SNOSDH4 June   2024 TPS7H6005-SEP , TPS7H6015-SEP , TPS7H6025-SEP

ADVMIX  

  1.   1
  2. Features
  3. Applications
  4. Description
  5. Device Comparison Table
  6. Device Options Table
  7. Pin Configuration and Functions
  8. 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 Switching Characteristics
    7. 7.7 Quality Conformance Inspection
    8. 7.8 Typical Characteristics
  9. Detailed Description
    1. 8.1 Overview
    2. 8.2 Functional Block Diagram
    3. 8.3 Feature Description
      1. 8.3.1  Input Voltage
      2. 8.3.2  Linear Regulator Operation
      3. 8.3.3  Bootstrap Operation
        1. 8.3.3.1 Bootstrap Charging
        2. 8.3.3.2 Bootstrap Capacitor
        3. 8.3.3.3 Bootstrap Diode
        4. 8.3.3.4 Bootstrap Resistor
      4. 8.3.4  High-Side Driver Startup
      5. 8.3.5  Inputs and Outputs
      6. 8.3.6  Dead Time
      7. 8.3.7  Input Interlock Protection
      8. 8.3.8  Undervoltage Lockout and Power Good (PGOOD)
      9. 8.3.9  Negative SW Voltage Transients
      10. 8.3.10 Level Shifter
    4. 8.4 Device Functional Modes
  10. Application and Implementation
    1. 9.1 Application Information
    2. 9.2 Typical Application
      1. 9.2.1 Design Requirements
      2. 9.2.2 Detailed Design Procedure
        1. 9.2.2.1 Bootstrap and Bypass Capacitors
        2. 9.2.2.2 Bootstrap Diode
        3. 9.2.2.3 BP5x Overshoot and Undershoot
        4. 9.2.2.4 Gate Resistor
        5. 9.2.2.5 Dead Time Resistor
        6. 9.2.2.6 Gate Driver Losses
      3. 9.2.3 Application Curves
    3. 9.3 Power Supply Recommendations
    4. 9.4 Layout
      1. 9.4.1 Layout Guidelines
      2. 9.4.2 Layout Examples
  11. 10Device and Documentation Support
    1. 10.1 Documentation Support
      1. 10.1.1 Related Documentation
    2. 10.2 Receiving Notification of Documentation Updates
    3. 10.3 Support Resources
    4. 10.4 Trademarks
    5. 10.5 Electrostatic Discharge Caution
    6. 10.6 Glossary
  12. 11Revision History
  13. 12Mechanical, Packaging, and Orderable Information

Package Options

Refer to the PDF data sheet for device specific package drawings

Mechanical Data (Package|Pins)
  • DCA|56
Thermal pad, mechanical data (Package|Pins)
Orderable Information

Typical Characteristics

TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP5L Output Voltage vs VIN VoltageFigure 7-1 BP5L Output Voltage vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Turnoff Propagation Delay vs VIN Voltage (PWM)Figure 7-3 LO Turnoff Propagation Delay vs VIN Voltage (PWM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Turnon Propagation Delay vs VIN Voltage (IIM)Figure 7-5 LO Turnon Propagation Delay vs VIN Voltage (IIM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Turnoff Propagation Delay vs VIN Voltage (IIM)Figure 7-7 HO Turnoff Propagation Delay vs VIN Voltage (IIM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Peak Source Current vs VIN VoltageFigure 7-9 Peak Source Current vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Peak Source Current vs Output VoltageFigure 7-11 Peak Source Current vs Output Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Output Rise Time vs VIN VoltageFigure 7-13 LO Output Rise Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP7L Output Voltage vs VIN VoltageFigure 7-15 BP7L Output Voltage vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Input Falling Edge Threshold vs VIN VoltageFigure 7-17 Input Falling Edge Threshold vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Off and HO On Delay Matching vs VIN VoltageFigure 7-19 LO Off and HO On Delay Matching vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP5L UVLO Falling Threshold vs VIN VoltageFigure 7-21 BP5L UVLO Falling Threshold vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP5H UVLO Falling Threshold vs BOOT VoltageFigure 7-23 BP5H UVLO Falling Threshold vs BOOT Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP7L UVLO Falling Threshold vs VIN VoltageFigure 7-25 BP7L UVLO Falling Threshold vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP VIN UVLO Falling Threshold vs TemperatureFigure 7-27 VIN UVLO Falling Threshold vs Temperature
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BOOT UVLO Falling Threshold vs TemperatureFigure 7-29 BOOT UVLO Falling Threshold vs Temperature
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Off to HO On Dead Time vs VIN Voltage
RLH = 11.8kΩ
Figure 7-31 LO Off to HO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Off to HO On Dead Time vs VIN Voltage
RLH = 52.3kΩ
Figure 7-33 LO Off to HO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Off to LO On Dead Time vs VIN Voltage
RLH = 7.87kΩ
Figure 7-35 HO Off to LO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Off to LO On Dead Time vs VIN Voltage
RLH = 23.7kΩ
Figure 7-37 HO Off to LO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Off to LO On Dead Time vs VIN Voltage
RLH = 113kΩ
Figure 7-39 HO Off to LO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP High-Side Quiescent Current vs BOOT VoltageFigure 7-41 High-Side Quiescent Current vs BOOT Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Low-Side Operating Current vs Frequency (PWM)
VIN = 12V
Figure 7-43 Low-Side Operating Current vs Frequency (PWM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP High-Side Operating Current vs Frequency (PWM)
VBOOT = 10V
Figure 7-45 High-Side Operating Current vs Frequency (PWM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP5H Output Voltage vs BOOT
            VoltageFigure 7-2 BP5H Output Voltage vs BOOT Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Turnoff Propagation Delay vs VIN Voltage (IIM)Figure 7-4 LO Turnoff Propagation Delay vs VIN Voltage (IIM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Turnoff Propagation Delay vs VIN Voltage (PWM)Figure 7-6 HO Turnoff Propagation Delay vs VIN Voltage (PWM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Turnon Propagation Delay vs VIN Voltage (IIM)Figure 7-8 HO Turnon Propagation Delay vs VIN Voltage (IIM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Peak Sink Current vs VIN VoltageFigure 7-10 Peak Sink Current vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Peak Sink Current vs Output VoltageFigure 7-12 Peak Sink Current vs Output Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Output Rise Time vs BOOT VoltageFigure 7-14 HO Output Rise Time vs BOOT Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Input Rising Edge Threshold vs VIN VoltageFigure 7-16 Input Rising Edge Threshold vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO On and HO Off Delay Matching vs VIN VoltageFigure 7-18 LO On and HO Off Delay Matching vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP5L UVLO Rising Threshold vs VIN VoltageFigure 7-20 BP5L UVLO Rising Threshold vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP5H UVLO Rising Threshold vs BOOT VoltageFigure 7-22 BP5H UVLO Rising Threshold vs BOOT Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BP7L UVLO Rising Threshold vs VIN VoltageFigure 7-24 BP7L UVLO Rising Threshold vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP VIN UVLO Rising Threshold vs TemperatureFigure 7-26 VIN UVLO Rising Threshold vs Temperature
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP BOOT UVLO Rising Threshold vs TemperatureFigure 7-28 BOOT UVLO Rising Threshold vs Temperature
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Off to HO On Dead Time vs VIN Voltage
RLH = 3.32kΩ
Figure 7-30 LO Off to HO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Off to HO On Dead Time vs VIN Voltage
RLH = 21kΩ
Figure 7-32 LO Off to HO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP LO Off to HO On Dead Time vs VIN Voltage
RLH = 105kΩ
Figure 7-34 LO Off to HO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Off to LO On Dead Time vs VIN Voltage
RLH = 13.3kΩ
Figure 7-36 HO Off to LO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP HO Off to LO On Dead Time vs VIN Voltage
RLH = 57.6kΩ
Figure 7-38 HO Off to LO On Dead Time vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Low-Side Quiescent Current vs VIN VoltageFigure 7-40 Low-Side Quiescent Current vs VIN Voltage
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP Low-Side Operating Current vs Frequency (IIM)
VIN = 12V
Figure 7-42 Low-Side Operating Current vs Frequency (IIM)
TPS7H6005-SP TPS7H6015-SP TPS7H6025-SP TPS7H6005-SEP TPS7H6015-SEP TPS7H6025-SEP High-Side Operating Current vs Frequency (IIM)
VBOOT = 10V
Figure 7-44 High-Side Operating Current vs Frequency (IIM)