ZHCSOD8A November 2021 – May 2022 CDCDB400
PRODUCTION DATA
PIN | TYPE(2) | DESCRIPTION | |
---|---|---|---|
NAME | NO. | ||
INPUT CLOCK | |||
CLKIN_P | 3 | I | LP-HCSL differential clock input. Typically connected directly to the differential output of clock source. |
CLKIN_N | 4 | I | |
OUTPUT CLOCKS | |||
CK0_P | 13 | O | LP-HCSL differential clock output of channel 0. Typically connected directly to PCIe differential clock input. If unused, the pins can be left no connect. |
CK0_N | 14 | O | |
CK1_P | 19 | O | LP-HCSL differential clock output of channel 1. Typically connected directly to PCIe differential clock input. If unused, the pins can be left no connect. |
CK1_N | 20 | O | |
CK2_P | 22 | O | LP-HCSL differential clock output of channel 2. Typically connected directly to PCIe differential clock input. If unused, the pins can be left no connect. |
CK2_N | 23 | O | |
CK3_P | 27 | O | LP-HCSL differential clock output of channel 3. Typically connected directly to PCIe differential clock input. If unused, the pins can be left no connect. |
CK3_N | 28 | O | |
MANAGEMENT AND CONTROL(1) | |||
CKPWRGD_PD# | 1 | I, S, PD | Clock Power Good and Power Down multi-function input pin with internal 180-kΩ pulldown. Typically connected to GPIO of microcontroller. If unused, the pin can be left no connect. After PWRGD has been asserted high for the first time, the pin becomes a PD# pin and it controls power-down mode: LOW: Power-down mode, all output channels tri-stated. HIGH: Normal operation mode. |
OE0# | 15 | I, S, PD | Output Enable for channel 0 with internal 180-kΩ pulldown, active low. Typically connected to GPIO of microcontroller. If unused, the pin can be left no connect. LOW: enable output channel 0. HIGH: disable output channel 0. |
OE1# | 18 | I, S, PD | Output Enable for channel 1 with internal 180-kΩ pulldown, active low. Typically connected to GPIO of microcontroller. If unused, the pin can be left no connect. LOW: enable output channel 1. HIGH: disable output channel 1. |
OE2# | 24 | I, S, PD | Output Enable for channel 2 with internal 180-kΩ pulldown, active low. Typically connected to GPIO of microcontroller. If unused, the pin can be left no connect. LOW: enable output channel 2. HIGH: disable output channel 2. |
OE3# | 26 | I, S, PD | Output Enable for channel 3, with internal 180-kΩ pulldown, active low. Typically connected to GPIO of microcontroller. If unused, the pin can be left no connect. LOW: enable output channel 3. HIGH: disable output channel 3. |
SMBUS AND SMBUS ADDRESS | |||
SADR0 | 5 | I, S, PU / PD | SMBus address strap
bit. This is a 3-level input that is decoded in conjunction with pin
B8 to set SMBus address. It has internal 180-kΩ pullup / pulldown
network biasing to GND when no connect. For a high-level input configuration, the pin should be pulled up to 3.3-V VDD through an external pullup resistor from 1k to 5k with 5% tolerance. For a low-level input configuration input, the pin should be pulled down to ground through an external pulldown resistor from 1k to 5k with 5% tolerance. For a mid-level input configuration, the pin should be left floating and not connected to VDD or ground. |
SMBDAT | 6 | I / O | Data pin of SMBus interface. Typically pulled up to 3.3-V VDD using external pullup resistor. The recommended pullup resistor value is > 8.5k. |
SMBCLK | 7 | I | Clock pin of SMBus interface. Typically pulled up to 3.3-V VDD using external pullup resistor. The recommended pullup resistor value is > 8.5k. |
SUPPLY VOLTAGE AND GROUND | |||
VDDR | 2 | P | Power supply input for input clock receiver. Connect to 3.3-V power supply rail with decoupling capacitor to GND. Place a 0.1-µF capacitor close to each supply pin between power supply and ground. |
VDD | 12, 16, 21, 25, 29, 31 | P | 3.3-V power supply for output channels and core voltage. |
GND | DAP | G | Ground. Connect ground pad to system ground. |
NO CONNECT | |||
NC | 8, 9, 10, 11, 17, 30 | — | Do not connect pins to GND or VDD. Leave floating. |
NC | 32 | — | Pin may be connected to GND, VDD, or otherwise tied to any potential within the Supply Voltage range stated in the Absolute Maximum Ratings. |