MTCA ADCs - XWiki

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Content:

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= Our ADC cards =

== GHz ADCs: SP-Devices ADQ412AC ==

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We have ADQ412AC-4G-MTCA digitizer cards for the experiment crates (Exp1, Exp2 and FL2Exp1):

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[[ADQ412_datasheet.pdf>>attach:10-0494_C_ADQ412_datasheet.pdf]] ( [[new version>>attach:10-0494-adq412_datasheet.pdf]], [[sampling rates table>>attach:Clocking_AppNote.pdf]])

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The cards are connected via Patch panels to the Experimental endstations and can be operated with a jddd panel:

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[[image:attach:image2019-10-21_15-21-23.png||width="800"]]

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* **NOTE: between ADC and Patch panel we have installed an [[EMP protector>>attach:EMP_protector.pdf]] and an additional 1dB attenuator**

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* for the influence of the Patch cable and the EMP protector see also [[this logbook entry~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:http://ttfinfo.desy.de/ExpHallelog/show.jsp?dir=/2016/27/08.07&pos=2016-07-08T17:41:07||shape="rect"]]

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(% class="wrapped" %)

|(((

Impedance AC

)))|(((

50 OHM

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Input voltage range

)))|=(((

800 mV pp!!!!!!!!!!!!!!!!

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Digitizer resolution

)))|(((

12 bit

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4 CHANNELS MODE

(% class="wrapped" %)

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Sampling rate

)))|(((

2 *

)))|(((

GSPS

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Analog bandwidth

)))|(((

2

)))|(((

GHz

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2 CHANNELS MODE

(% class="wrapped" %)

|(((

Sampling rate

)))|(((

4 *

)))|(((

GSPS

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Analog bandwidth

)))|(((

1.3

)))|(((

GHz

)))

~* note that the sample rate is NOT locked to the FLASH repetition rate ! Thus there is a not integer number of samples between FLASH pulses. The sample rate also differs slightly from ADC card to ADC card. The rough spacing is **1993.846** samples between 2 pulses at 1 MHz for details ask the local contact.

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===== ADC and DOOCS / DAQ =====

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The HDF5 names for the ADC traces are depending on the beamline :

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\\PG Beamline:

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{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH00/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH01/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH02/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH03/TD{{/code}}

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BL Beamlines:

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{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH00/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH01/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH02/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH03/TD{{/code}}

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\\{{code language="none"}}/FL1/Experiment/BL2/ADQ412 GHz ADC/CH00/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/BL2/ADQ412 GHz ADC/CH01/TD{{/code}}

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\\{{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH02/TD{{/code}}

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{{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH03/TD{{/code}}

and at FLASH2

\\\\\\\\{{code language="none"}}FL24:/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH00/TD/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH01/TD/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH02/TD/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH03/TD{{/code}}

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DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00/CH00.TD or CH00.DAQ.TD{{/code}}

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here the {{code language="none"}}CH00.TD{{/code}} is the full ADC trace as it is sampled ( typically several 100.000 samples per pulse train) while the {{code language="none"}}CH00.DAQ.TD{{/code}} trace only has the number of samples which are sent to the DAQ OR if //grouping// is activated the {{code language="none"}}CH00.DAQ.TD{{/code}} contains only the grouped spectra. To read the ADC trace with an online analysis program the {{code language="none"}}CH00.DAQ.TD{{/code}} is preferable to use ...

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DAQ channel: {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00{{/code}}

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in addition there are also additional parameters saved like:

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* sample frequency (in MHz)

* error (state)

* offset

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== Amplifiers for the GHZ ADCs ==

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125

* **we can offer [[ Phillips scientific Model 6954>>attach:6954ds.pdf]] amplifiers** to either amplify small signals or to decouple setups which may deliver voltage peaks fro the ADCs.

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* The available ADCs 5x, 10x, 20 x 50x and 100x

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* The ADCs can be borrowed from Markus Braune

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* The Amplifiers fit perfectly to the dynamic range of the GHz ADCs - here a [[ test of the Phillips scientific amplifier>>attach:Model_6954_Amplifier_Report.pdf]]

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* There are also [[BiasTs>>attach:ZX85-12G-S+.pdf]] available ([[link to internal page>>doc:FLASH.Bias T]])

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== 108 MHz ADCs: Struck SIS8300-L2D ==

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There is one in each of the MTCAs in the hall: MTCA-EXP1 at PG/BL1, the other at BL2 and BL3.

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They are 16 bit, 10 channel, 125 MS/s ADCs.

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* [[User Manual SIS8300-L2 ADC ACM>>attach:sis8300l2-m-x009-1-v101.pdf]]

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* [[User Manual SIS8900 RTM>>attach:sis8900-m-1-1-v104.pdf]]

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50 Ohm input impedance, -1 V,...,+1 V default input range, analog signals can be routed to AC and DC input stage. The coupling is DC via op-amp (switching to AC transformer involves resoldering of SMD solder bridges).

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Here is a trace of the first signal, a 1 MHz trigger connected from the x2timer board in the same MTCA:

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[[image:attach:adc_mhz.jpg||height="400"]]

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== Pulse energy server: Using the Struck SIS8300-L2D to detect only integrated values of pulses ==

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154

FS-LA (Falko Peters) programmed a pulse detection server that automatically detects peaks in the signal and integrates the samples around the peak.

Things to set:

* Min peak height: threshold fro which on some signal is considered to be a peak. The actual peak is then determined as the maximum of the counts after the threshold

159

* pre and post peak integration time: how much ns to be integrated before and after the peak sample that are taken into account for the peak

160

* pre and post peak noise time: before and after the samples that are taken for the actual signal these samples are used as background ( they also can be used to define the "deadtime" of the detector before it searches for new peaks.

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[[image:attach:image2019-11-18_17-9-7.png||height="400"]]

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[[image:attach:pulse_energy_server.jpg||height="400"]]

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jddd server panel Definition of the parameters

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= Detailed stuff =

* [[ADQ412 server description~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:https://ttfinfo.desy.de/FLASHWiki/Wiki.jsp?page=SPdevicesDMA%20ADQ||shape="rect"]]

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* [[ a collection of usefull things related to the OPIS ADCs>>doc:FLASH.OPIS ADC related things]]

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author	version	line-number	content
		1	Content:
		2
		3
		4
		5	{{toc minLevel="2"/}}
		6
		7	----
		8
		9	= Our ADC cards =
		10
		11	== GHz ADCs: SP-Devices ADQ412AC ==
		12
		13	We have ADQ412AC-4G-MTCA digitizer cards for the experiment crates (Exp1, Exp2 and FL2Exp1):
		14	[[ADQ412_datasheet.pdf>>attach:10-0494_C_ADQ412_datasheet.pdf]] ( [[new version>>attach:10-0494-adq412_datasheet.pdf]], [[sampling rates table>>attach:Clocking_AppNote.pdf]])
		15	The cards are connected via Patch panels to the Experimental endstations and can be operated with a jddd panel:
		16
		17	[[image:attach:image2019-10-21_15-21-23.png\|\|width="800"]]
		18
		19	\\
		20
		21	\\
		22
		23	* NOTE: between ADC and Patch panel we have installed an [[EMP protector>>attach:EMP_protector.pdf]] and an additional 1dB attenuator
		24	* for the influence of the Patch cable and the EMP protector see also [[this logbook entry~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~\|~\|width="13" height="12"~]~]>>url:http://ttfinfo.desy.de/ExpHallelog/show.jsp?dir=/2016/27/08.07&pos=2016-07-08T17:41:07\|\|shape="rect"]]
		25
		26	\\
		27
		28	(% class="wrapped" %)
		29	\|(((
		30	Impedance AC
		31	)))\|(((
		32	50 OHM
		33	)))
		34	\|(((
		35	Input voltage range
		36	)))\|=(((
		37	800 mV pp!!!!!!!!!!!!!!!!
		38	)))
		39	\|(((
		40	Digitizer resolution
		41	)))\|(((
		42	12 bit
		43	)))
		44
		45	4 CHANNELS MODE
		46
		47	(% class="wrapped" %)
		48	\|(((
		49	Sampling rate
		50	)))\|(((
		51	2 *
		52	)))\|(((
		53	GSPS
		54	)))
		55	\|(((
		56	Analog bandwidth
		57	)))\|(((
		58	2
		59	)))\|(((
		60	GHz
		61	)))
		62
		63	2 CHANNELS MODE
		64
		65	(% class="wrapped" %)
		66	\|(((
		67	Sampling rate
		68	)))\|(((
		69	4 *
		70	)))\|(((
		71	GSPS
		72	)))
		73	\|(((
		74	Analog bandwidth
		75	)))\|(((
		76	1.3
		77	)))\|(((
		78	GHz
		79	)))
		80
		81	~* note that the sample rate is NOT locked to the FLASH repetition rate ! Thus there is a not integer number of samples between FLASH pulses. The sample rate also differs slightly from ADC card to ADC card. The rough spacing is 1993.846 samples between 2 pulses at 1 MHz for details ask the local contact.
		82
		83	\\
		84
		85	===== ADC and DOOCS / DAQ =====
		86
		87	The HDF5 names for the ADC traces are depending on the beamline :
		88	\\PG Beamline:
		89	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH00/TD{{/code}}
		90	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH01/TD{{/code}}
		91	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH02/TD{{/code}}
		92	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH03/TD{{/code}}
		93
		94	BL Beamlines:
		95	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH00/TD{{/code}}
		96	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH01/TD{{/code}}
		97	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH02/TD{{/code}}
		98	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH03/TD{{/code}}
		99	\\{{code language="none"}}/FL1/Experiment/BL2/ADQ412 GHz ADC/CH00/TD{{/code}}
		100	{{code language="none"}}/FL1/Experiment/BL2/ADQ412 GHz ADC/CH01/TD{{/code}}
		101	\\{{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH02/TD{{/code}}
		102	{{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH03/TD{{/code}}
		103
		104	and at FLASH2
		105
		106
		107	\\\\\\\\{{code language="none"}}FL24:/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH00/TD/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH01/TD/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH02/TD/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH03/TD{{/code}}
		108
		109	\\
		110
		111	DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00/CH00.TD or CH00.DAQ.TD{{/code}}
		112	here the {{code language="none"}}CH00.TD{{/code}} is the full ADC trace as it is sampled ( typically several 100.000 samples per pulse train) while the {{code language="none"}}CH00.DAQ.TD{{/code}} trace only has the number of samples which are sent to the DAQ OR if //grouping// is activated the {{code language="none"}}CH00.DAQ.TD{{/code}} contains only the grouped spectra. To read the ADC trace with an online analysis program the {{code language="none"}}CH00.DAQ.TD{{/code}} is preferable to use ...
		113	DAQ channel: {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00{{/code}}
		114
		115	in addition there are also additional parameters saved like:
		116
		117	* sample frequency (in MHz)
		118	* error (state)
		119	* offset
		120
		121	\\
		122
		123	== Amplifiers for the GHZ ADCs ==
		124
		125	* we can offer [[ Phillips scientific Model 6954>>attach:6954ds.pdf]] amplifiers to either amplify small signals or to decouple setups which may deliver voltage peaks fro the ADCs.
		126	* The available ADCs 5x, 10x, 20 x 50x and 100x
		127	* The ADCs can be borrowed from Markus Braune
		128	* The Amplifiers fit perfectly to the dynamic range of the GHz ADCs - here a [[ test of the Phillips scientific amplifier>>attach:Model_6954_Amplifier_Report.pdf]]
		129	* There are also [[BiasTs>>attach:ZX85-12G-S+.pdf]] available ([[link to internal page>>doc:FLASH.Bias T]])
		130
		131	\\
		132
		133	== 108 MHz ADCs: Struck SIS8300-L2D ==
		134
		135	There is one in each of the MTCAs in the hall: MTCA-EXP1 at PG/BL1, the other at BL2 and BL3.
		136
		137	They are 16 bit, 10 channel, 125 MS/s ADCs.
		138
		139	\\
		140
		141	* [[User Manual SIS8300-L2 ADC ACM>>attach:sis8300l2-m-x009-1-v101.pdf]]
		142	* [[User Manual SIS8900 RTM>>attach:sis8900-m-1-1-v104.pdf]]
		143
		144	50 Ohm input impedance, -1 V,...,+1 V default input range, analog signals can be routed to AC and DC input stage. The coupling is DC via op-amp (switching to AC transformer involves resoldering of SMD solder bridges).
		145
		146	Here is a trace of the first signal, a 1 MHz trigger connected from the x2timer board in the same MTCA:
		147
		148	[[image:attach:adc_mhz.jpg\|\|height="400"]]
		149
		150	\\
		151
		152	== Pulse energy server: Using the Struck SIS8300-L2D to detect only integrated values of pulses ==
		153
		154	FS-LA (Falko Peters) programmed a pulse detection server that automatically detects peaks in the signal and integrates the samples around the peak.
		155
		156	Things to set:
		157
		158	* Min peak height: threshold fro which on some signal is considered to be a peak. The actual peak is then determined as the maximum of the counts after the threshold
		159	* pre and post peak integration time: how much ns to be integrated before and after the peak sample that are taken into account for the peak
		160	* pre and post peak noise time: before and after the samples that are taken for the actual signal these samples are used as background ( they also can be used to define the "deadtime" of the detector before it searches for new peaks.
		161
		162	\\
		163
		164	[[image:attach:image2019-11-18_17-9-7.png\|\|height="400"]]
		165
		166	[[image:attach:pulse_energy_server.jpg\|\|height="400"]]
		167
		168	\\
		169
		170	jddd server panel Definition of the parameters
		171
		172	\\
		173
		174	\\
		175
		176	\\
		177
		178	= Detailed stuff =
		179
		180	* [[ADQ412 server description~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~\|~\|width="13" height="12"~]~]>>url:https://ttfinfo.desy.de/FLASHWiki/Wiki.jsp?page=SPdevicesDMA%20ADQ\|\|shape="rect"]]
		181	* [[ a collection of usefull things related to the OPIS ADCs>>doc:FLASH.OPIS ADC related things]]
		182
		183	\\
		184
		185	\\
		186
		187	\\
		188
		189	\\

Wiki source code of MTCA ADCs