During the SEB characterization, the device was tested at room temperature of approximately 25°C. The device was tested with INL = 5V and INH = 0V. For the SEB-OFF mode the the device did exhibit some cross conduction, as well as GL dropping to zero volts and then recovering.

The species used for the SEB testing was Silver (¹⁰⁹Ag at 15MeV / nucleon). For the ¹⁰⁹Ag ion an angle of incidence of 0° was used to achieve an LET_EFF = 47.2MeV × cm² / mg (for more details, see Ion LET_EFF, Depth, and Range in Silicon). The kinetic energy in the vacuum for this ion is 1.634 GeV (15-MeV / amu line). Flux of approximately 10⁵ ions / cm² × s and a fluence of approximately 10⁷ ions / cm² was used for the run. Run duration to achieve this fluence was approximately 100 seconds. The DRV8351-SEP was powered with PVDD = 40V, GVDD = 15V. The inputs were biased such that the low side inputs were held at 5V while the high side inputs were tied to ground, this maintained that the bootstrap capacitor were charged. The goal was to look for transients on either GH or GL for unexpected behavior. It was observed that we had cross conduction events similar to our SET results. Additionally it was seen that the low side GL would drop down to ~2V then recovering back to nominal value.Summary of DRV8351-SEP SEB Test Condition and Results shows the SEB/SEGR test conditions and results.

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

Figure 7-5 SEB on Run 14 (INH = 0V, INL = 5V) | GVDD

Figure 7-6 SEB on Run 14 (INH = 0V, INL = 5V) | PVDD

Figure 7-7 SEB On Run 12 (INH = 0V, INL = 5V) | GVDD

Figure 7-8 SEB On Run 12 (INH = 0V, INL = 5V) | PVDD