SLVK174 September   2024 TPS7H1121-SP

 

  1.   1
  2.   TPS7H1121-SP Single-Event Effects (SEE)
  3.   Trademarks
  4. Introduction
  5. Single-Event Effects (SEE)
  6. Device and Test Board Information
    1. 3.1 Device and Test Board Information Continued
  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)
  12. Event Rate Calculations
  13. 10Summary
  14.   A Total Ionizing Dose from SEE Experiments
  15.   B References

Single-Event Burnout (SEB) and Single-Event Gate Rupture (SEGR) Results

During the SEB/SEGR characterization, the device was tested at room temperature of approximately 25°C. The device was tested under both the enabled and disabled mode. For the SEB-Off test, the device was disabled using the EN-pin by forcing 0V (using CH #1 of a Keysight E36311A PS). During the all SEB/SEGR testing, not a single input current event was observed.

The species used for SEB/SEGR testing were Thulium (169Tm at 20.3 MeV/nucleon, MSU facility) and Holmium (165Ho at 15 MeV/nucleon, TAMU facility). For both ions an incident angle of 0° was used to achieve an LETEFF = 75 MeV·cm2/mg (for more details refer to Ion LETEFF, Depth, and Range in Silicon). The kinetic energy in the vacuum for 169Tm is 3.431 GeV and 165Ho is 2.474 GeV. Flux of 5.08 x 104 to 1.07 x 105 ions/cm2·s and a fluence of approximately 107 ions/cm2 per run was used. Run duration to achieve this fluence was between 2-4 minutes. The six units (same as used in SEL testing) were powered up and exposed to the heavy-ions using the maximum recommended input voltage of 14V. No SEB/SEGR current events were observed during the 12 runs, indicating that the TPS7H1121-SP is SEB/SEGR-free up to LETEFF = 75 MeV·cm2/mg and across the full electrical specifications. Summary of TPS7H1121-SP SEB/SEGR Test Condition and Results shows the SEB/SEGR test conditions and results. Figure 7-3, Figure 7-4, and Figure 7-3 show plots of the current vs time for runs #7, #8, and #11.

Table 7-2 Summary of TPS7H1121-SP SEB/SEGR Test Condition and Results
Run # Unit #

Facility

Ion LETEFF (MeV·cm2/mg) Flux (ions·cm2/mg) Fluence (# ions) Enabled Status

VOUT

IOUT (A)

SEB (# Events)

7

1

MSU

169Tm

75

1.03 x 105

1.00 x 107

EN

13.3

2

0

8

1.07 x 105

1.00 x 107 DIS

0

0

9

2

MSU

169Tm

75

9.69 x 104

1.00 x 107

EN

13.3

2

0

10

9.36 x 104

1.00 x 107

DIS

0

0

11

3

MSU

169Tm

75

1.03 x 105

1.00 x 107

EN

0.6

0.1

0

12

1.03 x 105

1.00 x 107

DIS

0

0

13

4

MSU

169Tm

75

9.76 x 104

1.00 x 107

EN

0.6

0.1

0

14

9.85 x 104

1.00 x 107

DIS

0

0

15

5

TAMU

165Ho

75

5.08 x 104 1.00 x 107

EN

13.3

2

0

16

5.94 x 104 1.00 x 107

DIS

0

0

17

6

TAMU

165Ho

75

5.81 x 104 1.00 x 107

EN

0.6

0.1

0

18

6.18 x 104 1.00 x 107

DIS

0

0

Using the MFTF method described in Single-Event Effects (SEE) Confidence Interval Calculations application report, the upper-bound cross-section (using a 95% confidence level) is calculated as:

σSEB ≤ 3.07 x 10-8 cm2/device for LETEFF = 75 MeV·cm2/mg and T = 25°C.

 SEB On Current Versus Time for
                    Run #7 of the TPS7H1121-SP at T = 25°C (VOUT = 13.3V) Figure 7-3 SEB On Current Versus Time for Run #7 of the TPS7H1121-SP at T = 25°C (VOUT = 13.3V)
 SEB Off Current Versus Time
                    for Run #8 of the TPS7H1121-SP at T = 25°C (VOUT = 0V) Figure 7-4 SEB Off Current Versus Time for Run #8 of the TPS7H1121-SP at T = 25°C (VOUT = 0V)
 SEB On Current vs Time for Run #11 of the TPS7H1121-SP at T = 25°C
                        (VOUT = 0.6V) Figure 7-5 SEB On Current vs Time for Run #11 of the TPS7H1121-SP at T = 25°C (VOUT = 0.6V)