During the SEB/SEGR characterization, the device was tested at around 25°C.

The species used for the SEB/SEGR testing was a Xenon (¹²⁹Xe) ion and a Silver (¹⁰⁹Ag) with an angle-of-incidence of 0° for an LET_EFF = 42.7 and 46.8 MeV·cm²/mg (for more details refer to Section 5). The kinetic energy in the vacuum for this ¹²⁹Xe is 3.197 GeV (25-MeV/amu line) and for ¹⁰⁹Ag is 1.634 GeV (15-MeV/nucleon line). Flux of approximately 10⁵ ions/cm²·s and a fluence of approximately 10⁷ ions/cm² were used for the ten runs. Run duration to achieve this fluence was approximately 2 minutes. The five devices were powered up using the recommended maximum voltage of 5.5-V and loaded to 1.25-A using either the power resistor or the chroma load in CR mode. The TPS7H2221-SEP was tested under enabled and disabled modes, the device was disabled by using the ON pin forcing ON to 0 V through the PXIe-4139 SMU. The power resistor or Chroma E-Load were connected, even when the device was disabled, to help differentiate if an SET momentarily activated the device under the heavy-ion irradiation. During SEB/SEGR testing with the device "disabled", no V_OUT transient or input current events were observed. No SEB/SEGR events were observed during all ten runs, indicating that the TPS7H2221-SEP is SEB/SEGR-free up to LET_EFF = 46.8 MeV·cm²/mg and across the full electrical specifications. Table 7-2 shows the SEB/SEGR test conditions and results. Figure 7-2 shows a plot of the current vs time for run # 6 (Enabled) and Figure 7-3 for run # 7 (Disabled).

Using the MFTF method described in Single-Event Effects (SEE) Confidence Interval Calculations application report and combining (or summing) the fluences of the six ¹²⁹Xe runs @ 25°C (6 × 10⁷) and the four ¹⁰⁹Ag runs @ 25°C (4 × 10⁷), the upper-bound cross sections (using a 95% confidence level) are calculated as:

σ_SEB ≤ 6.15 × 10^–8 cm²/device for LET_EFF = 42.7 MeV·cm²/mg and T ≤ 25°C.

σ_SEB ≤ 9.24 × 10^–8 cm²/device for LET_EFF = 46.8 MeV·cm²/mg and T ≤ 25°C.