Changes for page Trigger Howto

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1		-XWiki.sndueste
	1	+XWiki.grunewal

Content

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5	5	= Introduction (user panel)
6	6	=
7	7
8		-The MTCA based triggers have a jitter in the few ps range, the delay can be shifted in 9 ns steps, One can choose between 10 Hz triggers, Triggers connected to the (fast) FEL shutters,  frequencies locked to the pulses (e.g. 1MHz) and the actual bunch patterns. A detailed description can be found in [[x2Timer manual>>attach:x2Timer.pdf]] ([[Design Paper>>url:http://ttfinfo2.desy.de/doocs/Timing/CDRv2.2short.pdf||shape="rect"]]).
	8	+The MTCA based triggers have a jitter in the few ps range, the delay can be shifted in 1 ns steps (over many ms), one can choose between 10 Hz triggers, frequencies locked to the pulses (e.g. 1MHz) and the actual bunch patterns. A detailed description can be found in [[x2Timer manual>>attach:x2Timer.pdf]] ([[Design Paper>>url:http://ttfinfo2.desy.de/doocs/Timing/CDRv2.2short.pdf||shape="rect"]]).
9	9
10		-In short:
	10	+in short: the triggers are for low impedance (~~50 OHM terminated ?? ), 5V triggers with an adjustable width. The main control panel for the x2 timer has the control options for the 3 front modules (connected with a RJ45 cable - connecting to a "trigger box" with 2 trigger exits (Lemo) each) and 8 Lemo exits at the back of the crate. in the BL-beamline case these triggers are connected to the BNC (patch panel) ports at the rack.
11	11
12		-* the triggers are for low impedance (~~50 Ohm )
13		-* signal level is + 5V - otherwise 0V (in the expert panel one can also invert the signal - base line is +5 V and trigger 0V)
14		-* The trigger are send to the MTCA several ms before the first FEL pulse (3.1 ms for the "standard" trigger, 23 ms for the "early" trigger).
15		-* The timer card can delay the trigger in 9 ns  steps for more than 100 ms (an option to shift the trigger in 1 ns steps is available in the expert panel)
16		-* The shown delay in µs is in respect to the //first// FEL pulse. negative delay: trigger comes before FEL, positive : trigger comes after the FEL.
17		-* The desired delay has to be entered in the "delay to be set" field and as second step pressing the "set delay" sends the delay value to the timer card. Then the trigger delay will be changed and the "actual delay" will be updated.
18		-* The trigger can be set to only provide a trigger signal if the FEL Fast shutter is open. One has to choose which FEL shutter to use.
19		-* The trigger  width can be adjusted from 9 ns to several ms in 9 ns steps
20		-* The timer card can in addition to the 10 Hz triggers also provide frequencies which are linked to the FEL repetition rate and the actual burst pattern of the FEL. For details how to set these modes see below
21		-* At the beamlines the triggers are provided with a  BNC patch panel
	12	+The main control can be done with a simplified user panel which can handle the timing in respect to the FEL pulses and not in respect to some (arbitrary) reference time ( Event)
22	22
23		-The main control can be done with a simplified user panel which can handle the timing in respect to the FEL pulses (and not in respect to some arbitrary event time)
24		-
25		-
	14	+[[image:attach:Trigger_scheme.gif]]
26	26	\\
27	27
28		-\\
29		-
30		-\\
31		-
32		-\\
33		-
34		-\\
35		-
36		-\\
37		-
38	38	= Different trigger events (starting points) =
39	39
40	40	one can configure each channel for an individual trigger event
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105	105
106	106	\\
107	107
108		-\\
109		-
110	110	= Expert panels =
111	111
112	112	\\
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125	125
126	126	\\
127	127
	105	+\\
	106	+
128	128	= Set a constant frequency to a channel =
129	129
130	130	=
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174	174
175	175	\\
176	176
177		-== General FLASH frequencies: ==
178		-
179	179	\\
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181		-(% class="relative-table wrapped" style="width: 19.422%;" %)
182		-|(% class="highlight-grey" title="Hintergrundfarbe : Grau" data-highlight-colour="grey" %)(((
183		-(% style="color: rgb(0,0,0);" title="" %)**Name
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185		-)))|(% class="highlight-grey" title="Hintergrundfarbe : Grau" data-highlight-colour="grey" %)(((
186		-(% style="color: rgb(0,0,0);" title="" %)**Frequency
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188		-)))|(% class="highlight-grey" title="Hintergrundfarbe : Grau" data-highlight-colour="grey" %)(((
189		-(% style="color: rgb(0,0,0);" title="" %)**Divider**
190		-)))
191		-|(((
192		-1.3 GHz
193		-)))|(((
194		-1300.000000 MHz
195		-)))|(((
196	196	\\
197		-)))
198		-|(((
199		-108 MHz
200		-)))|(((
201		-108.333333 MHz
202		-)))|(((
203		-12
204		-)))
205		-|(((
206		-9 MHz
207		-)))|(((
208		-9.02777777 MHz
209		-)))|(((
210		-144
211		-)))
212		-|(((
213		-4.5 MHz
214		-)))|(((
215		-4.513888 MHz
216		-)))|(((
217		-288
218		-)))
219		-|(((
220		-1 MHz
221		-)))|(((
222		-1.003086 MHz
223		-)))|(((
224		-1296
225		-)))
226	226
227	227	\\
228	228
229	229	Once a clock is configured with the right frequency one can choose in the "expert panel" of the according channel the "FPGA clock" in the "input source select"  chooser.
230	230
	164	+\\
	165	+
	166	+\\
	167	+
	168	+\\
	169	+
231	231	One has to set the delay to values less than the repetition rate ... (so for 1 MHz between 0 and 990 µs)  and the trigger width also less than the rep rate ...
232	232
233		-This results in a continuous train of pulses with the set trigger width.
	172	+\\
234	234
	174	+\\
	175	+
	176	+\\
	177	+
	178	+This results in a continuous train of pulses with the set trigger width :
	179	+
235	235	= Creating an (own) burst trigger =
236	236
237	237	One can use now a SECOND trigger channel which is set to a regular 10 Hz trigger  and gate the clock output to create a burst with defined start point and length,