Difference between revisions of "Solenoid Operations"

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(Ramp the Magnet)
(Ramp the Magnet)
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=== Ramp the Magnet ===
 
=== Ramp the Magnet ===
  
Special care is need to reduce sudden change of the solenoid current to prolong its life time. Therefore, the solenoid current is ramped with stops and various ramp rates:
+
Special care is need to prevent sudden change of the solenoid current from damaging the magnet. And the solenoid current is ramped with stops and various ramp rates:
  
 
* 0 - 800 A: 0.2 A/s
 
* 0 - 800 A: 0.2 A/s

Revision as of 17:00, 14 October 2014

The Solenoid Magnet

The principle analysis magnet for the GlueX spectrometer is a superconducting solenoid made from the Large Aperture Solenoid Spectrometer (LASS) solenoid built at Stanford Linear Accelerator Center (SLAC) in 1971. The LASS solenoid consists of four separate coils located in separated vacuum vessels. Three coils were later used a second time for the Muon decays into Electron and GAmma ray (MEGA) experiment at Los Alamos National Lab from 1993 through 1995. During the MEGA experiment, the coils had electrical shorts and leaks to the insulating vacuum along with deteiorated superinsulation and instrumentation. In order to use them for the GlueX experiment, all four LASS coils have been extensively repaired, refurbished and tested at Jefferson Lab. The four coils were then assembled in Hall-D. The final GlueX solenoid has a bore of 1.85~m and measures 4 m long.

Halld solenoid.jpg

The magnet consists of 4608 windings(turns) of conductor in total. The windings are grouped into 19 sub-coils and distributed in four coils. The conductor is made of two copper bars 7.62 mm wide and about 2 mm thick, with a band of about 1~mm thick NbTi superconductor composite soldered in between them. These double-pancake windings are not insulated at their sides and are separated by a 0.64 mm thick stainless steel band co-wound with the cable, and insulated from the cable on both sides by Mylar bands of 0.2 mm thick.

Halld solenoid simulation.pngHalld solenoid field.png

When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore. The full inductance of the solenoid is about 26 H.

Routine Operation

As the superconducting solenoid is very complex system, the operation of such system requires a lot of knowledge and experiences. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.

The responsibilities of the shift workers include:

  • Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.
  • Notify experts when anomalies happen.
  • Ramp the magnet per request of run coordinator.
  • Make log entries to the HDSOLENOID logbook

How-To

Open Solenoid EPICS Interface

Solenoid Screen Main.png

The Solenoid Main GUI can be opened from the Hall-D's main EPICS GUI.

If not opened, follow these steps:

  1. If in counting house, go to step 3 directly. If offsite or using a person computer, log on to JLab's Login Gateway: ssh -X yourusername@login.jlab.org
  2. If not already in the device network, log on to the Hall Gateway (hallgw): ssh -X yourusername@hallgw, use your two-step crytocard to generate passcodes.
  3. Log on to gluon04, the 4th machine in the counting house, with account hdops: ssh -X hdops@gluon05, ask Yi Qiang [1] or Hovanes Egiyan [2] for password.
  4. Type css_solenoid to bring up the Solenoid EPICS GUIs.

note: If Workspace .../Solenoid is currently being used, try css_solenoidn, where n = 2 - 5.

Basic status of the power supply will be shown on the main menu, in order to access detailed information and functions, click the corresponding buttons.

Screenshots of all GUI pages can be found in Solenoid_EPICS_Screen.

note1: MobaXterm is recommended for Windows users, and a copy is available on M: drive M:\halld-online\MobaXterm.exe

note2: if neither "Main Action Bar" nor "Solenoid Main Menu" are shown, click the short cuts in the CSS menu to bring them up:

Solenoid Screen shortcut.png

Ramp the Magnet

Special care is need to prevent sudden change of the solenoid current from damaging the magnet. And the solenoid current is ramped with stops and various ramp rates:

  • 0 - 800 A: 0.2 A/s
  • sit at 800 A for 15 minutes
  • 800 - 1000 A: 0.12 A/s
  • sit at 1000 A for 60 minutes
  • 1000 - 1200 A: 0.06 A/s
  • sit at 1200 A for 60 minutes
  • 1200 A - beyond: 0.06 A/s

Take High Speed Data using PXI

Reboot EPICS IOCs

Access PLC HMI Interface

The HMI screens are for expert only. halldsc7 currently serves as the Remote Desktop Server to access these screens. Right now, only ONE connection is allow at a time, so please quit the remote desktop if not needed. You can access them by using any Linux terminals in the Counting House: gluon01a, gluon02, gluon03, gluon04 and gluon5. To do so, follow theses steps:

  1. Open a terminal from any of the gluon machines.
  2. Start remote desktop in fullscreen mode by typing rdesktop -f halldsc7 in the terminal
  3. In the Windows Log In screen, choose Other User, use JLAB\halldusers for username, ask Yi [3] or Hovanes [4] if you do not know the password.
  4. Once logged in, double click the FactoryTalk Client shortcut on the desktop, choose ...\Hall_D.cli application and click run to start the HMI screens.
  5. Once done, please log off the remote desktop. You can leave the screens running though.

More information about HMI screens can be found in expert page.

Expert personnel

The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table. Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be approved by them. Additional experts may be trained by the system owner and their name and date added to this table.


Table: Expert personnel for the Solenoid Magnet
Name Extension Cellphone Pager Date of qualification
Solenoid On-Call 769-9755 Oct 10, 2014
George Biallas - Solenoid 269-7535 813-1179 [5] June 12, 2014
Yi Qiang - Solenoid/PXI 269-7237 358-2146 [6] June 12, 2014
Mark Stevens - Power Supply 269-6383 318-1576 [7] June 12, 2014
Scot Spiegel - MPS/Solenoid 536-5900 [8] June 12, 2014
Jonathan Creel - Cryogenics 269-5925 869-8910 [9] June 12, 2014
Dave Butler - PLC 329-2583 329-2583 [10] June 12, 2014

Shift Schedule for Extended Solenoid Test

Table: Shift Schedule for 1200 A Solenoid Test
Shift Monday Tuesday Wednesday Thursday Friday
Owl (00:00 - 08:00) - Beni / Simon Beni / Simon Mark D. Hovanes / Manuel
Day (08:00 - 16:00) - Mark I. / Scot Mark D. / Scot Manuel / Scot Mark I. / Scot
Swing (16:00 - 24:00) Mike / Nathan David L. / Elton Lubomir / David L. Lubomir / Elton -

Expert Information