Difference between revisions of "CH Discriminator Dual Pulsing"
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+ | FuncGen_TFAmp_SpecAmp_CAEN80mV_10us_03152022.png|<span style="color:#800080">'''Purple:'''</span> Input signal from spec amp. <span style="color:#ffff00">'''Yellow:'''</span> CAEN Dual Timer using Lecroy Disc as input. <span style="color:#00ffff">'''Aqua:'''</span> Lecroy Disc Output. <span style="color:#00ff00">'''Lime:'''</span>: CAEN Update Mode Disc Output. | ||
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+ | FuncGen_TFAmp_SpecAmp_CAEN80mV_4ms_03152022.png|<span style="color:#800080">'''Purple:'''</span> Input signal from spec amp. <span style="color:#ffff00">'''Yellow:'''</span> CAEN Dual Timer using Lecroy Disc as input. <span style="color:#00ffff">'''Aqua:'''</span> Lecroy Disc Output. <span style="color:#00ff00">'''Lime:'''</span>: CAEN Update Mode Disc Output. | ||
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+ | FuncGen_TFAmp_SpecAmp_CAEN_2us_03152022.png|<span style="color:#800080">'''Purple:'''</span> Input signal from spec amp. <span style="color:#ffff00">'''Yellow:'''</span> CAEN Dual Timer using CAEN Disc as input. <span style="color:#00ffff">'''Aqua:'''</span> Lecroy Disc Output. <span style="color:#00ff00">'''Lime:'''</span>: CAEN Update Mode Disc Output. | ||
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+ | </gallery> | ||
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Revision as of 16:57, 17 March 2022
Discriminators
All needed specifications can be found within the appropriate manual
CAEN N841 Leading Edge Discriminator
Modes: Update and Non-Update
- For use with He3 tube, Update vs Non-update mode did not seem to make a difference in discriminator output.
- See pages 10 & 12 in user manual
Lecroy 821 Quad Discriminator
File:LRS 821 Specifications.pdf
Tektronix DPO 4104 Digital Phosphor Oscilloscope
For reference: Input to discriminators is spec amp output with the following settings
Course gain: 10
Fine gain: 1
Shaping type: Gaussian
Shaping time: 2us
Continued Investigations
03/01/2022
- Sourced a function generator
Function generator: Protek 93120 Digital Synthesis Arbitrary Function Generator/Counter
Measurements
I used a DC offset to create a purely negative pulse using a square wave signal ranging from 0 to -1V
Run Number | Configuration | Generator Rate | Generator Pulse Amplitude (Set) | Generator Pulse Height (Measured) | Counts | Run Time (Sec) | Count Rate (Hz) | Uncertainty |
1 | Function Gen feeding Scalar | 1.00 KHz | 1.00V | ~1V | 100000 | 100 | 1.000KHz | |
2 | Function Gen feeding Scalar | 1.00 KHz | 1.00V | ~1V | 100000 | 100 | 1.000KHz | |
3 | Function Gen feeding Scalar | 1.00 KHz | 1.00V | ~1V | 100000 | 100 | 1.000KHz | |
4 | Function Gen feeding Scalar | 1.00 KHz | 1.00V | ~1V | 100000 | 100 | 1.000KHz | |
5 | Function Gen feeding Scalar | 1.00 KHz | 1.00V | ~1V | 100000 | 100 | 1.000KHz |
I used a DC offset to create a purely negative pulse using a sine wave signal ranging from 0 to -1V that is discriminated by the Lecroy disc.
Run Number | Configuration | Generator Rate | Generator Pulse Amplitude (Set) | Generator Pulse Height (Measured) | Counts | Run Time (Sec) | Count Rate (Hz) | Uncertainty |
1 | Function Gen, Lecroy Disc, Scalar | 1.00 KHz | 1.00V | ~1V | 100 | |||
2 | Function Gen, Lecroy Disc, Scalar | 1.00 KHz | 1.00V | ~1V | 100 | |||
3 | Function Gen, Lecroy Disc, Scalar | 1.00 KHz | 1.00V | ~1V | 100 | |||
4 | Function Gen, Lecroy Disc, Scalar | 1.00 KHz | 1.00V | ~1V | 100 | |||
5 | Function Gen, Lecroy Disc, Scalar | 1.00 KHz | 1.00V | ~1V | 100 |
Electronics Chain Investigation