R1139 | CH6_7_SR_PULSE_CTL | Go |
| 0x474 | R1140 | CH6_7_DFT | Go |
| 0x481 | R1153 | OUT8_MODE | Go |
| 0x482 | R1154 | OUT8_CTL | Go |
| 0x483 | R1155 | OUT9_MODE | Go |
| 0x484 | R1156 | OUT9_CTL | Go |
| 0x485 | R1157 | CH8_9_CTL | Go |
| 0x486 | R1158 | CH8_9_CTL2 | Go |
| 0x487 | R1159 | CH8_9_STATIC_OFFSET_BY1 | Go |
| 0x488 | R1160 | CH8_9_STATIC_OFFSET_BY0 | Go |
| 0x489 | R1161 | CH8_9_DIV_BY1 | Go |
| 0x48A | R1162 | CH8_9_DIV_BY0 | Go |
| 0x48B | R1163 | CH8_9_SR_ANA_DELAY | Go |
| 0x48C | R1164 | CH8_9_SR_ANA_DELAY_CTL | Go |
| 0x48D | R1165 | CH8_9_SR_DDLY | Go |
| 0x48E | R1166 | CH8_9_SR_DIV_BY2 | Go |
| 0x48F | R1167 | CH8_9_SR_DIV_BY1 | Go |
| 0x490 | R1168 | CH8_9_SR_DIV_BY0 | Go |
| 0x491 | R1169 | CH8_9_SR_STATIC_OFFSET_BY1 | Go |
| 0x492 | R1170 | CH8_9_SR_STATIC_OFFSET_BY0 | Go |
| 0x493 | R1171 | CH8_9_SR_PULSE_CTL | Go |
| 0x4A1 | R1185 | OUT10_MODE | Go |
| 0x4A2 | R1186 | OUT10_CTL | Go |
| 0x4A3 | R1187 | OUT11_MODE | Go |
| 0x4A4 | R1188 | OUT11_CTL | Go |
| 0x4A5 | R1189 | CH10_11_CTL | Go |
| 0x4A6 | R1190 | CH10_11_CTL2 | Go |
| 0x4A7 | R1191 | CH10_11_STATIC_OFFSET_BY1 | Go |
| 0x4A8 | R1192 | CH10_11_STATIC_OFFSET_BY0 | Go |
| 0x4A9 | R1193 | CH10_11_DIV_BY1 | Go |
| 0x4AA | R1194 | CH10_11_DIV_BY0 | Go |
| 0x4AB | R1195 | CH10_11_SR_ANA_DELAY | Go |
| 0x4AC | R1196 | CH10_11_SR_ANA_DELAY_CTL | Go |
| 0x4AD | R1197 | CH10_11_SR_DDLY | Go |
| 0x4AE | R1198 | CH10_11_SR_DIV_BY2 | Go |
| 0x4AF | R1199 | CH10_11_SR_DIV_BY1 | Go |
| 0x4B0 | R1200 | CH10_11_SR_DIV_BY0 | Go |
| 0x4B1 | R1201 | CH10_11_SR_STATIC_OFFSET_BY1 | Go |
| 0x4B2 | R1202 | CH10_11_SR_STATIC_OFFSET_BY0 | Go |
| 0x4B3 | R1203 | CH10_11_SR_PULSE_CTL | Go |
| 0x4B4 | R1204 | CH10_11_DFT | Go |
| 0x4C1 | R1217 | OUT12_MODE | Go |
| 0x4C2 | R1218 | OUT12_CTL | Go |
| 0x4C3 | R1219 | OUT13_MODE | Go |
| 0x4C4 | R1220 | OUT12_CTL | Go |
| 0x4C5 | R1221 | CH12_13_CTL | Go |
| 0x4C6 | R1222 | CH12_13_CTL2 | Go |
| 0x4C7 | R1223 | CH12_13_STATIC_OFFSET_BY1 | Go |
| 0x4C8 | R1224 | CH12_13_STATIC_OFFSET_BY0 | Go |
| 0x4C9 | R1225 | CH12_13_DIV_BY1 | Go |
| 0x4CA | R1226 | CH12_13_DIV_BY0 | Go |
| 0x4CB | R1227 | CH12_13_SR_ANA_DELAY | Go |
| 0x4CC | R1228 | CH12_13_SR_ANA_DELAY_CTL | Go |
| 0x4CD | R1229 | CH12_13_SR_DDLY | Go |
| 0x4CE | R1230 | CH12_13_SR_DIV_BY2 | Go |
| 0x4CF | R1231 | CH12_13_SR_DIV_BY1 | Go |
| 0x4D0 | R1232 | CH12_13_SR_DIV_BY0 | Go |
| 0x4D1 | R1233 | CH12_13_SR_STATIC_OFFSET_BY1 | Go |
| 0x4D2 | R1234 | CH12_13_SR_STATIC_OFFSET_BY0 | Go |
| 0x4D3 | R1235 | CH12_13_SR_PULSE_CTL | Go |
| 0x4D4 | R1236 | CH12_13_DFT | Go |
| 0x4E0 | R1248 | OUT14_MODE | Go |
| 0x4E1 | R1249 | OUT14_CTL | Go |
| 0x4E2 | R1250 | CH14_CTL | Go |
| 0x4E3 | R1251 | CH14_CTL2 | Go |
| 0x4E4 | R1252 | CH14_STATIC_OFFSET_BY1 | Go |
| 0x4E5 | R1253 | CH14_STATIC_OFFSET_BY0 | Go |
| 0x4E6 | R1254 | CH14_DIV_BY1 | Go |
| 0x4E7 | R1255 | CH14_DIV_BY0 | Go |
| 0x500 | R1280 | OUT15_MODE | Go |
| 0x501 | R1281 | OUT15_CTL | Go |
| 0x502 | R1282 | CH15_CTL | Go |
| 0x503 | R1283 | CH15_CTL2 | Go |
| 0x504 | R1284 | CH15_STATIC_OFFSET_BY1 | Go |
| 0x505 | R1285 | CH15_STATIC_OFFSET_BY0 | Go |
| 0x506 | R1286 | CH15_DIV_BY1 | Go |
| 0x507 | R1287 | CH15_DIV_BY0 | Go |
Complex bit access types are encoded to fit into small table cells. Table 1-2 shows the codes that are used for access types in this section.
| Access Type | Code | Description |
|---|---|---|
| Read Type | ||
| R | R | Read |
| Write Type | ||
| W | W | Write |
| WSC | W | Write |
| Reset or Default Value | ||
| - n | Value after reset or the default value | |
R0 is shown in Table 1-3.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | VNDRID_15:8 | R | 0x10 | See Register 1 |
R1 is shown in Table 1-4.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | VNDRID | R | 0xB | Vendor Identification Number. The Vendor Identification Number is a unique 16-bit identification number assigned to I2C/SMBus vendors.
ROM=N, EEPROM=N |
R2 is shown in Table 1-5.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRODID | R | 0x40 | Product ID
ROM=N, EEPROM=N |
R3 is shown in Table 1-6.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REVID | R | 0x5 | Revision ID.
LMK5C33216 = 0x05 ROM=N, EEPROM=N |
R16 is shown in Table 1-7.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMCNT | R | 0x0 | NVM Program Count. The NVMCNT increments automatically after every EEPROM Erase/Program Cycle. The NVMCNT value is retreived automatically after reset, after a NVM Commit operation, or after a Erase/Program cycle. The NVMCNT register will increment until it reaches it's maximum value of 255 after which no further increments will take place.
ROM=N, EEPROM=Y |
R18 is shown in Table 1-8.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | SLAVEADR_MSB | R | 0x0 | I2C/SMBus Slave Address. This field holds the 5 MSB bits of the Slave Address used to identify this device during I2C/SMBus transactions. The two least significant bits of the Slave Address are defined by CSC/ADD/TOD pin upon power-up. This is user writeable to EEPROM only through SRAM register at address 12.
ROM=N, EEPROM=Y |
R19 is shown in Table 1-9.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | EEREV | R/W | 0x0 | EEPROM Image Revision ID. EEPROM Image Revision is automatically retrieved from EEPROM and stored in the EEREV register after areset or after a NVM commit operation. This is user writeable to EEPROM only through SRAM register address 13.
ROM=N, EEPROM=Y |
R20 is shown in Table 1-10.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | ROM_PLUS_EE | R/W | 0x0 | When set, the thin EEPROM settings are loaded. This is user writeable to EEPROM only through SRAM register address 14.
ROM=N, EEPROM=Y |
| 6:3 | EE_ROM_PAGE_SEL | R/W | 0x0 | EE_ROM_PAGE_SEL value is added to the GPIO pin value for selecting the start-up ROM.
ROM=N, EEPROM=Y |
| 2:0 | RESERVED | R | 0x0 | Reserved |
R21 is shown in Table 1-11.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | SPI_3WIRE_DIS | R/W | 0x1 | Disable SPI 3 wire readback.
ROM=Y, EEPROM=N 0x0 = 3-wire SPI readback enabled 0x1 = 3-wire SPI readback disabled |
| 6 | SYNC_SW | R/W | 0x0 | Software SYNC Assertion. Writing a '1' to this bit is equivalent to asserting the SYNC pin. SYNC_EN must also be set to 1.
ROM=Y, EEPROM=Y |
| 5:0 | RESERVED | R | 0x0 | Reserved |
R22 is shown in Table 1-12.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL3_EN | R/W | 0x1 | Enable DPLL3.
ROM=Y, EEPROM=N |
| 4 | APLL3_EN | R/W | 0x1 | Enable APLL3.
ROM=Y, EEPROM=Y |
| 3 | DPLL2_EN | R/W | 0x1 | Enable DPLL2.
ROM=Y, EEPROM=N |
| 2 | APLL2_EN | R/W | 0x1 | Enable APLL2.
ROM=Y, EEPROM=Y |
| 1 | DPLL1_EN | R/W | 0x0 | Enable DPLL1.
ROM=Y, EEPROM=N |
| 0 | APLL1_EN | R/W | 0x1 | Enable APLL1.
ROM=Y, EEPROM=Y |
R23 is shown in Table 1-13.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | SWRST | R/W | 0x0 | Software Reset ALL functions (active low). Writing a '0' will cause the device to return to its power-up state apart from the I2C registers and the configuration controller. The configuration controller is excluded to prevent an re-transfer of EEPROM data to on-chip registers. Not a self clearing field.
ROM=N, EEPROM=N |
| 5:0 | RESERVED | R | 0x0 | Reserved |
R24 is shown in Table 1-14.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | APLL3_STRT_PRTY | R/W | 0x0 | APLL3 Startup Priority. 0 is highest priority. APLLs with the same priority will start simultaneously.
ROM=Y, EEPROM=Y |
| 3:2 | APLL2_STRT_PRTY | R/W | 0x0 | APLL2 Startup Priority. 0 is highest priority. APLLs with the same priority will start simultaneously.
ROM=Y, EEPROM=Y |
| 1:0 | APLL1_STRT_PRTY | R/W | 0x1 | APLL1 Startup Priority. 0 is highest priority. APLLs with the same priority will start simultaneously.
ROM=Y, EEPROM=Y |
R25 is shown in Table 1-15.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:1 | RESERVED | R | 0x0 | Reserved |
| 0 | SYNC_EN | R/W | 0x0 | Allows SYNC from SYNC_SW and GPIO pin. For GPIO sync, must be set together with SYNC input for GPIOx_MODE.
ROM=Y, EEPROM=Y |
R26 is shown in Table 1-16.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:1 | RESERVED | R | 0x0 | Reserved |
| 0 | SYSREF_REQ_SW | R/WSC | 0x0 | Software SYSREF request trigger
ROM=N, EEPROM=N |
R27 is shown in Table 1-17.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TOD_CNTR_39:32 | R | 0x0 | Time of Day Readback
ROM=N, EEPROM=N |
R28 is shown in Table 1-18.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TOD_CNTR_31:24 | R | 0x0 | Time of Day Readback
ROM=N, EEPROM=N |
R29 is shown in Table 1-19.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TOD_CNTR_23:16 | R | 0x0 | Time of Day Readback
ROM=N, EEPROM=N |
R30 is shown in Table 1-20.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TOD_CNTR_15:8 | R | 0x0 | Time of Day Readback
ROM=N, EEPROM=N |
R31 is shown in Table 1-21.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TOD_CNTR | R | 0x0 | Time of Day Readback
ROM=N, EEPROM=N |
R32 is shown in Table 1-22.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2 | RESERVED | R | 0x0 | Reserved |
| 1 | TOD_CNTR_TRIG_SEL | R/W | 0x0 | Time of Day trigger select. If using GPIO, must also set GPIOx_MODE to provide ToD trigger.
ROM=Y, EEPROM=N 0x0 = SPI 0x1 = GPIO |
| 0 | TOD_CNTR_EN | R/W | 0x0 | Time of Day counter enable. When transitioning from 0 --> 1, the ToD counter will start from 0.
ROM=Y, EEPROM=N |
R33 is shown in Table 1-23.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1 | R | 0x0 | Loss of Lock - APLL1
ROM=N, EEPROM=N |
| 2 | LOL_PLL2 | R | 0x0 | Loss of Lock - APLL2
ROM=N, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO | R | 0x0 | Loss of Source Freq Detection - XO
ROM=N, EEPROM=N |
R34 is shown in Table 1-24.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1 | R | 0x0 | Loss of Phase Lock - DPLL1
ROM=N, EEPROM=N |
| 6 | LOFL_DPLL1 | R | 0x0 | Loss of Frequency Lock - DPLL1
ROM=N, EEPROM=N |
| 5 | HIST1 | R | 0x0 | Tuning word history update - DPLL1
ROM=N, EEPROM=N |
| 4 | HLDOVR1 | R | 0x0 | Holdover event - DPLL1
ROM=N, EEPROM=N |
| 3 | REFSWITCH1 | R | 0x0 | Reference Switchover - DPLL1
ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK1 | R | 0x0 | Loss of Active Reference - Missing Clock - DPLL1
ROM=N, EEPROM=N |
| 1 | LOR_FREQ1 | R | 0x0 | Loss of Active Reference - Frequency - DPLL1
ROM=N, EEPROM=N |
| 0 | LOR_PH1 | R | 0x0 | Loss of Active Reference - Phase - DPLL1
ROM=N, EEPROM=N |
R35 is shown in Table 1-25.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2 | R | 0x0 | Loss of Phase Lock - DPLL2
ROM=N, EEPROM=N |
| 6 | LOFL_DPLL2 | R | 0x0 | Loss of Frequency Lock - DPLL2
ROM=N, EEPROM=N |
| 5 | HIST2 | R | 0x0 | Tuning word history update - DPLL2
ROM=N, EEPROM=N |
| 4 | HLDOVR2 | R | 0x0 | Holdover event - DPLL2
ROM=N, EEPROM=N |
| 3 | REFSWITCH2 | R | 0x0 | Reference Switchover - DPLL2
ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK2 | R | 0x0 | Loss of Active Reference - Missinig Clock - DPLL2
ROM=N, EEPROM=N |
| 1 | LOR_FREQ2 | R | 0x0 | Loss of Active Reference - Frequency - DPLL2
ROM=N, EEPROM=N |
| 0 | LOR_PH2 | R | 0x0 | Loss of Active Reference - Phase - DPLL2
ROM=N, EEPROM=N |
R36 is shown in Table 1-26.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3 | R | 0x0 | Loss of Phase Lock - DPLL3
ROM=N, EEPROM=N |
| 6 | LOFL_DPLL3 | R | 0x0 | Loss of Frequency Lock - DPLL3
ROM=N, EEPROM=N |
| 5 | HIST3 | R | 0x0 | Tuning word history update - DPLL3
ROM=N, EEPROM=N |
| 4 | HLDOVR3 | R | 0x0 | Holdover event - DPLL3
ROM=N, EEPROM=N |
| 3 | REFSWITCH3 | R | 0x0 | Reference Switchover - DPLL3
ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK3 | R | 0x0 | Loss of Active Reference - Missinig Clock - DPLL3
ROM=N, EEPROM=N |
| 1 | LOR_FREQ3 | R | 0x0 | Loss of Active Reference - Frequency - DPLL3
ROM=N, EEPROM=N |
| 0 | LOR_PH3 | R | 0x0 | Loss of Active Reference - Phase - DPLL3
ROM=N, EEPROM=N |
R37 is shown in Table 1-27.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1_MASK | R/W | 0x0 | Masks Loss of Lock - APLL1. When LOL_PLL1_MASK is 1 then the LOL_PLL1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 2 | LOL_PLL2_MASK | R/W | 0x0 | Masks Loss of Lock - APLL2. When LOL_PLL2_MASK is 1 then the LOL_PLL2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO_MASK | R/W | 0x0 | Masks Loss of Source Freq Detection - XO. When LOS_FDET_XO_MASK is 1 then the LOS_FDET_XO interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
R38 is shown in Table 1-28.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1_MASK | R/W | 0x1 | Masks Loss of Phase Lock - DPLL1. When LOPL_DPLL1_MASK is 1 then the LOPL_DPLL1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL1_MASK | R/W | 0x1 | Masks Loss of Freq Lock - DPLL1. When LOFL_DPLL1_MASK is 1 then the LOFL_DPLL1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 5 | HIST1_MASK | R/W | 0x1 | Masks Tuning word history update - DPLL1. When HIST1_MASK is 1 then the HIST1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 4 | HLDOVR1_MASK | R/W | 0x1 | Masks Holdover event - DPLL1. When HLDOVR1_MASK is 1 then the HLDOVR1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 3 | REFSWITCH1_MASK | R/W | 0x1 | Masks Reference Switchover - DPLL1. When REFSWITCH1_MASK is 1 then the REFSWITCH1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK1_MASK | R/W | 0x1 | Masks Loss of Active Reference - Missinig Clock - DPLL1. When LOR_MISSCLK1_MASK is 1 then the LOR_MISSCLK1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ1_MASK | R/W | 0x1 | Masks Loss of Active Reference - Frequency - DPLL1. When LOR_FREQ1_MASK is 1 then the LOR_FREQ1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 0 | LOR_PH1_MASK | R/W | 0x1 | Masks Loss of Active Reference - Phase - DPLL1. When LOR_PH1_MASK is 1 then the LOR_PH1 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
R39 is shown in Table 1-29.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2_MASK | R/W | 0x0 | Masks Loss of Phase Lock - DPLL2. When LOPL_DPLL2_MASK is 1 then the LOPL_DPLL2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL2_MASK | R/W | 0x0 | Masks Loss of Freq Lock - DPLL2. When LOFL_DPLL2_MASK is 1 then the LOFL_DPLL2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 5 | HIST2_MASK | R/W | 0x1 | Masks Tuning word history update - DPLL2. When HIST2_MASK is 1 then the HIST2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 4 | HLDOVR2_MASK | R/W | 0x0 | Masks Holdover event - DPLL2. When HLDOVR2_MASK is 1 then the HLDOVR2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 3 | REFSWITCH2_MASK | R/W | 0x0 | Masks Reference Switchover - DPLL2. When REFSWITCH2_MASK is 1 then the REFSWITCH2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK2_MASK | R/W | 0x0 | Masks Loss of Active Reference - Missing Clock - DPLL2. When LOR_MISSCLK2_MASK is 1 then the LOR_MISSCLK2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ2_MASK | R/W | 0x0 | Masks Loss of Active Reference - Frequency - DPLL2. When LOR_FREQ2_MASK is 1 then the LOR_FREQ2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 0 | LOR_PH2_MASK | R/W | 0x0 | Masks Loss of Active Reference - Phase - DPLL2. When LOR_PH2_MASK is 1 then the LOR_PH2 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
R40 is shown in Table 1-30.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3_MASK | R/W | 0x0 | Masks Loss of Phase Lock - DPLL3. When LOPL_DPLL3_MASK is 1 then the LOPL_DPLL3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL3_MASK | R/W | 0x0 | Masks Loss of Freq Lock - DPLL3. When LOFL_DPLL3_MASK is 1 then the LOFL_DPLL3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 5 | HIST3_MASK | R/W | 0x1 | Masks Tuning word history update - DPLL3. When HIST3_MASK is 1 then the HIST3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 4 | HLDOVR3_MASK | R/W | 0x0 | Masks Holdover event - DPLL3. When HLDOVR3_MASK is 1 then the HLDOVR3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 3 | REFSWITCH3_MASK | R/W | 0x0 | Masks Reference Switchover - DPLL3. When REFSWITCH3_MASK is 1 then the REFSWITCH3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK3_MASK | R/W | 0x0 | Masks Loss of Active Reference - Missinig Clock - DPLL3. When LOR_MISSCLK3_MASK is 1 then the LOR_MISSCLK3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ3_MASK | R/W | 0x0 | Masks Loss of Active Reference - Frequency - DPLL3. When LOR_FREQ3_MASK is 1 then the LOR_FREQ3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 0 | LOR_PH3_MASK | R/W | 0x0 | Masks Loss of Active Reference - Phase - DPLL3. When LOR_PH3_MASK is 1 then the LOR_PH3 interrupt source is masked and will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
R41 is shown in Table 1-31.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1_POL | R/W | 0x0 | LOL_PLL1 Flag Polarity. When LOL_PLL1_POL is 1 then a high on LOL_PLL1 will set the LOL_PLL1_INTR bit in register R45. When LOL_PLL1_POL is 0 then a low on LOL_PLL1 will set the LOL_PLL1_INTR bit.
ROM=Y, EEPROM=N |
| 2 | LOL_PLL2_POL | R/W | 0x0 | LOL_PLL2 Flag Polarity. When LOL_PLL2_POL is 1 then a high on LOL_PLL2 will set the LOL_PLL2_INTR bit in register R45. When LOL_PLL2_POL is 0 then a low on LOL_PLL2 will set the LOL_PLL2_INTR bit.
ROM=Y, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO_POL | R/W | 0x0 | LOS_FDET_XO Flag Polarity. When LOS_FDET_XO_POL is 1 then a high on LOS_FDET_XO will set the LOS_FDET_XO_INTR bit in register R45. When LOS_FDET_XO_POL is 0 then a low on LOS_FDET_XO will set the LOS_FDET_XO_INTR bit.
ROM=Y, EEPROM=N |
R42 is shown in Table 1-32.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1_POL | R/W | 0x0 | LOPL_DPLL1 Flag Polarity. When LOPL_DPLL1_POL is 1 then a high on LOPL_DPLL1 will set the LOPL_DPLL1_INTR bit in register R46. When LOPL_DPLL1_POL is 0 then a low on LOPL_DPLL1 will set the LOPL_DPLL1_INTR bit.
ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL1_POL | R/W | 0x0 | LOFL_DPLL1 Flag Polarity. When LOFL_DPLL1_POL is 1 then a high on LOFL_DPLL1 will set the LOFL_DPLL1_INTR bit in register R46. When LOFL_DPLL1_POL is 0 then a low on LOFL_DPLL1 will set the LOFL_DPLL1_INTR bit.
ROM=Y, EEPROM=N |
| 5 | HIST1_POL | R/W | 0x0 | HIST1 Flag Polarity. When HIST1_POL is 1 then a high on HIST1 will set the HIST1_INTR bit in register R46. When HIST1_POL is 0 then a low on HIST1 will set the HIST1_INTR bit.
ROM=Y, EEPROM=N |
| 4 | HLDOVR1_POL | R/W | 0x0 | HLDOVR1 Flag Polarity. When HLDOVR1_POL is 1 then a high on HLDOVR1 will set the HLDOVR1_INTR bit in register R46. When HLDOVR1_POL is 0 then a low on HLDOVR1 will set the HLDOVR1_INTR bit.
ROM=Y, EEPROM=N |
| 3 | REFSWITCH1_POL | R/W | 0x0 | REFSWITCH1 Flag Polarity. When REFSWITCH1_POL is 1 then a high on REFSWITCH1 will set the REFSWITCH1_INTR bit in register R46. When REFSWITCH1_POL is 0 then a low on REFSWITCH1 will set the REFSWITCH1_INTR bit.
ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK1_POL | R/W | 0x0 | LOR_MISSCLK1 Flag Polarity. When LOR_MISSCLK1_POL is 1 then a high on LOR_MISSCLK1 will set the LOR_MISSCLK1_INTR in R40. When LOR_MISSCLK1_POL is 0 then a low on LOR_MISSCLK1 will set the LOR_MISSCLK1_INTR bit.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ1_POL | R/W | 0x0 | LOR_FREQ1 Flag Polarity. When LOR_FREQ1_POL is 1 then a high on LOR_FREQ1 will set the LOR_FREQ1_INTR in register R46. When LOR_FREQ1_POL is 0 then a low on LOR_FREQ1 will set the LOR_FREQ1_INTR bit.
ROM=Y, EEPROM=N |
| 0 | LOR_PH1_POL | R/W | 0x0 | LOR_PH1 Flag Polarity. When LOR_PH1_POL is 1 then a high on LOR_PH1 will set the LOR_PH1_INTR bit in register R46. When LOR_PH1_POL is 0 then a low on LOR_PH1 will set the LOR_PH1_INTR bit.
ROM=Y, EEPROM=N |
R43 is shown in Table 1-33.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2_POL | R/W | 0x0 | LOPL_DPLL2 Flag Polarity. When LOPL_DPLL2_POL is 1 then a high on LOPL_DPLL2 will set the LOPL_DPLL2_INTR in register R47. When LOPL_DPLL2_POL is 0 then a low on LOPL_DPLL2 will set the LOPL_DPLL2_INTR bit.
ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL2_POL | R/W | 0x0 | LOFL_DPLL2 Flag Polarity. When LOFL_DPLL2_POL is 1 then a high on LOFL_DPLL2 will set the LOFL_DPLL2_INTR bit in register R47. When LOFL_DPLL2_POL is 0 then a low on LOFL_DPLL2 will set the LOFL_DPLL2_INTR bit.
ROM=Y, EEPROM=N |
| 5 | HIST2_POL | R/W | 0x0 | HIST2 Flag Polarity. When HIST2_POL is 1 then a high on HIST2 will set the HIST2_INTR bit in register R47. When HIST2_POL is 0 then a low on HIST2 will set the HIST2_INTR bit.
ROM=Y, EEPROM=N |
| 4 | HLDOVR2_POL | R/W | 0x0 | HLDOVR2 Flag Polarity. When HLDOVR2_POL is 1 then a high on HLDOVR2 will set the HLDOVR2_INTR bit in register R47. When HLDOVR2_POL is 0 then a low on HLDOVR2 will set the HLDOVR2_INTR bit.
ROM=Y, EEPROM=N |
| 3 | REFSWITCH2_POL | R/W | 0x0 | REFSWITCH2 Flag Polarity. When REFSWITCH2_POL is 1 then a high on REFSWITCH2 will set the REFSWITCH2_INTR in R41. When REFSWITCH2_POL is 0 then a low on REFSWITCH2 will set the REFSWITCH2_INTR bit.
ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK2_POL | R/W | 0x0 | LOR_MISSCLK2 Flag Polarity. When LOR_MISSCLK2_POL is 1 then a high on LOR_MISSCLK2 will set the LOR_MISSCLK2_INTR bit in register R47. When LOR_MISSCLK2_POL is 0 then a low on LOR_MISSCLK2 will set the LOR_MISSCLK2_INTR bit.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ2_POL | R/W | 0x0 | LOR_FREQ2 Flag Polarity. When LOR_FREQ2_POL is 1 then a high on LOR_FREQ2 will set the LOR_FREQ2_INTR bit in register R47. When LOR_FREQ2_POL is 0 then a low on LOR_FREQ2 will set the LOR_FREQ2_INTR bit.
ROM=Y, EEPROM=N |
| 0 | LOR_PH2_POL | R/W | 0x0 | LOR_FREQ2 Flag Polarity. When LOR_FREQ2_POL is 1 then a high on LOR_FREQ2 will set the LOR_FREQ2_INTR in R41. When LOR_FREQ2_POL is 0 then a low on LOR_FREQ2 will set the LOR_FREQ2_INTR bit.
ROM=Y, EEPROM=N |
R44 is shown in Table 1-34.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3_POL | R/W | 0x0 | LOPL_DPLL3 Flag Polarity. When LOPL_DPLL3_POL is 1 then a high on LOPL_DPLL3 will set the LOPL_DPLL3_INTR bit in register R48. When LOPL_DPLL3_POL is 0 then a low on LOPL_DPLL3 will set the LOPL_DPLL3_INTR bit.
ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL3_POL | R/W | 0x0 | LOFL_DPLL3 Flag Polarity. When LOFL_DPLL3_POL is 1 then a high on LOFL_DPLL3 will set the LOFL_DPLL3_INTR bit in register R48. When LOFL_DPLL3_POL is 0 then a low on LOFL_DPLL3 will set the LOFL_DPLL3_INTR bit.
ROM=Y, EEPROM=N |
| 5 | HIST3_POL | R/W | 0x0 | HIST3 Flag Polarity. When HIST3_POL is 1 then a high on HIST3 will set the HIST3_INTR bit in register R48. When HIST3_POL is 0 then a low on HIST3 will set the HIST3_INTR bit.
ROM=Y, EEPROM=N |
| 4 | HLDOVR3_POL | R/W | 0x0 | HLDOVR3 Flag Polarity. When HLDOVR3_POL is 1 then a high on HLDOVR3 will set the HLDOVR3_INTR bit in register R48. When HLDOVR3_POL is 0 then a low on HLDOVR3 will set the HLDOVR3_INTR bit.
ROM=Y, EEPROM=N |
| 3 | REFSWITCH3_POL | R/W | 0x0 | REFSWITCH3 Flag Polarity. When REFSWITCH3_POL is 1 then a high on REFSWITCH3 will set the REFSWITCH3_INTR bit in register R48. When REFSWITCH3_POL is 0 then a low on REFSWITCH3 will set the REFSWITCH3_INTR bit.
ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK3_POL | R/W | 0x0 | LOR_MISSCLK3 Flag Polarity. When LOR_MISSCLK3_POL is 1 then a high on LOR_MISSCLK3 will set the LOR_MISSCLK3_INTR bit in register R48. When LOR_MISSCLK3_POL is 0 then a low on LOR_MISSCLK3 will set the LOR_MISSCLK3_INTR bit.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ3_POL | R/W | 0x0 | LOR_FREQ3 Flag Polarity. When LOR_FREQ3_POL is 1 then a high on LOR_FREQ3 will set the LOR_FREQ3_INTR in R42. When LOR_FREQ3_POL is 0 then a low on LOR_FREQ3 will set the LOR_FREQ3_INTR bit.
ROM=Y, EEPROM=N |
| 0 | LOR_PH3_POL | R/W | 0x0 | LOR_PH3 Flag Polarity. When LOR_PH3_POL is 1 then a high on LOR_PH3 will set the LOR_PH3_INTR bit in register R48. When LOR_PH3_POL is 0 then a low on LOR_PH3 will set the LOR_PH3_INTR bit.
ROM=Y, EEPROM=N |
R45 is shown in Table 1-35.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1_INTR | R | 0x0 | LOL_PLL1 Interrupt. The LOL_PLL1_INTR bit is set when a level of the correct polarity is detected on the LOL_PLL1 interrupt source. The LOL_PLL1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 2 | LOL_PLL2_INTR | R | 0x0 | LOL_PLL2 Interrupt. The LOL_PLL2_INTR bit is set when a level of the correct polarity is detected on the LOL_PLL2 interrupt source. The LOL_PLL2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO_INTR | R | 0x0 | LOL_FDET_XO Interrupt. The LOL_FDET_XO_INTR bit is set when a level of the correct polarity is detected on the LOL_FDET_XO interrupt source. The LOL_FDET_XO_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
R46 is shown in Table 1-36.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1_INTR | R | 0x0 | LOPL_DPLL1 Interrupt. The LOPL_DPLL1_INTR bit is set when a level of the correct polarity is detected on the LOPL_DPLL1 interrupt source. The LOPL_DPLL1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 6 | LOFL_DPLL1_INTR | R | 0x0 | LOFL_DPLL1 Interrupt. The LOFL_DPLL1_INTR bit is set when a level of the correct polarity is detected on the LOFL_DPLL1 interrupt source. The LOFL_DPLL1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 5 | HIST1_INTR | R | 0x0 | HIST1 Interrupt. The HIST1_INTR bit is set when a level of the correct polarity is detected on the HIST1 interrupt source. The HIST1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 4 | HLDOVR1_INTR | R | 0x0 | HLDOVR1 Interrupt. The HLDOVR1_INTR bit is set when a level of the correct polarity is detected on the HLDOVR1 interrupt source. The HLDOVR1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 3 | REFSWITCH1_INTR | R | 0x0 | REFSWITCH1 Interrupt. The REFSWITCH1_INTR bit is set when a level of the correct polarity is detected on the REFSWITCH1 interrupt source. The REFSWITCH1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK1_INTR | R | 0x0 | LOR_MISSCLK1 Interrupt. The LOR_MISSCLK1_INTR bit is set when a level of the correct polarity is detected on the LOR_MISSCLK1 interrupt source. The LOR_MISSCLK1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 1 | LOR_FREQ1_INTR | R | 0x0 | LOR_FREQ1 Interrupt. The LOR_FREQ1_INTR bit is set when a level of the correct polarity is detected on the LOR_FREQ1 interrupt source. The LOR_FREQ1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 0 | LOR_PH1_INTR | R | 0x0 | LOR_PH1 Interrupt. The LOR_PH1_INTR bit is set when a level of the correct polarity is detected on the LOR_PH1 interrupt source. The LOR_PH1_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
R47 is shown in Table 1-37.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2_INTR | R | 0x0 | LOPL_DPLL2 Interrupt. The LOPL_DPLL2_INTR bit is set when a level of the correct polarity is detected on the LOPL_DPLL2 interrupt source. The LOPL_DPLL2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 6 | LOFL_DPLL2_INTR | R | 0x0 | LOFL_DPLL2 Interrupt. The LOFL_DPLL2_INTR bit is set when a level of the correct polarity is detected on the LOFL_DPLL2 interrupt source. The LOFL_DPLL2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 5 | HIST2_INTR | R | 0x0 | HIST2 Interrupt. The HIST2_INTR bit is set when a level of the correct polarity is detected on the HIST2 interrupt source. The HIST2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 4 | HLDOVR2_INTR | R | 0x0 | HLDOVR2 Interrupt. The HLDOVR2_INTR bit is set when a level of the correct polarity is detected on the HLDOVR2 interrupt source. The HLDOVR2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 3 | REFSWITCH2_INTR | R | 0x0 | REFSWITCH2 Interrupt. The REFSWITCH2_INTR bit is set when a level of the correct polarity is detected on the REFSWITCH2 interrupt source. The REFSWITCH2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK2_INTR | R | 0x0 | LOR_MISSCLK2 Interrupt. The LOR_MISSCLK2_INTR bit is set when a level of the correct polarity is detected on the LOR_MISSCLK2 interrupt source. The LOR_MISSCLK2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 1 | LOR_FREQ2_INTR | R | 0x0 | LOR_FREQ2 Interrupt. The LOR_FREQ2_INTR bit is set when a level of the correct polarity is detected on the LOR_FREQ2 interrupt source. The LOR_FREQ2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 0 | LOR_PH2_INTR | R | 0x0 | LOR_PH2 Interrupt. The LOR_PH2_INTR bit is set when a level of the correct polarity is detected on the LOR_PH2 interrupt source. The LOR_PH2_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
R48 is shown in Table 1-38.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3_INTR | R | 0x0 | LOPL_DPLL3 Interrupt. The LOPL_DPLL3_INTR bit is set when a level of the correct polarity is detected on the LOPL_DPLL3 interrupt source. The LOPL_DPLL3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 6 | LOFL_DPLL3_INTR | R | 0x0 | LOFL_DPLL3 Interrupt. The LOFL_DPLL3_INTR bit is set when a level of the correct polarity is detected on the LOFL_DPLL3 interrupt source. The LOFL_DPLL3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 5 | HIST3_INTR | R | 0x0 | HIST3 Interrupt. The HIST3_INTR bit is set when a level of the correct polarity is detected on the HIST3 interrupt source. The HIST3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 4 | HLDOVR3_INTR | R | 0x0 | HLDOVR3 Interrupt. The HLDOVR3_INTR bit is set when a level of the correct polarity is detected on the HLDOVR3 interrupt source. The HLDOVR3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 3 | REFSWITCH3_INTR | R | 0x0 | REFSWITCH3 Interrupt. The REFSWITCH3_INTR bit is set when a level of the correct polarity is detected on the REFSWITCH3 interrupt source. The REFSWITCH3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK3_INTR | R | 0x0 | LOR_MISSCLK3 Interrupt. The LOR_MISSCLK3_INTR bit is set when a level of the correct polarity is detected on the LOR_MISSCLK3 interrupt source. The LOR_MISSCLK3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 1 | LOR_FREQ3_INTR | R | 0x0 | LOR_FREQ3 Interrupt. The LOR_FREQ3_INTR bit is set when a level of the correct polarity is detected on the LOR_FREQ3 interrupt source. The LOR_FREQ3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
| 0 | LOR_PH3_INTR | R | 0x0 | LOR_PH3 Interrupt. The LOR_PH3_INTR bit is set when a level of the correct polarity is detected on the LOR_PH3 interrupt source. The LOR_PH3_INTR bit is cleared by writing a 1 to INT_CLR.
ROM=N, EEPROM=N |
R49 is shown in Table 1-39.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2 | RESERVED | R | 0x0 | Reserved |
| 1 | INT_EN | R/W | 0x1 | Interrupt Enable. If INT_EN is 1 then the interrupt circuit is enabled. If INT_EN is 0 the interrupt circuit is disabled. When INT_EN is 0, interrupts cannot be signalled on the GPIOx pins, and the flag registers (*_INTR) will not be updated; however, the live status registers will still reflect the current state of the internal interrupt source signals. To provide an interrupt on a pin, a GPIOx pin must also be configured as interrupt output. Interrupts may be enabled without providing a GPIOx output to allow sticky bits to be set.
ROM=Y, EEPROM=N |
| 0 | INT_CLR | R/WSC | 0x0 | Clears all interrupt flag (*_INTR) registers
ROM=N, EEPROM=N |
R50 is shown in Table 1-40.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | REF1_VALID_STATUS | R | 0x0 | Status of Reference Input Validation for IN1
ROM=N, EEPROM=N |
| 0 | REF0_VALID_STATUS | R | 0x0 | Status of Reference Input Validation for IN0
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R52 is shown in Table 1-41.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF1_PH_STATUS | R | 0x0 | Status of Reference 1 Phase Validation
ROM=N, EEPROM=N |
| 4 | REF1_MISSCLK_STATUS | R | 0x0 | Status of Reference 1 Missing Clock Validation
ROM=N, EEPROM=N |
| 3 | REF1_FDET_STATUS | R | 0x0 | Status of Reference 1 Frequency Validation
ROM=N, EEPROM=N |
| 2 | REF0_PH_STATUS | R | 0x0 | Status of Reference 0 Phase Validation
ROM=N, EEPROM=N |
| 1 | REF0_MISSCLK_STATUS | R | 0x0 | Status of Reference 0 Missing Clock Validation
ROM=N, EEPROM=N |
| 0 | REF0_FDET_STATUS | R | 0x0 | Status of Reference 0 Frequency Validation
ROM=N, EEPROM=N |
R53 is shown in Table 1-42.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | TOD_CNTR_HELD | R | 0x0 | TOD Holded. A GPIO or SPI event has latched a holdover value. Will clear to 0 after TOD CNTR LSB is read.
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R54 is shown in Table 1-43.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | GPIO0_IN_FLT_EN | R/W | 0x0 | Enable GPIO0 Input Pin Deglitch Filter
ROM=Y, EEPROM=N |
| 5:0 | GPIO0_MODE | R/W | 0x0 | Select GPIO0 Pin Operating Mode.
ROM=Y, EEPROM=N 0x0 = STATUS or INT, Acts as status or interrupt outputs (See section on STATUS/INTERRUPT) 0x1 = INSEL01_DPLL1, Selects input 0 or input 1 for DPLL1 0x2 = INSEL01_DPLL2, Selects input 0 or input 1 for DPLL2 0x3 = INSEL01_DPLL3, Selects input 0 or input 1 for DPLL3 0x4 = Reserved 0x5 = Reserved 0x6 = Reserved 0x7 = Reserved 0x8 = Reserved 0x9 = Reserved 0xA = Reserved 0xB = Reserved 0xC = Reserved 0xD = Reserved 0xE = Reserved 0xF = Reserved 0x10 = Reserved 0x11 = Reserved 0x12 = Reserved 0x13 = Reserved 0x14 = Reserved 0x15 = Reserved 0x16 = Reserved 0x17 = Reserved 0x18 = Reserved 0x19 = Reserved 0x1A = Reserved 0x1B = Reserved 0x1C = Reserved 0x1D = Reserved 0x1E = Reserved 0x1F = SYNC, Synchronizes selected outputs on a low-to-high pulse. "1" is normal state for outputs. "0" sets outputs in SYNC. 0x20 = SYSREF_REQ, Can request SYSREF pulses on appropriate output channels via low-to-high pulse. 0x21 = FDEV_TRIG_DPLL1, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL1 0x22 = FDEV_TRIG_DPLL2, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL2 0x23 = FDEV_TRIG_DPLL3, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL3 0x24 = FDEV_DIR_DPLL1, FDEV_DIR_DPLL1 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x25 = FDEV_DIR_DPLL2, FDEV_DIR_DPLL2 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x26 = FDEV_DIR_DPLL3, FDEV_DIR_DPLL3 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x27 = TOD_TRIG_SEL |
R55 is shown in Table 1-44.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | GPIO1_IN_FLT_EN | R/W | 0x0 | Enable GPIO1 Input Pin Deglitch Filter
ROM=Y, EEPROM=N |
| 5:0 | GPIO1_MODE | R/W | 0x27 | Select GPIO1 Pin Operating Mode.
ROM=Y, EEPROM=N 0x0 = STATUS or INT, Acts as status or interrupt outputs (See section on STATUS/INTERRUPT) 0x1 = INSEL01_DPLL1, Selects input 0 or input 1 for DPLL1 0x2 = INSEL01_DPLL2, Selects input 0 or input 1 for DPLL2 0x3 = INSEL01_DPLL3, Selects input 0 or input 1 for DPLL3 0x4 = Reserved 0x5 = Reserved 0x6 = Reserved 0x7 = Reserved 0x8 = Reserved 0x9 = Reserved 0xA = Reserved 0xB = Reserved 0xC = Reserved 0xD = Reserved 0xE = Reserved 0xF = Reserved 0x10 = Reserved 0x11 = Reserved 0x12 = Reserved 0x13 = Reserved 0x14 = Reserved 0x15 = Reserved 0x16 = Reserved 0x17 = Reserved 0x18 = Reserved 0x19 = Reserved 0x1A = Reserved 0x1B = Reserved 0x1C = Reserved 0x1D = Reserved 0x1E = Reserved 0x1F = SYNC, Synchronizes selected outputs on a low-to-high pulse. "1" is normal state for outputs. "0" sets outputs in SYNC. 0x20 = SYSREF_REQ, Can request SYSREF pulses on appropriate output channels via low-to-high pulse. 0x21 = FDEV_TRIG_DPLL1, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL1 0x22 = FDEV_TRIG_DPLL2, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL2 0x23 = FDEV_TRIG_DPLL3, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL3 0x24 = FDEV_DIR_DPLL1, FDEV_DIR_DPLL1 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x25 = FDEV_DIR_DPLL2, FDEV_DIR_DPLL2 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x26 = FDEV_DIR_DPLL3, FDEV_DIR_DPLL3 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x27 = TOD_TRIG_SEL |
R56 is shown in Table 1-45.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | GPIO2_IN_FLT_EN | R/W | 0x0 | Enable GPIO2 Input Pin Deglitch Filter
ROM=Y, EEPROM=N |
| 5:0 | GPIO2_MODE | R/W | 0x0 | Select GPIO2 Pin Operating Mode.
ROM=Y, EEPROM=N 0x0 = STATUS or INT, Acts as status or interrupt outputs (See section on STATUS/INTERRUPT) 0x1 = INSEL01_DPLL1, Selects input 0 or input 1 for DPLL1 0x2 = INSEL01_DPLL2, Selects input 0 or input 1 for DPLL2 0x3 = INSEL01_DPLL3, Selects input 0 or input 1 for DPLL3 0x4 = Reserved 0x5 = Reserved 0x6 = Reserved 0x7 = Reserved 0x8 = Reserved 0x9 = Reserved 0xA = Reserved 0xB = Reserved 0xC = Reserved 0xD = Reserved 0xE = Reserved 0xF = Reserved 0x10 = Reserved 0x11 = Reserved 0x12 = Reserved 0x13 = Reserved 0x14 = Reserved 0x15 = Reserved 0x16 = Reserved 0x17 = Reserved 0x18 = Reserved 0x19 = Reserved 0x1A = Reserved 0x1B = Reserved 0x1C = Reserved 0x1D = Reserved 0x1E = Reserved 0x1F = SYNC, Synchronizes selected outputs on a low-to-high pulse. "1" is normal state for outputs. "0" sets outputs in SYNC. 0x20 = SYSREF_REQ, Can request SYSREF pulses on appropriate output channels via low-to-high pulse. 0x21 = FDEV_TRIG_DPLL1, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL1 0x22 = FDEV_TRIG_DPLL2, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL2 0x23 = FDEV_TRIG_DPLL3, A rising edge will trigger a frequency change based on the FDEV_DIR_DPLL3 0x24 = FDEV_DIR_DPLL1, FDEV_DIR_DPLL1 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x25 = FDEV_DIR_DPLL2, FDEV_DIR_DPLL2 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x26 = FDEV_DIR_DPLL3, FDEV_DIR_DPLL3 will determine the direction of the FDEV trigger. 0 = Positive and 1 = Negative 0x27 = TOD_TRIG_SEL |
R57 is shown in Table 1-46.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | GPIO0_SEL | R/W | 0xF | GPIO0 Status Signal Select.
ROM=Y, EEPROM=N 0x0 = XO Loss of Signal (LOS) 0x1 = PLL1 Loss of Lock (LOL) 0x2 = PLL2 Loss of Lock (LOL) 0x3 = PLL3 Loss of Lock (LOL) 0x4 = DPLL1 Loss of Phase Lock (LOPL) 0x5 = DPLL1 Loss of Frequency Lock (LOFL) 0x6 = PLL1 LOL | DPLL1 LOPL | DPLL1 LOFL 0x7 = DPLL2 Loss of Phase Lock (LOPL) 0x8 = DPLL2 Loss of Frequency Lock (LOFL) 0x9 = PLL2 LOL | DPLL2 LOPL | DPLL2 LOFL 0xA = DPLL3 Loss of Phase Lock (LOPL) 0xB = DPLL3 Loss of Frequency Lock (LOFL) 0xC = PLL3 LOL | DPLL3 LOPL | DPLL3 LOFL 0xD = DPLL1 | DPLL2 | DPLL3 LOL 0xE = Interrupt (INTR). Derived from INT_FLAG register bits. 0xF = SPI Readback Data (SDO) 0x10 = Reserved 0x11 = Reserved 0x12 = Reserved 0x13 = Reserved 0x14 = Reserved 0x15 = DPLL1 REF0 Selected 0x16 = DPLL1 REF1 Selected 0x17 = Reserved 0x18 = Reserved 0x19 = Reserved 0x1A = DPLL1 Holdover Active 0x1B = DPLL2 REF0 Selected 0x1C = DPLL2 REF1 Selected 0x1D = Reserved 0x1E = Reserved 0x1F = Reserved 0x20 = DPLL2 Holdover Active 0x21 = DPLL3 REF0 Selected 0x22 = DPLL3 REF1 Selected 0x23 = Reserved 0x24 = Reserved 0x25 = Reserved 0x26 = DPLL3 Holdover Active 0x27 = REF0 Frequency Monitor 0x28 = REF1 Frequency Monitor 0x29 = Reserved 0x2A = Reserved 0x2B = Reserved 0x2C = REF0 Missing Clock Monitor 0x2D = REF1 Missing Clock Monitor 0x2E = Reserved 0x2F = Reserved 0x30 = Reserved 0x31 = Reserved 0x32 = Reserved 0x33 = Reserved 0x34 = Reserved 0x35 = Reserved 0x36 = Reserved 0x37 = Reserved 0x38 = Reserved 0x39 = Reserved 0x3A = Reserved 0x3B = REF0 Phase Validation Monitor 0x3C = REF1 Phase Validation Monitor |
R58 is shown in Table 1-47.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | GPIO1_SEL | R/W | 0x0 | GPIO1 Status Signal Select.
ROM=Y, EEPROM=N 0x0 = XO Loss of Signal (LOS) 0x1 = PLL1 Loss of Lock (LOL) 0x2 = PLL2 Loss of Lock (LOL) 0x3 = PLL3 Loss of Lock (LOL) 0x4 = DPLL1 Loss of Phase Lock (LOPL) 0x5 = DPLL1 Loss of Frequency Lock (LOFL) 0x6 = PLL1 LOL | DPLL1 LOPL | DPLL1 LOFL 0x7 = DPLL2 Loss of Phase Lock (LOPL) 0x8 = DPLL2 Loss of Frequency Lock (LOFL) 0x9 = PLL2 LOL | DPLL2 LOPL | DPLL2 LOFL 0xA = DPLL3 Loss of Phase Lock (LOPL) 0xB = DPLL3 Loss of Frequency Lock (LOFL) 0xC = PLL3 LOL | DPLL3 LOPL | DPLL3 LOFL 0xD = DPLL1 | DPLL2 | DPLL3 LOL 0xE = Interrupt (INTR). Derived from INT_FLAG register bits. 0xF = SPI Readback Data (SDO) 0x10 = Reserved 0x11 = Reserved 0x12 = Reserved 0x13 = Reserved 0x14 = Reserved 0x15 = DPLL1 REF0 Selected 0x16 = DPLL1 REF1 Selected 0x17 = Reserved 0x18 = Reserved 0x19 = Reserved 0x1A = DPLL1 Holdover Active 0x1B = DPLL2 REF0 Selected 0x1C = DPLL2 REF1 Selected 0x1D = Reserved 0x1E = Reserved 0x1F = Reserved 0x20 = DPLL2 Holdover Active 0x21 = DPLL3 REF0 Selected 0x22 = DPLL3 REF1 Selected 0x23 = Reserved 0x24 = Reserved 0x25 = Reserved 0x26 = DPLL3 Holdover Active 0x27 = REF0 Frequency Monitor 0x28 = REF1 Frequency Monitor 0x29 = Reserved 0x2A = Reserved 0x2B = Reserved 0x2C = REF0 Missing Clock Monitor 0x2D = REF1 Missing Clock Monitor 0x2E = Reserved 0x2F = Reserved 0x30 = Reserved 0x31 = Reserved 0x32 = Reserved 0x33 = Reserved 0x34 = Reserved 0x35 = Reserved 0x36 = Reserved 0x37 = Reserved 0x38 = Reserved 0x39 = Reserved 0x3A = Reserved 0x3B = REF0 Phase Validation Monitor 0x3C = REF1 Phase Validation Monitor |
R59 is shown in Table 1-48.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | GPIO2_SEL | R/W | 0xE | GPIO2 Status Signal Select.
ROM=Y, EEPROM=N 0x0 = XO Loss of Signal (LOS) 0x1 = PLL1 Loss of Lock (LOL) 0x2 = PLL2 Loss of Lock (LOL) 0x3 = PLL3 Loss of Lock (LOL) 0x4 = DPLL1 Loss of Phase Lock (LOPL) 0x5 = DPLL1 Loss of Frequency Lock (LOFL) 0x6 = PLL1 LOL | DPLL1 LOPL | DPLL1 LOFL 0x7 = DPLL2 Loss of Phase Lock (LOPL) 0x8 = DPLL2 Loss of Frequency Lock (LOFL) 0x9 = PLL2 LOL | DPLL2 LOPL | DPLL2 LOFL 0xA = DPLL3 Loss of Phase Lock (LOPL) 0xB = DPLL3 Loss of Frequency Lock (LOFL) 0xC = PLL3 LOL | DPLL3 LOPL | DPLL3 LOFL 0xD = DPLL1 | DPLL2 | DPLL3 LOL 0xE = Interrupt (INTR). Derived from INT_FLAG register bits. 0xF = SPI Readback Data (SDO) 0x10 = Reserved 0x11 = Reserved 0x12 = Reserved 0x13 = Reserved 0x14 = Reserved 0x15 = DPLL1 REF0 Selected 0x16 = DPLL1 REF1 Selected 0x17 = Reserved 0x18 = Reserved 0x19 = Reserved 0x1A = DPLL1 Holdover Active 0x1B = DPLL2 REF0 Selected 0x1C = DPLL2 REF1 Selected 0x1D = Reserved 0x1E = Reserved 0x1F = Reserved 0x20 = DPLL2 Holdover Active 0x21 = DPLL3 REF0 Selected 0x22 = DPLL3 REF1 Selected 0x23 = Reserved 0x24 = Reserved 0x25 = Reserved 0x26 = DPLL3 Holdover Active 0x27 = REF0 Frequency Monitor 0x28 = REF1 Frequency Monitor 0x29 = Reserved 0x2A = Reserved 0x2B = Reserved 0x2C = REF0 Missing Clock Monitor 0x2D = REF1 Missing Clock Monitor 0x2E = Reserved 0x2F = Reserved 0x30 = Reserved 0x31 = Reserved 0x32 = Reserved 0x33 = Reserved 0x34 = Reserved 0x35 = Reserved 0x36 = Reserved 0x37 = Reserved 0x38 = Reserved 0x39 = Reserved 0x3A = Reserved 0x3B = REF0 Phase Validation Monitor 0x3C = REF1 Phase Validation Monitor |
R60 is shown in Table 1-49.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | GPIO0_OPEND | R/W | 0x0 | GPIO0 Open Drain Enable
ROM=Y, EEPROM=N 0x0 = CMOS 0x1 = NMOS open drain (external pull-up) |
| 4 | GPIO1_OPEND | R/W | 0x0 | GPIO1 Open Drain Enable
ROM=Y, EEPROM=N 0x0 = CMOS 0x1 = NMOS open drain (external pull-up) |
| 3 | GPIO2_OPEND | R/W | 0x0 | GPIO2 Open Drain Enable
ROM=Y, EEPROM=N 0x0 = CMOS 0x1 = NMOS open drain (external pull-up) |
| 2 | GPIO0_POL | R/W | 0x0 | GPIO0 Status Output Polarity. The GPIO0_STAT_POL bit defines the polarity of information presented on the GPIO0 output. If GPIO0_STAT_POL is set to 1, then GPIO0 is active high. If GPIO0_STAT_POL is 0, then GPIO0 is active low.
ROM=Y, EEPROM=N 0x0 = Active High 0x1 = Active Low |
| 1 | GPIO1_POL | R/W | 0x0 | GPIO1 Status Output Polarity. The GPIO1_STAT_POL bit defines the polarity of information presented on the GPIO1 output. If GPIO1_STAT_POL is set to 1, then GPIO1 is active high. If GPIO1_STAT_POL is 0, then GPIO1 is active low.
ROM=Y, EEPROM=N 0x0 = Active High 0x1 = Active Low |
| 0 | GPIO2_POL | R/W | 0x0 | GPIO2 Status Output Polarity. The GPIO2_STAT_POL bit defines the polarity of information presented on the GPIO2 output. If GPIO2_STAT_POL is set to 1, then GPIO2 is active high. If GPIO2_STAT_POL is 0, then GPIO2 is active low.
ROM=Y, EEPROM=N 0x0 = Active High 0x1 = Active Low |
R61 is shown in Table 1-50.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | GPIO_SYSREF_SEL | R/W | 0x0 | Select SYSREF output for GPIO output. When GPIOx_SEL choses SYSREF, this is the SYSREF source which is output on the GPIO. Select SYSREF after static digital delay but before the analog and digital delay.
ROM=Y, EEPROM=N 0x0 = OUT_0_1 0x1 = OUT_4_5 0x2 = OUT_6_7 0x3 = OUT_8_9 0x4 = OUT_10_11 0x5 = OUT_12_13 0x6 = NA 0x7 = NA |
| 1 | MUTE_DPLL3_PHLOCK | R/W | 0x0 | DPLL3 mute enabled during phase lock
ROM=Y, EEPROM=Y |
| 0 | MUTE_DPLL3_LOCK | R/W | 0x1 | DPLL3 mute enabled during dpll lock
ROM=Y, EEPROM=Y |
R62 is shown in Table 1-51.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | MUTE_DPLL2_PHLOCK | R/W | 0x0 | DPLL2 mute enabled during phase lock
ROM=Y, EEPROM=Y |
| 4 | MUTE_DPLL2_LOCK | R/W | 0x0 | DPLL2 mute enabled during dpll lock
ROM=Y, EEPROM=Y |
| 3 | MUTE_APLL2_LOCK | R/W | 0x0 | APLL2 mute enabled during PLL lock
ROM=Y, EEPROM=Y |
| 2 | MUTE_DPLL1_PHLOCK | R/W | 0x0 | DPLL1 mute enabled during phase lock
ROM=Y, EEPROM=Y |
| 1 | MUTE_DPLL1_LOCK | R/W | 0x0 | DPLL1 mute enabled during dpll lock
ROM=Y, EEPROM=Y |
| 0 | MUTE_APLL1_LOCK | R/W | 0x0 | APLL1 mute enabled during PLL lock
ROM=Y, EEPROM=Y |
R63 is shown in Table 1-52.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | XO_FDET_BYP | R/W | 0x0 | Freq Detector Bypass. When XO_FDET_BYP is set to 1, the output of the XO/TCXO freq detector is ignored.
ROM=Y, EEPROM=N |
| 3:0 | XO_ITYPE | R/W | 0x0 | To be updated. XO interface type control.
ROM=Y, EEPROM=Y 0x0 = DC-DIFF (ext. term) 0x1 = AC-DIFF (ext. term) 0x3 = LVDS/HSDS (AC-DIFF, int. 100 Ω) 0x4 = HCSL (DC-DIFF, int. 50 Ω to GND) 0x5 = LVPECL (AC-DIFF, int. 50 Ω to GND) 0x8 = CMOS 0xC = S-E (int. 50 Ω) |
R64 is shown in Table 1-53.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | XO_OUT_BUF_EN | R/W | 0xD | Bit position enables XO Output Buffer path to:
[0] The XO Freq Detector [1] APLL1 REF [2] APLL2 REF [3] APLL3 REF, and [4] OUT0_1 ROM=Y, EEPROM=Y |
R67 is shown in Table 1-54.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF1_HYST_TOGGLE | R/W | 0x0 | Increases hysteresis for AC coupled clocks. For use with low frequency reference input clocks below TBD MHz which are AC coupled.
ROM=Y, EEPROM=N |
| 4 | REF1_DC_COUPLED_EN | R/W | 0x0 | DC couple input. Eliminates need for hysteresis for low frequency input clocks.
ROM=Y, EEPROM=N |
| 3:0 | REF1_ITYPE | R/W | 0x0 | To be updated. REF1 interface type control.
ROM=Y, EEPROM=N 0x0 = DC-DIFF (ext. term) 0x1 = AC-DIFF (ext. term) 0x2 = DC-DIFF (int. 100 Ω term) 0x3 = LVDS/HSDS (AC-DIFF, int. 100 Ω) 0x4 = HCSL (DC-DIFF, int. 50 Ω to GND) 0x5 = LVPECL (AC-DIFF, int. 50 Ω to GND) 0x8 = CMOS 0xC = S-E (int. 50 Ω) |
R68 is shown in Table 1-55.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF0_HYST_TOGGLE | R/W | 0x0 | Increases hysteresis for AC coupled clocks. For use with low frequency reference input clocks below TBD MHz which are AC coupled.
ROM=Y, EEPROM=N |
| 4 | REF0_DC_COUPLED_EN | R/W | 0x0 | DC couple input. Eliminates need for hysteresis for low frequency input clocks.
ROM=Y, EEPROM=N |
| 3:0 | REF0_ITYPE | R/W | 0x0 | To be updated. REF0 interface type control.
ROM=Y, EEPROM=N 0x0 = DC-DIFF (ext. term) 0x1 = AC-DIFF (ext. term) 0x2 = DC-DIFF (int. 100 Ω term) 0x3 = LVDS/HSDS (AC-DIFF, int. 100 Ω) 0x4 = HCSL (DC-DIFF, int. 50 Ω to GND) 0x5 = LVPECL (AC-DIFF, int. 50 Ω to GND) 0x8 = CMOS 0xC = S-E (int. 50 Ω) |
R69 is shown in Table 1-56.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | CH_0_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT0. Excluding CMOS output mode.
ROM=Y, EEPROM=N |
| 3:0 | CH_1_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT1. Excluding CMOS output mode.
ROM=Y, EEPROM=N |
R70 is shown in Table 1-57.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | CH_2_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT2.
ROM=Y, EEPROM=N |
| 3:0 | CH_3_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT3.
ROM=Y, EEPROM=N |
R71 is shown in Table 1-58.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | CH_4_6_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT4 and OUT5 (Excluding CML output mode).
ROM=Y, EEPROM=N |
| 3:0 | CH_7_8_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT6 and OUT7. (Excluding CML output mode).
ROM=Y, EEPROM=N |
R72 is shown in Table 1-59.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | CH_8_9_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT8 and OUT9.
ROM=Y, EEPROM=N |
| 3:0 | CH_10_11_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT10 and OUT11.
ROM=Y, EEPROM=N |
R73 is shown in Table 1-60.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | CH_12_13_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT12 and OUT13.
ROM=Y, EEPROM=N |
R74 is shown in Table 1-61.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | CH_14_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT14.
ROM=Y, EEPROM=N |
| 3:0 | CH_15_VCM | R/W | 0x8 | Sets the common-mode DC voltage for OUT15.
ROM=Y, EEPROM=N |
R75 is shown in Table 1-62.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | TDC3_ZDM_BYPASS_FB_DIV | R/W | 0x0 | Selects TDC3 feedback input source
ROM=Y, EEPROM=N 0x0 = Feedback Divider 0x1 = Bypass FB DIV |
| 5 | TDC3_ZDM_FB_PRE_BYP | R/W | 0x0 | Inserts TDC3 feedback divider in series with selected channel divider
ROM=Y, EEPROM=N 0x0 = Select FB Prescaler 0x1 = Bypass FB Prescaler |
| 4:3 | TDC3_IN_SEL | R/W | 0x3 | Selects TDC3 zero delay input
ROM=Y, EEPROM=N 0x0 = NA 0x1 = OUT_10_11_ZD_FB 0x2 = OUT_0_1_ZD_FB 0x3 = VCO3_HS_CLK |
| 2:0 | TDC3_IN_DRV_SEL | R/W | 0x2 | Enables zero delay input mux output
ROM=Y, EEPROM=N 0x0 = NA 0x1 = NA(Bypass) 0x2 = Normal Feedback Divider Path 0x3 = NA 0x4 = NA(Bypass Pre) 0x5 = Bypass Feedback Divider 0x6 = Bypass Feedback Divider Prescaler 0x7 = NA |
R76 is shown in Table 1-63.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | TDC2_ZDM_BYPASS_FB_DIV | R/W | 0x0 | Selects TDC feedback input. 0=FB_DIV, 1=ZD bypass FBDIV
ROM=Y, EEPROM=N 0x0 = Feedback Divider 0x1 = Bypass FB DIV |
| 5 | TDC2_ZDM_FB_PRE_BYP | R/W | 0x0 | Inserts TDC feedback divider in series with selected channel divider
ROM=Y, EEPROM=N 0x0 = Select FB Prescaler 0x1 = Bypass FB Prescaler |
| 4:3 | TDC2_IN_SEL | R/W | 0x3 | Selects zero delay input
ROM=Y, EEPROM=N 0x0 = NA 0x1 = OUT_4_5_ZD_FB 0x2 = OUT_0_1_ZD_FB 0x3 = VCO2_HS_CLK |
| 2:0 | TDC2_IN_DRV_SEL | R/W | 0x2 | Enables zero delay input mux output
ROM=Y, EEPROM=N 0x0 = NA 0x1 = NA(Bypass) 0x2 = Normal Feedback Divider Path 0x3 = NA 0x4 = NA(Bypass Pre) 0x5 = Bypass Feedback Divider 0x6 = Bypass Feedback Divider Prescaler 0x7 = NA |
R77 is shown in Table 1-64.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | TDC1_ZDM_BYPASS_FB_DIV | R/W | 0x0 | Selects TDC feedback input. 0=FB_DIV, 1=ZD bypass FBDIV
ROM=Y, EEPROM=N 0x0 = Feedback Divider 0x1 = Bypass FB DIV |
| 5 | TDC1_ZDM_FB_PRE_BYP | R/W | 0x0 | Inserts TDC feedback divider in series with selected channel divider
ROM=Y, EEPROM=N 0x0 = Select FB Prescaler 0x1 = Bypass FB Prescaler |
| 4:3 | TDC1_IN_SEL | R/W | 0x3 | Selects zero delay input
ROM=Y, EEPROM=N 0x0 = NA 0x1 = OUT_0_1_ZD_FB 0x2 = OUT_0_1_ZD_FB 0x3 = VCO1_HS_CLK |
| 2:0 | TDC1_IN_DRV_SEL | R/W | 0x2 | Enables zero delay input mux output
ROM=Y, EEPROM=N 0x0 = NA 0x1 = NA(Bypass) 0x2 = Normal Feedback Divider Path 0x3 = NA 0x4 = NA(Bypass Pre) 0x5 = Bypass Feedback Divider 0x6 = Bypass Feedback Divider Prescaler 0x7 = NA |
R78 is shown in Table 1-65.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF_OUT01_EN | R/W | 0x0 | Ref to OUT0_1 Enable. Enables the path for a reference clock (selected by REF_2OUT01_SEL) to be an input clock for OUT0_1.
ROM=Y, EEPROM=N |
| 4:0 | REF_OUT01_SEL | R/W | 0x0 | Ref to OUT0_1 Select. Selects one reference clock which will be fed to the input of OUT0_1 (if path enabled by REF_2OUT01_EN).
ROM=Y, EEPROM=N 0x0 = OFF 0x1 = REF0 0x2 = REF1 0x4 = Reserved 0x8 = Reserved |
R79 is shown in Table 1-66.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF0_EARLY_DET_EN | R/W | 0x0 | REF0 Early Clock Detect Enable
ROM=Y, EEPROM=N |
| 4 | REF0_PH_VALID_EN | R/W | 0x0 | REF0 Phase Validation Enable
ROM=Y, EEPROM=N |
| 3 | REF0_VALTMR_EN | R/W | 0x1 | REF0 Validation Timer Enable
ROM=Y, EEPROM=N |
| 2 | REF0_PPM_EN | R/W | 0x0 | REF0 Freq ppm Enable
ROM=Y, EEPROM=N |
| 1 | REF0_MISSCLK_EN | R/W | 0x1 | REF0 Missing Clock Detect Enable
ROM=Y, EEPROM=N |
| 0 | REF0_AMPDET_EN | R/W | 0x0 | REF0 Amplitude Detect Enable
ROM=Y, EEPROM=N |
R80 is shown in Table 1-67.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF1_EARLY_DET_EN | R/W | 0x0 | REF1 Early Clock Detect Enable
ROM=Y, EEPROM=N |
| 4 | REF1_PH_VALID_EN | R/W | 0x0 | REF1 Phase Validation Enable
ROM=Y, EEPROM=N |
| 3 | REF1_VALTMR_EN | R/W | 0x1 | REF1 Validation Timer Enable
ROM=Y, EEPROM=N |
| 2 | REF1_PPM_EN | R/W | 0x1 | REF1 Freq ppm Enable
ROM=Y, EEPROM=N |
| 1 | REF1_MISSCLK_EN | R/W | 0x1 | REF1 Missing Clock Detect Enable
ROM=Y, EEPROM=N |
| 0 | REF1_AMPDET_EN | R/W | 0x0 | REF1 Amplitude Detect Enable
ROM=Y, EEPROM=N |
R83 is shown in Table 1-68.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:2 | REF1_DET_CLK_DIV | R/W | 0x2 | REF1 Clock Detector Divider. Bit 0 controls the divide value (0=Div4, 1=Div16). Bit 1, if set, causes the divider to be bypassed.
ROM=Y, EEPROM=N 0x0 = Div By 4 0x1 = Div By 16 0x2 = Bypass 0x3 = Bypass (Reserved) |
| 1:0 | REF0_DET_CLK_DIV | R/W | 0x0 | REF0 Clock Detector Divider. Bit 0 controls the divide value (0=Div4, 1=Div16). Bit 1, if set, causes the divider to be bypassed.
ROM=Y, EEPROM=N 0x0 = Div By 4 0x1 = Div By 16 0x2 = Bypass 0x3 = Bypass (Reserved) |
R84 is shown in Table 1-69.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_MISSCLK_DIV_21:16 | R/W | 0x0 | See Register 86 |
R85 is shown in Table 1-70.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_MISSCLK_DIV_15:8 | R/W | 0x0 | See Register 86 |
R86 is shown in Table 1-71.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_MISSCLK_DIV | R/W | 0x14 | REF0 Missing Clock Detector Divider. 21-bit divide value. Should be equal to the ratio of either VCO3/2 to REF0 or VCO2/5 to REF0 (determined by REF0_MISSCLK_VCOSEL selection) with some offset added for upper bound.
ROM=Y, EEPROM=N |
R87 is shown in Table 1-72.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_MISSCLK_DIV_21:16 | R/W | 0x0 | See Register 89 |
R88 is shown in Table 1-73.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_MISSCLK_DIV_15:8 | R/W | 0x0 | See Register 89 |
R89 is shown in Table 1-74.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_MISSCLK_DIV | R/W | 0xFA | REF1 Missing Clock Detector Divider. 21-bit divide value. Should be equal to the ratio of either VCO3/2 to REF1 or VCO2/5 to REF1 (determined by REF0_MISSCLK_VCOSEL selection) with some offset added for upper bound.
ROM=Y, EEPROM=N |
R96 is shown in Table 1-75.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:1 | RESERVED | R | 0x0 | Reserved |
| 0 | REF0_MISSCLK_VCOSEL | R/W | 0x0 | Missing/Early Clock Detector VCO selection for all references. Also selects TOD clock source.
ROM=Y, EEPROM=N 0x0 = VCO3 0x1 = VCO2 |
R97 is shown in Table 1-76.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_EARLY_CLK_DIV_21:16 | R/W | 0x0 | See Register 99 |
R98 is shown in Table 1-77.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_EARLY_CLK_DIV_15:8 | R/W | 0x0 | See Register 99 |
R99 is shown in Table 1-78.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_EARLY_CLK_DIV | R/W | 0x3 | REF0 Early Clock Detector Divider. 21-bit divide value. Should be equal to the ratio of either VCO3/2 to REF0 or VCO2/5 to REF0 (determined by REF0_MISSCLK_VCOSEL selection) with some offset subtracted for lower bound.
ROM=Y, EEPROM=N |
R100 is shown in Table 1-79.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_EARLY_CLK_DIV_21:16 | R/W | 0x0 | See Register 102 |
R101 is shown in Table 1-80.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_EARLY_CLK_DIV_15:8 | R/W | 0x0 | See Register 102 |
R102 is shown in Table 1-81.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_EARLY_CLK_DIV | R/W | 0x76 | REF1 Early Clock Detector Divider. 21-bit divide value. Should be equal to the ratio of either VCO3/2 to REF1 or VCO2/5 to REF1 (determined by REF0_MISSCLK_VCOSEL selection) with some offset subtracted for lower bound.
ROM=Y, EEPROM=N |
R109 is shown in Table 1-82.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF0_PPM_MIN_14:8 | R/W | 0x0 | See Register 110 |
R110 is shown in Table 1-83.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_PPM_MIN | R/W | 0x1E | REF0 Frequency PPM Lower Limit
ROM=Y, EEPROM=N |
R111 is shown in Table 1-84.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF0_PPM_MAX_14:8 | R/W | 0x0 | See Register 112 |
R112 is shown in Table 1-85.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_PPM_MAX | R/W | 0x2D | REF0 Frequency PPM Upper Limit
ROM=Y, EEPROM=N |
R113 is shown in Table 1-86.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF1_PPM_MIN_14:8 | R/W | 0x0 | See Register 114 |
R114 is shown in Table 1-87.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_PPM_MIN | R/W | 0x14 | REF1 Frequency PPM Lower Limit
ROM=Y, EEPROM=N |
R115 is shown in Table 1-88.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF1_PPM_MAX_14:8 | R/W | 0x0 | See Register 116 |
R116 is shown in Table 1-89.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_PPM_MAX | R/W | 0x1E | REF1 Frequency PPM Upper Limit
ROM=Y, EEPROM=N |
R157 is shown in Table 1-90.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | REF0VLDTMR | R/W | 0xE | REF0 Validation Timer. All selected validations must be valid for selected amount of time before the IN0/REF0 is considered valid.
ROM=Y, EEPROM=N 0x0 = 0.1 ms 0x1 = 0.2 ms 0x2 = 0.4 ms 0x3 = 0.8 ms 0x4 = 1.6 ms 0x5 = 3.2 ms 0x6 = 6.4 ms 0x7 = 12.8 ms 0x8 = 25.6 ms 0x9 = 51.2 ms 0xA = 102.4 ms 0xB = 204.8 ms 0xC = 409.6 ms 0xD = 819.2 ms 0xE = 1.6 s 0xF = 3.3 s 0x10 = 6.6 s 0x11 = 13.1 s 0x12 = 26.2 s 0x13 = 52.4 s 0x14 = 1.7 min 0x15 = 3.5 min 0x16 = 7.0 min 0x17 = 14.0 min 0x18 = 28.0 min 0x19 = 55.9 min 0x1A = 1.9 hr 0x1B = 3.7 hr 0x1C = 7.5 hr 0x1D = 14.9 hr 0x1E = 29.8 hr 0x1F = 59.7 hr |
R158 is shown in Table 1-91.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | REF1VLDTMR | R/W | 0xE | REF1 Validation Timer. All selected validations must be valid for selected amount of time before the IN1/REF1 is considered valid.
ROM=Y, EEPROM=N 0x0 = 0.1 ms 0x1 = 0.2 ms 0x2 = 0.4 ms 0x3 = 0.8 ms 0x4 = 1.6 ms 0x5 = 3.2 ms 0x6 = 6.4 ms 0x7 = 12.8 ms 0x8 = 25.6 ms 0x9 = 51.2 ms 0xA = 102.4 ms 0xB = 204.8 ms 0xC = 409.6 ms 0xD = 819.2 ms 0xE = 1.6 s 0xF = 3.3 s 0x10 = 6.6 s 0x11 = 13.1 s 0x12 = 26.2 s 0x13 = 52.4 s 0x14 = 1.7 min 0x15 = 3.5 min 0x16 = 7.0 min 0x17 = 14.0 min 0x18 = 28.0 min 0x19 = 55.9 min 0x1A = 1.9 hr 0x1B = 3.7 hr 0x1C = 7.5 hr 0x1D = 14.9 hr 0x1E = 29.8 hr 0x1F = 59.7 hr |
R161 is shown in Table 1-92.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_PH_VALID_THR_13:8 | R/W | 0x0 | REF0 Phase Validation Threshold
ROM=Y, EEPROM=N |
R162 is shown in Table 1-93.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_PH_VALID_THR | R/W | 0x0 | REF0 Phase Validation Threshold
ROM=Y, EEPROM=N |
R163 is shown in Table 1-94.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_PH_VALID_THR_13:8 | R/W | 0x0 | REF1 Phase Validation Threshold
ROM=Y, EEPROM=N |
R164 is shown in Table 1-95.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_PH_VALID_THR | R/W | 0x0 | REF1 Phase Validation Threshold
ROM=Y, EEPROM=N |
R170 is shown in Table 1-96.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMSCRC | R | 0x0 | NVM Stored CRC
ROM=N, EEPROM=N |
R171 is shown in Table 1-97.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | REGCOMMIT | R/WSC | 0x0 | Copy fields which also exist in SRAM to SRAM memory. The REGCOMMIT bit is automatically cleared to 0 when the transfer is complete. Next an EEPROM programming operation may be performed to update NVM EEPROM. When programming to alter an NVM profile, it is suggested to toggle PD# to assure default conditions, change the desired fields, then assert the REGCOMMIT bit.
ROM=N, EEPROM=N |
| 5 | NVMCRCERR | R | 0x0 | NVM CRC Error Indication. The NVMCRCERR bit is set to 1 if a CRC Error has been detected when reading back from on-chip EEPROM during device configuration.
ROM=N, EEPROM=N |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2 | NVMBUSY | R | 0x0 | NVM Program Busy Indication. The NVMBUSY bit is 1 during an on-chip EEPROM Erase/Program cycle. While NVMBUSY is 1 the on-chip EEPROM cannot be accessed. Toggling PD# or removing power while NVMBUSY is asserted will corrupt the EEPROM.
ROM=N, EEPROM=N |
| 1 | NVMERASE | R/WSC | 0x0 | NVM Erase Start. The NVMERASE bit is used to begin an on-chip EEPROM Erase cycle. The Erase cycle is only initiated if the immediately preceding I2C/SMBus transaction was a write to the NVMUNLK register withthe appropriate code. The NVMERASE bit is automatically cleared to 0. |
| 0 | NVMPROG | R/WSC | 0x0 | NVM Program Start. The NVMPROG bit is used to begin an on-chip EEPROM Program cycle. The Program cycle is only initiated if the immediately preceding I2C/SMBus transaction was a write to the NVMUNLK register withthe appropriate code. The NVMPROG bit is automatically cleared to 0. |
R173 is shown in Table 1-98.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | MEMADR_12:8 | R/W | 0x0 | See Register 174
0x0 = MEMADR[8:0], NVMDAT 0x1 = MEMADR[8:0], RAMDAT 0x2 = MEMADR[12:0], ROMDAT |
R174 is shown in Table 1-99.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | MEMADR | R/W | 0x0 | Memory Address. The MEMADR value determines the starting address for access to the on-chip memories. This same MEMADR value is used for EEPROM and SRAM access which share the same memory map and also ROM access.
The NVMDAT field is used to read and write from EEPROM. The RAMDAT field is used to read and write from SRAM. The ROMDAT field is used to read and write from ROM. ROM=N, EEPROM=N |
R176 is shown in Table 1-100.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | RAMDAT | R/W | 0x40 | RAM Read/Write Data. The first time an I2C/SMBus read or write transaction accesses the RAMDAT register address, either because it was explicitly targeted or because the address was auto-incremented, a readtransaction will return the RAM data located at the address specified by the MEMADR register and a writetransaction will cause the current I2C/SMBus data to be written to the address specified by the MEMADR register.Any additional accesses which are part of the same transaction will cause the RAM address to be incremented anda read or write access will take place to the next SRAM address. The I2C/SMBus address will no longerbe auto-incremented, i.e the I2C/SMBus address will be locked to the RAMDAT register after the first access.Access to the RAMDAT register will terminate at the end of the current I2C/SMBus transaction.
ROM=N, EEPROM=N |
R180 is shown in Table 1-101.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMUNLK | R/W | 0x0 | NVM Prog Unlock. The NVMUNLK register must be written immediately prior to setting the NVMERASE and NVMPROG bit, otherwise the Erase/Program cycle will not be triggered. NVMUNLK must be written with a value of 0xEA.
ROM=N, EEPROM=N |
R222 is shown in Table 1-102.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | STATUS_MUX_DIV2_EN | R/W | 0x0 | Enable all DivideBy2 clocks for Status MUX debug signals
ROM=N, EEPROM=N |
| 5:0 | RESERVED | R | 0x0 | Reserved |
R223 is shown in Table 1-103.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL1_REF0_AUTO_PRTY | R/W | 0x0 | REF0 Priority for Automatic Switchover. Sets the priority for REF0 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
| 2:0 | DPLL1_REF1_AUTO_PRTY | R/W | 0x0 | REF1 Priority for Automatic Switchover. Sets the priority for REF1 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
R225 is shown in Table 1-104.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL1_REF4_AUTO_PRTY | R/W | 0x0 | REF4 Priority for Automatic Switchover. Sets the priority for REF4 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
| 2:0 | DPLL1_REF5_AUTO_PRTY | R/W | 0x0 | REF5 Priority for Automatic Switchover. Sets the priority for REF5 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
R226 is shown in Table 1-105.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL1_MAN_REFSEL | R/W | 0x0 | DPLL1 Manual Reference Selection Mode. Determines how the manually selected reference is chosen. If this is set to a '1', the manually selected reference is taken from a GPIO input pin. If it is set to a '0', the manually selected reference is taken from
ROM=Y, EEPROM=N 0x0 = REF0 0x1 = REF1 0x2 = Reserved 0x3 = Reserved 0x4 = PLL2 0x5 = PLL3 |
| 2 | DPLL1_MAN_SWITCH_PIN_MODE | R/W | 0x0 | DPLL1 Manual Reference Selection Mode. Determines how the manually selected reference is chosen. If this is set to a '1', the manually selected reference is taken from a GPIO input pin. If it is set to a '0', the manually selected reference is taken from a register.
ROM=Y, EEPROM=N 0x0 = Register 0x1 = Pin |
| 1:0 | DPLL1_SWITCH_MODE | R/W | 0x1 | DPLL1 Reference Switchover Mode. Selects between Automatic Non-revertive, Automatic Revertive, Manual Selection with Automatic Fallback, and Manual Selection with Automatic Holdover.
ROM=Y, EEPROM=N 0x0 = Auto Non-revertive 0x1 = Auto Revertive 0x2 = Manual w/ Fallback 0x3 = Manual w/ Holdover |
R227 is shown in Table 1-106.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_REFSEL_STAT | R | 0x0 | Reports the DPLL1 selected reference
ROM=N, EEPROM=N 0x0 = Holdover 0x1 = REF0 0x2 = REF1 0x4 = Reserved 0x8 = Reserved 0x10 = APLL2 0x20 = APLL3 |
R228 is shown in Table 1-107.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL1_LOCKDET_PPM_EN | R/W | 0x0 | DPLL frequency lock detect enable
ROM=Y, EEPROM=N |
| 6:0 | DPLL1_LOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 229 |
R229 is shown in Table 1-108.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_MAX | R/W | 0x5A | DPLL frequency lock detect in-lock threshhold
ROM=Y, EEPROM=N |
R230 is shown in Table 1-109.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | DPLL1_UNLOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 231 |
R231 is shown in Table 1-110.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_UNLOCKDET_PPM_MAX | R/W | 0x78 | DPLL frequency lock detect out-of-lock threshhold
ROM=Y, EEPROM=N |
R232 is shown in Table 1-111.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_LOCKDET2_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 235 |
R233 is shown in Table 1-112.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET2_PPM_CNTSTRT_23:16 | R/W | 0x1 | See Register 235 |
R234 is shown in Table 1-113.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET2_PPM_CNTSTRT_15:8 | R/W | 0x86 | See Register 235 |
R235 is shown in Table 1-114.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET2_PPM_CNTSTRT | R/W | 0xA0 | DPLL frequency lock detect reference count value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
R236 is shown in Table 1-115.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_LOCKDET_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 239 |
R237 is shown in Table 1-116.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_CNTSTRT_23:16 | R/W | 0x1 | See Register 239 |
R238 is shown in Table 1-117.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_CNTSTRT_15:8 | R/W | 0x77 | See Register 239 |
R239 is shown in Table 1-118.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_CNTSTRT | R/W | 0x0 | DPLL frequency lock detect reference count value used with DPLL1 feedback configuration 1
ROM=Y, EEPROM=N |
R240 is shown in Table 1-119.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 243 |
R241 is shown in Table 1-120.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_23:16 | R/W | 0xF | See Register 243 |
R242 is shown in Table 1-121.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_15:8 | R/W | 0x42 | See Register 243 |
R243 is shown in Table 1-122.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT | R/W | 0x40 | DPLL frequency lock detect VCO count value
ROM=Y, EEPROM=N |
R244 is shown in Table 1-123.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_STATUS_PPM_LOCK | R | 0x0 | Readback lock indicator from DPLL PPM Checker
ROM=N, EEPROM=N |
R247 is shown in Table 1-124.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL1_LOOP_EN | R/W | 0x0 | Enable DPLL1 loop filter and R-Div mash engine
ROM=Y, EEPROM=N |
| 6 | DPLL1_PHASE_CANCEL_EN | R/W | 0x0 | Enable Phase Cancellation
ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL1_PHS1_EN | R/W | 0x0 | Enable Phase Slew control type 1
ROM=Y, EEPROM=N |
| 3 | DPLL1_ZDM_EN | R/W | 0x0 | Enable Zero Delay
ROM=Y, EEPROM=N |
| 2 | DPLL1_HIST_EN | R/W | 0x1 | Enable History word to be used during holdover
ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R248 is shown in Table 1-125.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL1_HOLD_SLEW_LIM_EN | R/W | 0x0 | Enable slew limiter when entering holdover. Allows slew rate control between current DPLL value before entering holdover and history value.
ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | RESERVED | R | 0x0 | Reserved |
| 2 | DPLL1_CLK_DIV_SRC_SEL | R/W | 0x1 | DPLL1 cannot be used without DPLL2 or DPLL3 operating. DPLL1 clock select
0x0 = DPLL3 0x1 = DPLL2 |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R250 is shown in Table 1-126.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL1_PH_OFFSET_44:40 | R/W | 0x0 | See Register 255 |
R251 is shown in Table 1-127.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_39:32 | R/W | 0x0 | See Register 255 |
R252 is shown in Table 1-128.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_31:24 | R/W | 0x0 | See Register 255 |
R253 is shown in Table 1-129.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_23:16 | R/W | 0x0 | See Register 255 |
R254 is shown in Table 1-130.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_15:8 | R/W | 0x0 | See Register 255 |
R255 is shown in Table 1-131.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET | R/W | 0x0 | Phase offset to control input to output phase in ZDM.
ROM=Y, EEPROM=N |
R256 is shown in Table 1-132.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_39:32 | R/W | 0x0 | See Register 260 |
R257 is shown in Table 1-133.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_31:24 | R/W | 0x0 | See Register 260 |
R258 is shown in Table 1-134.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_23:16 | R/W | 0x0 | See Register 260 |
R259 is shown in Table 1-135.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_15:8 | R/W | 0x0 | See Register 260 |
R260 is shown in Table 1-136.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN | R/W | 0x0 | DPLL1 starting word. Also non-history holdover word.
ROM=Y, EEPROM=N |
R290 is shown in Table 1-137.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_LCK_TIMER_9:8 | R/W | 0x1 | See Register 291 |
R291 is shown in Table 1-138.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LCK_TIMER | R/W | 0x88 | Minimum amount of time until DPLL1_LOPL will be deasserted after starting to lock. Timer begins once device is within valid phase lock window.
ROM=Y, EEPROM=N |
R294 is shown in Table 1-139.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_HOLD_TIMER_9:8 | R/W | 0x1 | See Register 295 |
R295 is shown in Table 1-140.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_HOLD_TIMER | R/W | 0x42 | Rate of change to DPLL or APLL numerator during phase slew control. See DPLLx_HOLD_SLEW_STEP.
ROM=Y, EEPROM=N |
R296 is shown in Table 1-141.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_PHS1_TIMER_9:8 | R/W | 0x1 | See Register 297 |
R297 is shown in Table 1-142.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PHS1_TIMER | R/W | 0x40 | Phase slew control update timer.
ROM=Y, EEPROM=N |
R303 is shown in Table 1-143.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_PL_THRESH | R/W | 0x26 | Phase lock in-lock threshold
ROM=Y, EEPROM=N |
R304 is shown in Table 1-144.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_PL_UNLK_THRESH | R/W | 0x27 | Phase lock out-of-lock threshold
ROM=Y, EEPROM=N |
R305 is shown in Table 1-145.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_PHS1_THRESH | R/W | 0x7 | Phase slew type 1 threshold
ROM=Y, EEPROM=N |
R308 is shown in Table 1-146.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_HOLD_SLEW_STEP | R/W | 0x0 | When DPLL exits holdover, rate of phase change relates to DPLLx_HOLD_SLEW_STEP over DPLLx_HOLD_TIMER. DPLLx_HOLD_SLEW_STEP is applied to DPLL numerator when exiting holdover or APLL numerator when using APLL relative DCO.
ROM=Y, EEPROM=N |
R310 is shown in Table 1-147.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL1_STATUS_PL | R | 0x0 | Readback the phase lock status
ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
R311 is shown in Table 1-148.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL1_DCO_SLEW_ACTIVE | R | 0x0 | Readback DCO slew status
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R314 is shown in Table 1-149.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB_DIV_32:32 | R/W | 0x0 | See Register 318 |
R315 is shown in Table 1-150.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV_31:24 | R/W | 0x0 | See Register 318 |
R316 is shown in Table 1-151.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV_23:16 | R/W | 0x0 | See Register 318 |
R317 is shown in Table 1-152.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV_15:8 | R/W | 0x1 | See Register 318 |
R318 is shown in Table 1-153.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV | R/W | 0xF4 | DPLL Feedback Divider N Value used with DPLL1 feedback configuration 1
ROM=Y, EEPROM=N |
R319 is shown in Table 1-154.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_39:32 | R/W | 0x0 | See Register 323 |
R320 is shown in Table 1-155.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_31:24 | R/W | 0x0 | See Register 323 |
R321 is shown in Table 1-156.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_23:16 | R/W | 0x0 | See Register 323 |
R322 is shown in Table 1-157.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_15:8 | R/W | 0x0 | See Register 323 |
R323 is shown in Table 1-158.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value used with DPLL1 feedback configuration 1
ROM=Y, EEPROM=N |
R324 is shown in Table 1-159.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_39:32 | R/W | 0x0 | See Register 328 |
R325 is shown in Table 1-160.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_31:24 | R/W | 0x0 | See Register 328 |
R326 is shown in Table 1-161.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_23:16 | R/W | 0x0 | See Register 328 |
R327 is shown in Table 1-162.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_15:8 | R/W | 0x0 | See Register 328 |
R328 is shown in Table 1-163.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value used with DPLL1 feedback configuration 1
ROM=Y, EEPROM=N |
R329 is shown in Table 1-164.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB2_DIV_32:32 | R/W | 0x0 | See Register 333 |
R330 is shown in Table 1-165.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV_31:24 | R/W | 0x0 | See Register 333 |
R331 is shown in Table 1-166.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV_23:16 | R/W | 0x0 | See Register 333 |
R332 is shown in Table 1-167.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV_15:8 | R/W | 0x1 | See Register 333 |
R333 is shown in Table 1-168.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV | R/W | 0xD8 | DPLL Feedback Divider N Value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
R334 is shown in Table 1-169.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_39:32 | R/W | 0x93 | See Register 338 |
R335 is shown in Table 1-170.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_31:24 | R/W | 0x3D | See Register 338 |
R336 is shown in Table 1-171.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_23:16 | R/W | 0x39 | See Register 338 |
R337 is shown in Table 1-172.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_15:8 | R/W | 0xEF | See Register 338 |
R338 is shown in Table 1-173.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM | R/W | 0xF0 | DPLL Feedback Divider Numerator Value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
R339 is shown in Table 1-174.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_39:32 | R/W | 0xFF | See Register 343 |
R340 is shown in Table 1-175.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_31:24 | R/W | 0xFF | See Register 343 |
R341 is shown in Table 1-176.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_23:16 | R/W | 0x4E | See Register 343 |
R342 is shown in Table 1-177.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_15:8 | R/W | 0x93 | See Register 343 |
R343 is shown in Table 1-178.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
R344 is shown in Table 1-179.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL1_REF5_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF3. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1 | DPLL1_REF1_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF1. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 0 | DPLL1_REF0_FB_SEL | R/W | 0x1 | DPLL Feedback N, NUM, DEN select for REF0. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
R345 is shown in Table 1-180.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | DPLL1_FB_MASH_ORDER | R/W | 0x2 | DPLL Feedback Divider MASH Order.
ROM=Y, EEPROM=N |
R346 is shown in Table 1-181.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_FB_FDEV_37:32 | R/W | 0x0 | See Register 350 |
R347 is shown in Table 1-182.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV_31:24 | R/W | 0x0 | See Register 350 |
R348 is shown in Table 1-183.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV_23:16 | R/W | 0x0 | See Register 350 |
R349 is shown in Table 1-184.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV_15:8 | R/W | 0xD6 | See Register 350 |
R350 is shown in Table 1-185.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV | R/W | 0xC0 | DPLL Feedback Divider DCO Frequency Deviation Value
ROM=Y, EEPROM=N |
R351 is shown in Table 1-186.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB_FDEV_UPDATE | R/W | 0x0 | Increment/Decrement DPLL Feedback Numerator value with DPLL_FB_FDEV value
ROM=Y, EEPROM=N |
R352 is shown in Table 1-187.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB_FDEV_EN | R/W | 0x0 | Enable DPLL DCO mode
ROM=Y, EEPROM=N |
R353 is shown in Table 1-188.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_39:32 | R | 0x0 | See Register 357 |
R354 is shown in Table 1-189.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_31:24 | R | 0x0 | See Register 357 |
R355 is shown in Table 1-190.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_23:16 | R | 0x0 | See Register 357 |
R356 is shown in Table 1-191.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_15:8 | R | 0x0 | See Register 357 |
R357 is shown in Table 1-192.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT | R | 0x0 | Readback DPLL Feedback Divider Numerator value as a result of DCO mode
ROM=N, EEPROM=N |
R358 is shown in Table 1-193.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | DPLL1_REF0_DBLR_EN | R/W | 0x0 | DPLL Reference 0 Doubler Enable
ROM=Y, EEPROM=N |
| 2 | DPLL1_REF1_DBLR_EN | R/W | 0x0 | DPLL Reference 1 Doubler Enable
ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R359 is shown in Table 1-194.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF0_RDIV_15:8 | R/W | 0x0 | See Register 360 |
R360 is shown in Table 1-195.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF0_RDIV | R/W | 0xF | DPLL REF0 R-divider value
ROM=Y, EEPROM=N |
R361 is shown in Table 1-196.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF1_RDIV_15:8 | R/W | 0x0 | See Register 362 |
R362 is shown in Table 1-197.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF1_RDIV | R/W | 0x1 | DPLL REF1 R-divider value
ROM=Y, EEPROM=N |
R369 is shown in Table 1-198.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF5_RDIV_15:8 | R/W | 0x0 | DPLL REF5 R-divider value
ROM=Y, EEPROM=N |
R370 is shown in Table 1-199.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF5_RDIV | R/W | 0x0 | DPLL REF5 R-divider value
ROM=Y, EEPROM=N |
R373 is shown in Table 1-200.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL2_REF0_AUTO_PRTY | R/W | 0x0 | REF0 Priority for Automatic Switchover. Sets the priority for REF0 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
| 2:0 | DPLL2_REF1_AUTO_PRTY | R/W | 0x1 | REF1 Priority for Automatic Switchover. Sets the priority for REF1 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
R375 is shown in Table 1-201.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL2_REF4_AUTO_PRTY | R/W | 0x0 | REF4 Priority for Automatic Switchover. Sets the priority for REF4 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
| 2:0 | DPLL2_REF5_AUTO_PRTY | R/W | 0x0 | REF5 Priority for Automatic Switchover. Sets the priority for REF5 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
R376 is shown in Table 1-202.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL2_MAN_REFSEL | R/W | 0x0 | DPLL2 Manual Reference Selection
ROM=Y, EEPROM=N 0x0 = REF0 0x1 = REF1 0x2 = Reserved 0x3 = Reserved 0x4 = PLL1 0x5 = PLL3 |
| 2 | DPLL2_MAN_SWITCH_PIN_MODE | R/W | 0x0 | DPLL2 Manual Reference Selection Mode. Determines how the manually selected reference is chosen. If this is set to a '1', the manually selected reference is taken from a GPIO input pin. If it is set to a '0', the manually selected reference is taken from a register.
ROM=Y, EEPROM=N 0x0 = Register 0x1 = Pin |
| 1:0 | DPLL2_SWITCH_MODE | R/W | 0x1 | DPLL2 Reference Switchover Mode. Selects between Automatic Non-revertive, Automatic Revertive, Manual Selection with Automatic Fallback, and Manual Selection with Automatic Holdover.
ROM=Y, EEPROM=N 0x0 = Auto non-revertive 0x1 = Auto revertive 0x2 = Manual fallback 0x3 = Manual Holdover |
R377 is shown in Table 1-203.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_REFSEL_STAT | R | 0x0 | Reads the DPLL2 selected reference
ROM=N, EEPROM=N 0x0 = Holdover 0x1 = REF0 0x2 = REF1 0x4 = Reserved 0x8 = Reserved 0x10 = APLL1 0x20 = APLL3 |
R378 is shown in Table 1-204.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL2_LOCKDET_PPM_EN | R/W | 0x1 | DPLL frequency lock detect enable
ROM=Y, EEPROM=N |
| 6:0 | DPLL2_LOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 379 |
R379 is shown in Table 1-205.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_MAX | R/W | 0x5A | DPLL frequency lock detect in-lock threshhold
ROM=Y, EEPROM=N |
R380 is shown in Table 1-206.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | DPLL2_UNLOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 381 |
R381 is shown in Table 1-207.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_UNLOCKDET_PPM_MAX | R/W | 0x78 | DPLL frequency lock detect out-of-lock threshhold
ROM=Y, EEPROM=N |
R382 is shown in Table 1-208.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_LOCKDET2_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 385 |
R383 is shown in Table 1-209.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET2_PPM_CNTSTRT_23:16 | R/W | 0x1 | See Register 385 |
R384 is shown in Table 1-210.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET2_PPM_CNTSTRT_15:8 | R/W | 0xB2 | See Register 385 |
R385 is shown in Table 1-211.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET2_PPM_CNTSTRT | R/W | 0x8 | DPLL frequency lock detect reference count value used with DPLL2 feedback configuration 2
ROM=Y, EEPROM=N |
R386 is shown in Table 1-212.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_LOCKDET_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 389 |
R387 is shown in Table 1-213.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_CNTSTRT_23:16 | R/W | 0x1 | See Register 389 |
R388 is shown in Table 1-214.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_CNTSTRT_15:8 | R/W | 0xA0 | See Register 389 |
R389 is shown in Table 1-215.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_CNTSTRT | R/W | 0xAB | DPLL frequency lock detect reference count value used with DPLL2 feedback configuration 1
ROM=Y, EEPROM=N |
R390 is shown in Table 1-216.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 393 |
R391 is shown in Table 1-217.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_23:16 | R/W | 0xF | See Register 393 |
R392 is shown in Table 1-218.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_15:8 | R/W | 0x42 | See Register 393 |
R393 is shown in Table 1-219.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT | R/W | 0x43 | DPLL frequency lock detect VCO count value
ROM=Y, EEPROM=N |
R394 is shown in Table 1-220.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_STATUS_PPM_LOCK | R | 0x0 | Readback lock indicator from DPLL PPM Checker
ROM=N, EEPROM=N |
R397 is shown in Table 1-221.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL2_LOOP_EN | R/W | 0x1 | Enable DPLL2 loop filter and R-Div mash engine
ROM=Y, EEPROM=N |
| 6 | DPLL2_PHASE_CANCEL_EN | R/W | 0x1 | Enable Phase Cancellation
ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL2_PHS1_EN | R/W | 0x0 | Enable Phase Slew control type 1
ROM=Y, EEPROM=N |
| 3 | DPLL2_ZDM_EN | R/W | 0x0 | Enable Zero Delay
ROM=Y, EEPROM=N |
| 2 | DPLL2_HIST_EN | R/W | 0x1 | Enable History word to be used during holdover
ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R398 is shown in Table 1-222.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL2_HOLD_SLEW_LIM_EN | R/W | 0x0 | Enable slew limiter when entering holdover
ROM=Y, EEPROM=N |
| 6:0 | RESERVED | R | 0x0 | Reserved |
R400 is shown in Table 1-223.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL2_PH_OFFSET_44:40 | R/W | 0x0 | See Register 405 |
R401 is shown in Table 1-224.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_39:32 | R/W | 0x0 | See Register 405 |
R402 is shown in Table 1-225.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_31:24 | R/W | 0x0 | See Register 405 |
R403 is shown in Table 1-226.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_23:16 | R/W | 0x0 | See Register 405 |
R404 is shown in Table 1-227.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_15:8 | R/W | 0x0 | See Register 405 |
R405 is shown in Table 1-228.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET | R/W | 0x0 | Phase offset to control input to output phase in ZDM.
ROM=Y, EEPROM=N |
R406 is shown in Table 1-229.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_39:32 | R/W | 0x0 | See Register 410 |
R407 is shown in Table 1-230.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_31:24 | R/W | 0x0 | See Register 410 |
R408 is shown in Table 1-231.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_23:16 | R/W | 0x0 | See Register 410 |
R409 is shown in Table 1-232.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_15:8 | R/W | 0x0 | See Register 410 |
R410 is shown in Table 1-233.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN | R/W | 0x0 | DPLL2 starting word. Also non-history holdover word.
ROM=Y, EEPROM=N |
R440 is shown in Table 1-234.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_LCK_TIMER_9:8 | R/W | 0x2 | See Register 441 |
R441 is shown in Table 1-235.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LCK_TIMER | R/W | 0xB | Minimum amount of time until DPLL2_LOPL will be deasserted after starting to lock. Timer begins once device is within valid phase lock window.
ROM=Y, EEPROM=N |
R444 is shown in Table 1-236.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_HOLD_TIMER_9:8 | R/W | 0x1 | See Register 445 |
R445 is shown in Table 1-237.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_HOLD_TIMER | R/W | 0x42 | Rate of change to DPLL or APLL numerator during phase slew control. See DPLLx_HOLD_SLEW_STEP.
ROM=Y, EEPROM=N |
R446 is shown in Table 1-238.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_PHS1_TIMER_9:8 | R/W | 0x1 | See Register 447 |
R447 is shown in Table 1-239.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PHS1_TIMER | R/W | 0x40 | Phase slew control update timer.
ROM=Y, EEPROM=N |
R453 is shown in Table 1-240.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_PL_THRESH | R/W | 0x29 | Phase lock in-lock threshold
ROM=Y, EEPROM=N |
R454 is shown in Table 1-241.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_PL_UNLK_THRESH | R/W | 0x2A | Phase lock out-of-lock threshold
ROM=Y, EEPROM=N |
R455 is shown in Table 1-242.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_PHS1_THRESH | R/W | 0x7 | Phase slew type 1 threshold
ROM=Y, EEPROM=N |
R458 is shown in Table 1-243.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_HOLD_SLEW_STEP | R/W | 0x0 | When DPLL exits holdover, rate of phase change relates to DPLLx_HOLD_SLEW_STEP over DPLLx_HOLD_TIMER. DPLLx_HOLD_SLEW_STEP is applied to DPLL numerator when exiting holdover or APLL numerator when using APLL relative DCO.
ROM=Y, EEPROM=N |
R460 is shown in Table 1-244.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL2_STATUS_PL | R | 0x0 | Readback the phase lock status
ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
R461 is shown in Table 1-245.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL2_DCO_SLEW_ACTIVE | R | 0x0 | Readback DCO slew status
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R464 is shown in Table 1-246.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB_DIV_32:32 | R/W | 0x0 | See Register 468 |
R465 is shown in Table 1-247.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV_31:24 | R/W | 0x0 | See Register 468 |
R466 is shown in Table 1-248.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV_23:16 | R/W | 0x0 | See Register 468 |
R467 is shown in Table 1-249.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV_15:8 | R/W | 0x2 | See Register 468 |
R468 is shown in Table 1-250.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV | R/W | 0x32 | DPLL Feedback Divider N Value used with DPLL2 feedback configuration 1
ROM=Y, EEPROM=N |
R469 is shown in Table 1-251.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_39:32 | R/W | 0x80 | See Register 473 |
R470 is shown in Table 1-252.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_31:24 | R/W | 0x0 | See Register 473 |
R471 is shown in Table 1-253.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_23:16 | R/W | 0x0 | See Register 473 |
R472 is shown in Table 1-254.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_15:8 | R/W | 0x0 | See Register 473 |
R473 is shown in Table 1-255.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value used with DPLL2 feedback configuration 1
ROM=Y, EEPROM=N |
R474 is shown in Table 1-256.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_39:32 | R/W | 0x0 | See Register 478 |
R475 is shown in Table 1-257.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_31:24 | R/W | 0x0 | See Register 478 |
R476 is shown in Table 1-258.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_23:16 | R/W | 0x0 | See Register 478 |
R477 is shown in Table 1-259.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_15:8 | R/W | 0x0 | See Register 478 |
R478 is shown in Table 1-260.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value used with DPLL2 feedback configuration 1
ROM=Y, EEPROM=N |
R479 is shown in Table 1-261.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB2_DIV_32:32 | R/W | 0x0 | See Register 483 |
R480 is shown in Table 1-262.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV_31:24 | R/W | 0x0 | See Register 483 |
R481 is shown in Table 1-263.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV_23:16 | R/W | 0x0 | See Register 483 |
R482 is shown in Table 1-264.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV_15:8 | R/W | 0x2 | See Register 483 |
R483 is shown in Table 1-265.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV | R/W | 0x1C | DPLL Feedback Divider N Value used with DPLL2 feedback configuration 2.
ROM=Y, EEPROM=N |
R484 is shown in Table 1-266.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_39:32 | R/W | 0x0 | See Register 488 |
R485 is shown in Table 1-267.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_31:24 | R/W | 0x0 | See Register 488 |
R486 is shown in Table 1-268.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_23:16 | R/W | 0x0 | See Register 488 |
R487 is shown in Table 1-269.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_15:8 | R/W | 0x0 | See Register 488 |
R488 is shown in Table 1-270.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value used with DPLL2 feedback configuration 2
ROM=Y, EEPROM=N |
R489 is shown in Table 1-271.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_39:32 | R/W | 0x0 | See Register 493 |
R490 is shown in Table 1-272.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_31:24 | R/W | 0x0 | See Register 493 |
R491 is shown in Table 1-273.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_23:16 | R/W | 0x0 | See Register 493 |
R492 is shown in Table 1-274.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_15:8 | R/W | 0x0 | See Register 493 |
R493 is shown in Table 1-275.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value used with DPLL2 feedback configuration 2
ROM=Y, EEPROM=N |
R494 is shown in Table 1-276.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL2_REF5_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF3. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1 | DPLL2_REF1_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF1. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 0 | DPLL2_REF0_FB_SEL | R/W | 0x1 | DPLL Feedback N, NUM, DEN select for REF0. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
R495 is shown in Table 1-277.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | DPLL2_FB_MASH_ORDER | R/W | 0x2 | DPLL Feedback Divider MASH Order.
ROM=Y, EEPROM=N |
R496 is shown in Table 1-278.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_FB_FDEV_37:32 | R/W | 0x0 | See Register 500 |
R497 is shown in Table 1-279.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV_31:24 | R/W | 0x0 | See Register 500 |
R498 is shown in Table 1-280.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV_23:16 | R/W | 0x0 | See Register 500 |
R499 is shown in Table 1-281.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV_15:8 | R/W | 0xF1 | See Register 500 |
R500 is shown in Table 1-282.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV | R/W | 0x98 | DPLL Feedback Divider DCO Frequency Deviation Value
ROM=Y, EEPROM=N |
R501 is shown in Table 1-283.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB_FDEV_UPDATE | R/W | 0x0 | Increment/Decrement DPLL Feedback Numerator value with DPLL_FB_FDEV value
ROM=Y, EEPROM=N |
R502 is shown in Table 1-284.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB_FDEV_EN | R/W | 0x1 | Enable DPLL DCO mode
ROM=Y, EEPROM=N |
R503 is shown in Table 1-285.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_39:32 | R | 0x0 | See Register 507 |
R504 is shown in Table 1-286.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_31:24 | R | 0x0 | See Register 507 |
R505 is shown in Table 1-287.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_23:16 | R | 0x0 | See Register 507 |
R506 is shown in Table 1-288.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_15:8 | R | 0x0 | See Register 507 |
R507 is shown in Table 1-289.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT | R | 0x0 | Readback DPLL Feedback Divider Numerator value as a result of DCO mode
ROM=N, EEPROM=N |
R508 is shown in Table 1-290.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | DPLL2_REF0_DBLR_EN | R/W | 0x0 | DPLL Reference 0 Doubler Enable
ROM=Y, EEPROM=N |
| 2 | DPLL2_REF1_DBLR_EN | R/W | 0x0 | DPLL Reference 1 Doubler Enable
ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R509 is shown in Table 1-291.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF0_RDIV_15:8 | R/W | 0x0 | See Register 510 |
R510 is shown in Table 1-292.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF0_RDIV | R/W | 0xF | DPLL Reference 0 R divider value
ROM=Y, EEPROM=N |
R511 is shown in Table 1-293.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF1_RDIV_15:8 | R/W | 0x0 | See Register 512 |
R512 is shown in Table 1-294.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF1_RDIV | R/W | 0x1 | DPLL Reference 1 R divider value
ROM=Y, EEPROM=N |
R517 is shown in Table 1-295.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF4_RDIV_15:8 | R/W | 0x0 | See Register 518 |
R518 is shown in Table 1-296.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF4_RDIV | R/W | 0x3 | DPLL REF4 R-divider value
ROM=Y, EEPROM=N |
R519 is shown in Table 1-297.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF5_RDIV_15:8 | R/W | 0x0 | See Register 520 |
R520 is shown in Table 1-298.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF5_RDIV | R/W | 0x0 | DPLL Reference 3 R divider value
ROM=Y, EEPROM=N |
R523 is shown in Table 1-299.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL3_REF0_AUTO_PRTY | R/W | 0x0 | REF0 Priority for Automatic Switchover. Sets the priority for REF0 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
| 2:0 | DPLL3_REF1_AUTO_PRTY | R/W | 0x1 | REF1 Priority for Automatic Switchover. Sets the priority for REF1 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
R525 is shown in Table 1-300.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL3_REF4_AUTO_PRTY | R/W | 0x0 | REF4 Priority for Automatic Switchover. Sets the priority for REF4 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
| 2:0 | DPLL3_REF5_AUTO_PRTY | R/W | 0x0 | REF5 Priority for Automatic Switchover. Sets the priority for REF5 used in Automatic Non-Revertive, Automatic Revertive, and Manual Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N 0x0 = Not available for selection 0x1 = 1st 0x2 = 2nd 0x3 = 3rd 0x4 = 4th 0x5 = 5th 0x6 = 6th 0x7 = 7th |
R526 is shown in Table 1-301.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL3_MAN_REFSEL | R/W | 0x0 | DPLL3 Manual Reference Selection Mode. Determines how the manually selected reference is chosen. If this is set to a '1', the manually selected reference is taken from a GPIO input pin. If it is set to a '0', the manually selected reference is taken from a register.
ROM=Y, EEPROM=N 0x0 = REF0 0x1 = REF1 0x2 = Reserved 0x3 = Reserved 0x4 = PLL1 0x5 = PLL2 |
| 2 | DPLL3_MAN_SWITCH_PIN_MODE | R/W | 0x0 | DPLL3 Manual Reference Selection Mode. Determines how the manually selected reference is chosen. If this is set to a '1', the manually selected reference is taken from a GPIO input pin. If it is set to a '0', the manually selected reference is taken from a register.
ROM=Y, EEPROM=N 0x0 = Register 0x1 = Pin |
| 1:0 | DPLL3_SWITCH_MODE | R/W | 0x1 | DPLL3 Reference Switchover Mode. Selects between Automatic Non-revertive, Automatic Revertive, Manual Selection with Automatic Fallback, and Manual Selection with Automatic Holdover.
ROM=Y, EEPROM=N 0x0 = Auto non-revertive 0x1 = Auto revertive 0x2 = Manual fallback 0x3 = Manual Holdover |
R527 is shown in Table 1-302.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_REFSEL_STAT | R | 0x0 | Reads the DPLL3 selected reference
ROM=N, EEPROM=N 0x0 = Holdover 0x1 = REF0 0x2 = REF1 0x4 = Reserved 0x8 = Reserved 0x10 = APLL1 0x20 = APLL2 |
R528 is shown in Table 1-303.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_LOCKDET_PPM_EN | R/W | 0x1 | DPLL frequency lock detect enable
ROM=Y, EEPROM=N |
| 6:0 | DPLL3_LOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 529 |
R529 is shown in Table 1-304.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_MAX | R/W | 0x5A | DPLL frequency lock detect in-lock threshold
ROM=Y, EEPROM=N |
R530 is shown in Table 1-305.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | DPLL3_UNLOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 531 |
R531 is shown in Table 1-306.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_UNLOCKDET_PPM_MAX | R/W | 0x78 | DPLL frequency lock detect out-of-lock threshold
ROM=Y, EEPROM=N |
R532 is shown in Table 1-307.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_LOCKDET2_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 535 |
R533 is shown in Table 1-308.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET2_PPM_CNTSTRT_23:16 | R/W | 0x1 | See Register 535 |
R534 is shown in Table 1-309.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET2_PPM_CNTSTRT_15:8 | R/W | 0x8D | See Register 535 |
R535 is shown in Table 1-310.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET2_PPM_CNTSTRT | R/W | 0x5E | DPLL frequency lock detect reference count value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
R536 is shown in Table 1-311.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_LOCKDET_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 539 |
R537 is shown in Table 1-312.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_CNTSTRT_23:16 | R/W | 0x1 | See Register 539 |
R538 is shown in Table 1-313.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_CNTSTRT_15:8 | R/W | 0x7D | See Register 539 |
R539 is shown in Table 1-314.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_CNTSTRT | R/W | 0x79 | DPLL frequency lock detect reference count value used with DPLL3 feedback configuration 1
ROM=Y, EEPROM=N |
R540 is shown in Table 1-315.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 543 |
R541 is shown in Table 1-316.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_23:16 | R/W | 0xF | See Register 543 |
R542 is shown in Table 1-317.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_15:8 | R/W | 0x42 | See Register 543 |
R543 is shown in Table 1-318.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT | R/W | 0x48 | DPLL frequency lock detect VCO count value
ROM=Y, EEPROM=N |
R544 is shown in Table 1-319.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_STATUS_PPM_LOCK | R | 0x0 | Readback lock indicator from DPLL PPM Checker
ROM=N, EEPROM=N |
R547 is shown in Table 1-320.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_LOOP_EN | R/W | 0x1 | Enable DPLL3 loop filter and R-Div mash engine
ROM=Y, EEPROM=N |
| 6 | DPLL3_PHASE_CANCEL_EN | R/W | 0x1 | Enable Phase Cancellation
ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL3_PHS1_EN | R/W | 0x0 | Enable Phase Slew control type 1
ROM=Y, EEPROM=N |
| 3 | DPLL3_ZDM_EN | R/W | 0x0 | Enable Zero Delay mode
ROM=Y, EEPROM=N |
| 2 | DPLL3_HIST_EN | R/W | 0x1 | Enable History word to be used during holdover
ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R548 is shown in Table 1-321.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_HOLD_SLEW_LIM_EN | R/W | 0x0 | During holdover enable slew limiter
ROM=Y, EEPROM=N |
| 6:0 | RESERVED | R | 0x0 | Reserved |
R550 is shown in Table 1-322.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL3_PH_OFFSET_44:40 | R/W | 0x0 | See Register 555 |
R551 is shown in Table 1-323.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_39:32 | R/W | 0x0 | See Register 555 |
R552 is shown in Table 1-324.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_31:24 | R/W | 0x0 | See Register 555 |
R553 is shown in Table 1-325.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_23:16 | R/W | 0x0 | See Register 555 |
R554 is shown in Table 1-326.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_15:8 | R/W | 0x0 | See Register 555 |
R555 is shown in Table 1-327.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET | R/W | 0x0 | Phase offset to control input to output phase in ZDM.
ROM=Y, EEPROM=N |
R556 is shown in Table 1-328.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_39:32 | R/W | 0x0 | See Register 560 |
R557 is shown in Table 1-329.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_31:24 | R/W | 0x0 | See Register 560 |
R558 is shown in Table 1-330.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_23:16 | R/W | 0x0 | See Register 560 |
R559 is shown in Table 1-331.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_15:8 | R/W | 0x0 | See Register 560 |
R560 is shown in Table 1-332.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN | R/W | 0x0 | DPLL starting word. Also non-history holdover word.
ROM=Y, EEPROM=N |
R590 is shown in Table 1-333.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_LCK_TIMER_9:8 | R/W | 0x3 | See Register 591 |
R591 is shown in Table 1-334.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LCK_TIMER | R/W | 0xA | Minimum amount of time until DPLL3_LOPL will be deasserted after starting to lock. Timer begins once device is within valid phase lock window.
ROM=Y, EEPROM=N |
R594 is shown in Table 1-335.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_HOLD_TIMER_9:8 | R/W | 0x1 | See Register 595 |
R595 is shown in Table 1-336.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_HOLD_TIMER | R/W | 0x42 | Rate of change to DPLL or APLL numerator during phase slew control. See DPLLx_HOLD_SLEW_STEP.
ROM=Y, EEPROM=N |
R596 is shown in Table 1-337.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_PHS1_TIMER_9:8 | R/W | 0x1 | See Register 597 |
R597 is shown in Table 1-338.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PHS1_TIMER | R/W | 0x40 | Phase slew control update timer.
ROM=Y, EEPROM=N |
R603 is shown in Table 1-339.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_PL_THRESH | R/W | 0x29 | Phase lock in-lock threshold
ROM=Y, EEPROM=N |
R604 is shown in Table 1-340.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_PL_UNLK_THRESH | R/W | 0x2A | Phase lock out-of-lock threshold
ROM=Y, EEPROM=N |
R605 is shown in Table 1-341.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_PHS1_THRESH | R/W | 0x7 | Phase slew type 1 threshold
ROM=Y, EEPROM=N |
R610 is shown in Table 1-342.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL3_STATUS_PL | R | 0x0 | Readback the phase lock status
ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
R611 is shown in Table 1-343.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL3_DCO_SLEW_ACTIVE | R | 0x0 | Readback DCO slew status
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R614 is shown in Table 1-344.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB_DIV_32:32 | R/W | 0x0 | See Register 618 |
R615 is shown in Table 1-345.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV_31:24 | R/W | 0x0 | See Register 618 |
R616 is shown in Table 1-346.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV_23:16 | R/W | 0x0 | See Register 618 |
R617 is shown in Table 1-347.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV_15:8 | R/W | 0x0 | See Register 618 |
R618 is shown in Table 1-348.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV | R/W | 0xF5 | DPLL Feedback Divider N Value used with DPLL3 feedback configuration 1
ROM=Y, EEPROM=N |
R619 is shown in Table 1-349.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_39:32 | R/W | 0xC2 | See Register 623 |
R620 is shown in Table 1-350.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_31:24 | R/W | 0x8F | See Register 623 |
R621 is shown in Table 1-351.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_23:16 | R/W | 0x5C | See Register 623 |
R622 is shown in Table 1-352.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_15:8 | R/W | 0x28 | See Register 623 |
R623 is shown in Table 1-353.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM | R/W | 0xF5 | DPLL Feedback Divider Numerator Value used with DPLL3 feedback configuration 1
ROM=Y, EEPROM=N |
R624 is shown in Table 1-354.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_39:32 | R/W | 0xFF | See Register 628 |
R625 is shown in Table 1-355.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_31:24 | R/W | 0xFF | See Register 628 |
R626 is shown in Table 1-356.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_23:16 | R/W | 0xFF | See Register 628 |
R627 is shown in Table 1-357.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_15:8 | R/W | 0xFF | See Register 628 |
R628 is shown in Table 1-358.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN | R/W | 0xFF | DPLL Feedback Divider Denominator Value used with DPLL3 feedback configuration 1
ROM=Y, EEPROM=N |
R629 is shown in Table 1-359.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB2_DIV_32:32 | R/W | 0x0 | See Register 633 |
R630 is shown in Table 1-360.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV_31:24 | R/W | 0x0 | See Register 633 |
R631 is shown in Table 1-361.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV_23:16 | R/W | 0x0 | See Register 633 |
R632 is shown in Table 1-362.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV_15:8 | R/W | 0x0 | See Register 633 |
R633 is shown in Table 1-363.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV | R/W | 0xEB | DPLL Feedback Divider N Value used with DPLL3 feedback configuration 2
ROM=Y, EEPROM=N |
R634 is shown in Table 1-364.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_39:32 | R/W | 0xED | See Register 638 |
R635 is shown in Table 1-365.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_31:24 | R/W | 0xFA | See Register 638 |
R636 is shown in Table 1-366.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_23:16 | R/W | 0x43 | See Register 638 |
R637 is shown in Table 1-367.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_15:8 | R/W | 0xFD | See Register 638 |
R638 is shown in Table 1-368.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM | R/W | 0x5C | DPLL Feedback Divider Numerator Value used with DPLL3 feedback configuration 2
ROM=Y, EEPROM=N |
R639 is shown in Table 1-369.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_39:32 | R/W | 0xFF | See Register 643 |
R640 is shown in Table 1-370.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_31:24 | R/W | 0xFF | See Register 643 |
R641 is shown in Table 1-371.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_23:16 | R/W | 0xFF | See Register 643 |
R642 is shown in Table 1-372.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_15:8 | R/W | 0xFE | See Register 643 |
R643 is shown in Table 1-373.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN | R/W | 0xEC | DPLL Feedback Divider Denominator Value used with DPLL3 feedback configuration 2
ROM=Y, EEPROM=N |
R644 is shown in Table 1-374.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL3_REF5_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF5. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 4 | DPLL3_REF4_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF4. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | DPLL3_REF1_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for REF1. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
| 0 | DPLL3_REF0_FB_SEL | R/W | 0x1 | DPLL Feedback N, NUM, DEN select for REF0. When this bit is a 0, Value 1 is chosen for each of the three parameters. When it is set to a 1, Value 2 is used.
ROM=Y, EEPROM=N 0x0 = FB Config 1 0x1 = FB Config 2 |
R645 is shown in Table 1-375.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | DPLL3_FB_MASH_ORDER | R/W | 0x2 | DPLL Feedback Divider MASH Order.
ROM=Y, EEPROM=N |
R646 is shown in Table 1-376.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_FB_FDEV_37:32 | R/W | 0x0 | See Register 650 |
R647 is shown in Table 1-377.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV_31:24 | R/W | 0x0 | See Register 650 |
R648 is shown in Table 1-378.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV_23:16 | R/W | 0x0 | See Register 650 |
R649 is shown in Table 1-379.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV_15:8 | R/W | 0x69 | See Register 650 |
R650 is shown in Table 1-380.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV | R/W | 0x8E | DPLL Feedback Divider DCO Frequency Deviation Value
ROM=Y, EEPROM=N |
R651 is shown in Table 1-381.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB_FDEV_UPDATE | R/W | 0x0 | Increment/Decrement DPLL Feedback Numerator value with DPLL_FB_FDEV value
ROM=Y, EEPROM=N |
R652 is shown in Table 1-382.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB_FDEV_EN | R/W | 0x1 | Enable DPLL DCO mode
ROM=Y, EEPROM=N |
R653 is shown in Table 1-383.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_39:32 | R | 0x0 | See Register 657 |
R654 is shown in Table 1-384.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_31:24 | R | 0x0 | See Register 657 |
R655 is shown in Table 1-385.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_23:16 | R | 0x0 | See Register 657 |
R656 is shown in Table 1-386.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_15:8 | R | 0x0 | See Register 657 |
R657 is shown in Table 1-387.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT | R | 0x0 | Readback DPLL Feedback Divider Numerator value as a result of DCO mode
ROM=N, EEPROM=N |
R658 is shown in Table 1-388.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | DPLL3_REF0_DBLR_EN | R/W | 0x0 | DPLL Reference 0 Doubler Enable
ROM=Y, EEPROM=N |
| 2 | DPLL3_REF1_DBLR_EN | R/W | 0x0 | DPLL Reference 1 Doubler Enable
ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R659 is shown in Table 1-389.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF0_RDIV_15:8 | R/W | 0x0 | See Register 660 |
R660 is shown in Table 1-390.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF0_RDIV | R/W | 0xF | DPLL Reference 0 R divider value
ROM=Y, EEPROM=N |
R661 is shown in Table 1-391.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF1_RDIV_15:8 | R/W | 0x0 | See Register 662 |
R662 is shown in Table 1-392.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF1_RDIV | R/W | 0x1 | DPLL Reference 1 R divider value
ROM=Y, EEPROM=N |
R663 is shown in Table 1-393.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF2_RDIV_15:8 | R/W | 0x0 | See Register 664 |
R664 is shown in Table 1-394.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF2_RDIV | R/W | 0x3 | DPLL Reference 2 R divider value
ROM=Y, EEPROM=N |
R669 is shown in Table 1-395.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF5_RDIV_15:8 | R/W | 0x1 | See Register 670 |
R670 is shown in Table 1-396.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF5_RDIV | R/W | 0x1 | DPLL Reference 5 R divider value
ROM=Y, EEPROM=N |
R707 is shown in Table 1-397.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_CP_PU_R | R/W | 0x50 | PLL charge pump pull-up resistor selection
ROM=Y, EEPROM=N 0x0 = Disabled 0x1 = 78 kΩ 0x2 = 39 kΩ 0x3 = 26 kΩ 0x4 = 20 kΩ 0x5 = 15.9 kΩ 0x6 = 13.2 kΩ 0x7 = 11.3 kΩ 0x8 = 9.8 kΩ 0x9 = 8.71 kΩ 0xA = 7.83 kΩ 0xB = 7.12 kΩ 0xC = 6.58 kΩ 0xD = 6.07 kΩ 0xE = 5.63 kΩ 0xF = 5.25 kΩ 0x10 = 4.9 kΩ 0x11 = 4.61 kΩ 0x12 = 4.35 kΩ 0x13 = 4.12 kΩ 0x14 = 3.94 kΩ 0x15 = 3.75 kΩ 0x16 = 3.57 kΩ 0x17 = 3.42 kΩ 0x18 = 3.27 kΩ 0x19 = 3.14 kΩ 0x1A = 3.01 kΩ 0x1B = 2.9 kΩ 0x1C = 2.81 kΩ 0x1D = 2.71 kΩ 0x1E = 2.62 kΩ 0x1F = 2.53 kΩ 0x20 = 2.4 kΩ 0x21 = 2.33 kΩ 0x22 = 2.26 kΩ 0x23 = 2.2 kΩ 0x24 = 2.14 kΩ 0x25 = 2.09 kΩ 0x26 = 2.03 kΩ 0x27 = 1.98 kΩ 0x28 = 1.93 kΩ 0x29 = 1.88 kΩ 0x2A = 1.84 kΩ 0x2B = 1.79 kΩ 0x2C = 1.76 kΩ 0x2D = 1.72 kΩ 0x2E = 1.68 kΩ 0x2F = 1.65 kΩ 0x30 = 1.61 kΩ 0x31 = 1.58 kΩ 0x32 = 1.55 kΩ 0x33 = 1.52 kΩ 0x34 = 1.49 kΩ 0x35 = 1.46 kΩ 0x36 = 1.44 kΩ 0x37 = 1.41 kΩ 0x38 = 1.38 kΩ 0x39 = 1.36 kΩ 0x3A = 1.34 kΩ 0x3B = 1.31 kΩ 0x3C = 1.29 kΩ 0x3D = 1.27 kΩ 0x3E = 1.25 kΩ 0x3F = 1.23 kΩ 0x40 = 1.2 kΩ 0x41 = 1.18 kΩ 0x42 = 1.16 kΩ 0x43 = 1.15 kΩ 0x44 = 1.13 kΩ 0x45 = 1.12 kΩ 0x46 = 1.1 kΩ 0x47 = 1.08 kΩ 0x48 = 1.07 kΩ 0x49 = 1.05 kΩ 0x4A = 1.04 kΩ 0x4B = 1.03 kΩ 0x4C = 1.01 kΩ 0x4D = 1 kΩ 0x4E = 0.989 kΩ 0x4F = 0.977 kΩ 0x50 = 0.964 kΩ 0x51 = 0.952 kΩ 0x52 = 0.941 kΩ 0x53 = 0.929 kΩ 0x54 = 0.92 kΩ 0x55 = 0.909 kΩ 0x56 = 0.898 kΩ 0x57 = 0.888 kΩ 0x58 = 0.878 kΩ 0x59 = 0.868 kΩ 0x5A = 0.858 kΩ 0x5B = 0.849 kΩ 0x5C = 0.841 kΩ 0x5D = 0.832 kΩ 0x5E = 0.823 kΩ 0x5F = 0.814 kΩ 0x60 = 0.8 kΩ 0x61 = 0.792 kΩ 0x62 = 0.784 kΩ 0x63 = 0.776 kΩ 0x64 = 0.769 kΩ 0x65 = 0.762 kΩ 0x66 = 0.754 kΩ 0x67 = 0.747 kΩ 0x68 = 0.74 kΩ 0x69 = 0.733 kΩ 0x6A = 0.726 kΩ 0x6B = 0.719 kΩ 0x6C = 0.713 kΩ 0x6D = 0.707 kΩ 0x6E = 0.7 kΩ 0x6F = 0.694 kΩ 0x70 = 0.688 kΩ 0x71 = 0.682 kΩ 0x72 = 0.676 kΩ 0x73 = 0.67 kΩ 0x74 = 0.665 kΩ 0x75 = 0.659 kΩ 0x76 = 0.654 kΩ 0x77 = 0.648 kΩ 0x78 = 0.643 kΩ 0x79 = 0.637 kΩ 0x7A = 0.632 kΩ 0x7B = 0.627 kΩ 0x7C = 0.623 kΩ 0x7D = 0.618 kΩ 0x7E = 0.613 kΩ 0x7F = 0.608 kΩ 0x80 = 0.6 kΩ 0x81 = 0.595 kΩ 0x82 = 0.591 kΩ 0x83 = 0.586 kΩ 0x84 = 0.583 kΩ 0x85 = 0.578 kΩ 0x86 = 0.574 kΩ 0x87 = 0.57 kΩ 0x88 = 0.565 kΩ 0x89 = 0.561 kΩ 0x8A = 0.557 kΩ 0x8B = 0.553 kΩ 0x8C = 0.55 kΩ 0x8D = 0.546 kΩ 0x8E = 0.542 kΩ 0x8F = 0.538 kΩ 0x90 = 0.535 kΩ 0x91 = 0.531 kΩ 0x92 = 0.527 kΩ 0x93 = 0.524 kΩ 0x94 = 0.521 kΩ 0x95 = 0.517 kΩ 0x96 = 0.514 kΩ 0x97 = 0.51 kΩ 0x98 = 0.507 kΩ 0x99 = 0.504 kΩ 0x9A = 0.5 kΩ 0x9B = 0.497 kΩ 0x9C = 0.494 kΩ 0x9D = 0.491 kΩ 0x9E = 0.488 kΩ 0x9F = 0.485 kΩ 0xA0 = 0.48 kΩ 0xA1 = 0.477 kΩ 0xA2 = 0.474 kΩ 0xA3 = 0.471 kΩ 0xA4 = 0.469 kΩ 0xA5 = 0.466 kΩ 0xA6 = 0.463 kΩ 0xA7 = 0.46 kΩ 0xA8 = 0.458 kΩ 0xA9 = 0.455 kΩ 0xAA = 0.452 kΩ 0xAB = 0.45 kΩ 0xAC = 0.447 kΩ 0xAD = 0.445 kΩ 0xAE = 0.442 kΩ 0xAF = 0.44 kΩ 0xB0 = 0.437 kΩ 0xB1 = 0.435 kΩ 0xB2 = 0.432 kΩ 0xB3 = 0.43 kΩ 0xB4 = 0.428 kΩ 0xB5 = 0.425 kΩ 0xB6 = 0.423 kΩ 0xB7 = 0.421 kΩ 0xB8 = 0.419 kΩ 0xB9 = 0.416 kΩ 0xBA = 0.414 kΩ 0xBB = 0.412 kΩ 0xBC = 0.41 kΩ 0xBD = 0.408 kΩ 0xBE = 0.406 kΩ 0xBF = 0.404 kΩ 0xC0 = 0.4 kΩ 0xC1 = 0.398 kΩ 0xC2 = 0.396 kΩ 0xC3 = 0.394 kΩ 0xC4 = 0.392 kΩ 0xC5 = 0.39 kΩ 0xC6 = 0.388 kΩ 0xC7 = 0.386 kΩ 0xC8 = 0.384 kΩ 0xC9 = 0.382 kΩ 0xCA = 0.381 kΩ 0xCB = 0.379 kΩ 0xCC = 0.377 kΩ 0xCD = 0.375 kΩ 0xCE = 0.373 kΩ 0xCF = 0.372 kΩ 0xD0 = 0.37 kΩ 0xD1 = 0.368 kΩ 0xD2 = 0.366 kΩ 0xD3 = 0.365 kΩ 0xD4 = 0.363 kΩ 0xD5 = 0.361 kΩ 0xD6 = 0.36 kΩ 0xD7 = 0.358 kΩ 0xD8 = 0.356 kΩ 0xD9 = 0.355 kΩ 0xDA = 0.353 kΩ 0xDB = 0.352 kΩ 0xDC = 0.35 kΩ 0xDD = 0.349 kΩ 0xDE = 0.347 kΩ 0xDF = 0.345 kΩ 0xE0 = 0.343 kΩ 0xE1 = 0.341 kΩ 0xE2 = 0.34 kΩ 0xE3 = 0.338 kΩ 0xE4 = 0.337 kΩ 0xE5 = 0.336 kΩ 0xE6 = 0.334 kΩ 0xE7 = 0.333 kΩ 0xE8 = 0.331 kΩ 0xE9 = 0.33 kΩ 0xEA = 0.328 kΩ 0xEB = 0.327 kΩ 0xEC = 0.326 kΩ 0xED = 0.325 kΩ 0xEE = 0.323 kΩ 0xEF = 0.322 kΩ 0xF0 = 0.32 kΩ 0xF1 = 0.319 kΩ 0xF2 = 0.318 kΩ 0xF3 = 0.317 kΩ 0xF4 = 0.315 kΩ 0xF5 = 0.314 kΩ 0xF6 = 0.313 kΩ 0xF7 = 0.312 kΩ 0xF8 = 0.31 kΩ 0xF9 = 0.309 kΩ 0xFA = 0.308 kΩ 0xFB = 0.307 kΩ 0xFC = 0.306 kΩ 0xFD = 0.304 kΩ 0xFE = 0.303 kΩ 0xFF = 0.302 kΩ |
R708 is shown in Table 1-398.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | PLL1_CPG | R/W | 0x3 | PLL charge pump gain Pump up/down.
ROM=Y, EEPROM=Y 0x0 = 1.6 mA 0x1 = 3.2 mA 0x2 = 4.8 mA 0x3 = 6.4 mA |
R709 is shown in Table 1-399.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL1_LF_R2 | R/W | 0x2 | PLL Loop Filter R2 setting
ROM=Y, EEPROM=N 0x0 = 0.016 kΩ 0x1 = 0.262 kΩ 0x2 = 0.357 kΩ 0x3 = 0.166 kΩ 0x4 = 0.642 kΩ 0x5 = 0.199 kΩ 0x6 = 0.244 kΩ 0x7 = 0.142 kΩ 0x8 = 1.14 kΩ 0x9 = 0.222 kΩ 0xA = 0.283 kΩ 0xB = 0.152 kΩ 0xC = 0.425 kΩ 0xD = 0.177 kΩ 0xE = 0.21 kΩ 0xF = 0.132 kΩ 0x10 = 0.847 kΩ 0x11 = 1.06 kΩ 0x12 = 1.16 kΩ 0x13 = 0.966 kΩ 0x14 = 1.44 kΩ 0x15 = 0.998 kΩ 0x16 = 1.04 kΩ 0x17 = 0.941 kΩ 0x18 = 1.94 kΩ 0x19 = 1.02 kΩ 0x1A = 1.08 kΩ 0x1B = 0.951 kΩ 0x1C = 1.22 kΩ 0x1D = 0.976 kΩ 0x1E = 1.01 kΩ 0x1F = 0.931 kΩ 0x20 = 1.66 kΩ 0x21 = 1.88 kΩ 0x22 = 1.97 kΩ 0x23 = 1.78 kΩ 0x24 = 2.26 kΩ 0x25 = 1.81 kΩ 0x26 = 1.86 kΩ 0x27 = 1.76 kΩ 0x28 = 2.75 kΩ 0x29 = 1.84 kΩ 0x2A = 1.9 kΩ 0x2B = 1.77 kΩ 0x2C = 2.04 kΩ 0x2D = 1.79 kΩ 0x2E = 1.82 kΩ 0x2F = 1.75 kΩ 0x30 = 2.46 kΩ 0x31 = 2.68 kΩ 0x32 = 2.77 kΩ 0x33 = 2.58 kΩ 0x34 = 3.06 kΩ 0x35 = 2.61 kΩ 0x36 = 2.66 kΩ 0x37 = 2.56 kΩ 0x38 = 3.55 kΩ 0x39 = 2.64 kΩ 0x3A = 2.7 kΩ 0x3B = 2.57 kΩ 0x3C = 2.84 kΩ 0x3D = 2.59 kΩ 0x3E = 2.62 kΩ 0x3F = 2.55 kΩ |
R710 is shown in Table 1-400.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL1_LF_R3 | R/W | 0x6 | PLL Loop Filter R3 setting
ROM=Y, EEPROM=N 0x0 = 0.016 kΩ 0x1 = 0.277 kΩ 0x2 = 0.657 kΩ 0x3 = 0.214 kΩ 0x4 = 0.754 kΩ 0x5 = 0.221 kΩ 0x6 = 0.375 kΩ 0x7 = 0.183 kΩ 0x8 = 0.863 kΩ 0x9 = 1.08 kΩ 0xA = 1.46 kΩ 0xB = 1.01 kΩ 0xC = 1.55 kΩ 0xD = 1.02 kΩ 0xE = 1.17 kΩ 0xF = 0.982 kΩ 0x10 = 1.68 kΩ 0x11 = 1.89 kΩ 0x12 = 2.27 kΩ 0x13 = 1.83 kΩ 0x14 = 2.37 kΩ 0x15 = 1.84 kΩ 0x16 = 1.99 kΩ 0x17 = 1.8 kΩ 0x18 = 2.48 kΩ 0x19 = 2.69 kΩ 0x1A = 3.07 kΩ 0x1B = 2.63 kΩ 0x1C = 3.17 kΩ 0x1D = 2.63 kΩ 0x1E = 2.79 kΩ 0x1F = 2.6 kΩ 0x20 = 3.31 kΩ 0x21 = 3.52 kΩ 0x22 = 3.9 kΩ 0x23 = 3.46 kΩ 0x24 = 4 kΩ 0x25 = 3.47 kΩ 0x26 = 3.62 kΩ 0x27 = 3.43 kΩ 0x28 = 4.11 kΩ 0x29 = 4.32 kΩ 0x2A = 4.7 kΩ 0x2B = 4.26 kΩ 0x2C = 4.8 kΩ 0x2D = 4.26 kΩ 0x2E = 4.42 kΩ 0x2F = 4.23 kΩ 0x30 = 4.92 kΩ 0x31 = 5.14 kΩ 0x32 = 5.52 kΩ 0x33 = 5.07 kΩ 0x34 = 5.61 kΩ 0x35 = 5.08 kΩ 0x36 = 5.23 kΩ 0x37 = 5.04 kΩ 0x38 = 5.72 kΩ 0x39 = 5.94 kΩ 0x3A = 6.32 kΩ 0x3B = 5.87 kΩ 0x3C = 6.41 kΩ 0x3D = 5.88 kΩ 0x3E = 6.03 kΩ 0x3F = 5.84 kΩ |
R711 is shown in Table 1-401.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL1_LF_R4 | R/W | 0x6 | PLL Loop Filter R4 setting
ROM=Y, EEPROM=N 0x0 = 0.016 kΩ 0x1 = 0.277 kΩ 0x2 = 0.657 kΩ 0x3 = 0.214 kΩ 0x4 = 0.754 kΩ 0x5 = 0.221 kΩ 0x6 = 0.375 kΩ 0x7 = 0.183 kΩ 0x8 = 0.863 kΩ 0x9 = 1.08 kΩ 0xA = 1.46 kΩ 0xB = 1.01 kΩ 0xC = 1.55 kΩ 0xD = 1.02 kΩ 0xE = 1.17 kΩ 0xF = 0.982 kΩ 0x10 = 1.68 kΩ 0x11 = 1.89 kΩ 0x12 = 2.27 kΩ 0x13 = 1.83 kΩ 0x14 = 2.37 kΩ 0x15 = 1.84 kΩ 0x16 = 1.99 kΩ 0x17 = 1.8 kΩ 0x18 = 2.48 kΩ 0x19 = 2.69 kΩ 0x1A = 3.07 kΩ 0x1B = 2.63 kΩ 0x1C = 3.17 kΩ 0x1D = 2.63 kΩ 0x1E = 2.79 kΩ 0x1F = 2.6 kΩ 0x20 = 3.31 kΩ 0x21 = 3.52 kΩ 0x22 = 3.9 kΩ 0x23 = 3.46 kΩ 0x24 = 4 kΩ 0x25 = 3.47 kΩ 0x26 = 3.62 kΩ 0x27 = 3.43 kΩ 0x28 = 4.11 kΩ 0x29 = 4.32 kΩ 0x2A = 4.7 kΩ 0x2B = 4.26 kΩ 0x2C = 4.8 kΩ 0x2D = 4.26 kΩ 0x2E = 4.42 kΩ 0x2F = 4.23 kΩ 0x30 = 4.92 kΩ 0x31 = 5.14 kΩ 0x32 = 5.52 kΩ 0x33 = 5.07 kΩ 0x34 = 5.61 kΩ 0x35 = 5.08 kΩ 0x36 = 5.23 kΩ 0x37 = 5.04 kΩ 0x38 = 5.72 kΩ 0x39 = 5.94 kΩ 0x3A = 6.32 kΩ 0x3B = 5.87 kΩ 0x3C = 6.41 kΩ 0x3D = 5.88 kΩ 0x3E = 6.03 kΩ 0x3F = 5.84 kΩ |
R712 is shown in Table 1-402.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | PLL1_DISABLE_3RD4TH | R/W | 0x3 | PLL Loop Filter Disconnects C3 and C4
ROM=Y, EEPROM=N 0x0 = C3/C4 Disconnected 0x1 = C3=Enabled, C4=Disconnected 0x2 = C3=Disconnected, C4=Enabled 0x3 = C3=Enabled, C4=Enabled |
| 5:3 | PLL1_LF_C3 | R/W | 0x7 | PLL Loop Filter C3 setting
ROM=Y, EEPROM=N 0x0 = 0 pF 0x1 = 10 pF 0x2 = 20 pF 0x3 = 30 pF 0x4 = 40 pF 0x5 = 50 pF 0x6 = 60 pF 0x7 = 70 pF |
| 2:0 | PLL1_LF_C4 | R/W | 0x7 | PLL Loop Filter C4 setting
ROM=Y, EEPROM=N 0x0 = 0 pF 0x1 = 10 pF 0x2 = 20 pF 0x3 = 30 pF 0x4 = 40 pF 0x5 = 50 pF 0x6 = 60 pF 0x7 = 70 pF |
R713 is shown in Table 1-403.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL1_RDIV_8:8 | R/W | 0x0 | See Register 714 |
R714 is shown in Table 1-404.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_RDIV | R/W | 0xB | PLL R Divider
ROM=Y, EEPROM=Y |
R715 is shown in Table 1-405.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL1_RDIV_XO_EN | R/W | 0x0 | APLL reference source is from XO. Must also enable XO to drive this APLL with XO_OUT_BUF_EN[1] = 1
ROM=Y, EEPROM=Y |
| 3 | PLL1_RDIV_XO_DBLR_EN | R/W | 0x0 | Enables XO Doubler
ROM=Y, EEPROM=Y |
| 2 | PLL1_RDIV_BYPASS_EN | R/W | 0x0 | Bypass R Divider
ROM=Y, EEPROM=Y |
| 1:0 | PLL1_RDIV_MUX_SEL | R/W | 0x2 | Select R Divider input. When enabling reference from feedback divider, the APLL PLLx_VCO_BUF_2REF_EN bit must also be set appropriately.
ROM=Y, EEPROM=Y 0x0 = XO 0x1 = VCO2 feedback divider 0x2 = VCO3 feedback divider |
R716 is shown in Table 1-406.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL1_NDIV_8:8 | R/W | 0x0 | See Register 717 |
R717 is shown in Table 1-407.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NDIV | R/W | 0x34 | PLL N Divider
ROM=Y, EEPROM=Y |
R718 is shown in Table 1-408.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_MSB | R/W | 0x4C | PLL Numerator MSB's when DPLL is disabled and MASH is 24 bit programmable Denominator
ROM=Y, EEPROM=Y |
R719 is shown in Table 1-409.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_39:32 | R/W | 0xE5 | See Register 723 |
R720 is shown in Table 1-410.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_31:24 | R/W | 0xAA | See Register 723 |
R721 is shown in Table 1-411.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_23:16 | R/W | 0xAA | See Register 723 |
R722 is shown in Table 1-412.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_15:8 | R/W | 0xAA | See Register 723 |
R723 is shown in Table 1-413.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM | R/W | 0xAB | PLL Numerator in DPLL Mode, PLL Denominator when DPLL mode is disabled
ROM=Y, EEPROM=Y |
R724 is shown in Table 1-414.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | PLL1_DTHRMODE | R/W | 0x0 | PLL MASH Dither Mode
ROM=Y, EEPROM=N 0x0 = Constant Dither MACC2 0x1 = Constant Dither MACC2 and MACC3 0x2 = LFSR Dither MACC2 0x3 = Dither Disabled |
| 3:1 | PLL1_ORDER | R/W | 0x3 | PLL MASH Order
ROM=Y, EEPROM=N 0x0 = Integer Mode Divider 0x1 = 1st 0x2 = 2nd 0x3 = 3rd |
| 0 | PLL1_MODE | R/W | 0x1 | In APLL 24-bit num/den mode, APLL denominator is programmable. Recommended not for use with DPLL mode. In 24-bit mode, the denominator is stored in PLL1_NUM[23:0] The numerator is stored in (PLL1_NUM_MSB << 16) + PLL1_NUM[39:24].
In APLL 40-bit mode, APLL denominator is fixed. For use with DPLL. ROM=Y, EEPROM=Y 0x0 = APLL 24-bit num/den 0x1 = APLL 40-bit num (Req for DPLL) |
R725 is shown in Table 1-415.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_39:32 | R | 0x0 | See Register 729 |
R726 is shown in Table 1-416.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_31:24 | R | 0x0 | See Register 729 |
R727 is shown in Table 1-417.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_23:16 | R | 0x0 | See Register 729 |
R728 is shown in Table 1-418.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_15:8 | R | 0x0 | See Register 729 |
R729 is shown in Table 1-419.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT | R | 0x0 | Readback current MASH Numerator after FDEV and or DPLL correction
ROM=N, EEPROM=N |
R731 is shown in Table 1-420.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_PRI_DIV_SYNC_EN | R/W | 0x1 | PLL1 Primary Divider Sync Enable. Enables synchronization of primary post-dividers and reference dividers at startup for PLL1.
ROM=Y, EEPROM=N |
| 6 | PLL1_PRI_DIV_EN | R/W | 0x1 | Enables the primary VCO1 divider
ROM=Y, EEPROM=Y |
| 5:3 | PLL1_PRI_DIV | R/W | 0x4 | Sets the primary VCO1 divider divide value from 2 to 7
ROM=Y, EEPROM=Y 0x0 = 2 (Reserved) 0x1 = 2 0x2 = 3 0x3 = 4 0x4 = 5 0x5 = 6 0x6 = 7 |
| 2:0 | PLL1_PRI_DIV_DRVR_EN | R/W | 0x4 | Enables primary VCO1 divider output driver to channel output banks:
[Bit 0] -> OUT0_1 [Bit 1] -> OUT2_3 [Bit 2] -> OUT14_15 ROM=Y, EEPROM=Y |
R732 is shown in Table 1-421.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_SEC_DIV_SYNC_EN | R/W | 0x1 | PLL1 Secondary Divider Sync Enable. Enables synchronization of secondary post-dividers and reference dividers at startup for PLL1.
ROM=Y, EEPROM=N |
| 6 | PLL1_SEC_DIV_EN | R/W | 0x0 | Enables the secondary VCO1 divider
ROM=Y, EEPROM=Y |
| 5:3 | PLL1_SEC_DIV | R/W | 0x1 | Sets the secondary VCO1 divider divide value from 2 to 7
ROM=Y, EEPROM=Y 0x0 = 2 (Reserved) 0x1 = 2 0x2 = 3 0x3 = 4 0x4 = 5 0x5 = 6 0x6 = 7 |
| 2:0 | PLL1_SEC_DIV_DRVR_EN | R/W | 0x0 | Enables the secondary VCO1 divider output driver to channel output banks:
[Bit 0] -> OUT0_1 [Bit 1] -> OUT2_3 [Bit 2] -> Reserved ROM=Y, EEPROM=Y |
R733 is shown in Table 1-422.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_VCO_BUF_EN | R/W | 0x0 | Enables the VCO1 Buffer which drives the DPLL feedback, reference window detector, DPLL reference for cascade mode, and test mode
ROM=Y, EEPROM=N |
| 6:5 | PLL1_VCO_BUF_2REF_EN | R/W | 0x0 | Enables the VCO1 Div By 4 Buffer output driver to APLL2/3 reference input for cascade mode. [0] - > APLL2, [1] -> APLL3
ROM=Y, EEPROM=Y |
| 4 | PLL1_VCO_BUF_2DPLL_EN | R/W | 0x0 | Enables the VCO1 Buffer output driver to DPLL feedback divider
ROM=Y, EEPROM=N |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2 | PLL1_VCO_BUF_PPM_CHECK_EN | R/W | 0x0 | Enables the VCO1 Div By 48 Buffer output driver to DPLL/PPM frequency detector
ROM=Y, EEPROM=N |
| 1:0 | PLL1_VCO_BUF_FB_TDC_EN | R/W | 0x0 | Enables VCO1 Div By 8 Buffer output driver to TDC2 and TDC3 for cascade mode [0] = TDC2 driver enable [1] = TDC3 driver enable
ROM=Y, EEPROM=N |
R741 is shown in Table 1-423.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL1_VM_INSIDE | R | 0x0 | Denotes if the VCO tuning voltage is within operational range.
ROM=N, EEPROM=N |
| 4 | PLL1_VM_HI | R | 0x0 | vco_hi status. Denotes if the charge pump voltage is too high and outside range
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R773 is shown in Table 1-424.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:4 | RESERVED | R | 0x0 | Reserved |
| 3:2 | PLL2_CLSDWAIT | R/W | 0x1 | Sets the calibration closed loop wait time to allow the vtune voltage to settle after switching to new capcode
ROM=Y, EEPROM=N 0x0 = 300 us 0x1 = 3 ms 0x2 = 30 ms 0x3 = 300 ms |
| 1:0 | PLL2_OPENWAIT | R/W | 0x2 | Sets the initial delay for the VCO to settle before starting the frequency calibration
ROM=Y, EEPROM=N 0x0 = 20 us 0x1 = 400 us 0x2 = 8 ms 0x3 = 200 ms |
R777 is shown in Table 1-425.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_CP_PU_R | R/W | 0x4D | PLL charge pump pull-up resistor selection
ROM=Y, EEPROM=N 0x0 = Disabled 0x1 = 78 kΩ 0x2 = 39 kΩ 0x3 = 26 kΩ 0x4 = 20 kΩ 0x5 = 15.9 kΩ 0x6 = 13.2 kΩ 0x7 = 11.3 kΩ 0x8 = 9.8 kΩ 0x9 = 8.71 kΩ 0xA = 7.83 kΩ 0xB = 7.12 kΩ 0xC = 6.58 kΩ 0xD = 6.07 kΩ 0xE = 5.63 kΩ 0xF = 5.25 kΩ 0x10 = 4.9 kΩ 0x11 = 4.61 kΩ 0x12 = 4.35 kΩ 0x13 = 4.12 kΩ 0x14 = 3.94 kΩ 0x15 = 3.75 kΩ 0x16 = 3.57 kΩ 0x17 = 3.42 kΩ 0x18 = 3.27 kΩ 0x19 = 3.14 kΩ 0x1A = 3.01 kΩ 0x1B = 2.9 kΩ 0x1C = 2.81 kΩ 0x1D = 2.71 kΩ 0x1E = 2.62 kΩ 0x1F = 2.53 kΩ 0x20 = 2.4 kΩ 0x21 = 2.33 kΩ 0x22 = 2.26 kΩ 0x23 = 2.2 kΩ 0x24 = 2.14 kΩ 0x25 = 2.09 kΩ 0x26 = 2.03 kΩ 0x27 = 1.98 kΩ 0x28 = 1.93 kΩ 0x29 = 1.88 kΩ 0x2A = 1.84 kΩ 0x2B = 1.79 kΩ 0x2C = 1.76 kΩ 0x2D = 1.72 kΩ 0x2E = 1.68 kΩ 0x2F = 1.65 kΩ 0x30 = 1.61 kΩ 0x31 = 1.58 kΩ 0x32 = 1.55 kΩ 0x33 = 1.52 kΩ 0x34 = 1.49 kΩ 0x35 = 1.46 kΩ 0x36 = 1.44 kΩ 0x37 = 1.41 kΩ 0x38 = 1.38 kΩ 0x39 = 1.36 kΩ 0x3A = 1.34 kΩ 0x3B = 1.31 kΩ 0x3C = 1.29 kΩ 0x3D = 1.27 kΩ 0x3E = 1.25 kΩ 0x3F = 1.23 kΩ 0x40 = 1.2 kΩ 0x41 = 1.18 kΩ 0x42 = 1.16 kΩ 0x43 = 1.15 kΩ 0x44 = 1.13 kΩ 0x45 = 1.12 kΩ 0x46 = 1.1 kΩ 0x47 = 1.08 kΩ 0x48 = 1.07 kΩ 0x49 = 1.05 kΩ 0x4A = 1.04 kΩ 0x4B = 1.03 kΩ 0x4C = 1.01 kΩ 0x4D = 1 kΩ 0x4E = 0.989 kΩ 0x4F = 0.977 kΩ 0x50 = 0.964 kΩ 0x51 = 0.952 kΩ 0x52 = 0.941 kΩ 0x53 = 0.929 kΩ 0x54 = 0.92 kΩ 0x55 = 0.909 kΩ 0x56 = 0.898 kΩ 0x57 = 0.888 kΩ 0x58 = 0.878 kΩ 0x59 = 0.868 kΩ 0x5A = 0.858 kΩ 0x5B = 0.849 kΩ 0x5C = 0.841 kΩ 0x5D = 0.832 kΩ 0x5E = 0.823 kΩ 0x5F = 0.814 kΩ 0x60 = 0.8 kΩ 0x61 = 0.792 kΩ 0x62 = 0.784 kΩ 0x63 = 0.776 kΩ 0x64 = 0.769 kΩ 0x65 = 0.762 kΩ 0x66 = 0.754 kΩ 0x67 = 0.747 kΩ 0x68 = 0.74 kΩ 0x69 = 0.733 kΩ 0x6A = 0.726 kΩ 0x6B = 0.719 kΩ 0x6C = 0.713 kΩ 0x6D = 0.707 kΩ 0x6E = 0.7 kΩ 0x6F = 0.694 kΩ 0x70 = 0.688 kΩ 0x71 = 0.682 kΩ 0x72 = 0.676 kΩ 0x73 = 0.67 kΩ 0x74 = 0.665 kΩ 0x75 = 0.659 kΩ 0x76 = 0.654 kΩ 0x77 = 0.648 kΩ 0x78 = 0.643 kΩ 0x79 = 0.637 kΩ 0x7A = 0.632 kΩ 0x7B = 0.627 kΩ 0x7C = 0.623 kΩ 0x7D = 0.618 kΩ 0x7E = 0.613 kΩ 0x7F = 0.608 kΩ 0x80 = 0.6 kΩ 0x81 = 0.595 kΩ 0x82 = 0.591 kΩ 0x83 = 0.586 kΩ 0x84 = 0.583 kΩ 0x85 = 0.578 kΩ 0x86 = 0.574 kΩ 0x87 = 0.57 kΩ 0x88 = 0.565 kΩ 0x89 = 0.561 kΩ 0x8A = 0.557 kΩ 0x8B = 0.553 kΩ 0x8C = 0.55 kΩ 0x8D = 0.546 kΩ 0x8E = 0.542 kΩ 0x8F = 0.538 kΩ 0x90 = 0.535 kΩ 0x91 = 0.531 kΩ 0x92 = 0.527 kΩ 0x93 = 0.524 kΩ 0x94 = 0.521 kΩ 0x95 = 0.517 kΩ 0x96 = 0.514 kΩ 0x97 = 0.51 kΩ 0x98 = 0.507 kΩ 0x99 = 0.504 kΩ 0x9A = 0.5 kΩ 0x9B = 0.497 kΩ 0x9C = 0.494 kΩ 0x9D = 0.491 kΩ 0x9E = 0.488 kΩ 0x9F = 0.485 kΩ 0xA0 = 0.48 kΩ 0xA1 = 0.477 kΩ 0xA2 = 0.474 kΩ 0xA3 = 0.471 kΩ 0xA4 = 0.469 kΩ 0xA5 = 0.466 kΩ 0xA6 = 0.463 kΩ 0xA7 = 0.46 kΩ 0xA8 = 0.458 kΩ 0xA9 = 0.455 kΩ 0xAA = 0.452 kΩ 0xAB = 0.45 kΩ 0xAC = 0.447 kΩ 0xAD = 0.445 kΩ 0xAE = 0.442 kΩ 0xAF = 0.44 kΩ 0xB0 = 0.437 kΩ 0xB1 = 0.435 kΩ 0xB2 = 0.432 kΩ 0xB3 = 0.43 kΩ 0xB4 = 0.428 kΩ 0xB5 = 0.425 kΩ 0xB6 = 0.423 kΩ 0xB7 = 0.421 kΩ 0xB8 = 0.419 kΩ 0xB9 = 0.416 kΩ 0xBA = 0.414 kΩ 0xBB = 0.412 kΩ 0xBC = 0.41 kΩ 0xBD = 0.408 kΩ 0xBE = 0.406 kΩ 0xBF = 0.404 kΩ 0xC0 = 0.4 kΩ 0xC1 = 0.398 kΩ 0xC2 = 0.396 kΩ 0xC3 = 0.394 kΩ 0xC4 = 0.392 kΩ 0xC5 = 0.39 kΩ 0xC6 = 0.388 kΩ 0xC7 = 0.386 kΩ 0xC8 = 0.384 kΩ 0xC9 = 0.382 kΩ 0xCA = 0.381 kΩ 0xCB = 0.379 kΩ 0xCC = 0.377 kΩ 0xCD = 0.375 kΩ 0xCE = 0.373 kΩ 0xCF = 0.372 kΩ 0xD0 = 0.37 kΩ 0xD1 = 0.368 kΩ 0xD2 = 0.366 kΩ 0xD3 = 0.365 kΩ 0xD4 = 0.363 kΩ 0xD5 = 0.361 kΩ 0xD6 = 0.36 kΩ 0xD7 = 0.358 kΩ 0xD8 = 0.356 kΩ 0xD9 = 0.355 kΩ 0xDA = 0.353 kΩ 0xDB = 0.352 kΩ 0xDC = 0.35 kΩ 0xDD = 0.349 kΩ 0xDE = 0.347 kΩ 0xDF = 0.345 kΩ 0xE0 = 0.343 kΩ 0xE1 = 0.341 kΩ 0xE2 = 0.34 kΩ 0xE3 = 0.338 kΩ 0xE4 = 0.337 kΩ 0xE5 = 0.336 kΩ 0xE6 = 0.334 kΩ 0xE7 = 0.333 kΩ 0xE8 = 0.331 kΩ 0xE9 = 0.33 kΩ 0xEA = 0.328 kΩ 0xEB = 0.327 kΩ 0xEC = 0.326 kΩ 0xED = 0.325 kΩ 0xEE = 0.323 kΩ 0xEF = 0.322 kΩ 0xF0 = 0.32 kΩ 0xF1 = 0.319 kΩ 0xF2 = 0.318 kΩ 0xF3 = 0.317 kΩ 0xF4 = 0.315 kΩ 0xF5 = 0.314 kΩ 0xF6 = 0.313 kΩ 0xF7 = 0.312 kΩ 0xF8 = 0.31 kΩ 0xF9 = 0.309 kΩ 0xFA = 0.308 kΩ 0xFB = 0.307 kΩ 0xFC = 0.306 kΩ 0xFD = 0.304 kΩ 0xFE = 0.303 kΩ 0xFF = 0.302 kΩ |
R778 is shown in Table 1-426.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | PLL2_CPG | R/W | 0xB | PLL charge pump gain
ROM=Y, EEPROM=Y 0x0 = 0 mA 0x1 = 0.4 mA 0x2 = 0.8 mA 0x3 = 1.2 mA 0x4 = 1.6 mA 0x5 = 2.0 mA 0x6 = 2.4 mA 0x7 = 2.8 mA 0x8 = 3.0 mA 0x9 = 3.4 mA 0xA = 3.8 mA 0xB = 4.2 mA 0xC = 4.6 mA 0xD = 5.0 mA 0xE = 5.4 mA 0xF = 5.8 mA |
R779 is shown in Table 1-427.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_LF_R2 | R/W | 0x7 | PLL Loop Filter R2 setting
ROM=Y, EEPROM=N 0x0 = 0.016 kΩ 0x1 = 0.301 kΩ 0x2 = 0.551 kΩ 0x3 = 0.209 kΩ 0x4 = 1.05 kΩ 0x5 = 0.244 kΩ 0x6 = 0.375 kΩ 0x7 = 0.183 kΩ 0x8 = 2.05 kΩ 0x9 = 0.269 kΩ 0xA = 0.444 kΩ 0xB = 0.194 kΩ 0xC = 0.709 kΩ 0xD = 0.224 kΩ 0xE = 0.0446 kΩ 0xF = 0.0421 kΩ 0x10 = 0.932 kΩ 0x11 = 1.18 kΩ 0x12 = 1.43 kΩ 0x13 = 1.09 kΩ 0x14 = 1.93 kΩ 0x15 = 1.13 kΩ 0x16 = 1.26 kΩ 0x17 = 1.07 kΩ 0x18 = 2.93 kΩ 0x19 = 1.15 kΩ 0x1A = 1.33 kΩ 0x1B = 1.08 kΩ 0x1C = 1.59 kΩ 0x1D = 1.11 kΩ 0x1E = 0.929 kΩ 0x1F = 0.926 kΩ 0x20 = 1.83 kΩ 0x21 = 2.08 kΩ 0x22 = 2.33 kΩ 0x23 = 1.99 kΩ 0x24 = 2.83 kΩ 0x25 = 2.03 kΩ 0x26 = 2.16 kΩ 0x27 = 1.97 kΩ 0x28 = 3.83 kΩ 0x29 = 2.05 kΩ 0x2A = 2.23 kΩ 0x2B = 1.98 kΩ 0x2C = 2.49 kΩ 0x2D = 2.01 kΩ 0x2E = 1.83 kΩ 0x2F = 1.83 kΩ 0x30 = 2.72 kΩ 0x31 = 2.97 kΩ 0x32 = 3.22 kΩ 0x33 = 2.88 kΩ 0x34 = 3.72 kΩ 0x35 = 2.91 kΩ 0x36 = 3.04 kΩ 0x37 = 2.85 kΩ 0x38 = 4.72 kΩ 0x39 = 2.94 kΩ 0x3A = 3.11 kΩ 0x3B = 2.86 kΩ 0x3C = 3.38 kΩ 0x3D = 2.89 kΩ 0x3E = 2.71 kΩ 0x3F = 2.71 kΩ |
R780 is shown in Table 1-428.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL2_LF_R3 | R/W | 0x6 | PLL Loop Filter R3 setting
ROM=Y, EEPROM=N 0x0 = 0.016 kΩ 0x1 = 0.277 kΩ 0x2 = 0.657 kΩ 0x3 = 0.214 kΩ 0x4 = 0.754 kΩ 0x5 = 0.221 kΩ 0x6 = 0.375 kΩ 0x7 = 0.183 kΩ 0x8 = 0.863 kΩ 0x9 = 1.08 kΩ 0xA = 1.46 kΩ 0xB = 1.01 kΩ 0xC = 1.55 kΩ 0xD = 1.02 kΩ 0xE = 1.17 kΩ 0xF = 0.982 kΩ 0x10 = 1.68 kΩ 0x11 = 1.89 kΩ 0x12 = 2.27 kΩ 0x13 = 1.83 kΩ 0x14 = 2.37 kΩ 0x15 = 1.84 kΩ 0x16 = 1.99 kΩ 0x17 = 1.8 kΩ 0x18 = 2.48 kΩ 0x19 = 2.69 kΩ 0x1A = 3.07 kΩ 0x1B = 2.63 kΩ 0x1C = 3.17 kΩ 0x1D = 2.63 kΩ 0x1E = 2.79 kΩ 0x1F = 2.6 kΩ 0x20 = 3.31 kΩ 0x21 = 3.52 kΩ 0x22 = 3.9 kΩ 0x23 = 3.46 kΩ 0x24 = 4 kΩ 0x25 = 3.47 kΩ 0x26 = 3.62 kΩ 0x27 = 3.43 kΩ 0x28 = 4.11 kΩ 0x29 = 4.32 kΩ 0x2A = 4.7 kΩ 0x2B = 4.26 kΩ 0x2C = 4.8 kΩ 0x2D = 4.26 kΩ 0x2E = 4.42 kΩ 0x2F = 4.23 kΩ 0x30 = 4.92 kΩ 0x31 = 5.14 kΩ 0x32 = 5.52 kΩ 0x33 = 5.07 kΩ 0x34 = 5.61 kΩ 0x35 = 5.08 kΩ 0x36 = 5.23 kΩ 0x37 = 5.04 kΩ 0x38 = 5.72 kΩ 0x39 = 5.94 kΩ 0x3A = 6.32 kΩ 0x3B = 5.87 kΩ 0x3C = 6.41 kΩ 0x3D = 5.88 kΩ 0x3E = 6.03 kΩ 0x3F = 5.84 kΩ |
R781 is shown in Table 1-429.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL2_LF_R4 | R/W | 0x6 | PLL Loop Filter R4 setting
ROM=Y, EEPROM=N 0x0 = 0.016 kΩ 0x1 = 0.277 kΩ 0x2 = 0.657 kΩ 0x3 = 0.214 kΩ 0x4 = 0.754 kΩ 0x5 = 0.221 kΩ 0x6 = 0.375 kΩ 0x7 = 0.183 kΩ 0x8 = 0.863 kΩ 0x9 = 1.08 kΩ 0xA = 1.46 kΩ 0xB = 1.01 kΩ 0xC = 1.55 kΩ 0xD = 1.02 kΩ 0xE = 1.17 kΩ 0xF = 0.982 kΩ 0x10 = 1.68 kΩ 0x11 = 1.89 kΩ 0x12 = 2.27 kΩ 0x13 = 1.83 kΩ 0x14 = 2.37 kΩ 0x15 = 1.84 kΩ 0x16 = 1.99 kΩ 0x17 = 1.8 kΩ 0x18 = 2.48 kΩ 0x19 = 2.69 kΩ 0x1A = 3.07 kΩ 0x1B = 2.63 kΩ 0x1C = 3.17 kΩ 0x1D = 2.63 kΩ 0x1E = 2.79 kΩ 0x1F = 2.6 kΩ 0x20 = 3.31 kΩ 0x21 = 3.52 kΩ 0x22 = 3.9 kΩ 0x23 = 3.46 kΩ 0x24 = 4 kΩ 0x25 = 3.47 kΩ 0x26 = 3.62 kΩ 0x27 = 3.43 kΩ 0x28 = 4.11 kΩ 0x29 = 4.32 kΩ 0x2A = 4.7 kΩ 0x2B = 4.26 kΩ 0x2C = 4.8 kΩ 0x2D = 4.26 kΩ 0x2E = 4.42 kΩ 0x2F = 4.23 kΩ 0x30 = 4.92 kΩ 0x31 = 5.14 kΩ 0x32 = 5.52 kΩ 0x33 = 5.07 kΩ 0x34 = 5.61 kΩ 0x35 = 5.08 kΩ 0x36 = 5.23 kΩ 0x37 = 5.04 kΩ 0x38 = 5.72 kΩ 0x39 = 5.94 kΩ 0x3A = 6.32 kΩ 0x3B = 5.87 kΩ 0x3C = 6.41 kΩ 0x3D = 5.88 kΩ 0x3E = 6.03 kΩ 0x3F = 5.84 kΩ |
R782 is shown in Table 1-430.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | PLL2_DISABLE_3RD4TH | R/W | 0x3 | PLL Loop Filter Disconnects C3 and C4
ROM=Y, EEPROM=N 0x0 = C3/C4 Disconnected 0x1 = C3=Enabled, C4=Disconnected 0x2 = C3=Disconnected, C4=Enabled 0x3 = C3=Enabled, C4=Enabled |
| 5:3 | PLL2_LF_C3 | R/W | 0x7 | PLL Loop Filter C3 setting
ROM=Y, EEPROM=N 0x0 = 0 pF 0x1 = 10 pF 0x2 = 20 pF 0x3 = 30 pF 0x4 = 40 pF 0x5 = 50 pF 0x6 = 60 pF 0x7 = 70 pF |
| 2:0 | PLL2_LF_C4 | R/W | 0x7 | PLL Loop Filter C4 setting
ROM=Y, EEPROM=N 0x0 = 0 pF 0x1 = 10 pF 0x2 = 20 pF 0x3 = 30 pF 0x4 = 40 pF 0x5 = 50 pF 0x6 = 60 pF 0x7 = 70 pF |
R783 is shown in Table 1-431.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL2_RDIV_8:8 | R/W | 0x0 | See Register 784 |
R784 is shown in Table 1-432.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_RDIV | R/W | 0x1 | PLL R Divider
ROM=Y, EEPROM=Y |
R785 is shown in Table 1-433.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL2_RDIV_XO_EN | R/W | 0x1 | APLL reference source is from XO. Must also enable XO to drive this APLL with XO_OUT_BUF_EN[2] = 1
ROM=Y, EEPROM=Y |
| 3 | PLL2_RDIV_XO_DBLR_EN | R/W | 0x1 | Enables XO Doubler
ROM=Y, EEPROM=Y |
| 2 | PLL2_RDIV_BYPASS_EN | R/W | 0x1 | Bypass R Divider
ROM=Y, EEPROM=Y |
| 1:0 | PLL2_RDIV_MUX_SEL | R/W | 0x0 | Select R Divider input: 0=XO, 1=VCO1 feedback divider, 2=VCO3 feedback divider
ROM=Y, EEPROM=Y 0x0 = XO 0x1 = VCO1 feedback divider 0x2 = VCO3 feedback divider |
R786 is shown in Table 1-434.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL2_NDIV_8:8 | R/W | 0x0 | See Register 787 |
R787 is shown in Table 1-435.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NDIV | R/W | 0x48 | PLL N Divider
ROM=Y, EEPROM=Y |
R788 is shown in Table 1-436.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_MSB | R/W | 0x29 | PLL Numerator MSB's when DPLL is disabled and MASH is 24 bit programmable Denominator
ROM=Y, EEPROM=Y |
R789 is shown in Table 1-437.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_39:32 | R/W | 0x56 | See Register 793 |
R790 is shown in Table 1-438.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_31:24 | R/W | 0x84 | See Register 793 |
R791 is shown in Table 1-439.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_23:16 | R/W | 0xBD | See Register 793 |
R792 is shown in Table 1-440.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_15:8 | R/W | 0xA1 | See Register 793 |
R793 is shown in Table 1-441.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM | R/W | 0x2F | PLL Numerator in DPLL Mode, PLL Denominator when DPLL mode is disabled
ROM=Y, EEPROM=Y |
R794 is shown in Table 1-442.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | PLL2_DTHRMODE | R/W | 0x0 | PLL MASH Dither Mode
ROM=Y, EEPROM=N 0x0 = Constant Dither MACC2 0x1 = Constant Dither MACC2 and MACC3 0x2 = LFSR Dither MACC2 0x3 = Dither Disabled |
| 3:1 | PLL2_ORDER | R/W | 0x3 | PLL MASH Order
ROM=Y, EEPROM=N 0x0 = Integer Mode Divider 0x1 = 1st 0x2 = 2nd 0x3 = 3rd |
| 0 | PLL2_MODE | R/W | 0x1 | In APLL 24-bit num/den mode, APLL denominator is programmable. Not for use with DPLL mode. In 24-bit mode, the denominator is stored in PLL2_NUM[23:0] The numerator is stored in (PLL2_NUM_MSB << 16) + PLL2_NUM[39:24].
In APLL 40-bit mode, APLL denominator is fixed. For use with DPLL. ROM=Y, EEPROM=Y 0x0 = APLL 24-bit num/den 0x1 = APLL 40-bit num (Req for DPLL) |
R795 is shown in Table 1-443.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_STAT_39:32 | R | 0x0 | See Register 799 |
R796 is shown in Table 1-444.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_STAT_31:24 | R | 0x0 | See Register 799 |
R797 is shown in Table 1-445.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_STAT_23:16 | R | 0x0 | See Register 799 |
R798 is shown in Table 1-446.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_STAT_15:8 | R | 0x0 | See Register 799 |
R799 is shown in Table 1-447.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_STAT | R | 0x0 | Readback current MASH Numerator after FDEV and or DPLL correction
ROM=N, EEPROM=N |
R803 is shown in Table 1-448.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | PLL2_VCO_DIV_3_SEL | R/W | 0x1 | Selects VCO2 divide value for OUT4/OUT6 CML Output Drivers from: 0=VCO2 Div By 2, or 1=VCO2 Div By 3.
ROM=Y, EEPROM=Y 0x0 = 2 0x1 = 3 |
| 5 | PLL2_VCO_DIV_2_3_EN | R/W | 0x0 | Enables the VCO2 Div By 2 or 3 divide block used for driving CML outputs
ROM=Y, EEPROM=Y |
| 4 | PLL2_VCO_BUF_EN | R/W | 0x1 | Enables the VCO2 Buffer which drives the DPLL feedback, reference window detector, DPLL reference for cascade mode, and test mode
ROM=Y, EEPROM=N |
| 3:2 | PLL2_VCO_BUF_2REF_EN | R/W | 0x0 | Enables the VCO2 Div By 4 buffer output driver to [0] -> APLL1 and [1] -> APLL3 reference input for cascade mode.
ROM=Y, EEPROM=Y |
| 1 | PLL2_VCO_BUF_2DPLL_EN | R/W | 0x1 | Enables the VCO2 Buffer output driver to DPLL2 feedback divider
ROM=Y, EEPROM=N |
| 0 | PLL2_VCO_BUF_2WNDDET_EN | R/W | 0x1 | Enables the VCO2 Div By 5 Buffer output driver to reference window detectors input buffer and prepares predivided clock for DPLL2 loopfilter and PPM/Frequency detector.
ROM=Y, EEPROM=N |
R804 is shown in Table 1-449.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL2_VCO_DIV_SYNC_EN | R/W | 0x1 | PLL2 Divider Sync Enable. Enables synchronization of post-dividers and reference dividers at startup for PLL2.
ROM=Y, EEPROM=N |
| 4 | PLL2_VCO_DIV_EN | R/W | 0x1 | Enables the VCO2 Div By 2 to 13 divide block.
ROM=Y, EEPROM=Y |
| 3:0 | PLL2_VCO_DIV | R/W | 0x9 | Sets the VCO2 divider divide value from 2 to 13
ROM=Y, EEPROM=Y 0x0 = 2 (Reserved) 0x1 = 2 (Reserved) 0x2 = 2 0x3 = 3 0x4 = 4 0x5 = 5 0x6 = 6 0x7 = 7 0x8 = 8 0x9 = 9 0xA = 10 0xB = 11 0xC = 12 0xD = 13 |
R805 is shown in Table 1-450.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | PLL2_VCO_BUF_FB_TDC_EN | R/W | 0x0 | Enables VCO2 Div By 10 Buffer output driver to TDC1 and TDC3 for cascade mode [0] = TDC1 driver enable [1] = TDC3 driver enable
ROM=Y, EEPROM=N |
| 4:0 | PLL2_VCO_DIV_DRVR_EN | R/W | 0x6 | Enables VCO2 to Outputs output buffer outputs: [0] -> OUT0_1, [1] -> OUT2_3, [2] -> OUT4_5 and OUT6_7, [3] -> OUT8_9, OUT10_11, and OUT12_13, and [4] -> OUT14_15.
ROM=Y, EEPROM=Y |
R813 is shown in Table 1-451.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL2_VM_INSIDE | R | 0x0 | Denotes if the VCO tuning voltage is within operational range.
ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
R840 is shown in Table 1-452.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_CPBAW_BLEED | R/W | 0x57 | PLL charge pump pull-up resistor selection
ROM=Y, EEPROM=N 0x0 = Disabled 0x1 = 78 kΩ 0x2 = 39 kΩ 0x3 = 26 kΩ 0x4 = 20 kΩ 0x5 = 15.9 kΩ 0x6 = 13.2 kΩ 0x7 = 11.3 kΩ 0x8 = 9.8 kΩ 0x9 = 8.71 kΩ 0xA = 7.83 kΩ 0xB = 7.12 kΩ 0xC = 6.58 kΩ 0xD = 6.07 kΩ 0xE = 5.63 kΩ 0xF = 5.25 kΩ 0x10 = 4.9 kΩ 0x11 = 4.61 kΩ 0x12 = 4.35 kΩ 0x13 = 4.12 kΩ 0x14 = 3.94 kΩ 0x15 = 3.75 kΩ 0x16 = 3.57 kΩ 0x17 = 3.42 kΩ 0x18 = 3.27 kΩ 0x19 = 3.14 kΩ 0x1A = 3.01 kΩ 0x1B = 2.9 kΩ 0x1C = 2.81 kΩ 0x1D = 2.71 kΩ 0x1E = 2.62 kΩ 0x1F = 2.53 kΩ 0x20 = 2.4 kΩ 0x21 = 2.33 kΩ 0x22 = 2.26 kΩ 0x23 = 2.2 kΩ 0x24 = 2.14 kΩ 0x25 = 2.09 kΩ 0x26 = 2.03 kΩ 0x27 = 1.98 kΩ 0x28 = 1.93 kΩ 0x29 = 1.88 kΩ 0x2A = 1.84 kΩ 0x2B = 1.79 kΩ 0x2C = 1.76 kΩ 0x2D = 1.72 kΩ 0x2E = 1.68 kΩ 0x2F = 1.65 kΩ 0x30 = 1.61 kΩ 0x31 = 1.58 kΩ 0x32 = 1.55 kΩ 0x33 = 1.52 kΩ 0x34 = 1.49 kΩ 0x35 = 1.46 kΩ 0x36 = 1.44 kΩ 0x37 = 1.41 kΩ 0x38 = 1.38 kΩ 0x39 = 1.36 kΩ 0x3A = 1.34 kΩ 0x3B = 1.31 kΩ 0x3C = 1.29 kΩ 0x3D = 1.27 kΩ 0x3E = 1.25 kΩ 0x3F = 1.23 kΩ 0x40 = 1.2 kΩ 0x41 = 1.18 kΩ 0x42 = 1.16 kΩ 0x43 = 1.15 kΩ 0x44 = 1.13 kΩ 0x45 = 1.12 kΩ 0x46 = 1.1 kΩ 0x47 = 1.08 kΩ 0x48 = 1.07 kΩ 0x49 = 1.05 kΩ 0x4A = 1.04 kΩ 0x4B = 1.03 kΩ 0x4C = 1.01 kΩ 0x4D = 1 kΩ 0x4E = 0.989 kΩ 0x4F = 0.977 kΩ 0x50 = 0.964 kΩ 0x51 = 0.952 kΩ 0x52 = 0.941 kΩ 0x53 = 0.929 kΩ 0x54 = 0.92 kΩ 0x55 = 0.909 kΩ 0x56 = 0.898 kΩ 0x57 = 0.888 kΩ 0x58 = 0.878 kΩ 0x59 = 0.868 kΩ 0x5A = 0.858 kΩ 0x5B = 0.849 kΩ 0x5C = 0.841 kΩ 0x5D = 0.832 kΩ 0x5E = 0.823 kΩ 0x5F = 0.814 kΩ 0x60 = 0.8 kΩ 0x61 = 0.792 kΩ 0x62 = 0.784 kΩ 0x63 = 0.776 kΩ 0x64 = 0.769 kΩ 0x65 = 0.762 kΩ 0x66 = 0.754 kΩ 0x67 = 0.747 kΩ 0x68 = 0.74 kΩ 0x69 = 0.733 kΩ 0x6A = 0.726 kΩ 0x6B = 0.719 kΩ 0x6C = 0.713 kΩ 0x6D = 0.707 kΩ 0x6E = 0.7 kΩ 0x6F = 0.694 kΩ 0x70 = 0.688 kΩ 0x71 = 0.682 kΩ 0x72 = 0.676 kΩ 0x73 = 0.67 kΩ 0x74 = 0.665 kΩ 0x75 = 0.659 kΩ 0x76 = 0.654 kΩ 0x77 = 0.648 kΩ 0x78 = 0.643 kΩ 0x79 = 0.637 kΩ 0x7A = 0.632 kΩ 0x7B = 0.627 kΩ 0x7C = 0.623 kΩ 0x7D = 0.618 kΩ 0x7E = 0.613 kΩ 0x7F = 0.608 kΩ 0x80 = 0.6 kΩ 0x81 = 0.595 kΩ 0x82 = 0.591 kΩ 0x83 = 0.586 kΩ 0x84 = 0.583 kΩ 0x85 = 0.578 kΩ 0x86 = 0.574 kΩ 0x87 = 0.57 kΩ 0x88 = 0.565 kΩ 0x89 = 0.561 kΩ 0x8A = 0.557 kΩ 0x8B = 0.553 kΩ 0x8C = 0.55 kΩ 0x8D = 0.546 kΩ 0x8E = 0.542 kΩ 0x8F = 0.538 kΩ 0x90 = 0.535 kΩ 0x91 = 0.531 kΩ 0x92 = 0.527 kΩ 0x93 = 0.524 kΩ 0x94 = 0.521 kΩ 0x95 = 0.517 kΩ 0x96 = 0.514 kΩ 0x97 = 0.51 kΩ 0x98 = 0.507 kΩ 0x99 = 0.504 kΩ 0x9A = 0.5 kΩ 0x9B = 0.497 kΩ 0x9C = 0.494 kΩ 0x9D = 0.491 kΩ 0x9E = 0.488 kΩ 0x9F = 0.485 kΩ 0xA0 = 0.48 kΩ 0xA1 = 0.477 kΩ 0xA2 = 0.474 kΩ 0xA3 = 0.471 kΩ 0xA4 = 0.469 kΩ 0xA5 = 0.466 kΩ 0xA6 = 0.463 kΩ 0xA7 = 0.46 kΩ 0xA8 = 0.458 kΩ 0xA9 = 0.455 kΩ 0xAA = 0.452 kΩ 0xAB = 0.45 kΩ 0xAC = 0.447 kΩ 0xAD = 0.445 kΩ 0xAE = 0.442 kΩ 0xAF = 0.44 kΩ 0xB0 = 0.437 kΩ 0xB1 = 0.435 kΩ 0xB2 = 0.432 kΩ 0xB3 = 0.43 kΩ 0xB4 = 0.428 kΩ 0xB5 = 0.425 kΩ 0xB6 = 0.423 kΩ 0xB7 = 0.421 kΩ 0xB8 = 0.419 kΩ 0xB9 = 0.416 kΩ 0xBA = 0.414 kΩ 0xBB = 0.412 kΩ 0xBC = 0.41 kΩ 0xBD = 0.408 kΩ 0xBE = 0.406 kΩ 0xBF = 0.404 kΩ 0xC0 = 0.4 kΩ 0xC1 = 0.398 kΩ 0xC2 = 0.396 kΩ 0xC3 = 0.394 kΩ 0xC4 = 0.392 kΩ 0xC5 = 0.39 kΩ 0xC6 = 0.388 kΩ 0xC7 = 0.386 kΩ 0xC8 = 0.384 kΩ 0xC9 = 0.382 kΩ 0xCA = 0.381 kΩ 0xCB = 0.379 kΩ 0xCC = 0.377 kΩ 0xCD = 0.375 kΩ 0xCE = 0.373 kΩ 0xCF = 0.372 kΩ 0xD0 = 0.37 kΩ 0xD1 = 0.368 kΩ 0xD2 = 0.366 kΩ 0xD3 = 0.365 kΩ 0xD4 = 0.363 kΩ 0xD5 = 0.361 kΩ 0xD6 = 0.36 kΩ 0xD7 = 0.358 kΩ 0xD8 = 0.356 kΩ 0xD9 = 0.355 kΩ 0xDA = 0.353 kΩ 0xDB = 0.352 kΩ 0xDC = 0.35 kΩ 0xDD = 0.349 kΩ 0xDE = 0.347 kΩ 0xDF = 0.345 kΩ 0xE0 = 0.343 kΩ 0xE1 = 0.341 kΩ 0xE2 = 0.34 kΩ 0xE3 = 0.338 kΩ 0xE4 = 0.337 kΩ 0xE5 = 0.336 kΩ 0xE6 = 0.334 kΩ 0xE7 = 0.333 kΩ 0xE8 = 0.331 kΩ 0xE9 = 0.33 kΩ 0xEA = 0.328 kΩ 0xEB = 0.327 kΩ 0xEC = 0.326 kΩ 0xED = 0.325 kΩ 0xEE = 0.323 kΩ 0xEF = 0.322 kΩ 0xF0 = 0.32 kΩ 0xF1 = 0.319 kΩ 0xF2 = 0.318 kΩ 0xF3 = 0.317 kΩ 0xF4 = 0.315 kΩ 0xF5 = 0.314 kΩ 0xF6 = 0.313 kΩ 0xF7 = 0.312 kΩ 0xF8 = 0.31 kΩ 0xF9 = 0.309 kΩ 0xFA = 0.308 kΩ 0xFB = 0.307 kΩ 0xFC = 0.306 kΩ 0xFD = 0.304 kΩ 0xFE = 0.303 kΩ 0xFF = 0.302 kΩ |
R841 is shown in Table 1-453.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | PLL3_CPG | R/W | 0xB | PLL charge pump gain
ROM=Y, EEPROM=N 0x0 = 0 mA 0x1 = 0.4 mA 0x2 = 0.8 mA 0x3 = 1.2 mA 0x4 = 1.6 mA 0x5 = 2.0 mA 0x6 = 2.4 mA 0x7 = 2.8 mA 0x8 = 3.0 mA 0x9 = 3.4 mA 0xA = 3.8 mA 0xB = 4.2 mA 0xC = 4.6 mA 0xD = 5.0 mA 0xE = 5.4 mA 0xF = 5.8 mA |
R842 is shown in Table 1-454.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL3_LF_R2 | R/W | 0x1 | PLL Loop Filter R2 setting
ROM=Y, EEPROM=N 0x0 = 0.0139 kΩ 0x1 = 0.51 kΩ 0x2 = 0.985 kΩ 0x3 = 1.39 kΩ 0x4 = 1.72 kΩ 0x5 = 2.12 kΩ 0x6 = 2.6 kΩ 0x7 = 3 kΩ 0x8 = 3.3 kΩ 0x9 = 3.75 kΩ 0xA = 4.23 kΩ 0xB = 4.63 kΩ 0xC = 4.96 kΩ 0xD = 5.36 kΩ 0xE = 5.84 kΩ 0xF = 6.24 kΩ 0x10 = 6.57 kΩ 0x11 = 7.01 kΩ 0x12 = 7.49 kΩ 0x13 = 7.89 kΩ 0x14 = 8.22 kΩ 0x15 = 8.63 kΩ 0x16 = 9.1 kΩ 0x17 = 9.5 kΩ 0x18 = 9.81 kΩ 0x19 = 10.3 kΩ 0x1A = 10.7 kΩ 0x1B = 11.1 kΩ 0x1C = 11.5 kΩ 0x1D = 11.9 kΩ 0x1E = 12.3 kΩ 0x1F = 12.7 kΩ 0x20 = 13 kΩ 0x21 = 13.5 kΩ 0x22 = 14 kΩ 0x23 = 14.4 kΩ 0x24 = 14.7 kΩ 0x25 = 15.1 kΩ 0x26 = 15.6 kΩ 0x27 = 16 kΩ 0x28 = 16.3 kΩ 0x29 = 16.7 kΩ 0x2A = 17.2 kΩ 0x2B = 17.6 kΩ 0x2C = 17.9 kΩ 0x2D = 18.3 kΩ 0x2E = 18.8 kΩ 0x2F = 19.2 kΩ 0x30 = 19.6 kΩ 0x31 = 20 kΩ 0x32 = 20.5 kΩ 0x33 = 20.9 kΩ 0x34 = 21.2 kΩ 0x35 = 21.6 kΩ 0x36 = 22.1 kΩ 0x37 = 22.5 kΩ 0x38 = 22.8 kΩ 0x39 = 23.2 kΩ 0x3A = 23.7 kΩ 0x3B = 24.1 kΩ 0x3C = 24.4 kΩ 0x3D = 24.9 kΩ 0x3E = 25.3 kΩ 0x3F = 25.7 kΩ |
R843 is shown in Table 1-455.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL3_LF_R3 | R/W | 0xE | PLL Loop Filter R3 setting
ROM=Y, EEPROM=N 0x0 = 0.0139 kΩ 0x1 = 0.51 kΩ 0x2 = 0.826 kΩ 0x3 = 1.23 kΩ 0x4 = 1.85 kΩ 0x5 = 2.26 kΩ 0x6 = 2.57 kΩ 0x7 = 2.97 kΩ 0x8 = 3.3 kΩ 0x9 = 3.75 kΩ 0xA = 4.07 kΩ 0xB = 4.47 kΩ 0xC = 5.09 kΩ 0xD = 5.5 kΩ 0xE = 5.81 kΩ 0xF = 6.22 kΩ 0x10 = 6.57 kΩ 0x11 = 7.01 kΩ 0x12 = 7.33 kΩ 0x13 = 7.73 kΩ 0x14 = 8.36 kΩ 0x15 = 8.76 kΩ 0x16 = 9.08 kΩ 0x17 = 9.48 kΩ 0x18 = 9.81 kΩ 0x19 = 10.3 kΩ 0x1A = 10.6 kΩ 0x1B = 11 kΩ 0x1C = 11.6 kΩ 0x1D = 12 kΩ 0x1E = 12.3 kΩ 0x1F = 12.7 kΩ 0x20 = 13 kΩ 0x21 = 13.5 kΩ 0x22 = 13.8 kΩ 0x23 = 14.2 kΩ 0x24 = 14.8 kΩ 0x25 = 15.2 kΩ 0x26 = 15.6 kΩ 0x27 = 16 kΩ 0x28 = 16.3 kΩ 0x29 = 16.7 kΩ 0x2A = 17.1 kΩ 0x2B = 17.5 kΩ 0x2C = 18.1 kΩ 0x2D = 18.5 kΩ 0x2E = 18.8 kΩ 0x2F = 19.2 kΩ 0x30 = 19.6 kΩ 0x31 = 20 kΩ 0x32 = 20.3 kΩ 0x33 = 20.7 kΩ 0x34 = 21.3 kΩ 0x35 = 21.7 kΩ 0x36 = 22.1 kΩ 0x37 = 22.5 kΩ 0x38 = 22.8 kΩ 0x39 = 23.2 kΩ 0x3A = 23.6 kΩ 0x3B = 24 kΩ 0x3C = 24.6 kΩ 0x3D = 25 kΩ 0x3E = 25.3 kΩ 0x3F = 25.7 kΩ |
R844 is shown in Table 1-456.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL3_LF_R4 | R/W | 0xE | PLL Loop Filter R4 setting
ROM=Y, EEPROM=N 0x0 = 0.0139 kΩ 0x1 = 0.51 kΩ 0x2 = 0.826 kΩ 0x3 = 1.23 kΩ 0x4 = 1.85 kΩ 0x5 = 2.26 kΩ 0x6 = 2.57 kΩ 0x7 = 2.97 kΩ 0x8 = 3.3 kΩ 0x9 = 3.75 kΩ 0xA = 4.07 kΩ 0xB = 4.47 kΩ 0xC = 5.09 kΩ 0xD = 5.5 kΩ 0xE = 5.81 kΩ 0xF = 6.22 kΩ 0x10 = 6.57 kΩ 0x11 = 7.01 kΩ 0x12 = 7.33 kΩ 0x13 = 7.73 kΩ 0x14 = 8.36 kΩ 0x15 = 8.76 kΩ 0x16 = 9.08 kΩ 0x17 = 9.48 kΩ 0x18 = 9.81 kΩ 0x19 = 10.3 kΩ 0x1A = 10.6 kΩ 0x1B = 11 kΩ 0x1C = 11.6 kΩ 0x1D = 12 kΩ 0x1E = 12.3 kΩ 0x1F = 12.7 kΩ 0x20 = 13 kΩ 0x21 = 13.5 kΩ 0x22 = 13.8 kΩ 0x23 = 14.2 kΩ 0x24 = 14.8 kΩ 0x25 = 15.2 kΩ 0x26 = 15.6 kΩ 0x27 = 16 kΩ 0x28 = 16.3 kΩ 0x29 = 16.7 kΩ 0x2A = 17.1 kΩ 0x2B = 17.5 kΩ 0x2C = 18.1 kΩ 0x2D = 18.5 kΩ 0x2E = 18.8 kΩ 0x2F = 19.2 kΩ 0x30 = 19.6 kΩ 0x31 = 20 kΩ 0x32 = 20.3 kΩ 0x33 = 20.7 kΩ 0x34 = 21.3 kΩ 0x35 = 21.7 kΩ 0x36 = 22.1 kΩ 0x37 = 22.5 kΩ 0x38 = 22.8 kΩ 0x39 = 23.2 kΩ 0x3A = 23.6 kΩ 0x3B = 24 kΩ 0x3C = 24.6 kΩ 0x3D = 25 kΩ 0x3E = 25.3 kΩ 0x3F = 25.7 kΩ |
R845 is shown in Table 1-457.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | PLL3_LF_C3 | R/W | 0x7 | PLL Loop Filter C3 setting
ROM=Y, EEPROM=N 0x0 = 0 pF 0x1 = 10 pF 0x2 = 20 pF 0x3 = 30 pF 0x4 = 40 pF 0x5 = 50 pF 0x6 = 60 pF 0x7 = 70 pF |
| 2:0 | PLL3_LF_C4 | R/W | 0x7 | PLL Loop Filter C4 setting
ROM=Y, EEPROM=N 0x0 = 0 pF 0x1 = 10 pF 0x2 = 20 pF 0x3 = 30 pF 0x4 = 40 pF 0x5 = 50 pF 0x6 = 60 pF 0x7 = 70 pF |
R846 is shown in Table 1-458.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL3_RDIV_8:8 | R/W | 0x0 | See Register 847 |
R847 is shown in Table 1-459.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_RDIV | R/W | 0x1 | PLL R Divider
ROM=Y, EEPROM=Y |
R848 is shown in Table 1-460.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL3_RDIV_XO_EN | R/W | 0x1 | APLL reference source is from XO. Must also enable XO to drive this APLL with XO_OUT_BUF_EN[3] = 1
ROM=Y, EEPROM=Y |
| 3 | PLL3_RDIV_XO_DBLR_EN | R/W | 0x1 | Enables XO Doubler
ROM=Y, EEPROM=Y |
| 2 | PLL3_RDIV_BYPASS_EN | R/W | 0x1 | Bypass R Divider
ROM=Y, EEPROM=Y |
| 1:0 | PLL3_RDIV_MUX_SEL | R/W | 0x0 | Select R Divider input: 0=XO, 1=VCO1 feedback divider, 2=VCO2 feedback divider
ROM=Y, EEPROM=Y 0x0 = XO 0x1 = VCO1 feedback divider 0x2 = VCO2 feedback divider |
R849 is shown in Table 1-461.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL3_NDIV_8:8 | R/W | 0x0 | See Register 850 |
R850 is shown in Table 1-462.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NDIV | R/W | 0x1F | PLL N Divider
ROM=Y, EEPROM=Y |
R851 is shown in Table 1-463.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_MSB | R/W | 0x4C | PLL Numerator MSB's when DPLL is disabled and MASH is 24 bit programmable Denominator
ROM=Y, EEPROM=Y |
R852 is shown in Table 1-464.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_39:32 | R/W | 0x9A | See Register 856 |
R853 is shown in Table 1-465.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_31:24 | R/W | 0xDD | See Register 856 |
R854 is shown in Table 1-466.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_23:16 | R/W | 0x3C | See Register 856 |
R855 is shown in Table 1-467.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_15:8 | R/W | 0xC | See Register 856 |
R856 is shown in Table 1-468.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM | R/W | 0xA4 | PLL Numerator in DPLL Mode, PLL Denominator when DPLL mode is disabled
ROM=Y, EEPROM=Y |
R857 is shown in Table 1-469.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | PLL3_DTHRMODE | R/W | 0x0 | PLL MASH Dither Mode
ROM=Y, EEPROM=N 0x0 = Constant Dither MACC2 0x1 = Constant Dither MACC2 and MACC3 0x2 = LFSR Dither MACC2 0x3 = Dither Disabled |
| 3:1 | PLL3_ORDER | R/W | 0x2 | PLL MASH Order
ROM=Y, EEPROM=N 0x0 = Integer Mode Divider 0x1 = 1st 0x2 = 2nd 0x3 = 3rd |
| 0 | PLL3_MODE | R/W | 0x1 | In APLL 24-bit num/den mode, APLL denominator is programmable. Recommended not for use with DPLL mode. In 24-bit mode, the denominator is stored in PLL3_NUM[23:0] The numerator is stored in (PLL3_NUM_MSB << 16) + PLL3_NUM[39:24].
In APLL 40-bit mode, APLL denominator is fixed. For use with DPLL. ROM=Y, EEPROM=Y 0x0 = APLL 24-bit num/den 0x1 = APLL 40-bit num (Req for DPLL) |
R858 is shown in Table 1-470.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_STAT_39:32 | R | 0x0 | See Register 862 |
R859 is shown in Table 1-471.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_STAT_31:24 | R | 0x0 | See Register 862 |
R860 is shown in Table 1-472.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_STAT_23:16 | R | 0x0 | See Register 862 |
R861 is shown in Table 1-473.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_STAT_15:8 | R | 0x0 | See Register 862 |
R862 is shown in Table 1-474.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_STAT | R | 0x0 | Readback current MASH Numerator after FDEV and or DPLL correction
ROM=N, EEPROM=N |
R864 is shown in Table 1-475.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:4 | PLL3_PRI_DIV | R/W | 0x4 | Sets the VCO3 primary divider divide value from 1 to 7
ROM=Y, EEPROM=Y 0x0 = 1 0x1 = 2 0x2 = 3 0x3 = 4 0x4 = 5 0x5 = 6 0x6 = 7 |
| 3:0 | PLL3_CHAN_EN | R/W | 0x4 | Enables the VCO3 to Outputs output buffer outputs: [0] -> OUT0_1, [1] -> OUT4_5 and OUT6_7, and [2] -> OUT8_9, OUT10_11, and OUT12_13 [3] -> OUT14 and OUT15
ROM=Y, EEPROM=Y |
R865 is shown in Table 1-476.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL3_DIV_SYNC_EN | R/W | 0x1 | PLL3 Divider Sync Enable. Enables synchronization of post-dividers and reference dividers at startup for PLL3.
ROM=Y, EEPROM=N |
| 4 | PLL3_CHAN_SEL_DIV1TO7 | R/W | 0x1 | Selects the VCO3 to Outputs output buffer to be driven by VCO3 Div By 1 to 7 divide block. If selected, Div By 5 block must be deselected.
ROM=Y, EEPROM=Y |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | PLL3_CLKDRVRBYP46_SEL | R/W | 0x0 | Selects the VCO3 divide value for OUT4/OUT6 CML Output Drivers from: [0] -> VCO3, or [2] -> VCO3 Div By 1 to 7.
ROM=Y, EEPROM=Y 0x0 = Disabled 0x1 = Bypass 0x2 = Reserved 0x4 = Div By 1 to 7 |
R866 is shown in Table 1-477.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | PLL3_VCO_BUF_2REF_EN | R/W | 0x1 | Enables the VCO3 Div By 2 buffer output driver to [0] -> APLL1 and [1] -> APLL2 reference input for cascade mode.
ROM=Y, EEPROM=Y |
| 5 | PLL3_2X_PLLN_EN | R/W | 0x0 | Enables the frequency doubler available in the VCO3 to APLL3 N-divider/DPLL3 feedback clock path.
ROM=Y, EEPROM=N |
| 4:3 | PLL3_PLLN_OUT_EN | R/W | 0x3 | Enables the VCO3 output buffer driver to [0] -> APLL3 N-divider and [1] -> DPLL3 feedback clock input mux.
ROM=Y, EEPROM=Y |
| 2 | PLL3_WIN_DET_DRVR_EN | R/W | 0x1 | Enables the VCO3 Div By 2 Buffer output driver to reference window detectors input buffer,
ROM=Y, EEPROM=N |
| 1:0 | PLL3_VCO_BUF_FB_TDC_EN | R/W | 0x0 | Enables VCO3 Div By 4 Buffer output driver to TDC1 and TDC2 for cascade mode [0] = TDC1 driver enable [1] = TDC2 driver enable
ROM=Y, EEPROM=N |
R961 is shown in Table 1-478.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_0_HSDSBOOST | R/W | 0x0 | OUT0 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_0_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_0_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_0_AMP | R/W | 0x0 | OUT0 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
For CMOS mode only: Enables individual terminals for CMOS output, which will otherwise be in high-Z state ([Bit 0] enables -> OUT0_P as CMOS, [Bit 1] enables OUT0_N as CMOS). ROM=Y, EEPROM=Y 0x0 = 00 0x1 = 01 0x2 = 10 0x3 = 11 |
| 4 | OUT_0_LDO_EN | R/W | 0x1 | Except for current savings this bit should always be 1. This bit must be set to enable Vcm output LDO on OUT0.
ROM=Y, EEPROM=Y |
| 3 | OUT_0_STATIC_LOW | R/W | 0x0 | When OUT0 is forced to a static output, this bit determines if the output voltage will be
0: Static Low 1: Static High ROM=Y, EEPROM=N 0x0 = L 0x1 = H |
| 2:0 | OUT_0_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS 0x4 = CMOS |
R962 is shown in Table 1-479.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_0_P_INVERT_POLARITY | R/W | 0x0 | OUT0P CMOS Invert Polarity. Setting this bit inverts the polarity of the positive terminal of OUT0 for CMOS outputs.
ROM=Y, EEPROM=N |
| 2 | OUT_0_N_INVERT_POLARITY | R/W | 0x0 | OUT0N CMOS Invert Polarity. Setting this bit inverts the polarity of the negative terminal of OUT0 for CMOS outputs.
ROM=Y, EEPROM=N |
| 1 | OUT_0_P_FORCELOW | R/W | 0x0 | OUT0P CMOS Force Low. Setting this bit forces the positive terminal of OUT0 low.
ROM=Y, EEPROM=N |
| 0 | OUT_0_N_FORCELOW | R/W | 0x0 | OUT0N CMOS Force Low. Setting this bit forces the negative terminal of OUT0 low.
ROM=Y, EEPROM=N |
R963 is shown in Table 1-480.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_CONFIGURATION | R/W | 0x0 | OUT0 Configuration. Selects from CH0 Bypass, CH1 Bypass, CHDIV0, CHDIV1, CH0/2 low-noise divide by two path, SYSREF, SYSREF + Analog Delay, or static DC H/L.
ROM=N, EEPROM=N 0x0 = CH0/2 0x14 = CHDIV1 0x20 = SYSREF+ADLY 0x21 = SYSREF 0x22 = Static DC 0x28 = CHDIV0 0x40 = CH1 Bypass 0x80 = CH0 Bypass |
R964 is shown in Table 1-481.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_1_HSDSBOOST | R/W | 0x0 | OUT1 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_1_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_1_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_1_AMP | R/W | 0x3 | OUT1 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs. For CMOS mode only: Enables individual terminals for CMOS output, which will otherwise be in high-Z state ([0] -> OUT1P, [1] -> OUT1N).
ROM=Y, EEPROM=Y 0x0 = 00 0x1 = 01 0x2 = 10 0x3 = 11 |
| 4 | OUT_1_LDO2_SEL | R/W | 0x1 | Except for current savings this bit should always be 1. Rename to OUT_1_LDO_EN. This bit must be set to enable Vcm output LDO on OUT1.
ROM=Y, EEPROM=Y |
| 3 | OUT_1_STATIC_LOW | R/W | 0x0 | When OUT1 is forced to a static output, this bit determines if the output voltage will be 0=Static Low or 1=Static High
ROM=Y, EEPROM=N 0x0 = L 0x1 = H |
| 2:0 | OUT_1_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS 0x4 = CMOS |
R965 is shown in Table 1-482.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_1_P_INVERT_POLARITY | R/W | 0x0 | OUT1P CMOS Invert Polarity. Setting this bit inverts the polarity of the positive terminal of OUT1 for CMOS outputs.
ROM=Y, EEPROM=N |
| 2 | OUT_1_N_INVERT_POLARITY | R/W | 0x0 | OUT1N CMOS Invert Polarity. Setting this bit inverts the polarity of the negative terminal of OUT1 for CMOS outputs.
ROM=Y, EEPROM=N |
| 1 | OUT_1_P_FORCELOW | R/W | 0x0 | OUT1P CMOS Force Low. Setting this bit forces the positive terminal of OUT1 low.
ROM=Y, EEPROM=N |
| 0 | OUT_1_N_FORCELOW | R/W | 0x0 | OUT1N CMOS Force Low. Setting this bit forces the negative terminal of OUT1 low.
ROM=Y, EEPROM=N |
R966 is shown in Table 1-483.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_1_CONFIGURATION | R/W | 0x0 | OUT1 Configuration. Selects from CH0 Bypass, CH1 Bypass, CHDIV0, CHDIV1, CH0/2 low-noise divide by two path, SYSREF, SYSREF + Analog Delay, or static DC H/L.
ROM=N, EEPROM=N 0x0 = CH0/2 0x14 = CHDIV1 0x20 = SYSREF+ADLY 0x21 = SYSREF 0x22 = Static DC 0x28 = CHDIV0 0x40 = CH1 Bypass 0x80 = CH0 Bypass |
R967 is shown in Table 1-484.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_0_1_CMOS_OUT_VOLTAGE_SEL | R/W | 0x0 | CMOS LDO Voltage. Selects CMOS LDO voltage.
ROM=Y, EEPROM=Y 0x0 = 1.8V 0x1 = 2.65V |
| 0 | OUT_0_1_CMOS_OUT_LDO_EN | R/W | 0x0 | CMOS LDO Enable. Enables LDO used for CMOS outputs. Must be enabled for CMOS mode.
ROM=Y, EEPROM=Y |
R968 is shown in Table 1-485.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:1 | OUT_0_1_ZDM_TDC_SEL | R/W | 0x0 | Select zero delay output to TDC's
ROM=Y, EEPROM=N 0x0 = None 0x1 = TDC1 0x2 = TDC2 0x4 = TDC3 |
| 0 | OUT_0_1_ZDM_EN | R/W | 0x0 | Enable the output from CH_DIV0_1 to be used as DPLL feedback input for zero delay mode
ROM=Y, EEPROM=N |
R969 is shown in Table 1-486.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_0_1_DIV_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 5 | OUT_0_1_DIV_SYNC_EN | R/W | 0x1 | OUT0_1 Divider Sync Enable. Enables synchronization of chandiv and div2 dividers at startup for OUT0_1.
ROM=Y, EEPROM=N |
| 4 | OUT_0_1_SR_DIV_SYNC_EN | R/W | 0x1 | OUT0_1 SYSREF Divider Sync Enable. Enables synchronization of SYSREF dividers at startup for OUT0_1.
ROM=Y, EEPROM=N |
| 3 | OUT_0_1_CH0_CHAN_POL_SEL | R/W | 0x0 | OUT0_1 Ch0 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the Ch0 channel divider.
ROM=Y, EEPROM=N |
| 2 | OUT_0_1_CH1_CHAN_POL_SEL | R/W | 0x0 | OUT0_1 Ch1 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the Ch1 channel divider.
ROM=Y, EEPROM=N |
| 1 | OUT_0_1_CH0_DIV_EN | R/W | 0x0 | OUT0_1 Ch0 ChanDiv Enable. Enables the Ch0 channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
| 0 | OUT_0_1_CH1_DIV_EN | R/W | 0x0 | OUT0_1 Ch1 ChanDiv Enable. Enables the Ch1 channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
R972 is shown in Table 1-487.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_0_1_CH0_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x1 | OUT0_1 Ch0 ChanDiv to SYSREF Input Clock Select. When set, the Ch0 channel divider output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N 0x0 = POS POL to SR_DIV 0x1 = NEG POL to SR_DIV |
| 0 | RESERVED | R | 0x0 | Reserved |
R973 is shown in Table 1-488.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | OUT_0_1_CLK_IN_FANOUT | R/W | 0x0 | OUT0_1 input clock fanout. Distributes the input clock to the channel dividers and the standalone divide-by-2s.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x3 = IN1 to CHDIV1 0x4 = IN0 to SYSREF 0x7 = IN0 to SYSREF, IN1 to CHDIV1 0xC = IN0 to CHDIV0 0xF = IN0 to CHDIV0, IN1 to CHDIV1 0x10 = IN0 to CH0/2 (OUT0) 0x13 = IN0 to CH0/2 (OUT0), IN1 to CHDIV1 (OUT1) 0x14 = IN0 to CH0/2 (OUT0) and SYSREF (OUT1) 0x1C = IN0 to CH0/2 (OUT0) and CHDIV0 (OUT1) 0x20 = IN0 to CH0/2 (OUT1) 0x23 = IN0 to CH0/2 (OUT1), IN1 to CHDIV1 (OUT0) 0x24 = IN0 to CH0/2 (OUT1) and SYSREF (OUT0) 0x2C = IN0 to CH0/2 (OUT1) and CHDIV0 (OUT0) 0x30 = IN0 to CH0/2 (OUT0 and OUT1) |
| 1:0 | RESERVED | R | 0x0 | Reserved |
R974 is shown in Table 1-489.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH0_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 975 |
R975 is shown in Table 1-490.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH0_CH_STATIC_OFFSET | R/W | 0x0 | OUT0_1 Ch0 ChanDiv Static Offset. Code which delays the output of the Ch0 channel divider.
ROM=Y, EEPROM=Y |
R976 is shown in Table 1-491.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH1_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 977 |
R977 is shown in Table 1-492.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH1_CH_STATIC_OFFSET | R/W | 0x0 | OUT0_1 Ch1 ChanDiv Static Offset. Code which delays the output of the Ch1 channel divider.
ROM=Y, EEPROM=Y |
R978 is shown in Table 1-493.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH0_CH_DIV_11:8 | R/W | 0x0 | See Register 979 |
R979 is shown in Table 1-494.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH0_CH_DIV | R/W | 0x8 | OUT0_1 Ch0 Channel Divider (ChanDiv) Divide Value.
ROM=Y, EEPROM=Y |
R980 is shown in Table 1-495.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH1_CH_DIV_11:8 | R/W | 0x0 | See Register 981 |
R981 is shown in Table 1-496.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH1_CH_DIV | R/W | 0x8 | OUT0_1 Ch1 Channel Divider (ChanDiv) Divide Value.
ROM=Y, EEPROM=Y |
R982 is shown in Table 1-497.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_0_1_SR_ANA_DELAY | R/W | 0x0 | OUT0_1 SYSREF Analog Delay. Specified here in multiples of one delay step duration.
ROM=Y, EEPROM=N |
R983 is shown in Table 1-498.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_0_1_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT0_1 SYSREF Analog Delay Div By 2 Select. Divides the incoming clock by 2 to double the delay step size. Useful for increasing analog delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_0_1_SR_ANA_DELAY_EN | R/W | 0x0 | OUT0_1 SYSREF Analog Delay Enable.
ROM=Y, EEPROM=N |
| 3 | OUT_0_1_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT0_1 SYSREF Analog Delay Small Step Enable. If set to 1, the analog delay generator will use both rising and falling edges of the incoming clock to halve delay step size. Useful for when large pre-divider values have been used.
ROM=Y, EEPROM=N |
| 2:0 | OUT_0_1_SR_ANA_DELAY_RANGE | R/W | 0x0 | Analog delay range is set according to the period entering the SYSREF analog delay block. The period can be calcualted as (OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) / (OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / SYSREF source frequency. For OUT_x_y_SR_CH_DIV_BYPASS = 1 SYSREF source frequency = VCO post divider frequency up to maximum of 1500 MHz if or OUT_x_y_SR_CH_DIV_BYPASS = 0 the channel divider frequency. Calculated range must fall between 333 ps and 1050 ps.
ROM=Y, EEPROM=N 0x0 = Reserved 0x1 = Reserved 0x2 = 333 ps to 450 ps 0x3 = > 450 ps to 600 ps 0x4 = > 600 ps to 750 ps 0x5 = > 750 ps to 1050 ps 0x6 = Reserved 0x7 = Reserved |
R984 is shown in Table 1-499.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_0_1_SR_DDLY | R/W | 0x0 | OUT0_1 SYSREF Digital Delay Value. Measured in VCO half-cycles.
ROM=Y, EEPROM=N |
R985 is shown in Table 1-500.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_SR_DIV_19:16 | R/W | 0x0 | See Register 987 |
R986 is shown in Table 1-501.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_SR_DIV_15:8 | R/W | 0x0 | See Register 987 |
R987 is shown in Table 1-502.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_SR_DIV | R/W | 0x2 | OUT0_1 SYSREF Divide Value.
ROM=Y, EEPROM=N |
R988 is shown in Table 1-503.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_0_1_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 989 |
R989 is shown in Table 1-504.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT0_1 SYSREF Divider Static Offset. Static offset code which delays the output of the SYSREF divider.
ROM=Y, EEPROM=N |
R990 is shown in Table 1-505.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_0_1_SR_GPIO_EN | R/W | 0x0 | Enable SYSREF to digtop used for 1PPS phase validation, SYSREF_REQ and SYSREF GPIO output
ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | OUT_0_1_PULSE_COUNT | R/W | 0x0 | OUT0_1 SYSREF Pulse Count. The number of SYSREF pulses which will be generated by a SYSREF request.
ROM=Y, EEPROM=N |
| 1:0 | OUT_0_1_SR_MODE | R/W | 0x0 | OUT0_1 SYSREF Mode. Selects Pulser mode, Continuous mode, or None.
ROM=Y, EEPROM=N 0x0 = None 0x1 = Continuous 0x2 = Pulser |
R991 is shown in Table 1-506.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_0_1_SR_CH0_DIV_BYPASS | R/W | 0x0 | OUT0_1 cascaded SYSREF bypass mux. If set, bypasses CHDIV0 for the SYSREF input clock. This is useful for minimizing the step size of the digital delay adjustments on the SYSREF clock.
ROM=Y, EEPROM=N 0x0 = ChanDiv input to SysRef 0x1 = Bypass ChanDiv |
| 4:0 | RESERVED | R | 0x0 | Reserved |
R1024 is shown in Table 1-507.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_2_HSDSBOOST | R/W | 0x0 | OUT2 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_2_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_2_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 5:4 | OUT_2_AMP | R/W | 0x3 | OUT2 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_2_FMT | R/W | 0x3 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1025 is shown in Table 1-508.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_2_CONFIGURATION | R/W | 0x0 | OUT2 Mode Configuration
ROM=N, EEPROM=N 0x2 = Static DC 0x3 = CHDIV 0x4 = BYPASS |
R1026 is shown in Table 1-509.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_2_CHAN_POL_SEL | R/W | 0x0 | OUT2 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 6:5 | OUT_2_CLK_MUX | R/W | 0x0 | OUT2 Input Clock Select. Selects the input clock which will be used to drive the output.
ROM=N, EEPROM=N 0x0 = PLL1_SEC 0x1 = PLL2 0x2 = PLL1_PRI |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_2_DIV_EN | R/W | 0x1 | OUT2 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
| 2:0 | OUT_2_CH_MUX_SEL | R/W | 0x3 | OUT2 Clock Enable. Bit 2, if set, passes the selected VCO1 clock (VCO1P or VCO1S), to the second stage of clock selection. Bit 1 and Bit0 enable the selected clock to drive the channel divider and the channel divider retimer respectively.
ROM=Y, EEPROM=Y 0x0 = PLL2->BYPASS 0x3 = PLL2->CHDIV 0x4 = PLL1->BYPASS 0x7 = PLL1->CHDIV |
R1027 is shown in Table 1-510.
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| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_2_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 3 | OUT_2_SYNC_EN | R/W | 0x1 | OUT2 ChanDiv Sync Enable. Enables synchronization of chandiv dividers at startup for OUT2.
ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
R1028 is shown in Table 1-511.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_2_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1029 |
R1029 is shown in Table 1-512.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_2_CH_STATIC_OFFSET | R/W | 0x0 | OUT2 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1030 is shown in Table 1-513.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_2_CH_DIV_11:8 | R/W | 0x0 | See Register 1031 |
R1031 is shown in Table 1-514.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_2_CH_DIV | R/W | 0x5 | OUT2 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1056 is shown in Table 1-515.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_3_HSDSBOOST | R/W | 0x0 | OUT3 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_3_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_3_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 5:4 | OUT_3_AMP | R/W | 0x0 | OUT3 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_3_FMT | R/W | 0x1 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1057 is shown in Table 1-516.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_3_CONFIGURATION | R/W | 0x0 | OUT3 Mode Configuration.
ROM=Y, EEPROM=Y 0x2 = Static DC 0x3 = CHDIV 0x4 = BYPASS |
R1058 is shown in Table 1-517.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_3_CHAN_POL_SEL | R/W | 0x0 | OUT3 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 6:5 | OUT_3_CLK_MUX | R/W | 0x0 | OUT3 Input Clock Select. Selects the input clock which will be used to drive the output.
ROM=N, EEPROM=N 0x0 = PLL1_SEC 0x1 = PLL2 0x2 = PLL1_PRI |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_3_DIV_EN | R/W | 0x1 | OUT3 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
| 2:0 | OUT_3_CH_MUX_SEL | R/W | 0x3 | OUT3 Clock Enable. Bit 2, if set, passes the selected VCO1 clock (VCO1P or VCO1S), to the second stage of clock selection. Bit 1 and Bit0 enable the selected clock to drive the channel divider and the channel divider retimer respectively.
ROM=Y, EEPROM=Y 0x0 = PLL2->BYPASS 0x3 = PLL2->CHDIV 0x4 = PLL1->BYPASS 0x7 = PLL1->CHDIV |
R1059 is shown in Table 1-518.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_3_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 3 | OUT_3_SYNC_EN | R/W | 0x1 | OUT3 ChanDiv Sync Enable. Enables synchronization of chandiv dividers at startup for OUT3.
ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
R1060 is shown in Table 1-519.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_3_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1061 |
R1061 is shown in Table 1-520.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_3_CH_STATIC_OFFSET | R/W | 0x0 | OUT3 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1062 is shown in Table 1-521.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_3_CH_DIV_11:8 | R/W | 0x0 | See Register 1063 |
R1063 is shown in Table 1-522.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_3_CH_DIV | R/W | 0x4 | OUT3 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1088 is shown in Table 1-523.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_4_5_SR_ANA_DLY_BIASTRIM | R/W | 0x4 | Channel Analog Delay Bias Trim
ROM=N, EEPROM=Y |
R1089 is shown in Table 1-524.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_4_HSDSBOOST | R/W | 0x0 | OUT4 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_4_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_4_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_4_AMP | R/W | 0x0 | OUT4 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, HSDS, and CML outputs.
ROM=Y, EEPROM=Y |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_4_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS 0x4 = Reserved 0x5 = CML |
R1090 is shown in Table 1-525.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_4_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1091 is shown in Table 1-526.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_5_HSDSBOOST | R/W | 0x0 | OUT5 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_5_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_5_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_5_AMP | R/W | 0x3 | OUT5 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | OUT_5_PREPWR | R/W | 0x0 | Output buffer predriver power setting
ROM=Y, EEPROM=Y |
| 2:0 | OUT_5_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1092 is shown in Table 1-527.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_5_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1093 is shown in Table 1-528.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_4_5_DIV_SYNC_EN | R/W | 0x0 | OUT4_5 Divider Sync Enable. Enables synchronization of chandiv dividers at startup for OUT4_5.
ROM=Y, EEPROM=N |
| 4 | OUT_4_5_SR_DIV_SYNC_EN | R/W | 0x0 | OUT4_5 SYSREF Divider Sync Enable. Enables synchronization of SYSREF dividers at startup for OUT4_5.
ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_4_5_CHAN_POL_SEL | R/W | 0x0 | OUT4_5 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 0 | OUT_4_5_DIV_EN | R/W | 0x0 | OUT4_5 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
R1094 is shown in Table 1-529.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_4_5_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 6 | OUT_4_5_ZDM_EN | R/W | 0x0 | OUT4_5 zero delay output enable
ROM=Y, EEPROM=N |
| 5 | OUT_4_5_CLK_IN_SEL | R/W | 0x0 | OUT4_5 Input Clock Select. Selects the input clock which will be used to drive the output: 0 = VCO2, 1 = VCO3
ROM=Y, EEPROM=Y 0x0 = PLL2 0x1 = PLL3 |
| 4 | OUT_4_5_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT4_5 ChanDiv to SYSREF Clock Select. When set, the channel divider output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N |
| 3:0 | OUT_4_5_CH_MUX_SEL | R/W | 0xC | OUT4_5 Input Clock Enable. Enables the selected clock to various inputs: [0] -> ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2 to OUT4, [3] -> Div2 to OUT5
ROM=Y, EEPROM=Y 0x0 = OFF 0x1 = SYSREF 0x3 = CHDIV 0x4 = DIV2->OUT8 0x5 = DIV2->OUT8, SYSREF->OUT9 0x7 = DIV2->OUT8, CHDIV->OUT9 0x8 = DIV2->OUT9 0x9 = SYSREF->OUT8, DIV2->OUT9 0xB = CHDIV->OUT8, DIV2->OUT9 0xC = DIV2->OUT8, DIV2->OUT9 |
R1095 is shown in Table 1-530.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_4_5_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1096 |
R1096 is shown in Table 1-531.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_CH_STATIC_OFFSET | R/W | 0x0 | OUT4_5 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1097 is shown in Table 1-532.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_4_5_CH_DIV_11:8 | R/W | 0x0 | See Register 1098 |
R1098 is shown in Table 1-533.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_CH_DIV | R/W | 0x2 | OUT4_5 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1099 is shown in Table 1-534.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_4_5_SR_ANA_DELAY | R/W | 0x10 | OUT4_5 SYSREF Analog Delay. Specified here in multiples of one delay step duration.
ROM=Y, EEPROM=N |
R1100 is shown in Table 1-535.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_4_5_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT4_5 SYSREF Analog Delay Div By 2 Select. Divides the incoming clock by 2 to double the delay step size. Useful for increasing analog delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_4_5_SR_ANA_DELAY_EN | R/W | 0x0 | OUT4_5 SYSREF Analog Delay Enable. Enables the analog delay generator. Set to a 0 to save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_4_5_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT4_5 SYSREF Analog Delay Small Step Enable. If set to 1, the analog delay generator will use both rising and falling edges of the incoming clock to halve delay step size. Useful for when large pre-divider values have been used.
ROM=Y, EEPROM=N |
| 2:0 | OUT_4_5_SR_ANA_DELAY_RANGE | R/W | 0x4 | Analog delay range is set according to the period entering the SYSREF analog delay block. The period can be calcualted as (OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) / (OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / SYSREF source frequency. For OUT_x_y_SR_CH_DIV_BYPASS = 1 SYSREF source frequency = VCO post divider frequency up to maximum of 1500 MHz if or OUT_x_y_SR_CH_DIV_BYPASS = 0 the channel divider frequency. Calculated range must fall between 333 ps and 1050 ps.
ROM=Y, EEPROM=N 0x0 = Reserved 0x1 = Reserved 0x2 = 333 ps to 450 ps 0x3 = > 450 ps to 600 ps 0x4 = > 600 ps to 750 ps 0x5 = > 750 ps to 1050 ps 0x6 = Reserved 0x7 = Reserved |
R1101 is shown in Table 1-536.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_4_5_SR_DDLY | R/W | 0x0 | OUT4_5 SYSREF Digital Delay Value. Measured in VCO half-cycles.
ROM=Y, EEPROM=N |
R1102 is shown in Table 1-537.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_4_5_SR_DIV_19:16 | R/W | 0x0 | See Register 1104 |
R1103 is shown in Table 1-538.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_SR_DIV_15:8 | R/W | 0x0 | See Register 1104 |
R1104 is shown in Table 1-539.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_SR_DIV | R/W | 0x2 | OUT4_5 SYSREF Divide Value.
ROM=Y, EEPROM=N |
R1105 is shown in Table 1-540.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_4_5_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1106 |
R1106 is shown in Table 1-541.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT4_5 SYSREF Divider Static Offset. Static offset code which delays the output of the SYSREF divider.
ROM=Y, EEPROM=N |
R1107 is shown in Table 1-542.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | OUT_4_5_PULSE_COUNT | R/W | 0x0 | OUT4_5 SYSREF Pulse Count. The number of SYSREF pulses which will be generated by a SYSREF request.
ROM=Y, EEPROM=N |
| 2 | OUT_4_5_SR_GPIO_EN | R/W | 0x0 | Enables SYSREF to digital for SYSREF_req and GPIO output
ROM=Y, EEPROM=N |
| 1:0 | OUT_4_5_SR_MODE | R/W | 0x0 | OUT4_5 SYSREF Mode. When this bit is set, the SYSREF operates in Continuous Mode. When cleared, the SYSREF operates in Pulse Mode.
ROM=Y, EEPROM=N 0x0 = None 0x1 = Continuous 0x2 = Pulser |
R1108 is shown in Table 1-543.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_4_5_SR_CH_DIV_BYPASS | R/W | 0x0 | OUT4_5 cascaded SYSREF bypass mux. If set, bypasses OUT4_5 channel divider for the SYSREF input clock. This is useful for minimizing the step size of the digital delay adjustments on the SYSREF clock.
ROM=Y, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R1121 is shown in Table 1-544.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_6_HSDSBOOST | R/W | 0x0 | OUT6 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_6_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_6_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_6_AMP | R/W | 0x0 | OUT6 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, HSDS, and CML outputs.
ROM=Y, EEPROM=Y |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_6_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS 0x4 = Reserved 0x5 = CML |
R1122 is shown in Table 1-545.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_6_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1123 is shown in Table 1-546.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_7_HSDSBOOST | R/W | 0x0 | OUT7 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_7_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_7_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_7_AMP | R/W | 0x3 | OUT7 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | OUT_7_PREPWR | R/W | 0x0 | Output buffer predriver power setting
ROM=Y, EEPROM=Y |
| 2:0 | OUT_7_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1124 is shown in Table 1-547.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_7_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1125 is shown in Table 1-548.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_6_7_DIV_SYNC_EN | R/W | 0x0 | OUT6_7 Divider Sync Enable. Enables synchronization of chandiv dividers at startup for OUT6_7.
ROM=Y, EEPROM=N |
| 4 | OUT_6_7_SR_DIV_SYNC_EN | R/W | 0x0 | OUT6_7 SYSREF Divider Sync Enable. Enables synchronization of SYSREF dividers at startup for OUT6_7.
ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_6_7_CHAN_POL_SEL | R/W | 0x0 | OUT6_7 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 0 | OUT_6_7_DIV_EN | R/W | 0x0 | OUT6_7 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
R1126 is shown in Table 1-549.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_6_7_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_6_7_CLK_IN_SEL | R/W | 0x0 | OUT6_7 Input Clock Select. Selects the input clock which will be used to drive the output: 0 = VCO2, 1 = VCO3
ROM=Y, EEPROM=Y 0x0 = PLL2 0x1 = PLL3 |
| 4 | OUT_6_7_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT6_7 ChanDiv to SYSREF Clock Select. When set, the channel divider output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N |
| 3:0 | OUT_6_7_CH_MUX_SEL | R/W | 0xC | OUT6_7 Input Clock Enable. Enables the selected clock to various inputs: [0] -> ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2 to OUT6, [3] -> Div2 to OUT7
ROM=Y, EEPROM=Y 0x0 = OFF 0x1 = SYSREF 0x3 = CHDIV 0x4 = DIV2->OUT8 0x5 = DIV2->OUT8, SYSREF->OUT9 0x7 = DIV2->OUT8, CHDIV->OUT9 0x8 = DIV2->OUT9 0x9 = SYSREF->OUT8, DIV2->OUT9 0xB = CHDIV->OUT8, DIV2->OUT9 0xC = DIV2->OUT8, DIV2->OUT9 |
R1127 is shown in Table 1-550.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_6_7_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1128 |
R1128 is shown in Table 1-551.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_CH_STATIC_OFFSET | R/W | 0x0 | OUT6_7 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1129 is shown in Table 1-552.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_6_7_CH_DIV_11:8 | R/W | 0x0 | See Register 1130 |
R1130 is shown in Table 1-553.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_CH_DIV | R/W | 0x2 | OUT6_7 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1131 is shown in Table 1-554.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_6_7_SR_ANA_DELAY | R/W | 0x0 | OUT6_7 SYSREF Analog Delay. Specified here in multiples of one delay step duration.
ROM=Y, EEPROM=N |
R1132 is shown in Table 1-555.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_6_7_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT6_7 SYSREF Analog Delay Div By 2 Select. Divides the incoming clock by 2 to double the delay step size. Useful for increasing analog delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_6_7_SR_ANA_DELAY_EN | R/W | 0x0 | OUT6_7 SYSREF Analog Delay Enable. Enables the analog delay generator. Set to a 0 to save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_6_7_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT6_7 SYSREF Analog Delay Small Step Enable. If set to 1, the analog delay generator will use both rising and falling edges of the incoming clock to halve delay step size. Useful for when large pre-divider values have been used.
ROM=Y, EEPROM=N |
| 2:0 | OUT_6_7_SR_ANA_DELAY_RANGE | R/W | 0x4 | Analog delay range is set according to the period entering the SYSREF analog delay block. The period can be calcualted as (OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) / (OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / SYSREF source frequency. For OUT_x_y_SR_CH_DIV_BYPASS = 1 SYSREF source frequency = VCO post divider frequency up to maximum of 1500 MHz if or OUT_x_y_SR_CH_DIV_BYPASS = 0 the channel divider frequency. Calculated range must fall between 333 ps and 1050 ps.
ROM=Y, EEPROM=N 0x0 = Reserved 0x1 = Reserved 0x2 = 333 ps to 450 ps 0x3 = > 450 ps to 600 ps 0x4 = > 600 ps to 750 ps 0x5 = > 750 ps to 1050 ps 0x6 = Reserved 0x7 = Reserved |
R1133 is shown in Table 1-556.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_6_7_SR_DDLY | R/W | 0x0 | OUT6_7 SYSREF Digital Delay Value. Measured in VCO half-cycles.
ROM=Y, EEPROM=N |
R1134 is shown in Table 1-557.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_6_7_SR_DIV_19:16 | R/W | 0x0 | See Register 1136 |
R1135 is shown in Table 1-558.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_SR_DIV_15:8 | R/W | 0x0 | See Register 1136 |
R1136 is shown in Table 1-559.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_SR_DIV | R/W | 0x2 | OUT6_7 SYSREF Divide Value.
ROM=Y, EEPROM=N |
R1137 is shown in Table 1-560.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_6_7_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1138 |
R1138 is shown in Table 1-561.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT6_7 SYSREF Divider Static Offset. Static offset code which delays the output of the SYSREF divider.
ROM=Y, EEPROM=N |
R1139 is shown in Table 1-562.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | OUT_6_7_PULSE_COUNT | R/W | 0x0 | OUT6_7 SYSREF Pulse Count. The number of SYSREF pulses which will be generated by a SYSREF request.
ROM=Y, EEPROM=N |
| 2 | OUT_6_7_SR_GPIO_EN | R/W | 0x0 | Enable SYSREF to digital for sysre_req and GPIO output
ROM=Y, EEPROM=N |
| 1:0 | OUT_6_7_SR_MODE | R/W | 0x0 | OUT6_7 SYSREF Mode. When this bit is set, the SYSREF operates in Continuous Mode. When cleared, the SYSREF operates in PULSE MODE.
ROM=Y, EEPROM=N 0x0 = None 0x1 = Continuous 0x2 = Pulser |
R1140 is shown in Table 1-563.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_6_7_SR_CH_DIV_BYPASS | R/W | 0x0 | OUT6_7 cascaded SYSREF bypass mux. If set, bypasses OUT6_7 channel divider for the SYSREF input clock. This is useful for minimizing the step size of the digital delay adjustments on the SYSREF clock.
ROM=Y, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R1153 is shown in Table 1-564.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_8_HSDSBOOST | R/W | 0x0 | OUT8 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_8_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_8_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_8_AMP | R/W | 0x0 | OUT8 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_8_FMT | R/W | 0x1 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1154 is shown in Table 1-565.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_8_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1155 is shown in Table 1-566.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_9_HSDSBOOST | R/W | 0x0 | OUT9 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_9_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_9_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_9_AMP | R/W | 0x0 | OUT9 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | OUT_9_PREPWR | R/W | 0x3 | Output buffer predriver power setting
ROM=Y, EEPROM=Y |
| 2:0 | OUT_9_FMT | R/W | 0x1 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1156 is shown in Table 1-567.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_9_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1157 is shown in Table 1-568.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_8_9_DIV_SYNC_EN | R/W | 0x1 | OUT8_9 Divider Sync Enable. Enables synchronization of chandiv dividers at startup for OUT8_9.
ROM=Y, EEPROM=N |
| 4 | OUT_8_9_SR_DIV_SYNC_EN | R/W | 0x1 | OUT8_9 SYSREF Divider Sync Enable. Enables synchronization of SYSREF dividers at startup for OUT8_9.
ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_8_9_CHAN_POL_SEL | R/W | 0x0 | OUT8_9 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 0 | OUT_8_9_DIV_EN | R/W | 0x1 | OUT8_9 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
R1158 is shown in Table 1-569.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_8_9_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_8_9_CLK_IN_SEL | R/W | 0x1 | OUT8_9 Input Clock Select. Selects the input clock which will be used to drive the output: 0 = VCO2, 1 = VCO3
ROM=Y, EEPROM=Y 0x0 = PLL2 0x1 = PLL3 |
| 4 | OUT_8_9_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT8_9 ChanDiv to SYSREF Clock Select. When set, the channel divider output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N |
| 3:0 | OUT_8_9_CH_MUX_SEL | R/W | 0x3 | OUT8_9 Input Clock Enable. Enables the selected clock to various inputs: [0] -> ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2 to OUT8, [3] -> Div2 to OUT9
ROM=Y, EEPROM=Y 0x0 = OFF 0x1 = SYSREF 0x3 = CHDIV 0x4 = DIV2->OUT8 0x5 = DIV2->OUT8, SYSREF->OUT9 0x7 = DIV2->OUT8, CHDIV->OUT9 0x8 = DIV2->OUT9 0x9 = SYSREF->OUT8, DIV2->OUT9 0xB = CHDIV->OUT8, DIV2->OUT9 0xC = DIV2->OUT8, DIV2->OUT9 |
R1159 is shown in Table 1-570.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_8_9_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1160 |
R1160 is shown in Table 1-571.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_CH_STATIC_OFFSET | R/W | 0x0 | OUT8_9 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1161 is shown in Table 1-572.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_8_9_CH_DIV_11:8 | R/W | 0x0 | See Register 1162 |
R1162 is shown in Table 1-573.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_CH_DIV | R/W | 0x4 | OUT8_9 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1163 is shown in Table 1-574.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_8_9_SR_ANA_DELAY | R/W | 0x0 | OUT8_9 SYSREF Analog Delay. Specified here in multiples of one delay step duration.
ROM=Y, EEPROM=N |
R1164 is shown in Table 1-575.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_8_9_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT8_9 SYSREF Analog Delay Div By 2 Select. Divides the incoming clock by 2 to double the delay step size. Useful for increasing analog delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_8_9_SR_ANA_DELAY_EN | R/W | 0x0 | OUT8_9 SYSREF Analog Delay Enable. Enables the analog delay generator. Set to a 0 to save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_8_9_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT8_9 SYSREF Analog Delay Small Step Enable. If set to 1, the analog delay generator will use both rising and falling edges of the incoming clock to halve delay step size. Useful for when large pre-divider values have been used.
ROM=Y, EEPROM=N |
| 2:0 | OUT_8_9_SR_ANA_DELAY_RANGE | R/W | 0x0 | Analog delay range is set according to the period entering the SYSREF analog delay block. The period can be calcualted as (OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) / (OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / SYSREF source frequency. For OUT_x_y_SR_CH_DIV_BYPASS = 1 SYSREF source frequency = VCO post divider frequency up to maximum of 1500 MHz if or OUT_x_y_SR_CH_DIV_BYPASS = 0 the channel divider frequency. Calculated range must fall between 333 ps and 1050 ps.
ROM=Y, EEPROM=N 0x0 = Reserved 0x1 = Reserved 0x2 = 333 ps to 450 ps 0x3 = > 450 ps to 600 ps 0x4 = > 600 ps to 750 ps 0x5 = > 750 ps to 1050 ps 0x6 = Reserved 0x7 = Reserved |
R1165 is shown in Table 1-576.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_8_9_SR_DDLY | R/W | 0x6 | OUT8_9 SYSREF Digital Delay Value. Measured in VCO half-cycles.
ROM=Y, EEPROM=N |
R1166 is shown in Table 1-577.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_8_9_SR_DIV_19:16 | R/W | 0x0 | See Register 1168 |
R1167 is shown in Table 1-578.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_SR_DIV_15:8 | R/W | 0x1 | See Register 1168 |
R1168 is shown in Table 1-579.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_SR_DIV | R/W | 0x0 | OUT8_9 SYSREF Divide Value.
ROM=Y, EEPROM=N |
R1169 is shown in Table 1-580.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_8_9_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1170 |
R1170 is shown in Table 1-581.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT8_9 SYSREF Divider Static Offset. Static offset code which delays the output of the SYSREF divider.
ROM=Y, EEPROM=N |
R1171 is shown in Table 1-582.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | OUT_8_9_PULSE_COUNT | R/W | 0x0 | OUT8_9 SYSREF Pulse Count. The number of SYSREF pulses which will be generated by a SYSREF request.
ROM=Y, EEPROM=N |
| 2 | OUT_8_9_SR_GPIO_EN | R/W | 0x0 | Enable SYSREF to digital for sysre_req and GPIO output
ROM=Y, EEPROM=N |
| 1:0 | OUT_8_9_SR_MODE | R/W | 0x0 | OUT8_9 SYSREF Mode. When this bit is set, the SYSREF operates in Continuous Mode. When cleared, the SYSREF operates in PULSE MODE.
ROM=Y, EEPROM=N 0x0 = None 0x1 = Continuous 0x2 = Pulser |
R1185 is shown in Table 1-583.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_10_HSDSBOOST | R/W | 0x0 | OUT10 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_10_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_10_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_10_AMP | R/W | 0x0 | OUT10 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_10_FMT | R/W | 0x1 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1186 is shown in Table 1-584.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_10_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1187 is shown in Table 1-585.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_11_HSDSBOOST | R/W | 0x0 | OUT11 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_11_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_11_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_11_AMP | R/W | 0x0 | OUT11 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | OUT_11_PREPWR | R/W | 0x3 | Output buffer predriver power setting
ROM=Y, EEPROM=Y |
| 2:0 | OUT_11_FMT | R/W | 0x1 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1188 is shown in Table 1-586.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_11_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1189 is shown in Table 1-587.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_10_11_DIV_SYNC_EN | R/W | 0x1 | OUT10_11 Divider Sync Enable. Enables synchronization of chandiv dividers at startup for OUT10_11.
ROM=Y, EEPROM=N |
| 4 | OUT_10_11_SR_DIV_SYNC_EN | R/W | 0x1 | OUT10_11 SYSREF Divider Sync Enable. Enables synchronization of SYSREF dividers at startup for OUT10_11.
ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_10_11_CHAN_POL_SEL | R/W | 0x0 | OUT10_11 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 0 | OUT_10_11_DIV_EN | R/W | 0x0 | OUT10_11 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
R1190 is shown in Table 1-588.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_10_11_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 6 | OUT_10_11_ZDM_EN | R/W | 0x0 | OUT10_11 zero delay output enable.
ROM=Y, EEPROM=N |
| 5 | OUT_10_11_CLK_IN_SEL | R/W | 0x1 | OUT10_11 Input Clock Select. Selects the input clock which will be used to drive the output: 0 = VCO2, 1 = VCO3
ROM=Y, EEPROM=Y 0x0 = PLL2 0x1 = PLL3 |
| 4 | OUT_10_11_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT10_11 ChanDiv to SYSREF Clock Select. When set, the channel divider output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N |
| 3:0 | OUT_10_11_CH_MUX_SEL | R/W | 0x1 | OUT10_11 Input Clock Enable. Enables the selected clock to various inputs: [0] -> ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2 to OUT10, [3] -> Div2 to OUT11
ROM=Y, EEPROM=Y 0x0 = OFF 0x1 = SYSREF 0x3 = CHDIV 0x4 = DIV2->OUT8 0x5 = DIV2->OUT8, SYSREF->OUT9 0x7 = DIV2->OUT8, CHDIV->OUT9 0x8 = DIV2->OUT9 0x9 = SYSREF->OUT8, DIV2->OUT9 0xB = CHDIV->OUT8, DIV2->OUT9 0xC = DIV2->OUT8, DIV2->OUT9 |
R1191 is shown in Table 1-589.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_10_11_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1192 |
R1192 is shown in Table 1-590.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_CH_STATIC_OFFSET | R/W | 0x0 | OUT10_11 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1193 is shown in Table 1-591.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_10_11_CH_DIV_11:8 | R/W | 0x0 | See Register 1194 |
R1194 is shown in Table 1-592.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_CH_DIV | R/W | 0x4 | OUT10_11 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1195 is shown in Table 1-593.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_10_11_SR_ANA_DELAY | R/W | 0x0 | OUT10_11 SYSREF Analog Delay. Specified here in multiples of one delay step duration.
ROM=Y, EEPROM=N |
R1196 is shown in Table 1-594.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_10_11_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT10_11 SYSREF Analog Delay Div By 2 Select. Divides the incoming clock by 2 to double the delay step size. Useful for increasing analog delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_10_11_SR_ANA_DELAY_EN | R/W | 0x0 | OUT10_11 SYSREF Analog Delay Enable. Enables the analog delay generator. Set to a 0 to save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_10_11_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT10_11 SYSREF Analog Delay Small Step Enable. If set to 1, the analog delay generator will use both rising and falling edges of the incoming clock to halve delay step size. Useful for when large pre-divider values have been used.
ROM=Y, EEPROM=N |
| 2:0 | OUT_10_11_SR_ANA_DELAY_RANGE | R/W | 0x0 | Analog delay range is set according to the period entering the SYSREF analog delay block. The period can be calcualted as (OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) / (OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / SYSREF source frequency. For OUT_x_y_SR_CH_DIV_BYPASS = 1 SYSREF source frequency = VCO post divider frequency up to maximum of 1500 MHz if or OUT_x_y_SR_CH_DIV_BYPASS = 0 the channel divider frequency. Calculated range must fall between 333 ps and 1050 ps.
ROM=Y, EEPROM=N 0x0 = Reserved 0x1 = Reserved 0x2 = 333 ps to 450 ps 0x3 = > 450 ps to 600 ps 0x4 = > 600 ps to 750 ps 0x5 = > 750 ps to 1050 ps 0x6 = Reserved 0x7 = Reserved |
R1197 is shown in Table 1-595.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_10_11_SR_DDLY | R/W | 0x6 | OUT10_11 SYSREF Digital Delay Value. Measured in VCO half-cycles.
ROM=Y, EEPROM=N |
R1198 is shown in Table 1-596.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_10_11_SR_DIV_19:16 | R/W | 0x0 | See Register 1200 |
R1199 is shown in Table 1-597.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_SR_DIV_15:8 | R/W | 0x1 | See Register 1200 |
R1200 is shown in Table 1-598.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_SR_DIV | R/W | 0x0 | OUT10_11 SYSREF Divide Value.
ROM=Y, EEPROM=N |
R1201 is shown in Table 1-599.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_10_11_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1202 |
R1202 is shown in Table 1-600.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT10_11 SYSREF Divider Static Offset. Static offset code which delays the output of the SYSREF divider.
ROM=Y, EEPROM=N |
R1203 is shown in Table 1-601.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | OUT_10_11_PULSE_COUNT | R/W | 0x0 | OUT10_11 SYSREF Pulse Count. The number of SYSREF pulses which will be generated by a SYSREF request.
ROM=Y, EEPROM=N |
| 2 | OUT_10_11_SR_GPIO_EN | R/W | 0x0 | Enable SYSREF to digital for sysre_req and GPIO output
ROM=Y, EEPROM=N |
| 1:0 | OUT_10_11_SR_MODE | R/W | 0x0 | OUT10_11 SYSREF Mode. When this bit is set, the SYSREF operates in Continuous Mode. When cleared, the SYSREF operates in PULSE MODE.
ROM=Y, EEPROM=N 0x0 = None 0x1 = Continuous 0x2 = Pulser |
R1204 is shown in Table 1-602.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_10_11_SR_CH_DIV_BYPASS | R/W | 0x1 | OUT10_11 cascaded SYSREF bypass mux. If set, bypasses OUT10_11 channel divider for the SYSREF input clock. This is useful for minimizing the step size of the digital delay adjustments on the SYSREF clock.
ROM=Y, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R1217 is shown in Table 1-603.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_12_HSDSBOOST | R/W | 0x0 | OUT12 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_12_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_12_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_12_AMP | R/W | 0x0 | OUT12 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_12_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1218 is shown in Table 1-604.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_12_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1219 is shown in Table 1-605.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_13_HSDSBOOST | R/W | 0x0 | OUT13 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_13_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_13_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 6:5 | OUT_13_AMP | R/W | 0x3 | OUT13 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 4:3 | OUT_13_PREPWR | R/W | 0x0 | Output buffer predriver power setting
ROM=Y, EEPROM=Y |
| 2:0 | OUT_13_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1220 is shown in Table 1-606.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_13_CONFIGURATION | 0x0 |
0x0 = CH/2 0x8 = SYSREF+ADLY 0x9 = SYSREF 0xA = Static DC 0xC = CHDIV 0x10 = BYPASS |
R1221 is shown in Table 1-607.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_12_13_DIV_SYNC_EN | R/W | 0x0 | OUT12_13 Divider Sync Enable. Enables synchronization of chandiv dividers at startup for OUT12_13.
ROM=Y, EEPROM=N |
| 4 | OUT_12_13_SR_DIV_SYNC_EN | R/W | 0x0 | OUT12_13 SYSREF Divider Sync Enable. Enables synchronization of SYSREF dividers at startup for OUT12_13.
ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_12_13_CHAN_POL_SEL | R/W | 0x0 | OUT12_13 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 0 | OUT_12_13_DIV_EN | R/W | 0x0 | OUT12_13 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
R1222 is shown in Table 1-608.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_12_13_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_12_13_CLK_IN_SEL | R/W | 0x1 | OUT12_13 Input Clock Select. Selects the input clock which will be used to drive the output: 0 = VCO2, 1 = VCO3
ROM=Y, EEPROM=Y 0x0 = PLL2 0x1 = PLL3 |
| 4 | OUT_12_13_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT12_13 ChanDiv to SYSREF Clock Select. When set, the channel divider output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N |
| 3:0 | OUT_12_13_CH_MUX_SEL | R/W | 0x0 | OUT12_13 Input Clock Enable. Enables the selected clock to various inputs: [0] -> ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2 to OUT12, [3] -> Div2 to OUT13
ROM=Y, EEPROM=Y 0x0 = OFF 0x1 = SYSREF 0x3 = CHDIV 0x4 = DIV2->OUT8 0x5 = DIV2->OUT8, SYSREF->OUT9 0x7 = DIV2->OUT8, CHDIV->OUT9 0x8 = DIV2->OUT9 0x9 = SYSREF->OUT8, DIV2->OUT9 0xB = CHDIV->OUT8, DIV2->OUT9 0xC = DIV2->OUT8, DIV2->OUT9 |
R1223 is shown in Table 1-609.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_12_13_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1224 |
R1224 is shown in Table 1-610.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_CH_STATIC_OFFSET | R/W | 0x0 | OUT12_13 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1225 is shown in Table 1-611.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_12_13_CH_DIV_11:8 | R/W | 0x0 | See Register 1226 |
R1226 is shown in Table 1-612.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_CH_DIV | R/W | 0x4 | OUT12_13 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1227 is shown in Table 1-613.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_12_13_SR_ANA_DELAY | R/W | 0x0 | OUT12_13 SYSREF Analog Delay. Specified here in multiples of one delay step duration.
ROM=Y, EEPROM=N |
R1228 is shown in Table 1-614.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_12_13_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT12_13 SYSREF Analog Delay Div By 2 Select. Divides the incoming clock by 2 to double the delay step size. Useful for increasing analog delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_12_13_SR_ANA_DELAY_EN | R/W | 0x0 | OUT12_13 SYSREF Analog Delay Enable. Enables the analog delay generator. Set to a 0 to save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_12_13_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT12_13 SYSREF Analog Delay Small Step Enable. If set to 1, the analog delay generator will use both rising and falling edges of the incoming clock to halve delay step size. Useful for when large pre-divider values have been used.
ROM=Y, EEPROM=N |
| 2:0 | OUT_12_13_SR_ANA_DELAY_RANGE | R/W | 0x0 | Analog delay range is set according to the period entering the SYSREF analog delay block. The period can be calcualted as (OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) / (OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / SYSREF source frequency. For OUT_x_y_SR_CH_DIV_BYPASS = 1 SYSREF source frequency = VCO post divider frequency up to maximum of 1500 MHz if or OUT_x_y_SR_CH_DIV_BYPASS = 0 the channel divider frequency. Calculated range must fall between 333 ps and 1050 ps.
ROM=Y, EEPROM=N 0x0 = Reserved 0x1 = Reserved 0x2 = 333 ps to 450 ps 0x3 = > 450 ps to 600 ps 0x4 = > 600 ps to 750 ps 0x5 = > 750 ps to 1050 ps 0x6 = Reserved 0x7 = Reserved |
R1229 is shown in Table 1-615.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_12_13_SR_DDLY | R/W | 0x0 | OUT12_13 SYSREF Digital Delay Value. Measured in VCO half-cycles.
ROM=Y, EEPROM=N |
R1230 is shown in Table 1-616.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_12_13_SR_DIV_19:16 | R/W | 0x0 | See Register 1232 |
R1231 is shown in Table 1-617.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_SR_DIV_15:8 | R/W | 0x0 | See Register 1232 |
R1232 is shown in Table 1-618.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_SR_DIV | R/W | 0x1 | OUT12_13 SYSREF Divide Value.
ROM=Y, EEPROM=N |
R1233 is shown in Table 1-619.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_12_13_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1234 |
R1234 is shown in Table 1-620.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT12_13 SYSREF Divider Static Offset. Static offset code which delays the output of the SYSREF divider.
ROM=Y, EEPROM=N |
R1235 is shown in Table 1-621.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | OUT_12_13_PULSE_COUNT | R/W | 0x0 | OUT12_13 SYSREF Pulse Count. The number of SYSREF pulses which will be generated by a SYSREF request.
ROM=Y, EEPROM=N |
| 2 | OUT_12_13_SR_GPIO_EN | R/W | 0x0 | Enable SYSREF to digital for sysre_req and GPIO output
ROM=Y, EEPROM=N |
| 1:0 | OUT_12_13_SR_MODE | R/W | 0x0 | OUT12_13 SYSREF Mode. When this bit is set, the SYSREF operates in Continuous Mode. When cleared, the SYSREF operates in PULSE MODE.
ROM=Y, EEPROM=N 0x0 = None 0x1 = Continuous 0x2 = Pulser |
R1236 is shown in Table 1-622.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_12_13_SR_CH_DIV_BYPASS | R/W | 0x0 | OUT12_13 cascaded SYSREF bypass mux. If set, bypasses OUT12_13 channel divider for the SYSREF input clock. This is useful for minimizing the step size of the digital delay adjustments on the SYSREF clock.
ROM=Y, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
R1248 is shown in Table 1-623.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_14_HSDSBOOST | R/W | 0x0 | OUT14 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_14_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_14_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 5:4 | OUT_14_AMP | R/W | 0x0 | OUT14 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_14_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1249 is shown in Table 1-624.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_14_CONFIGURATION | R/W | 0x0 | OUT14 Configuration.
0x2 = Static DC 0x3 = CHDIV 0x4 = BYPASS |
R1250 is shown in Table 1-625.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_14_CHAN_POL_SEL | R/W | 0x0 | OUT14 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 6:5 | OUT_14_CLK_MUX | R/W | 0x0 | OUT14 Input Clock Select. Selects the input clock which will be used to drive the output.
ROM=N, EEPROM=N 0x0 = VCO3 0x1 = VCO2 0x2 = VCO1_PRI |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_14_DIV_EN | R/W | 0x1 | OUT14 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
| 2:0 | OUT_14_CH_MUX_SEL | R/W | 0x7 | OUT14 Clock Enable. Bit 2, if set, passes the selected clock (VCO3 or VCO1P), to the second stage of clock selection. Bit 1 and Bit0 enable the selected clock to drive the channel divider and the channel divider retimer respectively.
ROM=Y, EEPROM=Y 0x0 = PLL2->BYPASS 0x3 = PLL2->CHDIV 0x4 = PLL1,3->BYPASS 0x7 = PLL1,3->CHDIV |
R1251 is shown in Table 1-626.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_14_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 3 | OUT_14_SYNC_EN | R/W | 0x1 | OUT14 ChanDiv Sync Enable. Enables synchronization of chandiv dividers at startup for OUT14.
ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
R1252 is shown in Table 1-627.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_14_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1253 |
R1253 is shown in Table 1-628.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_14_CH_STATIC_OFFSET | R/W | 0x0 | OUT14 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1254 is shown in Table 1-629.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_14_CH_DIV_11:8 | R/W | 0x0 | See Register 1255 |
R1255 is shown in Table 1-630.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_14_CH_DIV | R/W | 0xA | OUT14 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |
R1280 is shown in Table 1-631.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_15_HSDSBOOST | R/W | 0x0 | OUT15 HSDS Mode Boosted Amplitude. When this bit is set to 0, OUT_15_AMP can select from 300mVpp to 600mVpp. When this bit is set to 1, OUT_15_AMP can select from 600mVpp to 900mVpp.
ROM=Y, EEPROM=Y |
| 5:4 | OUT_15_AMP | R/W | 0x0 | OUT15 Amplitude Select. Selects one of four available single-ended Vpp amplitudes for LVDS, LVPECL, and HSDS outputs.
ROM=Y, EEPROM=Y |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_15_FMT | R/W | 0x0 | Selects the output type which the multimode output driver will generate.
ROM=Y, EEPROM=Y 0x0 = DISABLED 0x1 = LVDS 0x2 = LVPECL 0x3 = HSDS |
R1281 is shown in Table 1-632.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_15_CONFIGURATION | 0x0 |
0x2 = Static DC 0x3 = CHDIV 0x4 = BYPASS |
R1282 is shown in Table 1-633.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_15_CHAN_POL_SEL | R/W | 0x0 | OUT15 ChanDiv Polarity Select. When cleared, this bit inverts the polarity of the input to the channel divider.
ROM=Y, EEPROM=N |
| 6:5 | OUT_15_CLK_MUX | R/W | 0x0 | OUT15 Input Clock Select. Selects the input clock which will be used to drive the output.
ROM=N, EEPROM=N 0x0 = VCO3 0x1 = VCO2 0x2 = VCO1_PRI |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_15_DIV_EN | R/W | 0x1 | OUT15 ChanDiv Enable. Enables the channel divider. Note: SYSREF/chandiv mode must be configured separately.
ROM=Y, EEPROM=Y |
| 2:0 | OUT_15_CH_MUX_SEL | R/W | 0x7 | OUT15 Clock Enable. Bit 2, if set, passes the selected VCO1 clock (VCO1P or VCO1S), to the second stage of clock selection. Bit 1 and Bit0 enable the selected clock to drive the channel divider and the channel divider retimer respectively.
ROM=Y, EEPROM=Y 0x0 = PLL2->BYPASS 0x3 = PLL2->CHDIV 0x4 = PLL1,3->BYPASS 0x7 = PLL1,3->CHDIV |
R1283 is shown in Table 1-634.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_15_MUTE_EN | R/W | 0x0 | Mute enable.
ROM=Y, EEPROM=N |
| 3 | OUT_15_SYNC_EN | R/W | 0x1 | OUT15 ChanDiv Sync Enable. Enables synchronization of chandiv dividers at startup for OUT15.
ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
R1284 is shown in Table 1-635.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_15_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1285 |
R1285 is shown in Table 1-636.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_15_CH_STATIC_OFFSET | R/W | 0x0 | OUT15 ChanDiv Static Offset. Static offset code which delays the output of the channel divider.
ROM=Y, EEPROM=Y |
R1286 is shown in Table 1-637.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_15_CH_DIV_11:8 | R/W | 0x0 | See Register 1287 |
R1287 is shown in Table 1-638.
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_15_CH_DIV | R/W | 0xA | OUT15 ChanDiv Divide Value.
ROM=Y, EEPROM=Y |