ZHCSN27 december 2020 DS160PR810
PRODUCTION DATA
PIN | I/O, TYPE | DESCRIPTION | |
---|---|---|---|
NAME | NO. | ||
ALL_DONE_N | 31 | O, 3.3 V open drain | In SMBus/I2C Master Mode: Indicates the completion of a valid EEPROM register load operation. External pullup resistor such as 4.7 kΩ required for operation. High: External EEPROM load failed or incomplete Low: External EEPROM load successful and complete In SMBus/I2C slave/Pin Mode: This output is High-Z. The pin can be left floating. |
MODE | 61 | I, 4-level | Sets device control configuration modes. 4-level
IO pin as defined in Table 7-1. The pin can be exercised at device power up or in normal
operation mode. L0: Pin Mode – device control configuration is done solely by strap pins. L1: SMBus/I2C Master Mode - device control configuration is read from external EEPROM. When the device has finished reading from the EEPROM successfully, it will drive the ALL_DONE_N pin LOW. SMBus/I2C slave operation is available in this mode before, during or after EEPROM reading. Note during EEPROM reading if the external SMBus/I2C master wants to access the device registers it must support arbitration. L2: SMBus/I2C Slave Mode – device control configuration is done by an external controller with SMBus/I2C master. L3 (Float): RESERVED – TI internal test mode. |
EQ0_0 / ADDR0 | 59 | I, 4-level | In Pin Mode:
Sets receiver linear equalization (CTLE) for channels 0-3 according to Table 7-3. These pins are sampled at device power-up only. In SMBus/I2C Mode: Sets SMBus / I2C slave address according to Table 7-4. These pins are sampled at device power-up only. |
EQ1_0 / ADDR1 | 60 | I, 4-level | |
EQ0_1 | 27 | I, 4-level | Sets receiver linear equalization (CTLE) for channels 4-7 according to Table 7-3 in Pin mode. The pin is sampled at device power-up only. |
EQ1_1 | 29 | I, 4-level | Sets receiver linear equalization (CTLE) for channels 4-7 according to Table 7-3 in Pin mode. The pin is sampled at device power-up only. |
GAIN0 / SDA | 63 | I, 4-level / I/O, 3.3 V LVCMOS, open drain | In Pin Mode:
Flat gain (DC and AC) from the input to the output of the device for channels 0-3. The pin is sampled at device power-up only. In SMBus/I2C Mode: 3.3 V SMBus/I2C data. External 1 kΩ to 5 kΩ pullup resistor is required as per SMBus / I2C interface standard. |
GAIN1 | 28 | I, 4-level | Flat gain (DC and AC) from the input to the output of the device for channels 4-7 in Pin mode. The pin is sampled at device power-up only. |
GND | EP, 9, 12, 21, 24, 32, 41, 44, 53, 56, 64 | P | Ground reference for the device. EP: the Exposed Pad at the bottom of the QFN package. It is used as the GND return for the device. The EP should be connected to ground plane(s) through low resistance path. A via array provides a low impedance path to GND. The EP also improves thermal dissipation. |
PD0 | 25 | I, 3.3 V LVCMOS | 2-level logic controlling the operating state of
the redriver. Active in all device control modes. The pin has
internal 1-MΩ weak pulldown resistor. High: Power down for channels 0-3 Low: Power up, normal operation for channels 0-3 |
PD1 | 26 | I, 3.3 V LVCMOS | 2-level logic controlling the operating state of
the redriver. Active in all device control modes. The pin has
internal 1-MΩ weak pulldown resistor. High: Power down for channels 4-7 Low: Power up, normal operation for channels 4-7 |
READ_EN_N | 57 | I, 3.3 V LVCMOS | In SMBus/I2C Master Mode: After device power up, when the pin is low, it initiates the SMBus / I2C master mode EEPROM read function. Once EEPROM read is complete (indicated by assertion of ALL_DONE_N low), this pin can be held low for normal device operation. During the EEPROM load process the device’s signal path is disabled. In SMBus/I2C Slave and Pin Modes: In these modes the pin is not used. The pin can be left floating. The pin has internal 1-MΩ weak pulldown resistor. |
RSVD0 | 58 | — | Reserved use for TI. The pin must be left floating (NC). |
RSVD1 | 30 | — | Reserved use for TI. The pin must be left floating (NC). |
RX_DET / SCL | 62 | I, 4-level / I/O, 3.3 V LVCMOS, open drain | In Pin Mode: Sets receiver detect state machine options
according to Table 7-2. The pin is sampled at device power-up only. In SMBus/I2C Mode: 3.3V SMBus/I2C clock. External 1 kΩ to 5 kΩ pullup resistor is required as per SMBus / I2C interface standard. |
RX0N | 2 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 0. |
RX0P | 1 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 0. |
RX1N | 5 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 1. |
RX1P | 4 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 1. |
RX2N | 8 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 2. |
RX2P | 7 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 2. |
RX3N | 11 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 3. |
RX3P | 10 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 3. |
RX4N | 14 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 4. |
RX4P | 13 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 4. |
RX5N | 17 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 5. |
RX5P | 16 | I | Noninverting differential inputs to the equalizer. An on-chip, 100 Ω termination resistor connects RXP to RXN. Channel 5. |
RX6N | 20 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 6. |
RX6P | 19 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 6. |
RX7N | 23 | I | Inverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 7. |
RX7P | 22 | I | Noninverting differential inputs to the equalizer. Integrated 50 Ω termination resistor from the pin to internal CM bias voltage. Channel 7. |
TX0N | 54 | O | Inverting pin for 100 Ω differential driver output. Channel 0. |
TX0P | 55 | O | Non-inverting pin for 100 Ω differential driver output. Channel 0. |
TX1N | 51 | O | Inverting pin for 100 Ω differential driver output. Channel 1. |
TX1P | 52 | O | Non-inverting pin for 100 Ω differential driver output. Channel 1. |
TX2N | 48 | O | Inverting pin for 100 Ω differential driver output. Channel 2. |
TX2P | 49 | O | Non-inverting pin for 100 Ω differential driver output. Channel 2. |
TX3N | 45 | O | Inverting pin for 100 Ω differential driver output. Channel 3. |
TX3P | 46 | O | Non-inverting pin for 100 Ω differential driver output. Channel 3. |
TX4N | 42 | O | Inverting pin for 100 Ω differential driver output. Channel 4. |
TX4P | 43 | O | Non-inverting pin for 100 Ω differential driver output. Channel 4. |
TX5N | 39 | O | Inverting pin for 100 Ω differential driver output. Channel 5. |
TX5P | 40 | O | Non-inverting pin for 100 Ω differential driver output. Channel 5. |
TX6N | 36 | O | Inverting pin for 100 Ω differential driver output. Channel 6. |
TX6P | 37 | O | Non-inverting pin for 100 Ω differential driver output. Channel 6. |
TX7N | 33 | O | Inverting pin for 100 Ω differential driver output. Channel 7. |
TX7P | 34 | O | Non-inverting pin for 100 Ω differential driver output. Channel 7. |
VCC | 6, 18, 38, 50 | P | Power supply pins. VCC = 3.3 V ±10%. The VCC pins on this device should be connected through a low-resistance path to the board VCC plane. |
VREG1 | 3, 47 | P | Internal voltage regulator output. Must add decoupling caps of 0.1 µF near each pins. The regulator is only for internal use. Do not use to provide power to any external component. Do not connect to VREG2. |
VREG2 | 15, 35 | P | Internal voltage regulator output. Must add decoupling caps of 0.1 µF near each pins. The regulator is only for internal use. Do not use to provide power to any external component. Do not connect to VREG1. |