...
| e+, e- | Accumulator |
|---|
0 - BeamPhs Beam Phase
1 - PhaseWP Phase Working Point
2 - AGCWP AGC Working Point
3 - RFFrw RF Forward
4 - RFLevel RF Level
5 - RFRvrsm RF Rverse
6 - PhsFdbk Phase Feedback
7 - TnrWP Turner Working Point
8 - ZMdFdbk Zero Mode Feedback
9 - SlideFbk Slide Feedback
10- PhErrKly Phase Error Klystron
11- WpKlyFbk Working Point Feedback
12- Klystron | ... to be filled ...
(9 components) 0 - BeamPhs Beam Phase
1 - PhaseWP Phase Working Point
2 - AGCWP AGC Working Point
3 - RFFrw RF Forward
4 - RFLevel RF Level
5 - RFRvrsm RF Rverse
6 - PhsFdbk Phase Feedback
7 - TnrWP Turner Working Point
8 - ZMdFdbk Zero Mode Feedback |
DACDynArray
Ha 19 componenti per le chiavi RF degli anelli e 10 componenti per quella dell'accumulatore; ciascuna componente rappresenta un valore impostato sul DAC. Traducendo il chName da float (con un cast su una stringa di 8 caratteri), si ottiene, per ciascun canale:
| e+, e- | Accumulator |
|---|
0 - AbsPhsR Absolute Phase Reference
1 - PhsFdbkR Phase Feedback Reference
2 - RFLevRef RF Level Reference
3 - AGCGain AGC Gain
4 - PhsLpGn Phase Loop Gain
5 - PhsWndwP Window Cavity Center Phase
6 - PhsWndwM Window Cavity width Pahase
7 - RFLvRefA RF Level Refernce Amplitude
8 - TnrPhsSh Tuner Phase Shifter
9 - ZMdFdbkP Zero Mode feeback refernence feedback reference
10-Amplitud RF feedback Amplitude
11-phaseFbk RF feedback phase
12-SlopeFbk RF feedback Slope
13-ZeroFbk RF feedback Zero
14-ManPhKly Manual Phase Kystron
15-LowThKly Window Center Klystron Phase
16-HigThKly Window WidthKlystron Phase
17-RfFbkOn RF Feddback Feedback On
18-KlyFbkOn Klystron Feddback On ... to be filled ...
(10 components)Feedback On | 0 - AbsPhsR Absolute Phase Reference
1 - PhsFdbkR Phase Feedback Reference
2 - RFLevRef RF Level Reference
3 - AGCGain AGC Gain
4 - PhsLpGn Phase Loop Gain
5 - PhsWndwP Window Cavity Center Phase
6 - PhsWndwM Window Cavity width Pahase
7 - RFLvRefA RF Level Refernce Amplitude
8 - TnrPhsSh Tuner Phase Shifter
9 - ZMdFdbkP Zero Mode feedback reference |
IODynArray
Ha 14 componenti sia per le chiavi RF degli anelli sia per quella dell'accumulatore. Traducendo il chName da float (con un cast su una stringa di 8 caratteri), si ottiene per ciascun canale:
| e+, e- | Accumulator |
|---|
0 - TnrUpLSw Tuner Level Up
1 - TnrDwLSw Tuner Level Down
2 - PLCAllar PLC Allarm
3 - FstIntlk Fast Interlok
4 - ZMdFdbkO Zero Mode Feedback ON/OFF
5 - TnrDw Tuner UPDown
6 - ResetPLC Reset PLC
7 - IMPCW IMP/CW
8 - TnrUp Tuner DownUp
9 - AGCOnOff Aplitude Loop On/Off
10-PhsFdbkO Cavity Phase ON/Off
11-TnrMnAt Tuner Manual automatic
12-RFOnOff RF On Off
13-ErInOnOf ErIn ON/OFF | 0 - TnrUpLSw Tuner Level Up
1 - TnrDwLSw Tuner Level Down
2 - PLCAllar PLC Allarm
3 - FstIntlk Fast Interlok
4 - ErInOnOf ErIn ON/OFF
... to be filled ...
(14 components)5 - ZMdFdbkO Zero Mode Feedback ON/OFF
6 - TnrDw Tuner Down
7 - ResetPLC Reset PLC
8 - IMPCW IMP/CW
9 - TnrUp Tuner Up
10 - AGCOnOff Aplitude Loop On/Off
11-PhsFdbkO Cavity Phase ON/Off
12-TnrMnAt Tuner Manual automatic
13-RFOnOff RF On Off
|
Detailed description of the Dynamic Fork with calculated offsets
Offset
[byte] | LabVIEW
type | Value | Comment |
00
01
02
03
04
05
06
07 | DBL | elementName |
|
08
09
10
11 | I32 | status |
|
12
13
14
15 | I32 | consoleName |
|
16
17
18
19 | U32 | errorMask |
|
20
21
22
23 | U32 | errorMaskADC |
|
24
25
26
27 | U32 | errorMaskDAC |
|
28
19
30
31 | U32 | errorMaskIO |
|
32 | TF | onLine |
|
33 | TF | byPass |
|
34 | TF | remote |
|
35 | TF | busy |
|
Beginning of the array of clusters ADCDynArray (Cluster structure must be known) |
36
37
38
39 | U32 | nr. of array components | arraySize - for e-, e+: arraySize = 13
- for Acc.: arraySize = 9
|
40
41
42
43
44
45
46
47 | DBL | ADCDynArray.chName[0]
(36 + 4) + ( i * 24 )
with i from 0 to ( arraySize - 1) | First component [i=0]
First DBL |
48
49
50
51
52
53
54
55 | DBL | ADCDynArray.readOut[0]
(36 + 4) + ( i * 24 ) + 8
with i from 0 to ( arraySize - 1) | First component [i=0]
Second DBL |
56
57
58
59
60
61
62
63 | DBL | ADCDynArray.readOutRaw[0]
(36 + 4) + ( i * 24 ) + 16
with i from 0 to ( arraySize - 1) | First component [i=0]
Third DBL |
... | ... | ... | ... |
End of the array |
Beginning of the array of clusters DACDynArray (Cluster structure must be known) |
O1
O1+01
O1+02
O1+03 | U32 | nr. of array components | arraySize - for e-, e+: arraySize = 19
- for Acc.: arraySize = 10
The "O1" offset depends on the number of components of the preceeding arrays - for e-, e+: O1 = (36+4)+(12*24)+16+8 = 352
- for Acc.: O1= (36+4)+(8*24)+16+8 = 256
|
O1+04
O1+05
O1+06
O1+07
O1+08
O1+09
O1+10
O1+11 | DBL | DACDynArray.chName[0]
(O1 + 4) + ( i * 24 )
with i from 0 to ( arraySize - 1) | First component [i=0]
First DBL |
O1+12
O1+13
O1+14
O1+15
O1+16
O1+17
O1+18
O1+19 | DBL | DACDynArray.setting[0]
(O1 + 4) + ( i * 24 ) + 8
with i from 0 to ( arraySize - 1)
| First component [i=0]
Second DBL |
O1+20
O1+21
O1+22
O1+23
O1+24
O1+25
O1+26
O1+27 | DBL | DACDynArray.settingraw[0]
(O1 + 4) + ( i * 24 ) + 16
with i from 0 to ( arraySize - 1) | First component [i=0]
Third DBL |
... | ... | ... | ... |
End of the array |
Beginning of the array of clusters IODynArray (Cluster structure must be known) |
O2
O2+01
O2+02
O2+03 | U32 | nr. of array components | arraySize - for e-, e+: arraySize = 14
- for Acc.: arraySize = 14
The "O2" offset depends on the number of components of the preceeding arrays - for e-, e+: O2 = (352+4)+(18*24)+16+8 = 812
- for Acc.: O2= (256+4)+(9*24)+16+8 = 500
|
O2+04
O2+05
O2+06
O2+07
O2+08
O2+09
O2+10
O2+11 | DBL | IODynArray.chName[0]
(O2 + 4) + ( i * 9 )
with i from 0 to ( arraySize - 1) | First component [i=0]
DBL |
O2+12 | TF | IODynArray.value[0]
(O2 + 4) + ( i * 9 ) + 8
with i from 0 to ( arraySize - 1) | First component [i=0]
LabVIEW TF (booleans) take one byte. |
... | ... | ... |
|
End of the array |
O3
O3+01
O3+02
O3+03
O3+04
O3+05
O3+06
O3+07 | DBL | tunerPosition | The "O3" offset depends on the number of components of the preceeding arrays - for e-, e+: O3 = (812+4)+(13*9)+8+1 = 942
- for Acc.: O3= (500+4)+(13*9)+98+1 = 630
|
Details