ZHCSG75E April   2017  – April 2018 TUSB544

PRODUCTION DATA.  

  1. 特性
  2. 应用
  3. 说明
    1.     Device Images
      1.      简化原理图
  4. 修订历史记录
  5. Pin Configuration and Functions
    1.     Pin Functions
  6. Specifications
    1. 6.1  Absolute Maximum Ratings
    2. 6.2  ESD Ratings
    3. 6.3  Recommended Operating Conditions
    4. 6.4  Thermal Information
    5. 6.5  Power Supply Characteristics
    6. 6.6  DC Electrical Characteristics
    7. 6.7  AC Electrical Characteristics
    8. 6.8  Timing Requirements
    9. 6.9  Switching Characteristics
    10. 6.10 Typical Characteristics
  7. Detailed Description
    1. 7.1 Overview
    2. 7.2 Functional Block Diagram
    3. 7.3 Feature Description
      1. 7.3.1 USB 3.1
      2. 7.3.2 DisplayPort
      3. 7.3.3 4-Level Inputs
      4. 7.3.4 Receiver Linear Equalization
    4. 7.4 Device Functional Modes
      1. 7.4.1 Device Configuration in GPIO Mode
      2. 7.4.2 Device Configuration in I2C Mode
      3. 7.4.3 DisplayPort Mode
      4. 7.4.4 Custom Alternate Mode
      5. 7.4.5 Linear EQ Configuration
      6. 7.4.6 Adjustable VOD Linear Range and DC Gain
      7. 7.4.7 USB3.1 modes
      8. 7.4.8 Operation Timing – Power Up
    5. 7.5 Programming
      1. 7.5.1 The Following Procedure Should be Followed to Write to TUSB544 I2C Registers:
      2. 7.5.2 The Following Procedure Should be Followed to Read the TUSB544 I2C Registers:
      3. 7.5.3 The Following Procedure Should be Followed for Setting a Starting Sub-Address for I2C Reads:
    6. 7.6 Register Maps
      1. 7.6.1 TUSB544 Registers
        1. 7.6.1.1  GENERAL_4 Register (Offset = Ah) [reset = 1h]
          1. Table 13. GENERAL_4 Register Field Descriptions
        2. 7.6.1.2  GENERAL_5 Register (Offset = Bh) [reset = 0h]
          1. Table 14. GENERAL_5 Register Field Descriptions
        3. 7.6.1.3  GENERAL_6 Register (Offset = Ch) [reset = 0h]
          1. Table 15. GENERAL_6 Register Field Descriptions
        4. 7.6.1.4  DISPLAYPORT_1 Register (Offset = 10h) [reset = 0h]
          1. Table 16. DISPLAYPORT Register Field Descriptions
        5. 7.6.1.5  DISPLAYPORT_2 Register (Offset = 11h) [reset = 0h]
          1. Table 17. DISPLAYPORT_2 Register Field Descriptions
        6. 7.6.1.6  DISPLAYPORT_3 Register (Offset = 12h) [reset = 0h]
          1. Table 18. DISPLAYPORT_3 Register Field Descriptions
        7. 7.6.1.7  DISPLAYPORT_4 Register (Offset = 13h) [reset = 0h]
          1. Table 19. DISPLAYPORT_4 Register Field Descriptions
        8. 7.6.1.8  DISPLAYPORT_5 Register (Offset = 1Bh) [reset = 0h]
          1. Table 20. DISPLAYPORT_5 Register Field Descriptions
        9. 7.6.1.9  USB3.1_1 Register (Offset = 20h) [reset = 0h]
          1. Table 21. USB3.1 Register Field Descriptions
        10. 7.6.1.10 USB3.1_2 Register (Offset = 21h) [reset = 0h]
          1. Table 22. USB3.1_2 Register Field Descriptions
        11. 7.6.1.11 USB3.1_3 Register (Offset = 22h) [reset = 0h]
          1. Table 23. USB3.1_3 Register Field Descriptions
        12. 7.6.1.12 USB3.1_4 Register (Offset = 23h) [reset = 23h]
          1. Table 24. USB3.1_4 Register Field Descriptions
  8. Application and Implementation
    1. 8.1 Application Information
    2. 8.2 Typical Application
      1. 8.2.1 Design Requirements
      2. 8.2.2 Detailed Design Procedure
      3. 8.2.3 Application Curve
    3. 8.3 System Examples
      1. 8.3.1 USB 3.1 only (USB/DP Alternate Mode)
      2. 8.3.2 USB3.1 and 2 lanes of DisplayPort
      3. 8.3.3 DisplayPort Only
      4. 8.3.4 USB 3.1 only (USB/Custom Alternate Mode)
      5. 8.3.5 USB3.1 and 1 Lane of Custom Alt Mode
      6. 8.3.6 USB3.1 and 2 Lane of Custom Alt Mode
      7. 8.3.7 USB3.1 and 4 Lane of Custom Alt Mode
  9. Power Supply Recommendations
  10. 10Layout
    1. 10.1 Layout Guidelines
    2. 10.2 Layout Example
  11. 11器件和文档支持
    1. 11.1 文档支持
      1. 11.1.1 相关文档
    2. 11.2 接收文档更新通知
    3. 11.3 社区资源
    4. 11.4 商标
    5. 11.5 静电放电警告
    6. 11.6 术语表
  12. 12机械、封装和可订购信息

封装选项

机械数据 (封装 | 引脚)
散热焊盘机械数据 (封装 | 引脚)
订购信息

Device Configuration in GPIO Mode

The TUSB544 is in GPIO configuration when I2C_EN = “0” or "F". The TUSB544 supports operational combinations with USB and two different Type-C Alternate Modes.. One combination includes USB and Alternate Mode DisplayPort, and the other combination includes USB and custom Alternate Mode. For each operational combination the data path directions can be further set using the DIR[1:0] pins or through I2C to enable the device to operate in the source or sink sides. Please refer to Table 2 for all the configuration of all the operational modes.

When the device is set to operate in a USB and Alternate Mode DisplayPort the following configurations can be further set: USB3.1 only, 2 DisplayPort lanes + USB3.1, or 4 DisplayPort lanes (no USB3.1). The CTL1 pin controls whether DisplayPort is enabled. The combination of CTL1 and CTL0 selects between USB3.1 only, 2 lanes of DisplayPort, or 4-lanes of DisplayPort as detailed in Table 2. The AUXP/N to SBU1/2 mapping is controlled based on Table 3..

When the device is set to operate in a USB and custom Alternate Mode the following configurations can be further set: USB3.1 only, 2 Channels of custom Alternate Mode + USB3.1, or 4 Channels of custom Alternate Mode (no USB3.1). The CTL1 pin controls whether custom Alternate Mode is enabled. The combination of CTL1 and CTL0 selects between USB3.1 only, 2 channels of custom Alternate Mode, or 4 channels of custom Alternate Mode as detailed in Table 2. The AUXP/N to SBU1/2 mapping is controlled based on Table 3.

Further data path direction control can be achieved using the SWAP pin. When set high, the SWAP pin reverses the data path direction on all the channels and swaps the equalization settings of the upstream and downstream facing input ports. This pin may be found useful in active cable application with TUSB544 installed on only one end. The SWAP pin can be set based on which cable end is plugged to the source or sink side receptacle

After power-up (VCC from 0 V to 3.3 V), the TUSB544 will default to USB3.1 mode. The USB PD controller, upon detecting no device attached to Type-C port or USB3.1 operation not required by attached device, must take TUSB544 out of USB3.1 mode by transitioning the CTL0 pin from L to H and back to L.

Table 2. GPIO Configuration Control

DIR1
PIN
DIR0
PIN
CTL1
PIN
CTL0
PIN
FLIP
PIN
TUSB544 CONFIGURATION VESA DisplayPort ALT MODE
DFP_D Configuration
USB + DisplayPort Alternate Mode (Source Side)
L L L L L Power Down
L L L L H Power Down
L L L H L One Port USB 3.1 - No Flip
L L L H H One Port USB 3.1 – With Flip
L L H L L 4 Lane DP - No Flip C and E
L L H L H 4 Lane DP – with Flip C and E
L L H H L One Port USB 3.1 + 2 Lane DP- No Flip D and F
L L H H H One Port USB 3.1 + 2 Lane DP– with Flip D and F
USB + DisplayPort Alternate Mode (Sink Side)
L H L L L Power Down
L H L L H Power Down
L H L H L One Port USB 3.1 - No Flip
L H L H H One Port USB 3.1 – With Flip
L H H L L 4 Lane DP - No Flip C and E
L H H L H 4 Lane DP – With Flip C and E
L H H H L One Port USB 3.1 + 2 Lane DP- No Flip D and F
L H H H H One Port USB 3.1 + 2 Lane DP– With Flip D and F
USB + Custom Alternate Mode (Source Side)
H L L L L Power Down
H L L L H Power Down
H L L H L One Port USB 3.1 - No Flip
H L L H H One Port USB 3.1 – With Flip
H L H L L 4 Channel Custom Alt Mode - No Flip
H L H L H 4 Channel Custom Alt Mode– With Flip
H L H H L One Port USB 3.1 + 2 Channel
Custom Alt Mode- No Flip
H L H H H One Port USB 3.1 + 2 Channel
Custom Alt Mode – With Flip
USB + Custom Alternate Mode (Sink Side)
H H L L L Power Down -
H H L L H Power Down -
H H L H L One Port USB 3.1 - No Flip -
H H L H H One Port USB 3.1 – With Flip -
H H H L L 4 Channel Custom Alt Mode - No Flip -
H H H L H 4 Channel Custom Alt Mode– With Flip -
H H H H L One Port USB 3.1 + 2 Channel
Custom Alt Mode- No Flip
-
H H H H H One Port USB 3.1 + 2 Channel
Custom Alt Mode – With Flip
-

Table 3. GPIO AUXP/N to SBU1/2 Mapping

CTL1 pin FLIP pin Mapping
H L AUXP -> SBU1
AUXN -> SBU2
H H AUXP -> SBU2
AUXN -> SBU1
L > 2ms X Open

details the TUSB544 mux routing. This table is valid for GPIO mode. This table is also valid for I2C mode for the case where CH_SWAP_SEL = 4'b0000 or 4'b1111.

Table 4. INPUT to OUTPUT Mapping

SWAP = L SWAP = H
From From To From From To
DIR1
PIN
DIR0
PIN
CTL1
PIN
CTL0
PIN
FLIP
PIN
Rx EQ Control
PINS
Input
PIN
Output
PIN
Rx EQ Control
PINS
Input
PIN
Output
PIN
USB + DisplayPort Alternate Mode (Source Side)
L L L L L NA NA NA NA NA NA
L L L L H NA NA NA NA NA NA
L L L H L DEQ[1:0] DRX1P URX1P (SSRXP) DEQ[1:0] URX1P (SSTXP) DRX1P
DEQ[1:0] DRX1N URX1N (SSRXN) DEQ[1:0] URX1N (SSTXN) DRX1N
UEQ[1:0] UTX1P (SSTXP) DTX1P UEQ[1:0] DTX1P UTX1P (SSRXP)
UEQ[1:0] UTX1N (SSTXN) DTX1N UEQ[1:0] DTX1N UTX1N (SSRXN)
L L L H H DEQ[1:0] DRX2P URX2P (SSRXP) DEQ[1:0] URX2P (SSTXP) DRX2P
DEQ[1:0] DRX2N URX2N (SSRXN) DEQ[1:0] URX2N (SSTXN) DRX2N
UEQ[1:0] UTX2P (SSTXP) DTX2P UEQ[1:0] DTX2P UTX2P (SSRXP)
UEQ[1:0] UTX2N (SSTXN) DTX2N UEQ[1:0] DTX2N UTX2N (SSRXN)
L L H L L UEQ[1:0] URX2P (DP0P) DRX2P UEQ[1:0] DRX2P URX2P (DP0P)
UEQ[1:0] URX2N (DP0N) DRX2N UEQ[1:0] DRX2N URX2N (DP0N)
UEQ[1:0] UTX2P (DP1P) DTX2P UEQ[1:0] DTX2P UTX2P (DP1P)
UEQ[1:0] UTX2N (DP1N) DTX2N UEQ[1:0] DTX2N UTX2N (DP1N)
UEQ[1:0] UTX1P (DP2P) DTX1P UEQ[1:0] DTX1P UTX1P (DP2P)
UEQ[1:0] UTX1N (DP2N) DTX1N UEQ[1:0] DTX1N UTX1N (DP2N)
UEQ[1:0] URX1P (DP3P) DRX1P UEQ[1:0] DRX1P URX1P (DP3P)
UEQ[1:0] URX1N (DP3N) DRX1N UEQ[1:0] DRX1N URX1N (DP3N)
L L H L H UEQ[1:0] URX1P (DP0P) DRX1P UEQ[1:0] DRX1P URX1P (DP0P)
UEQ[1:0] URX1N (DP0N) DRX1N UEQ[1:0] DRX1N URX1N (DP0N)
UEQ[1:0] UTX1P (DP1P) DTX1P UEQ[1:0] DTX1P UTX1P (DP1P)
UEQ[1:0] UTX1N (DP1N) DTX1N UEQ[1:0] DTX1N UTX1N (DP1N)
UEQ[1:0] UTX2P (DP2P) DTX2P UEQ[1:0] DTX2P UTX2P (DP2P)
UEQ[1:0] UTX2N (DP2N) DTX2N UEQ[1:0] DTX2N UTX2N (DP2N)
UEQ[1:0] URX2P (DP3P) DRX2P UEQ[1:0] DRX2P URX2P (DP3P)
UEQ[1:0] URX2N (DP3N) DRX2N UEQ[1:0] DRX2N URX2N (DP3N)
L L H H L DEQ[1:0] DRX1P URX1P (SSRXP) DEQ[1:0] URX1P (SSTXP) DRX1P
DEQ[1:0] DRX1N URX1N (SSRXN) DEQ[1:0] URX1N (SSTXN) DRX1N
UEQ[1:0] UTX1P (SSTXP) DTX1P UEQ[1:0] DTX1P UTX1P (SSRXP)
UEQ[1:0] UTX1N (SSTXN) DTX1N UEQ[1:0] DTX1N UTX1N (SSRXN)
UEQ[1:0] URX2P (DP0P) DRX2P UEQ[1:0] DRX2P URX2P (DP0P)
UEQ[1:0] URX2N (DP0N) DRX2N UEQ[1:0] DRX2N URX2N (DP0N)
UEQ[1:0] UTX2P (DP1P) DTX2P UEQ[1:0] DTX2P UTX2P (DP1P)
UEQ[1:0] UTX2N (DP1N) DTX2N UEQ[1:0] DTX2N UTX2N (DP1N)
L L H H H DEQ[1:0] DRX2P URX2P (SSRXP) DEQ[1:0] URX2P (SSTXP) DRX2P
DEQ[1:0] DRX2N URX2N (SSRXN) DEQ[1:0] URX2N (SSTXN) DRX2N
UEQ[1:0] UTX2P (SSTXP) DTX2P UEQ[1:0] DTX2P UTX2P (SSRXP)
UEQ[1:0] UTX2N (SSTXN) DTX2N UEQ[1:0] DTX2N UTX2N (SSRXN)
UEQ[1:0] URX1P (DP0P) DRX1P UEQ[1:0] DRX1P URX1P (DP0P)
UEQ[1:0] URX1N (DP0N) DRX1N UEQ[1:0] DRX1N URX1N (DP0N)
UEQ[1:0] UTX1P (DP1P) DTX1P UEQ[1:0] DTX1P UTX1P (DP1P)
UEQ[1:0] UTX1N (DP1N) DTX1N UEQ[1:0] DTX1N UTX1N (DP1N)
USB + DisplayPort Alternate Mode (Sink Side)
L H L L L NA NA NA NA NA NA
L H L L H NA NA NA NA NA NA
L H L H L UEQ[1:0] UTX2P DTX2P (SSRXP) UEQ[1:0] DTX2P (SSTXP) UTX2P
UEQ[1:0] UTX2N DTX2N (SSRXN) UEQ[1:0] DTX2N (SSTXN) UTX2N
DEQ[1:0] DRX2P (SSTXP) URX2P DEQ[1:0] URX2P DRX2P (SSRXP)
DEQ[1:0] DRX2N (SSTXN) URX2N DEQ[1:0] URX2N DRX2N (SSRXN)
L H L H H UEQ[1:0] UTX1P DTX1P (SSRXP) UEQ[1:0] DTX1P (SSTXP) UTX1P
UEQ[1:0] UTX1N DTX1N (SSRXN) UEQ[1:0] DTX1N (SSTXN) UTX1N
DEQ[1:0] DRX1P (SSTXP) URX1P DEQ[1:0] URX1P DRX1P (SSRXP)
DEQ[1:0] DRX1N (SSTXN) URX1N DEQ[1:0] URX1N DRX1N (SSRXN)
L H H L L UEQ[1:0] URX2P DRX2P (DP3P) UEQ[1:0] DRX2P (DP3P) URX2P
UEQ[1:0] URX2N DRX2N (DP3N) UEQ[1:0] DRX2N (DP3N) URX2N
UEQ[1:0] UTX2P DTX2P (DP2P) UEQ[1:0] DTX2P (DP2P) UTX2P
UEQ[1:0] UTX2N DTX2N (DP2N) UEQ[1:0] DTX2N (DP2N) UTX2N
UEQ[1:0] UTX1P DTX1P (DP1P) UEQ[1:0] DTX1P (DP1P) UTX1P
UEQ[1:0] UTX1N DTX1N (DP1N) UEQ[1:0] DTX1N (DP1N) UTX1N
UEQ[1:0] URX1P DRX1P (DP0P) UEQ[1:0] DRX1P (DP0P) URX1P
UEQ[1:0] URX1P DRX1N (DP0P) UEQ[1:0] DRX1N (DP0N) URX1N
L H H L H UEQ[1:0] URX1P DRX1P (DP3P) UEQ[1:0] DRX1P (DP3P) URX1P
UEQ[1:0] URX1N DRX1N (DP3N) UEQ[1:0] DRX1N (DP3N) URX1N
UEQ[1:0] UTX1P DTX1P (DP2P) UEQ[1:0] DTX1P (DP2P) UTX1P
UEQ[1:0] UTX1N DTX1N (DP2N) UEQ[1:0] DTX1N (DP2N) UTX1N
UEQ[1:0] UTX2P DTX2P (DP1P) UEQ[1:0] DTX2P (DP1P) UTX2P
UEQ[1:0] UTX2N DTX2N (DP1N) UEQ[1:0] DTX2N (DP1N) UTX2N
UEQ[1:0] URX2P DRX2P (DP0P) UEQ[1:0] DRX2P (DP0P) URX2P
UEQ[1:0] URX2N DRX2N (DP0N) UEQ[1:0] DRX2N (DP0N) URX2N
L H H H L DEQ[1:0] DRX2P (SSRXP) URX2P DEQ[1:0] URX2P DRX2P (SSRXP)
DEQ[1:0] DRX2N (SSRXN) URX2N DEQ[1:0] URX2N DRX2N (SSRXN)
UEQ[1:0] UTX2P DTX2P (SSTXP) UEQ[1:0] DTX2P (SSTXP) UTX2P
UEQ[1:0] UTX2N DTX2N (SSTXN) UEQ[1:0] DTX2N (SSTXN) UTX2N
UEQ[1:0] URX1P DRX1P (DP0P) UEQ[1:0] DRX1P (DP0P) URX1P
UEQ[1:0] URX1N DRX1N (DP0N) UEQ[1:0] DRX1N (DP0N) URX1N
UEQ[1:0] UTX1P DTX1P (DP1P) UEQ[1:0] DTX1P (DP1P) UTX1P
UEQ[1:0] UTX1N DTX1N (DP1N) UEQ[1:0] DTX1N (DP1N) UTX1N
L H H H H DEQ[1:0] DRX1P (SSRXP) URX1P DEQ[1:0] URX1P DRX1P (SSRXP)
DEQ[1:0] DRX1N (SSRXN) URX1N DEQ[1:0] URX1N DRX1N (SSRXN)
UEQ[1:0] UTX1P DTX1P (SSTXP) UEQ[1:0] DTX1P (SSTXP) UTX1P
UEQ[1:0] UTX1N DTX1N (SSTXN) UEQ[1:0] DTX1N (SSTXN) UTX1N
UEQ[1:0] URX2P DRX2P (DP0P) UEQ[1:0] DRX2P (DP0P) URX2P
UEQ[1:0] URX2N DRX2N (DP0N) UEQ[1:0] DRX2N (DP0N) URX2N
UEQ[1:0] UTX2P DTX2P (DP1P) UEQ[1:0] DTX2P (DP1P) UTX2P
UEQ[1:0] UTX2N DTX2N (DP1N) UEQ[1:0] DTX2N (DP1N) UTX2N
USB + Custom Alternate Mode (Source Side)
H L L L L NA NA NA NA NA NA
H L L L H NA NA NA NA NA NA
H L L H L DEQ[1:0] DRX1P URX1P (SSRXP) DEQ[1:0] URX1P (SSTXP) DRX1P
DEQ[1:0] DRX1N URX1N (SSRXN) DEQ[1:0] URX1N (SSTXN) DRX1N
UEQ[1:0] UTX1P (SSTXP) DTX1P UEQ[1:0] DTX1P UTX1P (SSRXP)
UEQ[1:0] UTX1N (SSTXN) DTX1N UEQ[1:0] DTX1N UTX1N (SSRXN)
H L L H H DEQ[1:0] DRX2P URX2P (SSRXP) DEQ[1:0] URX2P (SSTXP) DRX2P
DEQ[1:0] DRX2N URX2N (SSRXN) DEQ[1:0] URX2N (SSTXN) DRX2N
UEQ[1:0] UTX2P (SSTXP) DTX2P UEQ[1:0] DTX2P UTX2P (SSRXP)
UEQ[1:0] UTX2N (SSTXN) DTX2N UEQ[1:0] DTX2N UTX2N (SSRXN)
H L H L L DEQ[1:0] DRX2P URX2P (LN1RXP) DEQ[1:0] URX2P (LN1RXP) DRX2P
DEQ[1:0] DRX2N URX2N (LN1RXN) DEQ[1:0] URX2N (LN1RXN) DRX2N
UEQ[1:0] UTX2P (LN1TXP) DTX2P UEQ[1:0] DTX2P UTX2P (LN1TXP)
UEQ[1:0] UTX2N (LN1TXN) DTX2N UEQ[1:0] DTX2N UTX2N (LN1TXN)
UEQ[1:0] UTX1P (LN0TXP) DTX1P UEQ[1:0] DTX1P UTX1P (LN0TXP)
UEQ[1:0] UTX1N (LN0TXN) DTX1N UEQ[1:0] DTX1N UTX1N (LN0TXN)
DEQ[1:0] DRX1P URX1P (LN0RXP) DEQ[1:0] URX1P (LN0RXP) DRX1P
DEQ[1:0] DRX1N URX1N (LN0RXN) DEQ[1:0] URX1N (LN0RXN) DRX1N
H L H L H DEQ[1:0] DRX1P URX1P (LN1RXP) DEQ[1:0] URX1P (LN1RXP) DRX1P
DEQ[1:0] DRX1N URX1N (LN1RXN) DEQ[1:0] URX1N (LN1RXN) DRX1N
UEQ[1:0] UTX1P (LN1TXP) DTX1P UEQ[1:0] DTX1P UTX1P (LN1TXP)
UEQ[1:0] UTX1N (LN1TXN) DTX1N UEQ[1:0] DTX1N UTX1N (LN1TXN)
UEQ[1:0] UTX2P (LN0TXP) DTX2P UEQ[1:0] DTX2P UTX2P (LN0TXP)
UEQ[1:0] UTX2N (LN0TXN) DTX2N UEQ[1:0] DTX2N UTX2N (LN0TXN)
H L H H L DEQ[1:0] DRX2P URX2P (LN0RXP) DEQ[1:0] URX2P (LN0RXP) DRX2P
DEQ[1:0] DRX2N URX2N (LN0RXN) DEQ[1:0] URX2N (LN0RXN) DRX2N
DEQ[1:0] DRX1P URX1P (SSRXP) DEQ[1:0] URX1P (SSTXP) DRX1P
DEQ[1:0] DRX1N URX1N (SSRXN) DEQ[1:0] URX1N (SSTXN) DRX1N
UEQ[1:0] UTX1P (SSTXP) DTX1P UEQ[1:0] DTX1P UTX1P (SSRXP)
UEQ[1:0] UTX1N (SSTXN) DTX1N UEQ[1:0] DTX1N UTX1N (SSRXN)
UEQ[1:0] UTX2P (LN0TXP) DTX2P UEQ[1:0] DTX2P UTX2P (LN0TXP)
UEQ[1:0] UTX2N (LN0TXN) DTX2N UEQ[1:0] DTX2N UTX2N (LN0TXN)
DEQ[1:0] DRX2P URX2P (LN0RXP) DEQ[1:0] URX2P (LN0RXP) DRX2P
DEQ[1:0] DRX2N URX2N (LN0RXN) DEQ[1:0] URX2N (LN0RXN) DRX2N
H L H H H DEQ[1:0] DRX2P URX2P (SSRXP) DEQ[1:0] URX2P (SSTXP) DRX2P
DEQ[1:0] DRX2N URX2N (SSRXN) DEQ[1:0] URX2N (SSTXN) DRX2N
UEQ[1:0] UTX2P (SSTXP) DTX2P UEQ[1:0] DTX2P UTX2P (SSRXP)
UEQ[1:0] UTX2N (SSTXN) DTX2N UEQ[1:0] DTX2N UTX2N (SSRXN)
UEQ[1:0] UTX1P (LN0TXP) DTX1P UEQ[1:0] DTX1P UTX1P (LN0TXP)
UEQ[1:0] UTX1N (LN0TXN) DTX1N UEQ[1:0] DTX1N UTX1N (LN0TXN)
DEQ[1:0] DRX1P URX1P (LN0RXP) DEQ[1:0] URX1P (LN0RXP) DRX1P
DEQ[1:0] DRX1N URX1N (LN0RXN) DEQ[1:0] URX1N (LN0RXN) DRX1N
USB + Custom Alternate Mode (Sink Side)
H H L L L NA NA NA NA NA NA
H H L L H NA NA NA NA NA NA
H H L H L UEQ[1:0] UTX2P DTX2P (SSRXP) UEQ[1:0] DTX2P (SSTXP) UTX2P
UEQ[1:0] UTX2N DTX2N (SSRXN) UEQ[1:0] DTX2N (SSTXN) UTX2N
DEQ[1:0] DRX2P (SSTXP) URX2P DEQ[1:0] URX2P DRX2P (SSRXP)
DEQ[1:0] DRX2N (SSTXN) URX2N DEQ[1:0] URX2N DRX2N (SSRXN)
H H L H H UEQ[1:0] UTX1P DTX1P (SSRXP) UEQ[1:0] DTX1P (SSTXP) UTX1P
UEQ[1:0] UTX1N DTX1N (SSRXN) UEQ[1:0] DTX1N (SSTXN) UTX1N
DEQ[1:0] DRX1P (SSTXP) URX1P DEQ[1:0] URX1P DRX1P (SSRXP)
DEQ[1:0] DRX1N (SSTXN) URX1N DEQ[1:0] URX1N DRX1N (SSRXN)
H H H L L DEQ[1:0] DRX2P URX2P (LN1TXP) DEQ[1:0] URX2P (LN1TXP) DRX2P
DEQ[1:0] DRX2N URX2N (LN1TXN) DEQ[1:0] URX2N (LN1TXN) DRX2N
UEQ[1:0] UTX2P (LN1RXP) DTX2P UEQ[1:0] DTX2P UTX2P (LN1RXP)
UEQ[1:0] UTX2N (LN1RXN) DTX2N UEQ[1:0] DTX2N UTX2N (LN1RXN)
UEQ[1:0] UTX1P (LN0RXP) DTX1P UEQ[1:0] DTX1P UTX1P (LN0RXP)
UEQ[1:0] UTX1N (LN0RXN) DTX1N UEQ[1:0] DTX1N UTX1N (LN0RXN)
DEQ[1:0] DRX1P URX1P (LN0RXP) DEQ[1:0] URX1P (LN0RXP) DRX1P
DEQ[1:0] DRX1N URX1N (LN0RXN) DEQ[1:0] URX1N (LN0RXN) DRX1N
H H H L H DEQ[1:0] DRX2P URX2P (LN0RXP) DEQ[1:0] URX2P (LN0RXP) DRX2P
DEQ[1:0] DRX2N URX2N (LN0RXN) DEQ[1:0] URX2N (LN0RXN) DRX2N
UEQ[1:0] UTX2P (LN0RXP) DTX2P UEQ[1:0] DTX2P UTX2P (LN0RXP)
UEQ[1:0] UTX2N (LN0RXN) DTX2N UEQ[1:0] DTX2N UTX2N (LN0RXN)
UEQ[1:0] UTX1P (LN0RXP) DTX1P UEQ[1:0] DTX1P UTX1P (LN0RXP)
UEQ[1:0] UTX1N (LN0RXN) DTX1N UEQ[1:0] DTX1N UTX1N (LN0RXN)
DEQ[1:0] DRX1P URX1P (LN0TXP) DEQ[1:0] URX1P (LN0TXP) DRX1P
DEQ[1:0] DRX1N URX1N (LN0TXN) DEQ[1:0] URX1N (LN0TXN) DRX1N
H H H H L UEQ[1:0] UTX2P DTX2P (SSRXP) UEQ[1:0] DTX2P (SSTXP) UTX2P
UEQ[1:0] UTX2N DTX2N (SSRXN) UEQ[1:0] DTX2N (SSTXN) UTX2N
DEQ[1:0] DRX2P (SSTXP) URX2P DEQ[1:0] URX2P DRX2P (SSRXP)
DEQ[1:0] DRX2N (SSTXN) URX2N DEQ[1:0] URX2N DRX2N (SSRXN)
UEQ[1:0] UTX1P DTX1P (LN0RXP) UEQ[1:0] DTX1P (LN0RXP) UTX1P
UEQ[1:0] UTX1N DTX1N(LN0RXN) UEQ[1:0] DTX1N(LN0RXN) UTX1N
DEQ[1:0] DRX1P (LN0TXP) URX1P DEQ[1:0] URX1P DRX1P (LN0TXP)
DEQ[1:0] DRX1N (LN0TXN) URX1N DEQ[1:0] URX1N DRX1N (LN0TXN)
H H H H H UEQ[1:0] UTX1P DTX1P (SSRXP) UEQ[1:0] DTX1P (SSSXP) UTX1P
UEQ[1:0] UTX1N DTX1N (SSRXN) UEQ[1:0] DTX1N (SSSXN) UTX1N
DEQ[1:0] DRX1P (SSTXP) URX1P DEQ[1:0] URX1P DRX1P (SSRXP)
DEQ[1:0] DRX1N (SSTXN) URX1N DEQ[1:0] URX1N DRX1N (SSRXN)
DEQ[1:0] DRX2P URX2P (LN0TXP) DEQ[1:0] URX2P (LN0TXP) DRX2P
DEQ[1:0] DRX2N URX2N (LN0TXN) DEQ[1:0] URX2N (LN0TXN) DRX2N
UEQ[1:0] UTX2P (LN0RXP) DTX2P UEQ[1:0] DTX2P UTX2P (LN0RXP)
UEQ[1:0] UTX2N (LN0RXN) DTX2N UEQ[1:0] DTX2N UTX2N (LN0RXN)