ZHCSMQ8E june 2006 – october 2020 SN65LVDS302
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP(1) | MAX | UNIT | |||
---|---|---|---|---|---|---|---|---|
IDD | RMS supply current | 1ChM | Alternating 1010 Test pattern (see Table 7-5). All CMOS outputs terminated with 10 pF, F/S and RXEN at VDD. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | fPCLK = 4 MHz | 9.8 | 14 | mA | |
fPCLK = 6 MHz | 11.7 | 15.9 | ||||||
fPCLK = 15 MHz | 19.3 | 25 | ||||||
Typical power test pattern (see Table 7-2). VID = 70 mV. All CMOS outputs terminated with 10 pF, F/S at GND, and RXEN at VDD. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | fPCLK = 4 MHz | 4.7 | mA | |||||
fPCLK = 6 MHz | 6 | |||||||
fPCLK = 15 MHz | 13.2 | |||||||
2ChM | Alternating 1010 Test pattern (see Table 7-5). All CMOS outputs terminated with 10 pF, F/S and RXEN at VDD. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | fPCLK = 8 MHz | 14.3 | 19.4 | mA | |||
fPCLK = 22 MHz | 25 | 33 | ||||||
fPCLK = 30 MHz | 26.8 | 37 | ||||||
Typical power test pattern (see Table 7-3). VID = 70 mV. All CMOS outputs terminated with 10 pF, F/S at GND, and RXEN at VDD. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | fPCLK = 8 MHz | 6.4 | mA | |||||
fPCLK = 22 MHz | 13.7 | |||||||
fPCLK = 30 MHz | 18.3 | |||||||
3ChM | Alternating 1010 Test pattern (see Table 7-5). All CMOS outputs terminated with 10 pF, F/S and RXEN at VDD. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | fPCLK = 20 MHz | 17.1 | 27 | mA | |||
fPCLK = 65 MHz | 60.8 | 68 | ||||||
Typical power test pattern (see Table 7-4). VID = 70 mV. All CMOS outputs terminated with 10 pF, F/S at GND, and RXEN at VDD. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | fPCLK = 20 MHz | 8.6 | mA | |||||
fPCLK = 65 MHz | 22.2 | |||||||
CLK and D[0:2] inputs are left open. All control inputs held static high or low. All CMOS outputs terminated with 10 pF. VIH = VDD, VIL = 0 V, VDD = VDDPLLA = VDDPLLD = VDDLVDS | Standby mode; RXEN = VIH | 15 | 100 | μA | ||||
Shutdown mode; RXEN = VIL | 0.4 | 10 | μA |