ZHCSM45 june   2023 DS320PR1601

PRODUCTION DATA  

  1.   1
  2. 特性
  3. 应用
  4. 说明
  5. Revision History
  6. Pin Configuration and Functions
  7. Specifications
    1. 6.1 Absolute Maximum Ratings
    2. 6.2 ESD and Latchup Ratings
    3. 6.3 Recommended Operating Conditions
    4. 6.4 Thermal Information
    5. 6.5 DC Electrical Characteristics
    6. 6.6 High Speed Electrical Characteristics
    7. 6.7 SMBUS/I2C Timing Characteristics
    8. 6.8 Typical Characteristics
    9. 6.9 Typical Jitter Characteristics
  8. Detailed Description
    1. 7.1 Overview
    2. 7.2 Functional Block Diagram
    3. 7.3 Feature Description
      1. 7.3.1 Linear Equalization
      2. 7.3.2 Flat-Gain
      3. 7.3.3 Receiver Detect State Machine
      4. 7.3.4 Five-Level Control Inputs
      5. 7.3.5 Integrated Capacitors
    4. 7.4 Device Functional Modes
      1. 7.4.1 Active PCIe Mode
      2. 7.4.2 Active Buffer Mode
      3. 7.4.3 Standby Mode
  9. Programming
    1. 8.1 Pin Configurations for Lanes
    2. 8.2 SMBUS/I2C Register Control Interface
      1. 8.2.1 Shared Registers
      2. 8.2.2 Channel Registers
    3. 8.3 SMBus/I 2 C Controller Mode Configuration (EEPROM Self Load)
  10. Application and Implementation
    1. 9.1 Application Information
    2. 9.2 Typical Applications
      1. 9.2.1 PCIe x16 Lane Configuration
        1. 9.2.1.1 Design Requirements
        2. 9.2.1.2 Detailed Design Procedure
        3. 9.2.1.3 Application Curves
    3. 9.3 Power Supply Recommendations
    4. 9.4 Layout
      1. 9.4.1 Layout Guidelines
      2. 9.4.2 Layout Example
  11. 10Device and Documentation Support
    1. 10.1 Documentation Support
      1. 10.1.1 Related Documentation
    2. 10.2 接收文档更新通知
    3. 10.3 支持资源
    4. 10.4 Trademarks
    5. 10.5 静电放电警告
    6. 10.6 术语表
  12. 11Mechanical, Packaging, and Orderable Information

封装选项

机械数据 (封装 | 引脚)
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订购信息

5 Pin Configuration and Functions

GUID-20230131-SS0I-XRKF-QBF5-VWKNZBJHSWKF-low.png Figure 5-1 ZDG Package, 354-Pin BGA (Top View 1/3)
GUID-20230131-SS0I-W4B1-HK1C-WL4V3VGDQ9XZ-low.png Figure 5-2 ZDG Package, 354-Pin BGA (Top View 2/3)
GUID-20230131-SS0I-Z4CP-55H5-J7VLFJDHZ5B9-low.png Figure 5-3 ZDG Package 354-Pin BGA Top View 3/3
Legend
Ground Power IOs, RSVD /NC Differential Input Differential Output
Table 5-1 Pin Functions
PIN TYPE DESCRIPTION
NO. NAME
A1 N/C No internal connection.
A35 N/C No internal connection.
B12 RSVD8 Reserved for future use. No internal connection.
B16 RSVD7 Reserved for future use. No internal connection.
B19 GND Ground Ground
B23 A_ADDR0_7-0 Input 5-level input strap pins, as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
B25 B_ADDR0_7-0 Input 5-level input strap pins, as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
B28 SDA Input /Output 3.3 V SMBus/I2C data IO pin SDA. External 1 kΩ to 5 kΩ pullup resistor is required as per SMBus / I2C interface standard. The device can alter between SMBus/I2C controller and target mode through exercising MODE pin.
B3 RSVD11 Reserved for future use. No internal connection.
B31 SCL Input /Output 3.3 V SMBus/I2C clock IO pin SCL. External 1 kΩ to 5 kΩ pullup resistor is required as per SMBus / I2C interface standard. The device can alter between SMBus/I2C controller and target mode through exercising MODE pin.
B6 RSVD10 Reserved for future use. No internal connection.
B9 RSVD9 Reserved for future use. No internal connection.
C2 N/C No internal connection.
C34 N/C No internal connection.
D1 N/C No internal connection.
D35 N/C No internal connection.
E11 RSVD13 Reserved for future use. No internal connection.
E14 GND Ground Ground
E18 RSVD14 Reserved for future use. No internal connection.
E27 GND Ground Ground
E30 GND Ground Ground
E33 GND Ground Ground
E8 RSVD12 Reserved for future use. No internal connection.
F2 RSVD3 Reserved for future use. No internal connection.
F34 B_ADDR1_7-0 Input 5-level input strap pins, as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
G1 A_ADDR1_7-0 Input 5-level input strap pins, as provided Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
G35 RSVD4 Reserved for future use. No internal connection.
H12 GND Ground Ground
H16 GND Ground Ground
H19 GND Ground Ground
H31 GND Ground Ground
J22 GND Ground Ground
J4 GND Ground Ground
K2 GND Ground Ground
K34 GND Ground Ground
L1 GND Ground Ground
L35 GND Ground Ground
M26 A_PETp0 Diff Output Differential transmit signal, side A, channel 0, positive
M7 B_PETn0 Diff Output Differential transmit signal, side B, channel 0, negative
N2 A_PERp0 Diff Input Differential receive signal, side A, channel 0, positive
N34 B_PERn0 Diff Input Differential receive signal, side B, channel 0, negative
P10 B_PETp0 Diff Output Differential transmit signal, side B, channel 0, positive
P29 A_PETn0 Diff Output Differential transmit signal, side A, channel 0, negative
R1 A_PERn0 Diff Input Differential receive signal, side A, channel 0, negative
R35 B_PERp0 Diff Input Differential receive signal, side B, channel 0, positive
T13 GND Ground Ground
T17 VCC1 Power 3.3 V Supply Voltage
T20 VCC1 Power 3.3 V Supply Voltage
T22 GND Ground Ground
T32 GND Ground Ground
T4 GND Ground Ground
U2 GND Ground Ground
U34 GND Ground Ground
V1 GND Ground Ground
V35 GND Ground Ground
W26 A_PETp1 Diff Output Differential transmit signal, side A, channel 1, positive
W7 B_PETn1 Diff Output Differential transmit signal, side B, channel 1, negative
Y2 A_PERp1 Diff Input Differential receive signal, side A, channel 1, positive
Y34 B_PERn1 Diff Input Differential receive signal, side B, channel 1, negative
AA10 B_PETp1 Diff Output Differential transmit signal, side B, channel 1, positive
AA29 A_PETn1 Diff Output Differential transmit signal, side B, channel 1, negative
AB1 A_PERn1 Diff Input Differential receive signal, side A, channel 1, negative
AB35 B_PERp1 Diff Input Differential receive signal, side B, channel 1, positive
AC13 GND Ground Ground
AC17 VCC1 Power 3.3 V Supply Voltage
AC20 VCC1 Power 3.3 V Supply Voltage
AC22 GND Ground Ground
AC32 GND Ground Ground
AC4 GND Ground Ground
AD2 GND Ground Ground
AD34 GND Ground Ground
AE1 GND Ground Ground
AE35 GND Ground Ground
AF26 A_PETp2 Diff Output Differential transmit signal, side A, channel 2, positive
AF7 B_PETn2 Diff Output Differential transmit signal, side B, channel 2, negative
AG2 A_PERn2 Diff Input Differential receive signal, side A, channel 2, negative
AG34 B_PERp2 Diff Input Differential receive signal, side B, channel 2, positive
AH10 B_PETp2 Diff Output Differential transmit signal, side B, channel 2, positive
AH29 A_PETn2 Diff Output Differential transmit signal, side A, channel 2, negative
AJ1 A_PERp2 Diff Input Differential receive signal, side A, channel 2, positive
AJ35 B_PERn2 Diff Input Differential receive signal, side B, channel 2, negative
AK13 GND Ground Ground
AK17 VCC1 Power 3.3 V Supply Voltage
AK20 VCC1 Power 3.3 V Supply Voltage
AK22 GND Ground Ground
AK32 GND Ground Ground
AK4 GND Ground Ground
AL2 GND Ground Ground
AL34 GND Ground Ground
AM1 GND Ground Ground
AM35 GND Ground Ground
AN26 A_PETp3 Diff Output Differential transmit signal, side A, channel 3, positive
AN7 B_PETn3 Diff Output Differential transmit signal, side B, channel 3, negative
AP2 A_PERn3 Diff Input Differential receive signal, side A, channel 3, negative
AP34 B_PERp3 Diff Input Differential receive signal, side B, channel 3, positive
AR10 B_PETp3 Diff Output Differential transmit signal, side B, channel 3, positive
AR29 A_PETn3 Diff Output Differential transmit signal, side A, channel 3, negative
AT1 A_PERp3 Diff Input Differential receive signal, side A, channel 3, positive
AT35 B_PERn3 Diff Input Differential receive signal, side B, channel 3, negative
AU13 GND Ground Ground
AU17 VCC1 Power 3.3 V Supply Voltage
AU20 VCC2 Power 3.3 V Supply Voltage
AU22 GND Ground Ground
AU32 GND Ground Ground
AU4 GND Ground Ground
AV2 GND Ground Ground
AV34 GND Ground Ground
AW1 GND Ground Ground
AW35 GND Ground Ground
AY26 A_PETp4 Diff Output Differential transmit signal, side A, channel 4, positive
AY7 B_PETn4 Diff Output Differential transmit signal, side B, channel 4, negative
BA2 A_PERp4 Diff Input Differential receive signal, side A, channel 4, positive
BA34 B_PERn4 Diff Input Differential receive signal, side B, channel 4, negative
BB10 B_PETp4 Diff Output Differential transmit signal, side B, channel 4, positive
BB29 A_PETn4 Diff Output Differential transmit signal, side A, channel 4, negative
BC1 A_PERn4 Diff Input Differential receive signal, side A, channel 4, negative
BC35 B_PERp4 Diff Input Differential receive signal, side B, channel 4, positive
BD13 GND Ground Ground
BD17 VCC2 Power 3.3 V Supply Voltage
BD20 VCC2 Power 3.3 V Supply Voltage
BD22 GND Ground Ground
BD32 GND Ground Ground
BD4 GND Ground Ground
BE2 GND Ground Ground
BE34 GND Ground Ground
BF1 GND Ground Ground
BF35 GND Ground Ground
BG26 A_PETp5 Diff Output Differential transmit signal, side A, channel 5, positive
BG7 B_PETn5 Diff Output Differential transmit signal, side B, channel 5, negative
BH2 A_PERp5 Diff Input Differential receive signal, side A, channel 5, positive
BH34 B_PERn5 Diff Input Differential receive signal, side B, channel 5, negative
BJ10 B_PETp5 Diff Output Differential transmit signal, side B, channel 5, positive
BJ29 A_PETn5 Diff Output Differential transmit signal, side A, channel 5, negative
BK1 A_PERn5 Diff Input Differential receive signal, side A, channel 5, negative
BK35 B_PERp5 Diff Input Differential receive signal, side B, channel 5, positive
BL13 GND Ground Ground
BL17 VCC2 Power 3.3 V Supply Voltage
BL20 VCC2 Power 3.3 V Supply Voltage
BL22 GND Ground Ground
BL32 GND Ground Ground
BL4 GND Ground Ground
BM2 GND Ground Ground
BM34 GND Ground Ground
BN1 GND Ground Ground
BN35 GND Ground Ground
BP26 A_PETp6 Diff Output Differential transmit signal, side A, channel 6, positive
BP7 B_PETn6 Diff Output Differential transmit signal, side B, channel 6, negative
BR2 A_PERn6 Diff Input Differential receive signal, side A, channel 6, negative
BR34 B_PERp6 Diff Input Differential receive signal, side B, channel 6, positive
BT10 B_PETp6 Diff Output Differential transmit signal, side B, channel 6, positive
BT29 A_PETn6 Diff Output Differential transmit signal, side A, channel 6, negative
BU1 A_PERp6 Diff Input Differential receive signal, side A, channel 6, positive
BU35 B_PERn6 Diff Input Differential receive signal, side B, channel 6, negative
BV13 GND Ground Ground
BV17 VCC2 Power 3.3 V Supply Voltage
BV20 VCC2 Power 3.3 V Supply Voltage
BV22 GND Ground Ground
BV32 GND Ground Ground
BV4 GND Ground Ground
BW2 GND Ground Ground
BW34 GND Ground Ground
BY1 GND Ground Ground
BY35 GND Ground Ground
CA26 A_PETp7 Diff Output Differential transmit signal, side A, channel 7, positive
CA7 B_PETn7 Diff Output Differential transmit signal, side B, channel 7, negative
CB2 A_PERn7 Diff Input Differential receive signal, side A, channel 7, negative
CB34 B_PERp7 Diff Input Differential receive signal, side B, channel 7, positive
CC10 B_PETp7 Diff Output Differential transmit signal, side B, channel 7, positive
CC29 A_PETn7 Diff Output Differential transmit signal, side A, channel 7, negative
CD1 A_PERp7 Diff Input Differential receive signal, side A, channel 7, positive
CD35 B_PERn7 Diff Input Differential receive signal, side B, channel 7, negative
CE13 GND Ground Ground
CE17 VCC2 Power 3.3 V Supply Voltage
CE20 VCC3 Power 3.3 V Supply Voltage
CE22 GND Ground Ground
CE32 GND Ground Ground
CE4 GND Ground Ground
CF2 GND Ground Ground
CF34 GND Ground Ground
CG1 GND Ground Ground
CG35 GND Ground Ground
CH26 A_PETp8 Diff Output Differential transmit signal, side A, channel 8, positive
CH7 B_PETn8 Diff Output Differential transmit signal, side B, channel 8, negative
CJ2 A_PERp8 Diff Input Differential receive signal, side A, channel 8, positive
CJ34 B_PERn8 Diff Input Differential receive signal, side B, channel 8, negative
CK10 B_PETp8 Diff Output Differential transmit signal, side B, channel 8, positive
CK29 A_PETn8 Diff Output Differential transmit signal, side A, channel 8, negative
CL1 A_PERn8 Diff Input Differential receive signal, side A, channel 8, negative
CL35 B_PERp8 Diff Input Differential receive signal, side B, channel 8, positive
CM13 GND Ground Ground
CM17 VCC3 Power 3.3 V Supply Voltage
CM20 VCC3 Power 3.3 V Supply Voltage
CM22 GND Ground Ground
CM32 GND Ground Ground
CM4 GND Ground Ground
CN2 GND Ground Ground
CN34 GND Ground Ground
CP1 GND Ground Ground
CP35 GND Ground Ground
CR26 A_PETp9 Diff Output Differential transmit signal, side A, channel 9, positive
CR7 B_PETn9 Diff Output Differential transmit signal, side B, channel 9, negative
CT2 A_PERp9 Diff Input Differential receive signal, side A, channel 9, positive
CT34 B_PERn9 Diff Input Differential receive signal, side B, channel 9, negative
CU10 B_PETp9 Diff Output Differential transmit signal, side B, channel 9, positive
CU29 A_PETn9 Diff Output Differential transmit signal, side A, channel 9, negative
CV1 A_PERn9 Diff Input Differential receive signal, side A, channel 9, negative
CV35 B_PERp9 Diff Input Differential receive signal, side B, channel 9, positive
CW13 GND Ground Ground
CW17 VCC3 Power 3.3 V Supply Voltage
CW20 VCC3 Power 3.3 V Supply Voltage
CW22 GND Ground Ground
CW32 GND Ground Ground
CW4 GND Ground Ground
CY2 GND Ground Ground
CY34 GND Ground Ground
DA1 GND Ground Ground
DA35 GND Ground Ground
DB26 A_PETp10 Diff Output Differential transmit signal, side A, channel 10, positive
DB7 B_PETn10 Diff Output Differential transmit signal, side B, channel 10, negative
DC2 A_PERn10 Diff Input Differential receive signal, side A, channel 10, negative
DC34 B_PERp10 Diff Input Differential receive signal, side B, channel 10, positive
DD10 B_PETp10 Diff Output Differential transmit signal, side B, channel 10, positive
DD29 A_PETn10 Diff Output Differential transmit signal, side A, channel 10, negative
DE1 A_PERp10 Diff Input Differential receive signal, side A, channel 10, positive
DE35 B_PERn10 Diff Input Differential receive signal, side B, channel 10, negative
DF13 GND Ground Ground
DF17 VCC3 Power 3.3 V Supply Voltage
DF20 VCC3 Power 3.3 V Supply Voltage
DF22 GND Ground Ground
DF32 GND Ground Ground
DF4 GND Ground Ground
DG2 GND Ground Ground
DG34 GND Ground Ground
DH1 GND Ground Ground
DH35 GND Ground Ground
DJ26 A_PETp11 Diff Output Differential transmit signal, side A, channel 11, positive
DJ7 B_PETn11 Diff Output Differential transmit signal, side B, channel 11, negative
DK2 A_PERn11 Diff Input Differential receive signal, side A, channel 11, negative
DK34 B_PERp11 Diff Input Differential receive signal, side B, channel 11, positive
DL10 B_PETp11 Diff Output Differential transmit signal, side B, channel 11, positive
DL29 A_PETn11 Diff Output Differential transmit signal, side A, channel 11, negative
DM1 A_PERp11 Diff Input Differential receive signal, side A, channel 11, positive
DM35 B_PERn11 Diff Input Differential receive signal, side B, channel 11, negative
DN13 GND Ground Ground
DN17 VCC3 Power 3.3 V Supply Voltage
DN20 VCC4 Power 3.3 V Supply Voltage
DN22 GND Ground Ground
DN32 GND Ground Ground
DN4 GND Ground Ground
DP2 GND Ground Ground
DP34 GND Ground Ground
DR1 GND Ground Ground
DR35 GND Ground Ground
DT26 A_PETp12 Diff Output Differential transmit signal, side A, channel 12, positive
DT7 B_PETn12 Diff Output Differential transmit signal, side B, channel 12, negative
DU2 A_PERp12 Diff Input Differential receive signal, side A, channel 12, positive
DU34 B_PERn12 Diff Input Differential receive signal, side B, channel 12, negative
DV10 B_PETp12 Diff Output Differential transmit signal, side B, channel 12, positive
DV29 A_PETn12 Diff Output Differential transmit signal, side A, channel 12, negative
DW1 A_PERn12 Diff Input Differential receive signal, side A, channel 12, negative
DW35 B_PERp12 Diff Input Differential receive signal, side B, channel 12, positive
DY13 GND Ground Ground
DY17 VCC4 Power 3.3 V Supply Voltage
DY20 VCC4 Power 3.3 V Supply Voltage
DY22 GND Ground Ground
DY32 GND Ground Ground
DY4 GND Ground Ground
EA2 GND Ground Ground
EA34 GND Ground Ground
EB1 GND Ground Ground
EB35 GND Ground Ground
EC26 A_PETp13 Diff Output Differential transmit signal, side A, channel 13, positive
EC7 B_PETn13 Diff Output Differential transmit signal, side B, channel 13, negative
ED2 A_PERp13 Diff Input Differential receive signal, side A, channel 13, positive
ED34 B_PERn13 Diff Input Differential receive signal, side B, channel 13, negative
EE10 B_PETp13 Diff Output Differential transmit signal, side B, channel 13, positive
EE29 A_PETn13 Diff Output Differential transmit signal, side A, channel 13, negative
EF1 A_PERn13 Diff Input Differential receive signal, side A, channel 13, negative
EF35 B_PERp13 Diff Input Differential receive signal, side B, channel 13, positive
EG13 GND Ground Ground
EG17 VCC4 Power 3.3 V Supply Voltage
EG20 VCC4 Power 3.3 V Supply Voltage
EG22 GND Ground Ground
EG32 GND Ground Ground
EG4 GND Ground Ground
EH2 GND Ground Ground
EH34 GND Ground Ground
EJ1 GND Ground Ground
EJ35 GND Ground Ground
EK26 A_PETp14 Diff Output Differential transmit signal, side A, channel 14, positive
EK7 B_PETn14 Diff Output Differential transmit signal, side B, channel 14, negative
EL2 A_PERn14 Diff Input Differential receive signal, side A, channel 14, negative
EL34 B_PERp14 Diff Input Differential receive signal, side B, channel 14, positive
EM10 B_PETp14 Diff Output Differential transmit signal, side B, channel 14, positive
EM29 A_PETn14 Diff Output Differential transmit signal, side A, channel 14, negative
EN1 A_PERp14 Diff Input Differential receive signal, side A, channel 14, positive
EN35 B_PERn14 Diff Input Differential receive signal, side B, channel 14, negative
EP13 GND Ground Ground
EP17 VCC4 Power 3.3 V Supply Voltage
EP20 VCC4 Power 3.3 V Supply Voltage
EP22 GND Ground Ground
EP32 GND Ground Ground
EP4 GND Ground Ground
ER2 GND Ground Ground
ER34 GND Ground Ground
ET1 GND Ground Ground
ET35 GND Ground Ground
EU26 A_PETp15 Diff Output Differential transmit signal, side A, channel 15, positive
EU7 B_PETn15 Diff Output Differential transmit signal, side B, channel 15, negative
EV2 A_PERn15 Diff Input Differential receive signal, side A, channel 15, positive
EV34 B_PERp15 Diff Input Differential receive signal, side B, channel 15, positive
EW10 B_PETp15 Diff Output Differential transmit signal, side B, channel 15, negative
EW29 A_PETn15 Diff Output Differential transmit signal, side A, channel 15, negative
EY1 A_PERp15 Diff Input Differential receive signal, side A, channel 15, positive
EY35 B_PERn15 Diff Input Differential receive signal, side B, channel 15, negative
FA15 GND Ground Ground
FA32 GND Ground Ground
FB2 GND Ground Ground
FB34 GND Ground Ground
FC19 GND Ground Ground
FC23 GND Ground Ground
FC25 GND Ground Ground
FC28 GND Ground Ground
FC3 GND Ground Ground
FC6 GND Ground Ground
FC9 GND Ground Ground
FD1 GND Ground Ground
FD35 GND Ground Ground
FE2 N/C No internal connection.
FE34 N/C No internal connection.
FF11 RSVD2 Reserved for future use. No internal connection.
FF14 GND Ground Ground
FF18 RSVD6 Reserved for future use. No internal connection.
FF21 GND Ground Ground
FF24 MODE Input

5-level input strap pin. Sets device control configuration modes. The pin can be exercised at device power up or in normal operation mode. Note the pull-down resistor values as outlined below are different than other 5-level pins of the device.

L1: SMBus/I2C controller 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 target operation is available in this mode before, during or after EEPROM reading. Note during EEPROM reading if the external SMBus/I2C controller wants to access the device registers it must support arbitration. To set the pin for L1 pull-down with 2.062 kΩ±10% resistor.

L2: SMBus/I2C target mode – device control configuration is done by an external controller with SMBus/I2C controller. To set the pin for L2 pull-down with 6.225 kΩ±10% resistor.

L0, L3 and L4: RESERVED – TI internal test modes.
FF27 ALL_DONE# Output

EEPROM loading is done. Active low 3.3 V open drain output pin. The pin can be left unconnected.

In SMBus/I2C controller 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 target: The pin is High-Z.
FF30 B_ADDR1_15-8 Input 5-level input strap pins, as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
FF33 PD_3-0 Input 3.3 V LVCMOS input. Implements device power-down or reset, as provided in Table 8-1.
FF5 A_ADDR0_15-8 Input 5-level input strap pins, as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
FF8 PD_15-12 Input 3.3 V LVCMOS input. Implements device power-down or reset, as provided in Table 8-1.
FG1 N/C No internal connection.
FG35 N/C No internal connection.
FH2 N/C No internal connection.
FH34 N/C No internal connection.
FJ12 GND Ground Ground
FJ16 RSVD5 Reserved for future use. No internal connection.
FJ19 GND Ground Ground
FJ23

RSVD1

 Input

TI internal use. Leave unconnected.

FJ25 READ_EN_# Input

Initiate EEPROM load. Active low 3.3 V LVCMOS input..

In SMBus/I2C controller mode: After device power up, when the pin is low, it initiates the EEPROM read function. Once EEPROM read is complete (indicated by ALL_DONE# asserted 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 target: In these modes the pin is not used. The pin can be left floating. The pin has internal 1-MΩ weak pull-down resistor.
FJ28 B_ADDR0_15-8 Input 5-level input strap pins, as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
FJ3 A_ADDR1_15-8 Input 5-level input strap pins as provided in Table 7-3. Sets SMBus/I2C target address, as provided in Table 8-1 and Table 8-2.
FJ31 PD_7-4 Input 3.3 V LVCMOS input. Implements device power-down or reset, as provided in Table 8-1.
FJ6 PD_11-8 Input 3.3 V LVCMOS input. Implements device power-down or reset, as provided in Table 8-1.
FJ9

RSVD0

 Input

TI internal use. Leave unconnected.