Han,
we run a similiar system here at the FHI FEL.
It is our HV Gun Control.
IOC is running on a debian-VM connected to the ethernet.
Using asynDrv and StreamDevice2
A Moxa NPort 6450 (4 Ports) on "ground-level"
3 Power supplies (floated to HV) are connected to the Moxa serial
ports via Moxa Fibre-Connectors (TCF-90)
1.) Agilent E3634A as current source
2.) Delta as Voltage Source (200V)
3.) Sorensen as Voltage Source (80 - 120V)
2 Spellman HV-Powersupplies (SL-Model, 50kV and 20 kV). These devices
are equipped with an Digital Interface (SIC) which provides
ethernet (we are using) and RS-232 on ground level.
Best regards,
Heinz
------------------------------------------------------------------------------
Fritz-Haber-Institut | Phone: (+49 30) 8413-4270
Heinz Junkes | Fax (G3+G4): (+49 30) 8413-5900
Faradayweg 4-6 |
D - 14195 Berlin | E-Mail: [email protected]
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On 31.07.2014, at 12:24, Jeong Han Lee <[email protected]> wrote:
Dear All,
We are designing a control system, which is, of course, based on
EPICS, for ECR Ion Source. There are three electrical potentials
present in our configuration. The first one is definitely the
ground, the second is at 45kV, and the other is at 75kV above the
ground.
All devices and equipment, HV controller, vacuum, and so on, which
we want to monitor, are located at each HV potential.
A naive thought, which I have right now, is that MOXA NPort 56XX,
Ethernet Switch with Fiber Optic links, and EPICS IOC running on
Linux Platform should be enough.
Do you have any example which I can follow within EPICS
collaboration?
Any suggestions and recommendation about HWs, designs, and others
are welcome always.
Thanks,
Han
--
Jeong Han Lee, Dr.rer.nat.
----------------------------
Accelerator Systems Division
Rare Isotope Science Project
Institute for Basic Science
Daejeon, South Korea
----------------------------
tel : +82-42-878-8733
fax : +82-42-878-8799