Difference between revisions of "Instruments and Equipments"

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===  Vertical Scan ===
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Gap width <math> \aprox </math>5cm.
  
 
==== Power on  X = 124.5, Y = 150 ====
 
==== Power on  X = 124.5, Y = 150 ====

Revision as of 03:38, 17 January 2011

Magnets

Type 1 Quad (also Quad2A )

Measurement on Magnetic field as a function of current dB/dI

Data File: File:Magnet T1Quad data.txt

ROOTSYS file to analyze this data, create figure and fit: File:Magnet T1Quad cpp.C

Figure and Fit:

T1Quad.png

File:T1Quad.pdf

Type 2 Quad (also Quad2T )

Measurement on Magnetic field as a function of current dB/dI

Data File: File:Magnet T2Quad data.txt

ROOTSYS file to analyze this data, create figure and fit: File:Magnet T2Quad cpp.C

Figure and Fit:

T2Quad.png

File:T2Quad.pdf

Magnet Mappings

Dr. Chouffani's Note

File:Magnet Mappings.pdf

Kiwi Dipole Mappings

File:Kiwi Dipole Magnet Mappings.pdf


Tag Number: 079220

Bending magnet that was to be used with LCS (compact magnets) The horizontal and vertical tranlator have a range for 150 mm i.e. 15 cm.

Power on I = 20.4 A

x (mm) y (mm) B (kG)
127 0 [math] -6.7 \times 10^{-2} [/math]
127 10 -0.106
127 20 -0.169
127 30 -0.2729
127 40 -0.448
127 50 -0.728
127 60 -0.97
127 70 -1.025
127 80 -1.029
127 90 -1.03
127 100 -1.029
127 110 -1.028
127 120 -1.028
127 130 -1.028
127 140 -1.028
127 150 -1.028
y = 150 mm is roughly center of the bend.
127 150 -1.028
127 140 -1.031
127 130 -1.0342
127 120 -1.036
127 110 -1.036
127 100 -1.036
127 90 -1.036
127 80 -1.0355
127 70 -1.03
127 60 -0.977
127 50 -0.7354
127 40 -0.4527
127 30 -0.275
127 20 -0.17
127 10 -0.1066
127 0 -0.0673
Again
x (mm) y (mm) B (kG)
127 0 [math] -0.0672 [/math]
127 10 -0.1062
127 20 -0.1699
127 30 -0.2738
127 40 -0.449
127 50 -0.7283 edge of poles 100 px
127 60 -0.9712
127 70 -1.0253
127 80 -1.03
127 90 -1.03
127 100 -1.0298
127 110 -1.028
127 120 -1.0285
127 130 -1.0286
127 140 -1.0282
127 150 -1.0278



x (mm) y (mm) I B (kG)
127 150 20.1 -1.0279
127 150 30.1 -1.53
127 150 25.1 -1.2916
127 150 20.1 -1.0359
127 150 15 -0.781
127 150 10 -0.534
127 150 5 -0.277
127 150 0 -0.017
Again
127 150 0 -0.01726
127 150 5 -0.266
127 150 10 -0.518
127 150 15 -0.7713
127 150 20 -1.02
127 150 25 -1.272
127 150 30 -1.52


Power on I = 20 A

x (mm) y (mm) B (kG)
135 150 -1.0369
132 150 -1.0379
129 150 -1.0382
126 150 -1.0384
123 150 -1.0385
120 150 -1.0386
118 150 -1.0387
116 150 -1.0388
114 150 -1.039



Vertical Scan

Gap width [math] \aprox [/math]5cm.

Power on X = 124.5, Y = 150

x (mm) y (mm) I (A) B (kG)
124.5 150 20 -1.0388
124.5 150 25.1 -1.2916
124.5 150 20.0 -1.0359
124.5 150 15 -0.781
124.5 150 10 -0.534
124.5 150 5 -0.277
124.5 150 0 -0.017



x (mm) y (mm) I (A) B (kG)
124.5 150 0 -0.01726
124.5 150 5 -0.266
124.5 150 10 -0.518
124.5 150 15 -0.7713
124.5 150 20 -1.02
124.5 150 25 -1.272
124.5 150 30 -1.52




x (mm) y (mm) I (A) B (kG)
124.5 150 0 -0.0123
124.5 150 5 -0.2676
124.5 150 10 -0.516
124.5 150 15 -0.771
124.5 150 20 -1.028
124.5 150 25 -1.2735
124.5 150 30 -1.5217



x (mm) y (mm) I (A) B (kG)
124.5 150 30 -1.5218
124.5 150 25 -1.287
124.5 150 20 -1.037
124.5 150 15 -0.7855
124.5 150 10 -0.5313
124.5 150 5 -0.2747
124.5 150 0 -0.0164



x (mm) y (mm) B (kG)
124.5 140 -1.04
124.5 130 -1.04
124.5 120 -1.0409
124.5 110 -1.041
124.5 100 -1.0411
124.5 90 -1.041
124.5 80 -1.0408
124.5 70 -1.355
124.5 60 -0.9799
124.5 50 -0.74
124.5 40 -0.457
124.5 30 -0.2776
124.5 20 -0.1718
124.5 0 -0.0684


Tag Number: 42125

x (mm) y (mm) I (A) B (kG)
0 0 Power off [math]-3 \times 10^{-4}[/math]
0 0 20 [math]-6 \times 10^{-3}[/math]
111.75 0 20 [math] 0.0405[/math]



x (mm) y (mm) I (A) B (kG)
111.75 10 20 0.0637
111.75 20 20 0.102
111.75 30 20 0.1675
111.75 40 20 0.2774
111.75 50 20 0.4654
111.75 60 20 0.756
111.75 70 20 0.9898
111.75 80 20 1.0312
111.75 90 20 1.0358
111.75 100 20 1.0362
111.75 110 20 1.0363
111.75 120 20 1.0363
111.75 130 20 1.0362
111.75 140 20 1.036
111.75 150 20 1.036



x (mm) y (mm) I (A) B (kG)
111.75 0 20 0.0402
111.75 10 20 0.0635
111.75 20 20 0.1022
111.75 30 20 0.1674
111.75 40 20 0.2773
111.75 50 20 0.4652
111.75 60 20 0.755
111.75 70 20 0.9828
111.75 80 20 1.0312
111.75 90 20 1.0358
111.75 100 20 1.0362
111.75 110 20 1.0362
111.75 120 20 1.03625
111.75 130 20 1.0362
111.75 140 20 1.036
111.75 150 20 1.036



x (mm) y (mm) I (A) B (kG)
111.75 150 0 0.0076
111.75 150 5 0.263
111.75 150 10 0.52
111.75 150 15 0.7754
111.75 150 20 1.0313
111.75 150 25 1.2869
111.75 150 30 1.5389
111.75 150 30 1.5389
111.75 150 25 1.3
111.75 150 20 1.0484
111.75 150 15 0.7945
111.75 150 10 0.534
111.75 150 5 0.276
111.75 150 0 0.01386



x (mm) y (mm) I (A) B (kG)
123.25 150 20 1.0339
120.25.25 150 20 1.0338
117.25 150 20 1.034
114.25 150 20 1.034
111.25 150 20 1.0342
111.25 150 20 1.0343
108.25 150 20 1.0342
105.25 150 20 1.0343
102.25 150 20 1.0344
99.25 150 20 1.03435



x (mm) y (mm) I (A) B (kG)
111.25 150 20 1.0339
111.25 0 20 0.04
111.25 10 20 0.0633
111.25 20 20 0.102
111.25 30 20 0.1671
111.25 40 20 0.2767
111.25 50 20 0.4643
111.25 60 20 0.7544
111.25 70 20 0.9818
111.25 80 20 1.0295
111.25 90 20 1.034
111.25 100 20 1.0344
111.25 110 20 1.0345
111.25 120 20 1.0345
111.25 130 20 1.0345
111.25 140 20 4.0343
111.25 150 20 10.342



x (mm) y (mm) I (A) B (kG)
111.25 0 20 0.04
111.25 10 20 0.0632
111.25 20 20 0.1018
111.25 30 20 0.1669
111.25 40 20 0.2767
111.25 50 20 0.4639
111.25 60 20 0.754
111.25 70 20 0.9816
111.25 80 20 1.0294
111.25 90 20 1.034
111.25 100 20 1.0344
111.25 110 20 1.0344
111.25 120 20 1.0344
111.25 130 20 1.0343
111.25 140 20 4.0342
111.25 150 20 10.342



x (mm) y (mm) I (A) B (kG)
111.25 43 mm 0 [math]3.6 \times 10^{-3}[/math]
111.25 43 mm 5 0.0822
111.25 43 mm 10 0.1615
111.25 43 mm 15 0.242
111.25 43 mm 20 0.3227
111.25 43 mm 25 0.4014
111.25 43 mm 30 0.4793
111.25 43 mm 0 [math]2.8 \times 10^{-3}[/math]
111.25 43 mm 5 0.08
111.25 43 mm 10 0.1613
111.25 43 mm 15 0.242
111.25 43 mm 20 0.3215
111.25 43 mm 25 0.4
111.25 43 mm 30 0.4783


Power supplies

ZUP

User manuals: File:Zup-user-manual.pdf

Other documents:

File:Zup-2.pdf

File:Zup-3.pdf


GENESYS

File:GenesysTM 750W-1500W-manual.pdf

Mapping Quadruple Megenets

2010-Jun-08 (void)

The magnet type: TYPE 2 Quadrupole.

Serial number of the Quad: 09

Insert serial number of Quad to uniquely identify which type 2 was mapped

2010 Jun 8th.jpg


1st Measurement 1st Measurement 2nd Measurement 2nd Measurement 5th Measurement 5th Measurement 6th Measurement 6th Measurement
Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss)
-5.1 -101.78 PS off -6.565
0 -6.045 0 -2.048 0 -6.126
-2.8 -59.82 -2.9 60.73 -2.9 -52.57 -2.9 -58.57
-3.6 -72.93 -3.7 74.81 -3.7 -67.16 -3.7 -71.83
-5.15 -99.285 -5.2 101.41 -5.2 -93.89 -5.2 -98.58
-7.4 -139.77 -7.4 -142.27 -7.4 -135.07 -7.4 -138.62
-9.6 -180.93 -9.6 -183.55 -9.6 -176.37 -9.6 -179.19
-12.6 -237.04 -12.6 -239.73 -12.6 -231.62 -12.6 -233.47
-15.6 -293.36 -15.6 -294.56 -15.6 -286.83 -15.6 -287.94
-18.5 -353.28 -18.5 -350.66 -18.55 -342.02 -18.6 -342.46
-20.8 -392.67 -20.8 -392.62 -20.8 -383.54 -20.8 -383.65
0 -8.94 0 -7.18 0 -8.22
PS off -8.18 PS off -6.45





3rd Measurement 3rd Measurement 4th Measurement 4th Measurement 7th Measurement 7th Measurement 8th Measurement 8th Measurement
Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss)
PS off -8.22 PS off -7.47
0 -8.76 0 -6.8 0 0.389
2.9 48 2.9 54.03 2.9 46.72 2.9 52.69
3.65 62.43 3.65 67.55 3.65 61.40 3.6 66.39
5.1 84.45 5.1 94.78 5.1 87.85 5.1 92.51
7.35 131.09 7.35 135.43 7.35 128.85 7.35 132.43
9.6 172 9.6 175.64 9.6 169.97 9.6 172.44
12.6 228 12.6 230.8 12.6 224.75 12.6 226.44
15.5 284.6 15.5 15.5 280.46 15.5 280.55
18.5 341.5 18.5 241.6 18.5 334.67 18.5 334.89
20.75 384.2 20.75 385 20.75 376.07 20.75 375.93
0 1.586 0 2.78 0 1.601 0 1.67
PS off 0.851 PS off 0.93




Dr. Khalid Chouffani said we there were some other sources around magnet, so we don't use the data on 2010-Jun-08.

2010-Jun-10

The magnet type: TYPE 2 Quadrupole.

Serial number of the Quad: 09


2010 Jun 10th.jpg


Pole #4

1st Measurement 1st Measurement 2nd Measurement 2nd Measurement 3rd Measurement 3rd Measurement 4th Measurement 4th Measurement
Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss)
PS off +0.026 PS off 7.83
-0 0.716 -0 8.13 0 8.27 0 -0.6
-2.9 52.5 -2.9 58.16 2.9 -46.02 2.9 -50.54
-5.9 106.04 -5.9 109.66 5.9 -99 5.9 -102.36
-8.9 159.5 -8.9 161.95 8.9 -152.09 8.9 -154.41
-12.6 226.47 -12.6 227.8 12.6 -218.7 12.6 -220.05
-15.55 280.17 -15.55 280.8 15.55 -272.03 15.55 -272.65
-17.8 320.6 -17.8 320.75 17.8 -311.9 17.8 312.2
-20.0 360.86 -20.0 361.66 20.0 -351.9 20.0 351.88
-0 8.13 -0 8.63 0 -0.6 0 -1
PS off -0.3




Pole #1

1st Measurement 1st Measurement 2nd Measurement 2nd Measurement 3rd Measurement 3rd Measurement 4th Measurement 4th Measurement
Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss)
-0 -9.35 -0 -9.24 0 -7.67 0 1.72
-3 -59.35 -3 -59.4 3 44.96 3 52.13
-6.1 -111.75 -6.1 -111.73 6.1 99.1 6.1 104.41
-9.1 -164.5 -9.1 -164.42 9.15 153.12 9.15 156.95
-12.2 -217.83 -12.2 -217.75 12.2 207.12 12.2 209.8
-15.3 -271.18 -15.3 -271.13 15.3 261.1 15.3 262.8
-18.35 -326.38 -18.35 -324.71 18.4 315.36 18.4 316.4
-20.0 -351.7 -19.9 -352.33 19.9 342.5 19.9 343.06
-0 -9.24 -0 -9.03 0 1.73 0 1.77




Pole #2

1st Measurement 1st Measurement 2nd Measurement 2nd Measurement 3rd Measurement 3rd Measurement 4th Measurement 4th Measurement
Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss)
0 -0.83 0 -0.86 -0 6.45 -0 9.08
3 -52.86 3 -52.94 -3 58.6 -3 61.08
6.1 -106.8 6.1 -106.9 -6.1 112.97 -6.1 115.1
9.2 -160.96 9.2 -161.06 -9.2 167.96 -9.2 169.46
12.3 -215.64 12.3 -215.72 -12.3 223.5 -12.3 224.3
15.4 -270.25 15.4 -270.36 -15.4 279.26 -15.4 279.27
18.5 -325.9 18.5 -325.16 -18.5 335.15 -18.5 334.8
20.0 -352.44 20 -352.47 -20 362.97 -20.05 363.43
0 -0.88 0 -1.377 -0 9. -0 9.16




Pole #3

1st Measurement 1st Measurement 2nd Measurement 2nd Measurement 3rd Measurement 3rd Measurement 4th Measurement 4th Measurement
Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss) Current (Amps) Field (Gauss)
PS off -6.3
-0 -7.2 -0 -7.5 0 3.53 0 3.12
-3.05 -58.4 -3.05 -58.64 3 52.6 3 54.73
-6.2 -111.68 -6.2 -111.9 6.15 106.25 6.1 108.05
-9.25 -165.25 -9.25 -167.28 9.25 160.22 9.25 161.51
-12.35 -219.35 -12.35 -219.56 12.35 215.43 12.4 215.3
-15.55 -273.47 -15.55 -273.52 15.5 269 15.55 270
-18.6 -327.8 -18.6 -327.73 18.6 232.7 (check) 18.6 325.1
-20.1 -355.72 -20.1 -354.85 20.1 350.93 20.15 350.5
-0 -7.5 -0 -7.28 0 3.12



Flag

Light on the flag

5 V. Brown and orange wires are for the light.

Camera on the Flag

12 V. Black and white wires are for the camera.

Air gate on the Flag

Open at 17 V, close at 7 V. Red and green wires are for the air gate.


Red = +17 V and Green = ground?
Green is connected to negative.

Current Camera dimension

Current camera in the flag is placed in the cylindrical tube of the flag. Camera can be slided into the flag, and the distance can be controlled. Camera itself is cylindrical shaped, and placed into a cylindrical tube. The tube has 2 cm of inner diameter and 3 cm of outer diameter. Camera has 2 cm diameter.

Current camera dimension Jul 18th 2010 1.jpg Current camera dimension Jul 18th 2010 2.jpg Current camera dimension Jul 18th 2010 3.jpg Current camera dimension Jul 18th 2010 4.jpg Current camera dimension Jul 18th 2010 5.jpg Current camera dimension Jul 18th 2010 6.jpg

JAI Camera

File:CV-A10GE Manual.pdf

http://www.jai.com/SiteCollectionDocuments/Camera_Solutions_Manuals/Guide_JAI-SFNC-CameraSettings.pdf

software download

http://www.jai.com/EN/CameraSolutions/Download/Pages/JAI_SDK_and_control_tool.aspx

http://www.1stvision.com/cameras/gige-camera-accessories.html


Cable

Part Number: CB-AVT-I/O-xx

Color Coding

PIN#               Color
1..................Brown
2..................Red
3..................Orange
4..................Yellow
5..................Green
6..................Blue
7..................Violet
8..................Gray
9..................White
10.................Pink
11.................Light Green
12.................Black
Shell..............Drain Wire

Rev.3 4/6/10

Hardware Triggering The Camera

Pulse signal need to be send to "TTL IN 1" (pin# 6, Blue), "TTL IN 2" (pin# 7, Violet) or "TTL IN 3" (pin# 10, Pink).

At JAI Camera Control Tool, set

c) Acquisition and Trigger COntrol:
"exposure mode" -> "Pulse-width control"
e) Digital I/O:
"Line Selector" -> "Line Source" -> "Hirose TTL In 1" (or In 2 and In3, depending on wich TTL In signal is being sended.)

JAI Camera Control

JAI Camera Triggering Control.png

Controlling the Camera with Labview

169.254.1.106

134.50.203.196

Third Party Software for JAI GigE Vision Cameras:

[1]

National Instruments - JAI GigE Vision cameras are compatible with NI's Vision Acquisition Software and related image processing modules, including integration with the LabVIEW graphical programming environment.


NI Machine Vision Software

[2]

National Instruments has been a leader in machine vision and image processing for nearly a decade and currently supports thousands of different cameras. To acquire, display, save, and monitor images from cameras, use NI Vision Acquisition software, which is included with all NI frame grabbers and sold separately for FireWire and Gigabit Ethernet image acquisition. To process images, NI Vision software comes in two different packages: the Vision Development Module and NI Vision Builder for Automated Inspection (AI). The Vision Development Module is a collection of hundreds of vision functions for programmers using NI LabVIEW, NI LabWindows/CVI, C/C++ or Visual Basic. Vision Builder AI is an interactive software environment for configuring, benchmarking and deploying machine vision applications without programming. Both software packages work with all NI Vision frame grabbers and the NI Compact Vision System.

Labview error message

LabViewCameErroMes 20101221.png

It looks like the NI software from 2009 was downloaded. There are 2 more recent versions. Perhaps if we use the latest software the error message will go away?


http://joule.ni.com/nidu/cds/view/p/id/2137/lang/en

Found the following link below which has a Camera File for use with NI-IMAQ 3.1 or later Created by: NI Certified Created on: 4/28/2005

http://sine.ni.com/apps/utf8/nipc.product?pid=6902


JAI says that I should upgrade the GiGE firmware. The company does this so I need to send in the camera.

FLEA2 camera

FLEA2 camera uses firewire output which only travel about 15 ft. You can either put the computer in teh same room as the acceleerator and risk rad damage or buy a set of LDF repeater hubs to extend the distance up to 100 m.


FL2-14S3C-C = FLEA2 1394b camera 1/2" CCD C-Mount , $995, File:FLEA2 Datasheet.pdf

FWB-LDR-CAT5 = LDR 800 Mb/s repeater, comes with 2, one for the camera end and one for the computer end, $295 File:LDR FirewireRepeater Datasheet.pdf

DEVKIT = camera software drivers, kit with cables to power and trigger the camera and a PCI card for the PC, $100


External power supply for the camera: http://www.ptgrey.com/products/accessories/misc/ACC-01-9002.pdf

Camera Telescope

HRRL OTR Telescope Stand V1.png

OTR with Al

File:M.Castellan NIM A357 1995 pp231.pdf


Preferred camera:

http://www.ptgrey.com/products/flea2/flea2.pdf


saves images in ASCI format

6 Way Cross

Diameter of the window: 3 inches.

Distance from the 6-way-cross to the floor (Not from the center, but from the bottom window to the floor.): [math]37\frac{1}{4}[/math] inches = 94.615 cm.

The distance from the Center of HRRL beam pipe to the floor is: 106.3 cm

Optics for Emittance Measurement in Feb 2010

Iris

Lens

Diameter: 5 cm.


We can use 3 lens system to hold image directly at the sensing area of the CCD camera. Sensing are of the JAI CCD camera is 6.49(h) x 4.83 (v) mm and field of view of our interest has a diameter of 1 inch.

HRRL Emittance Optics OTR.png

Since OTR is placed 45 degree to vertical plane, one of the dimension of the OTR image actually is 1.796 cm. If we put this to vertical dimension of the camera and put the other dimension of image on the horizontal dimension of the camera, the magnifications we need to hold the view of our interest on the 50% of the sensing area of the camera will be:


[math] M_{v} = \frac{d_i}{d_o} = \frac{0.483 \times 0.5}{1.796} = 0.145 [/math]


[math] M_{h} = \frac{d_i}{d_o}= \frac{0.649 \times 0.5 }{2.54} = 0.128 [/math]


HRRL Emittance Optics Lay Out:

HRRL Emittance Optics Lay Out.png

In this telescope system magnification will be:

[math] M = \frac{f_2}{f_1} [/math]

So, we need to pick 2 lenses with optical length satisfy above ration. From the lower port of the 6-way cross the the floor is 94.6 cm. So, we have 90 cm place to place our camera system. So, I suggest we order camera with focal lens of 50 cm, 20, and 6, cm. These pieces can produce magnification that is small enough for experiment.

To avoid delay of experiment due to possible miscalculation, it is prudent to order 2 more lenses. One of them should be focusing and other one should be defocusing. In that case we can extend our optics as shown in following 2 figures;

HRRL Emittance Optics Lay Out Extended 1.png

HRRL Emittance Optics Lay Out Extended 2.png


Lenses for Basic Optical System Design:

Code Quantity Diameter (inches) Focal Length (cm) Price for Each ($) link
LB1723 - N-BK7 Bi-Convex Lens 1 2 6 30 [3]
LB1199 - N-BK7 Bi-Convex Lens 1 2 20 29 [4]
LB1909 - N-BK7 Bi-Convex Lens 1 2 50 29 [5]


Sub Total Price: $88


Lenses for Extended Optical System Design (Only for Extended Part):

Code Quantity Diameter (inches) Focal Length (cm) Price for Each ($) link
LB1859 - N-BK7 Bi-Convex Lens 1 2 100 29 [6]
LD1613-A - N-BK7 Bi-Concave Lens 1 1 -10 25.90 [7]


Sub Total Price: $ 54.9

Optical Test

Code Quantity Diameter Focal Length (mm) Price for Each ($) link
AX76654 1 51 mm 50 12.5 [8]
AX76960 1 51 mm 65 13.5 [9]
AX27361 (6 lens) 1 50 mm +-167,+-200,+500,-333 11.00 [10]
AX937793 1 50 mm 100 4.1 [11]
AX937795 1 50 mm 200 3 [12]


Sub Total: $44.1 ($30.87, if 30% off)

Cage System ($515.7)

Cage Assembly Rod

Code Quantity Length (inches) Length (cm) Price for Each ($) link
ER2 4 2 5.08 5.9 [13]
ER12 4 12 30.48 16.1 [14]
ER18 4 18 45.72 25.1 [15]


Sub Total Price: $188.4

60 mm Cage Plates

Code Quantity Price for Each ($) link
LCP01 3 31.3 [16]
LCP01T 2 35.50 [17]


Sub Total Price: $164.9

LCP02 - 30 mm to 60 mm Cage Plate Adapter

Code Quantity Price for Each ($) link
LCP02 1 37.8 [18]


Sub Total Price: $37.8


LCP03 - 60 mm Blank Cage Plate

Code Quantity Price for Each ($) link
LCP02 1 32.6 [19]


Sub Total Price: $32.6


Cage Assembly Platforms

Code Quantity Price for Each ($) link
LCP02 1 85.10 [20]


Sub Total Price: $85.1


LCPA1 - 60 mm Cage Alignment Plate

Code Quantity Price for Each ($) link
LCP02 1 15.3 [21]


Sub Total Price: $15.3


Total for Cage System: $524.1


Positrons