SLVUBX2B August   2020  – May 2021

 

  1.   Trademarks
  2. 1Introduction
    1. 1.1 Performance Specification
    2. 1.2 Modifications
      1. 1.2.1 Input and Output Capacitors
      2. 1.2.2 Configurable Enable Threshold Voltage
      3. 1.2.3 NR/SS Capacitor
      4. 1.2.4 Feedforward Capacitor
      5. 1.2.5 S-CONF Resistor
      6. 1.2.6 Loop Response Measurement
      7. 1.2.7 Single LC Filter Operation
  3. 2Setup
    1. 2.1 Input/Output Connector Descriptions
    2. 2.2 Ripple Measurement Setup
  4. 3 Test Results
  5. 4 Board Layout
  6. 5Schematic and Bill of Materials
    1. 5.1 Schematic
  7. 6Bill of Materials
  8.   A Ripple Measurements With Mis-oriented Inductor
  9.   Revision History

1.2.6 Loop Response Measurement

The loop response can be measured with simple changes to the circuitry. First, install a 49.9-Ω resistor across R5's pads on the back of the PCB and install a 0-Ω resistor across R8's pads on the back of the PCB. The pads are spaced to allow installation of a 0603-sized resistors. Second, cut the trace on the bottom layer below the added 49.9-Ω resistor. Figure 1-1 shows these changes. Third, cut the short section of trace on the top layer between the via on pin 3 and C4. Figure 1-2 shows this change. Lastly, replace the ferrite bead (FB1) with a 0-Ω resistor. The second LC filter must be removed to break the complete feedback loop and measure the loop response. With these changes, an AC signal (10-mV, peak-to-peak amplitude recommended) can be injected into the control loop across the added 49.9-Ω resistor. Figure 3-2 shows the results of this test.

GUID-20200729-CA0I-KZMR-SNHB-PDLLXGPVJ2QZ-low.png Figure 1-1 Loop Response Measurement Modification (Bottom Layer).
GUID-20200729-CA0I-6NBH-XDSV-0JMRRGVQZGNX-low.png Figure 1-2 Loop Response Measurement Modification (Top Layer).