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SLAC National Accelerator Laboratory
LCLS Engineering X-Ray Endstation
Specification Systems-> Photon Control
Document 1.6-131 and Data Systems Revision 7
XES Photon Controls to Electron Beam Controls Machine
Protection System MPS Logic Documentation
Signature Date
Mark Arndt
Author, PPA Technical Writer
Gunther Haller
Manager, Photon Systems Controls
Stephen Norum
MPS Engineer
Brief Summary
Signal logic tables for MPS subsystems.
Change History Log
Rev Revision Sections Affected Description of Change
Number Date
000 6/16/09 All Initial Version
001 6/22/09 Section 1, Section Added block diagram (sect 1), clarified
2, Section 4, definitions of Phase 1 and 2 testing (sect 2),
Section 5, Section changed refs to stopper set S0 to set
6, Section 7, ST1/ST2 (sects 4-8), added channel mapping
Section 8, Section table and corrected signal PVs (sect 9.1),
9.1
002 6/23/09 Section 4, 5, 6, 7, Removed all of the valve/profile logic out of
8s Section 5, it is already in sections 6, 7, 8.
Section 6: moved PMC-ch 0 & PMC-ch 1
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Rev Revision Sections Affected Description of Change
Number Date
6.1.4 & 6.1.5 to 8 (SH1 IN); kept PMC-ch 2
6.1.6 (S1 IN); moved PMC-ch 3 6.1.7 to 7
(S2 IN)
Section 4: moved MPS-summary 8 4.1.8 to 8;
moved MPS-summary 9 4.1.9 to 6; moved
MPS-summary10 4.1.10 to 7.
003 6/27/09 Section 4, Section Sect 4: In the intro paragraph, corrected the
9 itemization of signals to be tested in Phase 1
and Phase 2. Retitled the Phase 1 “MPS
Summary X” headings and “Solenoid
Controller XX Ch YY” headings, using more
descriptive designations. The remaining
“MPS Summary”, “Solenoid Controller XX
Ch YY”, and “Profile Monitor AA Channel
BB” headings will be renamed (TBD) before
Phase 2 testing begins. Changed some
condition names from “Fault” to “Broken”
to match conventions used in MPS
Engineering.
Sect 9: Added stopper devices “ST1” and
“ST2” to the channel mapping table in
Section 9.1.
004 Sections 5,6,7, 8 Corrected outline to reflect (a) AMO moved
to Hutch 1, (b) which signals are vetoed by
stoppers SH1, S1, or S2.
Removed all FEE Solid Attenuator-related
signals except for Attenuator 321, 322.
Supplied descriptive names to signals
formerly know as “MPS Summary 5”, “MPS
Summary 6”, “MPS Summary 7”, “Profile
Monitor Controller (PMC:FEE1:701) CH0”,
“Profile Monitor Controller
(PMC:FEE1:701) CH1”, “Profile Monitor
Controller (PMC:FEE1:701) CH2”, “Profile
Monitor Controller (PMC:FEE1:801) CH0”,
“Profile Monitor Controller
(PMC:FEE1:801) CH1”, “Profile Monitor
Controller (PMC:FEE1:801) CH2”
Added signal definitions and logic for AMO
input from NEH Hutch 1.
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Rev Revision Sections Affected Description of Change
Number Date
Removed all placeholder headings and signal
definitions for sections downstream of NEH.
Details will be added as facilities and
experiments are installed.
005 08/17/09 5,6 Added HFP-MPA-02 beam stop logic.
Clarified signal names. Provided descriptive
names for FEE XTOD isolation valves.
006 08/17/09 5.,6 Corrected logic after confirming
programmed MPS logic accurately reflects
real state.
007 08/20/09 1.3, 4.1, 5.1, 5.2, Reset AMO MPS logic back to the Rev 005
9.14 logic. Removed the logic for beam shutter
AMO-SAS-MMS-01; this device is no longer
an input. Modified logic for laser mirror
position SAS-MMM-01; formerly used –A
(in) and –B (out) limit signals, now uses a
single out signal. Removed placeholder
signals in 5.1.4, 5.1.5, 5.1.6. To clarify
nomenclature for limit switch positions,
added link to “LCLS Naming Convention”
Confluence page. Revised descriptive names
for FEE and NEH isolation valve signals to
match MPS names. From Section 9.14,
removed channel mapping entries for “NEH
AMO Beam Shutter Position” signals; the
beam shutter is no longer an input to the
MPS.
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Table of Content
1 Acronyms and Definitions ......................................................................................................................6
1.1 XTOD-Related Acronyms .............................................................................................................6
1.2 AMO-Related Acronyms................................................................................................................6
1.3 AMO Component Naming Conventions ....................................................................................6
2 Introduction...............................................................................................................................................6
2.1 XTOD Inputs to the MPS .............................................................................................................6
2.2 XTOD System Schematic ..............................................................................................................7
2.3 AMO Inputs to the MPS................................................................................................................8
2.4 AMO System Schematic .................................................................................................................8
3 Notes on Testing Sequence.....................................................................................................................8
4 Ignored When Stopper Set ST1/ST2 ....................................................................................................8
4.1 FEE XTOD Input Specifications .................................................................................................9
4.1.1 FEE Gas Flow Vacuum System Isolation Valve Summary..................................................9
4.1.2 FEE Gas Flow Vacuum System Aperture Summary.............................................................9
4.1.3 FEE Instrument Vacuum System Isolation Valve Summary ...............................................9
4.1.4 FEE Fast Shutter Valve and System Summary ....................................................................10
4.1.5 FEE XTOD H Isolation Valve Summary.............................................................................10
4.1.6 FEE XTOD S1 Isolation Valve Summary............................................................................10
4.1.7 FEE XTOD S2 Isolation Valve Summary............................................................................11
4.1.8 FEE Solid Attenuator 321 Position .......................................................................................11
4.1.9 FEE Solid Attenuator 322 Position .......................................................................................11
4.1.10 FEE Camera 1561 Position ................................................................................................12
4.1.11 FEE Camera 852 Position...................................................................................................12
4.1.12 FEE Camera 913 Position...................................................................................................12
4.1.13 FEE Camera 1692 Position ................................................................................................13
4.1.14 FEE Camera 1953 Position ................................................................................................13
4.1.15 FEE Camera 2953 Position ................................................................................................13
5 Ignored When Stopper Set ST1/ST2, Or Stopper Set S1 ................................................................14
5.1 NEH Hutch 1 XTOD Input Specifications ..............................................................................14
5.1.1 NEH1 XTOD H Isolation Valve Summary .........................................................................14
5.1.2 NEH1 XTOD S1 Isolation Valve Summary ........................................................................14
5.1.3 NEH1 XTOD S2 Isolation Valve Summary ........................................................................14
5.1.4 NEH1 Camera 124 Position....................................................................................................15
5.1.5 NEH1 Camera 195 Position....................................................................................................15
5.1.6 NEH1 Camera 1124 Position .................................................................................................15
5.1.7 NEH1 Camera 2124 Position .................................................................................................16
5.2 NEH Hutch 1 AMO Input Specifications.................................................................................16
5.2.1 NEH AMO Laser Reference Mirror Position ......................................................................16
5.2.2 NEH AMO Focusing Optics Entrance Gate Valve KBO-VGC-01 ................................16
5.2.3 NEH AMO Focusing Optics Exit Gate Valve KBO-VGC-02 .........................................17
6 Ignored When Stopper Set ST1/ST2, Or Stopper Set S1, Or Stopper Set HFP-MPA-02 .........17
6.1 HFP-MPA-02 Beam Stop Logic .................................................................................................17
6.2 NEH Hutch 1 AMO Input Specifications.................................................................................17
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6.2.1 NEH AMO High Field Physics Chamber Gate Valve HFP-VGC-02 .............................17
6.2.2 NEH AMO Diagnostics Chamber Gate Valve DIA-VGC-02 ..........................................18
7 Ignored When Stopper Set ST1/ST2, Or Stopper Set S2 ................................................................18
7.1 NEH Hutch 2 SXR Input Specifications...................................................................................18
7.1.1 Vacuum Valve 1 ........................................................................................................................18
7.1.2 Vacuum Valve 2 ........................................................................................................................18
7.1.3 Vacuum Valve 3 ........................................................................................................................18
7.1.4 Vacuum Valve 4 ........................................................................................................................19
7.1.5 Vacuum Valve 5 ........................................................................................................................19
7.1.6 Vacuum Valve 6 ........................................................................................................................19
7.1.7 Vacuum Valve 7 ........................................................................................................................19
8 Ignored When Stopper Set ST1/ST2, Or Stopper Set SH1.............................................................20
8.1 NEH Hutch 3 XTOD Input Specifications ..............................................................................20
8.1.1 XTOD/NEH Vacuum Valve 3 ..............................................................................................20
8.2 NEH Hutch 3 SXR Input Specifications...................................................................................20
8.2.1 Vacuum Valve 8 ........................................................................................................................20
8.3 NEH Hutch 3 XPP Input Specifications...................................................................................20
8.3.1 Vacuum System Summary (Hutch 3) .....................................................................................20
9 Signal to Channel Mapping Table ........................................................................................................21
9.1 PPS Signals......................................................................................................................................21
9.2 FEE XTOD Signals ......................................................................................................................21
9.3 NEH Hutch 1 XTOD Signals .....................................................................................................24
9.4 NEH Hutch 3 XTOD Signals .....................................................................................................26
9.5 X-Ray Transport Tunnel XTOD Signals ...................................................................................28
9.6 Far Experimental Hall XTOD Signals .......................................................................................29
9.7 X-Ray Transport Tunnel CXI Signals ........................................................................................30
9.8 Far Experimental Hall CXI Signals.............................................................................................31
9.9 Far Experimental Hall XCS Signals ............................................................................................32
9.10 NEH Hutch 1 SXR Signals..........................................................................................................33
9.11 NEH Hutch 3 SXR Signals..........................................................................................................35
9.12 NEH Hutch 2 XPP Signals..........................................................................................................36
9.13 NEH Hutch 3 XPP Signals..........................................................................................................37
9.14 NEH Hutch 1 AMO Signals........................................................................................................38
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1 Acronyms and Definitions
1.1 XTOD-Related Acronyms
CAMR = Profile Monitor Camera
SATT = Solid Attenuator
VVFS = Fast Shutter
VVPG = Vacuum Isolation Valve
1.2 AMO-Related Acronyms
TBS.
1.3 AMO Component Naming Conventions
Nomenclature is defined at “LCLS Naming Conventions”
(https://confluence.slac.stanford.edu/display/PCDS/LCLS+Naming+Convention)
For limit switches on motion components, an –A or –B suffix is used to specify
(clockwise/in/closed) or (counter-clockwise/out/open), respectively.
2 Introduction
This document is a companion to LCLS ICD 1.1-517, “XES Photon Controls to Electron Beam
Controls Machine Protection System ICD”.
2.1 XTOD Inputs to the MPS
The following block diagram depicts XTOD beam line components related to the MPS, their
controllers, and controller inputs to the MPS.
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Profile Monitor Solenoid Valve
Beam Line
Profile
Monitor
Controller
Solenoid
Controller
To MPS
Terminal
IOC Flex I /O PLC
Server 1
ControlNet
Ethernet ( Field - bus VLAN )
Ethernet ( EPICS VLAN )
1 - RS - 232 connections to
Solenoid Controller and Profile
Monitor Controller not shown
Figure 1
2.2 XTOD System Schematic
The following figure depicts the major XTOD instrumentation system interfaces.
Figure 2
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The following figure depicts the major XTOD vacuum system interfaces.
Figure 3
2.3 AMO Inputs to the MPS
The following block diagram depicts AMO beam line components related to the MPS, their
controllers, and controller inputs to the MPS.
TBS.
2.4 AMO System Schematic
The following figure depicts the major AMO instrumentation and vacuum system interfaces.
TBS.
3 Notes on Testing Sequence
TBS.
4 Ignored When Stopper Set ST1/ST2
NOTE: Signals in 4.1.1-4.1.4 and 4.1.8-4.1.16 will be tested in “Phase 1”. All other signals must be
masked off.
Signals in 4.1.5-4.1.7 and 4.1.17-4.1.22 will be tested in “Phase 2”.
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4.1 FEE XTOD Input Specifications
4.1.1 FEE Gas Flow Vacuum System Isolation Valve Summary
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:E202:ISOV
Logic: A=VVPG:FEE1:201:OPENSTATUS .AND. VVPG:FEE1:391:OPENSTATUS
Commands: To Open:VVPG:FEE1:nnn:OPEN_CMD=1
To Close:VVPG:FEE1:nnn:CLOSE_CMD=1
where nnn=201,391
4.1.2 FEE Gas Flow Vacuum System Aperture Summary
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the aperture valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:E202:APRT
Logic: A=(VVPG:FEE1:211:OPENSTATUS .OR. VVPG:FEE1:211:CLOSEDSTATUS) .AND.
(VVPG:FEE1:221:OPENSTATUS .OR. VVPG:FEE1:221:CLOSEDSTATUS) .AND.
(VVPG:FEE1:231:OPENSTATUS .OR. VVPG:FEE1:231:CLOSEDSTATUS) .AND.
(VVPG:FEE1:241:OPENSTATUS .OR. VVPG:FEE1:241:CLOSEDSTATUS) .AND.
(VVPG:FEE1:251:OPENSTATUS .OR. VVPG:FEE1:251:CLOSEDSTATUS) .AND.
(VVPG:FEE1:261:OPENSTATUS .OR. VVPG:FEE1:261:CLOSEDSTATUS) .AND.
(VVPG:FEE1:311:OPENSTATUS .OR. VVPG:FEE1:311:CLOSEDSTATUS) .AND.
(VVPG:FEE1:341:OPENSTATUS .OR. VVPG:FEE1:341:CLOSEDSTATUS) .AND.
(VVPG:FEE1:351:OPENSTATUS .OR. VVPG:FEE1:351:CLOSEDSTATUS) .AND.
(VVPG:FEE1:361:OPENSTATUS .OR. VVPG:FEE1:361:CLOSEDSTATUS) .AND.
(VVPG:FEE1:371:OPENSTATUS .OR. VVPG:FEE1:371:CLOSEDSTATUS) .AND.
(VVPG:FEE1:381:OPENSTATUS .OR. VVPG:FEE1:381:CLOSEDSTATUS)
Commands: To Open:VVPG:FEE1:nnn:OPEN_CMD=1
To Close:VVPG:FEE1:nnn:CLOSE_CMD=1
where nnn=211,231,241,251,261,311,341,351,361,371,381
4.1.3 FEE Instrument Vacuum System Isolation Valve Summary
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
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Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:E101:ISOL
Logic: A=VVPG:FEE1:421:OPENSTATUS .AND. VVPG:FEE1:451:OPENSTATUS .AND.
VVPG:FEE1:481:OUT
Commands: To Open:VVPG:FEE1:nnn:OPEN_CMD=1
To Close:VVPG:FEE1:nnn:CLOSE_CMD=1
where nnn=421,451,481
4.1.4 FEE Fast Shutter Valve and System Summary
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:E101:FSHR
Logic: A=VVPG:DMP1:881:OPENSTATUS .AND. VVFS:DMP:981:OPENSTATUS .AND.
VVPG:FEE1:111:OPENSTATUS .AND. VVFS:FEE1:E101:READY
Commands: To Open:VVPG:aaaa:nnn:OPEN_CMD=1
To Close:VVPG:aaaa:nnn:CLOSE_CMD=1
where aaaa:nnn=DMP1:881,DMP1:981,FEE1:111
4.1.5 FEE XTOD H Isolation Valve Summary
(formerly MPS Summary 5)
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:703:ISOL_H
Logic: A=VVPG:FEE1:761:OPENSTATUS .AND. VVPG:FEE1:851:OPENSTATUS .AND.
VVPG:FEE1:861:OPEN
Commands: To Open:VVPG:FEE1:nnn:OPEN_CMD=1
To Close:VVPG:FEE1:nnn:CLOSE_CMD=1
where nnn=761,851,861
4.1.6 FEE XTOD S1 Isolation Valve Summary
(formerly MPS Summary 6)
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This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:703:ISOL_S1
Logic: A=VVPG:FEE1:1721:OPENSTATUS .AND. VVPG:FEE1:1791:OPENSTATUS .AND.
VVPG:FEE1:1831:OPENSTATUS
Commands: To Open:VVPG:FEE1:nnn:OPEN_CMD=1
To Close:VVPG:FEE1:nnn:CLOSE_CMD=1
where nnn=1721,1791
4.1.7 FEE XTOD S2 Isolation Valve Summary
(formerly MPS Summary 7)
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:FEE1:703:ISOL_S2
Logic: A=VVPG:FEE1:2831:OPENSTATUS
Commands: To Open:VVPG:FEE1:2831:OPEN_CMD=1
To Close:VVPG:FEE1:2831:CLOSE_CMD=1
4.1.8 FEE Solid Attenuator 321 Position
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = SATT:FEE1:321:OUT
B = SATT:FEE1:321:IN
Commands: To Move Out: SATT:FEE1:321:CMD=0
To Move In: SATT:FEE1:321:CMD=1
4.1.9 FEE Solid Attenuator 322 Position
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
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In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = SATT:FEE1:322:OUT
B = SATT:FEE1:322:IN
Commands: To Move Out: SATT:FEE1:322:CMD=0
To Move In: SATT:FEE1:322:CMD=1
4.1.10 FEE Camera 1561 Position
(formerly Profile Monitor Controller (PMC:FEE1:701) CH0)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:FEE1:1561:OUT
B = CAMR:FEE1:1561:IN
Commands: To Move Out: CAMR:FEE1:1561:CMD=0
To Move In: CAMR:FEE1:1561:CMD=1
4.1.11 FEE Camera 852 Position
(formerly Profile Monitor Controller (PMC:FEE1:701) CH1)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:FEE1:852:OUT
B = CAMR:FEE1:852:IN
Commands: To Move Out: CAMR:FEE1:852:CMD=0
To Move In: CAMR:FEE1:852:CMD=1
4.1.12 FEE Camera 913 Position
Profile Monitor Controller (PMC:FEE1:701) CH2
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
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Where
A = CAMR:FEE1:913:OUT
B = CAMR:FEE1:913:IN
Commands: To Move Out: CAMR:FEE1:913:CMD=0
To Move In: CAMR:FEE1:913:CMD=1
4.1.13 FEE Camera 1692 Position
(formerly Profile Monitor Controller (PMC:FEE1:801) CH0)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:FEE1:1692:OUT
B = CAMR:FEE1:1692:IN
Commands: To Move Out: CAMR:FEE1:1692:CMD=0
To Move In: CAMR:FEE1:1692:CMD=1
4.1.14 FEE Camera 1953 Position
(formerly Profile Monitor Controller (PMC:FEE1:801) CH1)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:FEE1:1953:OUT
B = CAMR:FEE1:1953:IN
Commands: To Move Out: CAMR:FEE1:1953:CMD=0
To Move In: CAMR:FEE1:1953:CMD=1
4.1.15 FEE Camera 2953 Position
(formerly Profile Monitor Controller (PMC:FEE1:801) CH2)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Broken Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:FEE1:2953:OUT
B = CAMR:FEE1:2953:IN
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Commands: To Move Out: CAMR:FEE1:2923:CMD=0
To Move In: CAMR:FEE1:2953:CMD=1
5 Ignored When Stopper Set ST1/ST2, Or Stopper Set S1
5.1 NEH Hutch 1 XTOD Input Specifications
5.1.1 NEH1 XTOD H Isolation Valve Summary
(formerly MPS Summary 8)
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:NEH:703:ISOL_H
Logic: A=VVPG:NEH1:131:OPENSTATUS
Commands: To Open:VVPG:NEH1:131:OPEN_CMD=1
To Close:VVPG:NEH1:131:CLOSE_CMD=1
5.1.2 NEH1 XTOD S1 Isolation Valve Summary
(formerly MPS Summary 9)
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:NEH:703:ISOL_S1
Logic: A=VVPG:NEH1:1131:OPENSTATUS
Commands: To Open:VVPG:NEH1:1131:OPEN_CMD=1
To Close:VVPG:NEH1:1131:CLOSE_CMD=1
5.1.3 NEH1 XTOD S2 Isolation Valve Summary
(formerly MPS Summary 10)
This summary signal is boolean logic resolved by the PLC based on the end-of-travel microswitches
on the vacuum isolation valve bodies. See Figure 1 on page 7.
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = VMPS:NEH:703:ISOL_S2
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Logic: A=VVPG:NEH1:2131:OPENSTATUS
Commands: To Open:VVPG:NEH1:2131:OPEN_CMD=1
To Close:VVPG:NEH1:2131:CLOSE_CMD=1
5.1.4 NEH1 Camera 124 Position
(formerly Profile Monitor Controller (PMC:NEH1:101) CH0)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Fault Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:NEH1:124:OUT
B = CAMR:NEH1:124:IN
Commands: To Move Out: CAMR:FEE1:124:CMD=0
To Move In: CAMR:FEE1:124:CMD=1
5.1.5 NEH1 Camera 195 Position
(formerly Profile Monitor Controller (PMC:NEH1:101) CH1)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Fault Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:NEH1:195:OUT
B = CAMR:NEH1:195:IN
Commands: To Move Out: CAMR:FEE1:195:CMD=0
To Move In: CAMR:FEE1:195:CMD=1
5.1.6 NEH1 Camera 1124 Position
(formerly Profile Monitor Controller (PMC:NEH1:101) CH2)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Fault Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:NEH1:1124:OUT
______________________________________________________________________________________________________
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B = CAMR:NEH1:1124:IN
Commands: To Move Out: CAMR:FEE1:1124:CMD=0
To Move In: CAMR:FEE1:1124:CMD=1
5.1.7 NEH1 Camera 2124 Position
(for Profile Monitor Controller (PMC:NEH1:101) CH3)
Name Operation Status1 B A State
In Motion Fault F F Not-Out & Not-In
Out OK F T Out & Not-In
In OK T F Not-Out & In
Fault Fault T T Out & In
1 – Note: Beam is killed whenever operation status is Fault
Where
A = CAMR:NEH1:2124:OUT
B = CAMR:NEH1:2124:IN
Commands: To Move Out: CAMR:FEE1:2124:CMD=0
To Move In: CAMR:FEE1:2124:CMD=1
5.2 NEH Hutch 1 AMO Input Specifications
5.2.1 NEH AMO Laser Reference Mirror Position
Name Operation Status1 A
Out OK T
Not-Out Fault F
1 – Note: Beam is killed whenever operation status is Fault
Where
A = AMO-LASER-REF-OUT-LIMIT-SWITCH
Commands: To Move Out: TBS
To Move In: TBS
5.2.2 NEH AMO Focusing Optics Entrance Gate Valve KBO-VGC-01
Name Operation Status1 B A State
In Motion Fault F F Not-Open & Not-Closed
Open OK T F Open & Not-Closed
Closed Fault F T Not-Open & Closed
Broken Fault T T Open & Closed
1 – Note: Beam is killed whenever operation status is Fault
Where
A = KBO-VGC-01-A
B = KBO-VGC-01-B
Commands: To Open: TBS
To Close: TBS
______________________________________________________________________________________________________
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5.2.3 NEH AMO Focusing Optics Exit Gate Valve KBO-VGC-02
Name Operation Status1 B A State
In Motion Fault F F Not-Open & Not-Closed
Open OK T F Open & Not-Closed
Closed Fault F T Not-Open & Closed
Broken Fault T T Open & Closed
1 – Note: Beam is killed whenever operation status is Fault
Where
A = KBO-VGC-02-A
B = KBO-VGC-02-B
Commands: To Open: TBS
To Close: TBS
6 Ignored When Stopper Set ST1/ST2, Or Stopper Set S1, Or
Stopper Set HFP-MPA-02
6.1 HFP-MPA-02 Beam Stop Logic
Name B A State
In Motion F F Not-Out & Not-In
Out F T Out & Not-In
In T F Not-Out & In
Broken T T Out & In
Note: Items past HFP-MPS-02 are ignored when HFP-MPS-02 is in
Where
A = HFP-MPA-02-A
B = HFP-MPA-02-B
Commands: To Open: TBS
To Close: TBS
6.2 NEH Hutch 1 AMO Input Specifications
6.2.1 NEH AMO High Field Physics Chamber Gate Valve HFP-VGC-02
Name Operation Status1 B A State
In Motion Fault F F Not-Open & Not-Closed
Open OK T F Open & Not-Closed
Closed Fault F T Not-Open & Closed
Broken Fault T T Open & Closed
1 – Note: Beam is killed whenever operation status is Fault
Where
A = HFP-VGC-02-A
B = HFP-VGC-02-B
Commands: To Open: TBS
To Close: TBS
______________________________________________________________________________________________________
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6.2.2 NEH AMO Diagnostics Chamber Gate Valve DIA-VGC-02
Name Operation Status1 B A State
In Motion Fault F F Not-Open & Not-Closed
Open OK T F Open & Not-Closed
Closed Fault F T Not-Open & Closed
Broken Fault T T Open & Closed
1 – Note: Beam is killed whenever operation status is Fault
Where
A = DIA-VGC-02-A
B = DIA-VGC-02-B
Commands: To Open: TBS
To Close: TBS
7 Ignored When Stopper Set ST1/ST2, Or Stopper Set S2
7.1 NEH Hutch 2 SXR Input Specifications
7.1.1 Vacuum Valve 1
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
7.1.2 Vacuum Valve 2
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
7.1.3 Vacuum Valve 3
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
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Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
7.1.4 Vacuum Valve 4
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
7.1.5 Vacuum Valve 5
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
7.1.6 Vacuum Valve 6
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
7.1.7 Vacuum Valve 7
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
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1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
8 Ignored When Stopper Set ST1/ST2, Or Stopper Set SH1
8.1 NEH Hutch 3 XTOD Input Specifications
8.1.1 XTOD/NEH Vacuum Valve 3
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
8.2 NEH Hutch 3 SXR Input Specifications
8.2.1 Vacuum Valve 8
Name Operation Status1 B A State
Valve In Motion Fault F F TBS
Valve Open Fault F T TBS
Valve Closed OK T F TBS
Fault Fault T T TBS
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
B = TBS
8.3 NEH Hutch 3 XPP Input Specifications
8.3.1 Vacuum System Summary (Hutch 3)
Name Operation Status1 A
Fault Fault F
Ready OK T
1 – Note: Beam is killed whenever operation status is Fault
Where
A = TBS
______________________________________________________________________________________________________
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9 Signal to Channel Mapping Table
9.1 PPS Signals
Node
MPS Card Trunk
MPS Node Node Channel CAPTAR Pair
Device Name EPICS PV Rack No. ID Card No. No. No. Assignment
Stopper ST1 OUT STPR:FEE1:ST1:OUT B950S-04 NEH-MP01 S4 1 (B950S- 1
04, El. 1,
Trunk 3)
Stopper ST1 IN STPR:FEE1:ST1:IN B950S-04 NEH-MP01 S4 2 (B950S- 2
04, El. 1,
Trunk 3)
Stopper ST2 OUT STPR:FEE1:ST2:OUT B950S-04 NEH-MP01 S4 3 (B950S- 3
04, El. 1,
Trunk 3)
Stopper ST2 IN STPR:FEE1:ST2:IN B950S-04 NEH-MP01 S4 4 (B950S- 4
04, El. 1,
Trunk 3)
9.2 FEE XTOD Signals
Node
MPS Card Trunk
MPS Node Node Channel CAPTAR Pair
Device Name EPICS PV Rack No. ID Card No. No. No. Assignment
FEE Gas Flow Vacuum VMPS:FEE1:E202:ISO B950S-04 NEH-MP01 S1 1 LF01465 1
Isolation Valve V
Summary
FEE Gas Flow VMPS:FEE1:E202:APR B950S-04 NEH-MP01 S1 1 LF01465 2
Aperture Summary T
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Node
MPS Card Trunk
MPS Node Node Channel CAPTAR Pair
Device Name EPICS PV Rack No. ID Card No. No. No. Assignment
FEE Instrument VMPS:FEE1:E101:ISO B950S-04 NEH-MP01 S1 2 LF01465 3
Vacuum Isolation Valve L
Summary
FEE Fast Shutter Valve VMPS:FEE1:E101:FSH B950S-04 NEH-MP01 S1 3 LF01465 4
and System Summary R
MSP Summary 5 VMPS:FEE1:703:ISOL B950S-04 NEH-MP01 S1 4 LF01465 5
_H
MPS Summary 6 VMPS:FEE1:703:ISOL B950S-04 NEH-MP01 S1 5 LF01465 6
_S1
MPS Summary 7 VMPS:FEE1:703:ISOL B950S-04 NEH-MP01 S1 6 LF01465 7
_S2
Solenoid Controller 1 SATT:FEE1:329:IN B950S-04 NEH-MP01 S2 1 LF01461 1
IN_LIMIT_MPS0
Solenoid Controller 1 SATT:FEE1:329:OUT B950S-04 NEH-MP01 S2 2 LF01461 2
OUT_LIMIT_MPS0
Solenoid Controller 2 SATT:FEE1:321:IN B950S-04 NEH-MP01 S3 1 LF01463 1
IN_LIMIT_MPS0
Solenoid Controller 2 SATT:FEE1:321:OUT B950S-04 NEH-MP01 S3 2 LF01463 2
OUT_LIMIT_MPS0
Solenoid Controller 2 SATT:FEE1:322:IN B950S-04 NEH-MP01 S3 3 LF01463 3
IN_LIMIT_MPS1
Solenoid Controller 2 SATT:FEE1:322:OUT B950S-04 NEH-MP01 S3 4 LF01463 4
OUT_LIMIT_MPS1
Solenoid Controller 2 SATT:FEE1:323:IN B950S-04 NEH-MP01 S3 5 LF01463 5
IN_LIMIT_MPS2
Solenoid Controller 2 SATT:FEE1:323:OUT B950S-04 NEH-MP01 S3 6 LF01463 6
OUT_LIMIT_MPS2
Solenoid Controller 2 SATT:FEE1:324:IN B950S-04 NEH-MP01 S3 7 LF01463 7
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Node
MPS Card Trunk
MPS Node Node Channel CAPTAR Pair
Device Name EPICS PV Rack No. ID Card No. No. No. Assignment
IN_LIMIT_MPS3
Solenoid Controller 2 SATT:FEE1:324:OUT B950S-04 NEH-MP01 S3 8 LF01463 8
OUT_LIMIT_MPS3
Solenoid Controller 2 SATT:FEE1:325:IN B950S-04 NEH-MP01 S3 9 LF01463 9
IN_LIMIT_MPS4
Solenoid Controller 2 SATT:FEE1:325:OUT B950S-04 NEH-MP01 S3 10 LF01463 10
OUT_LIMIT_MPS4
Solenoid Controller 2 SATT:FEE1:326:IN B950S-04 NEH-MP01 S3 11 LF01463 11
IN_LIMIT_MPS5
Solenoid Controller 2 SATT:FEE1:326:OUT B950S-04 NEH-MP01 S3 12 LF01463 12
OUT_LIMIT_MPS5
Solenoid Controller 2 SATT:FEE1:327:IN B950S-04 NEH-MP01 S3 13 LF01464 1
IN_LIMIT_MPS6
Solenoid Controller 2 SATT:FEE1:327:OUT B950S-04 NEH-MP01 S3 14 LF01464 2
OUT_LIMIT_MPS6
Solenoid Controller 2 SATT:FEE1:328:IN B950S-04 NEH-MP01 S3 15 LF01464 3
IN_LIMIT_MPS7
Solenoid Controller 2 SATT:FEE1:328:OUT B950S-04 NEH-MP01 S3 16 LF01464 4
OUT_LIMIT_MPS7
FEE Camera 1561 CAMR:FEE1:1561:IN B950S-04 NEH-MP01 S5 1 B950S-04, 1
Position, Target In, EL 22,
( MPS_A0 ) TRUNK
A
FEE Camera 1561 CAMR:FEE1:1561:OU B950S-04 NEH-MP01 S5 2 B950S-04, 2
Position, Target Out, T EL 22,
(MPS_A1) TRUNK
A
FEE Camera 852 CAMR:FEE1:852:IN B950S-04 NEH-MP01 S5 3 B950S-04, 7
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Node
MPS Card Trunk
MPS Node Node Channel CAPTAR Pair
Device Name EPICS PV Rack No. ID Card No. No. No. Assignment
Position, Target In, EL 22,
(MPS_A6) TRUNK
A
FEE Camera 852 CAMR:FEE1:852:OUT B950S-04 NEH-MP01 S5 4 B950S-04, 8
Position, Target Out, EL 22,
(MPS_A7) TRUNK
A
FEE Camera 913 CAMR:FEE1:913:IN B950S-04 NEH-MP01 S5 5 B950S-04, 1
Position, Target In, EL 22,
(MPS_A12) TRUNK
B
FEE Camera 913 CAMR:FEE1:913:OUT B950S-04 NEH-MP01 S5 6 B950S-04, 2
Position, Target Out, EL 22,
(MPS_A13) TRUNK
B
FEE Camera 1692 CAMR:FEE1:1692:IN B950S-04 NEH-MP01 S5 7 B950S-04, 1
Position, Target In, EL22,
(MPS_A0) TRUNK
C
9.3 NEH Hutch 1 XTOD Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
( Section 5.1.2 ) VMPS:NEH:70 B950S-04 NEH-MP01 S6 2 B950S-04, 2
3:ISOL_S1 EL 13,
LF01466
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
( Section 5.1.3 ) VMPS:NEH:70 B950S-04 NEH-MP01 S6 3 B950S-04, 3
3:ISOL_S2 EL13,
LF01466
( Section 5.1.4 ) VMPS:NEH1:E B950S-04 NEH-MP01 S6 4 B950S-04, 4
211 EL13,
LF01466
( Section 5.1.5 ) TBS B950S-04 NEH-MP01 S6 5 B950S-04, 5
EL13,
LF01466
( Section 5.1.6 ) TBS B950S-04 NEH-MP01 S6 6 B950S-04, 6
EL13,
LF01466
NEH Camera 124 CAMR:NEH1: B950S-04 NEH-MP01 S6 7 B950S-04, 1
Position, Target In, 124:IN Front, EL 03,
(MPS_A0) TRUNK E
NEH Camera 124 CAMR:NEH1: B950S-04 NEH-MP01 S6 8 B950S-04, 2
Position, Target Out, 124:OUT Front, EL 03,
(MPS_A1) TRUNK E
NEH Camera 195 CAMR:NEH1: B950S-04 NEH-MP01 S6 9 B950S-04, 7
Position, Target In, 195:IN Front, EL 03,
(MPS_A6) TRUNK E
NEH Camera 195 CAMR:NEH1: B950S-04 NEH-MP01 S6 10 B950S-04, 8
Position, Target Out, 195:OUT Front, EL 03,
(MPS_A7) TRUNK E
NEH Camera 1124 CAMR:NEH1: B950S-04 NEH-MP01 S6 11 B950S-04, 1
Position, Target In, 1124:IN Front, EL 03,
(MPS_A12) TRUNK F
NEH Camera 1124 CAMR:NEH1: B950S-04 NEH-MP01 S6 12 B950S-04, 2
Position, Target Out, 1124:OUT Front, EL 03,
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
(MPS_A13) TRUNK F
NEH Camera 2124 CAMR:NEH1: B950S-04 NEH-MP01 S6 13 B950S-04, 7
Position, Target In, 2124:IN Front, EL 03,
(MPS_A18) TRUNK F
NEH Camera 2124 CAMR:NEH1: B950S-04 NEH-MP01 S6 14 B950S-04, 8
Position, Target Out, 2124:OUT Front, EL 03,
(MPS_A19) TRUNK F
9.4 NEH Hutch 3 XTOD Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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9.5 X-Ray Transport Tunnel XTOD Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.6 Far Experimental Hall XTOD Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.7 X-Ray Transport Tunnel CXI Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.8 Far Experimental Hall CXI Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.9 Far Experimental Hall XCS Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.10 NEH Hutch 1 SXR Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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9.11 NEH Hutch 3 SXR Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.12 NEH Hutch 2 XPP Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.13 NEH Hutch 3 XPP Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
9.14 NEH Hutch 1 AMO Signals
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
NEH AMO Laser SAS-MMM-01-A B950S-04 NEH-MP02 S1 1 LF01466 7
Reference Mirror
Position: Fully In
NEH AMO Laser SAS-MMM-01-B B950S-04 NEH-MP02 S1 2 LF01466 8
Reference Mirror
Position: Fully Out
NEH AMO Focusing AMO-KBO- B950S-04 NEH-MP02 S1 5 LF01466 11
Optics Entrance Gate VGC-01-B
Valve: Open
NEH AMO Focusing AMO-KBO- B950S-04 NEH-MP02 S1 6 LF01466 12
Optics Entrance Gate VGC-01-A
Valve: Closed
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Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
NEH AMO Focusing AMO-KBO- B950S-04 NEH-MP02 S1 7 LF01469 1
Optics Exit Gate VGC-02-B
Valve: Open
NEH AMO Focusing AMO-KBO- B950S-04 NEH-MP02 S1 8 LF01469 2
Optics Exit Gate VGC-02-A
Valve: Closed
NEH AMO High AMO-HFP- B950S-04 NEH-MP02 S1 9 LF01469 3
Field Physics Chamber VGC-02-B
Gate Valve: Open
NEH AMO High AMO-HFP- B950S-04 NEH-MP02 S1 10 LF01469 4
Field Physics Chamber VGC-02-A
Gate Valve: Closed
NEH AMO AMO-DIA- B950S-04 NEH-MP02 S1 11 LF01469 5
Diagnostics Chamber VGC-02-B
Gate Valve: Open
NEH AMO AMO-DIA- B950S-04 NEH-MP02 S1 12 LF01469 6
Diagnostics Chamber VGC-02-A
Gate Valve: Closed
(Reserved for possible AMO-HFP- B950S-04 NEH-MP02 S1 13 LF01469 7
future use) MPA-02-A
(Reserved for possible AMO-HFP- B950S-04 NEH-MP02 S1 14 LF01469 8
future use) MPA-02-B
NEH AMO HFP AMO-HFP- B950S-04 NEH-MP02 S1 15 LF01469 9
Beam Stop: Fully In MPA-02-A
NEH AMO HFP AMO-HFP- B950S-04 NEH-MP02 S1 16 LF01469 10
Beam Stop: Fully Out MPA-02-B
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
Check the LCLS Project website to verify
39 of 40 that this is the correct version prior to use.
SLAC National Accelerator Laboratory
Node Card Trunk
Rack MPS Node Channel CAPTAR Pair
Device Name EPICS PV No. MPS Node ID Card No. No. No. Assignment
______________________________________________________________________________________________________ MPSLogic 1.6-131 V7
Check the LCLS Project website to verify
40 of 40 that this is the correct version prior to use.
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