https://halldweb.jlab.org/hdops/wiki/api.php?action=feedcontributions&user=Whitey&feedformat=atomHall D Ops Wiki - User contributions [en]2024-03-29T13:38:05ZUser contributionsMediaWiki 1.24.1https://halldweb.jlab.org/hdops/wiki/index.php?title=Shift_Guidelines_for_Shift_Leader&diff=4109Shift Guidelines for Shift Leader2022-06-03T16:10:50Z<p>Whitey: /* Alarms */</p>
<hr />
<div>See also https://halldweb.jlab.org/hdops/wiki/index.php/Short_Term_Run_Plan<br />
<br />
=== Beam tuning ===<br />
<br />
# Make sure the collimator is in blocking position.<br />
<br />
=== Run info logging ===<br />
<br />
# Keep a list of the runs at the end of the shift summary log entry, eg https://logbooks.jlab.org/entry/3795057<br />
# Make sure that the DAQ "RUN" field is set to PHYSICS_SRC for production runs, and EXPERT for test runs.<br />
# Keep the runs to 2h real-time at most. Calibrations drifts are noticeable after about 2h. <br />
# Write run info into the DAQ run comments box at the start of the run and save it. <br />
# Make sure that the paper list of runs is kept up to date.<br />
<br />
=== Monitoring ===<br />
<br />
# Remind the shift worker: Half-way through each run, post the rootspy monitoring histograms to the logbook and reset them. Post the new plots at the end of the run.<br />
# Remind the shift worker: Make a screenshot of the GlueX overview CSS logentry mid-shift.<br />
# Remind the shift worker: Complete the shift checklist. <br />
# Watch the beam monitoring strip charts, currently using beam_instability_monitoring configuration, & post to the logbook at the end of the shift<br />
# New, maybe temporary: if PS coincidence rates drop by 30% or more, do harp scans (MCC & ours)<br />
<br />
=== Time to call expert ===<br />
<br />
# Expert or RC should be called after 10-15 min of attempting to solve a problem.<br />
<br />
=== Changing radiators ===<br />
<br />
# Request accelerator insert the dumplette before any radiator changes.<br />
# Each time the amorphous radiator is inserted, make a new AMO reference with beam on. See "[[Beam_Line_Detectors_Shift#Setting_Amorphous_Reference |Setting Amorphous Reference]]."<br />
# Each time the diamond radiator is inserted or its orientation changed, use the nudge buttons to obtain the desired coherent edge fit value, save the new configurations as instructed in "[[Beam_Line_Detectors_Shift#Adjusting_the_peak_positions | Adjusting the peak positions]]" and make a screenshot logentry of the cobrems gui.<br />
<br />
=== Alarms ===<br />
<br />
# '''When acknowledging alarms for the solenoid, mechanical and DIRC, acknowledge them at the lowest level of the tree. This is to avoid sending 'OK' messages to the on-call phones for all the branches of the tree which were not alarming.'''<br />
# Make separate logbook entries for worrying alarms & contact experts as needed.<br />
<br />
=== Beam Time Accounting===<br />
<br />
The following link gives extensive general information on filling out the Beam Time Accounting (BTA)<br />
[[BTA_guidelines | Beam-Time Accounting (BTA) Guidelines]] <br />
<br />
====6 hour shifts====<br />
<br />
The BTA form does not accommodate 6 hour shifts. Therefore we have to share accounts. When you arrive for shift the BTA system should already be logged in with the current shift-worker's credentials. Please verify that the numbers have been filled in and saved. At 8am, 4pm and midnight the BTA will need to be signed. After signing the BTA, log out of the system and log in again with your own credentials. This procedure ensures that only 2 people are involved in any BTA form at a time, which should simplify things.<br />
<br />
===Access ===<br />
<br />
# We keep a list of requests for opportunistic access on the whiteboard. We also have to keep a list of who is actually in the hall during accesses.<br />
<br />
===VNC Server===<br />
<br />
Remote shift workers access the counting room via a VNC session. You are responsible for having the VNC server up and running. Find instructions for starting the server [https://logbooks.jlab.org/entry/3909587 here]. To view the desktop in the counting room, enter the command<br />
vncviewer -shared localhost:33<br />
into a terminal on the gluon03 workstation to start the VNC client.<br />
<br />
If you ever need to kill a vncserver use the command:<br />
vncserver -kill :XX<br />
where XX is the port number. You need to be logged into gluon03 as hdops, of course.<br />
<br />
===BlueJeans===<br />
<br />
Be sure that the BlueJeans meeting (ID:348194990 and Passcode:1111) is connected on the PC at the far right of the work stations (hdguest1). The webcam connects by default, but you must set the microphone to "Chat 50 Analog Mono" under the settings menu of the BlueJeans window. This will use the small microphone labelled "ClearOne" which should be between gluon03 and gluon04.</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Shift_Guidelines_for_Shift_Leader&diff=4108Shift Guidelines for Shift Leader2022-06-03T16:10:32Z<p>Whitey: /* Alarms */</p>
<hr />
<div>See also https://halldweb.jlab.org/hdops/wiki/index.php/Short_Term_Run_Plan<br />
<br />
=== Beam tuning ===<br />
<br />
# Make sure the collimator is in blocking position.<br />
<br />
=== Run info logging ===<br />
<br />
# Keep a list of the runs at the end of the shift summary log entry, eg https://logbooks.jlab.org/entry/3795057<br />
# Make sure that the DAQ "RUN" field is set to PHYSICS_SRC for production runs, and EXPERT for test runs.<br />
# Keep the runs to 2h real-time at most. Calibrations drifts are noticeable after about 2h. <br />
# Write run info into the DAQ run comments box at the start of the run and save it. <br />
# Make sure that the paper list of runs is kept up to date.<br />
<br />
=== Monitoring ===<br />
<br />
# Remind the shift worker: Half-way through each run, post the rootspy monitoring histograms to the logbook and reset them. Post the new plots at the end of the run.<br />
# Remind the shift worker: Make a screenshot of the GlueX overview CSS logentry mid-shift.<br />
# Remind the shift worker: Complete the shift checklist. <br />
# Watch the beam monitoring strip charts, currently using beam_instability_monitoring configuration, & post to the logbook at the end of the shift<br />
# New, maybe temporary: if PS coincidence rates drop by 30% or more, do harp scans (MCC & ours)<br />
<br />
=== Time to call expert ===<br />
<br />
# Expert or RC should be called after 10-15 min of attempting to solve a problem.<br />
<br />
=== Changing radiators ===<br />
<br />
# Request accelerator insert the dumplette before any radiator changes.<br />
# Each time the amorphous radiator is inserted, make a new AMO reference with beam on. See "[[Beam_Line_Detectors_Shift#Setting_Amorphous_Reference |Setting Amorphous Reference]]."<br />
# Each time the diamond radiator is inserted or its orientation changed, use the nudge buttons to obtain the desired coherent edge fit value, save the new configurations as instructed in "[[Beam_Line_Detectors_Shift#Adjusting_the_peak_positions | Adjusting the peak positions]]" and make a screenshot logentry of the cobrems gui.<br />
<br />
=== Alarms ===<br />
<br />
# ''When acknowledging alarms for the solenoid, mechanical and DIRC, acknowledge them at the lowest level of the tree. This is to avoid sending 'OK' messages to the on-call phones for all the branches of the tree which were not alarming.''<br />
# Make separate logbook entries for worrying alarms & contact experts as needed.<br />
<br />
=== Beam Time Accounting===<br />
<br />
The following link gives extensive general information on filling out the Beam Time Accounting (BTA)<br />
[[BTA_guidelines | Beam-Time Accounting (BTA) Guidelines]] <br />
<br />
====6 hour shifts====<br />
<br />
The BTA form does not accommodate 6 hour shifts. Therefore we have to share accounts. When you arrive for shift the BTA system should already be logged in with the current shift-worker's credentials. Please verify that the numbers have been filled in and saved. At 8am, 4pm and midnight the BTA will need to be signed. After signing the BTA, log out of the system and log in again with your own credentials. This procedure ensures that only 2 people are involved in any BTA form at a time, which should simplify things.<br />
<br />
===Access ===<br />
<br />
# We keep a list of requests for opportunistic access on the whiteboard. We also have to keep a list of who is actually in the hall during accesses.<br />
<br />
===VNC Server===<br />
<br />
Remote shift workers access the counting room via a VNC session. You are responsible for having the VNC server up and running. Find instructions for starting the server [https://logbooks.jlab.org/entry/3909587 here]. To view the desktop in the counting room, enter the command<br />
vncviewer -shared localhost:33<br />
into a terminal on the gluon03 workstation to start the VNC client.<br />
<br />
If you ever need to kill a vncserver use the command:<br />
vncserver -kill :XX<br />
where XX is the port number. You need to be logged into gluon03 as hdops, of course.<br />
<br />
===BlueJeans===<br />
<br />
Be sure that the BlueJeans meeting (ID:348194990 and Passcode:1111) is connected on the PC at the far right of the work stations (hdguest1). The webcam connects by default, but you must set the microphone to "Chat 50 Analog Mono" under the settings menu of the BlueJeans window. This will use the small microphone labelled "ClearOne" which should be between gluon03 and gluon04.</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Solenoid_Ramping_Shift&diff=3483Solenoid Ramping Shift2019-12-09T12:49:47Z<p>Whitey: /* Setup */</p>
<hr />
<div><br />
<br />
== Routine Operation ==<br />
When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore.<br />
The full inductance of the solenoid is about 26 H.<br />
As the superconducting solenoid is very complex system, the operation of such system requires considerable knowledge and experience. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.<br />
<br />
The responsibilities of the shift workers include:<br />
<br />
* Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.<br />
* Notify [[Solenoid_Shift#Expert_personnel|experts]] when anomalies happen.<br />
* Ramp the magnet per request of run coordinator.<br />
* Make log entries to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks.<br />
<br />
These procedures are documented in the [https://misportal.jlab.org/jlabDocs/document.seam?id=85132 Hall D Solenoid Normal Ramp up Procedure for Shift takers (D00000-04-02-P013)] . Additional information can be found in detailed [[Solenoid Operations | Operation Instructions]] and [[Solenoid_Expert | Expert Information]].<br />
<br />
== Ramping the Magnet ==<br />
[[Image:Solenoid Vacuum Status.png | thumb | 485px | Fig. 1. Solenoid vacuum status screen]]<br />
[[Image:Solenoid status pickup coil.png | thumb | 485px | Fig. 2. Solenoid pickup coil status screen]]<br />
[[Image:Solenoid status forces.png | thumb | 485px | Fig. 3. Solenoid strain gauges]]<br />
<br />
'''This procedure is to be used by shift operators after all the preliminary checks have been completed and approval to ramp has been given by the Solenoid system expert.''' It assumes the magnet is at 0A current. The slew rates to ramp the magnet are defined in the state machine and are<br />
0.2A/s up to 800A, 0.12A/s from 800 to 1000A and 0.06A/s after that.<br />
<br />
<br />
=== Setup ===<br />
# Pull up CSS Solenoid screens as follows:<br />
#* Pull up Solenoid Control screen from CSS main screen - Magnet/Solenoid <br />
#* Cryo System (from Solenoid Control screen)<br />
#* Interlock<br />
#* Power Supply<br />
#* Voltage Taps/PXI<br />
#* Vacuum Pumps<br />
#* Strain Gauges <br />
# From the “Voltage Taps/PXI fast DAQ" screen, do the following;<br />
#* Click on the “Plot all Pickup Coils” button to open a Voltage vs. Time graph<br />
#* Stop Recording Root File and Stop the PXI DAQ<br />
#* Press the Calibrate button and wait until voltages zero out<br />
#* Ensure the PXI DAQ is running (if not click “Start PXI DAQ” button<br />
#* Click on “Start Recording ROOT File” button. Make sure “File Size” is increasing.<br />
#* Click on the “Current” box at the top to start a Current vs. Time graph<br />
# On the “Solenoid Strain Gauges” window:<br />
#* Confirm magnet is at zero current. Click on the “Zero Strain Gauges” button (all strain gauges should read close to 0). <br />
#* Click on “Plot All Forces” button (Graph for 4 coils should be displayed)<br />
#* Close strain gauge window<br />
# Ensure all is green on the “Vacuum Status” window and pumps are at 100% or better. The screen should look like in Fig. 1.<br />
# On “Interlock Status” screen, all should be green except the Main Contactor which will be red until the MPS is turned on. If not, click on the “Reset Interlocks” button. <br />
# Confirm Reset worked. If not, try again. If it still did not work, contact solenoid expert.<br />
# Arrange all the screens so they are visible.<br />
<br />
===Ramp up===<br />
<br />
<br />
# On “MPS Auto Control” screen, all should be green except “MPS On” box. If not, click on the “Reset MPS” button.<br />
# Confirm Reset (all boxes except “MPS On” are green).<br />
# Set current in “Final Goal” box to 0 (zero) and hit enter.<br />
# Confirm 0 (zero) reading in “Final Goal” box.<br />
# Click on the “Turn On MPS” button. Confirm all boxes are green.<br />
# Confirm MPS is on (all boxes green).<br />
# Set desired current in the “Final Goal” box.<br />
# Click on the ramp button. Note: the ramps are programmed into the system and will soak at 800A for 15 minutes, 1000A for 1 hr and 1200A for 1 hr<br />
# Confirm magnet is ramping by seeing an increase in current.<br />
# Pay close attention to the “Pick Up Coil” and “Strain Gauge” graphs to ensure the signals are acting normally (see Figs. 2 and 3). If not, click on the “Cancel” button and notify solenoid expert.<br />
# When the current is at approximately 40A, take a screen shot of all the windows and post an HDLOG and HDSOLENOID log.<br />
#* Press Alt+Prt Scrn<br />
#* Either pick “current window” or “all windows” (if you pick current window, only the active window will be used and you must repeat for all windows) and click ok<br />
#* Add “solenoid ramp” (or specific window) to the name of the file after the date and save. The correct folder is hdops/pictures/solenoid screenshots and pictures.<br />
#* Make an HDLOG/HDSOLENOID entry and attach screenshots<br />
# If there is a dump, ensure an HDLOG is made with a current screen shot and contact mechanical on call. Do not reset anything until instructed to do so.<br />
# If a ramp is cancelled/stopped for any reason and the system expert gives the ok to continue ramping, type in the new “Final goal” set point and click the ramp button.<br />
<br />
===Ramp down===<br />
# To ramp down to zero current, type in “0” as the “Final Goal” and click the ramp button.<br />
# Take screenshots of any relevant windows, especially if there are any anomalies during rampdown.<br />
<br />
== When the Solenoid Trips ==<br />
<br />
* Call Mechanical On-Call (757-544-7258) every time when the power supply trips!<br />
* DO NOT clear interlock status or attempt to change MPS state before the Solenoid On-Call responses!<br />
* Make screen shots of Solenoid status and post them to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks: Interlock, MPS, Voltage, Cryo, Vacuum, Strain Gauge.<br />
<br />
<br />
== PXI DATA Monitoring ==<br />
There are two applications that allow you to view the PXI data "analyzer" and "pximon". <br />
<br />
=== PXI Data Analyzer ===<br />
The main diagnostics tool to view all PXI voltage tabs is called "analyzer". It can be started directly from the PXI volage tabs GUI clicking on the button "Analyzer" or by going to the directory "/home/hdops/solenoid/" and type in there "./analyzer". Using this GUI you can open any PXI data file that contains all data of the voltage tabbs, pick-up coils and accelerometers at a 10kHz sample rate (see fig. 1). <br />
[[Image:AnalyzerPXIdata.png | thumb | 485px | Fig. 1. PXI Data Analyzer]]<br />
<br />
=== Accelerometer Monitor ===<br />
To monitor the accelerometeres start the program in "/home/hdops/solenoid" with the command "./pximon_1". This will start up a GUI in which you will click the button "Startthreads". This will show the accelerometer data for each coil separately that the user can select with the raido buttons at the bottom of the GUI. (see fig. 2)<br />
[[Image:accelerometerMonitor.png | thumb | 485px | Fig. 2. Accelerometer Monitor]]<br />
<br />
<br />
<br />
== Expert personnel ==<br />
The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table.<br />
Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be<br />
approved by them. Additional experts may be trained by the system owner and their name and date added to this table.<br />
<br />
{| border=1 <br />
|+ Table: Expert personnel for the Solenoid Magnet<br />
|- bgcolor=#DFDFDF <br />
! width=200px | Name !! width=100px | Extension !! width=100px | Cellphone !! width=100px | Pager !! Date of qualification <br />
|-<br />
| Mechanical On-Call || align=center | || align=center | 544-7258 || align=center | || align=center | Sept 19, 2017<br />
|-<br />
| Tim Whitlatch- Solenoid || align=center | 269-5087 || align=center | 876-1766 || align=center | [mailto:whitey-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Beni Zihlmann - Solenoid/PXI || align=center | 269-5310 || align=center | 926-9671 || align=center | [mailto:zihlmann-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Mark Stevens - Power Supply || align=center | 269-6383 || align=center | 310-1576 || align=center | [mailto:stevensm-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Scot Spiegel - MPS/Solenoid || align=center | 269-5900|| align=center | 536-5900 || align=center | [mailto:spiegel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Chris Perry - Cryogenics || align=center | 269-6157|| align=center | 371-4926 || align=center | [mailto:creel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Jonathan Creel - Cryogenics || align=center | 269-5925|| align=center | 869-8910 || align=center | [mailto:creel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
<br />
| Nick Sandoval - PLC || align=center | 269-6506 || align=center | (540) 907-2637 || align=center | [mailto:butler-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Carroll Jones - LCW || align=center | 876-1778 || align=center | 876-1778 || align=center | [mailto:jonesc-page@jlab.org] || align=center | Sept 19, 2017<br />
|}</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:CO2Pressures_panel.png&diff=3412File:CO2Pressures panel.png2019-03-14T14:32:30Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Primer_for_shift_takers&diff=3411Primer for shift takers2019-03-14T14:32:09Z<p>Whitey: </p>
<hr />
<div>==Primer for Shift Takers==<br />
<br />
This document is an aid to fill the online version of the [https://misportal.jlab.org/mis/apps/physics/shiftChecklist/index.cfm Check-list] required in every shift at the Hall D Counting House. The entries can be found through different ways, one of those is presented here to provide an easy access to the information.<br />
<br><br />
Additional information can be found under [https://halldweb.jlab.org/hdops/wiki/index.php/Shift_Checklist Shift Checklist].<br />
<br />
== How to use this guide ==<br />
<br />
This guide follows the Shifters' Checklist structure and is separated in 5 columns: <br />
* '''Reference Number''' <br />
* '''Item''': according to the Checklist.<br />
* '''Main Action Bar on EPICS''': which indicates the Slow Control path to find the Item's current value.<br />
* '''Sample Figure''': which show a general image of the screen and an specific one.<br />
* '''Information for Shift Takers''': which shows the links to learn more about those systems.<br />
<br />
== Items of the Hall D Shift Check-list ==<br />
<br />
<table cellpadding="3"><tr><br />
<td width=20 bgcolor="#e0e0f0" align=center>'''Reference Number'''</td><br />
<td width=200 bgcolor="#e0e0f0" align=center> '''Item''' </td><br />
<td width=200 bgcolor="#e0e0f0" align=center>'''[https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#EPICS_Control_Screens Main Action Bar on EPICS]''' <br />
<br>'''Subsystem - Component''' </td><br />
<td width=50 bgcolor="#e0e0f0" align=center>'''Sample Figure'''</td><br />
<td width=250 bgcolor="#e0e0f0" align=center>'''[https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#EPICS_Control_Screens Information for Shift Takers]'''</td><br />
</tr><tr></tr><tr><br />
<br />
<br />
<td bgcolor="#e0e0f0"> 1. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #1] <br> [https://halldweb.jlab.org/hdops/wiki/index.php/File:HallD_O_status.png HallD O status.png] </td><br />
<td bgcolor="#e0e0f0"> Beam Energy (GeV) </td><br />
<td bgcolor="#e0e0f0"> BEAM - JTABs </td><br />
<td bgcolor="#e0e0f0"> [[File:Beam_Energy.png|link=http://wikipedia.org/wiki/Test|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Accelerator_Screens Accelerator Screens] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 2. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #2] <br> <br />
[https://halldweb.jlab.org/wiki/index.php/File:Accelerator-Status.png Accelerator-Status.png] </td><br />
<td bgcolor="#e0e0f0"> e- Beam Current (uA) <br> AD00C BCM </td><br />
<td bgcolor="#e0e0f0"> BEAM - JTABs </td><br />
<td bgcolor="#e0e0f0"> [[File:e-Beam-Current.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Accelerator_Screens Accelerator Screens] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 3. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #3] </td><br />
<td bgcolor="#e0e0f0"> Radiator (RL) </td><br />
<td bgcolor="#e0e0f0"> BEAM - Motors </td><br />
<td bgcolor="#e0e0f0"> [[File:Amorphous_Radiator.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Tagging_Spectrometer_Shift#Move_Amorphous_Radiator Amorphous Radiator] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 4. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #4] </td><br />
<td bgcolor="#e0e0f0"> Tagger current (A)/field(T) </td><br />
<td bgcolor="#e0e0f0"> MAGNET - Tagger </td><br />
<td bgcolor="#e0e0f0"> [[File:Tagger-Magnet.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Tagging_Spectrometer_Shift Tagging Spectrometer Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 5. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #5] </td><br />
<td bgcolor="#e0e0f0"> Solenoid current (A) </td><br />
<td bgcolor="#e0e0f0"> MAGNETS - SOLENOID </td><br />
<td bgcolor="#e0e0f0"> [[File:Solenoid_Screen_Main.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Solenoid_Operations Solenoid Operations] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 6-7. [https://halldweb.jlab.org/hdops/wiki/index.php/File:SolenoidCryo_annotated2.png SolenoidCryo_annotated2 #6-7] </td><br />
<td bgcolor="#e0e0f0"> <br />
6a Temperature 'He Return'(K) <br><br />
6b. Pressure 'Warm He Return' (Atm)<br><br />
7. He Level 'DP LLH' (%)<br />
----<br />
Note: He level broken, use diff. press. gauge</td><br />
<td bgcolor="#e0e0f0"> <br />
MAGNETS - SOLENOID<br />
<br><br />
Cryo System </td><br />
<td bgcolor="#e0e0f0"> [[File:SolenoidCryo_annotated2.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Solenoid_Operations Solenoid Operations] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 8. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #38] </td><br />
<td bgcolor="#e0e0f0"> Target type </td><br />
<td bgcolor="#e0e0f0"> TARGET - CryoTarget Operations </td><br />
<td bgcolor="#e0e0f0"> [[File:CryoTarget_Operations.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Cryogenic_Target_Shift Cryogenic Target Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 9. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #9] </td><br />
<td bgcolor="#e0e0f0"> Collimator aperture (mm) </td><br />
<td bgcolor="#e0e0f0"> BEAM - Motors </td><br />
<td bgcolor="#e0e0f0"> [[File:Collimator.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Beam_Line_Detectors_Shift#Collimator_and_Radiators Collimator] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 10. </td><br />
<td bgcolor="#e0e0f0"> All High Voltage ok? check box for, BCal, FCal, CDC, FDC, TOF, ST, PS, TagM, TagH </td><br />
<td bgcolor="#e0e0f0"> [[Primer high voltages table]] </td><br />
<td bgcolor="#e0e0f0"> [[File:HVStatus.png|thumb|200px]] </td>/td><br />
<td bgcolor="#e0e0f0"> EPICS Main Menu / General / Status of Voltages </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 11. </td><br />
<td bgcolor="#e0e0f0"> All Rates ok? check box for, BCal, FCal, PSC, PS, TAGH, TAGM, TOF </td><br />
<td bgcolor="#e0e0f0"> EPICS Main Menu <br><br />
Detector Subsystem ''Scalers'' </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> EPICS Main Menu /Detector Subsystem / Scalers </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 12. [https://halldweb.jlab.org/hdops/wiki/index.php/File:Rc_annotated2.png Rc_annotated2 #12] </td><br />
<td bgcolor="#e0e0f0"> Live Time (%) </td><br />
<td bgcolor="#e0e0f0"> Run Control rcGUI </td><br />
<td bgcolor="#e0e0f0"> [[File:DAQ_LiveTime_example.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Level-1_Trigger_Shift L1 Trigger] [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift Data Acquisition] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 13. [https://halldweb.jlab.org/hdops/wiki/index.php/File:Rc_annotated2.png Rc_annotated2 #13] </td><br />
<td bgcolor="#e0e0f0"> Trigger rate (kHz) </td><br />
<td bgcolor="#e0e0f0"> Run Control rcGUI </td><br />
<td bgcolor="#e0e0f0"> [[File:Trigger_Rate.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Level-1_Trigger_Shift L1 Trigger] [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift Data Acquisition] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 14. [https://halldweb.jlab.org/hdops/wiki/index.php/File:Rcm.png Rcm] </td><br />
<td bgcolor="#e0e0f0"> Trigger file/DAQ config. </td><br />
<td bgcolor="#e0e0f0"> RCM Run Configuration </td><br />
<td bgcolor="#e0e0f0"> [[File:DAQ_config_detail.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Level-1_Trigger_Shift L1 Trigger] [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift Data Acquisition] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 15. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #15] </td><br />
<td bgcolor="#e0e0f0"> Pair Spec. current (A) </td><br />
<td bgcolor="#e0e0f0"> MAGNETS - Pair Spectrometer </td><br />
<td bgcolor="#e0e0f0"> [[File:PS_Magnet.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Pair_Spectrometer_Shift Pair Spectrometer] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 16. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #16] </td><br />
<td bgcolor="#e0e0f0"> 16a. TPOL converter (um) <br> 16b.Pair Spec. converter (RL) </td><br />
<td bgcolor="#e0e0f0"> BEAM - Motors </td><br />
<td bgcolor="#e0e0f0"> [[File:PS_Converter.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Pair_Spectrometer_Shift PS Convert] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 17. [http://halldcam3.jlab.org Hall D View from the east wall] <br><br />
[http://west-cam.jlab.org Hall D view from the west wall] <br><br />
[http://north-cam.jlab.org Solenoid rack view from the north wall] <br><br />
[http://tac-cam.jlab.org TAC camera in Hall D] [http://goni-cam.jlab.org Goniometer camera in tagger hall] <br><br />
[http://gas-cam.jlab.org Gas system camera on upstream platform] </td><br />
<td bgcolor="#e0e0f0"> Visual Halls Inspection </td><br />
<td bgcolor="#e0e0f0"> GENERAL - Hall Cameras </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Cameras_in_the_halls Cameras in the halls ] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 18. </td><br />
<td bgcolor="#e0e0f0"> DAQ screens up? </td><br />
<td bgcolor="#e0e0f0"> Type RCM at command line</td><br />
<td bgcolor="#e0e0f0"> [[File:Daq_xterms.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift DAQ] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 19. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2] </td><br />
<td bgcolor="#e0e0f0"> EPICS summary screen up? </td><br />
<td bgcolor="#e0e0f0"> GENERAL - GlueX Overview </td><br />
<td bgcolor="#e0e0f0"> [[File:GlueX_Overview_annotated2.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift Slow Controls Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 20. From EPICS CSS Window->Open Perspective->Other->Alarm</td><br />
<td bgcolor="#e0e0f0"> Alarm handlers up? </td><br />
<td bgcolor="#e0e0f0"> Use gluon01 console machine </td><br />
<td bgcolor="#e0e0f0"> [[File:AlarmPerspectiveCSS.jpg|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Alarm_Handler Alarm Handler] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 21. </td><br />
<td bgcolor="#e0e0f0"> Hall D electronic logbook up? </td><br />
<td bgcolor="#e0e0f0"> [https://logbooks.jlab.org/book/halld Hall D logbook] </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Main_Page Information for Shift Takers] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 22. </td><br />
<td bgcolor="#e0e0f0"> MCC EPICS monitoring screen up? </td><br />
<td bgcolor="#e0e0f0"> BEAM -> JMenu (new window) <br> JMenu -> Operations (new window) <br> Operations -> Wall Menu (new window) <br> Wall Menu -> Accel Status </td><br />
<td bgcolor="#e0e0f0"> [[File:Accel_status.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://www.jlab.org/accel/ops/ops.html Accelerator Operations] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 23. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #23] </td><br />
<td bgcolor="#e0e0f0"> Beam position on (inner) Active Collimator ok? </td><br />
<td bgcolor="#e0e0f0"> <br />
BEAM / Active Collimator <br> <br />
---- AC is main position monitor <br><br />
Check White Board <br />
---- BEAM / Upstream Beam Profiler </td><br />
<td bgcolor="#e0e0f0"> [[File:ACScreen.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Beam_Line_Detectors_Shift#Active_Collimator Active Collimator] <br>[https://halldweb.jlab.org/hdops/wiki/index.php/Beam_Line_Detectors_Shift#Beam_Profilers Beam Profilers] <br> <br />
[https://halldweb.jlab.org/hdops/wiki/index.php/Beam_position_from_profilers Beam position from Profilers] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 24. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #24] </td><br />
<td bgcolor="#e0e0f0"> BPM AD00 x,y position (tagger dump) </td><br />
<td bgcolor="#e0e0f0"> GENERAL - General GlueX Overview </td><br />
<td bgcolor="#e0e0f0"> [[File:Read_dump_bpm.jpg|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Check_beam_position_at_the_tagger_dump BPM AD00] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 25. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #25] </td><br />
<td bgcolor="#e0e0f0"> Quadrupole MQPAD00 current (A) </td><br />
<td bgcolor="#e0e0f0"> GENERAL - General GlueX Overview </td><br />
<td bgcolor="#e0e0f0"> [[File:quad_current.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Check_quad_current Quad MQPAD00M] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 26. </td><br />
<td bgcolor="#e0e0f0"> Event display ok? </td><br />
<td bgcolor="#e0e0f0"> start_hdview2 or ~/HDvis/xstart_hdvis.sh</td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 27. </td><br />
<td bgcolor="#e0e0f0"> Online monitoring screens up? </td><br />
<td bgcolor="#e0e0f0"> start_rootspy </td><br />
<td bgcolor="#e0e0f0"> [[File:20170126 rootspy.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 28. </td><br />
<td bgcolor="#e0e0f0"> Online monitoring histo ok? check box for BCal, FCal, CDC, FDC, TOF, ST, PS, TagM, TagH </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 29. </td><br />
<td bgcolor="#e0e0f0"> Online monitoring plots in e-log?</td><br />
<td bgcolor="#e0e0f0"> ''button on RootSpy GUI'' </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> <br />
30<br />
----<br />
31<br />
----<br />
32<br />
----<br />
33<br />
<br />
</td><br />
<td bgcolor="#e0e0f0"> CDC / FDC <br> Parking Lot Gas Bottles</td><br />
<td bgcolor="#e0e0f0"><br />
Ar Gas supply Bank left(psi)<br />
----<br />
Ar Gas supply Bank right(psi)<br />
----<br />
CO2 Gas supply Bank left(psi)<br />
----<br />
CO2 Gas supply Bank right(psi)<br />
</td><br />
<br />
<td bgcolor="#e0e0f0"> [[File:GasPressures_panel.png|thumb|200px]] [[File:CO2Pressures_panel.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Gas_System_Shift Gas System Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 34 - 35. [http://shed-cam.jlab.org/ Gas Shed Cam] </td><br />
<td bgcolor="#e0e0f0"> <br />
Alcohol Bubbler top (bubbles/level?) <br />
----<br />
Alcohol Bubbler bottom (bubbles/level?)<br />
</td><br />
<td bgcolor="#e0e0f0"> GENERAL - Hall Cameras <br> Alcohol bubbler camera in the gas shed </td><br />
<td bgcolor="#e0e0f0"> [[File:Alcoholbubbler.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Gas_System_Shift Gas System Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 36. </td><br />
<td bgcolor="#e0e0f0"> Screen-shot of Epics Overview screen posted on HDlog? </td><br />
<td bgcolor="#e0e0f0"> PrtScn/SysRq <br><br />
or <Alt> PrtScn/SysRq <br><br />
(top right of keyboard) </td><br />
<td bgcolor="#e0e0f0"> [[File:EpicsNumbered.png|thumb|200px]]</td><br />
<td bgcolor="#e0e0f0"> [http://en.wikipedia.org/wiki/Screenshot Screenshot] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 37. </td><br />
<td bgcolor="#e0e0f0"> Check list printed and added to check-list binder? </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> (Binder inside Hall D Counting House) </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 38. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #38] </td><br />
<td bgcolor="#e0e0f0"> Target Temp <br> Cell Top (high) <br> Cell Bottom (low) </td><br />
<td bgcolor="#e0e0f0"> TARGET - CryoTarget Operations </td><br />
<td bgcolor="#e0e0f0"> [[File:CryoTarget_Operations.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Cryogenic_Target_Shift Cryogenic Target Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 39. [https://halldweb.jlab.org/hdops/wiki/index.php/File:CryoTarget_Operations.png CryoTarget_Operations in/out/Vacuum Pressure] </td><br />
<td bgcolor="#e0e0f0"> Target Pressure <br>Supply H2 Pressure (in) <br> Return H2 Pressure (out) <br> OVC Vacuum (Vacuum Pressure) </td><br />
<td bgcolor="#e0e0f0"> TARGET - CryoTarget Operations </td><br />
<td bgcolor="#e0e0f0"> [[File:CryoTarget_Operations.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Cryogenic_Target_Shift Cryogenic Target Shift] </td><br />
</tr><tr><br />
</table><br />
<hr><br />
<br />
<br />
[[Primer high voltages table]]<br />
<br />
<br />
<hr></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:GasPressures_panel.png&diff=3410File:GasPressures panel.png2019-03-14T14:25:59Z<p>Whitey: Whitey uploaded a new version of File:GasPressures panel.png</p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:GasPressures_panel.png&diff=3409File:GasPressures panel.png2019-03-14T14:23:46Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Primer_for_shift_takers&diff=3408Primer for shift takers2019-03-14T14:22:51Z<p>Whitey: /* Items of the Hall D Shift Check-list */</p>
<hr />
<div>==Primer for Shift Takers==<br />
<br />
This document is an aid to fill the online version of the [https://misportal.jlab.org/mis/apps/physics/shiftChecklist/index.cfm Check-list] required in every shift at the Hall D Counting House. The entries can be found through different ways, one of those is presented here to provide an easy access to the information.<br />
<br><br />
Additional information can be found under [https://halldweb.jlab.org/hdops/wiki/index.php/Shift_Checklist Shift Checklist].<br />
<br />
== How to use this guide ==<br />
<br />
This guide follows the Shifters' Checklist structure and is separated in 5 columns: <br />
* '''Reference Number''' <br />
* '''Item''': according to the Checklist.<br />
* '''Main Action Bar on EPICS''': which indicates the Slow Control path to find the Item's current value.<br />
* '''Sample Figure''': which show a general image of the screen and an specific one.<br />
* '''Information for Shift Takers''': which shows the links to learn more about those systems.<br />
<br />
== Items of the Hall D Shift Check-list ==<br />
<br />
<table cellpadding="3"><tr><br />
<td width=20 bgcolor="#e0e0f0" align=center>'''Reference Number'''</td><br />
<td width=200 bgcolor="#e0e0f0" align=center> '''Item''' </td><br />
<td width=200 bgcolor="#e0e0f0" align=center>'''[https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#EPICS_Control_Screens Main Action Bar on EPICS]''' <br />
<br>'''Subsystem - Component''' </td><br />
<td width=50 bgcolor="#e0e0f0" align=center>'''Sample Figure'''</td><br />
<td width=250 bgcolor="#e0e0f0" align=center>'''[https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#EPICS_Control_Screens Information for Shift Takers]'''</td><br />
</tr><tr></tr><tr><br />
<br />
<br />
<td bgcolor="#e0e0f0"> 1. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #1] <br> [https://halldweb.jlab.org/hdops/wiki/index.php/File:HallD_O_status.png HallD O status.png] </td><br />
<td bgcolor="#e0e0f0"> Beam Energy (GeV) </td><br />
<td bgcolor="#e0e0f0"> BEAM - JTABs </td><br />
<td bgcolor="#e0e0f0"> [[File:Beam_Energy.png|link=http://wikipedia.org/wiki/Test|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Accelerator_Screens Accelerator Screens] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 2. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #2] <br> <br />
[https://halldweb.jlab.org/wiki/index.php/File:Accelerator-Status.png Accelerator-Status.png] </td><br />
<td bgcolor="#e0e0f0"> e- Beam Current (uA) <br> AD00C BCM </td><br />
<td bgcolor="#e0e0f0"> BEAM - JTABs </td><br />
<td bgcolor="#e0e0f0"> [[File:e-Beam-Current.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Accelerator_Screens Accelerator Screens] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 3. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #3] </td><br />
<td bgcolor="#e0e0f0"> Radiator (RL) </td><br />
<td bgcolor="#e0e0f0"> BEAM - Motors </td><br />
<td bgcolor="#e0e0f0"> [[File:Amorphous_Radiator.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Tagging_Spectrometer_Shift#Move_Amorphous_Radiator Amorphous Radiator] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 4. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #4] </td><br />
<td bgcolor="#e0e0f0"> Tagger current (A)/field(T) </td><br />
<td bgcolor="#e0e0f0"> MAGNET - Tagger </td><br />
<td bgcolor="#e0e0f0"> [[File:Tagger-Magnet.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Tagging_Spectrometer_Shift Tagging Spectrometer Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 5. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #5] </td><br />
<td bgcolor="#e0e0f0"> Solenoid current (A) </td><br />
<td bgcolor="#e0e0f0"> MAGNETS - SOLENOID </td><br />
<td bgcolor="#e0e0f0"> [[File:Solenoid_Screen_Main.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Solenoid_Operations Solenoid Operations] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 6-7. [https://halldweb.jlab.org/hdops/wiki/index.php/File:SolenoidCryo_annotated2.png SolenoidCryo_annotated2 #6-7] </td><br />
<td bgcolor="#e0e0f0"> <br />
6a Temperature 'He Return'(K) <br><br />
6b. Pressure 'Warm He Return' (Atm)<br><br />
7. He Level 'DP LLH' (%)<br />
----<br />
Note: He level broken, use diff. press. gauge</td><br />
<td bgcolor="#e0e0f0"> <br />
MAGNETS - SOLENOID<br />
<br><br />
Cryo System </td><br />
<td bgcolor="#e0e0f0"> [[File:SolenoidCryo_annotated2.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Solenoid_Operations Solenoid Operations] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 8. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #38] </td><br />
<td bgcolor="#e0e0f0"> Target type </td><br />
<td bgcolor="#e0e0f0"> TARGET - CryoTarget Operations </td><br />
<td bgcolor="#e0e0f0"> [[File:CryoTarget_Operations.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Cryogenic_Target_Shift Cryogenic Target Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 9. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #9] </td><br />
<td bgcolor="#e0e0f0"> Collimator aperture (mm) </td><br />
<td bgcolor="#e0e0f0"> BEAM - Motors </td><br />
<td bgcolor="#e0e0f0"> [[File:Collimator.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Beam_Line_Detectors_Shift#Collimator_and_Radiators Collimator] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 10. </td><br />
<td bgcolor="#e0e0f0"> All High Voltage ok? check box for, BCal, FCal, CDC, FDC, TOF, ST, PS, TagM, TagH </td><br />
<td bgcolor="#e0e0f0"> [[Primer high voltages table]] </td><br />
<td bgcolor="#e0e0f0"> [[File:HVStatus.png|thumb|200px]] </td>/td><br />
<td bgcolor="#e0e0f0"> EPICS Main Menu / General / Status of Voltages </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 11. </td><br />
<td bgcolor="#e0e0f0"> All Rates ok? check box for, BCal, FCal, PSC, PS, TAGH, TAGM, TOF </td><br />
<td bgcolor="#e0e0f0"> EPICS Main Menu <br><br />
Detector Subsystem ''Scalers'' </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> EPICS Main Menu /Detector Subsystem / Scalers </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 12. [https://halldweb.jlab.org/hdops/wiki/index.php/File:Rc_annotated2.png Rc_annotated2 #12] </td><br />
<td bgcolor="#e0e0f0"> Live Time (%) </td><br />
<td bgcolor="#e0e0f0"> Run Control rcGUI </td><br />
<td bgcolor="#e0e0f0"> [[File:DAQ_LiveTime_example.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Level-1_Trigger_Shift L1 Trigger] [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift Data Acquisition] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 13. [https://halldweb.jlab.org/hdops/wiki/index.php/File:Rc_annotated2.png Rc_annotated2 #13] </td><br />
<td bgcolor="#e0e0f0"> Trigger rate (kHz) </td><br />
<td bgcolor="#e0e0f0"> Run Control rcGUI </td><br />
<td bgcolor="#e0e0f0"> [[File:Trigger_Rate.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Level-1_Trigger_Shift L1 Trigger] [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift Data Acquisition] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 14. [https://halldweb.jlab.org/hdops/wiki/index.php/File:Rcm.png Rcm] </td><br />
<td bgcolor="#e0e0f0"> Trigger file/DAQ config. </td><br />
<td bgcolor="#e0e0f0"> RCM Run Configuration </td><br />
<td bgcolor="#e0e0f0"> [[File:DAQ_config_detail.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Level-1_Trigger_Shift L1 Trigger] [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift Data Acquisition] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 15. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #15] </td><br />
<td bgcolor="#e0e0f0"> Pair Spec. current (A) </td><br />
<td bgcolor="#e0e0f0"> MAGNETS - Pair Spectrometer </td><br />
<td bgcolor="#e0e0f0"> [[File:PS_Magnet.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Pair_Spectrometer_Shift Pair Spectrometer] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 16. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #16] </td><br />
<td bgcolor="#e0e0f0"> 16a. TPOL converter (um) <br> 16b.Pair Spec. converter (RL) </td><br />
<td bgcolor="#e0e0f0"> BEAM - Motors </td><br />
<td bgcolor="#e0e0f0"> [[File:PS_Converter.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Pair_Spectrometer_Shift PS Convert] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 17. [http://halldcam3.jlab.org Hall D View from the east wall] <br><br />
[http://west-cam.jlab.org Hall D view from the west wall] <br><br />
[http://north-cam.jlab.org Solenoid rack view from the north wall] <br><br />
[http://tac-cam.jlab.org TAC camera in Hall D] [http://goni-cam.jlab.org Goniometer camera in tagger hall] <br><br />
[http://gas-cam.jlab.org Gas system camera on upstream platform] </td><br />
<td bgcolor="#e0e0f0"> Visual Halls Inspection </td><br />
<td bgcolor="#e0e0f0"> GENERAL - Hall Cameras </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Cameras_in_the_halls Cameras in the halls ] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 18. </td><br />
<td bgcolor="#e0e0f0"> DAQ screens up? </td><br />
<td bgcolor="#e0e0f0"> Type RCM at command line</td><br />
<td bgcolor="#e0e0f0"> [[File:Daq_xterms.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Data_Acquisition_Shift DAQ] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 19. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2] </td><br />
<td bgcolor="#e0e0f0"> EPICS summary screen up? </td><br />
<td bgcolor="#e0e0f0"> GENERAL - GlueX Overview </td><br />
<td bgcolor="#e0e0f0"> [[File:GlueX_Overview_annotated2.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift Slow Controls Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 20. From EPICS CSS Window->Open Perspective->Other->Alarm</td><br />
<td bgcolor="#e0e0f0"> Alarm handlers up? </td><br />
<td bgcolor="#e0e0f0"> Use gluon01 console machine </td><br />
<td bgcolor="#e0e0f0"> [[File:AlarmPerspectiveCSS.jpg|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Slow_Controls_Shift#Alarm_Handler Alarm Handler] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 21. </td><br />
<td bgcolor="#e0e0f0"> Hall D electronic logbook up? </td><br />
<td bgcolor="#e0e0f0"> [https://logbooks.jlab.org/book/halld Hall D logbook] </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Main_Page Information for Shift Takers] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 22. </td><br />
<td bgcolor="#e0e0f0"> MCC EPICS monitoring screen up? </td><br />
<td bgcolor="#e0e0f0"> BEAM -> JMenu (new window) <br> JMenu -> Operations (new window) <br> Operations -> Wall Menu (new window) <br> Wall Menu -> Accel Status </td><br />
<td bgcolor="#e0e0f0"> [[File:Accel_status.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://www.jlab.org/accel/ops/ops.html Accelerator Operations] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 23. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #23] </td><br />
<td bgcolor="#e0e0f0"> Beam position on (inner) Active Collimator ok? </td><br />
<td bgcolor="#e0e0f0"> <br />
BEAM / Active Collimator <br> <br />
---- AC is main position monitor <br><br />
Check White Board <br />
---- BEAM / Upstream Beam Profiler </td><br />
<td bgcolor="#e0e0f0"> [[File:ACScreen.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Beam_Line_Detectors_Shift#Active_Collimator Active Collimator] <br>[https://halldweb.jlab.org/hdops/wiki/index.php/Beam_Line_Detectors_Shift#Beam_Profilers Beam Profilers] <br> <br />
[https://halldweb.jlab.org/hdops/wiki/index.php/Beam_position_from_profilers Beam position from Profilers] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 24. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #24] </td><br />
<td bgcolor="#e0e0f0"> BPM AD00 x,y position (tagger dump) </td><br />
<td bgcolor="#e0e0f0"> GENERAL - General GlueX Overview </td><br />
<td bgcolor="#e0e0f0"> [[File:Read_dump_bpm.jpg|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Check_beam_position_at_the_tagger_dump BPM AD00] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 25. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #25] </td><br />
<td bgcolor="#e0e0f0"> Quadrupole MQPAD00 current (A) </td><br />
<td bgcolor="#e0e0f0"> GENERAL - General GlueX Overview </td><br />
<td bgcolor="#e0e0f0"> [[File:quad_current.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Check_quad_current Quad MQPAD00M] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 26. </td><br />
<td bgcolor="#e0e0f0"> Event display ok? </td><br />
<td bgcolor="#e0e0f0"> start_hdview2 or ~/HDvis/xstart_hdvis.sh</td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 27. </td><br />
<td bgcolor="#e0e0f0"> Online monitoring screens up? </td><br />
<td bgcolor="#e0e0f0"> start_rootspy </td><br />
<td bgcolor="#e0e0f0"> [[File:20170126 rootspy.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 28. </td><br />
<td bgcolor="#e0e0f0"> Online monitoring histo ok? check box for BCal, FCal, CDC, FDC, TOF, ST, PS, TagM, TagH </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 29. </td><br />
<td bgcolor="#e0e0f0"> Online monitoring plots in e-log?</td><br />
<td bgcolor="#e0e0f0"> ''button on RootSpy GUI'' </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> [[Online_Monitoring Shift#Routine Operation]] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> <br />
30<br />
----<br />
31<br />
----<br />
32<br />
----<br />
33<br />
<br />
</td><br />
<td bgcolor="#e0e0f0"> CDC / FDC <br> Parking Lot Gas Bottles</td><br />
<td bgcolor="#e0e0f0"><br />
Ar Gas supply Bank left(psi)<br />
----<br />
Ar Gas supply Bank right(psi)<br />
----<br />
CO2 Gas supply Bank left(psi)<br />
----<br />
CO2 Gas supply Bank right(psi)<br />
</td><br />
<br />
<td bgcolor="#e0e0f0"> [[File:GasPressures_panel.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Gas_System_Shift Gas System Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 34 - 35. [http://shed-cam.jlab.org/ Gas Shed Cam] </td><br />
<td bgcolor="#e0e0f0"> <br />
Alcohol Bubbler top (bubbles/level?) <br />
----<br />
Alcohol Bubbler bottom (bubbles/level?)<br />
</td><br />
<td bgcolor="#e0e0f0"> GENERAL - Hall Cameras <br> Alcohol bubbler camera in the gas shed </td><br />
<td bgcolor="#e0e0f0"> [[File:Alcoholbubbler.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Gas_System_Shift Gas System Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 36. </td><br />
<td bgcolor="#e0e0f0"> Screen-shot of Epics Overview screen posted on HDlog? </td><br />
<td bgcolor="#e0e0f0"> PrtScn/SysRq <br><br />
or <Alt> PrtScn/SysRq <br><br />
(top right of keyboard) </td><br />
<td bgcolor="#e0e0f0"> [[File:EpicsNumbered.png|thumb|200px]]</td><br />
<td bgcolor="#e0e0f0"> [http://en.wikipedia.org/wiki/Screenshot Screenshot] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 37. </td><br />
<td bgcolor="#e0e0f0"> Check list printed and added to check-list binder? </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> </td><br />
<td bgcolor="#e0e0f0"> (Binder inside Hall D Counting House) </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 38. [https://halldweb.jlab.org/hdops/wiki/index.php/File:GlueX_Overview_annotated2.png GlueX_Overview_annotated2 #38] </td><br />
<td bgcolor="#e0e0f0"> Target Temp <br> Cell Top (high) <br> Cell Bottom (low) </td><br />
<td bgcolor="#e0e0f0"> TARGET - CryoTarget Operations </td><br />
<td bgcolor="#e0e0f0"> [[File:CryoTarget_Operations.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Cryogenic_Target_Shift Cryogenic Target Shift] </td><br />
</tr><tr><br />
<br />
<td bgcolor="#e0e0f0"> 39. [https://halldweb.jlab.org/hdops/wiki/index.php/File:CryoTarget_Operations.png CryoTarget_Operations in/out/Vacuum Pressure] </td><br />
<td bgcolor="#e0e0f0"> Target Pressure <br>Supply H2 Pressure (in) <br> Return H2 Pressure (out) <br> OVC Vacuum (Vacuum Pressure) </td><br />
<td bgcolor="#e0e0f0"> TARGET - CryoTarget Operations </td><br />
<td bgcolor="#e0e0f0"> [[File:CryoTarget_Operations.png|thumb|200px]] </td><br />
<td bgcolor="#e0e0f0"> [https://halldweb.jlab.org/hdops/wiki/index.php/Cryogenic_Target_Shift Cryogenic Target Shift] </td><br />
</tr><tr><br />
</table><br />
<hr><br />
<br />
<br />
[[Primer high voltages table]]<br />
<br />
<br />
<hr></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:Solenoid_Vacuum_Status.png&diff=3391File:Solenoid Vacuum Status.png2019-02-14T13:34:21Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Solenoid_Ramping_Shift&diff=3390Solenoid Ramping Shift2019-02-14T13:33:52Z<p>Whitey: /* Ramping the Magnet */</p>
<hr />
<div><br />
<br />
== Routine Operation ==<br />
When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore.<br />
The full inductance of the solenoid is about 26 H.<br />
As the superconducting solenoid is very complex system, the operation of such system requires considerable knowledge and experience. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.<br />
<br />
The responsibilities of the shift workers include:<br />
<br />
* Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.<br />
* Notify [[Solenoid_Shift#Expert_personnel|experts]] when anomalies happen.<br />
* Ramp the magnet per request of run coordinator.<br />
* Make log entries to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks.<br />
<br />
These procedures are documented in the [https://misportal.jlab.org/jlabDocs/document.seam?id=85132 Hall D Solenoid Normal Ramp up Procedure for Shift takers (D00000-04-02-P013)] . Additional information can be found in detailed [[Solenoid Operations | Operation Instructions]] and [[Solenoid_Expert | Expert Information]].<br />
<br />
== Ramping the Magnet ==<br />
[[Image:Solenoid Vacuum Status.png | thumb | 485px | Fig. 1. Solenoid vacuum status screen]]<br />
[[Image:Solenoid status pickup coil.png | thumb | 485px | Fig. 2. Solenoid pickup coil status screen]]<br />
[[Image:Solenoid status forces.png | thumb | 485px | Fig. 3. Solenoid strain gauges]]<br />
<br />
'''This procedure is to be used by shift operators after all the preliminary checks have been completed and approval to ramp has been given by the Solenoid system expert.''' It assumes the magnet is at 0A current.<br />
<br />
=== Setup ===<br />
# Pull up CSS Solenoid screens as follows:<br />
#* Pull up Solenoid Control screen from CSS main screen - Magnet/Solenoid <br />
#* Cryo System (from Solenoid Control screen)<br />
#* Interlock<br />
#* Power Supply<br />
#* Voltage Taps/PXI<br />
#* Vacuum Pumps<br />
#* Strain Gauges <br />
# From the “Voltage Taps/PXI fast DAQ" screen, do the following;<br />
#* Click on the “Plot all Pickup Coils” button to open a Voltage vs. Time graph<br />
#* Ensure the PXI DAQ is running (if not click “Start PXI DAQ” button<br />
#* Click on “Start Recording ROOT File” button. Make sure “File Size” is increasing.<br />
#* Click on the “Current” box at the top to start a Current vs. Time graph<br />
# On the “Solenoid Strain Gauges” window:<br />
#* Confirm magnet is at zero current. Click on the “Zero Strain Gauges” button (all strain gauges should read close to 0). <br />
#* Click on “Plot All Forces” button (Graph for 4 coils should be displayed)<br />
#* Close strain gauge window<br />
# Ensure all is green on the “Vacuum Status” window and pumps are at 100% or better. The screen should look like in Fig. 1.<br />
# On “Interlock Status” screen, all should be green except the Main Contactor which will be red until the MPS is turned on. If not, click on the “Reset Interlocks” button. <br />
# Confirm Reset worked. If not, try again. If it still did not work, contact solenoid expert.<br />
# Arrange all the screens so they are visible.<br />
<br />
===Ramp up===<br />
<br />
<br />
# On “MPS Auto Control” screen, all should be green except “MPS On” box. If not, click on the “Reset MPS” button.<br />
# Confirm Reset (all boxes except “MPS On” are green).<br />
# Set current in “Final Goal” box to 0 (zero) and hit enter.<br />
# Confirm 0 (zero) reading in “Final Goal” box.<br />
# Click on the “Turn On MPS” button. Confirm all boxes are green.<br />
# Confirm MPS is on (all boxes green).<br />
# Set desired current in the “Final Goal” box.<br />
# Click on the ramp button. Note: the ramps are programmed into the system and will soak at 800A for 15 minutes, 1000A for 1 hr and 1200A for 1 hr<br />
# Confirm magnet is ramping by seeing an increase in current.<br />
# Pay close attention to the “Pick Up Coil” and “Strain Gauge” graphs to ensure the signals are acting normally (see Figs. 2 and 3). If not, click on the “Cancel” button and notify solenoid expert.<br />
# When the current is at approximately 40A, take a screen shot of all the windows and post an HDLOG and HDSOLENOID log.<br />
#* Press Alt+Prt Scrn<br />
#* Either pick “current window” or “all windows” (if you pick current window, only the active window will be used and you must repeat for all windows) and click ok<br />
#* Add “solenoid ramp” (or specific window) to the name of the file after the date and save. The correct folder is hdops/pictures/solenoid screenshots and pictures.<br />
#* Make an HDLOG/HDSOLENOID entry and attach screenshots<br />
# If there is a dump, ensure an HDLOG is made with a current screen shot and contact mechanical on call. Do not reset anything until instructed to do so.<br />
# If a ramp is cancelled/stopped for any reason and the system expert gives the ok to continue ramping, type in the new “Final goal” set point and click the ramp button.<br />
<br />
===Ramp down===<br />
# To ramp down to zero current, type in “0” as the “Final Goal” and click the ramp button.<br />
# Take screenshots of any relevant windows, especially if there are any anomalies during rampdown.<br />
<br />
== When the Solenoid Trips ==<br />
<br />
* Call Mechanical On-Call (757-544-7258) every time when the power supply trips!<br />
* DO NOT clear interlock status or attempt to change MPS state before the Solenoid On-Call responses!<br />
* Make screen shots of Solenoid status and post them to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks: Interlock, MPS, Voltage, Cryo, Vacuum, Strain Gauge.<br />
<br />
<br />
== PXI DATA Monitoring ==<br />
There are two applications that allow you to view the PXI data "analyzer" and "pximon". <br />
<br />
=== PXI Data Analyzer ===<br />
The main diagnostics tool to view all PXI voltage tabs is called "analyzer". It can be started directly from the PXI volage tabs GUI clicking on the button "Analyzer" or by going to the directory "/home/hdops/solenoid/" and type in there "./analyzer". Using this GUI you can open any PXI data file that contains all data of the voltage tabbs, pick-up coils and accelerometers at a 10kHz sample rate (see fig. 1). <br />
[[Image:AnalyzerPXIdata.png | thumb | 485px | Fig. 1. PXI Data Analyzer]]<br />
<br />
=== Accelerometer Monitor ===<br />
To monitor the accelerometeres start the program in "/home/hdops/solenoid" with the command "./pximon_1". This will start up a GUI in which you will click the button "Startthreads". This will show the accelerometer data for each coil separately that the user can select with the raido buttons at the bottom of the GUI. (see fig. 2)<br />
[[Image:accelerometerMonitor.png | thumb | 485px | Fig. 2. Accelerometer Monitor]]<br />
<br />
<br />
<br />
== Expert personnel ==<br />
The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table.<br />
Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be<br />
approved by them. Additional experts may be trained by the system owner and their name and date added to this table.<br />
<br />
{| border=1 <br />
|+ Table: Expert personnel for the Solenoid Magnet<br />
|- bgcolor=#DFDFDF <br />
! width=200px | Name !! width=100px | Extension !! width=100px | Cellphone !! width=100px | Pager !! Date of qualification <br />
|-<br />
| Mechanical On-Call || align=center | || align=center | 544-7258 || align=center | || align=center | Sept 19, 2017<br />
|-<br />
| Tim Whitlatch- Solenoid || align=center | 269-5087 || align=center | 876-1766 || align=center | [mailto:whitey-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Beni Zihlmann - Solenoid/PXI || align=center | 269-5310 || align=center | 926-9671 || align=center | [mailto:zihlmann-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Mark Stevens - Power Supply || align=center | 269-6383 || align=center | 310-1576 || align=center | [mailto:stevensm-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Scot Spiegel - MPS/Solenoid || align=center | 269-5900|| align=center | 536-5900 || align=center | [mailto:spiegel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Chris Perry - Cryogenics || align=center | 269-6157|| align=center | 371-4926 || align=center | [mailto:creel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Jonathan Creel - Cryogenics || align=center | 269-5925|| align=center | 869-8910 || align=center | [mailto:creel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
<br />
| Nick Sandoval - PLC || align=center | 269-6506 || align=center | (540) 907-2637 || align=center | [mailto:butler-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Carroll Jones - LCW || align=center | 876-1778 || align=center | 876-1778 || align=center | [mailto:jonesc-page@jlab.org] || align=center | Sept 19, 2017<br />
|}</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Solenoid_Ramping_Shift&diff=2849Solenoid Ramping Shift2017-09-19T12:37:07Z<p>Whitey: /* Expert personnel */</p>
<hr />
<div><br />
<br />
== Routine Operation ==<br />
When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore.<br />
The full inductance of the solenoid is about 26 H.<br />
As the superconducting solenoid is very complex system, the operation of such system requires considerable knowledge and experience. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.<br />
<br />
The responsibilities of the shift workers include:<br />
<br />
* Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.<br />
* Notify [[Solenoid_Shift#Expert_personnel|experts]] when anomalies happen.<br />
* Ramp the magnet per request of run coordinator.<br />
* Make log entries to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks.<br />
<br />
These procedures are documented in the [https://misportal.jlab.org/jlabDocs/document.seam?id=85132 Hall D Solenoid Normal Ramp up Procedure for Shift takers (D00000-04-02-P013)] . Additional information can be found in detailed [[Solenoid Operations | Operation Instructions]] and [[Solenoid_Expert | Expert Information]].<br />
<br />
== Ramping the Magnet ==<br />
[[Image:Solenoid vacuum status.png | thumb | 485px | Fig. 1. Solenoid vacuum status screen]]<br />
[[Image:Solenoid status pickup coil.png | thumb | 485px | Fig. 2. Solenoid pickup coil status screen]]<br />
[[Image:Solenoid status forces.png | thumb | 485px | Fig. 3. Solenoid strain gauges]]<br />
<br />
'''This procedure is to be used by shift operators after all the preliminary checks have been completed and approval to ramp has been given by the Solenoid system expert.''' It assumes the magnet is at 0A current.<br />
<br />
=== Setup ===<br />
# Pull up CSS Solenoid screens as follows:<br />
#* Pull up Solenoid Control screen from CSS main screen - Magnet/Solenoid <br />
#* Cryo System (from Solenoid Control screen)<br />
#* Interlock<br />
#* Power Supply<br />
#* Voltage Taps/PXI<br />
#* Vacuum Pumps<br />
#* Strain Gauges <br />
# From the “Voltage Taps/PXI fast DAQ" screen, do the following;<br />
#* Click on the “Plot all Pickup Coils” button to open a Voltage vs. Time graph<br />
#* Ensure the PXI DAQ is running (if not click “Start PXI DAQ” button<br />
#* Click on “Start Recording ROOT File” button. Make sure “File Size” is increasing.<br />
#* Click on the “Current” box at the top to start a Current vs. Time graph<br />
# On the “Solenoid Strain Gauges” window:<br />
#* Confirm magnet is at zero current. Click on the “Zero Strain Gauges” button (all strain gauges should read close to 0). <br />
#* Click on “Plot All Forces” button (Graph for 4 coils should be displayed)<br />
#* Close strain gauge window<br />
# Ensure all is green on the “Vacuum Status” window and pumps are at 100% or better. The screen should look like in Fig. 1.<br />
# On “Interlock Status” screen, all should be green except the Main Contactor which will be red until the MPS is turned on. If not, click on the “Reset Interlocks” button. <br />
# Confirm Reset worked. If not, try again. If it still did not work, contact solenoid expert.<br />
# Arrange all the screens so they are visible.<br />
<br />
===Ramp up===<br />
<br />
<br />
# On “MPS Auto Control” screen, all should be green except “MPS On” box. If not, click on the “Reset MPS” button.<br />
# Confirm Reset (all boxes except “MPS On” are green).<br />
# Set current in “Final Goal” box to 0 (zero) and hit enter.<br />
# Confirm 0 (zero) reading in “Final Goal” box.<br />
# Click on the “Turn On MPS” button. Confirm all boxes are green.<br />
# Confirm MPS is on (all boxes green).<br />
# Set desired current in the “Final Goal” box.<br />
# Click on the ramp button. Note: the ramps are programmed into the system and will soak at 800A for 15 minutes, 1000A for 1 hr and 1200A for 1 hr<br />
# Confirm magnet is ramping by seeing an increase in current.<br />
# Pay close attention to the “Pick Up Coil” and “Strain Gauge” graphs to ensure the signals are acting normally (see Figs. 2 and 3). If not, click on the “Cancel” button and notify solenoid expert.<br />
# When the current is at approximately 40A, take a screen shot of all the windows and post an HDLOG and HDSOLENOID log.<br />
#* Press Alt+Prt Scrn<br />
#* Either pick “current window” or “all windows” (if you pick current window, only the active window will be used and you must repeat for all windows) and click ok<br />
#* Add “solenoid ramp” (or specific window) to the name of the file after the date and save. The correct folder is hdops/pictures/solenoid screenshots and pictures.<br />
#* Make an HDLOG/HDSOLENOID entry and attach screenshots<br />
# If there is a dump, ensure an HDLOG is made with a current screen shot and contact mechanical on call. Do not reset anything until instructed to do so.<br />
# If a ramp is cancelled/stopped for any reason and the system expert gives the ok to continue ramping, type in the new “Final goal” set point and click the ramp button.<br />
<br />
===Ramp down===<br />
# To ramp down to zero current, type in “0” as the “Final Goal” and click the ramp button.<br />
# Take screenshots of any relevant windows, especially if there are any anomalies during rampdown.<br />
<br />
== When the Solenoid Trips ==<br />
<br />
* Call Mechanical On-Call (757-544-7258) every time when the power supply trips!<br />
* DO NOT clear interlock status or attempt to change MPS state before the Solenoid On-Call responses!<br />
* Make screen shots of Solenoid status and post them to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks: Interlock, MPS, Voltage, Cryo, Vacuum, Strain Gauge.<br />
<br />
<br />
== PXI DATA Monitoring ==<br />
There are two applications that allow you to view the PXI data "analyzer" and "pximon". <br />
<br />
=== PXI Data Analyzer ===<br />
The main diagnostics tool to view all PXI voltage tabs is called "analyzer". It can be started directly from the PXI volage tabs GUI clicking on the button "Analyzer" or by going to the directory "/home/hdops/solenoid/" and type in there "./analyzer". Using this GUI you can open any PXI data file that contains all data of the voltage tabbs, pick-up coils and accelerometers at a 10kHz sample rate (see fig. 1). <br />
[[Image:AnalyzerPXIdata.png | thumb | 485px | Fig. 1. PXI Data Analyzer]]<br />
<br />
=== Accelerometer Monitor ===<br />
To monitor the accelerometeres start the program in "/home/hdops/solenoid" with the command "./pximon_1". This will start up a GUI in which you will click the button "Startthreads". This will show the accelerometer data for each coil separately that the user can select with the raido buttons at the bottom of the GUI. (see fig. 2)<br />
[[Image:accelerometerMonitor.png | thumb | 485px | Fig. 2. Accelerometer Monitor]]<br />
<br />
<br />
<br />
== Expert personnel ==<br />
The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table.<br />
Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be<br />
approved by them. Additional experts may be trained by the system owner and their name and date added to this table.<br />
<br />
{| border=1 <br />
|+ Table: Expert personnel for the Solenoid Magnet<br />
|- bgcolor=#DFDFDF <br />
! width=200px | Name !! width=100px | Extension !! width=100px | Cellphone !! width=100px | Pager !! Date of qualification <br />
|-<br />
| Mechanical On-Call || align=center | || align=center | 544-7258 || align=center | || align=center | Sept 19, 2017<br />
|-<br />
| Tim Whitlatch- Solenoid || align=center | 269-5087 || align=center | 876-1766 || align=center | [mailto:whitey-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Beni Zihlmann - Solenoid/PXI || align=center | 269-5310 || align=center | 926-9671 || align=center | [mailto:zihlmann-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Mark Stevens - Power Supply || align=center | 269-6383 || align=center | 310-1576 || align=center | [mailto:stevensm-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Scot Spiegel - MPS/Solenoid || align=center | 269-5900|| align=center | 536-5900 || align=center | [mailto:spiegel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Chris Perry - Cryogenics || align=center | 269-6157|| align=center | 371-4926 || align=center | [mailto:creel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Jonathan Creel - Cryogenics || align=center | 269-5925|| align=center | 869-8910 || align=center | [mailto:creel-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
<br />
| Nick Sandoval - PLC || align=center | 269-6506 || align=center | (540) 907-2637 || align=center | [mailto:butler-page@jlab.org] || align=center | Sept 19, 2017<br />
|-<br />
| Carroll Jones - LCW || align=center | 876-1778 || align=center | 876-1778 || align=center | [mailto:jonesc-page@jlab.org] || align=center | Sept 19, 2017<br />
|}</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Solenoid_Ramping_Shift&diff=2317Solenoid Ramping Shift2016-05-04T13:02:38Z<p>Whitey: /* Expert personnel */</p>
<hr />
<div><br />
<br />
== Routine Operation ==<br />
When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore.<br />
The full inductance of the solenoid is about 26 H.<br />
As the superconducting solenoid is very complex system, the operation of such system requires considerable knowledge and experience. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.<br />
<br />
The responsibilities of the shift workers include:<br />
<br />
* Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.<br />
* Notify [[Solenoid_Shift#Expert_personnel|experts]] when anomalies happen.<br />
* Ramp the magnet per request of run coordinator.<br />
* Make log entries to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks.<br />
<br />
These procedures are documented in the [https://misportal.jlab.org/jlabDocs/document.seam?id=85132 Hall D Solenoid Normal Ramp up Procedure for Shift takers (D00000-04-02-P013)] . Additional information can be found in detailed [[Solenoid Operations | Operation Instructions]] and [[Solenoid_Expert | Expert Information]].<br />
<br />
== Ramping the Magnet ==<br />
[[Image:Solenoid vacuum status.png | thumb | 485px | Fig. 1. Solenoid vacuum status screen]]<br />
[[Image:Solenoid status pickup coil.png | thumb | 485px | Fig. 2. Solenoid pickup coil status screen]]<br />
[[Image:Solenoid status forces.png | thumb | 485px | Fig. 3. Solenoid strain gauges]]<br />
<br />
'''This procedure is to be used by shift operators after all the preliminary checks have been completed and approval to ramp has been given by the Solenoid system expert.''' It assumes the magnet is at 0A current.<br />
<br />
=== Setup ===<br />
# Pull up CSS Solenoid screens as follows:<br />
#* Pull up Solenoid Control screen from CSS main screen - Magnet/Solenoid <br />
#* Cryo System (from Solenoid Control screen)<br />
#* Interlock<br />
#* Power Supply<br />
#* Voltage Taps/PXI<br />
#* Vacuum Pumps<br />
#* Strain Gauges <br />
# From the “Voltage Taps/PXI fast DAQ" screen, do the following;<br />
#* Click on the “Plot all Pickup Coils” button to open a Voltage vs. Time graph<br />
#* Ensure the PXI DAQ is running (if not click “Start PXI DAQ” button<br />
#* Click on “Start Recording ROOT File” button. Make sure “File Size” is increasing.<br />
#* Click on the “Current” box at the top to start a Current vs. Time graph<br />
# On the “Solenoid Strain Gauges” window:<br />
#* Confirm magnet is at zero current. Click on the “Zero Strain Gauges” button (all strain gauges should read close to 0). <br />
#* Click on “Plot All Forces” button (Graph for 4 coils should be displayed)<br />
#* Close strain gauge window<br />
# Ensure all is green on the “Vacuum Status” window and pumps are at 100% or better. The screen should look like in Fig. 1.<br />
# On “Interlock Status” screen, all should be green except the Main Contactor which will be red until the MPS is turned on. If not, click on the “Reset Interlocks” button. <br />
# Confirm Reset worked. If not, try again. If it still did not work, contact solenoid expert.<br />
# Arrange all the screens so they are visible.<br />
<br />
===Ramp up===<br />
<br />
<br />
# On “MPS Auto Control” screen, all should be green except “MPS On” box. If not, click on the “Reset MPS” button.<br />
# Confirm Reset (all boxes except “MPS On” are green).<br />
# Set current in “Final Goal” box to 0 (zero) and hit enter.<br />
# Confirm 0 (zero) reading in “Final Goal” box.<br />
# Click on the “Turn On MPS” button. Confirm all boxes are green.<br />
# Confirm MPS is on (all boxes green).<br />
# Set desired current in the “Final Goal” box.<br />
# Click on the ramp button. Note: the ramps are programmed into the system and will soak at 800A for 15 minutes, 1000A for 1 hr and 1200A for 1 hr<br />
# Confirm magnet is ramping by seeing an increase in current.<br />
# Pay close attention to the “Pick Up Coil” and “Strain Gauge” graphs to ensure the signals are acting normally (see Figs. 2 and 3). If not, click on the “Cancel” button and notify solenoid expert.<br />
# When the current is at approximately 40A, take a screen shot of all the windows and post an HDLOG and HDSOLENOID log.<br />
#* Press Alt+Prt Scrn<br />
#* Either pick “current window” or “all windows” (if you pick current window, only the active window will be used and you must repeat for all windows) and click ok<br />
#* Add “solenoid ramp” (or specific window) to the name of the file after the date and save. The correct folder is hdops/pictures/solenoid screenshots and pictures.<br />
#* Make an HDLOG/HDSOLENOID entry and attach screenshots<br />
# If there is a dump, ensure an HDLOG is made with a current screen shot and contact mechanical on call. Do not reset anything until instructed to do so.<br />
# If a ramp is cancelled/stopped for any reason and the system expert gives the ok to continue ramping, type in the new “Final goal” set point and click the ramp button.<br />
<br />
===Ramp down===<br />
# To ramp down to zero current, type in “0” as the “Final Goal” and click the ramp button.<br />
# Take screenshots of any relevant windows, especially if there are any anomalies during rampdown.<br />
<br />
== When the Solenoid Trips ==<br />
<br />
* Call Mechanical On-Call (757-544-7258) every time when the power supply trips!<br />
* DO NOT clear interlock status or attempt to change MPS state before the Solenoid On-Call responses!<br />
* Make screen shots of Solenoid status and post them to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks: Interlock, MPS, Voltage, Cryo, Vacuum, Strain Gauge.<br />
<br />
<br />
== PXI DATA Monitoring ==<br />
There are two applications that allow you to view the PXI data "analyzer" and "pximon". <br />
<br />
=== PXI Data Analyzer ===<br />
The main diagnostics tool to view all PXI voltage tabs is called "analyzer". It can be started directly from the PXI volage tabs GUI clicking on the button "Analyzer" or by going to the directory "/home/hdops/solenoid/" and type in there "./analyzer". Using this GUI you can open any PXI data file that contains all data of the voltage tabbs, pick-up coils and accelerometers at a 10kHz sample rate (see fig. 1). <br />
[[Image:AnalyzerPXIdata.png | thumb | 485px | Fig. 1. PXI Data Analyzer]]<br />
<br />
=== Accelerometer Monitor ===<br />
To monitor the accelerometeres start the program in "/home/hdops/solenoid" with the command "./pximon_1". This will start up a GUI in which you will click the button "Startthreads". This will show the accelerometer data for each coil separately that the user can select with the raido buttons at the bottom of the GUI. (see fig. 2)<br />
[[Image:accelerometerMonitor.png | thumb | 485px | Fig. 2. Accelerometer Monitor]]<br />
<br />
<br />
<br />
== Expert personnel ==<br />
The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table.<br />
Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be<br />
approved by them. Additional experts may be trained by the system owner and their name and date added to this table.<br />
<br />
{| border=1 <br />
|+ Table: Expert personnel for the Solenoid Magnet<br />
|- bgcolor=#DFDFDF <br />
! width=200px | Name !! width=100px | Extension !! width=100px | Cellphone !! width=100px | Pager !! Date of qualification <br />
|-<br />
| Mechanical On-Call || align=center | || align=center | 544-7258 || align=center | || align=center | Nov 10, 2014<br />
|-<br />
| Tim Whitlatch- Solenoid || align=center | 269-5087 || align=center | 876-1766 || align=center | [mailto:whitey-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Beni Zihlmann - Solenoid/PXI || align=center | 269-5310 || align=center | 926-9671 || align=center | [mailto:zihlmann-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Mark Stevens - Power Supply || align=center | 269-6383 || align=center | 318-1576 || align=center | [mailto:stevensm-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Scot Spiegel - MPS/Solenoid || align=center | 269-5900|| align=center | 536-5900 || align=center | [mailto:spiegel-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Mat Wright - Cryogenics || align=center | 269-7722 || align=center | 715-1167 || align=center | [mailto:creel-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Nick Sandoval - PLC || align=center | 269-6506 || align=center | (540) 907-2637 || align=center | [mailto:butler-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Carroll Jones - LCW || align=center | 876-1778 || align=center | 876-1778 || align=center | [mailto:jonesc-page@jlab.org] || align=center | Nov 14, 2014<br />
|}</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Solenoid_Ramping_Shift&diff=2316Solenoid Ramping Shift2016-05-04T13:00:27Z<p>Whitey: /* PXI Data Analyzwer */</p>
<hr />
<div><br />
<br />
== Routine Operation ==<br />
When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore.<br />
The full inductance of the solenoid is about 26 H.<br />
As the superconducting solenoid is very complex system, the operation of such system requires considerable knowledge and experience. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.<br />
<br />
The responsibilities of the shift workers include:<br />
<br />
* Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.<br />
* Notify [[Solenoid_Shift#Expert_personnel|experts]] when anomalies happen.<br />
* Ramp the magnet per request of run coordinator.<br />
* Make log entries to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks.<br />
<br />
These procedures are documented in the [https://misportal.jlab.org/jlabDocs/document.seam?id=85132 Hall D Solenoid Normal Ramp up Procedure for Shift takers (D00000-04-02-P013)] . Additional information can be found in detailed [[Solenoid Operations | Operation Instructions]] and [[Solenoid_Expert | Expert Information]].<br />
<br />
== Ramping the Magnet ==<br />
[[Image:Solenoid vacuum status.png | thumb | 485px | Fig. 1. Solenoid vacuum status screen]]<br />
[[Image:Solenoid status pickup coil.png | thumb | 485px | Fig. 2. Solenoid pickup coil status screen]]<br />
[[Image:Solenoid status forces.png | thumb | 485px | Fig. 3. Solenoid strain gauges]]<br />
<br />
'''This procedure is to be used by shift operators after all the preliminary checks have been completed and approval to ramp has been given by the Solenoid system expert.''' It assumes the magnet is at 0A current.<br />
<br />
=== Setup ===<br />
# Pull up CSS Solenoid screens as follows:<br />
#* Pull up Solenoid Control screen from CSS main screen - Magnet/Solenoid <br />
#* Cryo System (from Solenoid Control screen)<br />
#* Interlock<br />
#* Power Supply<br />
#* Voltage Taps/PXI<br />
#* Vacuum Pumps<br />
#* Strain Gauges <br />
# From the “Voltage Taps/PXI fast DAQ" screen, do the following;<br />
#* Click on the “Plot all Pickup Coils” button to open a Voltage vs. Time graph<br />
#* Ensure the PXI DAQ is running (if not click “Start PXI DAQ” button<br />
#* Click on “Start Recording ROOT File” button. Make sure “File Size” is increasing.<br />
#* Click on the “Current” box at the top to start a Current vs. Time graph<br />
# On the “Solenoid Strain Gauges” window:<br />
#* Confirm magnet is at zero current. Click on the “Zero Strain Gauges” button (all strain gauges should read close to 0). <br />
#* Click on “Plot All Forces” button (Graph for 4 coils should be displayed)<br />
#* Close strain gauge window<br />
# Ensure all is green on the “Vacuum Status” window and pumps are at 100% or better. The screen should look like in Fig. 1.<br />
# On “Interlock Status” screen, all should be green except the Main Contactor which will be red until the MPS is turned on. If not, click on the “Reset Interlocks” button. <br />
# Confirm Reset worked. If not, try again. If it still did not work, contact solenoid expert.<br />
# Arrange all the screens so they are visible.<br />
<br />
===Ramp up===<br />
<br />
<br />
# On “MPS Auto Control” screen, all should be green except “MPS On” box. If not, click on the “Reset MPS” button.<br />
# Confirm Reset (all boxes except “MPS On” are green).<br />
# Set current in “Final Goal” box to 0 (zero) and hit enter.<br />
# Confirm 0 (zero) reading in “Final Goal” box.<br />
# Click on the “Turn On MPS” button. Confirm all boxes are green.<br />
# Confirm MPS is on (all boxes green).<br />
# Set desired current in the “Final Goal” box.<br />
# Click on the ramp button. Note: the ramps are programmed into the system and will soak at 800A for 15 minutes, 1000A for 1 hr and 1200A for 1 hr<br />
# Confirm magnet is ramping by seeing an increase in current.<br />
# Pay close attention to the “Pick Up Coil” and “Strain Gauge” graphs to ensure the signals are acting normally (see Figs. 2 and 3). If not, click on the “Cancel” button and notify solenoid expert.<br />
# When the current is at approximately 40A, take a screen shot of all the windows and post an HDLOG and HDSOLENOID log.<br />
#* Press Alt+Prt Scrn<br />
#* Either pick “current window” or “all windows” (if you pick current window, only the active window will be used and you must repeat for all windows) and click ok<br />
#* Add “solenoid ramp” (or specific window) to the name of the file after the date and save. The correct folder is hdops/pictures/solenoid screenshots and pictures.<br />
#* Make an HDLOG/HDSOLENOID entry and attach screenshots<br />
# If there is a dump, ensure an HDLOG is made with a current screen shot and contact mechanical on call. Do not reset anything until instructed to do so.<br />
# If a ramp is cancelled/stopped for any reason and the system expert gives the ok to continue ramping, type in the new “Final goal” set point and click the ramp button.<br />
<br />
===Ramp down===<br />
# To ramp down to zero current, type in “0” as the “Final Goal” and click the ramp button.<br />
# Take screenshots of any relevant windows, especially if there are any anomalies during rampdown.<br />
<br />
== When the Solenoid Trips ==<br />
<br />
* Call Mechanical On-Call (757-544-7258) every time when the power supply trips!<br />
* DO NOT clear interlock status or attempt to change MPS state before the Solenoid On-Call responses!<br />
* Make screen shots of Solenoid status and post them to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks: Interlock, MPS, Voltage, Cryo, Vacuum, Strain Gauge.<br />
<br />
<br />
== PXI DATA Monitoring ==<br />
There are two applications that allow you to view the PXI data "analyzer" and "pximon". <br />
<br />
=== PXI Data Analyzer ===<br />
The main diagnostics tool to view all PXI voltage tabs is called "analyzer". It can be started directly from the PXI volage tabs GUI clicking on the button "Analyzer" or by going to the directory "/home/hdops/solenoid/" and type in there "./analyzer". Using this GUI you can open any PXI data file that contains all data of the voltage tabbs, pick-up coils and accelerometers at a 10kHz sample rate (see fig. 1). <br />
[[Image:AnalyzerPXIdata.png | thumb | 485px | Fig. 1. PXI Data Analyzer]]<br />
<br />
=== Accelerometer Monitor ===<br />
To monitor the accelerometeres start the program in "/home/hdops/solenoid" with the command "./pximon_1". This will start up a GUI in which you will click the button "Startthreads". This will show the accelerometer data for each coil separately that the user can select with the raido buttons at the bottom of the GUI. (see fig. 2)<br />
[[Image:accelerometerMonitor.png | thumb | 485px | Fig. 2. Accelerometer Monitor]]<br />
<br />
<br />
<br />
== Expert personnel ==<br />
The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table.<br />
Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be<br />
approved by them. Additional experts may be trained by the system owner and their name and date added to this table.<br />
<br />
{| border=1 <br />
|+ Table: Expert personnel for the Solenoid Magnet<br />
|- bgcolor=#DFDFDF <br />
! width=200px | Name !! width=100px | Extension !! width=100px | Cellphone !! width=100px | Pager !! Date of qualification <br />
|-<br />
| Mechanical On-Call || align=center | || align=center | 544-7258 || align=center | || align=center | Nov 10, 2014<br />
|-<br />
| Tim Whitlatch- Solenoid || align=center | 269-5087 || align=center | 876-1766 || align=center | [mailto:whitey-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Beni Zihlmann - Solenoid/PXI || align=center | 269-5310 || align=center | 926-9671 || align=center | [mailto:zihlmann-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Mark Stevens - Power Supply || align=center | 269-6383 || align=center | 318-1576 || align=center | [mailto:stevensm-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Scot Spiegel - MPS/Solenoid || align=center | 269-5900|| align=center | 536-5900 || align=center | [mailto:spiegel-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Jonathan Creel - Cryogenics || align=center | 269-5925 || align=center | 869-8910 || align=center | [mailto:creel-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Nick Sandoval - PLC || align=center | 269-6506 || align=center | (540) 907-2637 || align=center | [mailto:butler-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Carroll Jones - LCW || align=center | 876-1778 || align=center | 876-1778 || align=center | [mailto:jonesc-page@jlab.org] || align=center | Nov 14, 2014<br />
|}</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Solenoid_Ramping_Shift&diff=2315Solenoid Ramping Shift2016-05-04T12:59:34Z<p>Whitey: /* Expert personnel */</p>
<hr />
<div><br />
<br />
== Routine Operation ==<br />
When powered with the maximum current of 1350 A, the solenoid generates a field close to 2 Tesla in the bore.<br />
The full inductance of the solenoid is about 26 H.<br />
As the superconducting solenoid is very complex system, the operation of such system requires considerable knowledge and experience. The commissioning, troubleshooting, tuning of ground fault and quench detectors, Power ON and OFF, change current will be conducted by authorized experts only.<br />
<br />
The responsibilities of the shift workers include:<br />
<br />
* Monitor the overall status of the solenoid: current, field, interlocks, voltages, cryogenic levels etc.<br />
* Notify [[Solenoid_Shift#Expert_personnel|experts]] when anomalies happen.<br />
* Ramp the magnet per request of run coordinator.<br />
* Make log entries to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks.<br />
<br />
These procedures are documented in the [https://misportal.jlab.org/jlabDocs/document.seam?id=85132 Hall D Solenoid Normal Ramp up Procedure for Shift takers (D00000-04-02-P013)] . Additional information can be found in detailed [[Solenoid Operations | Operation Instructions]] and [[Solenoid_Expert | Expert Information]].<br />
<br />
== Ramping the Magnet ==<br />
[[Image:Solenoid vacuum status.png | thumb | 485px | Fig. 1. Solenoid vacuum status screen]]<br />
[[Image:Solenoid status pickup coil.png | thumb | 485px | Fig. 2. Solenoid pickup coil status screen]]<br />
[[Image:Solenoid status forces.png | thumb | 485px | Fig. 3. Solenoid strain gauges]]<br />
<br />
'''This procedure is to be used by shift operators after all the preliminary checks have been completed and approval to ramp has been given by the Solenoid system expert.''' It assumes the magnet is at 0A current.<br />
<br />
=== Setup ===<br />
# Pull up CSS Solenoid screens as follows:<br />
#* Pull up Solenoid Control screen from CSS main screen - Magnet/Solenoid <br />
#* Cryo System (from Solenoid Control screen)<br />
#* Interlock<br />
#* Power Supply<br />
#* Voltage Taps/PXI<br />
#* Vacuum Pumps<br />
#* Strain Gauges <br />
# From the “Voltage Taps/PXI fast DAQ" screen, do the following;<br />
#* Click on the “Plot all Pickup Coils” button to open a Voltage vs. Time graph<br />
#* Ensure the PXI DAQ is running (if not click “Start PXI DAQ” button<br />
#* Click on “Start Recording ROOT File” button. Make sure “File Size” is increasing.<br />
#* Click on the “Current” box at the top to start a Current vs. Time graph<br />
# On the “Solenoid Strain Gauges” window:<br />
#* Confirm magnet is at zero current. Click on the “Zero Strain Gauges” button (all strain gauges should read close to 0). <br />
#* Click on “Plot All Forces” button (Graph for 4 coils should be displayed)<br />
#* Close strain gauge window<br />
# Ensure all is green on the “Vacuum Status” window and pumps are at 100% or better. The screen should look like in Fig. 1.<br />
# On “Interlock Status” screen, all should be green except the Main Contactor which will be red until the MPS is turned on. If not, click on the “Reset Interlocks” button. <br />
# Confirm Reset worked. If not, try again. If it still did not work, contact solenoid expert.<br />
# Arrange all the screens so they are visible.<br />
<br />
===Ramp up===<br />
<br />
<br />
# On “MPS Auto Control” screen, all should be green except “MPS On” box. If not, click on the “Reset MPS” button.<br />
# Confirm Reset (all boxes except “MPS On” are green).<br />
# Set current in “Final Goal” box to 0 (zero) and hit enter.<br />
# Confirm 0 (zero) reading in “Final Goal” box.<br />
# Click on the “Turn On MPS” button. Confirm all boxes are green.<br />
# Confirm MPS is on (all boxes green).<br />
# Set desired current in the “Final Goal” box.<br />
# Click on the ramp button. Note: the ramps are programmed into the system and will soak at 800A for 15 minutes, 1000A for 1 hr and 1200A for 1 hr<br />
# Confirm magnet is ramping by seeing an increase in current.<br />
# Pay close attention to the “Pick Up Coil” and “Strain Gauge” graphs to ensure the signals are acting normally (see Figs. 2 and 3). If not, click on the “Cancel” button and notify solenoid expert.<br />
# When the current is at approximately 40A, take a screen shot of all the windows and post an HDLOG and HDSOLENOID log.<br />
#* Press Alt+Prt Scrn<br />
#* Either pick “current window” or “all windows” (if you pick current window, only the active window will be used and you must repeat for all windows) and click ok<br />
#* Add “solenoid ramp” (or specific window) to the name of the file after the date and save. The correct folder is hdops/pictures/solenoid screenshots and pictures.<br />
#* Make an HDLOG/HDSOLENOID entry and attach screenshots<br />
# If there is a dump, ensure an HDLOG is made with a current screen shot and contact mechanical on call. Do not reset anything until instructed to do so.<br />
# If a ramp is cancelled/stopped for any reason and the system expert gives the ok to continue ramping, type in the new “Final goal” set point and click the ramp button.<br />
<br />
===Ramp down===<br />
# To ramp down to zero current, type in “0” as the “Final Goal” and click the ramp button.<br />
# Take screenshots of any relevant windows, especially if there are any anomalies during rampdown.<br />
<br />
== When the Solenoid Trips ==<br />
<br />
* Call Mechanical On-Call (757-544-7258) every time when the power supply trips!<br />
* DO NOT clear interlock status or attempt to change MPS state before the Solenoid On-Call responses!<br />
* Make screen shots of Solenoid status and post them to the [https://logbooks.jlab.org/book/HDLOG HDLOG] and [https://logbooks.jlab.org/book/HDSOLENOID HDSOLENOID] logbooks: Interlock, MPS, Voltage, Cryo, Vacuum, Strain Gauge.<br />
<br />
<br />
== PXI DATA Monitoring ==<br />
There are two applications that allow you to view the PXI data "analyzer" and "pximon". <br />
<br />
=== PXI Data Analyzwer ===<br />
The main diagnostics tool to view all PXI voltage tabs is called "analyzer". It can be started directly from the PXI volage tabs GUI clicking on the button "Analyzer" or by going to the directory "/home/hdops/solenoid/" and type in there "./analyzer". Using this GUI you can open any PXI data file that contains all data of the voltage tabbs, pick-up coils and accelerometers at a 10kHz sample rate (see fig. 1). <br />
[[Image:AnalyzerPXIdata.png | thumb | 485px | Fig. 1. PXI Data Analyzer]]<br />
<br />
=== Accelerometer Monitor ===<br />
To monitor the accelerometeres start the program in "/home/hdops/solenoid" with the command "./pximon_1". This will start up a GUI in which you will click the button "Startthreads". This will show the accelerometer data for each coil separately that the user can select with the raido buttons at the bottom of the GUI. (see fig. 2)<br />
[[Image:accelerometerMonitor.png | thumb | 485px | Fig. 2. Accelerometer Monitor]]<br />
<br />
<br />
<br />
== Expert personnel ==<br />
The individuals responsible for checking that the solenoid is ready to take data and setting its operating parameters are shown in following table.<br />
Problems with normal operation of the solenoid should be referred to those individuals and any changes to their settings must be<br />
approved by them. Additional experts may be trained by the system owner and their name and date added to this table.<br />
<br />
{| border=1 <br />
|+ Table: Expert personnel for the Solenoid Magnet<br />
|- bgcolor=#DFDFDF <br />
! width=200px | Name !! width=100px | Extension !! width=100px | Cellphone !! width=100px | Pager !! Date of qualification <br />
|-<br />
| Mechanical On-Call || align=center | || align=center | 544-7258 || align=center | || align=center | Nov 10, 2014<br />
|-<br />
| Tim Whitlatch- Solenoid || align=center | 269-5087 || align=center | 876-1766 || align=center | [mailto:whitey-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Beni Zihlmann - Solenoid/PXI || align=center | 269-5310 || align=center | 926-9671 || align=center | [mailto:zihlmann-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Mark Stevens - Power Supply || align=center | 269-6383 || align=center | 318-1576 || align=center | [mailto:stevensm-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Scot Spiegel - MPS/Solenoid || align=center | 269-5900|| align=center | 536-5900 || align=center | [mailto:spiegel-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Jonathan Creel - Cryogenics || align=center | 269-5925 || align=center | 869-8910 || align=center | [mailto:creel-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Nick Sandoval - PLC || align=center | 269-6506 || align=center | (540) 907-2637 || align=center | [mailto:butler-page@jlab.org] || align=center | June 12, 2014<br />
|-<br />
| Carroll Jones - LCW || align=center | 876-1778 || align=center | 876-1778 || align=center | [mailto:jonesc-page@jlab.org] || align=center | Nov 14, 2014<br />
|}</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:Hall_D_CDC_Installation_procedure.pdf&diff=441File:Hall D CDC Installation procedure.pdf2014-06-24T12:49:39Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=440Approved Procedures2014-06-24T12:45:25Z<p>Whitey: /* DRAFT Procedures */</p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=22021 Hall D Solenoid Magnet - Powered Operations (FEL-13-22021-OSP)]<br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]<br />
<br />
== DRAFT Procedures == <br />
<br />
There are several procedures that are being developed for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they have not yet completed the approval process. Once approved, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* [[Media:Hall D Detector Gas system purge procedure.pdf | Hall D Detector Gas System Purge Procedure ]] (Dave Butler)<br />
* [http://argus.phys.uregina.ca/cgi-bin/private/DocDB/ShowDocument?docid=2512 Installation/Removal of FDC] (Bill Crahen). <br />
* [[Media:Hall D CDC Installation procedure.pdf | Hall D CDC Installation Procedure ]]<br />
* [[Media:Hall D Vacuum-Thin window procedures.pdf |Hall D Vacuum-Thin Window Procedures]] (Tom Carstens)<br />
* [[Media:Hall D Solenoid Vacuum check list.pdf | Solenoid Vacuum System Check Procedures]] (George Biallas)<br />
* [[Media:Hall D Solenoid Hi-Pot procedure.pdf | Hall D Solenoid Hi-Pot Procedure ]] (Giles Brown)<br />
* Cryogenic target. (Chris Keith)</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:Hall_D_Solenoid_Hi-Pot_procedure.pdf&diff=437File:Hall D Solenoid Hi-Pot procedure.pdf2014-06-24T11:55:01Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:Hall_D_Detector_Gas_system_purge_procedure.pdf&diff=431File:Hall D Detector Gas system purge procedure.pdf2014-06-24T11:18:39Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=430Approved Procedures2014-06-24T11:17:56Z<p>Whitey: /* DRAFTS */</p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=22021 Hall D Solenoid Magnet - Powered Operations (FEL-13-22021-OSP)]<br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]<br />
<br />
== DRAFTS == <br />
<br />
* [[Media:Hall D Detector Gas system purge procedure.pdf]]<br />
* [http://argus.phys.uregina.ca/cgi-bin/private/DocDB/ShowDocument?docid=2512 Installation/Removal of FDC] (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* [[Media:Hall D Vacuum-Thin window procedures.pdf |Hall D Vacuum-Thin Window Procedures]] (Tom Carstens)<br />
* [[Media:Hall D Solenoid Vacuum check list.pdf | Solenoid Vacuum System Check Procedures]]<br />
* [[Media:Hall D Solenoid Hi-Pot procedure.pdf]]<br />
* Cryogenic target. (Chris Keith)</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=425Approved Procedures2014-06-23T20:29:16Z<p>Whitey: /* DRAFTS */</p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]<br />
<br />
== DRAFTS == <br />
<br />
* Gas System Operation (Scot Spiegel/ Dave Butler)<br />
* [http://argus.phys.uregina.ca/cgi-bin/private/DocDB/ShowDocument?docid=2512 Installation/Removal of FDC] (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* [[Media:Hall D Vacuum-Thin window procedures.pdf]] (Tom Carstens)<br />
* Solenoid vacuum system check Procedures [[Media:Hall D Solenoid Vacuum check list.pdf]]<br />
* [[Media:Hall D Solenoid Hi-Pot procedure.pdf]]<br />
* Cryogenic target. (Chris Keith)</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:Hall_D_Solenoid_Vacuum_check_list.pdf&diff=424File:Hall D Solenoid Vacuum check list.pdf2014-06-23T20:18:23Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=423Approved Procedures2014-06-23T20:17:59Z<p>Whitey: /* DRAFTS */</p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]<br />
<br />
== DRAFTS == <br />
<br />
* Gas System Operation (Scot Spiegel/ Dave Butler)<br />
* [http://argus.phys.uregina.ca/cgi-bin/private/DocDB/ShowDocument?docid=2512 Installation/Removal of FDC] (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* [[Media:Hall D Vacuum-Thin window procedures.pdf]] (Tom Carstens)<br />
* Solenoid vacuum system check Procedures [[Media:Hall D Solenoid Vacuum check list.pdf]]<br />
* Cryogenic target. (Chris Keith)</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=391Approved Procedures2014-06-20T12:02:17Z<p>Whitey: </p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* Gas System Operation (Scot Spiegel/ Dave Butler)<br />
* Insertion/removal of drift chambers FDC procedure exists but needs updating (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* Vacuum / damage to radiators/convertes (Tom Carstens) [[Media:Hall D Vacuum-Thin window procedures.pdf]]<br />
* Thin windows / Alcove and near photon beam dump (Tom Carstens)<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* Solenoid, Procedures contained in this folder M:\halld_engineering\Solenoid\controls\Solenoid Reference Documentation\July'14 Commissioning Draft Documents<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* Cryogenic target. Chris Keith will lead the OSP effort <br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=File:Hall_D_Vacuum-Thin_window_procedures.pdf&diff=390File:Hall D Vacuum-Thin window procedures.pdf2014-06-20T12:01:58Z<p>Whitey: </p>
<hr />
<div></div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=389Approved Procedures2014-06-20T12:01:40Z<p>Whitey: </p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* Gas System Operation (Scot Spiegel/ Dave Butler)<br />
* Insertion/removal of drift chambers FDC procedure exists but needs updating (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* Vacuum / damage to radiators/convertes (Tom Carstens)[[Media:Hall D Vacuum-Thin window procedures.pdf]]<br />
* Thin windows / Alcove and near photon beam dump (Tom Carstens)<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* Solenoid, Procedures contained in this folder M:\halld_engineering\Solenoid\controls\Solenoid Reference Documentation\July'14 Commissioning Draft Documents<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* Cryogenic target. Chris Keith will lead the OSP effort <br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=388Approved Procedures2014-06-20T11:59:22Z<p>Whitey: </p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* Gas System Operation (Scot Spiegel/ Dave Butler)<br />
* Insertion/removal of drift chambers FDC procedure exists but needs updating (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* Vacuum / damage to radiators/convertes (Tom Carstens)<br />
* Thin windows / Alcove and near photon beam dump (Tom Carstens)<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* Solenoid, Procedures contained in this folder M:\halld_engineering\Solenoid\controls\Solenoid Reference Documentation\July'14 Commissioning Draft Documents<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* Cryogenic target. Chris Keith will lead the OSP effort <br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]</div>Whiteyhttps://halldweb.jlab.org/hdops/wiki/index.php?title=Approved_Procedures&diff=387Approved Procedures2014-06-20T11:58:42Z<p>Whitey: </p>
<hr />
<div>There are several procedures that are necessary for preparing equipment or for special operations in Hall D. They are provided here for reference, as they may contain useful information. However, they are to be performed only by qualified personnel as specified in the reviewed procedure:<br />
<br />
* Gas System Operation (Scot Spiegel/ Dave Butler)<br />
* Insertion/removal of drift chambers FDC procedure exists but needs updating (Bill Crahen). <br />
* Insertion/removal CDC (Tim Whitlatch)<br />
* Vacuum / damage to radiators/convertes (Tom Carstens)<br />
* Thin windows / Alcove and near photon beam dump (Tom Carstens)<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=32776 Hall D Tagger Magnet Mapping (ENP-13-32776-OSP)]<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=36947 Hall D Pair Spectrometer Mapping (ENP-14-36947-OSP)]<br />
* Solenoid, several procedures. Need to get a list of proceedures M:\halld_engineering\Solenoid\controls\Solenoid Reference Documentation\July'14 Commissioning Draft Documents<br />
* [https://mis.jlab.org/mis/apps/mis_forms/operational_safety_procedure_form.cfm?entry_id=19709 Hall D Solenoid Magnet - Cryogenic Operations (ENG-12-19709-OSP)]<br />
* Cryogenic target. Chris Keith will lead the OSP effort <br />
* [https://misportal.jlab.org/jlabDocs/document.seam?id=78791 Training for Work in the FCAL Dark Room (D00000-01-06-P006)]</div>Whitey