ID |
Date |
Author |
Subject |
6
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Fri Oct 16 15:36:13 2015 |
Sarah Lonsdale | 06/10/15 Leakage, dE signal problem solving and external pulser trigger |
Leakage tues am
0.03 microA dE
0.52 microA E
Before leaving at 11.30am or so-
Bias dE up to 20V, leakage to 0.07microA
E has 0.51 microA
Problem solving dE signals...
SIG l6d6 a has signal of 600mV
SIG 24 has signal of 500mV
White noise is comparable, but transient ringing on l6d6 could indicate higher capacitance
Testing dE for signal with alpha source- but removed before continuing run.
dE sees particles after rotating ribbon by 180 degrees (abnormal detector)
External pulser triggering (2015-10-06_11.30.jpg )
Pulsar trigger, +2.5V external from proton pulse (10ms before beam), lasts 1ms (width).
Convert pulse input from TTL to NIM to go into delay (15ms).
Start delay in dual timer, then output to trigger pulser (TTL) |
Attachment 1: 2015-10-06_10.04.06.jpg
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Attachment 2: 2015-10-06_10.35.28.jpg
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Attachment 3: 2015-10-06_10.37.10.jpg
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Attachment 4: 2015-10-06_10.37.58.jpg
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Attachment 5: 2015-10-06_11.06.23.jpg
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Attachment 6: 2015-10-06_11.30.jpg
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7
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Fri Oct 16 15:41:14 2015 |
Sarah Lonsdale | 06/10/15 Changes to DAQ and pulser settings |
Pulser out of 5,6,7 EFED- extended to 32ms
Changed full scale on ADC to 0.2V,
Offset changed by factor of 10.
Zero suppression on, de -3mV thresh
E +-5mV thresh
Post sample 4096
5pm increased post sample for spd-02886 to 8192 as higher sample rate due to pick up.
Corrected EBED 4 offset.
(Again, all DAQ settings also recorded to the nToF erunbook)
Changed pulser to 13ms. |
Attachment 1: 2015-10-06_delay.jpg
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Attachment 2: 2015-10-06_trig.jpg
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8
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Fri Oct 16 15:56:01 2015 |
Sarah Lonsdale | 07/10/15 Alpha source in, change to pulser delay |
Alpha source in - containing 148Gd, 241Am, 239Pu, 244Cm (4x 1kBq)
Leakage on arrival
dE 0.08microA , 19V
E 0.48microA 132V
At leaving
dE 0.08 micro A
E 0.41 micro A
Pulser to 20ms (2015-10-07_13.58.08.jpg)
DAQ:
EBED 5,6,7 have post sample 16382
Increased further at 4pm - 16000+ post sample for 225 samples
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Attachment 1: 2015-10-07_13.58.08.jpg
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Attachment 2: 2015-10-07_09.53.40.jpg
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Attachment 3: 2015-10-07_09.54.47.jpg
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Attachment 4: 2015-10-07_09.55.55.jpg
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Attachment 5: 2015-10-07_09.59.09.jpg
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Attachment 6: 2015-10-07_14.07.55.jpg
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9
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Fri Oct 16 16:01:41 2015 |
Sarah Lonsdale | 08/10/15 Removed source and sample, leakage current check |
Removed source and removed Li sample for blank frame test
Leakage
DE 0.06micro A
E 0.41 micro A
DAQ
56.25 sample rate all except EBED 5,6,7 |
10
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Fri Oct 16 16:11:41 2015 |
Sarah Lonsdale | 09/10/15 Photos of detectors (reversed dE wiring) and upper level frame for future set up, leakage current |
Leakage before take down:
de 0.07 micro A
E 0.47 micro A |
Attachment 1: 2015-10-09_09.16.16.jpg
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Attachment 2: 2015-10-09_09.16.22.jpg
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Attachment 3: 2015-10-09_09.29.23.jpg
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Attachment 4: 2015-10-09_09.29.35.jpg
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Attachment 5: 2015-10-09_09.30.02.jpg
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43
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Thu Jul 27 11:53:52 2023 |
TD | MSL type W1 detector data for 26Al(n,X) experiment EAR2, n_TOF |
MSL type W1(SS)-20
3186-9 20um Depletion voltage 3V Operating voltage 6V
3585-12 20um Depletion voltage 2V Operating voltage 4V
MSL type W1(DS)-150
3458-1 157um Depletion voltage 22V Operating voltage 52V
3458-4 144um Depletion voltage 18V Operating voltage 48V |
62
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Mon Aug 14 11:00:13 2023 |
TD | RAL108 +/-15V PSU test in ISOLDE hall |
This morning 2x RAL108 +/-15V PSUs were borrowed from the Edinburgh equipment in the ISOLDE hall to check whether the same transient noise is observed at the +/-15V PSU
outputs - this was confirmed. See https://elog.ph.ed.ac.uk/nToF/63
Following this test the same 2x RAL108 +/-15V PSUs were tested in the ISOLDE hall ( 19" rack adjacent to the HIE-ISOLDE GP scattering chamber ).
PSU #1 Coutant HSC15-3.0
Setup and PSU details - attachments 1-4
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 5mV/div x: 400ns, 4us & 40us/div - attachments 5-7
PSU #2 Farnell MX2
Setup and PSU details - attachments 8-10
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 5mV/div x: 400ns, 4us & 40us/div - attachments 11-13
Conclusion
The noise of the 2x RAL108 +/-15V PSUs differed somewhat ( frequency and structure of HF transients ) from each other in the ISOLDE test.
Compared to the EAR2, n_TOF test the amplitudes were c. 10x smaller and the HF transient frequency and structure differed.
This appears to confirm that the primary problem is the ac mains power in EAR2, n_TOF - input and/or output filtering is required. |
Attachment 1: 20230814_110402.jpg
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Attachment 2: 20230814_111029.jpg
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Attachment 3: 20230814_111128.jpg
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Attachment 4: 20230814_111216.jpg
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Attachment 5: 20230814_110410.jpg
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Attachment 6: 20230814_110424.jpg
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Attachment 7: 20230814_110516.jpg
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Attachment 8: 20230814_110053.jpg
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Attachment 9: 20230814_110723.jpg
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Attachment 10: 20230814_110738.jpg
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Attachment 11: 20230814_110158.jpg
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Attachment 12: 20230814_110142.jpg
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Attachment 13: 20230814_110105.jpg
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66
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Sat Aug 19 14:14:26 2023 |
TD | RAL108 +/-15V PSU test - JCMB 18.8.23 |
PSU Calex
Setup and PSU details - attachments 1-3
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 20mV/div x: 100ns, 200ns, 1us, 2us, 10us, 20us & 100us/div - attachments 4-10 |
Attachment 1: 20230818_115256.jpg
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Attachment 2: 20230818_120358.jpg
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Attachment 3: 20230818_120127.jpg
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Attachment 4: 20230818_115311.jpg
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Attachment 5: 20230818_115329.jpg
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Attachment 6: 20230818_115250.jpg
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Attachment 7: 20230818_115421.jpg
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Attachment 8: 20230818_115341.jpg
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Attachment 9: 20230818_115409.jpg
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Attachment 10: 20230818_115352.jpg
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67
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Mon Aug 21 12:08:59 2023 |
TD | RAL108 +/-15V PSU test - JCMB 21.8.23 |
PSU Calex
Setup, PSU and ac mains filter - attachments 1-3
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 50mV/div x: 100ns, 200ns, 1us, 2us, 10us/div
Without ac mains filter - attachments 4-8
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 10mV/div x: 100ns, 200ns, 1us, 2us, 10us/div
With ac mains filter - attachments 9-13
Conclusion - Claud Lyons Ltd STF Series Surge & Transient Power Filter produces c. x 2 attenuation of HF noise transients |
Attachment 1: 20230821_115139.jpg
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Attachment 2: 20230821_115314.jpg
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Attachment 3: 20230821_115259.jpg
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Attachment 4: 20230821_115144.jpg
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Attachment 5: 20230821_115156.jpg
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Attachment 6: 20230821_115206.jpg
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Attachment 7: 20230821_115216.jpg
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Attachment 8: 20230821_115229.jpg
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Attachment 9: 20230821_115415.jpg
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Attachment 10: 20230821_115424.jpg
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Attachment 11: 20230821_115438.jpg
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Attachment 12: 20230821_115447.jpg
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Attachment 13: 20230821_115457.jpg
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63
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Tue Aug 15 10:17:39 2023 |
TD, NS | RAL108 +/-15V PSU test at EAR2, n_TOF Monday 14 August |
On the morning of Monday 14 August 2x RAL108 +/-15V PSUs were borrowed from the Edinburgh equipment in the ISOLDE hall to check whether the same transient
noise is observed at the +/-15V PSU outputs.
PSU #2 Farnell MX2
Setup - attachment 1
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 50mV/div x: 1us, 500ns, 250ns & 25us/div - attachments 2-5
PSU #1 Coutant HSC15-3.0
Setup - attachment 6
DSO ch#1 +15V AC/1M, ch#2 -15V AC/1M - y: 50mV/div x: 25us/div - attachment 7
Conclusion
Observe same amplitude and HF structure with all 3x RAL108 +/-15V PSUs |
Attachment 1: 20230814_083448.jpg
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Attachment 2: 20230814_083549.jpg
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Attachment 3: 20230814_083556.jpg
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Attachment 4: 20230814_083601.jpg
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Attachment 5: 20230814_083445.jpg
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Attachment 6: 20230814_083323.jpg
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Attachment 7: 20230814_083319.jpg
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64
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Tue Aug 15 11:41:27 2023 |
TD, NS | Monday 14 August - vacuum chamber pressure |
08.35 Vacuum chamber pressure OK - see attachment 1 |
Attachment 1: 20230814_083514.jpg
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52
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Thu Aug 10 16:11:57 2023 |
TD, NS, AR | Noise |
Observe c. 2mV p to p noise with DSO ( Z_in = 50 Ohm ) c. 60us period with HF structure. DSO connected to junction box via 34-way IDC - 16x Lemo-00 adaptor.
Origin of noise upstream of 4x34-way to 8x16-way Junction Box. Not microphonics from Edwards RV5 Rotary Pump.
No change observed with simple ground connections between NIM bin/+/-15V PSU/Junction Box and MSL type W1 preamplifier units/vacuum chamber/support assembly.
Estimate of electronic noise
Pulser BNC PB-5
Amplitude 0.5V
Attenuation x1
Decay time 1ms
Frequency 50Hz
Preamplifier RAL108
Output impedance 100 Ohm
Sensitivity 20mV/MeV ( into high Z load ), 6.7mV/MeV ( into 50 Ohm load )
Amplifier EG&G Ortec 571
Input terminated by 50 Ohm
Gain x1 (internal) x 1.0 (fine gain) x 50 (coarse gain ) = 50
Shaping time 0.5us
MCA Amptek 8000D
Input FSR 10V
12 bit ADC
Nominal gain = 6.7mV/MeV x 50 = 335mV/MeV
12 bit ADC input FSR = 10V / 0.335V/MeV = 29.85MeV FSR or 7.3keV/channel
dE p+n junction strip # 4 ( of 0-15 )
pulser peak centroid = 799.8 ch
pulser peak width = 7.8 ch FWHM = 57 keV FWHM
E p+n junction strip # 4 ( of 0-15 )
pulser peak centroid = 864.8ch
pulser peak width = 3.5 ch FWHM = 26 keV FWHM
E n+n Ohmic strip # 4 ( of 0-15 )
pulser peak centroid = 913.0 ch
pulser peak width = 5.3 ch FWHM = 39 keV FWHM
Noise estimates are probably accurate to c. 10% level. |
Attachment 1: 20230810_162959.JPG
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Attachment 2: IMG_2906.jpeg
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Attachment 3: 20230810_164219.JPG
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56
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Fri Aug 11 10:02:08 2023 |
TD, NS, AR | Noise |
Check RAL108 +/-15V PSU
Measured output voltages +15.21V -15.18V - OK
Observe output voltages with DSO ( ch #1 AC/1M +15V, ch #2 AC/1M -15V ) - see attachments 1 & 2
What we should observe is c. 1mV rms ( white ) noise but we clearly observe similar noise transients ( c. 60us period with HF structure ) to those observed at RAL108
outputs. The RAL108 preamplifier units do have RC filters on the +/-15V - typically c. 100 Ohm and 4.7uF. Some additional, inline filtering with a lower rolloff
frequency may be required.
>
> Observe c. 2mV p to p noise with DSO ( Z_in = 50 Ohm ) c. 60us period with HF structure. DSO connected to junction box via 34-way IDC - 16x Lemo-00 adaptor.
>
> Origin of noise upstream of 4x34-way to 8x16-way Junction Box. Not microphonics from Edwards RV5 Rotary Pump.
> No change observed with simple ground connections between NIM bin/+/-15V PSU/Junction Box and MSL type W1 preamplifier units/vacuum chamber/support assembly.
>
>
> Estimate of electronic noise
>
> Pulser BNC PB-5
>
> Amplitude 0.5V
> Attenuation x1
> Decay time 1ms
> Frequency 50Hz
>
> Preamplifier RAL108
> Output impedance 100 Ohm
> Sensitivity 20mV/MeV ( into high Z load ), 6.7mV/MeV ( into 50 Ohm load )
>
> Amplifier EG&G Ortec 571
> Input terminated by 50 Ohm
> Gain x1 (internal) x 1.0 (fine gain) x 50 (coarse gain ) = 50
> Shaping time 0.5us
>
> MCA Amptek 8000D
> Input FSR 10V
> 12 bit ADC
>
>
> Nominal gain = 6.7mV/MeV x 50 = 335mV/MeV
>
> 12 bit ADC input FSR = 10V / 0.335V/MeV = 29.85MeV FSR or 7.3keV/channel
>
>
> dE p+n junction strip # 4 ( of 0-15 )
>
> pulser peak centroid = 799.8 ch
> pulser peak width = 7.8 ch FWHM = 57 keV FWHM
>
>
> E p+n junction strip # 4 ( of 0-15 )
>
> pulser peak centroid = 864.8ch
> pulser peak width = 3.5 ch FWHM = 26 keV FWHM
>
>
> E n+n Ohmic strip # 4 ( of 0-15 )
>
> pulser peak centroid = 913.0 ch
> pulser peak width = 5.3 ch FWHM = 39 keV FWHM
>
>
> Noise estimates are probably accurate to c. 10% level. |
Attachment 1: 20230811_104233.jpg
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Attachment 2: 20230811_104253.jpg
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