Privacy and Security Notice

Cable list for polarized ³He target

15 April 2001

 
 
 
 
 
 
 
 
 
 

Consulting Person	Color
Kevin Kramer	(KK)
Nilanga Liyanage	(NL)
Kathy McCormick	(KM)
Xiao-Chao Zheng	(XC)
Xiao-Feng Zhu	(XF)

 
 
 

No.	Type	Conduc-	Description	location			Length	Terminators		Up-
		tors		PP	H	C	(ft)			date
1	$\parbox{15mm}{6-wire\\ phone}$	7$\times$6	Laser control signals from VMIC 6016 card (E-rack) to Coherent lasers (New) in laser hut		$\bullet$		125	6$\times$RJ-12 black-ground-5 green-read-2 red-write-3	DB9(male)	KM $\star$
2	STP	14 p	Analog data from (Opto-Power) Laser controller in laser hut to VME ADC (HP1313A)		$\bullet$		125	none	none	KM (?)
3	$\parbox{15mm}{6-wire\\ phone}$	1$\times$6	laser helicity control, from VMIC 6016 card (E-rack) to the stepper motor controller in laser hut		$\bullet$		120	RJ-12	screw terminal	KM $\star$
4	STP	3 p	3$\times$RS-232 channels from VME serial card (VMIC 6016) to Omega oven controller	$\bullet$	$\bullet$	$\bullet$	400	3$\times$RJ-12	3$\times$RJ-12	XF
5	UTP	1 p	Interlock signal from Omega oven control box to laser controller in laser hut	$\bullet$	$\bullet$	$\bullet$	425	none	none	XF
6	RG-213	1	Video signal from camera in laser hut to monitor in target control area upstairs	$\bullet$	$\bullet$	$\bullet$	425	BNC	BNC	XF
7	UTP	2 p	Analog signal (4-20 mA) and 15V power (50 mA) from oven air flow sensor (Omega FMA-905) to oven heater control box	$\bullet$	$\bullet$	$\bullet$	475	(Omega)	none	XF
8	$\parbox{15mm}{T/C \\ wire}$	1 p	Thermocouple signal from oven heater thermocouple to oven heater control box. Wire already bought!	$\bullet$	$\bullet$	$\bullet$	400	(SMP)	(SMP)	XF
9	$\parbox{15mm}{Line \\ power}$	3	120VAC line voltage from oven heater relay box (hall) to oven heater element (800 Watts max.)		$\bullet$		60	Line plug	Line recept.	XF
9a	UTP	2 p	SSR drive signal (0-5 VDC) and interlock relay control signal from oven heater control box to oven heater relay box	$\bullet$	$\bullet$	$\bullet$	425	none	none	XF
10	STP	2 p	Temperature signal from oven RTD to oven heater control box	$\bullet$	$\bullet$ female	$\bullet$ male to oven heat control-box	400	none pin map: a+b=a+b=red+black c=c=white d=d=0	none	XF

No.	Type	Conduc-	Description	location			Length	Terminators		Up-
		tors		PP	H	C	(ft)			date
11	UTP	7 p	Logic control signals and status feedback from valve controller upstairs to valve controller downstairs	$\bullet$	$\bullet$	$\bullet$	400	none	none	NL
11a	UTP?	7 p	From valve controller downstairs to valve solenoid driver		$\bullet$		short	none	none	NL
12	UTP?	7 p	Status signals from valve controller downstairs to valve controller upstairs	$\bullet$	$\bullet$	$\bullet$	400	none	none	NL
12a	UTP?	7 p	Status signals from solenoid valves to valve controller downstairs		$\bullet$		short	none	none	NL
14	STP	14 p	Analog data from RTD (10 p) and current signal conditioners (DC current pick-up's for hatings gauge & Baratron high, Acromag A5B34, 2 p) to VME ADC (HP1313A)		$\bullet$		100 pin map for  RTD connector 7-RTD-for-target-cell #7-ed/cb-redblack/greenblack #6-rp/nm-whiteblack/blueblack #5-fj/gh-redblack/redblue #4-qz/yx-blackgreen/blueblack #3-lk/jh-brownblack/whiteblack? #2-gf/de-yellowblack?/whitered #1-cb/at-orangeblack/red/green	none RTD#7-1-e/c-red/black                -2-d/b-red/black RTD#6-3-r/n                -4-p/m RTD#5-5-f/g-6-j/h RTD#4-7-o/y-8-z/x RTD#3-9-l/j-10-k/h RTD#2-11-g/d-12-f/e RTD#1-14-c/a-15b/t for reference cell  3 rtds RTD1-1-pin1/2-2-3/4-red/black RTD2-3-pin5/6-4-7/8-red/black RTD3-5-pin9/10-6-11/12-red/black	none	NL
15	UTP	1 p	Analog signal (4-20 mA) from Baratron low pressure transducer to current signal conditioner (Acromag A5B34)		$\bullet$		15	none	none	NL
16	UTP	1 p	Analog signal (4-20 mA) from Baratron high pressure transducer to current signal conditioner (Acromag A5B)		$\bullet$		15	none	none	NL
17	UTP	25	Signasl from reference cell control box (hall) to the remote panel (in counting house)	$\bullet$	$\bullet$	$\bullet$	400	DP25	DP25	NL $\star$
19	STP	$\parbox{15mm}{20 p \\ (14 p)}$	Analog signals from target RTDs to RTD signal conditioner (Acromag A5B34)		$\bullet$		60	none	none	KK
20	AWG 10	4	Power (36V/12A) from Kepco power supply to longitudinal Helmholtz coil		$\bullet$		60 a-outs b c d-coms	none	none	KK $\star$
21	RG-213	1	Q-curve signal from Q-curve coil (target region) to the RF generator	$\bullet$	$\bullet$	$\bullet$	475	BNC	BNC	KK
22	$\parbox{15mm}{Belden\\ 9536}$	6, shld	From flux gate magnetometer sensor (Bartington Mag03MC)(target area) to power supply unit (Bartington Mag03PSU) (electronics rack downstairs)		$\bullet$		60	(spcl)	(spcl)	XC $\star$
23	AWG 10	4	Power (36V/12A) from Kepco power supply to transverse Helmholtz coil		$\bullet$		60	none	none	KK $\star$
24	RG-213	1	RF signal from RF amplifier to RF coils	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	KK
25	AWG 10	2	Gradient field signal (7A) from power supply (upstairs) to the gradient coil (target region)		$\bullet$		475	none	none	KK
26	RG-213	1	NMR signal from NMR pre-amp to lock-in amplifier	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	KK
27	RG-213	1	RF signal from EPR VCO to EPR coils	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	XC
28	RG-213	1	EPR signal from EPR photodiode to EPR lock-in ampliifier	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	XC
29	STP	2 p	Cooling jet gas flow signal from hastings gas flow sensor (target area) to data display (Omega DP25, on the electronics rack)		$\bullet$		60	DP15	DP15	NL $\star$

No.	Type	Conduc-	Description	location			Length	Terminators		Up-
		tors		PP	H	C	(ft)			date
31	STP	1 p	Analog data from cooling jet gas flow readout (elec. rack) to VME ADC (HP1313A) (elec. rack)		$\bullet$		30	DP15	DP15	NL $\star$
33	18 AWG	6	Control signals and power from target motion controller (connector J1B)(elec. rack) to target ladder motor (target area)		$\bullet$		60	(spcl)	(spcl)	KM
34	20 AWG	3	Limit control signals from target ladder motor (target area) to target motion controller (elec. rack)		$\bullet$		60	(spcl)	(spcl)	KM
38	UTP	1 p	FSD interlock signal from cooling jet gas flow displays (Omega DP25) to FSD node		$\bullet$		100(?)	P2	P2	NL
39	UTP	1 p	FSD signal from target motion controller (red bx) to FSD node		$\bullet$		100(?)	P3 MIL	P3 MIL	KM
40	RG-213	1	Control signal for longitudinal Helmholtz coil, from field feedback box to Kepco power supply (elec. rack)	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	KK $\star$
41	RG-213	1	Control signal for transverse Helmholtz coil, from field feedback box to Kepco power supply (elec. rack)	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	KK $\star$
42	RG-213	2	Field feedback signals from flux gate magnetometer power supply unit (Bartington Mag03PSU) to field feedback box	$\bullet$	$\bullet$	$\bullet$	400	BNC	BNC	XC $\star$
43	RG-213(?)	1	Field feedback compensation coil current monitoring, from compensation coil (target area) to HP3458A multimeter (elec. rack)		$\bullet$		60	BNC(?)	BNC	XC $\star$
44	STP	4 p	Ethernet connection for the computer in the laser hut		$\bullet$		100	RJ-45	RJ-45	KK $\star$
45	RG-213	1	BeO target monitoring, video signal from camera in target region to monitor upstairs	$\bullet$	$\bullet$	$\bullet$	425	BNC	BNC	XF
46	RG-213	1	NMR pre-amplifier monitoring, video signal from camera in target region to monitor upstairs	$\bullet$	$\bullet$	$\bullet$	425	BNC	BNC	XF
47	6-wire phone	1	IOC connection (VME crate) to target lifting motor controllor (elec. rack)		$\bullet$		6	RJ-12	none	KM $\star$
48	50 wire IPAC cable	1	Laser control signal from Opto-Power lasers (Old) inside the laser hut to the IPAC connectors on the IOC (E-rack)		$\bullet$		20	P2(f)	P2(f)	KM $\star$
50	STP	13 p	from S2000 spectral analyzer (target area) to ADC1000 card in the PC (downstairs)		$\bullet$		60	(spcl)	(spcl)	KM $\star$
51	RG-213	1	KEPCO monitoring, video signal from electronic rack next to laser hut to monitor upstairs (optional)	$\bullet$	$\bullet$	$\bullet$	425	BNC	BNC	XF

Figure 1: Schematic diagram of the laser, temperature control, and reference cell electronics. The circled numbers correspond to the cable list given on pages 1-3.

[height=8in]xfig/laser.eps

Figure 2: Schematic diagram of the NMR and EPR electronics. The circled numbers correspond to the cable list given on pages 1-3.

[width=7.4in]xfig/nmr_epr.eps

 

Figure 3: Schematic diagram of the cooling jet and target motion control electronics. The circled numbers correspond to the cable list given on pages 1-3.

[width=5.2in]xfig/flow.eps

 

Figure 4: Patch Panel configuration, identical in the counting house (upstairs) and in the hall (downstairs).

[width=3.2in]xfig/panel.eps The numbers (black/black) are: (# of pins existed)/(total # of pins);
The numbers (blue) are cables which were used in 1998 and will be used in 2001 runs;
The numbers (red) are cables which did NOT exist in 1998 and will be needed in 2001 runs, the panel connectors here are for reference. 

 
 

NOTES:

1.

Abbreviations: UTP: unshielded twisted pair; STP: shielded twisted pair; T/C: thermocouple.

2.

Abbreviations for cable location: PP: from the patch panel in counting house to the patch panel in hall; C: in counting house; H: in hall.

3.

Terminators: ``none'': Either no terminators required (e.g. screw terminal, solder connection) or we will find a suitable connector after the cable is installed; anything in parenthesis (e.g. ``(spcl)''): special connector from instrument manufacturer is available, we will attach it ourselves.

4.

If no wire gauge is specified, any typical cable with the given number of conductors is acceptable. If the wire gauge is given, it means the minimum required; the wire can be thicker.

5.

Twisted pairs (shielded or unshielded) can be separate or bundled in a multiconductor cable. For the shielded cables, a multiconductor cable with the given number of conductors is preferred, if easily available.

6.

A quote for the Belden cable is attached. Please try to get this type, no replacements.

7.

Assumptions for cable length estimates: instruments upstairs to cable tray entrance: 15ft.; upstairs cable tray entrance to pivot downstairs: 325ft.; pivot cable exit to ³He target: 30ft.; pivot cable exit to electronics next to laser hut: 30ft.; pivot cable exit to inside of laser hut: 50 (60?) ft.; electronics next to laser hut to VME crate in rack 1H75B12: 100ft; electronics next to laser hut to those inside the laser hut: 20 ft.

8.

Cable information updated by: Kevin Kramer (KK), Nilanga Liyanage (NL), Kathy McCormick (KM), Xiao-Chao Zheng (XC), and Xiao-Feng Zhu (XF).

9.

The $\star$ in the last column indicates either the cable did not exist in the previous polarized ³He experiments, or the specification has been changed.

10 .

Serial port for VME crate: channel 2--helicity motor controller; channel 4 --target motor; controller.

2001-04-15

Privacy and Security Notice

Privacy and Security Notice