ZHCSOR1 August   2021 TPS25860-Q1 , TPS25862-Q1

PRODUCTION DATA  

  1. 特性
  2. 应用
  3. 说明
  4. Revision History
  5. 说明(续)
  6. Device Comparison Table
  7. Pin Configuration and Functions
  8. Specifications
    1. 8.1 Absolute Maximum Ratings
    2. 8.2 ESD Ratings
    3. 8.3 Recommended Operating Conditions
    4. 8.4 Thermal Information
    5. 8.5 Electrical Characteristics
    6. 8.6 Timing Requirements
    7. 8.7 Switching Characteristics
    8. 8.8 Typical Characteristics
  9. Parameter Measurement Information
  10. 10Detailed Description
    1. 10.1 Overview
    2. 10.2 Functional Block Diagram
    3. 10.3 Feature Description
      1. 10.3.1  Power-Down or Undervoltage Lockout
      2. 10.3.2  Input Overvoltage Protection (OVP) - Continuously Monitored
      3. 10.3.3  Buck Converter
      4. 10.3.4  FREQ/SYNC
      5. 10.3.5  Bootstrap Voltage (BOOT)
      6. 10.3.6  Minimum ON-Time, Minimum OFF-Time
      7. 10.3.7  Internal Compensation
      8. 10.3.8  Selectable Output Voltage (VSET)
      9. 10.3.9  Current Limit and Short Circuit Protection
        1. 10.3.9.1 USB Switch Programmable Current Limit (ILIM)
        2. 10.3.9.2 Interlocking for Two-Level USB Switch Current Limit
        3. 10.3.9.3 Cycle-by-Cycle Buck Current Limit
        4. 10.3.9.4 OUT Current Limit
      10. 10.3.10 Cable Compensation
      11. 10.3.11 Thermal Management with Temperature Sensing (TS) and OTSD
      12. 10.3.12 Thermal Shutdown
      13. 10.3.13 USB Enable On/Off Control (TPS25862-Q1)
      14. 10.3.14 FAULT Indication
      15. 10.3.15 USB Specification Overview
      16. 10.3.16 USB Type-C® Basics
        1. 10.3.16.1 Configuration Channel
        2. 10.3.16.2 Detecting a Connection
      17. 10.3.17 USB Port Operating Modes
        1. 10.3.17.1 USB Type-C® Mode
        2. 10.3.17.2 Dedicated Charging Port (DCP) Mode (TPS25860-Q1 Only)
          1. 10.3.17.2.1 DCP BC1.2 and YD/T 1591-2009
          2. 10.3.17.2.2 DCP Divider-Charging Scheme
          3. 10.3.17.2.3 DCP 1.2-V Charging Scheme
        3. 10.3.17.3 DCP Auto Mode (TPS25860-Q1)
    4. 10.4 Device Functional Modes
      1. 10.4.1 Shutdown Mode
      2. 10.4.2 Active Mode
  11. 11Application and Implementation
    1. 11.1 Application Information
    2. 11.2 Typical Applications
      1. 11.2.1 Design Requirements
      2. 11.2.2 Detailed Design Procedure
        1. 11.2.2.1 Output Voltage Setting
        2. 11.2.2.2 Switching Frequency
        3. 11.2.2.3 Inductor Selection
        4. 11.2.2.4 Output Capacitor Selection
        5. 11.2.2.5 Input Capacitor Selection
        6. 11.2.2.6 Bootstrap Capacitor Selection
        7. 11.2.2.7 Undervoltage Lockout Set-Point
        8. 11.2.2.8 Cable Compensation Set-Point
        9. 11.2.2.9 FAULT Resistor Selection
      3. 11.2.3 Application Curves
  12. 12Power Supply Recommendations
  13. 13Layout
    1. 13.1 Layout Guidelines
    2. 13.2 Layout Example
    3. 13.3 Ground Plane and Thermal Considerations
  14. 14Device and Documentation Support
    1. 14.1 接收文档更新通知
    2. 14.2 支持资源
    3. 14.3 Trademarks
    4. 14.4 Electrostatic Discharge Caution
    5. 14.5 术语表
  15. 15Mechanical, Packaging, and Orderable Information

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10.3.11 Thermal Management with Temperature Sensing (TS) and OTSD

The TS input pin allows for user-programmable thermal protection, see the Electrical Characteristics for the TS pin thresholds. The TS input pin threshold is ratiometric with VSENSE. The external resistor divider setting, VTS, must be connected to the TPS2586x-Q1 SENSE pin to achieve accurate results (refer to the Figure 10-16). When VTS = 0.5 × VSENSE, the TPS2586x-Q1 performs two actions:

  • If you are operating with 3-A Type-C advertisement, the PA_CC1, PA_CC2 pin automatically reduces advertisement to the 1.5-A level.
GUID-28E2E58B-85CF-40F2-8082-B74E843BA69E-low.pngFigure 10-16 TS Input

If the overtemperature condition persists, causing VTS = 0.65 × VSENSE, the TPS2586x-Q1 operates at default USB mode, which means it broadcasts the Default USB Power mode, and the output voltage at the SENS pin is reduced to 4.77 V.

In Default USB Power, the charging is ideally reduced further per the USB2.0 and USB3.0 specification.

If the overtemperature condition persists, causing TJ to reach the OTSD threshold, then the device thermal shuts down.

If the overtemperature condition persists, causing TJ to reach the OTSD threshold, then the device thermal shuts down. Figure 10-17 shows the TPS2586x-Q1 behavior when TS pin voltage trigger the Temp Warm and Temp Hot threshold.

GUID-20201005-CA0I-WVM3-FSZZ-FK9NGW6ZXD5M-low.gif Figure 10-17 TPS2586x-Q1 Behavior When Trigger Temp Warm/Hot Threshold

The NTC thermistor must be placed near the hottest point on the PCB. In most cases, this is close to the SW node of the TPS2586x-Q1, near the buck inductor.

Tuning the VNTC theshold levels of VTEMP_WARM and VTEMP_HOT is achieved by adding RSER, RPARA, or both RSER and RPARA in conjunction with RNTC. Figure 10-18 is an example illustrating how to set the VTEMP_WARM threshold between 81°C and 90°C with a ΔT between TEMP_WARM assertion and TEMP_HOT assertion of 18°C to 29°C. Consult the chosen NTC manufacturer's specification for the value of β. It may take some iteration to establish the desired warning and shutdown thresholds.

Below is NTC spec and resistor value used inFigure 10-18 example.

  • R0 = 470 kΩ. β = 4750. RNTC= R0 × exp β × (1/T – 1/T0).
  • RPARA = 100 kΩ.
  • RSER = 5.1 kΩ.
  • RB = RNTC (at TEMP_WARM) = 27 kΩ.

GUID-20201005-CA0I-R2FB-SVZT-9T1MW8QQXDXW-low.gif Figure 10-18 VTS Threshold Design Examples
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