Irradiation Tests of Electronic Components
The irradiation tests were carried out at Gießen Irradiation Facility, where the ICs were irradiated
with a Co60-source, which emits two photons with an energy of 1.17 and 1.33 MeV by its decay.
The source has an activity of 10
13 Bq, thus a rate of about 215 Gy/h at a distance of 20 cm and
54 Gy/h at a distance of 40 cm, respectively, can be achieved. The table below shows the results of the
irradiation tests:
| Part |
Description |
Package |
Total dose [Gy] |
Survived |
Tested qty |
Comment |
| 78XX |
3.3 V |
positive voltage regulator |
TO220 |
1200 |
yes |
8 |
|
| 12.0 V |
TO220 |
1200 |
yes |
8 |
|
| 79XX |
12.0 V |
negative voltage regulator |
TO220 |
1200 |
yes |
8 |
|
| AD623 |
rail-to-rail instrumentation amplifier |
MSOP08 |
1100 |
yes |
10 |
|
| AD8554 |
rail-to-rail quad operational amplifier |
TSSOP14 |
1100 |
yes |
8 |
|
| AT90CAN64 |
8 bit AVR microcontroller |
TQFP64 |
720 |
yes |
8 |
|
| BAT54S |
schottky diode |
SOT-23 |
80 |
yes |
2 |
|
| HIH-4000 |
humidity sensor |
|
1040 / 4150 |
died at 550 Gy |
12 |
|
| HSMS2822 |
schottky diode |
SOT-23 |
80 |
yes |
2 |
|
| INA138 |
current shunt monitor |
SOT-23 |
80 |
yes |
2 |
|
| L78M05CDT |
5.0 V |
positive voltage regulator |
DPAK |
83.8 |
yes |
4 |
|
| LM337L |
-1.2V to 37V |
adjustable neg. voltage regulator |
SOT-223 |
80 |
yes |
2 |
|
| LM317L |
1.2V to 37V |
adjustable pos. voltage regulator |
SOT-223 |
80 |
yes |
2 |
|
| LP3855 |
3.3 V |
positive low drop-out regulator |
SOT223-5 |
1040 / 4150 |
died at 430 Gy |
12 |
|
| 5.0 V |
SOT223-5 |
1040 / 4150 |
died at 500 Gy |
12 |
obsolete? |
| LP38692 |
3.3 V |
positive low drop-out regulator |
SOT223-5 |
1040 / 4150 |
died at 2 kGy? |
12 |
|
| 5.0 V |
SOT223-5 |
1040 / 4150 |
died at 2 kGy? |
12 |
|
| LP3962 |
3.3 V |
positive low drop-out regulator |
SOT223-5 |
1200 |
yes |
8 |
|
| 5.0 V |
SOT223-5 |
1200 |
yes |
8 |
obsolete |
| LS Q976 |
LED |
0603 |
80 |
yes |
2 |
|
| LT1175 |
5.0 V |
negative low drop-out regulator |
SOT223 |
1040 / 4150 |
died at 630 Gy |
12 |
|
| LT1964 |
5.0 V |
negative low drop-out regulator |
SOT23-5 |
1040 / 4150 |
died at 90 Gy |
12 |
|
| LTC6652 |
precision voltage reference |
MSOP08 |
1100 |
yes |
8 |
|
| MAX1148 |
14-bit multichannel ADC |
TSSOP20 |
1100 |
yes |
8 |
|
| MAX4581 |
8:1 multiplexer |
TSSOP16 |
1100 |
yes |
10 |
|
| MC79L05ACDG |
-5.0 V |
negative voltage regulator |
SOIC-8 |
83.8 |
yes |
4 |
|
| MIC5200 |
3.3 V |
positive low drop-out regulator |
SO08 |
660 |
yes |
8 |
|
| 5.0 V |
SOT223 |
660 |
died immediately |
8 |
|
| PCA82C250 |
CAN transceiver |
SO08 |
1100 |
yes |
8 |
|
| UA78L05ACDG |
5.0 V |
positive voltage regulator |
SOIC-8 |
83.8 |
yes |
4 |
|
| UA78M33CDCY |
3.3 V |
positive voltage regulator |
SOT223 |
83.8 |
yes |
4 |
|
Parts with 2 values for the total dose where irradiated 19 hours at a distance of 20 cm (215 Gy/h, 4 parts) and 40 cm (54 Gy/h, 8 parts), respectively.
The given "died at" values are the
minimum dose these parts withstood! In particular the maximum dose which the humidity sensors HIH-4000 withstand seems to have a large spread! In out measurement some sensors withstood a total dose of 1.6 kGy or even more, but most of these sensors died at a dose of 550 to 700 Gy
--
FlorianFeldbauer - 03 Mar 2010