CONFIGURATION FOR HYDROGEN
(for Deuterium see note at the end ABS RF transition table)
The following list reports the electronic module, their control (INPUT) and their signal out (OUPUT) useful for the operation of the BRP and the acquisition or monitoring of the system respectively..
We’d like to have these controls under of LABVIEW.
We use NU or not Used when there is the possibility but is not used
We label not possible when the module doesn’t allow, but we have spare that allow the procedure.
In the last column we report as it is now controlled (R means Remote Control, L means Local Control).
BRP RF transition units.
Unit / Module / Input for control / Input (res.) / Output for monitor / Output (res.) / L/RBRP MFT / RF generator
MPI HF Steurung 50-100 MHz / EXT 0-10 V Ampl.
EXT 0-10 Frequ. / 12 Bit DAC / Monitor Ampl 0-10 V
Monitor PU 0 -10 V / R
L
RF amplifier
KALMUS Engineering 510 FC / Not Possible. / Not possible
MFT static Field
KEPCO BO-20-10 M / I control by +10 V / Not used / R
MFT gradient Field
KEPCO BO-50-2M / I control by +10 V / Not Used / R
BRP SFT
(or labeled also TFT) / RF generator
MPI HF-Regelung 1.45 GHZ / Ext 0-10 V Ampl
Ext 0-10 V Resonz (NU) / 12 bit DAC / Monitor Ampl.
Monitor Res. (NU) / R
L
RF amplifier
Dressler RF 1450-20C / Not possible
SFT static Field
KEPCO BOP 20-10M / I control by +10 V / Not used / R
SFT Gradient Field
Heinzinger LNG 32-3 / I control by 0 - 10 V / Not Used / R
ABS RF transitions units.
Unit / Module / Input for control / Input (res.) / Output for monitor / Output (res.) / L/RABS WFT
(or labeled also HFT ?) / RF generator
MPI HF Steurung 5-30 MHz / Ext 0-10 V Ampl
Ext 0-10 V Resonz (NU) / 12 bit DAC / Monitor Ampl.
Monitor Res. (NU) / R
L
RF amplifier
KALMUS 530 FC-CE / Not possible
WFT static Field
Heinzinger LNG 32-3 / I control by 0 - 10 V / Not used / R
WFT Gradient Field
KEPCO BOP 20 10M / I control by +10 V / Not Used / R
ABS MFT / RF generator
MPI HF Steurung 50-100 MHz / EXT 0-10 V Ampl.
EXT 0-10 Frequ. (NU) / 12 Bit DAC / Monitor Ampl 0-10 V
Monitor PU 0 -10 V / R
L
RF amplifier
RF Power LAB 110 FC / Not Possible. / Not possible
MFT static Field
Heinzinger LNG 32-3 / I control by 0 - 10 V / Not used / R
MFT gradient Field
KEPCO BO-72-3M / I control by +10 V / Not Used / R
ABS SFT
(or labeled also TFT ?) / RF generator
MPI HF-Regelung 1.45 GHZ / EXT 0-10 V Ampl.
EXT 0-10 Frequ. (NU) / 12 Bit DAC / Monitor Ampl 0-10 V
Monitor PU 0 -10 V / R
L
RF amplifier
Dressler RF 1450-20C / Not Possible. / Not possible
SFT static Field
Heinzinger LNG 32-3 / I control by 0 - 10 V / Not used / R
MFT gradient Field
KEPCO BO-20-5M / I control by +10 V / Not Used / R
For now if we want to change to the DEUTERIUM, we have to change the transition inside the vacuum chamber and the RF generator for the SFT transitions (we found one generator R.F.T.S. RF8 50 15 , it seems non need of more control.
The patch panel already include the cabling for the deuterium in case of using the multiple SFT transition both for H and for D test in Ferrara (see report of Steffens and Capiluppi).
BRP Ion optics and Mass Spectrometer
Unit / Module / Input for control / Input (res.) / Output for monitor / Output (res.) / L/RBRP Ion optics / BRP Ionisator 0-10 A (NIM standard on crate)
Power supply
Control module MPI / DAC 12 Bit / MONITOR 0-10 V / L
U1
U2
MPI Heidelberg / Monitor 0-10 V
Monitor 0-10 V / L
U3
U4
NHQ2004N ISEG / Inhibit not used
See manual / Possible not used
See manual / L
HV 1
U5
NHQ2004N ISEG / Inhibit not use / Possible not used / L
HV 2
U5
NHQ203 N ISEG / Inhibit not use / Possible not used / L
BRP extr. B
NHQ203 N ISEG / Inhibit not used / Possible non used / L
BRP QMS / MPI NIM CARD
RES (resolution)
SCAN (mass scan) / 0-10.24 V
0-10.24 V / RF OK Not Used / R
R
TGA Ion optics and Mass Spectrometer
Unit / Module / Input for control / Input (res.) / Output for monitor / Output (res.) / L/RTGA Ion optics / TGA Ionisator 0-10 A (NIM standard on crate)
Power supply
Control module MPI / DAC 12 Bit / Monitor 0-10 V / L
L
L
U1
U2
MPI Heidelberg / Monitor 0-10 V
Monitor 0-10 V / L
L
U3
U4
NHQ2004N ISEG / Inhibit not used
See manual eventually / Possible not used
See manual eventually / L
L
HV 1
U5
NHQ2004N ISEG / Inhibit not use / Possible not used / L
L
HV 2
U5
NHQ203 N ISEG / Inhibit not use / Possible not used / L
L
TGA extr A
NHQ203 N ISEG / Inhibit not used / Possible non used / L
TGA QMS / MPI NIM CARD
RES (resolution)
SCAN (mass scan) / 0-10.24 V
0-10.24 V / RF OK Not Used / R
R
Beam Shutter
Unit / Module / Input for control / Input (res.) / Output for monitor / Output (res.) / L/RBeam Shutter / MPI module / 0-10 V / R
Trigger of the chopper and counting,
The following module shape the trigger from the chopper photodiode and provide e “filtered signal” for counting.
CounterCamberra Module 1772
Quad Discriminator
LRS model 621 L
Quad coincidence
LRS Model 622
Logic fan in/fan out
Lecroy Model 429/A
Gate Generator
Model G43 Heidelberg
Pegel converter
Heidelberg Model L 49 A
CAMAC standard module available
Unit / Module / Input &/or outputVME Crate
WIENER CRATE NIM
UEP 10 M CAMAC – AEC NIM / 3116 16 bit DAC KineticSystems / See manual
In “electronic Module” folder of A. Nass office
3112 12 bit DAC ineticSystems / See manual
In “electronic Module” folder of A. Nass office
3112 12 bit DAC KineticSystems / See manual
In “electronic Module” folder of A. Nass office
3112
12 bit DAC KineticSystems / See manual
In “electronic Module” folder of A. Nass office
3112
12 bit DAC KineticSystems / See manual
In “electronic Module” folder of A. Nass office
WARNING
Confusing module HOME made called ADC, it is only a distributing the analog signal from 32 LEMO to 2 ( two) connectors
AMP 204744-1 9639.
Lecroy 2341 A 16 folder Register
KineticSystems 3075 16 bit Output Register
Could be required the 32 channel A/D Converter model 3527-V1 B, seems the missing part to use the distributed signal from the HOME made module.