Difference between revisions of "Semi-Automatic Field Mapping Logger"
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+ | == Field Mapping System Diagram == | ||
+ | [[File:Field_Mapping.png]] | ||
+ | |||
== Running the Field Logger Software == | == Running the Field Logger Software == | ||
1. Use remote desktop to log onto halld2 using account 'JLAB\halldusers', ask Elliott for password | 1. Use remote desktop to log onto halld2 using account 'JLAB\halldusers', ask Elliott for password | ||
rdesktop halld2 -g 1800x1000 | rdesktop halld2 -g 1800x1000 | ||
2. Double click the shortcut '''Field_Logger''' on the desktop to run the LabVIEW application | 2. Double click the shortcut '''Field_Logger''' on the desktop to run the LabVIEW application | ||
− | + | # Verify that all readings are updating. If some readings are missing, exit the LabVIEW program and reboot related hardware (see system diagram) | |
+ | # Choose the type of file operation (default: open or create) | ||
+ | # Open or Create a data file | ||
+ | # Type in the radius and phi angle of current probe position | ||
+ | # Load the appropriate Z preset file corresponding to current radius | ||
+ | # Use '''Previous''' and '''Next''' to choose the starting Z position if needed | ||
+ | # Move and turn the probes to desired Z position with a very small incline angle (both readings should be in green) | ||
+ | # Click '''Record''' to record current readings | ||
+ | # Continue to next point | ||
==Files == | ==Files == | ||
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Which should also be accessible from the "M:" drive | Which should also be accessible from the "M:" drive | ||
+ | |||
+ | M:\halld-online\Solenoid_Mapping | ||
The file names are formatted to contain the date, start time, phi value, and radius. For example, the following file was: | The file names are formatted to contain the date, start time, phi value, and radius. For example, the following file was: | ||
Line 17: | Line 30: | ||
* tube was at R=0 (i.e. along the center of the magnet). | * tube was at R=0 (i.e. along the center of the magnet). | ||
− | + | Field_Data_20130501_1139_P90_R12_Test.dat | |
+ | |||
+ | The columns of a data file are: radius(inch), phi(deg), Z(cm), Incline(deg), B_x(Gauss), B_y(Gauss), B_z(Gauss), B_axial(Gauss) and Current (A). | ||
+ | And the X,Y,Z directions are defined as | ||
+ | * X: points to the beam left | ||
+ | * Y: points vertically up | ||
+ | * Z: points to the beam dump |
Latest revision as of 17:03, 31 July 2013
Field Mapping System Diagram
Running the Field Logger Software
1. Use remote desktop to log onto halld2 using account 'JLAB\halldusers', ask Elliott for password
rdesktop halld2 -g 1800x1000
2. Double click the shortcut Field_Logger on the desktop to run the LabVIEW application
- Verify that all readings are updating. If some readings are missing, exit the LabVIEW program and reboot related hardware (see system diagram)
- Choose the type of file operation (default: open or create)
- Open or Create a data file
- Type in the radius and phi angle of current probe position
- Load the appropriate Z preset file corresponding to current radius
- Use Previous and Next to choose the starting Z position if needed
- Move and turn the probes to desired Z position with a very small incline angle (both readings should be in green)
- Click Record to record current readings
- Continue to next point
Files
The files are stored on the halld-online group disk here:
/group/halld-online/Solenoid_Mapping
Which should also be accessible from the "M:" drive
M:\halld-online\Solenoid_Mapping
The file names are formatted to contain the date, start time, phi value, and radius. For example, the following file was:
- created on May 1st, 2013 at 11:39am
- the strut was positioned such that the tube positions were along φ=90o
- tube was at R=0 (i.e. along the center of the magnet).
Field_Data_20130501_1139_P90_R12_Test.dat
The columns of a data file are: radius(inch), phi(deg), Z(cm), Incline(deg), B_x(Gauss), B_y(Gauss), B_z(Gauss), B_axial(Gauss) and Current (A). And the X,Y,Z directions are defined as
- X: points to the beam left
- Y: points vertically up
- Z: points to the beam dump