Difference between revisions of "Detailed plan for testing production SiPM units"
From GlueXWiki
(→Single sensor tests at room temperature (Carl)) |
|||
| Line 12: | Line 12: | ||
#* Measure output with calibrated light source to determine PDE for array. | #* Measure output with calibrated light source to determine PDE for array. | ||
# When both sensors are available, measure SensL and Hamamatsu with the same illumination for comparison. | # When both sensors are available, measure SensL and Hamamatsu with the same illumination for comparison. | ||
| − | # | + | |
| + | == Stability tests of light sensors == | ||
| + | # Keep several samples for reference | ||
| + | # Arrays under test should be powered continuously. | ||
| + | # Measure response to high light levels (e.g. x20, x100 expected) | ||
| + | # Radiation damage tests | ||
| + | #* Radcon Cs-137 130 mCi calibrated radioactive source available for irradiating sensors. | ||
| + | #* Place SiPM in a small portable dark box fully powered. Use LED light pulser to monitor response as sensor is irradiated. | ||
| + | # Temperature stability tests | ||
| + | #* Cycle samples through temperature range and verify robustness. | ||
| + | # Note that the expected exposure in Hall D is 0.14 Gy/year at high intensity running. | ||
| + | # Output may be monitored using a picoAmmeter | ||
| + | |||
== Single sensor tests at 5 deg (nominal) (Carl) == | == Single sensor tests at 5 deg (nominal) (Carl) == | ||
| − | # Install Peltier on each sensor gluing the Peltier to the "hot plate" and attaching the hot plate to the sensor package using a thermal paste. | + | # It is desirable to test SensL units at 5 deg. C. |
| − | # Repeat measurements performed at room temperature, but at | + | # Options |
| + | #* Place entire setup in a "ice-cold" box | ||
| + | #* Install Peltier on each sensor gluing the Peltier to the "hot plate" and attaching the hot plate to the sensor package using a thermal paste. | ||
| + | # Repeat measurements performed at room temperature, but at the lower nominal 5deg operating temperature | ||
# If possible measure the dark rate in this configuration. | # If possible measure the dark rate in this configuration. | ||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
== Realistic exposures to radiation == | == Realistic exposures to radiation == | ||
# Measurements in Hall B? | # Measurements in Hall B? | ||
Revision as of 11:47, 5 October 2009
DRAFT DRAFT
Discussion notes of July 23, moved to this page for future development.
Contents
Testing of electronic components (Fernando)
- Fernando showed a tentative SiPM_Dev_Schedule, showing that testing of the electronics should be completed by mid October.
- Output of the preamp will be one signal per array.
Single sensor tests at room temperature (Carl)
- Check that all 16 cells are operational by scanning across array. Identify any problems with individual cells within the array.
- Noise levels will be too high to measure dark rate directly -- Dark current will be measured for the array instead.
- PDE can be determined relative to single-cell 3x3 mm2 units
- Measure output with calibrated light source to determine PDE for array.
- When both sensors are available, measure SensL and Hamamatsu with the same illumination for comparison.
Stability tests of light sensors
- Keep several samples for reference
- Arrays under test should be powered continuously.
- Measure response to high light levels (e.g. x20, x100 expected)
- Radiation damage tests
- Radcon Cs-137 130 mCi calibrated radioactive source available for irradiating sensors.
- Place SiPM in a small portable dark box fully powered. Use LED light pulser to monitor response as sensor is irradiated.
- Temperature stability tests
- Cycle samples through temperature range and verify robustness.
- Note that the expected exposure in Hall D is 0.14 Gy/year at high intensity running.
- Output may be monitored using a picoAmmeter
Single sensor tests at 5 deg (nominal) (Carl)
- It is desirable to test SensL units at 5 deg. C.
- Options
- Place entire setup in a "ice-cold" box
- Install Peltier on each sensor gluing the Peltier to the "hot plate" and attaching the hot plate to the sensor package using a thermal paste.
- Repeat measurements performed at room temperature, but at the lower nominal 5deg operating temperature
- If possible measure the dark rate in this configuration.
Realistic exposures to radiation
- Measurements in Hall B?
