Instruments and Equipments
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:
Type 2 Quad (also Quad2T )
Measurement on Magnetic field as a function of current dB/dI
Length of the pole face of Quad2Tin z direction is 8 cm.
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:
Magnet Mappings
Dr. Chouffani's Note
Second Mapping of Quadruple Magnets
Power supplies
ZUP
User manuals: File:Zup-user-manual.pdf
Other documents:
GENESYS
File:GenesysTM 750W-1500W-manual.pdf
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.
JAI Camera
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
Controlling the Camera with Labview
169.254.1.106
134.50.203.196
Third Party Software for JAI GigE Vision Cameras:
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
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
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
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.):
inches = 94.615 cm.The distance from the Center of HRRL beam pipe to the floor is: 106.3 cm
From the center of the 6-way cross to quartz window: 11.685 cm
The distance from the center of the OTR target (also the center of the 6-way cross) to the closest position we place our first lenses is 13 cm.
Edge to edge OTR cone diameter size (
angle, ) at this distance is 2.665 cm.Optics for Emittance Measurement in Feb 2010
Polarizer
Link: [3]
Features
N-BK7 Protective Window AR Coated for Visible Range (400 - 700 nm) High Polarization Efficiency: >99% (see the Plots Tab for Extinction Ratio Data) 0.3 mm Thick Dichroic Polarizing Film Scratch Dig: 40-20
Iris
SM2D25D - Ring-Activated SM2 Iris Diaphragm: [4]
Item # Minimum Aperture Maximum Aperture Mechanism SM2D25D Ø1 mm (Ø0.04") Ø25 mm (Ø0.98") Ring
Ring actuated Irises are designed for integration into a 60 mm cage assembly, where the movement of a lever actuated iris would be hampered by the cage rods.
Price: $75.50
Lens
Diameter: 5 cm.
We can use 3 lens system to hold image directly at the sensing area of the CCD camera. Sensing are of the JAI CCD camera is 6.49(h) x 4.83 (v) mm and field of view of our interest has a diameter of 1 inch.
Since OTR is placed 45 degree to vertical plane, one of the dimension of the OTR image actually is 1.796 cm. If we put this to vertical dimension of the camera and put the other dimension of image on the horizontal dimension of the camera, the magnifications we need to hold the view of our interest on the 50% of the sensing area of the camera will be:
HRRL Emittance Optics Lay Out:
In this telescope system magnification will be:
So, we need to pick 2 lenses with optical length satisfy above ration. From the lower port of the 6-way cross the the floor is 94.6 cm. So, we have 90 cm place to place our camera system. So, I suggest we order camera with focal lens of 50 cm, 20, and 6, cm. These pieces can produce magnification that is small enough for experiment.
To avoid delay of experiment due to possible miscalculation, it is prudent to order 2 more lenses. One of them should be focusing and other one should be defocusing. In that case we can extend our optics as shown in following 2 figures;
Lenses for Basic Optical System Design:
Code | Quantity | Diameter (inches) | Focal Length (cm) | Coating | Price for Each ($) | link |
LB1723-A - N-BK7 Bi-Convex Lens | 1 | 2 | 6 | ARC: 350-700 nm | 30 | [5] |
LB1630-A - N-BK7 Bi-Convex Lens | 1 | 2 | 10 | ARC: 350-700 nm | 29 | [6] |
LB1909-A - N-BK7 Bi-Convex Lens | 1 | 2 | 50 | ARC: 350-700 nm | 29 | [7] |
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 |
LB1199 - N-BK7 Bi-Convex Lens | 1 | 2 | 20 | 29 | [8] |
LD1613-A - N-BK7 Bi-Concave Lens | 1 | 1 | -10 | 25.90 | [9] |
Sub Total Price: $ 54.9
Optical Test
Code | Quantity | Diameter | Focal Length (mm) | Price for Each ($) | link |
AX76654 | 1 | 51 mm | 50 | 12.5 | [10] |
AX76960 | 1 | 51 mm | 65 | 13.5 | [11] |
AX27361 (6 lens) | 1 | 50 mm | +-167,+-200,+500,-333 | 11.00 | [12] |
AX937793 | 1 | 50 mm | 100 | 4.1 | [13] |
AX937795 | 1 | 50 mm | 200 | 3 | [14] |
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 | [15] |
ER12 | 4 | 12 | 30.48 | 16.1 | [16] |
ER18 | 4 | 18 | 45.72 | 25.1 | [17] |
Sub Total Price: $188.4
60 mm Cage Plates
Code | Quantity | Price for Each ($) | link |
LCP01 | 3 | 31.3 | [18] |
LCP01T | 3 | 35.50 | [19] |
Sub Total Price: $164.9
Dear Sadiq, The LCP01T can hold 2" lens. The maximum thickness for the optics would be 17.8mm (the part in contact with the retaining ring). You can find the drawing for the part at http://www.thorlabs.com/Thorcat/21400/21473-E0W.pdf Please let me know if you have any further questions. Best Regards Jeremy Low Technical Support Polaris Low drift mirror mount, one of 2000 new products in V20! Get your catalog at www.thorlabs.com/Catalog THORLABS Inc. T (973) 579-7227 | F (973) 300-3600 www.thorlabs.com - Show quoted text -
LCP02 - 30 mm to 60 mm Cage Plate Adapter
Code | Quantity | Price for Each ($) | link |
LCP02 | 1 | 37.8 | [20] |
Sub Total Price: $37.8
LCP03 - 60 mm Blank Cage Plate
Code | Quantity | Price for Each ($) | link |
LCP03 | 1 | 32.6 | [21] |
Sub Total Price: $32.6
Cage Assembly Platforms
Code | Quantity | Price for Each ($) | link |
LCPM | 1 | 85.10 | [22] |
Sub Total Price: $85.1
LCPA1 - 60 mm Cage Alignment Plate
Code | Quantity | Price for Each ($) | link |
LCPA1 | 1 | 15.3 | [23] |
Sub Total Price: $15.3
Total for Cage System: $524.1
Imaging System Test
Cage system were constructed, and 3 lenses with focal length of 500 mm, 100 mm, and 65 mm used to take image.
Out most ring on the target has a diameter of 27 mm.
Lights and Laser on
Following images are taken within distance of 45 cm (from target to CCD sensor).
Dr. Kim's suggestion: Dear Sadiq, Good Job! If you have some free time, please would you try to improve brightness of the captured image? As you can see, the captured rings are somewhat dark now. If it is needed, you may install a small LED illuminator toward the screen and a light-shielding box around the cage. The bigger lens are also helpful to improve brightness. Sincerely yours, Yujong Kim
Following are images in dark, and laser on the target
Lights on,Laser off
Inner most circle has a diameter of 7 mm.
Lights off,Laser off, Blue LED on
Lights on,Laser off, Blue LED on
Optics for Alinement
4 mirrors (with mounts and stand )
Mount for Ø1" Optics with Visible Laser Quality Mirror
Price: $105.35
http://www.thorlabs.com/thorProduct.cfm?partNumber=KM100-E02
Tot for 4: $421.4
4 (at lest, 6 preferably) Irises (with stand )
Post-Mounted Iris Diaphragm, Ø20.0 mm Max Aperture
Price: $44.00
http://www.thorlabs.com/thorProduct.cfm?partNumber=ID20
Tot for 4: $176
1 focus and 1 defocus lens (with mounts and stand )
N-BK7 Bi-Convex Lenses (AR Coating: 350-700 nm)
http://www.thorlabs.com/thorProduct.cfm?partNumber=LB1945-A
N-BK7 and N-SF11 Bi-Concave Lenses
Price: $29.10
LD1464 - N-BK7 Bi-Concave Lens, Ø25.4 mm, f = -50.0 mm, Uncoated
http://www.thorlabs.com/thorProduct.cfm?partNumber=LD1464
Price: $18.90
Tot: 48
2 Translating Lens Mount for Ø1" Optics
http://www.thorlabs.com/thorProduct.cfm?partNumber=LM1XY
Price: $133.70
For 2: $267.4
1 optical Rail
http://www.thorlabs.com/thorProduct.cfm?partNumber=RLA1200
Price: $69.30
Optical Post
Stainless Steel Optical Posts: Ø1/2", Ø12.7 mm, and Ø12 mm
http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=1266
We Want 4: Ø1/2" x 4" Stainless Steel Optical Post
Price: $5.87
http://www.thorlabs.com/thorProduct.cfm?partNumber=TR4
Tot: 23.48
Ø1/2" Utility Post Holders
http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=1268
We want 10: Post Holder, L = 4.00"
http://www.thorlabs.com/thorProduct.cfm?partNumber=PH4
Price: $9.17
Tot for 8: $91.7
Post Holder Bases
http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=47
2 of BA1 - Mounting Base, 1" x 3" x 3/8" : http://www.thorlabs.com/thorProduct.cfm?partNumber=BA1
Price: $5.60
For 2: $11.2
2 of BA1R - Magnetic Mounting Base, 1" x 3" x 3/8"
Price: $11.20
For 3: $33.6
Total
Energy Slit
Danfysik water cooled Slit model 563, document from vendor:
File:DanfysikSlit563 vandor.pdf
Danfysik water cooled Slit model 563:
Fact Sheet:
File:DanfysikSlit563 FactSheet.pdf
Parts to build control circuit
Parts | Quantity | Digi Key Part No. | Link |
Push button Switch with 2 terminal. On-Off, Off-On. DPST (1-NO, 1-NC). | 1 | [24] [25] [26] [27] | |
12 V DC 0.6 A power supply | 1 | Input 85~264VAC, I_{max}=830mA, $15 [28].
Input 90~264VAC, I_{max}=625mA, $50 [29] | |
0.6~1 Amp fuse | 1 | [30][31][32][33][34]
| |
IN 404 Diode | 2 | 1N4004FSCT-ND | [35] [36] |
57 ohm 0.5 w resistor | 2 | flame redundant coating [37], [38] | |
11V or 12V 50 mAmp LED light (Only 20 mA available) | 2 | 67-1067-ND | [39] |
12V DC relay | 1 | Z2276-ND | [40] |
Cable | A Cable with 13 wire (8 for control, 5 for potentiometer sensor). |
Slit-Aperture vs. Potentiometer-Resistance
Slits has two side: Copper and White metal. There are resistors connected the bolts on the copper side. White metal side has smaller aperture. Thus white metal side should face up stream of the beam line, since this side define beam aperture.
Copper side - Downstream side
This copper side, this measurement is useless.
Slit aperture size (mm) | Resistance at Potentiometer (k | )
39.78 | 0.19.38 | 0.005
37.64 | 0.18.97 | 0.005
35.71 | 0.18.48 | 0.005
33.76 | 0.18.00 | 0.005
31.59 | 0.17.49 | 0.005
29.86 | 0.17.00 | 0.005
27.62 | 0.16.48 | 0.005
25.83 | 0.16.00 | 0.005
23.62 | 0.15.50 | 0.005
21.57 | 0.14.99 | 0.005
19.33 | 0.14.50 | 0.005
17.32 | 0.13.99 | 0.005
15.22 | 0.13.50 | 0.005
12.88 | 0.12.99 | 0.005
10.42 | 0.12.486 | 0.005
8.66 | 0.11.999 | 0.005
This is smallest aperture, yet it is not closed. I don't have tool to measure it. | 0.147 | 0.005
White metal side - Upstream side
This side has white metal, has smaller aperture. This aperture closes. This side should face upstream side of the beam line.
Measurement
Slit aperture size (mm) | Resistance at Potentiometer (k | )
37.60 | 0.19.40 | 0.01
35.80 | 0.19.20 | 0.01
34.95 | 0.19.00 | 0.01
34.25 | 0.18.80 | 0.01
33.38 | 0.18.60 | 0.01
32.49 | 0.18.40 | 0.01
31.80 | 0.18.20 | 0.01
31.03 | 0.18.00 | 0.01
30.37 | 0.17.80 | 0.01
29.31 | 0.17.60 | 0.01
28.55 | 0.17.40 | 0.01
27.69 | 0.17.20 | 0.01
26.94 | 0.17.00 | 0.01
26.10 | 0.16.80 | 0.01
25.33 | 0.16.60 | 0.01
24.51 | 0.16.40 | 0.01
23.48 | 0.16.20 | 0.01
22.66 | 0.16.00 | 0.01
(21.91+21.86+21.92,21.99+22.01+21.85+21.87+21.94)/8 = 21.92 | 0.15.80 | 0.01
21.43 | 0.15.70 | 0.01
21.02 | 0.15.60 | 0.01
20.56 | 0.15.50 | 0.01
20.26 | 0.15.40 | 0.01
19.72 | 0.15.30 | 0.01
19.35 | 0.15.20 | 0.01
18.91 | 0.15.10 | 0.01
18.68 | 0.15.00 | 0.01
18.09 | 0.14.90 | 0.01
17.83 | 0.14.80 | 0.01
17.42 | 0.14.70 | 0.01
16.93 | 0.14.60 | 0.01
16.47 | 0.14.50 | 0.01
16.06 | 0.14.40 | 0.01
15.60 | 0.14.30 | 0.01
15.23 | 0.14.20 | 0.01
14.96 | 0.14.10 | 0.01
14.47 | 0.14.00 | 0.01
Measurement Data
File:Energy Slit Size-vs-PotReistance.txt
Slit aperture Resistance at size (mm) Potentiometer (kΩ) with error with error --------------------------- 37.60 0.1 9.40 0.01 35.80 0.1 9.20 0.01 34.95 0.1 9.00 0.01 34.25 0.1 8.80 0.01 33.38 0.1 8.60 0.01 32.49 0.1 8.40 0.01 31.80 0.1 8.20 0.01 31.03 0.1 8.00 0.01 30.37 0.1 7.80 0.01 29.31 0.1 7.60 0.01 28.55 0.1 7.40 0.01 27.69 0.1 7.20 0.01 26.94 0.1 7.00 0.01 26.10 0.1 6.80 0.01 25.33 0.1 6.60 0.01 24.51 0.1 6.40 0.01 23.48 0.1 6.20 0.01 22.66 0.1 6.00 0.01 21.92 0.1 5.80 0.01 21.43 0.1 5.70 0.01 21.02 0.1 5.60 0.01 20.56 0.1 5.50 0.01 20.26 0.1 5.40 0.01 19.72 0.1 5.30 0.01 19.35 0.1 5.20 0.01 18.91 0.1 5.10 0.01 18.68 0.1 5.00 0.01 18.09 0.1 4.90 0.01 17.83 0.1 4.80 0.01 17.42 0.1 4.70 0.01 16.93 0.1 4.60 0.01 16.47 0.1 4.50 0.01 16.06 0.1 4.40 0.01 15.60 0.1 4.30 0.01 15.23 0.1 4.20 0.01 14.96 0.1 4.10 0.01 14.47 0.1 4.00 0.01
Slit aperture with their size (mm) errors with Resistance at Potentiometer (kΩ) S(mm) R(kΩ) er_S(mm) er_R(kΩ) ---------------------------- 37.6 9.4 0.1 0.01 35.8 9.2 0.1 0.01 34.95 9 0.1 0.01 34.25 8.8 0.1 0.01 33.38 8.6 0.1 0.01 32.49 8.4 0.1 0.01 31.8 8.2 0.1 0.01 31.03 8 0.1 0.01 30.37 7.8 0.1 0.01 29.31 7.6 0.1 0.01 28.55 7.4 0.1 0.01 27.69 7.2 0.1 0.01 26.94 7 0.1 0.01 26.1 6.8 0.1 0.01 25.33 6.6 0.1 0.01 24.51 6.4 0.1 0.01 23.48 6.2 0.1 0.01 22.66 6 0.1 0.01 21.92 5.8 0.1 0.01 21.43 5.7 0.1 0.01 21.02 5.6 0.1 0.01 20.56 5.5 0.1 0.01 20.26 5.4 0.1 0.01 19.72 5.3 0.1 0.01 19.35 5.2 0.1 0.01 18.91 5.1 0.1 0.01 18.68 5 0.1 0.01 18.09 4.9 0.1 0.01 17.83 4.8 0.1 0.01 17.42 4.7 0.1 0.01 16.93 4.6 0.1 0.01 16.47 4.5 0.1 0.01 16.06 4.4 0.1 0.01 15.6 4.3 0.1 0.01 15.23 4.2 0.1 0.01 14.96 4.1 0.1 0.01 14.47 4 0.1 0.01
Linear Fit for Data
Data for 37.6 mm aperture was excluded from fit because it is far off from the straight line (manufacture claims biggest aperture is 35 mm, could be we are exceeded this value).
S(mm) R(kΩ) er_S(mm) er_R(kΩ) 37.6 9.4 0.1 0.01
Pot resistance vs Aperture size
The fit is:
When units are mm for Slitize (S), k
Resistance (R)
Aperture size vs Pot resistance
The fit is:
or, when units are mm for Slitize (S), k
Resistance (R)
Control Circuit
Design:
Power Supply
Old PS
Old Power Supply: Max Current = 0.83 A: This PS does not have sufficient current supply. When we drive motor, we need current of 1 Amp. When the motor just started, current can go up as 1.7~1.8 Amp. So, we need PS with 12 VDC and Max current around 1.7~1.8 Amp.
New PS
Option 1
Price: $16.64.
Input:90 ~ 264VAC.
Output - 1 @ Current (Max): 12 VDC @ 1.67A
Size / Dimension: 3.5" L x 2" W x 0.85" H (89.1mm x 51mm x 21.6mm)
Power (Watts) - Max: 20 W
Option 2
http://search.digikey.com/us/en/products/ZPSA20-12/285-1747-ND/1766384
Price: $21.93.
Voltage - Output 12V
Number of Outputs 1
Power (Watts) 20W
Applications Commercial
Power Supply Type Switching (Open Frame)
Voltage - Input 85 ~ 264VAC
Mounting Type Chassis Mount
Output - 1 @ Current (Max) 12 VDC @ 1.8A
Size / Dimension 3.5" L x 2" W x 0.79" H (88.9mm x 50.8mm x 20mm)
Original Design:
Digikey order
http://search.digikey.com/us/en/products/ZPSA20-12/285-1747-ND/1766384
part | number | link |
circuit breaker chip | 5 | [42] |
MOSFET N-channel | 5 | [43] |
zener 5V | 10 | [44] |
capacitor 10uF | 5 | [45] |
capacitor .22uF | 5 | [46] |
resistor 51kohm | 5 | [47] |
resistor 100ohm | 5 | [48] |
resistor 1ohm 5W | 5 | [49] |
resistor 0.036ohm | 3 | [50] |
zener 15 V | 5 | [51] |
diode | 5 | [52] |
MOSFET 70 mohm | 5 | [53] |
solenoid 12V | 1 | [54] |
Beam Pipe for Quad7
Need to order 2 flanges from Duniway (www.duniway.com):
1. F450-200 R
2. F458-000 N
3rd JLab Flag
The third Jlab flag does not have switch. We can not control remotely with electronically.
Applying pressure to upper gas inlet of the flag will push target holder into the 3-way cross. Without pressure, holder goes back.
We can control by gas pressure. If we have long enough pipe for gas, we can control it remotely.
JLab flag is missing one 458 (10 hole) flange. We need buy it, if we are using it.