SLVK163 November   2023 TPS7H6003-SP

PRODUCTION DATA  

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Device Information
    1. 1.1 Product Description
    2. 1.2 Device Details
  5. 2Total Dose Test Setup
    1. 2.1 Test Overview
    2. 2.2 Test Description and Facilities
    3. 2.3 Test Setup Details
      1. 2.3.1 Unbiased
      2. 2.3.2 Biased
    4. 2.4 Test Configuration and Condition
  6. 3TID Characterization Test Results
    1. 3.1 TID Characerization Results Summary
    2. 3.2 Data Sheet Electrical Parameters
  7. 4Applicable and Reference Documents
    1. 4.1 Applicable Documents
    2. 4.2 Reference Documents
  8.   A Appendix: HDR TID Report

2.3.2 Biased

Figure 2-2 and Figure 2-3 show HDR bias diagram & schematic.

Table 2-1 DUT Power Supply Bias and Vout measurements
Power Supply Bias
Edge Connector BUS Typical Comments
Power Supply BUS A VIN 14VDC 14VDC - Fixed power supply
BUS D BOOT 14VDC 14VDCWRTSW - Floating power supply WRT to SW
BUS B ASW 0-150 V Increase HV gradually. Recommend using safety interlock HV protection when working with high voltage.
DUT Vout Measurements
VOUT Test Points TP_PGOOD ON 5 V LS is ON
TP_LO PWM_LI 1.8 V PWM mode
TP_HO PWM_LI DC WRT ASW 3.51 V PWM mode
TP_SW SW = PSW = ASW 0-150 V SW = PSW = ASW
PWM_LI DUT Mon 1.85 V DUT monitor edge connector.
GUID-20231129-SS0I-QBM7-KTFZ-CHV2L0QFVTRV-low.png Figure 2-1 HDR TID Hardware
GUID-20231129-SS0I-VRSQ-KNGB-P7B16JRJFF1D-low.png Figure 2-2 High-Side TID Bias Diagram
GUID-20231129-SS0I-SHXG-LWJF-2SHLVBZWCNQQ-low.png Figure 2-3 Low-Side TID Bias Diagram