SNVAA85 august   2023 LM25143 , LM25143-Q1 , LM25148 , LM25148-Q1 , LM25149 , LM25149-Q1 , LM5143 , LM5143-Q1 , LM5148 , LM5148-Q1 , LM5149 , LM5149-Q1 , LM61460 , LM61460-Q1 , LM61480 , LM61480-Q1 , LM61495 , LM61495-Q1 , LM62460 , LM62460-Q1 , LMQ61460 , LMQ61460-Q1 , TPSM63604 , TPSM63606 , TPSM63608 , TPSM63610

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction
  5. 2General Simple CC/CV Configuration Circuit
    1. 2.1 CC Circuit Design
    2. 2.2 CV Circuit Design
  6. 3Example Schematic
  7. 4Test Results and Performance Curves
    1. 4.1 Test Method
    2. 4.2 Power Module (TPSM63610)
    3. 4.3 Converter (LM61495)
    4. 4.4 Controller (LM5149)
  8. 5Summary
  9. 6References

4.2 Power Module (TPSM63610)

Figure 4-12 shows load regulation and the voltage setpoint with reducing output resistance of TPSM63610. Figure 4-13 shows the load and line regulation of TPSM63610.

GUID-20230804-SS0I-PBRM-WSQ4-LW62WK2X2HBH-low.svgFigure 4-2 Load Regulation at Different Vin with Reducing Rload (Vout / Iout) for TPSM63610
GUID-20230804-SS0I-B4ZT-R8DR-QVW4VXFHNX5Q-low.svgFigure 4-3 TPSM63610 Load and Line Regulation

Figure 4-14 shows the waveforms of SW (CH1), Vout_ripple (CH2) and Iout (CH3) at 36 V (Vin), 4 V (Vout) at 8 A (CC mode).

GUID-20230718-SS0I-WHVZ-6PJM-STNJW1TH4LZB-low.svgFigure 4-4 Steady-State Waveforms for TPSM63610

Figure 4-5 and Figure 4-6 show the load-transient performance Vout (CH4) and Iout (CH3) when stepping a constant resistive load from 10 Ω to 0.5 Ω (CV to CC) and 0.5 Ω to 10 Ω (CC to CV).

GUID-20230718-SS0I-LTKP-TMPZ-MZFWL2TDVT5C-low.svgFigure 4-5 Load-Transient Performance for TPSM63610 (CV to CC)
GUID-20230718-SS0I-HFPX-XZL4-TZPKB5VMTP0M-low.svgFigure 4-6 Load-Transient Performance for TPSM63610 (CC to CV)