Difference between revisions of "SiPMs"
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==XAMS SiPMs== | ==XAMS SiPMs== | ||
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Hamamatsu S13370-3050CN sensitive in the VUV region | Hamamatsu S13370-3050CN sensitive in the VUV region | ||
− | [[Media:KSX-I50133-E_VUV-MPPC_b.pdf|Data sheet VUV SiPMs S13370 series]] | + | <br>[[Media:KSX-I50133-E_VUV-MPPC_b.pdf|Data sheet VUV SiPMs S13370 series]] |
− | [[Media:SiPM Data Sheet S13370-3050CN.xlsx|Data sheet (sensor specific)]] | + | <br>[[Media:SiPM Data Sheet S13370-3050CN.xlsx|Data sheet (sensor specific)]] |
XAMS readout board design shown below. | XAMS readout board design shown below. |
Revision as of 10:01, 22 February 2022
XAMS SiPMs
Hamamatsu S13370-3050CN sensitive in the VUV region
Data sheet VUV SiPMs S13370 series
Data sheet (sensor specific)
XAMS readout board design shown below.
Sensor troubleshooting
How to connect the sensor
The SiPM has a cathode and an anode as can be seen in the schematic drawing below, the drawing also shows how the SiPM is oriented as a diode. A SiPM needs to be reversed biased, which means the voltage at the cathode is higher than at the anode. This way there is no current flowing until the electric field is so high the SiPM brakes down, the brake down voltages of the used SiPMs is also shown below. Sensor 1804 was already marked as defect, but we still used it to test our electronics just to be sure it worked without breaking a new sensor. This sensor first gave signals which made it seem like it was still working, but after switching around electronics we were not able to get a signal. We therefore decided to check all the used sensors if they are broken.
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Wanting to check if a sensor is working correct we asked Martin van Beuzekom for the R & D lab to help us and helped us with a method to determine if a sensor is broken. First we wanted to check if the anode and cathode were indeed oriented as was depicted on the schematics. To check this we need to characterize the voltage vs. current. The characteristic graph of how this would look like could be found below. So what we do to check, is connect the SiPM with what we think is the cathode to the positive of the voltage source and the anode to the negative. We then apply a very low (around 0.1 [V]) voltage on the SiPM and increase it in steps of 0.1 [V]. If the diode is broken the current will increase linearly, and when the voltage applied is negative it will be again linear. This implies the diode is just an open connection and thus broken. If when the positive voltage is applied we see an exponential growth in the current we know it is connected in forward biasing mode. We then flip the current and we then expect the current to increase only in the region of the breakdown voltage.
So sensor 1804 gave the linear characteristic, confirming to us it is broken and cannot be used to check our electronics.
Cable impedances and noise
Tekst