SLAU416B January   2012  – November 2021 TLV62130 , TLV62130A , TLV62150 , TLV62150A

 

  1.   Trademarks
  2. 1Introduction
    1. 1.1 Background
    2. 1.2 Performance Specification
    3. 1.3 Modifications
      1. 1.3.1 Input and Output Capacitors
      2. 1.3.2 Soft-Start Time
      3. 1.3.3 Loop Response Measurement
  3. 2Setup
    1. 2.1 Input/Output Connector Descriptions
    2. 2.2 Setup
  4. 3TLV621x0EVM-505 Test Results
  5. 4Board Layout
  6. 5Schematic and Bill of Materials
    1. 5.1 Schematic
    2. 5.2 Bill of Materials
  7. 6Revision History

TLV621x0EVM-505 Test Results

This section provides test results of the TLV621x0EVM-505.

GUID-F11C5338-CD84-4296-BDA0-53DA6AFDEB18-low.gifFigure 3-1 Efficiency With 1-µH Inductor and FSW = LOW (High Frequency)
GUID-B6BEF794-03F3-4760-A252-425C45BB36EE-low.gifFigure 3-2 Efficiency With 2.2-µH Inductor and FSW = LOW (High Frequency)
GUID-350625B7-D815-4109-B8F2-3B3A27B325F4-low.gifFigure 3-3 Efficiency With 2.2-µH Inductor and FSW = HIGH (Low Frequency)
GUID-8405D957-5535-4437-9D31-8B14AC417866-low.gifFigure 3-4 Load Regulation With 2.2-µH Inductor and FSW = LOW (High Frequency)
GUID-4773CA19-DCE0-4A34-80A7-D71B1D52C8BF-low.gifFigure 3-5 Line Regulation With 2.2-µH Inductor and FSW = LOW (High Frequency) and IOUT = 1 A
GUID-DBA75EF4-F68C-4AC1-9450-C5CD57AC2E4D-low.gifFigure 3-6 Loop Response With 2.2-µH Inductor and FSW = LOW (High Frequency) and VIN = 12 V and IOUT = 1 A
GUID-C04CBBFE-A955-4726-B2C1-7FE5C7FF8CCE-low.gifFigure 3-7 Input Voltage Ripple With 2.2-µH Inductor and FSW = LOW (High Frequency) and VIN = 12 V and IOUT = 1 A
GUID-7094F16B-798F-402E-80E6-1F74D6E28470-low.gifFigure 3-8 Output Voltage Ripple With 2.2-µH Inductor and FSW = LOW (High Frequency) and VIN = 12 V and IOUT = 1 A
GUID-549AE799-7704-48A4-BCA5-DFB4E54245E8-low.gifFigure 3-9 Output Voltage Ripple With 2.2-µH Inductor and FSW = HIGH (Low Frequency) and VIN = 12 V and IOUT = 1 A
GUID-6A0E6068-473A-4CD7-8DBD-63AA10328173-low.gifFigure 3-10 Load Transient Response With 1-µH Inductor and VIN = 12 V
GUID-5C6BB1A1-7CA6-48B7-AFEB-EF2C6DA86227-low.gifFigure 3-11 Load Transient Response With 2.2-µH Inductor and VIN = 12 V
GUID-2A9DFEEF-2CA0-4009-BC3F-D132B4545102-low.gifFigure 3-12 Start-Up on EN with 1-A Load and VIN = 12 V
GUID-A56CCE0B-2352-46FA-8386-8835022DF2EF-low.gifFigure 3-13 Shutdown on EN with 1-A Load and VIN = 12 V
GUID-8E6ECA8B-2DCF-4D81-8D75-344FEBF1071F-low.gifFigure 3-14 TLV62130 Prebias Start-Up and Shutdown on EN With 1-A Load and VIN = 12 V
GUID-823521BC-711B-4D57-89A6-0142EB1449B2-low.gifFigure 3-15 TLV62130A Prebias Start-Up and Shutdown on EN With 1-A Load and VIN = 12 V
GUID-FE832A38-EA80-4058-9161-B887387F4D97-low.gif
VIN = 12 V and IOUT = 3 A and FSW = LOW (high frequency)
Figure 3-16 Thermal Performance With 1-µH Inductor
GUID-81AE1D4E-F3C8-432D-AADC-5E74381771BD-low.gif
VIN = 12 V and IOUT = 3 A and FSW = HIGH (low frequency)
Figure 3-17 Thermal Performance With 2.2-µH Inductor