SPRZ536A september   2022  – june 2023 AM69 , AM69A , TDA4AH-Q1 , TDA4AP-Q1 , TDA4VH-Q1 , TDA4VP-Q1

 

  1.   1
  2. 1Modules Affected
  3. 2Nomenclature, Package Symbolization, and Revision Identification
    1. 2.1 Device and Development-Support Tool Nomenclature
    2. 2.2 Devices Supported
    3. 2.3 Package Symbolization and Revision Identification
  4. 3Silicon Revision 1.0 Usage Notes and Advisories
    1. 3.1 Silicon Revision 1.0 Usage Notes
      1.      i2134
    2. 3.2 Silicon Revision 1.0 Advisories
      1.      i2049
      2.      i2062
      3.      i2063
      4.      i2064
      5.      i2065
      6.      i2079
      7.      i2097
      8.      i2102
      9.      i2120
      10.      i2134
      11.      i2137
      12.      i2146
      13.      i2157
      14.      i2159
      15.      i2160
      16.      i2161
      17.      i2163
      18.      i2166
      19.      i2177
      20.      i2189
      21.      i2190
      22.      i2196
      23.      i2197
      24.      i2205
      25.      i2215
      26.      i2216
      27.      i2219
      28.      i2232
      29.      i2234
      30.      i2242
      31.      i2244
      32.      i2245
      33.      i2249
      34.      i2253
      35.      i2271
      36.      i2272
      37.      i2278
      38.      i2279
      39.      i2310
      40.      i2311
      41.      i2312
      42.      i2320
      43.      i2326
      44.      i2351
      45.      i2362
      46.      i2366
      47.      i2371
      48.      i2372
      49.      i2378
      50.      i2381
      51.      i2383
  5.   Trademarks
  6.   Revision History

i2189

OSPI: Controller PHY Tuning Algorithm

Details:

The OSPI controller uses a DQS signal to sample data when the PHY Module is enabled. However, there is an issue in the module which requires that this sample must occur within a window defined by the internal clock. Read operations are subject to external delays, which change with temperature. In order to guarantee valid reads at any temperature, a special tuning algorithm must be implemented which selects the most robust TX, RX, and Read Delay values.

Workaround(s):

The workaround for this bug is described in detail in the application note spract2 (link: https://www.ti.com/lit/spract2). To sample data under some PVT conditions, it is necessary to increment the Read Delay field to shift the internal clock sampling window. This allows sampling of the data anywhere within the data eye. However, this has these side effects:

  1. PHY Pipeline mode must be enabled for all read operations. Because PHY Pipeline mode must be disabled for writes, reads and writes must be handled separately.
  2. Hardware polling of the busy bit is broken when the workaround is in place, so SW polling must be used instead. Writes must occur through DMA accesses, within page boundaries, to prevent interruption from either the host or the flash device. Software must poll the busy bit between page writes. Alternatively, writes can be performed in non-PHY mode with hardware polling enabled.
  3. STIG reads must be padded with extra bytes, and the received data must be right-shifted.