ZHCS614G October   2011  – September 2022 TPS40422

PRODUCTION DATA  

  1. 特性
  2. 应用
  3. 说明
  4. Revision History
  5. 说明(续)
  6. Pin Configuration and Functions
  7. Specifications
    1. 7.1 Absolute Maximum Ratings
    2. 7.2 ESD Ratings
    3. 7.3 Recommended Operating Conditions
    4. 7.4 Thermal Information
    5. 7.5 Electrical Characteristics
    6. 7.6 Typical Characteristics
  8. Detailed Description
    1. 8.1 Overview
    2. 8.2 Functional Block Diagram
    3. 8.3 Feature Description
      1. 8.3.1  PMBus Interface Protocol General Description
      2. 8.3.2  Voltage Reference
      3. 8.3.3  Output Voltage
      4. 8.3.4  Voltage Feed Forward
      5. 8.3.5  Current Sensing
      6. 8.3.6  Overcurrent Protection
      7. 8.3.7  Current Sharing
      8. 8.3.8  Linear Regulators
      9. 8.3.9  BP Switch-over
      10. 8.3.10 Switching Frequency Setting
      11. 8.3.11 Switching Node and BOOT Voltage
      12. 8.3.12 Reading the Output Current
      13. 8.3.13 Soft-Start Time
      14. 8.3.14 Turn-On/Turn-Off Delay and Sequencing
      15. 8.3.15 Pre-Biased Output Start-Up
      16. 8.3.16 Undervoltage Lockout
      17. 8.3.17 Overvoltage and Undervoltage Fault Protection
      18. 8.3.18 Power Good
      19. 8.3.19 Overtemperature Fault Protection
      20. 8.3.20 Thermal Shutdown
      21. 8.3.21 Programmable Fault Responses
      22. 8.3.22 User Data
      23. 8.3.23 Adjustable Anti-Cross Conduction Delay
      24. 8.3.24 Connection of Unused Pins
    4. 8.4 Device Functional Modes
      1. 8.4.1 Control Signal
      2. 8.4.2 OPERATION Command
      3. 8.4.3 Control Signal and OPERATION Command
      4. 8.4.4 Two-Phase Mode Operation
    5. 8.5 Programming
      1. 8.5.1 Supported PMBus Commands
        1. 8.5.1.1 PMBus Address
        2. 8.5.1.2 PMBus Connections
        3. 8.5.1.3 PMBus Data Format
        4. 8.5.1.4 PMBus Interface Output Voltage Adjustment
        5. 8.5.1.5 53
    6. 8.6 Register Maps
      1. 8.6.1 Supported Commands
        1. 8.6.1.1  PAGE (00h)
        2. 8.6.1.2  OPERATION (01h)
          1. 8.6.1.2.1 On
          2. 8.6.1.2.2 Margin
        3. 8.6.1.3  ON_OFF_CONFIG (02h)
          1. 8.6.1.3.1 pu
          2. 8.6.1.3.2 cmd
          3. 8.6.1.3.3 CPR
          4. 8.6.1.3.4 pol
          5. 8.6.1.3.5 CPA
        4. 8.6.1.4  CLEAR_FAULTS (03h)
        5. 8.6.1.5  WRITE_PROTECT (10h)
          1. 8.6.1.5.1 bit5
          2. 8.6.1.5.2 bit6
          3. 8.6.1.5.3 bit7
        6. 8.6.1.6  STORE_USER_ALL (15h)
        7. 8.6.1.7  RESTORE_USER_ALL (16h)
        8. 8.6.1.8  CAPABILITY (19h)
        9. 8.6.1.9  VOUT_MODE (20h)
          1. 8.6.1.9.1 Mode:
          2. 8.6.1.9.2 Exponent
        10. 8.6.1.10 VIN_ON (35h)
          1. 8.6.1.10.1 Exponent
          2. 8.6.1.10.2 Mantissa
        11. 8.6.1.11 VIN_OFF (36h)
          1. 8.6.1.11.1 Exponent
          2. 8.6.1.11.2 Mantissa
        12. 8.6.1.12 IOUT_CAL_GAIN (38h)
          1. 8.6.1.12.1 Exponent
          2. 8.6.1.12.2 Mantissa
        13. 8.6.1.13 IOUT_CAL_OFFSET (39h)
          1. 8.6.1.13.1 Exponent
          2. 8.6.1.13.2 Mantissa
        14. 8.6.1.14 IOUT_OC_FAULT_LIMIT (46h)
          1. 8.6.1.14.1 Exponent
          2. 8.6.1.14.2 Mantissa
        15. 8.6.1.15 IOUT_OC_FAULT_RESPONSE (47h)
          1. 8.6.1.15.1 RS[2:0]
        16. 8.6.1.16 IOUT_OC_WARN_LIMIT (4Ah)
          1. 8.6.1.16.1 Exponent
          2. 8.6.1.16.2 Mantissa
        17. 8.6.1.17 OT_FAULT_LIMIT (4Fh)
          1. 8.6.1.17.1 Exponent
          2. 8.6.1.17.2 Mantissa
        18. 8.6.1.18 OT_WARN_LIMIT (51h)
          1. 8.6.1.18.1 Exponent
          2. 8.6.1.18.2 Mantissa
        19. 8.6.1.19 TON_RISE (61h)
          1. 8.6.1.19.1 Exponent
          2. 8.6.1.19.2 Mantissa
        20. 8.6.1.20 STATUS_BYTE (78h)
        21. 8.6.1.21 STATUS_WORD (79h)
        22. 8.6.1.22 STATUS_VOUT (7Ah)
        23. 8.6.1.23 STATUS_IOUT (7Bh)
        24. 8.6.1.24 STATUS_TEMPERATURE (7Dh)
        25. 8.6.1.25 STATUS_CML (7Eh)
        26. 8.6.1.26 STATUS_MFR_SPECIFIC (80h)
        27. 8.6.1.27 READ_VOUT (8Bh)
        28. 8.6.1.28 READ_IOUT (8Ch)
          1. 8.6.1.28.1 Exponent
          2. 8.6.1.28.2 Mantissa
        29. 8.6.1.29 READ_TEMPERATURE_2 (8Eh)
          1. 8.6.1.29.1 Exponent
          2. 8.6.1.29.2 Mantissa
        30. 8.6.1.30 PMBUS_REVISION (98h)
        31. 8.6.1.31 MFR_SPECIFIC_00 (D0h)
        32. 8.6.1.32 VREF_TRIM (MFR_SPECIFIC_04) (D4h)
        33. 8.6.1.33 STEP_VREF_MARGIN_HIGH (MFR_SPECIFIC_05) (D5h)
        34. 8.6.1.34 STEP_VREF_MARGIN_LOW (MFR_SPECIFIC_06) (D6h)
        35. 8.6.1.35 PCT_VOUT_FAULT_PG_LIMIT (MFR_SPECIFIC_07) (D7h)
        36. 8.6.1.36 126
        37. 8.6.1.37 SEQUENCE_TON_TOFF_DELAY (MFR_SPECIFIC_08) (D8h)
        38. 8.6.1.38 128
        39. 8.6.1.39 OPTIONS (MFR_SPECIFIC_21) (E5h)
        40. 8.6.1.40 DEVICE_CODE (MFR_SPECIFIC_44) (FCh)
          1. 8.6.1.40.1 Identifier Code
          2. 8.6.1.40.2 Revision Code
  9. Application and Implementation
    1. 9.1 Application Information
    2. 9.2 Typical Application
      1. 9.2.1 Dual-Output Converter
        1. 9.2.1.1 Design Requirements
        2. 9.2.1.2 Detailed Design Procedure
          1. 9.2.1.2.1 Custom Design with WEBENCH® Tools
          2. 9.2.1.2.2 Step 1: Inductor Selection
          3. 9.2.1.2.3 Step 2: Output Capacitor Selection
          4. 9.2.1.2.4 Step 3: Input Capacitance Selection
          5. 9.2.1.2.5 Step 4: MOSFET Selection
          6. 9.2.1.2.6 Step 5: Snubber Circuit Design
          7. 9.2.1.2.7 Step 6: Soft-Start Time
          8. 9.2.1.2.8 Step 7: Peripheral Component Design
            1. 9.2.1.2.8.1 RT (Pin 1) Switching Frequency Setting
            2. 9.2.1.2.8.2 FB1 (Pin 2) and FB2 (Pin 8) Output Voltage Setting
            3. 9.2.1.2.8.3 Compensation Network Using COMP1 (Pin 3) , COMP2 (Pin 7), FB1 (Pin 2) FB2 DIFFO1 (Pin 8) (Pin 39)
            4. 9.2.1.2.8.4 Remote Sensing Using VSNS1 (Pin 37), GSNS1 (Pin 38) , VSNS2 (Pin 15), and GSNS2 (Pin 14)
            5. 9.2.1.2.8.5 Temperate Sensing Using TSNS1 (Pin36) and TSNS2 (Pin 16)
            6. 9.2.1.2.8.6 Current Sensing Network Design Using CS1P (Pin 34), CS1N (Pin 35) , CS2P (Pin 18), and CS2N (Pin 17)
            7. 9.2.1.2.8.7 PMBus Address ADDR1 (Pin 9) , and ADDR0 (Pin 10)
            8. 9.2.1.2.8.8 Voltage Decoupling Capacitors
              1. 9.2.1.2.8.8.1  VDD (Pin 31)
              2. 9.2.1.2.8.8.2  BP3 (Pin 32)
              3. 9.2.1.2.8.8.3  BNEXT (Pin 24)
              4. 9.2.1.2.8.8.4  BP6 (Pin 25)
              5. 9.2.1.2.8.8.5  Power Good PGOOD1 (Pin 33), PGOOD2 (Pin 19)
              6. 9.2.1.2.8.8.6  Bootstrap Capacitors BOOT1 (Pin 30), and BOOT2 (Pin 20)
              7. 9.2.1.2.8.8.7  High-Side MOSFET (Gate) Resistor
              8. 9.2.1.2.8.8.8  Synchronization Setting SYNC (Pin 40)
              9. 9.2.1.2.8.8.9  BP6 (Pin 25)
              10. 9.2.1.2.8.8.10 DIFFO (Pin 39)
        3. 9.2.1.3 Application Curves
  10. 10Power Supply Recommendations
  11. 11Layout
    1. 11.1 Layout Guidelines
      1. 11.1.1 PCB Layout Guidelines
      2. 11.1.2 MOSFET Layout Guidelines
    2. 11.2 Layout Example
  12. 12Device and Documentation Support
    1. 12.1 Device Support
    2. 12.2 接收文档更新通知
    3. 12.3 支持资源
    4. 12.4 Trademarks
    5. 12.5 Electrostatic Discharge Caution
    6. 12.6 术语表
  13. 13Mechanical, Packaging, and Orderable Information

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

6 Pin Configuration and Functions

GUID-C4A73396-A65F-4F64-9F76-41823B32B593-low.gifFigure 6-1 RHA Package40-Pin VQFNTop View
GUID-C4A73396-A65F-4F64-9F76-41823B32B593-low.gifFigure 6-2 RSB Package40-Pin WQFNTop View
Table 6-1 Pin Functions
PIN NO. I/O DESCRIPTION
ADDR0 10 I Low-order address pin for PMBus address configuration. One of eight resistor values must be connected from this pin to AGND to select the low-order octal digit in the PMBus address.
ADDR1 9 I High-order address pin for PMBus address configuration. One of eight resistor values must be connected from this pin to AGND to select the high-order octal digit in the PMBus address.
AGND 6 Low-noise ground connection to the controller. Connections should be arranged so that power level currents do not flow through the AGND path.
BOOT1 30 I Bootstrapped supply for the high-side FET driver for channel 1 (CH1). Connect a capacitor (100 nF typical) from BOOT1 to SW1 pin.
BOOT2 20 I Bootstrapped supply for the high-side FET driver for channel 2 (CH2). Connect a capacitor (100 nF typical) from BOOT2 to SW2 pin.
BP3 32 O Output bypass for the internal 3.3-V regulator. Connect a 100 nF or larger capacitor from this pin to AGND. The maximum suggested capacitor value is 10 µF.
BP6 25 O Output bypass for the internal 6.5-V regulator. Connect a low ESR, 1 µF or larger ceramic capacitor from this pin to PGND. The maximum suggested capacitor value is 10 µF.
BPEXT 24 I External voltage input for BP6 switchover function. If the BPEXT function is not used, connect this pin to PGND via a 10-kΩ resistor. Otherwise connect a 100-nF or larger capacitor from this pin to PGND. The maximum suggested capacitor value is 10 µF.
CLK 12 I Clock input for the PMBus interface. Pull up to 3.3 V with a resistor.
CNTL1 4 I Logic level input which controls startup and shutdown of CH1, determined by PMBus options. When floating, the pin is pulled up to BP6 by an internal 6-µA current source.
CNTL2 5 I Logic level input which controls startup and shutdown of CH2, determined by PMBus options. When floating, the pin is pulled up to BP6 by an internal 6-µA current source.
COMP1 3 O Output of the error amplifier for CH1 and connection node for loop feedback components.
COMP2 7 O Output of the error amplifier for CH2 and connection node for loop feedback components. For two-phase operation, use COMP1 for loop feedback and connect COMP1 to COMP2.
CS1N 35 I Negative terminal of current sense amplifier for CH1.
CS2N 17 I Negative terminal of current sense amplifier for CH2.
CS1P 34 I Positive terminal of current sense amplifier for CH1.
CS2P 18 I Positive terminal of current sense amplifier for CH2.
DATA 11 I/O Data input/output for the PMBus interface. Pull up to 3.3 V with a resistor.
DIFFO1 39 O Output of the differential remote sense amplifier for CH1.
FB1 2 I Inverting input of the error amplifier for CH1. Connect a voltage divider to FB1 between DIFFO1 and AGND to program the output voltage for CH1.
FB2 8 I Inverting input of the error amplifier for CH2. Connect a voltage divider to FB2 between VOUT2 and GND to program the output for CH2. For two-phase operation, use FB1 to program the output voltage and connect FB2 to BP6 before applying voltage to VDD.
GSNS1 38 I Negative terminal of the differential remote sense amplifier for CH1.
GSNS2 14 I Negative terminal of the differential remote sense amplifier for CH2.
HDRV1 29 O Bootstrapped gate drive output for the high-side N-channel MOSFET for CH1.
HDRV2 21 O Bootstrapped gate drive output for the high-side N-channel MOSFET for CH2.
LDRV1 27 O Gate drive output for the low side synchronous rectifier N-channel MOSFET for CH1.
LDRV2 23 O Gate drive output for the low-side synchronous rectifier N-channel MOSFET for CH2.
PGND 26 Power GND.
PG1 33 O Open drain power good indicator for CH1 output voltage.
PG2 19 O Open drain power good indicator for CH2 output voltage.
RT 1 I Frequency programming pin. Connect a resistor from this pin to AGND to set the oscillator frequency.
SMBALRT 13 O Alert output for the PMBus interface. Pull up to 3.3 V with a resistor.
SW1 28 I Return of the high-side gate driver for CH1. Connect to the switched node for CH1.
SW2 22 I Return of the high-side gate driver for CH2. Connect to the switched node for CH2.
SYNC 40 I Logic level input for external clock synchronization. When an external clock is applied to this pin, the controller oscillator is synchronized to the external clock and the switching frequency is one half of the external clock frequency. When an external clock is not used, tie this pin to AGND.
TSNS1 36 I External temperature sense input for CH1.
TSNS2 16 I External temperature sense input for CH2.
VDD 31 I Power input to the controller. Connect a low ESR, 100 nF or larger ceramic capacitor from this pin to AGND.
VSNS1 37 I Positive terminal of the differential remote sense amplifier for CH1.
VSNS2 15 I Positive terminal of the differential remote sense amplifier for CH2.
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