fermilab...fermilab tm-632 2200.000 ferrnilab magnets, power supplies, and auxiliary devices:...
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Fermilab
TM-632 2200.000
Ferrnilab Magnets, Power Supplies, and Auxiliary Devices:
Technical Data
T. Toohig December 5, 1975
An attempt is made in the attached data sheets to draw
together the basic descriptions and parameters of standard
hardware in use in Fermilab experimental areas. The primary
user envisaged is the physicist involved in beam transport
calculations, design of experiments and beam tuning. The
parameters chosen for display reflect this orientation.
f Bdi L
Ideally excitation curves would be long coil measurements,
. f Gdi for dipoles or ~L~ for quadrupoles. These curves are
not available in every case. The nearest approximation to the
ideal have been included where the long coil measurements are
not available. Wherever possible references are included to
the sources of the data displayed.
This initial version of the report covers the most common
dipoles and quadrupoles in use in the experimental areas.
Subsequent revisions will extend to analysis magnets, more
specialized magnets, power supplies, and auxiliary devices as
sheets become available.
The "author" is merely a compiler of the work of many
people. No credit is claimed other than the credit for mistakes,
omissions, etc. Comments, corrections, etc. would be helpful
in producing a more useful document.
-2-
INDEX
~. Magnets
I. Dipoles, conventional
5-1.5-240 Main Ring Bl
4-2-240 Main Ring B2
5-1.5-120 EPB Dipole
6-3-120 Beam Line Dipole
4-4-30 Vernier Dipole
II. Quadrupole Magnets
3Q52 4-foot Main Ring Quadrupole
3Q84 7-foot Main Ring Quadrupole
3Ql20 EPB Quadrupole
4Ql20 Beam Line Quadrupole
3Q60 EPB Quadrupole
III. Analysis M~gnets
BM109 Analysis Magnet
B. References
TM-632 2200.000
Design Field Power(dc) Current Voltage
Transfer Constant Inductance Gross Weig ht Water Flow
-3-
5-1.5-240 MAIN RING B-1 DIPOLE
1.788 T 133 kW
4.750 kA
Pressure Differential
28.1 v 2.589 T/kA
6.47 mH 11727 kg 3066 liters/hr
13.71 kg/cm2
-1 l~~·~~cm TUBE
64.lcm CORE
TM-632 2200.000
2..2
2.0
1.8
1.6
1.4
Ef 1.2 1-!.f E -:Of_.1.0 g;,
0.8
Q6
0.4
0.2
0 2
- 4 -
5-1.5-240 8-1 DIPOLE
TM-632
L= physical core length = 6.071 m
3 4 5 6 7 8 9 Current (kA) 11-18-75
Design Field Power(dc) Current ·voltage
Transfer Constant Inductance Gross Weight Water Flow
Pressure Differential
9.911 VAC.
·TUBE
64.lcm---' CORE
- 5 -
4-2-240 MAIN RING B-2 DIPOLE
IJ88 T 162 kW
4.750 kA 34.0 v
2.589T/kA 7.95 mH
11455 kg 3406 liters/hr
13.71 kg/cm2
TM-632 2200.000
2.2
2.0
1.8
1.6
1.4
- 1.2 ~le -~l_J 1.0
. .....,
0.8
0.6
0.4
0.2
0
- 6 -
4-2-240 8-2 DIPOLE
TM-632
.l.d--I(kA)=2.469 SB·dl ( T·m) . . L m
L = physical core length = 6.071 m
2 3 4 5 6 7 8 9 Current (kA) 11-18-75
Design Field Power {de) Current Voltage
Tran sf er Constant Inductance Gross \A/eight Vv ater Flo\AJ
Pressure Differential
- 7 -
5-1.5-120 EPB DIPOLE
1.5 T 50kW
1.688 kA 29.5 v
1.0T/kA 30.0 mH
2558.3 kg 1072 liters/hr 7.03 kg/cm2
'"-----'40.Gcm CORE
TM-632 2200.000
7 ,t?J'b-<..0
/~·o~~ / 0 cP
-.-------+~-t-e-..+!l""----------C...-
12.45cm VAC. TUBE (INT. DIM.)
-l-....._,
'"C
cb __.
~
II
ICD
1.8
1.7
1.6
1.5
1.4
1.3
1.2
I . I
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
- 8 -
5-1.5-120 EPB DIPOLE
I (kA) = 0.970 B(T}
ref: TM434
TM-632
.2 .4 .6 .8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 I(kA)
Design Field Power(dc) Current Voltage
Tran sf er Constant Inductance Gross Weight Water Flow
- 9 -
6-3-120 BEAM LINE DIPOLE
1.5 T 47. I k\ft/ .975 kA 48.4 v
1.5385 T/kA 153mH
10,236 kg
Pressure Differential 3200 liters/hr
14.1 kg/cm2
49cm COIL
2.97cm
fVAC. TUBE (INT. DIM.)
14.43cm VAC. TUBE (INT. DIMJ
70cm CORE
TM-632 2200.000
65.4cm CORE
- 10 - TM-632
9.0-------.....-----..----,...__-------
8.0
7.0
6.0
E s.o ~
~ 4.0 co ~
3.0
2.0
1.0
6-3-120 BEAM LI NE DIPOLE
I(kA) = 0.195 SB ·di (T·m)
ref:TM 607
0 .2 A .6 .8 1.0 1.2 1.4 1.6 1.8 2.0 22 2.4 2.6
I(kA)
Design Field Power(dc) Current Voltage
Transfer Constant Inductance Gross Weight Water Flow
Pressure Differential
29.5cm COIL
l
- 11 -
4-4-30 VERNIER DIPOLE
0.4 T 9 kW
0.18 l<A 50 v 0.4 T/kA
mH 462 kg 1454 liters/hr
6.3 kg/cm2
39.7cm CORE
~,____ 9.83cm 1.0. VAC.TUBE
TM-632 2200.000
20.95cm CORE
;;J,
11-18·75
Note: Drawn double the scale of other data sheet magnets.
.6
.5
.4
~ .3 I-..._.... ID
.2
.I
0 40
- 12 -
4-4-30 VERNIER DIPOLE
TM-0632
80 120 160 200
I(A)
11·24·75
- 13 -
3052 TM-632 2200.000
MAIN RING QUADRUPOLE
Design Field Gradient Power(dc) Current Voltage
Transfer Constant Inductance Gross Weight Water Flow
Pressure Dif ferentia I
44.7cm 31.9cm CORE COIL
25T/m 56 kW
4.630 l<A 12.1 v
3.12 T/m/kA 0.8 mH
2722 kg 1340 liters/hr 14.06 kg/cm2
7.620 cm dia circle POLE TO POLE VAC. TUBE 1.0.
11·3-75
35.0
30.0
25,.0
E 20.0
~ 15.0
10.0
5.0
- 14 - TM-632
3Q52 MAIN RING QUADRUPOLE
0 1.0 2.0 3.0 4.0 5.0 6.0 7.0
Current ( kA)
lr-4·75
Design Field Gradient Power (de) Current Voltage
Transfer Constant Inductance Gross Weight Water Flow
- 15 -TM-632
3084 2200. 000
MAIN RING QUADRUPOLE
25T/m 96.5 kV\I
4.630 kA 20.8 v 3.12T/m/kA
1.3 mH 4082kg
Pressure Dif ferentia I 152 2 liters/hr 14.06 kg/cm2
44.7cm CORE
l 31.9cm COIL
7.620 cm dio circle POLE TO POLE VAC. TUBE I. 0.
35.0
30.0
25.0
- 20.0 E ~ - 15.0
10.0
5.0
- 16 -
3084 MAIN RING QUADRUPOLE
0 1.0 2.0 3.0 4.0 5.0 6.0 7.0
Current ( kA)
TM-632
Design Field Gradient Power(dc) Current Voltage
Transfer Constant Inductance Gross \\'eight Water Flow
- 17 -
30120 EPB QUADRUPOLE
18.898T/m 24.l kW
0.104 kA
Pressure Differential
234 v 5.3848xtC53 T /m/kA
1500 mH 3125.25 kg
681.4 liters/hr 5.78 kg/cm2
-7.30cm VAC.TUBE
l.D.
TM-632 2200.000
- 18 -
20--..--------------------------------
18
16
14
12
-~ 10 ._: -
8
6
4
2
3Ql20 EPB QUADRUPOLE
I(kA)=5.3848x l0-3 G(T/m) .
0 20 40 ·Go 80 100 120
I(A)
TM-632
- 19 -
40120 BEAM LINE QUADRUPOLE
Design Field Gradient Power {de) Current Voltage
Transfer Constant Inductance Gross VJeight Water Flow
Pressure Differential
87.Gcm CORE
13.06cm VAC. TUBE (INT. DIM.)
21.65 Tim 50.3 kW 1.175 kA 42.8 v
1.8431 T/m/kA 74.4 mH
11863.6 kg 1455.87 liters/hr
7.031 kg/cm2
58.42cm CORE
TM-632 2200.000
-(/) +-·-c :J ~ "'-e +-p-.0 "-c -'U . (.9 ~
10
9
8
7
6
5
4
3
2
0 .100
- 20 - TM-632
40120 BEAM LINE QUADRUPOLE
.500
I(kA)
per John Elias
1.000
- 21 -
3060 5 FT. EPB QUADRUPOLE
Design Field Gradient Power (de) Current
18.898 T/m 12 (\\A/
0.104 kA 117 v
TM-632 2200.000
Voltage Transfer Constant Inductance
5.38 x 10-3 T /m/kA
Gross \\!eight Water Flow
Pressure Differential
' ~---t-.r-~ 43.2cm 30.5cm CORE COIL
- ' 7.30cm
VAC.TUBE l.D.
rnH 1630 kg 340 liters/hr 5.78 kg/cm2
- 22 - TM-632
20----------------------------------,.------3060
18 5 FT. EPB QUADRUPOLE
16
14
12
-E 10 ~ - I{kA) =5.3848x 10-3 G(T/m)
8
6
4
2
0 20 40 60 80 100 120
I(A)
24-D-72 BM 109 ANALYSIS MAGNET
Design Field Power (de) Current Voltage
Tran sf er Constant Inductance Gross Weight Water Flow
Pressure Differential
Note: Data for 20.3 cm gap
~ 20.3cm
GAP /
t f.14m COIL
"
-
(
1.8 Tim 232 kW 2.7 kA 86 v
1.58 T/kA mH
46266 kg 5724 liters/hr 248 kg/cm2
.~ ori~«' ())\\..
~J>\\..~o
" ~/~ I
/ // ,.,
'
( ),.\
_.)...)
,__60.9cm--... GAP
2.387m CORE
1 ... ""
II I/
"' ~
1}"
'"'"' i...
1/ ~
~ I
TM-632 2200.000
- 23 -
1.32 rr l.;11 CORE
I/
~
I Li II
l.83m
/CORE
- 24 - TM-632
1.8 24-0-72 BM 109 ANALYSIS rvlAGNET
1.6
1.4
1.2
1.0
- I(kA)= 1.581 B(T) I-m o.8 .
0.6
0.4
0.2 from: Akerlof
0 .5 1.0 1.5 2.0 2.5 3.0
I{kA)
- 25 -
References TM-632 2200.000
5-1.5-240 Main Ring Bl Dipole and 4-2-240 Main Ring B2 Dipole
1. "Bending Magnets of the NAL Main Accelerator", IEEE Trans. Nucl. Sci.; NS-18, No. 3, 863-6 (June 1971), H. Hinterberger, J. Satti, C. Schmidt, R. Sheldon, R. Yamada.
2. "Design & Magnetic Measurement of the NAL Main Accelerator Bending Magnets", IVth International Conference on Magnet Technology, {CONF-720908, pp 423-432), Upton, N.Y. {Sept. 19, 1972), R. Yamada, C. Schmidt, R. Juhala, R. Lari.
3. TM-474 (0402) "Dipole Measurement Data Analysis", A.G. Ruggiero, February 20, 1974.
4. TM-424 (0422) "Measurements of Inductance and Resistance, Main Ring Dipole and Quadrupole Magnets", R. Juhala and J. Pachnik, June 19, 1973.
5. Data Sheet EM7027, W.W. Nestander, Revised June 17, 1971.
6. Assembly Drawing: 0423.11-ME-14926 dated 12-14-70.
7. Specifications: W. Brobeck & Assoc., Bending Magnet Parameters, Job 200.1.31, Revised June 17, 1970.
8. TM-440 "Field Measurements on 3-foot B2 Reference Magnet", R. Juhala, September 7, 1973.
9. TM-402 "Stray Field Measurements on B2 Dipoles, EPB Quads and Vernier Magnets", A. W~itsch, December 4, 1972.
5-1.5-120 EPB Dipole
1. TM-434 (0621. 05) "EPB Dipole Magnetic Field Measurements", R. Juhala, July 26, 1973. Revision September 10, 1973.
2. Memo "Profiles and Excitation Curve for 'Typical' B-T Dipole", T. White, July 5, 1972.
3. Data Sheet: F. Mallie, Revision April 20, 1973.
4. Assembly Drawing: 0621-ME-19417 dated 7-24-70.
5. Specification: Proton Beam Quadrupole Magnets, Technical Specification 0621-ES-19434, Revision December 1, 1970, W. Hanson.
6-3-120 Beam Line Dipole
1. TM-607 (2920) "Field Measurements on a 6-3-120 Dipole Magnet", D. Krause and G. Koizumi, August 26, 1975.
2. Data Sheet: (2220.10) S. Snowdon and H. Stredde, Revision May 28, 1985.
- 26 -
References (continued)
3. Assembly Drawing: 2220.100-ME-27730 dated 2-6-74.
TM-632 2200.000
4. Specifications: 2220.100-ES-27758, Revision C, April 15, 1975, E. Kneip.
4-4-30 Vernier Dipole
1. Data Sheet: F. Mallie. Data Sheet - Illustrated: F. Mallie, March 16, 1971.
2. Assembly Drawing: 2920-ME-30148 dated 9-8-71.
3Q52 4-foot Main Ring Quadrupole and 3Q84 7-foot Main Ring Quadrupole
1. "Quadrupole Magnets at the NAL Main Accelerator", IEEE Trans. on Nucl. Sci.; NS-18, No. 3, pp 857-859 (June 1971}, H. Hinterberger, S. Pruss, J. Satti, J. Schivell, C. Schmidt, R. Sheldon.
2. TM-424 (0422} "Measurements of Inductance & Resistance, Main Ring Dipole & Quadrupole Magnets", R. Juhala and J. Pachnik, June 19, 1973.
3. Data Sheet: 3Q52, EN7027 (2220.0} W. Nestander, Revised November 15, 1972.
4. Data Sheet: 3Q84, EN7027 (2220.0) W. Nestander, Revised November 15, 1972.
5. Assembly Drawing: 3Q52, 0424.12-ME-14928 dated 12-14-70.
6. Assembly Drawing: 3Q84, 0424.11-ME-14927 dated 12-14-70.
3Ql20 EPB Quadrupole and 3Q60 5-foot EPB Quadrupole
1. "Design of NAL External Beam Line Quadrupoles", IVth Inter. Conf. on Magnet Technology; (CONF-720908, pp 407-414}, Upton, N.Y. (Sept. 19, 1972), F. Ascolese, R. Billinge, H. Edwards, w. Hanson, R. Juhala, A. Maschke, J. Michelassi, P. Reardon, S. Snowdon.
2. Memo "3Ql20 Quadrupole Magnet Data", J. O'Meara to W. Nestander, November 19, 1974.
3. Excitation Measurements, R. Juhala, May 10, 1972.
4. Data Sheet: F. Mallie, May 15, 1972.
5. Assembly Drawing: 0624-ME-19414 dated 4-4-70.
6. Specifications: Proton Beam Quadrupole Magnets, Technical Specification 0624-ES-19654, Revision December 9, 1970, H. Edwards.
- 27 -
References (continued)
4Ql20 Beam Line Quadrupole
1. Data Sheet: S. Snowdon, Revised 10-28-74.
TM-632 2200.000
2. Specification: "Technical Specification 2221-ES-27487 for 4Ql20 Quadrupole Magnet for the Experimental Areas", September 24, 1973, Revision C April 2, 1974, E. Kneip.
BM109 Analysis Magnet
1. University of Michigan Experimental Note "Measurement of Magnetic Field in NAL 24 x 8 x 72 Magnet", C. Akerlof, L. Barak, P. Caldwell, R. Kotthaus, D. Meyer, D. Nitz, G. Raf fel.
2. Data Sheet: J. O'Meara, Revised August 1, 1975.
3. Assembly Drawing: 5522-ME-27086 dated 4-20-71.
4. Engineering Note: "B/I for 24 x 8 x 72 Bending Magnet (El Cheapo):', R. McCracken, August 21, 1972.