SLVK145 august   2023 TPS7H2201-SEP

PRODUCTION DATA  

  1.   1
  2.   Single-Event Effects Test Report of the TPS7H2201-SEP eFuse
  3.   Trademarks
  4. Introduction
  5. Single-Event Effects
  6. Device and Test Board Information
  7. Irradiation Facility and Setup
  8. Depth, Range, and LETEFF Calculation
  9. Test Setup and Procedures
  10. Destructive Single-Event Effects (DSEE)
    1. 7.1 Single-Event Latch-Up (SEL) Results
    2. 7.2 Single-Event Burnout (SEB) and Single-Event Gate Rupture (SEGR) Results
  11. Single-Event Transients (SET)
    1. 8.1 Single Event Transients
  12. Event Rate Calculations
  13. 10Summary
  14.   A References

7.1 Single-Event Latch-Up (SEL) Results

During SEL characterization, the device was heated using forced hot air, maintaining the DUT temperature at 125°C. The die temperature was monitored prior to radiation using a FLIR IR-camera.

The species used for the SEL testing was Silver (109Ag) ion with an angle-of-incedence of 0° for an LETEFF = 48 MeV·cm2/mg (for more details, see Depth, Range, and LET EFF Calculation). The kinetic energy in the vacuum is 1.634 GeV (15-MeV/amu line). Flux of approximately 105 ions/cm2·s and a fluence of approximately 107 ions/cm2 were used for the three runs. Run duration to achieve this fluence was approximately 2 minutes (per 1 × 107 ions·cm2). The three devices were powered up and exposed to the heavy-ions using the maximum recommended voltage of 7 V and maximum load of 6 A. No SEL events were observed during all three runs, indicating that the TPS7H2201-SEP is SEL-free. Table 8-3 shows the SEL test conditions and results. Figure 7-2 shows a typical plot of current versus time for an SEL testing.

Table 7-1 Summary of TPS7H2201-SEP SEL Test Condition and Results

For all runs, the device was loaded with a ≈ 6 amps load.

Run NumberUnit NumberIonLETEFF (MeV·cm2/mg)Flux (ions·cm2/s)Fluence (ions·cm2)VIN (V)
11109Ag481.02 × 1051.00 × 1077
22109Ag488.60 × 1041.00 × 1077
33109Ag481.08 × 1051.00 × 1077

Using the MFTF method described in SLVK047 and combining (or summing) the fluences of the eight runs at 125°C (3.00 × 107 ions·cm2), the upper-bound cross-section (using a 95% confidence level) is calculated as:

Equation 1. σSEL 1.22 x 10-7cm2devicefor LETEFF=48 MeVcm2mgand T=125°C
GUID-20230810-SS0I-90PR-3W11-LVSSKJMJTBGH-low.svg Figure 7-1 Current vs Time for Run # 1 of the TPS7H2201-SEP at T = 125°C