SBOK096A February 2025 – March 2025 SN54SC8T164-SEP , SN54SC8T374-SEP , SN54SC8T574-SEP , SN54SC8T595-SEP
5.1 SEL Results
During SEL characterization, the device was heated using forced hot air, maintaining device temperature at 125°C. A FLIR (FLIR ONE Pro LT) thermal camera was used to validate die temperature to make sure the device was accurately heated (see Figure 4-2.) The species used for SEL testing was a Xenon (129Xe) ion at 25MeV / μ with an angle-of-incidence of 0° for an LETEFF of 50MeV-cm2/ mg. A fluence of approximately 1 × 107 ions / cm2 was used for each run.
The three devices were powered up and exposed to the heavy-ions using the maximum recommended supply voltage of 5.5V using a National Instruments? PXI Chassis PXIe-4139 and a 5V, 1MHz and 0.5MHz square wave input using a National Instruments? PXI Chassis PXIe-5423 function generator. The run duration to achieve this fluence was approximately 100 seconds. As listed in Table 5-2, no SEL events were observed during the nine runs, indicating that the SN54SC8T595-SEP is SEL-free. Figure 5-1, Figure 5-2, and Figure 5-3 show the plots of current versus time for runs one, thirteen, and twenty-four, respectively.
| Run Number | Unit Number | Distance (mm) | Temperature (°C) | Ion | Angle | Flux (ions × cm2 / mg) | Fluence (Number of ions) | LETEFF (MeV × cm2/mg) | Did an SEL Event Occur? |
|---|---|---|---|---|---|---|---|---|---|
| 1 | B3 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 2 | B3 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 3 | B3 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 11 | B6 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 12 | B6 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 13 | B6 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 22 | B7 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 23 | B7 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
| 24 | B7 | 70 | 125 | Xe | 0° | 1.00E+05 | 1.00E+07 | 50 | No |
Figure 5-1 Current versus Time for Run 1 of the SN54SC8T595-SEP at T = 125°C
Figure 5-2 Current versus Time for Run 13 of the SN54SC8T595-SEP at T = 125°C
Figure 5-3 Current versus Time for Run 24 of the SN54SC8T595-SEP at T = 125°CNo SEL events were observed, indicating that the SN54SC8T595-SEP is SEL-immune at LETEFF = 50MeV-cm2 / mg and T = 125°C. Using the MFTF method shown in Single-Event Effects (SEE) Confidence Internal Calculations , the upper-bound cross-section (using a 95% confidence level) is calculated as: