SLVSDR8B April   2018  – February 2023 TPS62147 , TPS62148

PRODUCTION DATA  

  1. Features
  2. Applications
  3. Description
  4. Revision History
  5. Device Comparison Table
  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. Parameter Measurement Information
    1. 8.1 Schematic
  9. Detailed Description
    1. 9.1 Overview
    2. 9.2 Functional Block Diagram
    3. 9.3 Feature Description
      1. 9.3.1 Precise Enable
      2. 9.3.2 Power Good (PG)
      3. 9.3.3 MODE
      4. 9.3.4 Undervoltage Lockout (UVLO)
      5. 9.3.5 Thermal Shutdown
    4. 9.4 Device Functional Modes
      1. 9.4.1 Pulse Width Modulation (PWM) Operation
      2. 9.4.2 Power Save Mode Operation (PWM/PFM)
      3. 9.4.3 100% Duty-Cycle Operation
      4. 9.4.4 Current Limit And Short Circuit Protection (for TPS62148)
      5. 9.4.5 HICCUP Current Limit And Short Circuit Protection (for TPS62147)
      6. 9.4.6 Soft Start / Tracking (SS/TR)
      7. 9.4.7 Output Discharge Function (TPS62148 only)
      8. 9.4.8 Starting into a Pre-Biased Load
  10. 10Application and Implementation
    1. 10.1 Application Information
      1. 10.1.1 Programming the Output Voltage
      2. 10.1.2 External Component Selection
      3. 10.1.3 Inductor Selection
      4. 10.1.4 Capacitor Selection
        1. 10.1.4.1 Output Capacitor
        2. 10.1.4.2 Input Capacitor
        3. 10.1.4.3 Soft-Start Capacitor
      5. 10.1.5 Tracking Function
      6. 10.1.6 Output Filter and Loop Stability
    2. 10.2 Typical Applications
      1. 10.2.1 Typical Application with Adjustable Output Voltage
        1. 10.2.1.1 Design Requirements
        2. 10.2.1.2 Detailed Design Procedure
        3. 10.2.1.3 Application Curves
    3. 10.3 System Examples
      1. 10.3.1 LED Power Supply
      2. 10.3.2 Powering Multiple Loads
      3. 10.3.3 Voltage Tracking
      4. 10.3.4 Precise Soft-Start Timing
    4. 10.4 Power Supply Recommendations
    5. 10.5 Layout
      1. 10.5.1 Layout Guidelines
      2. 10.5.2 Layout Example
      3. 10.5.3 Thermal Considerations
  11. 11Device and Documentation Support
    1. 11.1 Device Support
      1. 11.1.1 Third-Party Products Disclaimer
    2. 11.2 Receiving Notification of Documentation Updates
    3. 11.3 Support Resources
    4. 11.4 Trademarks
    5. 11.5 Electrostatic Discharge Caution
    6. 11.6 Glossary
  12. 12Mechanical, Packaging, and Orderable Information

Package Options

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

Application Curves

GUID-E453FCE0-1A6B-42F0-8F59-C154950328C7-low.gif
Vout = 1.2 VPFM FSEL = highTA = 25°C
Figure 10-2 Efficiency vs Output Current
Vout = 1.2 VPWM FSEL = highTA = 25°C
Figure 10-4 Efficiency vs Output Current
GUID-29F28DFF-E703-47B0-A0B5-5C14EED188D1-low.gif
Vout = 1.8 VPFM FSEL = highTA = 25°C
Figure 10-6 Efficiency vs Output Current
Vout = 1.8 VPWM FSEL = highTA = 25°C
Figure 10-8 Efficiency vs Output Current
GUID-4E5D97A3-062F-402F-8342-E29707A6B9AC-low.gif
Vout = 3.3 VPFM FSEL = highTA = 25°C
Figure 10-10 Efficiency vs Output Current
GUID-891D9A40-E22A-4508-AAA6-3DD4A442B0EB-low.gif
Vout = 3.3 VPWM FSEL = highTA = 25°C
Figure 10-12 Efficiency vs Output Current
GUID-498173F6-6CD0-4DE0-B880-8A0CB8E34D77-low.gif
Vout = 5 VPFM FSEL = highTA = 25°C
Figure 10-14 Efficiency vs Output Current
GUID-C3244740-A946-47EF-9C41-A97A53663AE3-low.gif
Vout = 5 VPWM FSEL = highTA = 25°C
Figure 10-16 Efficiency vs Output Current
GUID-382043E4-2761-491C-B9AD-2B8BD4F33403-low.gif
Vout = 9 VPFM FSEL = highTA = 25°C
Figure 10-18 Efficiency vs Output Current
GUID-A14A7540-707E-408C-A2DB-192983AE83E4-low.gif
Vout = 9 VPWM FSEL = highTA = 25°C
Figure 10-20 Efficiency vs Output Current
GUID-1E88BF04-D7C5-44E4-AEFE-203E65C46C95-low.gif
Vout = 1.2 VPFMTA = 25°C
Figure 10-22 Output Voltage vs Output Current
GUID-F274FC46-86EB-4518-8610-5CCC1BC93584-low.gif
Vout = 1.8 VPFMTA = 25°C
Figure 10-24 Output Voltage vs Output Current
GUID-A92357C9-601E-4C3B-A859-15CF59E86982-low.gif
Vout = 3.3 VPFMTA = 25°C
Figure 10-26 Output Voltage vs Output Current
GUID-1BA18397-A1EC-42D9-9344-BA68EEAE03FB-low.gif
Vout = 5 VPFMTA = 25°C
Figure 10-28 Output Voltage vs Output Current
GUID-F1EB4C85-7778-4A1A-B016-0E2F78385FD9-low.gif
Vout = 9 VPFMTA = 25°C
Figure 10-30 Output Voltage vs Output Current
GUID-933F69E8-6E6A-4142-AC39-C1B32BB1AC51-low.gif
Vin = 12 V;PWMIo = 200 mA to 1.8 A
Vout = 1.2 VFSEL = highTA= 25 °C
Figure 10-32 Load Transient Response
GUID-C17C4EFD-0BB8-43B7-A097-7F524B7F65A8-low.png
Vin = 6 V to 8.4 V;PWMIo = 1 A
Vout = 1.2 VFSEL = highTA= 25 °C
Figure 10-34 Line Transient Response
GUID-08EBA37B-70B1-49C5-BB47-36FC52CC00E7-low.png
Vin = 5 V;PFMIo = 0.1 A
Vout = 1.2 VFSEL = highTA= 25 °C
Figure 10-36 Output Voltage Ripple
GUID-947BB25E-0F0C-4D0B-80EE-81DF237CD2E7-low.gif
Vin = 12 VPFMIo = 200 mA to 1.8 A
Vout = 1.8 VFSEL = highTA= 25 °C
Figure 10-38 Load Transient Response
GUID-44A9EA0C-15B5-4AD3-B909-BB7DD9AA076B-low.png
Vin = 6 V to 8.4 V;PFMIo = 1 A
Vout = 1.8 VFSEL = highTA= 25 °C
Figure 10-40 Line Transient Response
GUID-60DDC4AA-A3A1-4F09-BFB5-D99F61182290-low.png
Vin = 5 VPWMRload = 1 kΩ
Vout = 1.8 VFSEL = highTA= 25 °C
Figure 10-42 Start-Up Timing
GUID-A880CBD7-6A4F-44A3-A0F0-1742678C4DF7-low.png
Vin = 5 VPWMIo = 1 A
Vout = 1.8 VFSEL = highTA= 25 °C
Figure 10-44 Output Voltage Ripple
GUID-9CB0CDFF-5AF2-46E2-9E12-7A2260EE2B3F-low.gif
Vin = 12 VPWMIo = 200 mA to 1.8 A
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-46 Load Transient Response
GUID-B8ACE258-E2A2-4FFC-9EE7-5DD283A37E50-low.png
Vin = 6 V to 8.4 V;PWMIo = 1 A
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-48 Line Transient Response
GUID-A236C037-89B3-4035-AADF-82D094B3AE00-low.png
Vin = 12 VPFMIo = 0.1 A
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-50 Output Voltage Ripple
GUID-633CEC57-03B7-4B44-B827-3A3E5F1FE373-low.gif
Vin = 12 VPFMIo = 200 mA to 1.8 A
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-52 Load Transient Response
GUID-CED1FA75-E64E-4D59-AD33-F81A7EEC4A50-low.png
Vin = 6 V to 8.4 V;PFMIo = 1 A
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-54 Line Transient Response
GUID-C9F587A6-ABC1-4950-9EFE-A8611F3068FE-low.png
Vin = 12 VPWMRload = 1 kΩ
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-56 Start-Up Timing
GUID-EBD75AFF-D474-4F8C-9300-7BBD9A0BADF4-low.png
Vin = 12 VPWMIo = 1 A
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-58 Output Voltage Ripple
GUID-B921F9AD-6622-49EB-B12A-2DA37718E299-low.gif
Vin = 12 VPWMIo = 200 mA to 1.8 A
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-60 Load Transient Response
GUID-31F1A2BE-CCCC-41F9-9129-F842BA1A8E1D-low.png
Vin = 12 V to 15 V;PWMIo = 1 A
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-62 Line Transient Response
GUID-31B51236-79C7-42A9-BD54-0AB64A57A465-low.png
Vin = 12 VPFMIo = 0.1 A
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-64 Output Voltage Ripple
Vout = 1.2 VPWM FSEL = highTA= 25 °C
Figure 10-66 Switching Frequency vs Input Voltage
Vout = 1.8 VPWM FSEL = highTA= 25 °C
Figure 10-68 Switching Frequency vs Input Voltage
GUID-1F454226-F9E6-4A3E-8DF2-40335E3EA87B-low.gif
Vout = 3.3 VPWM FSEL = highTA= 25 °C
Figure 10-70 Switching Frequency vs Input Voltage
GUID-7314CFC3-267B-4D8F-928A-E84DE90EBCA7-low.gif
Vout = 3.3 VPWM FSEL = highIout = 1 A
Figure 10-72 Switching Frequency vs Junction Temperature
GUID-91933915-0575-4503-B382-DB0839246968-low.gif
Vout = 5 VPWM FSEL = lowTA= 25 °C
Figure 10-74 Switching Frequency vs Input Voltage
GUID-3D09AAB1-4042-4A2A-8B5B-B81C9C3DCA18-low.gif
Vout = 9 VPWM FSEL = highTA= 25 °C
Figure 10-76 Switching Frequency vs Input Voltage
GUID-A69046F9-4C95-40F0-B6F8-BEA6406EB2F2-low.gif
Vout = 9.0 VPWM FSEL = highIout = 1 A
Figure 10-78 Switching Frequency vs Junction Temperature
GUID-5B91B208-BCD5-487A-95F6-45950E5ADA39-low.gif
Vout = 1.2 VPFM FSEL = lowTA = 25°C
Figure 10-3 Efficiency vs Output Current
GUID-7B2C4A3E-53A5-4AA9-B9C9-67457DBFF628-low.gif
Vout = 1.2 VPWM FSEL = lowTA = 25°C
Figure 10-5 Efficiency vs Output Current
GUID-590C8508-B54D-41C3-B44F-542D737A3A25-low.gif
Vout = 1.8 V PFM FSEL = low TA = 25°C
Figure 10-7 Efficiency vs Output Current
GUID-3ECAC01D-FEBF-4D39-BDDF-0382A5F9306B-low.gif
Vout = 1.8 VPWM FSEL = lowTA = 25°C
Figure 10-9 Efficiency vs Output Current
GUID-45D1B9B3-60C8-438D-A048-CFF14489371E-low.gif
Vout = 3.3 VPFM FSEL = lowTA = 25°C
Figure 10-11 Efficiency vs Output Current
GUID-D4190246-2F9E-4BD9-9840-D34739162B1C-low.gif
Vout = 3.3 VPWM FSEL = lowTA = 25°C
Figure 10-13 Efficiency vs Output Current
GUID-B5DE1D2B-768C-4A48-A895-E4C4A0BA9DEF-low.gif
Vout = 5 VPFM FSEL = lowTA = 25°C
Figure 10-15 Efficiency vs Output Current
GUID-87176A03-1D6D-4C5F-965A-4645989EB73C-low.gif
Vout = 5 VPWM FSEL = lowTA = 25°C
Figure 10-17 Efficiency vs Output Current
GUID-0BC0E4EF-5B26-449C-946E-D76B1DF11FF8-low.gif
Vout = 9 VPFM FSEL = lowTA = 25°C
Figure 10-19 Efficiency vs Output Current
GUID-4EA23118-EDC2-4EC1-8347-5C823DF0FA59-low.gif
Vout = 9 VPWM FSEL = lowTA = 25°C
Figure 10-21 Efficiency vs Output Current
GUID-D24EEE44-143E-4DA4-B120-3400970056D8-low.gif
Vout = 1.2 VPWMTA = 25°C
Figure 10-23 Output Voltage vs Output Current
GUID-BF15A924-5278-41BA-9BEC-62930CBCE074-low.gif
Vout = 1.8 VPWMTA = 25°C
Figure 10-25 Output Voltage vs Output Current
GUID-777DC7C0-EE9F-4C08-BC50-04C48C78F996-low.gif
Vout = 3.3 VPWMTA = 25°C
Figure 10-27 Output Voltage vs Output Current
GUID-53C46E43-A012-4DD7-87C8-BF3B0C4E83CE-low.gif
Vout = 5 VPWMTA = 25°C
Figure 10-29 Output Voltage vs Output Current
GUID-485DEDE2-3F2A-43CC-9B5B-E6CAF988E41C-low.gif
Vin = 12 V;PFMIo = 200 mA to 1.8 A;
Vout = 1.2 V;FSEL = highTA= 25 °C
Figure 10-31 Load Transient Response
GUID-A4160F62-E61A-4D52-A9ED-3C0338C838E7-low.png
Vin = 6 V to 8.4 V;PFMIo = 1 A
Vout = 1.2 VFSEL = highTA= 25 °C
Figure 10-33 Line Transient Response
GUID-CE280B53-26D8-4198-9BEE-D6E2485620F3-low.png
Vin = 5 V;PFMRload = 1 kΩ
Vout = 1.2 VFSEL = highTA= 25 °C
Figure 10-35 Start-Up Timing
GUID-B756849D-9535-4019-BFD5-261BF4C9641F-low.png
Vin = 5 V;PWMIo = 1 A
Vout = 1.2 VFSEL = highTA= 25 °C
Figure 10-37 Output Voltage Ripple
GUID-F5C5D2F5-5A56-4B7A-9E42-C7B310FAAE1F-low.gif
Vin = 12 VPWMIo = 200 mA to 1.8 A
Vout = 1.8 VFSEL = highTA= 25°C
Figure 10-39 Load Transient Response
GUID-F44247E8-19F3-4785-92DD-B9FB344E0D65-low.png
Vin = 6 V to 8.4 V;PWMIo = 1 A
Vout = 1.8 VFSEL = highTA= 25 °C
Figure 10-41 Line Transient Response
GUID-A12E4305-5860-47F4-B171-DDDD6CADB360-low.png
Vin = 5 VPFMIo = 0.1 A
Vout = 1.8 VFSEL = highTA= 25 °C
Figure 10-43 Output Voltage Ripple
GUID-15326823-8EF2-495D-B3FC-51D86CD01051-low.gif
Vin = 12 VPFMIo = 200 mA to 1.8 A
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-45 Load Transient Response
GUID-47E0933A-691A-4369-A0DE-FA29317115C3-low.png
Vin = 6 V to 8.4 V;PFMIo = 1 A
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-47 Line Transient Response
GUID-22721DBD-7AAA-4C74-A97A-FF7F167B0134-low.png
Vin = 5VPWMRload = 1 kΩ
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-49 Start-Up Timing
GUID-F4376711-40E6-4688-8A30-1B4555315848-low.png
Vin = 12 VPWMIo = 1 A
Vout = 3.3 VFSEL = highTA= 25 °C
Figure 10-51 Output Voltage Ripple
GUID-131EC50D-39F5-40F2-BCD6-DCF29EDD24B2-low.gif
Vin = 12 VPWMIo = 200 mA to 1.8 A
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-53 Load Transient Response
GUID-68BA3253-A968-4403-8F8F-440078C43F74-low.png
Vin = 6 V to 8.4 V;PWMIo = 1 A
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-55 Line Transient Response
GUID-8800CCBA-4DAC-4113-9DE5-E7C2FA2E0A03-low.png
Vin = 12 VPFMIo = 0.1 A
Vout = 5 VFSEL = highTA= 25 °C
Figure 10-57 Output Voltage Ripple
GUID-4A2BEA5F-EB00-4CE5-A52D-9A2206D898AD-low.gif
Vin = 12 VPFMIo = 200 mA to 1.8 A
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-59 Load Transient Response
GUID-851BFD85-90E3-4F18-8D28-9864E7FB5C48-low.png
Vin = 12 V to 15 V;PFMIo = 1 A
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-61 Line Transient Response
GUID-C4E52B9B-5C1D-4C63-AF54-A422BB2D4B20-low.png
Vin = 12 VPWMRload = 1 kΩ
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-63 Start-Up Timing
GUID-E561238F-75DD-4C64-A779-62005AE055AC-low.png
Vin = 12 VPWMIo = 1 A
Vout = 9 VFSEL = highTA= 25 °C
Figure 10-65 Output Voltage Ripple
GUID-E76D6D8C-E778-4BBF-B05E-A05F06F89701-low.gif
Vout = 1.2 VPWM FSEL = lowTA= 25 °C
Figure 10-67 Switching Frequency vs Input Voltage
GUID-2182706E-1C77-47C4-8CDB-BE2C694A2445-low.gif
Vout = 1.8 VPWM FSEL = lowTA= 25 °C
Figure 10-69 Switching Frequency vs Input Voltage
GUID-D734B8F1-BB62-430E-B846-7C56E99D916E-low.gif
Vout = 3.3 VPWM FSEL = lowTA= 25 °C
Figure 10-71 Switching Frequency vs Input Voltage
GUID-F12CEEBD-F72F-4657-B1AC-3DA859C7E26B-low.gif
Vout = 5 VPWM FSEL = highTA= 25 °C
Figure 10-73 Switching Frequency vs Input Voltage
GUID-63B671BC-2FCE-4E5B-9C0D-2DF45D91BF53-low.gif
Vout = 5 VPWM FSEL = highIout = 1 A
Figure 10-75 Switching Frequency vs Junction Temperature
GUID-C7C76CAD-FE23-4BF1-A133-FFF85A8DBD9E-low.gif
Vout = 9 VPWM FSEL = lowTA= 25 °C
Figure 10-77 Switching Frequency vs Input Voltage
GUID-E950EF01-23A4-47A4-A343-062FD29413DF-low.gif
Figure 10-79 Feedback Voltage Accuracy with Voltage Tracking vs Voltage at VSS/TR