Recommended modification after beam test

## Outline * Modify the LED source so that its intensity is similar to beam test * Bule Scintillater -> Green Scintillater * ~~1mm -> 2mm~~ * ~~Aperture, F#~~ * Fiber Socket can't insert it * Reverse bias of Photodiodes: **Maybe are not necessary** * Adjuster as the best dynamic range for us * Why I need OP-AMP for photodiode? * Input impedance of OP-AMPs * Feasibility for 200 ohm *Rfb* * Layout and design ## 1. Modify the LED source so that its intensity is similar to beam test ``` text BNC_SRC -> R_LED -> LED -> BNC_GND ``` * R_LED: 1k ohm -> 10k ohm * Rfb: 100M ohm * ![](https://i.imgur.com/doRIven.png) ## 2. Bule Scintillater -> Green Scintillater * Blue Scintillater response on photodiode * ![](https://i.imgur.com/OQhnuKz.png) * Green Scintillater response on photodiode * ![](https://i.imgur.com/vekVDPg.png) * 2 times photo-current at least * [DS of Scintillater](https://www.kuraray.com/uploads/5a717515df6f5/PR0150_psf01.pdf) * [DS of PhotoDiode](https://www.farnell.com/datasheets/3029078.pdf) ## 3. Reverse bias of Photodiode: **Maybe is not necessary** ### 3.1 Testing about RevBias and Vo * 0V * ![](https://i.imgur.com/8hQsf4l.png) * -5V * ![](https://i.imgur.com/RT0pyqz.png) * -11V * ![](https://i.imgur.com/oNaZJXp.png) ### 3.2 Summery of test * Reversing bias would be better for *improve performance about freq(<< Cpd)* * Previous pratice: I need to add < -2.5V reverse bias if I'd like to see < 10us peak * For our case (DC, F=0), Can't improve photocurrent * ![](https://i.imgur.com/t53XlSb.png) * Vrb >>, Ipd rised a little * **Maybe we don't need reverse bias for photodiodes** * E = MC^2 * M: More * C: Code * C: Component * Rigorously, we should do beam test again for verification ## 4. Why I need OP-AMP for photodiode * Refer to [here](https://hackmd.io/@pd-driver-ntuhep/BJI5AyJ12) ## 5. Input impedance of OP-AMPs ### 5.1 Let’s start with this question * [OPA192: The output impedance is high, so is it suitable to as a unity-gain buffer?](https://e2e.ti.com/support/amplifiers-group/amplifiers/f/amplifiers-forum/862563/opa192-the-output-impedance-is-high-so-is-it-suitable-to-as-a-unity-gain-buffer) * [How is the output impedance of a closed loop opamp derived?](https://electronics.stackexchange.com/questions/510003/how-is-the-output-impedance-of-a-closed-loop-opamp-derived) * [Two-port network](https://en.wikipedia.org/wiki/Two-port_network) * [Op Amp Input Impedance](https://www.electronics-notes.com/articles/analogue_circuits/operational-amplifier-op-amp/input-impedance.php) ### 5.2 Analyze input impedance with non-ideal model of OP AMP(when f<<) ![](https://i.imgur.com/YRKRK0O.png) ### 5.3 Still not Believe that? see [here](https://www.ti.com/lit/ds/symlink/opa928.pdf) ## 6. Feasibility for 200 ohm *Rfb* * **Flexibility issue** * 100M ohm, AEC-Q200, 1% * Footprint: 1206, 1210, 2012 * 200M ohm, AEC-Q200, 1% * Footprint: only 2012 ## 7. Layout and design * Replace potentiometer with fixed resistor * 100M/200M, see chapter 6 * Stack 5 board with copper rod * Power/Signal I/O connector change to 90 deg type * Split power from 1 board to 5 board and pi * Sould we need a split board? * Can I Remove GPIOs of ADC? * Gain seletion * Trigger ![](https://imgur.com/qsewaus.png)