Document Description Documents Files Comments logic diagram for 4‐BM Electrical Schematics Front...
Transcript of Document Description Documents Files Comments logic diagram for 4‐BM Electrical Schematics Front...
NSLS II 4‐BM IRR Front End Equipment Protection System Documents List G. Ganetis 8/28/2017
Beam Line __4‐BM XFM_________________________
The following list represents the documents that summarize the review for the Front End
Equipment Protection System:
Document Description Documents Files Comments
Front End and SR Logic Diagram (Water & Vacuum interlocks)
LT‐EL‐BL‐EI‐EPS‐0101‐90_REV‐B.pdf
Overall basic logic diagram for Storage ring and front end water flow and vacuum EPS interlocks.
Bending Magnet Front End Logic Diagram
LT‐EL‐BL‐EI‐EPS‐2040‐96_REV‐A .pdf
Specific logic diagram for 4‐BM
Electrical Schematics Front End EPS Chassis –Cell 5 ‐ ‐ Rack Interconnection Wiring for 4 BM in cell 5 rack E4.
LT‐EL‐SR‐EI‐EPS‐0105‐90_REV‐C.pdf ‐ ‐ LT‐EL‐SR‐PS‐RAK‐1055‐91_REV‐D.pdf
BM Front End EPS connects to next cell – 4 BM goes to Cell 5 EPS Chassis
4‐BM Front End EPS test report.
4BM Front End EPS test report 8_28_2017.pdf
Design Description for Storage Ring and Front Ends EPS
PS‐C‐ASD‐SPC‐EPS‐001.pdf This document gives an overview of the many interlock functions that the EPS preforms. (Copies available upon request)
4‐BM EPS Front End Program Stored (PLC located in Cell 5 EPS chassis)
LT‐EL‐SR‐EI‐EPS‐0105‐70_REV‐B.pdf
Drawing represents the storing of the PLC program in the Electrical Design room.
o0.5ANGULAR TOLERANCE
+
+
-
-
+-
.XXX
.XX
.X
-+
DECIMAL TOLERANCES
INTEGER TOLERANCES
MIN .005MAX .03
125
DATE
JOB NUMBER
INTERPRET DRAWING AS PER
ANSI Y14.5 OR Y32.2
FINISH
BREAK SHARP
CORNERS AND EDGES
UNLESS OTHERWISE SPECIFIED
DRWN BY
REV
SHEET 0F
DRAWING NUMBER
.06
.030
.015
.010
ESH&Q
RISK LEVEL
A-2
OUTSTANDING
ECN'S
UNSPECIFIED RADII .02 MAXCHK BY
ENG APP
SUPV APP
QA APP
ESH APP
DRAWING DIRECTORY
USED ON DWG. NO.
-+
UNLESS OTHERWISE SPECIFIED
DIMENSIONS ARE IN INCHES
DIMENSIONS IN [*.**] ARE
MILLIMETERS EQUIV. FOR REF. ONLY
REV
4 3
A
B
C
D
4 3 2 1
D
C
B
A
12
SCALE: N/A 1 2
DESCRIPTION BYDATE CHECKED APP
LT-EL-BL-EI
56
6 5
LT-EL-BL-EI-EPS-0101-90 B
A INITIAL RELEASE
S. JARZABKOWSKI 9/09/2014
J. MALLEY
A. CASTIBLANCO
G. GANETIS
E. CHESWICK
B. LEE
SEJ9/09/2014
LT
-EL
-BL-E
I-E
PS
-01
01-9
0
LOGIC DIAGRAM,
FRONT END EPS INTERLOCK
JM AC
COMPUTER REPRODUCIBLE
CELL CONTROLLER
BEAM POSITION
INTERLOCK
RF PPS A CHAIN RF FPGA
RAMP DOWNRF PPS B CHAIN
RF PIN DIODE/RELAY
H2O SENSOR INPUT 1
H2O SENSOR INPUT 12
RESET
CELL PLC CHASSIS
CELL H2O SUM INPUT 1
CELL H2O SUM INPUT 30
RESET
IN- 0 (RED)
MAIN EPS PLC CHASSIS
LOCATED IN COMPUTER ROOM RGC2
NETWORKED WATER FLOW INTERLOCK TO RF SYSTEM
( RF INTERFACE)
C30 VACUUME VALVE OPEN
RESET
(HMI)
C30 BMPS CLOSED
OPEN BPMS
(HMI)
C30 VACUUME
VALVE OPEN
CLOSE BPMS
(HMI)
BPMS SOLENOID
COMMAND
CELL 30 EPS CHASSIS NEAR SLM 30
BEAMLINE
CLOSED BPMS STATUS
CLOSED VACUUME VALVE STATUS
NETWOKED
SLM BMPS
SLM VAC VALVE
RF TEST MODE FROM KSU
INHIBITS H20 INTERLOCK
FROM RF INTERFACE
Delay to OFF
5 ms
RF CAVITY POWER
OFF READBACK
FROM RF INTERFACE
WATER FLOW INTERLOCK BACKUP
(TO RF SYSTEM)
RF CONTACTORS OPEN
FROM PPS RF INTERFACE
CELL VAC & DUMP SUM INPUT 1
CELL VAC & DUMP SUM INPUT 1
PPS A
CHAIN
PPS B
CHAIN
SY
S 1
SY
S 1
SY
S 2
A
SY
S 2
B
24 V
IN- 3
IN- 4
BLU/BLK
BLK/WHT
RED
IN- 1 (WHT)
IN- 2 (GRN)
OUT- 1
OUT- 1 (RED/BLK)
VACUUM
RTD
RESET
H2O TRIP SIGNAL
BEAM & VACUUM TRIP SIGNAL
K75
K74
K75 K74
24 VK79
MASTER SHUTTER
ENABLE
COMMAND FROM
EPICS
MASTER SHUTTER
ENABLE SWITCH
725 MCR
IN- 5
OUT- 3
K80
SIGNAL TO
FRONT END
PPS
GLOBAL MASTER
SHUTTER TO ALL FE
EPS PLC’S
(NETWORKED)
NETWORKED
PPS/EPS RF KLY D INTERFACE
OUT- 2
CELL CONTROLLER
BEAM POSITION
INTERLOCK
OUT- 0 (BLU)
9/09/2014
9/09/2014
9/10/2014
9/09/2014
9/09/2014
B REVISED PER ECN LT-ECN-015-1338 SEJ10/7/2015 JM AC
BEAM DUMP
ETHERNET
RF TEST MODE
REV
4 3
A
B
C
D
4 3 2 1
D
C
B
A
12
REV
SHEETSCALE: N/A 2 20F
DRAWING NUMBER
DESCRIPTION BYDATE CHECKED APP
LT-EL-BL-EI
56
6 5
B
B SEE SHEET 1
DRAWING DIRECTORY
LT-EL-BL-EI-EPS-0101-90
LT
-EL-B
L-E
I-E
PS
-01
01-9
0
10/07/2015 SEJ JM AC
COMPUTER REPRODUCIBLE
ID3 FRONT END EPS PLC
ID5 FRONT END EPS PLC
ID10 FRONT END EPS PLC
ID11 FRONT END EPS PLC
ID23 FRONT END EPS PLC
ID28 FRONT END EPS PLC
PPS SHUTTER POSITIONS
SHUTTER SOLENOID COMMANDS
VACUUM VALVE POSITIONS
FAST VALVE POSITIONS
BMPS POSITION AND SOLENOID
PPS SHUTTER POSITIONS
SHUTTER SOLENOID COMMANDS
VACUUM VALVE POSITIONS
FAST VALVE POSITIONS
BMPS POSITION AND SOLENOID
PPS SHUTTER POSITIONS
SHUTTER SOLENOID COMMANDS
VACUUM VALVE POSITIONS
FAST VALVE POSITIONS
BMPS POSITION AND SOLENOID
PPS SHUTTER POSITIONS
SHUTTER SOLENOID COMMANDS
VACUUM VALVE POSITIONS
FAST VALVE POSITIONS
BMPS POSITION AND SOLENOID
PPS SHUTTER POSITIONS
SHUTTER SOLENOID COMMANDS
VACUUM VALVE POSITIONS
FAST VALVE POSITIONS
BMPS POSITION AND SOLENOID
PPS SHUTTER POSITIONS
SHUTTER SOLENOID COMMANDS
VACUUM VALVE POSITIONS
FAST VALVE POSITIONS
BMPS POSITION AND SOLENOID
ACCESS PERMIT TO PPS I/O 7 BOX RELAY K7
P2 ICR DOOR ACCESS
PUSHBUTTON
RF OFF
DIPOLE OFF
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
CELL 30 EPS PLC CHASSIS P2
ACCESS PERMIT TO PPS I/O 30 BOX RELAY K7
RF OFF
DIPOLE OFF
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
CELL 1 EPS PLC CHASSIS P2
ACCESS PERMIT TO PPS I/O 1 BOX RELAY K7
P2 DOOR ACCESS
PUSHBUTTON
RF OFF
DIPOLE OFF
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
CELL 25 EPS PLC CHASSIS P1
ACCESS PERMIT TO PPS I/O 25 BOX RELAY K7
P1 DOOR ACCESS
PUSHBUTTON
RF OFF
DIPOLE OFF
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
CELL 7 EPS PLC CHASSIS P3P3 DOOR ACCESS
PUSHBUTTON
ACCESS PERMIT TO PPS I/O 19 BOX RELAY K7RF OFF
DIPOLE OFF
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
CELL 13 EPS PLC CHASSIS P4P4 DOOR ACCESS
PUSHBUTTON
ACCESS PERMIT TO PPS I/O 13 BOX RELAY K7RF OFF
DIPOLE OFF
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
CELL 19 EPS PLC CHASSIS P5P5 DOOR ACCESS
PUSHBUTTON
INJECTION SHUTTER CLOSED AND
INJECTION BENDING MAGNET OFF
(from boosterPPS)
(networked)
(networked)
(networked)
(networked)
(networked)
(networked)
STORAGE RING VACUUM INTERLOCK
SUMMATION TO BOOSTER SIGNAL
STORAGE RING VACUUM
INTERLOCK
STORAGE RING VACUUM
INTERLOCK
STORAGE RING VACUUM
INTERLOCK
STORAGE RING VACUUM
INTERLOCK
STORAGE RING VACUUM
INTERLOCK
STORAGE RING VACUUM
INTERLOCK CELL1
STORAGE RING VACUUM
INTERLOCK CELL30
(networked)
J6-1,2
J9-11 INPUT
J6-6 +24J9-1
J6-1,2
J9-11 INPUT
J6-6 +24
J6-1,2
J9-11 INPUT
J6-6 +24
J6-1,2
J9-11 INPUT
J6-6 +24
J6-1,2
J9-11 INPUT
J6-6 +24
J6-1,2
J9-11 INPUT
J6-6 +24J9-1
J1-21INPUT
J1-9 +24
J9-3
TB25-12A (Wht/blk/red)
TB25-7A (Red/Wht)
TB25-12A (22)
TB25-7A (12)
TB25-12A (Blk/Red/Wht)
TB25-7A (Blk/Wht)
TB25-12B (23)
TB25-7A (12)
TB25-11B
(Red/Grn)
TB25-6A
(Blu/Blk)
TB25-13A (24)
TB25-6A (11)
C30 BMPS CLOSED
C30 VACUUME VALVE OPEN
CLOSED VACUUME VALVE
C30 BMPS OPEN
TB25-11B (21)
TB25-6A (11)
STORAGE RING VACUUM
INTERLOCK
TB25-11B (Org/Grn)
TB25-6A (Blu/Blk/Wth)
J9-2
J9-2
J9-2
J9-1
J9-1
J9-2
J9-1
J9-2
J9-2
J9-1
J9-4
TB25-12A (22)
TB25-7A (12)
TB25-12A (22)
TB25-7A (12)
TB25-7A (12)
TB25-12A (22)
TB25-6A (11)
TB25-11B (21)
TB25-6A (11)
TB25-11B (21)
TB25-6A (11)
TB25-11B (21)
J6-6 +24V
Key switch
RG-E4
CELL 3 EPS PLC CHASSIS P2
DIPOLE OFF
READBACK
(Dipole PPS interface)DIPOLE OFF
READBACK
NETWORKED VARIABLE
COMPUTER ROOM EPS PLC
RF POWER SUPPLY
CONTACTORS OFF
READBACK
(RF PPS interface)
RF OFF
READBACKNETWORKED VARIABLE
J9-11INPUT
J6-6 +24TB25-6A (11)
TB25-13A (24)
o0.5ANGULAR TOLERANCE
++--+-.XXX.XX.X-+DECIMAL TOLERANCES
INTEGER TOLERANCES
MIN .005MAX .03
125
DATE
JOB NUMBER
INTERPRET DRAWING AS PER
ANSI Y14.5 OR Y32.2
FINISH
BREAK SHARPCORNERS AND EDGES
UNLESS OTHERWISE SPECIFIED
DRWN BY
REV
SHEET OF 2
DRAWING NUMBER
.06
.030
.015
.010
ESH&Q
RISK LEVEL
A-2
OUTSTANDING
ECN'S
UNSPECIFIED RADII .02 MAXCHK BY
ENG APP
SUPV APP
QA APP
ESH APP
DRAWING DIRECTORY
USED ON DWG. NO.
-+ UNLESS OTHERWISE SPECIFIED
DIMENSIONS ARE IN INCHESDIMENSIONS IN [*.**] ARE
MILLIMETERS EQUIV. FOR REF. ONLY COMPUTER REPRODUCABLE
REV
4 3A
B
C
D4 3 2 1
D
C
B
A12 SCALE: N/A 1
DESCRIPTION BYDATE CHECKED APP
LT-EL-BL-EI
56
6 5 LT-EL-BL-EI-EPS-2040-96 A
A INITIAL RELEASE
05/09/2017
J. MALLEY
G. GANETIS
E. CHESWICK
B. LEE
MP05/10/2017
LT-EL-BL-EI-EPS-2040-96
JM AC
LOGIC DIAGRAM,
FRONT END EPS INTERLOCK
CELL 4-BM
CYCLE
LIMITER 4
SEC
P1
P2
BM_PS_CLOSE_A1
BM_SSA_CLOSE_A1
BM_SSB_CLOSE_B1
BM_REQUEST_TO_OPEN/CLOSE
BM_PS_OPEN_A3
BM_SSA_OPEN_A2
BM_SSB_OPEN_A4
BM_SSA_SOLENOID
BM_PS_SOLENOID
BM_GV1_OPEN
BM_BMPS_CLOSE_COMMAND (HMI)
BM_BMPS_OPEN_COMMAND (HMI)
BM_BMPS_SOLENOID
FE_COMMAND
BM_BE_ENABLE
ENABLE KIRK KEY
15 Sec DELAY
BM_XX_KIRK KEY
SOLENOID
P3
EPS LOGIC CELL 4-BM
BM_VACU_GV2
(Enable to close GV2 signal)
BM_VACU_GV1,
(Enable to close GV1)
BM_BMPS_CLOSE
(Same as page2)
BM_SSB_SOLENOID
TO VACUUM PLC
TO PPS I / O BOX
GLOBAL_MS_ENA
INJ SHUTTER CLOSED & BM OFF
FE_COMM_LIMITED
OPEN_TIME_FAULT
CLOSE_TIME_FAULT
SSA
SSB
PS
SSA
SSB
PS CLOSE_TIME_FAULT
ID_PS_CLOSE_A1
BM_GV2_OPEN
GV2 OPEN
BM_FV_OPEN
BM_FVCM_O_SR
BM_FVCM_CLOSE_O
05/10/2017
05/09/2017
05/11/2017
05/10/2017
05/10/2017
REV
SHEET OF 2
DRAWING NUMBERDRAWING DIRECTORYCOMPUTER REPRODUCABLE
REV
4 3A
B
C
D4 3 2 1
D
C
B
A12 SCALE: N/A 2
DESCRIPTION BYDATE CHECKED APP
LT-EL-BL-EI
56
6 5 A
A INITIAL RELEASE JM AC
BM_BMPS_CLOSE
BM_GV1_OPEN
BM_SSA_OPEN_A2
BM_SSB_OPEN_A4
BM_GV2_OPEN
RESET
BM_B_DUMP_1
BM_PS_CLOSE_A1
(Same as page1)
BM_B_DUMP_2
TO CELL CONTROLLER
BENDING MAGNET EPS LOGIC CELL 4
HI= NORMAL
LOW =
DUMPED
SSA CLOSE TIME FAULT
SSB CLOSE TIME FAULT
PS CLOSE TIME FAULT
BM_FVCM_CLOSE_O
BM_FVCM_O_SR
BM_FV_OPEN
LT-EL-BL-EI-EPS-2040-96
LT-EL-BL-EI-EPS-2040-96
MP05/10/2017
FIRMWARE/SOFTWARE/PROGRAMMING LOGIC DESCRIPTION:
EPS Front End PLC program that monitors and controls the front end components within the Cell and its data transfer with the EPS Controller
located in the 740 building computer room.
PROGRAM RSLogix 5000 VERSION 20.1 DEVICE Compact Logix Controller L32E
OPERATING SYSTEM Windows PROGRAMMING
METHOD Ladder Logic
FILE EPS_BOX_cell05_V35_4bm_dump.ACD
o0.5ANGULAR TOLERANCE
++--+-
.XXX.XX
.X
-+DECIMAL TOLERANCES
INTEGER TOLERANCES
MIN .005MAX .03
125
COMPUTER REPRODUCIBLE
DATE
JOB NUMBER
UNLESS OTHERWISE SPECIFIED
FINISH
BREAK SHARPCORNERS AND EDGES
UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHESDIMENSIONS IN [*.**] ARE
MILLIMETERS EQUIV. FOR REF. ONLY
INTERPRET DRAWING AS PER
ANSI Y14.5 OR Y32.2
DRWN BY
REV
SHEETSCALE: N/A 1 10F
DRAWING NUMBER
LT-EL-SR-EI
.06
.030
.015
.010
RISK LEVELESH&Q
A-2
ECN'S
OUTSTANDING
UNSPECIFIED RADII .02 MAXLT-EL-SR-EI-EPS-0105-70 B
CHK BY
ENG APP
SUPV APP
QA APP
ESH APP
DRAWING DIRECTORY
USED ON DWG. NO.
-+
LT
- EL
- SR
- EI -
EPS
-010
5 -70
A. CastiblancoM. Pfeffer
04/01/14
NSLS-II- STORAGE RING EPS CHASSIS LOGIC CELL 5
A. Castiblanco
G. GanetisE.CHESWICK
B.LEE
04/01/14
04/01/14
REV DESCRIPTION BY DATE CHK APP
INITIAL RELEASE 04/01/14AC ACMPA
04/01/14
04/10/14
05/02/14
REVISED PER ECN 017-1650 08/08/17AC ACMPB
D4
D2
D1
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
+2
4V
D3
+2
4V
+2
4V
+2
4V
1 1
LT
-EL-S
R-E
I-E
PS
-0105-9
0
C
STORAGE RING EPS CHASSIS, CELL 5
LT-EL-SR-EI-EPS-0105-90
JM
J.MALLEY
9/21/2012
9/28/2012
MH 9/21/2013
NOTES: UNLESS OTHERWISE SPECIFIED
1. ALL RESISTOR VALUES ARE IN OHMS, 1%, 100PPM.2. ALL CAPACITOR VALUES ARE IN MICROFARADS, 50V.3 ALL INDUCTOR VALUES ARE IN MICROHENRIES.
E.CHESWICK
G.GANETIS
A.CASTIBLANCO
10/02/12
10/04/12
WIRING DIAGRAM
1.03.06.02
N.GMUR
M. HUGHES
A-2N/A
125
o
ANGULAR TOLERANCE
X..X
.XX +
+
+
-
-
-
DIMENSIONAL TOLERANCES
D
C
B
A
8
8 7 6 5 4 3 2 1
D
C
A
1234567
FINISH
DRAWN BY
CHECKED BY
VACUUM
SHEET
0.0600.030
0.015
0.5
DRAWING/PART NUMBER
UPTON, N.Y. 11973BROOKHAVEN SCIENCE ASSOCIATES
BROOKHAVEN NATIONAL LABORATORY
REVISION
OF
INTERPRET DRAWING AS PER ANSI Y14.5-1994 OR Y32.2-1975
DIMENSIONS IN BRACKETS [X.XX] (WHERE PRESENT)
ALL DIMENSIONS ARE IN INCHES
UNLESS OTHERWISE SPECIFIED
ESH&QRISK LEVELWBS#
REV. ZONE CKR. APP.DESCRIPTION BY DATE
APPROVAL
ENGINEER
APPROVAL
SUPERVISORAPPROVAL
ES&H APPROVAL
QA APPROVAL
Exploring Life's Mysteries,
Protecting its FutureARE MILLIMETERS AND ARE FOR REFERENCE ONLY
+-
.XXX +- 0.005
SHEET SIZE
DBREAK EDGES & SHARP CORNERS 0.005 MIN. TO 0.030 MAX
SCALETHIRD ANGLE
PROJECTION
NEXT ASSY:
PROJECT
NA
39
0R
1
R2
39
0
R3
39
0
R4
39
0
R5
39
0
R6
39
0
CH
GN
D
AC
1
3 3 3
A
9/28/2012
10/04/12
INITIAL RELEASE
JM10/05/2015SEJREVISED PER ECN LT-ECN-015-1336B
JM05/19/2017MP
AC
AC
REVISED PER ECN LT-ECN-017-1787C
LT-EL-SR-PS DLT-EL-SR-PS-RAK-1055-91
2/14/2014
WIRING DIAGRAM,
PENTANT 3 CELL 5
RACK GROUP E4 EPS CHASSIS
LT
-EL-S
R-P
S-R
AK
-10
55-9
1
2/18/2014
2/18/2014
2/21/2014
2/19/204
2-20-14
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/B
LK
RE
D/B
LK
GR
N/B
LK
OR
N/B
LK
BL
U/B
LK
BL
K/W
HT
RE
D/W
HT
GR
N/W
HT
BL
U/W
HT
BL
K/R
ED
WH
T/R
ED
OR
N/R
ED
BL
U/R
ED
RE
D/G
RN
OR
N/G
RN
BL
K/W
HT
/RE
D
GR
N/B
LK
/WH
T
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
J1
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/B
LK
RE
D/B
LK
GR
N/B
LK
OR
N/B
LK
BL
U/B
LK
BL
K/W
HT
1 2 3 4 5 6 7 8 9 10
11
12
J2
BL
K
BR
N
RE
D
OR
N
1 2 3 4 5 6
J3
1 2 3 4 5 6 7 8 9 10
RE
D/W
HT
GR
N/W
HT
BL
U/W
HT
BL
K/R
ED
WH
T/R
ED
OR
N/R
ED
BL
U/R
ED
RE
D/G
RN
OR
N/G
RN
BL
K/W
HT
/RE
D
J4
BL
K
BR
N
RE
D
OR
N
1 2 3 4 5 6
J5
YE
L
GR
N
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
TB
J1
1 2 3 4 5 6 7 8 9 10
11
12
TB
J2
1 2 3 4
TB
J3
1 2 3 4 5 6 7 8 9 10
TB
J4
1 2 3 4 5 6
TB
J5
11
12
Ca
ble
J1
25
C
Ca
ble
J2-J
4
25
C
Ca
ble
J2-J
4
25
C
Ca
ble
J3
6C
Ca
ble
J5
6C
1 2 3 4 5 6 7 8 9 10
RE
D/W
HT
GR
N/W
HT
BL
U/W
HT
BL
K/R
ED
WH
T/R
ED
OR
N/R
ED
BL
U/R
ED
RE
D/G
RN
OR
N/G
RN
BL
K/W
HT
/RE
D
J1
5
1 2 3 4 5 6 7 8 9 10
TB
J1
5
11
12
Ca
ble
J1
2-J
15
25
C
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
1 2 3 4 5 6
J1
4
1 2 3 4 5 6
TB
J1
4
Ca
ble
J1
4
6C
GN
D
BL
K
BR
N
RE
D
OR
N
1 2 3 4 5 6
J1
3
YE
L
GR
N
1 2 3 4 5 6
TB
J1
3
Ca
ble
J1
3
6C
GN
D
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/B
LK
RE
D/B
LK
GR
N/B
LK
OR
N/B
LK
BL
U/B
LK
BL
K/W
HT
1 2 3 4 5 6 7 8 9 10
11
12
J1
2
1 2 3 4 5 6 7 8 9 10
11
12
TB
J1
2
Ca
ble
J1
2-J
15
25
C
GN
D
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/B
LK
RE
D/B
LK
GR
N/B
LK
OR
N/B
LK
BL
U/B
LK
BL
K/W
HT
RE
D/W
HT
GR
N/W
HT
BL
U/W
HT
BL
K/R
ED
WH
T/R
ED
OR
N/R
ED
BL
U/R
ED
RE
D/G
RN
OR
N/G
RN
BL
K/W
HT
/RE
D
GR
N/B
LK
/WH
T
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
J1
1
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
TB
J1
1
Ca
ble
J1
1
25C
GN
D
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
IO5
TB
25
ID
SR
:C5
-PP
S-2
01
1A
-
IO5
_M
C5
-RG
E-4
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
IO4
TB
26
BM
SR
:C4
-PP
S-0
11
8A
-
IO4
_M
C5-R
GE
-4
INT
ER
CO
NE
CT
ION
D
IAG
RA
M R
G-E
4 / E
PS
CH
AS
SIS
CE
LL
5
(5-I
D / 4
-BM
)
EP
S C
HA
SS
IS
BA
CK
CO
NN
EC
TO
RS
PA
NE
L 2
TE
RM
INA
L B
LO
CK
S
CA
BL
ES
CO
MIN
G F
RO
M
DIF
FE
RE
NT
LO
CA
TIO
NS
WIT
HIN
TH
E C
EL
L
BL
K
BR
N
RE
D
OR
N
YE
L
GR
N
7 8
BL
U
WH
T
7 8
ID
PP
S I/O
BO
X
BM
PP
S I/O
BO
X
ID
INP
UT
S
FR
OM
VA
LV
ES
ID
FR
OM
TH
E
CO
NT
RO
LL
ER
FV ID
FR
OM
TH
E
CO
NT
RO
LL
ER
ID
VA
C P
LC
ST
O.R
ING
SP
AR
E
BM
VA
C P
LC
(Fro
nt
en
d P
LC
)
BM
FR
OM
TH
E
CO
NT
RO
LL
ER
BM
INP
UT
S
FR
OM
VA
LV
ES
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
251 2 3 4 5 6 7 8 9 1
0
11
12
13
14
15
16
17
18
19
20
21
22
25
1A
1B
2A
2B
3A
3B
4A
4B
5A
5B
6 7A
7B
8A
8B
9A 9B
10A
10B
11A
11B
12
A
13B
1A
1B
2A
2B
3A
3B
4A
4B
5A
5B
6 7A
7B
8A
8B
9A 9B
10A
10B
11A
11B
12
A
13B
1 2 6 5
FG
V-1
7 p
in
Co
nn
.
BL
K
WH
T
RE
D
GR
N
1 2 6 5
SG
V-1
1 2 6 5
SG
V-2
BL
K
WH
T
RE
D
GR
N
BL
K
WH
T
RE
D
GR
N
TU
NN
EL
TU
NN
EL
TU
NN
EL
E D G F C B
FG
V
CO
NT
RO
L
MO
DU
LE
A H
BL
K
GR
N
RE
D
WH
T
RG
-E3
SR
: C
5-R
GE
-4-E
PS
PL
C
SR
:C5
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-{S
GV
:2}
H
1 2 3 4 5 6 7 8 9 10
1 2 3 4 5 6 7 8 9 10
TB
10
1 2 3 4 5 6 7 8 9 10
11
12
11
12
BL
K
VIO
BR
N
WH
T
RE
D
BL
U
YE
L
GR
N
RG
-F
INS
ER
TIO
N
DE
VIC
E R
AC
K
1 2 6 5
BM
GV
1
1 2 6 5
BL
K
WH
T
RE
D
GR
N
BL
K
WH
T
RE
D
GR
N
TU
NN
EL
TU
NN
EL
BM
GV
2
1 2 3 4 5 6 7 8 9 10
11
121 2 3 4 5 6
10
0 m
A+
A1
7 8
A1
A2
A2
Re
lay
Re
lay
11
14
14
11
1 9 2 10
10
BL
K
WH
T
RE
D
GR
N
1 2 3 4 5 61 2 3 4 5 6 7 8 9
o0.5ANGULAR TOLERANCE
+
+
-
-
+-
.XXX
.XX
.X
-+
DECIMAL TOLERANCES
INTEGER TOLERANCES
MIN .005MAX .03
125
DATE
JOB NUMBER
INTERPRET DRAWING AS PER
ANSI Y14.5 OR Y32.2
FINISH
BREAK SHARP
CORNERS AND EDGES
UNLESS OTHERWISE SPECIFIED
DRWN BY
SHEET OF 2
DRAWING NUMBER
.06
.030
.015
.010
ESH&Q
RISK LEVEL
A-2
OUTSTANDING
ECN'S
UNSPECIFIED RADII .02 MAXCHK BY
ENG APP
SUPV APP
QA APP
ESH APP
DRAWING DIRECTORY
USED ON DWG. NO.
-+
UNLESS OTHERWISE SPECIFIED
DIMENSIONS ARE IN INCHES
DIMENSIONS IN [*.**] ARE
MILLIMETERS EQUIV. FOR REF. ONLY
COMPUTER REPRODUCABLE
4 3
A
B
C
D
4 3 2 1
D
C
B
A
12
SCALE: N/A 1
56
6 5
S. JARZABKOWSKI
J.MALLEY
A.CASTIBLANCO
G. GANETIS
E.CHESWICK
R. LEE
GN
D
GN
D
SR
:C5-E
PS
-21
47
-
ID5_G
V1_F
E-M
C5-R
GE
-4
REV DESCRIPTION BYDATE CHECKED APP
A INITIAL RELEASE CG JM AC2/18/204
B REVISED PER LT-ECN-017-1778 MP JM AC5/18/2017
C REVISED PER LT-ECN-017-1805 SEJ JM AC6/29/2017
1 2 6 5
BL
K
WH
T
RE
D
GR
N
TU
NN
EL
BM
FV
E D
BL
K
GR
N
RG
E-1
SR
:C5-E
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46
-
ID5_F
V_F
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GE
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SR
:C4-E
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38
-
BM
4_
FV
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SR
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PS
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39
-
BM
4_G
V1-F
E-M
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GE
-4
0 0
A
2 O
B
WH
T
BL
K
17
34
-OW
4
RE
D
WH
TG F C B A H
BM
FV
CO
NR
TO
L
MO
DU
LE
CO
5-E
4-E
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5-E
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XT
ER
NA
L
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PL
C:E
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)
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1:(
PL
C-F
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)
D REVISED PER LT-ECN-017-1829 SEJ JM AC8/10/2017
1 2 3 4 5 6
J6
1 2 3 4 5 6
TB
J6
Ca
ble
J6- J
9-J
10
6C
GN
D
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
1 2 3 4 5 6 7 8 9 10
11
12
J9
1 2 3 4 5 6 7 8 9 10
11
12
TB
J9
GN
D
WH
T/ B
LK
RE
D/ B
LK
GR
N/B
LK
OR
N/B
LK
BL
U/ B
LK
BL
K/ W
HT
RE
D/ W
HT
GR
N/W
HT
BL
U/W
HT
BL
K/ R
ED
WH
T/ R
ED
OR
N/ R
ED
Ca
ble
J6-J
9- J
10
6C
1 2 3 4 5 6
J1
0
1 2 3 4
TB
J1
0
Ca
ble
J6-J
9- J
10
6C
GN
D
BL
U/R
ED
RE
D/ G
RN
OR
N/G
RN
BL
K/ W
HT
/ RE
D
INT
ER
CO
NE
CT
ION
D
IAG
RA
M R
G-E
4 / E
PS
CH
AS
SIS
CE
LL
5(5
-ID
/ 4
-BM
)
***
Th
es
e c
ab
les
en
ds
mu
st
be
is
ola
ted
wit
h s
hri
nk
tu
bin
g a
nd
tie
wra
pp
ed
to
th
e p
an
el .
7 87 8
WH
T/B
LK
/RE
D
RE
D/B
LK
/WH
T
ID
Fro
m V
ac
uu
m
PL
C
ID
To
Ce
ll
Co
ntr
olle
r
SP
AR
E
7 8
1 9 2 10
Db
- 15
Ma
le
FE
VA
PL
C
1 2 3 4 5 6 7 8 9 10
11
12
TB Cell
Cont .
GN
D
1 2 3 4 5 6 7 8 9 10
11
12
1 2 3 4 5 6 7 8 9 10
11
12
BL
K
BR
N
RE
D
YE
L
GR
N
BL
U
GR
Y
VIO
WH
T
PN
K
RE
D/B
LU
GR
Y/ B
RN
1 2 3 4
1 2 3 4
TB
16
GN
D
1 2 3 4
1 2 3 4 5 6 7 8 9 10
11
12
LEMO
IN
13
13
14
14
15
15
39
0 /
2W
1 2 3 4 5 6
BR
N
GR
NA
1
7 8
A2
A1
11
12
14
Re
lay
A1
A2
A2
Re
lay
Re
lay
11
14
14
11
1 9 2 10
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/ B
LK
RE
D/B
LK
GR
N/ B
LK
OR
N/B
LK
BL
U/ B
LK
BL
K/ W
HT
1 2 3 4 5 6 7 8 9 10
11
12
J7
TB
J7
Ca
ble
J7- J
8
25C
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/ B
LK
RE
D/B
LK
GR
N/ B
LK
OR
N/ B
LK
BL
U/B
LK
BL
K/ W
HT
RE
D/ W
HT
GR
N/W
HT
BL
U/ W
HT
BL
K/R
ED
WH
T/ R
ED
OR
N/R
ED
BL
U/R
ED
RE
D/G
RN
OR
N/ G
RN
BL
K/W
HT
/ RE
D
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
TB
1
4 B
M
D
SR
:C5
-EP
S-2
80
2-
MC
5-O
C-D
-RG
- E-4
GN
D
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
WH
T/ B
LK
/ RE
D
RE
D/ B
LK
/ WH
T
CH
1 +
CH
1 -
CH
2 +
CH
2 -
CH
3 +
CH
3 -
CH
4 +
CH
4 -
CH
5 +
CH
5 -
CH
6 +
CH
6 -
RE
D/ W
HT
GR
N/W
HT
BL
U/W
HT
BL
K/ R
ED
WH
T/ R
ED
OR
N/ R
ED
BL
U/ R
ED
RE
D/ G
RN
OR
N/G
RN
BL
K/ W
HT
/RE
D
WH
T/ B
LK
/ RE
D
RE
D/B
LK
/WH
T
1 2 3 4 5 6 7 8 9 10
11
12
J8
TB
J8
Ca
ble
J7- J
8
25C
BL
K
WH
T
RE
D
GR
N
OR
N
BL
U
WH
T/ B
LK
RE
D/B
LK
GR
N/ B
LK
OR
N/B
LK
BL
U/B
LK
BL
K/ W
HT
RE
D/ W
HT
GR
N/W
HT
BL
U/ W
HT
BL
K/R
ED
WH
T/ R
ED
OR
N/R
ED
BL
U/R
ED
RE
D/G
RN
OR
N/ G
RN
BL
K/W
HT
/ RE
D
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
GN
D
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
WH
T/ B
LK
/ RE
D
RE
D/ B
LK
/ WH
T
***
***
***
***
***
CH
7 +
CH
7 -
CH
8 +
CH
8 -
CH
9 +
CH
9 -
CH
10
+
CH
10
-
CH
11
+
CH
11
-
CH
12
+
CH
12
-
EP
S C
HA
SS
IS
BA
CK
CO
NN
EC
TO
RS
PA
NE
L 1
TE
RM
INA
L B
LO
CK
S
CA
BL
ES
CO
MIN
G F
RO
M
DIF
FE
RE
NT
LO
CA
TIO
NS
WIT
HIN
TH
E C
EL
LFLOW METERS J. BOX FLOW METERS J. BOX
Flo
w
Me
ters Flo
w
Me
ters
LO
C. #
1 B
M D
LO
C. #2
B
M D
LO
C. #1
B
M D
LO
C. #
2 B
M D
GN
D
GN
D
LO
C. #
3 ID
C
LO
C.
#4
ID
C
***
***
***
***
***
***
***
TB
1
5 ID
C
REV
SHEET
DRAWING NUMBERDRAWING DIRECTORY
REV
4 3
A
B
C
D
4 3 2 1
D
C
B
A
12
SCALE: N/A 2
DESCRIPTION BYDATE CHECKED APP
56
6 5
D
SEE SHEET 1
LT
-EL-S
R-P
S-R
AK
-10
55-9
1
OF 2
LT-EL-SR-PS-RAK-1055-91LT-EL-SR-PS
COMPUTER REPRODUCABLE
LO
C. #
3 ID
C
LO
C. #
4 ID
C
LO
C. #5
ID
C
LO
C. #6
ID
C
LO
C. #
4 ID
C
LO
C. #5
ID
C
Db
- 15
Ma
leR
ED
BL
U
SR
:C5-E
PS
-28
01
-
MC
5-O
C-D
-RG
-E-4