Changes for page Gotthard related stuff

Last modified by sndueste on 2023/09/25 09:36
From version 17.1
edited by sndueste
on 2023/09/15 13:51
Change comment: There is no comment for this version
To version 7.1
edited by palutke
on 2023/06/08 14:12
Change comment: There is no comment for this version

Summary

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Author
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1 -XWiki.sndueste
1 +XWiki.palutke
Content
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1 -== page content: ==
1 +== Info related to the Detector ==
2 2  
3 -== ==
4 -
5 -{{toc/}}
6 -
7 7  \\
8 8  
9 -----
10 -
11 -== Info collection related to the Detector ==
12 -
13 13  * [[Data sheet of a macro objective>>attach:MP-E_65mm_F2.8_1-5x_Instruction_DE.pdf]]
14 14  * [[FLASH-GH-Meeting_10.10.2014.pdf by Steffen>>attach:FLASH-GH-Meeting_10.10.2014.pdf]]
15 15  * [[attach:READ_ME_GOTTHARD_detector.pdf]]: READ_ME_GOTTHARD_detector.pdf (Server information is outdated, see below)
16 -* some investigation related to read out noise for different exposure times [[attach:GOTTHARD noise evaluation and exposure time dependence (002).pdf]]
17 17  
18 18  \\
19 19  
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20 20  Ethernet connections:
21 21  
22 22  (% style="list-style-type: square;" %)
23 -* gbit port  <~-~-->  Server PC (hasfl2det01 at FLASH2, no server currently at FLASH1)
24 -* base-T     <~-~-->  Office net
14 +* gbit port <~-~--> Server PC (hasfl2det01 at FLASH2, no server currently at FLASH1)
15 +* base-T <~-~--> Office net
25 25  
26 26  == How to use the Detector and save in DAQ ==
27 27  
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42 42  
43 43  \\
44 44  
45 -== Operation hints (June 2023): ==
46 -
47 -(% style="list-style-type: square;" %)
48 -* **Where is the GOTTHARD GUI:** FLASH2 - Panel: Infrastructure tab → Miscellaneous tab → FLASH2 GOTTHARD ctrl button
49 -* **Never change a running system:** Do not change parameters while the Detector is running/taking data, The detector will crash.
50 -* Furthermore the module will crash if recieving to much light (e.g. illuminating with flash light during data dating.
51 -* **Checking/switching server:** The server is reachable from the GOTTHARD GUI (lower left corner find the status of the server PC "hasfl2det01") click it to open server/watchdog control. The server is otherwise found under FLASH.SYSTEM → HASFL2DET01.WATCH. Open control of SVR.GOTTHARD (for start/stop/reboot)
52 -
53 -(% style="list-style-type: square;" %)
54 -* **Robooting the GOTTHARD** (if it has crashed): 
55 -(% style="list-style-type: square;" %)
56 -** soft reboot: 1. open console on linux DESY PC, 2. type "telnet (Hostname/IP)" e.g. "telnet cfeld-gotthard02" , 3. you are logged on the GOTTHARD module as /root, type "reboot", 4. wait until server/GUI has reconnected to the module
57 -** hard reset: power down the GOTTHARD, wait some seconds, Repower the module, wait for reconnection to server/GUI
58 -* **In case of a crashes** (no data taking, no reaction on input: Reboot the detector) or if GUI input returns error: Check connection (Power/Data), check GOTTHARD server
59 -* **Permantent operation:** Activate check box for continous run to trigger automated restart of the module after reaching the set number of short or after sefl-stopping due to hickups. The restart needs about 1-2 seconds. During this time no data is taken.
60 -* **Background**: Check "Take" stores the actual detector image~: Uncheck this again. Than this stored image is online subtracted from all images in the GUI when checking "subtract". The DAQ only stores raw data (NOT the background subtracted images)
61 -
62 -Using burst mode (standard operation as of June 2023)
63 -
64 -(% style="list-style-type: square;" %)
65 -* Do not change the delay in the GOTTHARD GUI. The Alignment to the FEL pulses are done by adjusting the FLASH trigger: FL2EXP1/RTM.TRG6, it can be opened from the GOTTHARD GUI or from FLASH2 → Beamlines → FL26 → Exp. control → Patch Panel26-2 → MTCA Trigger 2
66 -* Exposure range is 2**00ns <  Exposure < ~~1/3 * Frame periode**
67 -* The periode is:** 9968ns for 100kHz, 4984 for 200kHz, 1993 for 500kHz**
68 -* The number of** frames must be lower than 125, for stable operation 120**
69 -* Number of Shots: Number of trigger events before self stopping, select large number for permanent operation
70 -
71 71  == Modules and their exchange ==
72 72  
73 73  Two (Three) modules available (physically at FLASH):
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83 83  Sensor image
84 84  )))|=(((
85 85  config file
86 -)))|=(% colspan="1" %)(((
87 -DOOCS address (status 2023)
88 88  )))
89 89  |(((
90 90  cfeld-gotthard02
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102 102  )))
103 103  )))|(((
104 104  bchip_mpc1922Receiver.config_cfeld-gotthard02
105 -)))|(% colspan="1" %)(((
106 -FLASH.FEL/GOTTHARD/FL2/
107 107  )))
108 108  |(((
109 109  hasdslabgh
110 -
111 -"gotthard dgt01"
112 112  )))|(((
113 113  working
114 114  )))|(((
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120 120  )))
121 121  )))|(((
122 122  bchip_mpc1922Receiver.config
123 -)))|(% colspan="1" %)(((
124 -FLASH.FEL/GOTTHARD2/FL2/
125 125  )))
126 126  |(((
127 127  cfeld-gotthard01
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133 133  \\
134 134  )))|(((
135 135  bchip_mpc1922Receiver_petra.config
136 -)))|(% colspan="1" %)(((
137 -\\
138 138  )))
139 139  
140 140  \\
... ... @@ -146,127 +146,3 @@
146 146  == GOTTHARD Server ==
147 147  
148 148  The server for GOTTHARD (FLASH2) runs on **hasfl2det01**. Its watchdog and control (svr.GOTTHARD) can be found under** FLASH.SYSTEMS - HASFL2DET01.**
149 -
150 -\\
151 -
152 -== Main Parameters and limits ==
153 -
154 -(% class="wrapped" %)
155 -|=(((
156 -Parameter
157 -)))|=(((
158 -Design
159 -)))|=(% colspan="1" %)(((
160 -Real /tested
161 -)))
162 -|(((
163 -Max Frames
164 -)))|(((
165 -125
166 -)))|(% colspan="1" %)(((
167 -120
168 -)))
169 -|(((
170 -Max. exposition time
171 -)))|(((
172 -~~2/3 of period time
173 -)))|(% colspan="1" %)(((
174 -\\
175 -)))
176 -|(((
177 -Min. period time
178 -)))|(((
179 -ca. 930 ns
180 -)))|(% colspan="1" %)(((
181 -\\
182 -)))
183 -|(((
184 -Max repetition frequ.
185 -)))|(((
186 -1 MHz
187 -)))|(% colspan="1" %)(((
188 -833 kHz (software limited)
189 -)))
190 -
191 -\\
192 -
193 -== Soft reset a GOTTHARD Module ==
194 -
195 -(% style="list-style-type: square;" %)
196 -* Open console on Linux PC (connected to DESY net)
197 -* write "telnet cfeld-gotthard02" (or the respective Host name or IP of the module)
198 -(% style="list-style-type: square;" %)
199 -** you should be connected to the GOTTHARD onboard system → </root:
200 -* type: "reboot"
201 -(% style="list-style-type: square;" %)
202 -** the module reboots (wait ~~1-2 min), the telnat connection will be cut due to reboot.
203 -
204 -\\
205 -
206 -== Triggering the Gotthard with a burst trigger ==
207 -
208 -it is also possible to trigger the Gotthard not only with 10 Hz but with a burst trigger
209 -
210 -here are some Info from PIS (June 2023)
211 -
212 -
213 -
214 -{{view-file att--filename="Flash_G1.pdf" height="250"/}}
215 -
216 -I think one does not need to set it in GUI when running in continuous mode. In G1, whether the detector is running in burst or continuous mode depends on the setting of the "number of frames" in trigger mode. If the number of frames sets to 1, it will be in continuous mode (1 trigger -> 1 frame).
217 -
218 -Since G1 accepts triggers from the lemo connector, one can also use the bunch train trigger. The spacing of the trigger train needs to be larger than 3.2 ms, which is the readout time of G1.
219 -
220 -Regarding the detector setting (assuming it is 200 kHz pulse rate, 100 pulses per train):
221 -
222 -* timing mode: trigger
223 -* number of frames: 1
224 -* number of triggers:  M x N (M is the number of trains and N is the pulses per train, one can also take a bit more frames per train to track the pedestal/dark)
225 -* period: < 5 us (1/200 kHz = 5 us, the period needs to be slightly smaller than 5 us since the detection of the trigger only starts after the period is reached)
226 -* exposure time: > 93 ns and smaller than period
227 -
228 -Alignment: One of the four lemo connectors on G1 outputs its exposure window. Using an oscilloscope, one can use a photodiode under the beam and align the pulses from the diode and the exposure window of G1 by fine tuning the exposure time of G1 and/or the setting of "delay after trigger" from the detector, or "delay time" of the wave-generator (if a wave-generator is used to generate the triggers for every pulse). After this, one can do a fine scan of trigger delay to find an optimal setting with highest signal after putting G1 under the beam.
229 -
230 -\\
231 -
232 -by:
233 -
234 -Dr. Jiaguo Zhang
235 -
236 -Paul Scherrer Institut
237 -
238 -Forschungsstrasse 111
239 -
240 -5232 Villigen PSI
241 -
242 -Switzerland
243 -
244 -\\
245 -
246 -== Using the Spectralyzer together with Gotthard ==
247 -
248 -one needs spectralyzer 0.2.4 or newer
249 -
250 -\\
251 -
252 -start spectralyzer on one of our consoles ( works for fl24 and fl26user )  (for installing new version or for other users .. ask Christopher Behrens... )
253 -
254 -(% class="code" %)
255 -(((
256 -fl26user@hasfcons1:~~$ mamba activate spectralyzer
257 -(spectralyzer) fl26user@hasfcons1:~~$ spectralyzer
258 -)))
259 -
260 -\\
261 -
262 -[[image:url:https://ttfinfo.desy.de/Flash2_FL26elog/data/2023/06/2023-02-10T16:03:53-00.jpg||height="250"]]
263 -
264 -[[image:attach:image2023-9-15_11-16-3.png||height="400"]]
265 -
266 -\\
267 -
268 -\\
269 -
270 -\\
271 -
272 -\\