CONTROLS REQUIREMENTS FOR NuMI
10-Aug-05
Ref # System / Device Name Controller MADC     Twinax MADC       BNC/TWIN MADC       BNC Beam Permit Controls Assignments Comments Contact
MI-60 Service Building - South      " 60S"           Existing Controls Infrastructure is Thought to be Adequate Here for NuMI Requirements.
1 Single Turn Extraction Kicker I:KPS6N 466 3 1 4A 1D CC $63 N7 PS in South PS Room.  Controls for PS in South Equipment Room.  ~MI60124 Chris Jensen
2 Main Injector Performance Parameters Alberto is the Lead Here and Will Be Joined by Others Alberto Marchionni
2-1 Beam in the NuMI Kicker Gap Before NuMI Extraction (Unwanted Beam from P-Bar Production or Misplaced Beam)  I:BNKG Custom 1 1A 1D I:BNKGST
Associated Sample Time
Planning on a Direct Connection to the 200 Module as Well as Supervision by C204/PCI.
Alexei's Hardware in Rack MI60004.
Alberto March.
Alexei Semenov
2-2 P-Bar Extraction Through P150 Line Not Exceptionally Lossy I:LM701       I:LM702       I:LM703       I:LM707       I:LM708 5 Channels Relocated to MADC #65, Channels 0 to 4 to Get Really Fast Service.
In Consultation with Sam Childress on May 31, 2005, Decided NOT to Have the Beam Permit System Monitor these P1 Line Loss Monitors.
Alberto Marchionni
3 Flourinert Cooling System with Local PID Controller I:K6COOL 217 10 3A CC $63 N8 Skid in South Power Supply Room Chris Jensen    Scott Reeves
4 NuMI Clock Event Scaler 333 CC $63 N17 Custom Configured Module
333 Version 7.0
Rupe Crouch
Bob Ducar
4-1 NuMI Beam Cycle Counter E:NBCCNT CC $63 N17 A(0) $A5->$19->$52->$22->$A9 Rupe Crouch
Bob Ducar
4-2 Begin NuMI Cycle
(Coincident with Main Injector $23 Reset)
E:EA5CNT CC $63 N17 A(1) $A5 Rupe Crouch
Bob Ducar
4-3 Booster Beam Reset for NuMI
(With or Without Actual Beam)
E:E19CNT CC $63 N17 A(2) $19 Rupe Crouch
Bob Ducar
4-4 Booster Beam Reset for NuMI
(With Actual Beam)
E:E19BMC CC $63 N17 A(3) $19 -> $52 Rupe Crouch
Bob Ducar
4-5 NuMI Cycle Sample Time E:EA4CNT CC $63 N17 A(4) $A4 Rupe Crouch
Bob Ducar
4-6 Reflected MIBS $74
(Extract NuMI Beam from Main Injector)
E:EEA9CNT CC $63 N17 A(5) $A9 Rupe Crouch
Bob Ducar
4-7 NuMI Beam Permit Fall
(Transition to Inhibit Beam)
E:EA6CNT CC $63 N17 A(6) $A6 Rupe Crouch
Bob Ducar
4-8 NuMI Beam Permit Sytem Reset
(Event Issued Twice Upon Reset)
E:EA8CNT CC $63 N17 A(7) $A8
(Parameter has Scaling of 0.5)
Rupe Crouch
Bob Ducar
4-9 Reset All  Above Parameters to Zero Count E:NCECR CC $63 N17 Kent Triplett
Bob Ducar
5 NuMI Clock Event Scaler 333 CC $63 N16 Custom Configured Module
333 Version 10.0
Kent Triplett
Rupe Crouch
5-1 I:BNKG NuMI Beam Permit C200 Input
Trip Counter 
I:BNKGCT 333 CC $63 N16 A(7) Kent Triplett
Rupe Crouch
6 MIBS Timing Channel Ref $74 I:K6NKD0 479 CC $63 N20 A(0) Actually Fires the Kicker.  NuMI BP ANDed with Pulse Output within the Module. Greg Vogel          Bob Ducar
7 TCLK Timer:                                                            MIBS $74 Request, Ref $A5 I:MINX 377 CC $94 N3 A2 Channel Already Assigned by Vogel Chris Jensen              Greg Vogel
8 TCLK Timer  377 CC $63 N19 May Not Be Needed If Other Channels Are Free Greg Vogel        Bob Ducar
9 Digital In - Digital Out Facility 284 CC $63 N1 Potential for Control and Monitor of Local Systems.  May Be Needed for Flourinert Cooling System. Greg Vogel        Bob Ducar
10 MADC Facility - Existing in Rack MI60124 MADC #65 290 CC $63 N23 14 Bit Resolution MADC Is Required Here and Is Already Installed.  Lots of Free Channels Currently Available. Ryan Hagler
Rupe Crouch
11 NuMI Beam Permit 200 CC $63 N22 This Location is the End of the Beam Permit "Loop".  Location of 201 is at MINOS Service Building. Greg Vogel        Bob Ducar
11-1 Radiation Safety System                              Beam Permit Input 1D Best Location for Connection to Beam Permit System Chuck Worel      Bob Ducar
12 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #65 1D CC $63 N21 Output to Local 200 Beam Permit Module. Al Franck          Bob Ducar
13 Ethernet Connectivity Already Exists at this Location Dan Stenman
14 VME with Connection to Ethernet Already Exists at this Location Dan Stenman
15 ACNET Console X Terminal Already Exists at this Location Dan Stenman
         
MI-60 Service Bldg - North       "60N"           Existing Controls Infrastructure is Thought to be Adequate Here for Most NuMI Requirements.  
1 Lambertson Power Supply for LAM60 I:LAM60 468 5  ** 3A 1D CC $73 N2-3 500 kW PEI in North Equipment Gallery with Output Filter.  Ramped.  Critical Device Steve Hays
2 Lambertson Power Supply for LAM61A and LAM61B I:LAM61 468 6  *** 3A 1D CC $73 N4-5 500 kW PEI in North Equipment Gallery with Output Filter.  Ramped.  Critical Device Steve Hays
3 C Magnet Power Supply E:V100 468 5  ** 3A 1D CC $73 N6-7 500 kW PEI in North Equipment Gallery with Output Filter.  Ramped. Steve Hays
4 EPB Dipole String (6) E:HV101 468 8 **** 3A 1D CC $73 N8-9 Two Series 500 kW PEIs in North Equipment Gallery with Output Filter.  Ramped.
Critical Device
Steve Hays
4-1 Local PLC for Extended Power Supply Status Status Supplied to Associated 468 Module Steve Hays
5 Quadrupole Power Supply (3Q120) E:QD101 466 4  * 2A CC $73 N10 20 kW PEI.  In North Equipment Gallery.   Steve Hays
6 Quadrupole Power Supply (3Q120) E:QF102 466 4  * 2A CC $73 N11 20 kW PEI.  In North Equipment Gallery. Steve Hays
7 Quadrupole Power Supply (3Q120) E:QD103 466 4  * 2A CC $73 N12 20 kW PEI.  In North Equipment Gallery. Steve Hays
8 Quadrupole Power Supply (3Q60) E:QF104 466 4  * 2A CC $73 N13 20 kW PEI.  In North Equipment Gallery.
Not Planning to Ramp this Quad.
Steve Hays
9 Quadrupole Power Supply (3Q120) E:QF105 466 4  * 2A CC $73 N14 20 kW PEI.  In North Equipment Gallery. Steve Hays
10 Quadrupole Power Supply (3Q120) E:QD106 466 4  * 2A CC $73 N15 20 kW PEI.  In North Equipment Gallery. Steve Hays
  Spare 20 kW PEI Controller
Formerly Dedicated to E:H104
Spare 466 4  *     2A CC $73 N16 20 kW PEI.  In North Equipment Gallery.
Being Decommissioned in Favor of E:HT104
Steve Hays
* MADC #38 Monitors for Q101 thru Q106 Current Reference (F), Current Out, Current Error (E) and Voltage Out (V).  First Two Analog Monitors Examined by Beam Permit.
** MADC #38 Monitors for LAM60 and V100 Current Reference (F), Current Out, Current Error (E), Unfiltered Voltage Out (U), and Filtered Voltage Out (V).  First Three Monitors Examined by Beam Permit.  "In Regulation" Digital Status Also to Beam Permit.
*** MADC #38 Monitors for LAM61 Current Reference (F), Current Out, Current Error (E), Plus Volts to Gnd (P), Neg Volts to Gnd (N), and Filtered Voltage Out (V).  First Three Monitors Examined by Beam Permit.  "In Regulation" Digital Status Also to Beam Permit.
**** MADC #38 Monitors for HV101 Current Reference (F), Current Out, Current Error (E), Plus Volts to Gnd (P), Neg Volts to Gnd (N), Filtered Voltage Out (V), and 2 x Unfiltered Voltage Out (AU & BU).  First Three Monitors Examined by Beam Permit.  "In Regulation" Digital Status Also to Beam Permit.
11 Trim Element Regulators (11) The CAMAC 453 Slot Assignments Reflect a Reordering Suggested by  Leon Bartelson to Align Controls Modules with Regulator Placement. These Trims Elements Controlled from Existing MI Regulator System at MI-60 North in Equipment Rack MI60205 Leon Bartelson
11-1 Horizontal Trim Element #1 Located Upstream of HV101-1 EPB Dipole E:HT101 .25 x 453 4 * No CC $74 N12-13 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-2 Vertical Trim Element #2 Located Upstream of Q103 E:VT103 .25 x 453 4 * No CC $74 N12-13 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-3 Horizontal Trim Element #3 Located Downstream of Q105 E:HT105 .25 x 453 4 * No CC $74 N12-13 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-4 Vertical Trim Element #4 Located Downstream of Q106 E:VT106 .25 x 453 4 * No CC $74 N12-13 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-5 Horizontal Trim Element #5 Located Downstream of Q107 E:HT107 .25 x 453 4 * No CC $74 N14-15 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-6 Vertical Trim Element #6 Located Upstream of Q108 E:VT108 .25 x 453 4 * No CC $74 N14-15 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-7 Horizontal Trim Element #7 Located Upstream of Q109 E:HT109 .25 x 453 4 * No CC $74 N14-15 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-8 Vertical Trim Element #8 Located Upstream of Q110 E:VT110 .25 x 453 4 * No CC $74 N14-15 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-9 Vertical Trim Element #9 Located Upstream of Q111 E:VT111 .25 x 453 4 * No CC $74 N16-17 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-10 Horizontal Trim Element #10 Located Upstream of Q112 E:HT112 .25 x 453 4 * No CC $74 N16-17 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
11-11 Horizontal Trim Element #11 Located Downstream of Q104 E:HT104 .25 x 453 4 * No CC $74 N16-17 This Spare Channel Now Assigned to HT104 to Attain Bipolar Operation of the Trim Leon Bartelson
11-12 Spare Channel .25 x 453 CC $74 N16-17 Leon Bartelson
11-13 Trim Element Bulk Power Supply             Voltage Output I:CPS6NV 1 1A MADC #44 Tee Off Existing Monitor Channel Leon Bartelson
* MADC Monitors for Trim Elements All MADC Monitors Wire Directly to MADC #77 in Rack MI60205.  Analog Monitors Include:  Vref, Vout, I out, I rms.  "Tracking" Status Bit Not Readily Available for Examination by Beam Permit.   Installation of 204/PCI Not Viewed Favorably.  Consider an ACNET Software Solution to Solving Beam Permit Problem.
12 Beam Position Detectors  (13 Total) Located Here at MI-60N to Save 8K Ft of Cable.   Using 3/8" Andrew Heliax LDF2RN-50 Cable.  Suggest Positioning VME Crate in Rack MI60203. Peter Prieto
Sam Childress
12-1 Vertical BPM Downstream of Q101 E:VP101 VME Ethrnt No Four BPMs per VME Module Peter Prieto
Sam Childress
12-2 Horizontal BPM Downstream of Q101 E:HP101 VME Ethrnt No Peter Prieto
Sam Childress
12-3 Horizontal BPM Downstream of Q102 E:HP102 VME Ethrnt No Peter Prieto
Sam Childress
12-4 Vertical BPM Downstream of Q103 E:VP103 VME Ethrnt No   Peter Prieto
Sam Childress
12-5 Horizontal BPM Upstream of Q104 E:HP104 VME Ethrnt No Four BPMs per VME Module Peter Prieto
Sam Childress
12-6 Horizontal BPM Upstream of Q105 E:HP105 VME Ethrnt No Peter Prieto
Sam Childress
12-7 Vertical BPM Upstream of Q106 E:VP106 VME Ethrnt No Peter Prieto
Sam Childress
12-8 Horizontal BPM Upstream of Q107 E:HP107 VME Ethrnt No   Peter Prieto
Sam Childress
12-9 Vertical BPM Upstream of Q108 E:VP108 VME Ethrnt No Four BPMs per VME Module Peter Prieto
Sam Childress
12-10 Horizontal BPM Downstream of Q109 E:HP109 VME Ethrnt No Peter Prieto
Sam Childress
12-11 Vertical BPM Downstream of Q110 E:VP110 VME Ethrnt No Peter Prieto
Sam Childress
12-12 Vertical BPM Downstream of Q111 E:VP111 VME Ethrnt No   Peter Prieto
Sam Childress
12-13 Horizontal BPM Downstream of Q112 E:HP112 VME Ethrnt       No   Four BPMs per VME Module Peter Prieto
Sam Childress
13 Main Injector Beam Position Detectors for Orbit Verification
(4 Total)
Peter Prieto
Duane Voy
Sam Childress
13-1 Horizontal Position at Q606 for MI Orbit Verification Before NuMI Extraction I:HP606N
I:HI606N
VME Ethrnt 2 1 MADC #44 VME Crate Located in Rack MI60210 Peter Prieto
Duane Voy
Sam Childress
13-2 Vertical Position at Q607 for MI Orbit Verification Before NuMI Extraction I:VP607N
I:VI607N
VME Ethrnt 2 2 MADC #44 VME Crate Located in Rack MI60210 Peter Prieto
Duane Voy
Sam Childress
13-3 Horizontal Position at Q608 for MI Orbit Verification Before NuMI Extraction I:HP608N
I:HI608N
VME Ethrnt 2 1 MADC #44 VME Crate Located in Rack MI60210 Peter Prieto
Duane Voy
Sam Childress
13-4 Vertical Position at Q609 for MI Orbit Verification Before NuMI Extraction I:VP609N
I:VI609N
VME Ethrnt 2     1 MADC #44 VME Crate Located in Rack MI60210 Peter Prieto
Duane Voy
Sam Childress
14 Profile Monitors  (5 Total) Equipment Mostly in Rack MI60218. Sacha Kopp               Gianni Tassotto       Dan Schoo
14-1 Profile Monitor Downstream of Q101 E:PM101
(E:M101DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-2 Profile Monitor Upstream of Q105 E:PM105
(E:M105DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-3 Profile Monitor Upstream of Q107 E:PM107
(E:M107DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-4 Profile Monitor Upstream of Q108 E:PM108
(E:M108DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-5 Reserved for Possible Future Profile Monitor PM111 E:PM111 ARCNET VME Ethrnt Cables Pulled for Motion Control But No Cables for Signals at this Time. Sacha Kopp      Al Franck
14-6 Profile Monitor Downstream of Q112 E:PM112
(E:M112DS)
ARCNET VME Ethrnt       No     Sacha Kopp      Al Franck
14-7 Clearing Voltage PS for PM101 E:PM101V .25 x 052 1 No CC $70 N7 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-8 Clearing Voltage PS for PM105 E:PM105V .25 x 052 1 No CC $70 N7 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-9 Clearing Voltage PS for PM107 E:PM107V .25 x 052 1 No CC $70 N7 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-10 Clearing Voltage PS for PM108 E:PM108V .25 x 052 1 No CC $70 N7 A3 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-11 Clearing Voltage PS for Possible Future Profile Monitor PM111 E:PM111V .25 x 052 CC $70 N8 A1 Cable Pulled Sacha Kopp
Dan Schoo
14-12 Clearing Voltage PS for PM112 E:PM112V .25 x 052     1 No CC $70 N8 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
15 Loss Monitors (Chassis #1) Reg Loss Monitor Electronics Packages 12 Channels in One Chassis with HV Supply.  Located in Rack MI60226 to Connect Outputs to MADC #44. Gianni Tassotto      Marv Olson
15-1 Regular Loss Monitor HV Supply Output Chassis #1 E:LMHV1O 1 1A Nominally Set at 2,000 Volts  Gianni Tassotto      Marv Olson
15-2 Regular Loss Monitor HV Supply Return Chassis #1 E:LMHV1R 1 1A Gianni Tassotto      Marv Olson
15-3 Loss Monitor #1 at KM602A I:LMNKMA 1 1A Log Amp with 5 Decades (Typical) Gianni Tassotto      Marv Olson
15-4 Loss Monitor #2 at KM602B I:LMNKMB 1 1A Gianni Tassotto      Marv Olson
15-5 Loss Monitor #3 at KM602C I:LMNKMC 1 1A Gianni Tassotto      Marv Olson
15-6 Loss Monitor #4 at LAM60 I:LML60 1 1A Gianni Tassotto      Marv Olson
15-7 Loss Monitor #5 at LAM61A I:LML61A 1 1A Gianni Tassotto      Marv Olson
15-8 Loss Monitor #6 at LAM61B I:LML61B 1 1A Gianni Tassotto      Marv Olson
15-9 Loss Monitor #7 at V100 E:LMV100 1 1A Gianni Tassotto      Marv Olson
15-10 Loss Monitor #8 at Q101 E:LMQ101 1 1A Gianni Tassotto      Marv Olson
15-11 Loss Monitor #9 at HV101-1 E:LM1011 1 1A Gianni Tassotto      Marv Olson
15-12 Loss Monitor #10 at HV101-2 E:LM1012 1 1A Gianni Tassotto      Marv Olson
15-13 Loss Monitor #11 at Q102 E:LMQ102       1 1A     Gianni Tassotto      Marv Olson
16 Loss Monitors (Chassis #2) Reg Loss Monitor Electronics Packages 12 Channels in One Chassis with HV Supply.  Located in Rack MI60226 to Connect Outputs to MADC #44. Gianni Tassotto      Marv Olson
16-1 Regular Loss Monitor HV Supply Output Chassis #2 E:LMHV2O 1 1A Gianni Tassotto      Marv Olson
16-2 Regular Loss Monitor HV Supply Return Chassis #2 E:LMHV2R 1 1A Gianni Tassotto      Marv Olson
16-3 Loss Monitor #1 at HV101-3 E:LM1013 1 1A Gianni Tassotto      Marv Olson
16-4 Loss Monitor #2 at HV101-4 E:LM1014 1 1A Gianni Tassotto      Marv Olson
16-5 Loss Monitor #3 at HV101-5 E:LM1015 1 1A Gianni Tassotto      Marv Olson
16-6 Loss Monitor #4 at Q103 E:LMQ103 1 1A Gianni Tassotto      Marv Olson
16-7 Loss Monitor #5 at HV101-6 E:LM1016 1 1A Gianni Tassotto      Marv Olson
16-8 Loss Monitor #6 at Q104 E:LMQ104 1 1A Gianni Tassotto      Marv Olson
16-9 Loss Monitor #7 at HT104 E:LMHT04 1 1A Formerly E:LMH104 Gianni Tassotto      Marv Olson
16-10 Loss Monitor #8 at Q105 E:LMQ105 1 1A Gianni Tassotto      Marv Olson
16-11 Loss Monitor #9 at Q106 E:LMQ106 1 1A Gianni Tassotto      Marv Olson
16-12 Loss Monitor #10 at Q107 E:LMQ107       1 1A     Gianni Tassotto      Marv Olson
17 Main Injector Beam Quality Loss Monitors (Chassis #6) Gianni Tassotto      Marv Olson
17-1 Main Injector Beam Quality Loss Monitor HV Supply Output Chassis #6 I:LMHV6O 1 1A MADC #44 Gianni Tassotto      Marv Olson
17-2 Main Injector Beam Quality Loss Monitor HV Supply Return Chassis #6 I:LMHV6R 1 1A MADC #44 Gianni Tassotto      Marv Olson
17-3 MI Beam Quality Loss Monitor at Q608 Area I:LMQ608 1 1A MADC #44 Gianni Tassotto      Marv Olson
17-4 MI Beam Quality Loss Monitor at Q612 Area I:LMQ612       1 1A MADC #44   Gianni Tassotto      Marv Olson
18 Other Instrumentation
18-1 Beam Intensity Toroid #1 - Upstream E:TOR101
E:TR101D
NIM Module and a 284 1 1A MADC #44
CC $70 N15
Requires a 479 Timing Channel (CC $70 N17 A(0)) for Sampling at the Right Time.  This Timer Or'd with a 377 Timing Channel (CC $70 N16 A(6)) to Clear/Calibrate Without Beam. Peter Prieto
Greg Vogel
Dallas H.
18-2 Magnetic Flux Sensors by HV101 String E:FLXHn -
E:FLXVn
Custom 8 No MADC #59 G. Koizumi
Dan Schoo
18-3 Temperature Sensors by HV101 String E:NTMP1 -
E:NTEM9
Custom     9 No MADC #44   G. Koizumi
Dan Schoo
19 Vacuum (MI System Additions) ARCNET VME Ethrnt Existing CIA Crate Located Here is Sufficient Leon Bartelson      Jim Klen
19-1 40 L/sec Ion Pumps (Quantity 12) I:IPxxxx No 4 for Each of Three Lambertsons Leon Bartelson      Jim Klen
19-2 Pirani Gauges I:PGxxxx         No   Proximate to Lambertsons Leon Bartelson      Jim Klen
20 TCLK Timing Capability 377 CC $70 N16 For Local Instrumentation Al Franck                Bob Ducar
21 MIBS Timing Capability 479 CC $70 N17 Thought Useful for Instrumentation Greg Vogel        Bob Ducar
22 MADC Facility - Existing in Rack MI60219 MADC #38 290 CC $73 N23 14 Bit Resolution MADC Is Required Here and Is Already Installed Ryan Hagler
Rupe Crouch
23 MADC Facility - Existing in Rack MI60226 MADC #44 290 CC $70 N23 Ryan Hagler
Rupe Crouch
24 MADC Facility - Existing in Rack MI60205 MADC #77 290 CC $74 N21 Dedicated to Trim Elements Ryan Hagler
Rupe Crouch
25 NuMI Beam Permit 200 CC $73 N22 Already Installed Greg Vogel        Bob Ducar
26 NuMI Beam Permit 200 CC $70 N19 Relocated From CC $73 N21. Greg Vogel        Bob Ducar
27 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #38 1D CC $73 N21 Output to Local 200 Beam Permit Module.  30 Power Supply Monitor Channels. Al Franck            Bob Ducar
28 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #44 1D CC $70 N18 Output to Local 200 Beam Permit Module.  24 Loss Monitor Channels. Al Franck            Bob Ducar
29 Ethernet Connectivity Already Exists at this Location Dan Stenman
30 VME with Connection to Ethernet Already Exists at this Location Dan Stenman
31 ACNET Console X Terminal Already Exists at this Location Dan Stenman
           
MI-62 Service Building      "62SB"           Basic Controls Infrastructure is Present.  Four New Racks (MI62111-114) Have Been Installed in Controls/Kicker Room.  These Will Support Vacuum (111 & 112) and Instrumentation (113 & 114).  
1 B2 Dipole String (6) E:V108 468 7 ** 3A 1D CC $6C N1-2 A Relocated Main Ring Power Supply Will Accommodate This Load.  Located in Power Supply Room. Steve Hays
2 Quadrupole Power Supply (3Q120) E:QF107 466 4  * 2A CC $6C N3 20 kW PEI In Power Supply Room Steve Hays
3 Quadrupole Power Supply (3Q120) E:QD108 466 4  * 2A CC $6C N4 20 kW PEI In Power Supply Room Steve Hays
4 Quadrupole Power Supply (3Q120) E:QF109 466 4  * 2A CC $6C N5 20 kW PEI In Power Supply Room Steve Hays
5 Quadrupole Power Supply (3Q60) E:QD110 466 4  * 2A CC $6C N6 20 kW PEI In Power Supply Room.
Not Planning to Ramp this Quad.
Steve Hays
6 Quadrupole Power Supply (3Q120) E:QD111 466 4  * 2A CC $6C N7 20 kW PEI In Power Supply Room Steve Hays
7 Quadrupole Power Supply (3Q120) E:QF112 466 4  *     2A CC $6C N8 20 kW PEI In Power Supply Room Steve Hays
* MADC #79 Monitors for Q107 thru Q112 Current Reference (F), Current Out, Current Error (E) and Voltage Out (V).  First Two Analog Monitors Examined by Beam Permit.
** MADC #79 Monitors for V108 Current Reference (F), Current Out, Current Error (E),  Unfiltered Voltage Out (U), Filtered Voltage Out (V), Plus Volts to Gnd (P), and Neg Volts to Gnd (N).  First Three Monitors Examined by Beam Permit.  "In Regulation" Digital Status Also to Beam Permit.
8 Loss Monitors (Chassis #3) Reg Loss Monitor Electronics Packages 12 Channels in One Chassis with HV Supply.  Located in Rack MI62106 for Proximity to MADC #79. Gianni Tassotto      Marv Olson
8-1 Regular Loss Monitor HV Supply Output Chassis #3 E:LMHV3O 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-2 Regular Loss Monitor HV Supply Return Chassis #3 E:LMHV3R 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-3 Loss Monitor #1 at Q108 E:LMQ108 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-4 Loss Monitor #2 at V108-1 E:LM1081 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-5 Loss Monitor #3 at V108-2 E:LM1082 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-6 Loss Monitor #4 at Q109 E:LMQ109 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-7 Loss Monitor #5 at V108-3 E:LM1083 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-8 Loss Monitor #6 at V108-4 E:LM1084 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-9 Loss Monitor #7 at Q110 E:LMQ110 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-10 Loss Monitor #8 at V108-5 E:LM1085 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-11 Loss Monitor #9 at V108-6 E:LM1086 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-12 Loss Monitor #10 at Q111 E:LMQ111 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-13 Loss Monitor #11 at Q112 E:LMQ112 1 1A MADC #79 Gianni Tassotto      Marv Olson
8-14 Loss Monitor #12 at Beginning of Big (12") Beam Pipe Downstream of Q112 E:LMBBBP       1 1A MADC #79   Gianni Tassotto      Marv Olson
9 Total Loss Monitors (4 Total) These TLMs Are Likely to be Inputs to Beam Loss Budget Monitor (BLBM) Facility - Especially E:TLMCTU.  Suggest Location of Electronics in Rack MI62114. Gianni Tassotto
9-1 Total Loss Monitor #1 for NuMI Stub and Peter's Porch E:TLMNS 1 1A MADC #79 Approximately 193 Feet Long. Gianni Tassotto
9-2 Total Loss Monitor #2 for Carrier Tunnel Upstream End E:TLMCTU 1 1A MADC #79 Approximately 220 Feet Long. Gianni Tassotto
9-3 Total Loss Monitor #3 for Carrier Tunnel Downstream End E:TLMCTD 1 1A MADC #79 Approximately 194 Feet Long. Gianni Tassotto
9-4 Total Loss Monitor #4 for Pre-Target Area E:TLMPT 1 1A MADC #79 Approximately 182 Feet Long. Gianni Tassotto
9-5 Total Loss Monitor High Voltage Power Supply Control E:TLMHVS 118 CC $6C N9 Gianni Tassotto
Dan Schoo
9-6 Total Loss Monitor High Voltage Out E:TLMHVO 1 1A MADC #79 Gianni Tassotto
9-7 Total Loss Monitor High Voltage Return E:TLMHVR       1 1A MADC #79   Gianni Tassotto
10 Temperature and Humidity Monitors One NIM Slot Will Be Required in the NIM Bin in Rack MI62106 John Seraphin
10-1 NuMI Stub Temperature E:TTNSTB NIM 1 MADC #67 John Seraphin
10-2 NuMI Stub Humidity E:THNSTB NIM     1   MADC #67   John Seraphin
11 Vacuum (All of NuMI Beamline)   ARCNET VME Ethrnt New CIA Crate Already Installed in Rack MI62112.  Vacuum Equipment in Controls/Kicker Room Rack MI62111 and MI62112. Leon Bartelson      Jim Klen
11-A1 Beam Valve E:BV100 CIA Crate 1D Between LAM61B and V100 Leon & Jim
11-A2 Beam Valve E:BV112A CIA Crate Upper Hobbit Upstream End Leon & Jim
11-A3 Beam Valve E:BV112B CIA Crate Upper Hobbit Downstream End Leon & Jim
11-B1 Pirani Gauge E:PG103 CIA Crate No Leon & Jim
11-B2 Pirani Gauge E:PG110 CIA Crate No Leon & Jim
11-B3 Pirani Gauge E:PG112A CIA Crate No Upper Hobbit Upstream End Leon & Jim
11-B4 Pirani Gauge E:PG112B CIA Crate No Upper Hobbit Downstream End Leon & Jim
11-B5 Pirani Gauge E:PG115 CIA Crate No Leon & Jim
11-B6 Pirani Gauge E:PG121 CIA Crate No Leon & Jim
11-C1 400 L/sec Ion Pump E:IP112A CIA Crate No Upper Hobbit Upstream End Leon & Jim
11-C2 400 L/sec Ion Pump E:IP112B CIA Crate No Upper Hobbit Upstream End Leon & Jim
11-C3 400 L/sec Ion Pump E:IP112C CIA Crate No Upper Hobbit Downstream End Leon & Jim
11-C4 400 L/sec Ion Pump E:IP112D CIA Crate No Upper Hobbit Downstream End Leon & Jim
11-D1 40 L/sec Ion Pump E:IP100 CIA Crate No Leon & Jim
11-D2 40 L/sec Ion Pump E:IP101A CIA Crate No Leon & Jim
11-D3 40 L/sec Ion Pump E:IP101B CIA Crate No Leon & Jim
11-D4 40 L/sec Ion Pump E:IP102 CIA Crate No Leon & Jim
11-D5 40 L/sec Ion Pump E:IP103A CIA Crate No Leon & Jim
11-D6 40 L/sec Ion Pump E:IP103B CIA Crate No Leon & Jim
11-D7 40 L/sec Ion Pump E:IP104 CIA Crate No Leon & Jim
11-D8 40 L/sec Ion Pump E:IP105A CIA Crate No Leon & Jim
11-D9 40 L/sec Ion Pump E:IP105B CIA Crate No Leon & Jim
11-D10 40 L/sec Ion Pump E:IP105C CIA Crate No Leon & Jim
11-D11 40 L/sec Ion Pump E:IP106A CIA Crate No Leon & Jim
11-D12 40 L/sec Ion Pump E:IP106B CIA Crate No Leon & Jim
11-D13 40 L/sec Ion Pump E:IP106C CIA Crate No Leon & Jim
11-D14 40 L/sec Ion Pump E:IP107A CIA Crate No Leon & Jim
11-D15 40 L/sec Ion Pump E:IP107B CIA Crate No Leon & Jim
11-D16 40 L/sec Ion Pump E:IP107C CIA Crate No Leon & Jim
11-D17 40 L/sec Ion Pump E:IP108A CIA Crate No Leon & Jim
11-D18 40 L/sec Ion Pump E:IP108B CIA Crate No Leon & Jim
11-D19 40 L/sec Ion Pump E:IP108C CIA Crate No Leon & Jim
11-D20 40 L/sec Ion Pump E:IP109A CIA Crate No Leon & Jim
11-D21 40 L/sec Ion Pump E:IP109B CIA Crate No Leon & Jim
11-D22 40 L/sec Ion Pump E:IP110A CIA Crate No Leon & Jim
11-D23 40 L/sec Ion Pump E:IP110B CIA Crate No Leon & Jim
11-D24 40 L/sec Ion Pump E:IP111 CIA Crate No Leon & Jim
11-D25 40 L/sec Ion Pump E:IP114A CIA Crate No Leon & Jim
11-D26 40 L/sec Ion Pump E:IP114B CIA Crate No Leon & Jim
11-D27 40 L/sec Ion Pump E:IP114C CIA Crate No Leon & Jim
11-D28 40 L/sec Ion Pump E:IP114D CIA Crate No Leon & Jim
11-D29 40 L/sec Ion Pump E:IP115A CIA Crate No Leon & Jim
11-D30 40 L/sec Ion Pump E:IP115B CIA Crate No Leon & Jim
11-D31 40 L/sec Ion Pump E:IP116A CIA Crate No Leon & Jim
11-D32 40 L/sec Ion Pump E:IP116B CIA Crate No Leon & Jim
11-D33 40 L/sec Ion Pump E:IP116C CIA Crate No Leon & Jim
11-D34 40 L/sec Ion Pump E:IP116D CIA Crate No Leon & Jim
11-D35 40 L/sec Ion Pump E:IP116E CIA Crate No Leon & Jim
11-D36 40 L/sec Ion Pump E:IP117 CIA Crate No Leon & Jim
11-D37 40 L/sec Ion Pump E:IP118A CIA Crate No Leon & Jim
11-D38 40 L/sec Ion Pump E:IP118B CIA Crate No Leon & Jim
11-D39 40 L/sec Ion Pump E:IP118C CIA Crate No Leon & Jim
11-D40 40 L/sec Ion Pump E:IP118D CIA Crate No Leon & Jim
11-D41 40 L/sec Ion Pump E:IP119A CIA Crate No Leon & Jim
11-D42 40 L/sec Ion Pump E:IP119B CIA Crate No Leon & Jim
11-D43 40 L/sec Ion Pump E:IP121A CIA Crate No Leon & Jim
11-D44 40 L/sec Ion Pump E:IP121B CIA Crate No Leon & Jim
11-D45 40 L/sec Ion Pump E:IP121C CIA Crate No Leon & Jim
11-D46 40 L/sec Ion Pump E:IP121D CIA Crate       No     Leon & Jim
12 MI-62 LCW and Pond Water Systems PLC   Ethernet PLC Hardware (Automation Direct) Located in Rack MI62109 Puska & Doyle
& Kasley
12-1 Various NuMI LCW Control and Monitor Points E:62Winn PLC   Ethernet 1D Detailed Separately Puska & Doyle
& Kasley
12-2 Various Pond Water Control and Monitor Points E:62Pinn PLC   Ethernet       No   Detailed Separately Puska & Doyle
& Kasley
13 MIBS Timing Capability 479 CC $6A N4 Likely Necessary for Instrumentation (?) Greg Vogel      Rupe Crouch
14 MADC Facility - Existing in Rack MI62107 MADC #79 290 CC $6C N23 14 Bit Resolution MADC Is Required Here and is Now in Place. Ryan Hagler
Rupe Crouch
15 NuMI Beam Permit 200 CC $6C N22 Relocated From CC $6C Greg Vogel        Bob Ducar
16 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #79 1D CC $6C N21 Output to Local 200 Beam Permit Module.  15 Power Supply, 18 Loss Monitor and a Few Miscellaneous.  Probably Need to Relocate Some Equipment in Rack to Fit. Al Franck                         Bob Ducar
17 Ethernet Connectivity Already Exists at this Location Dan Stenman
18 VME with Connection to Ethernet Already Exists at this Location Dan Stenman
19 ACNET Console X Terminal Already Exists at this Location Dan Stenman
         
MI-65 Service Bldg Electronics Room              "65SB"           New Basic Controls Infrastructure is Required Here.  Will Link to Existing Controls at MI-62.  This Location Will Support Similar Infrastructure in the Target Hall Support Room Area ~120 Feet Below.   Room for 9 Equipment Racks in the Electronics Room.
1 B2 Dipole String (4) in Pre-Target Area E:V118 468 9  ** 3A 1D CC $E4 N1-2 Three Series 500 kW PEIs in Electrical Room With Output Filter.  Ramped. Steve Hays
1-1 Local PLC for Extended Power Supply Status Status Supplied to Associated 468 Module Steve Hays
2 Quadrupole Power Supply (3Q120) E:QD113 466 4  * 2A CC $E4 N3 Smaller PEI in Electrical Room Steve Hays
3 Quadrupole Power Supply (3Q120) E:QF114 466 4  * 2A CC $E4 N4 Smaller PEI in Electrical Room Steve Hays
4 Quadrupole Power Supply (3Q60) E:QF115 466 4  * 2A CC $E4 N5 Smaller PEI in Electrical Room.
Not Planning to Ramp this Quad.
Steve Hays
5 Quadrupole Power Supply (3Q120) E:QD116 466 4  * 2A CC $E4 N6 Smaller PEI in Electrical Room Steve Hays
6 Quadrupole Power Supply (3Q120) E:QF117 466 4  * 2A CC $E4 N7 Smaller PEI in Electrical Room Steve Hays
7 Quadrupole Power Supply (3Q120) E:QD118 466 4  * 2A CC $E4 N8 Smaller PEI in Electrical Room Steve Hays
8 Quadrupole Power Supply (3Q60) E:QF119 466 4  * 2A CC $E4 N9 Smaller PEI in Electrical Room Steve Hays
9 Quadrupole Power Supply (3Q120) E:QD120 466 4  * 2A CC $E4 N10 Smaller PEI in Electrical Room Steve Hays
10 Quadrupole Power Supply (3Q120) E:QF121 466 4  * 2A CC $E4 N11 Smaller PEI in Electrical Room Steve Hays
11 Horizontal 200 Turn Trim Dipole E:H117 466 4  * 2A CC $E4 N12 Smaller PEI in Electrical Room Steve Hays
* MADC #85 Monitors for Q113 thru Q121 and H117 Current Reference (F), Current Out, Current Error (E), and Voltage Out (V).  First Two Analog Monitors Examined by Beam Permit.
** MADC #85 Monitors for V118 Current Reference (F), Current Out, Current Error (E), Plus Volts to Gnd (P), Neg Volts to Gnd (N), Filtered Voltage Out (V), and 3 x Unfiltered Voltage Out (AU, BU & CU).  First Three Monitors Examined by Beam Permit.  "In Regulation" Digital Status Also to Beam Permit.
12 Trim Element Regulators (9) All Trim Elements Controlled from New Regulator System in Electronics Room Leon Bartelson
12-1A Trim Element Bulk Power Supply Controller - Current Output E:CPS65 118 1 CC $E5 N9 Leon Bartelson
12-1B Trim Element Bulk Power Supply             Voltage Output E:CPS65V 1 1A MADC #85 Necessary to Wire Over to MADC #85 to Afford PCI Monitoring Leon Bartelson
12-1C Trim Element Bulk Power Supply             RMS Current Output E:CPS65I 1 MADC #86 Leon Bartelson
12-2 Vertical Trim Element #1 Located Downstream of Q113 E:VT114 .25 x 453 4 * No CC $E5 N1-2 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-3 Horizontal Trim Element #2 Located Upstream of Q114 E:HT114 .25 x 453 4 * No CC $E5 N1-2 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-4 Horizontal Trim Element #3 Located Downstream of Q115 E:HT115 .25 x 453 4 * No CC $E5 N1-2 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-5 Vertical Trim Element #4 Located Downstream of Q116 E:VT116 .25 x 453 4 * No CC $E5 N1-2 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-6 Horizontal Trim Element #5 Located Downstream of Q117 E:HT117 .25 x 453 4 * No CC $E5 N3-4 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-7 Vertical Trim Element #6 Located Downstream of Q118 E:VT118 .25 x 453 4 * No CC $E5 N3-4 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-8 Horizontal Trim Element #7 Located Upstream of Q119 E:HT119 .25 x 453 4 * No CC $E5 N3-4 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-9 Horizontal Trim Element #8 Located Downstream of Q121 E:HT121 .25 x 453 4 * No CC $E5 N3-4 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-10 Vertical Trim Element #9 Located Downstream of Q121 E:VT121 .25 x 453 4 * No CC $E5 N5-6 Individual Regulators are 30 A.                                          Plan to Ramp to Keep RMS Power Low. Leon Bartelson
12-11 Spare Channel .25 x 453 CC $E5 N5-6 Leon Bartelson
12-12 Spare Channel .25 x 453 CC $E5 N5-6 Leon Bartelson
12-13 Spare Channel .25 x 453 CC $E5 N5-6 Leon Bartelson
* MADC Monitors for Trim Elements All MADC Monitors Wire Directly to Local MADC #86.  Analog Monitors Include:  Vref, Vout, I out, I rms.  "Tracking" Status Bit Not Readily Available for Examination by Beam Permit.   Installation of 204/PCI Not Viewed Favorably.  Should Consider an ACNET Software Solution to Solving Beam Permit Problem.
13 Beam Position Detectors (11) Using 3/8" Andrew Heliax LDF2RN-50 Cable Peter Prieto
Sam Childress
13-1 Vertical BPM Upstream of Q113 E:VP113 VME Ethrnt No Four BPMs per VME Module Peter Prieto
Sam Childress
13-2 Horizontal BPM Downstream of Q114 E:HP114 VME Ethrnt No Peter Prieto
Sam Childress
13-3 Horizontal BPM Upstream of Q115 E:HP115 VME Ethrnt No Peter Prieto
Sam Childress
13-4 Vertical BPM Upstream of Q116 E:VP116 VME Ethrnt No   Peter Prieto
Sam Childress
13-5 Horizontal BPM Upstream of Q117 E:HP117 VME Ethrnt No Four BPMs per VME Module Peter Prieto
Sam Childress
13-6 Vertical BPM Upstream of Q118 E:VP118 VME Ethrnt No Peter Prieto
Sam Childress
13-7 Horizontal BPM Downstream of Q119 E:HP119 VME Ethrnt No Peter Prieto
Sam Childress
13-8 Horizontal BPM Downstream of Q121 E:HP121 VME Ethrnt No   Peter Prieto
Sam Childress
13-9 Vertical BPM Downstream of Q121 E:VP121 VME Ethrnt No Four BPMs per VME Module Peter Prieto
Sam Childress
13-10 Horizontal BPM Upstream of Target E:HPTGT VME Ethrnt No Peter Prieto
Sam Childress
13-11 Vertical BPM Upstream of Target E:VPTGT VME Ethrnt       No     Peter Prieto
Sam Childress
13-12 Intensity Signal from Q121 BPM E:HI121P VME Ethrnt Yes MADC #85 This is a Special Subset of BPM System Signals that Allows the Beam Permit System to Check Positions Immediately After an Extraction from the Main Injector.  Duane Voy Assisted with Associated Implementation. Peter Prieto
Sam Childress
13-13 Horizontal BPM Downstream of Q121 E:HP121P VME Ethrnt Yes MADC #85 Peter Prieto
Sam Childress
13-14 Vertical BPM Downstream of Q121 E:VP121P VME Ethrnt Yes MADC #85 Peter Prieto
Sam Childress
13-15 Horizontal BPM Upstream of Target E:HPTGTP VME Ethrnt Yes MADC #85 Peter Prieto
Sam Childress
13-16 Vertical BPM Upstream of Target E:VPTGTP VME Ethrnt Yes MADC #85 Peter Prieto
Sam Childress
13-17 MI-65 BPM Status / Heartbeat
Expected Logic Low Before Extraction
E:65BPMB VME Ethrnt 1 Yes MADC #85 These Channels Have a Common Source and Essentially Represent a Heartbeat from this BPM System.  Provided by Duane Voy. Peter Prieto
Sam Childress
13-18 MI-65 BPM Status / Heartbeat
Expected Logic High After Extraction
E:65BPMA VME Ethrnt     1 Yes MADC #85 Peter Prieto
Sam Childress
14 Profile Monitors  (6 Total) Sacha Kopp               Gianni Tassotto       Dan Schoo
14-1 Profile Monitor Downstream of Q114 E:PM114
(E:M114DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-2 Profile Monitor Upstream of Q115 E:PM115
(E:M115DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-3 Profile Monitor Upstream of Q117 E:PM117
(E:M117DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-4 Profile Monitor Downstream of the VT118 Trim Element E:PM118
(E:M118DS)
ARCNET VME Ethrnt This is a Fermilab Style Multiwire.
Installed Early February 2005.
Sacha Kopp      Al Franck
14-5 Profile Monitor Downstream of Q121 E:PM121
(E:M121DS)
ARCNET VME Ethrnt No Sacha Kopp      Al Franck
14-6 Profile Monitor Upstream of Target E:PMTGT
(E:MTGTDS)
ARCNET VME Ethrnt       No     Sacha Kopp      Al Franck
14-7 Clearing Voltage PS for PM114 E:PM114V .25 x 052 1 No CC $E5 N7 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-8 Clearing Voltage PS for PM115 E:PM115V .25 x 052 1 No CC $E5 N7 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-9 Clearing Voltage PS for PM117 E:PM117V .25 x 052 1 No CC $E5 N7 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-10 Clearing Voltage PS for Possible Future Profile Monitor PM118 E:PM118V .25 x 052 CC $E5 N8 A1 Cable Pulled but Not Required for Fermilab Style Sacha Kopp
Dan Schoo
14-11 Clearing Voltage PS for PM121 E:PM121V .25 x 052 1 No CC $E5 N7 A3 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
14-12 Clearing Voltage PS for PMTGT E:PMTGTV .25 x 052     1 No CC $E5 N8 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp
Dan Schoo
15 Temperature and Humidity Monitors 2 NIM Slots Will Be Required in the NIM Bin in Rack MI65108 John Seraphin
15-1 Upper Hobbit Temperature E:TTUHOB NIM 1 MADC #86 John Seraphin
15-2 Upper Hobbit Humidity E:THUHOB NIM 1 MADC #86 John Seraphin
15-3 Lower Hobbit Temperature E:TTLHOB NIM 1 MADC #86 John Seraphin
15-4 Lower Hobbit Humidity E:THLHOB NIM 1 MADC #86 John Seraphin
15-5 Pre-Target Temperature E:TTPTGT NIM 1 MADC #86 John Seraphin
15-6 Pre-Target Humidity E:THPTGT NIM 1 MADC #86 John Seraphin
15-7 MI-65 Electronics Room Temperature E:ERT65E NIM 1 MADC #86 John Seraphin
15-8 MI-65 Power Supply Room Temperature E:ERT65P NIM 1 MADC #86 John Seraphin
15-9 MI-65 Power Supply Room Humidity E:ERH65P NIM 1 MADC #86 John Seraphin
15-10 MI-65 Crane Bay Temperature E:CBT65 NIM 1 MADC #86 John Seraphin
15-11 MI-65 Crane Bay Humidity E:CBH65 NIM     1   MADC #86   John Seraphin
16 TCLK Event Monitor and Fanout 178 CC $E5 N20 For Local Instrumentation & Diagnostics Greg Vogel                      Bob Ducar
17 TCLK Timing Capability 377 CC $E5 N22 For Local Instrumentation Al Franck                Bob Ducar
18 MIBS Timing Capability 479 CC $E5 N21 For Local Instrumentation Greg Vogel                      Bob Ducar
19 MADC Facility - Located in Rack MI65103 MADC #85 290 CC $E4 N23 14 Bit Resolution Required Here for Power Supplies. Ryan Hagler
Rupe Crouch
20 MADC Facility - Located in Rack MI65108 MADC #86 290 CC $E5 N23 Dedicated to Trim Elements.                                                12 Bit Resolution Probably OK.   Ryan Hagler
Rupe Crouch
21 NuMI Beam Permit 200 CC $E4 N22 Greg Vogel         Bob Ducar
22 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #85 CC $E4 N21 Output to Local 200 Beam Permit Module.  27 Power Supply Channels Monitored. Al Franck                    Bob Ducar
23 Ethernet Connectivity Needed for Interface of Local Electronics and Console Dan Stenman
24 VME with Connection to Ethernet Needed for Interface of Profile Monitors Dan Stenman           Jimmy You
25 ACNET Console X Terminal Necessary and Permanent Dan Stenman
         
Target Hall Power Supply Support Room                (Underground of MI-65 Service Building)                  "THSR"           New Basic Controls Infrastructure is Required Here.  Will Link to Existing Controls at MI-65 Above.   All Controls Equipment Located in Power Supply Support Room.
1 Horn Power Supply   IRM and                   CAMAC           Two PEI 240KW and a Capacitor Bank.  Much Control and Status for the Horn PS System Has Already Been Successfully Interfaced at MI-8 Via the IRM and Is Not Explicity Detailed Here.   ~205,000 Amps to Horns. Ken Bourkland     Jim Biggs
1-1 PEI-A Power Supply E:NHSA 468 1D CC $E6 N1-2 PS ON Digital Status to Beam Permit System.  2V Into 100 Ohms. Ken Bourkland     Jim Biggs
1-2 PEI-B Power Supply E:NHSB 468 1D CC $E6 N3-4 PS ON Digital Status to Beam Permit System.  2V Into 100 Ohms. Ken Bourkland     Jim Biggs
1-3 E:NHSA Output Waveform Reference E:NHSAF (468) 1 1A MADC #87 Local Selector Switch Selects One of These Waveforms as the Input to the Slow Start Module.  E:NHSAR Is Normally Selected.  Ken Bourkland     Jim Biggs
1-4 E:NHSB Output Waveform Reference E:NHSBF (468) 1 1A MADC #87
1-5 Waveform Reference to PEI-A After Slow Start Module E:NHSASF Slow Start Kluge 1 1A MADC #87 These Monitors Expected to Be Similar When Both Supplies Are Being Used and After the Slow Start. Ken Bourkland     Jim Biggs
1-6 Waveform Reference to PEI-B After Slow Start Module E:NHSBSF Slow Start Kluge 1 1A MADC #87
1-7 Current Output of PEI-A Power Supply to Capacitor Bank E:NHSA Mr. Biggs 1 1A MADC #87 Ken Bourkland     Jim Biggs
1-8 Current Output of PEI-B Power Supply to Capacitor Bank E:NHSB Mr. Biggs 1 1A MADC #87 Ken Bourkland     Jim Biggs
1-9 Horn Stripline Current E:HLSI Mr. Biggs 1 1A MADC #87 Ken Bourkland     Jim Biggs
1-10 Peak Horn Stripline Current E:HLSIP Mr. Biggs 1 1A MADC #87 Ken Bourkland     Jim Biggs
1-11 Power Supply Interlock (Permit)  From "Local Controls" Electronics   Mr. Biggs       1D     Ken Bourkland     Jim Biggs
2 Loss Monitors (Chassis #4) Reg Loss Monitor Electronics Packages 12 Channels in One Chassis with HV Supply Gianni Tassotto      Marv Olson
2-1 Regular Loss Monitor HV Supply Output Chassis #4 E:LMHV4O 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-2 Regular Loss Monitor HV Supply Return Chassis #4 E:LMHV4R 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-3 Loss Monitor #1 at Q113 E:LMQ113 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-4 Loss Monitor #2 at Q114 E:LMQ114 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-5 Loss Monitor #3 at Q115 E:LMQ115 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-6 Loss Monitor #4 at Q116 E:LMQ116 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-7 Loss Monitor #5 at Q117 E:LMQ117 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-8 Loss Monitor #6 at H117 E:LMH117 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-9 Loss Monitor #7 at Q118 E:LMQ118 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-10 Loss Monitor #8 at V118-1 E:LM1181 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-11 Loss Monitor #9 at V118-2 E:LM1182 1 1A MADC #87 Gianni Tassotto      Marv Olson
2-12 Loss Monitor #10 at Q119 E:LMQ119       1 1A MADC #87   Gianni Tassotto      Marv Olson
3 Loss Monitors (Chassis #5) Reg Loss Monitor Electronics Packages 12 Channels in One Chassis with HV Supply Gianni Tassotto      Marv Olson
3-1 Regular Loss Monitor HV Supply Output Chassis #5 E:LMHV5O 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-2 Regular Loss Monitor HV Supply Return Chassis #5 E:LMHV5R 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-3 Loss Monitor #1 at V118-3 E:LM1183 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-4 Loss Monitor #2 at V118-4 E:LM1184 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-5 Loss Monitor #3 at Q120 E:LMQ120 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-6 Loss Monitor #4 at Q121 E:LMQ121 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-6 Loss Monitor #5 Before TORTGT Toroid E:LMTGTT 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-6 Loss Monitor #6 at Target Shield Wall E:LMTSW 1 1A MADC #88 Gianni Tassotto      Marv Olson
3-7 Interlocked Scarecrow Located in Lower Hobbit Just Downstream of Hobbit Door G:RD1224             Connected to NuMI RSS and ES&H Rad Mux System Mike Gerardi
Dale White
4 Temperature and Humidity Monitors 1 NIM Slot Will Be Required in the NIM Bin in Rack THSR104 John Seraphin
4-1 Power Supply Support Rm Temperature E:TTPSSR NIM 1 MADC #88 John Seraphin
4-2 Power Supply Support Room Humidity E:THPSSR NIM 1 MADC #88 John Seraphin
4-3 RAW Room Temperature E:TTRAWR NIM 1 MADC #88 John Seraphin
4-4 Target Hall Temperature E:TTTGTH NIM 1 MADC #88 John Seraphin
4-5 Target Hall Humidty E:THTGTH NIM 1 MADC #88 John Seraphin
4-6 Temp Mon at QD113 E:TQD113 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-7 Temp Mon at QF114 E:TQF114 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-8 Temp Mon at QF117 E:TQF117 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-9 Temp Mon at H117 E:TH117 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-10 Temp Mon at QD118 E:TQD118 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-11 Temp Mon at QD120 E:TQD120 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-12 Temp Mon at QF121 E:TQF121 Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
4-13 Temp Mon at TGT BPM Stnd E:TTGTBS Custom
by Schoo
1 MADC #88 Gordon Koizumi
Dan Schoo
5 Primary Beam Monitoring               BPM Electronics Independent of Beamline BPM Systems Jim Hylen      Rich Talaga
5-1 Beam Intensity Toroid #2 - Downstream E:TORTGT
E:TRTGTD
NIM Module and a 284     1   MADC #87
CC $E6 N13
Requires a 479 Timing Channel (CC $E6 N14 A(0)) for Sampling at the Right Time.  This Timer Or'd with a 377 Timing Channel (CC $E6 N17 A(7)) to Clear/Calibrate Without Beam. Peter Prieto
Greg Vogel
Dallas H.
6 Baffle and Target Instrumentation May Use Some Automation Direct PLC Hardware, But Largely Independent Jim Hylen      Rich Talaga
6-1 Baffle Thermocouples E:BAFT1
E:BAFT2
Custom 2 2A MADC #87 Jim Hylen      Rich Talaga
6-2 Target Thermocouples
(Actually Support Tube)
E:TGTT1
E:TGTT2
Custom 2 MADC #87 Jim Hylen      Rich Talaga
6-3 Target Budal Monitor for X E:HFVSL
E:HFVSH
Custom 2 No MADC #87 Jim Hylen      Rich Talaga
6-4 Target Budal Monitor for Y E:VFHSL
E:VFHSH
Custom 2 No MADC #87 Jim Hylen      Rich Talaga
6-5 Target to Ground Impedance E:TGTGZ Custom 1 No MADC #87 Jim Hylen      Rich Talaga
6-6 Target Vacuum Pirani Gauge  E:PGTGT Custom 1 No MADC #87 Jim Hylen      Rich Talaga
6-7 Target/Baffle Carrier Temperatures E:BTHTnn PLC   Ethernet No 2 Channels Hylen Talaga Stefanik
6-8 Target Helium Pressure E:BTHP01 PLC   Ethernet Yes Jim Hylen      Rich Talaga
6-9 Target Helium Supply Bottle Pressure E:BTHP02 PLC   Ethernet No Jim Hylen      Rich Talaga
6-10 Target RAW Expansion Tank Helium Flow E:TRETHF Transducer     1 No MADC #87 Installed 10-Aug-05 Jim Hylen
Hiep Le
7 Horn and Horn Stripline Iinstrumentation Anticipate Using Automation Direct PLC Hardware for Thermocouples Jim Hylen
Rich Talaga
7-1 Horn 1 Alignment Loss Monitor E:H1ALM 1 No MADC #88 Separate from Loss Monitor Chassis  #4 & #5 Jim Hylen
Rich Talaga
7-2 Horn 1 Alignment LM High Voltage E:H1ALV 1 No MADC #88 HV Power Supply at Top of Rack THSR105
(May Need a Second HV Supply)
Jim Hylen
Rich Talaga
7-3 Horn 2 Alignment Loss Monitor E:H2ALM 1 No MADC #88 Separate from Loss Monitor Chassis  #4 & #5 Jim Hylen
Rich Talaga
7-4 Horn 2 Alignment LM High Voltage E:H2ALV 1 No MADC #88 HV Power Supply at Top of Rack THSR105
(May Need a Second HV Supply)
Jim Hylen
Rich Talaga
7-5 Horn Stripline Quadrant A Current E:HSQAI (Mr. Biggs) 1 No MADC #88 Jim Hylen
Rich Talaga
7-6 Horn Stripline Quadrant B Current E:HSQBI (Mr. Biggs) 1 No MADC #88 Jim Hylen
Rich Talaga
7-7 Horn Stripline Quadrant C Current E:HSQCI (Mr. Biggs) 1 No MADC #88 Jim Hylen
Rich Talaga
7-8 Horn Stripline Quadrant D Current E:HSQDI (Mr. Biggs) 1 No MADC #88 Jim Hylen
Rich Talaga
7-9 Peak Horn Stripline Quadrant A Current E:HSQAIP Custom 1 No MADC #88 Sample and Hold Output Jim Hylen
Rich Talaga
7-10 Peak Horn Stripline Quadrant B Current E:HSQBIP Custom 1 No MADC #88 Sample and Hold Output Jim Hylen
Rich Talaga
7-11 Peak Horn Stripline Quadrant C Current E:HSQCIP Custom 1 No MADC #88 Sample and Hold Output Jim Hylen
Rich Talaga
7-12 Peak Horn Stripline Quadrant D Current E:HSQDIP Custom 1 No MADC #88 Sample and Hold Output Jim Hylen
Rich Talaga
7-13 Per Pulse Integral of Horn Stripline Quadrant A Current E:HSQAII Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-14 Per Pulse Integral of Horn Stripline Quadrant B Current E:HSQBII Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-15 Per Pulse Integral of Horn Stripline Quadrant C Current E:HSQCII Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-16 Per Pulse Integral of Horn Stripline Quadrant D Current E:HSQDII Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-17 Horn Stripline Current at Arrival of Beam E:HSLIB Custom 1 No MADC #87 Sample and Hold Output Triggered by a 479 Beam Sync Timing Module Channel Jim Hylen
Rich Talaga
7-18 Arrival of Beam wrt Clock E:NOCLU1 Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-19 Horn BDOT Zero wrt Clock E:NOCLU2 Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-20 Delta Arrival of Beam wrto Horn BDOT Zero E:NOCLU3 Custom 1 No MADC #87 Jim Hylen
Rich Talaga
7-21 Horn 1 Magnetic Field Monitors                         B-Dot Coils E:H1FLXL -
E:H1INTR
Custom 9 No MADC #88 Associated Sample & Hold? Jim Hylen
Rich Talaga
7-22 Horn 2 Magnetic Field Monitors                         B-Dot Coils E:H2FLXL -
E:H2INTR
Custom 9 No MADC #88 Associated Sample & Hold? Jim Hylen
Rich Talaga
7-23 Horn 1 Module Support Thermocouples E:BTHTnn PLC   Ethernet No 2 Channels Jim Hylen
Rich Talaga
7-24 Horn 2 Module Support Thermocouples E:BTHTnn PLC   Ethernet No 2 Channels Jim Hylen
Rich Talaga
7-25 Horn 1 Carriage (Hanger) Thermocouples E:BTHTnn PLC   Ethernet No 2 Channels Jim Hylen
Rich Talaga
7-26 Horn 1 Body (Clamp) Thermocouples E:BTHTnn PLC   Ethernet No 6 Channels Jim Hylen
Rich Talaga
7-27 Horn 2 Body (Clamp) Thermocouples E:BTHTnn PLC   Ethernet       No   6 Channels Jim Hylen
Rich Talaga
8 Target and Baffle RAW System PLC   Ethernet 1D Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
8-1 Various Control and Monitor Points E:TBRinn PLC Ethrnt           Detailed Separately Puska & Doyle
& Kasley
9 Horn 1 RAW System PLC   Ethernet 1D Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
9-1 Various Control and Monitor Points E:H1Rinn PLC Ethrnt           Detailed Separately Puska & Doyle
& Kasley
10 Horn 2 RAW System PLC   Ethernet 1D Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
10-1 Various Control and Monitor Points E:H2Rinn PLC Ethrnt           Detailed Separately Puska & Doyle
& Kasley
11 Decay Pipe Cooling RAW System - Upstream End  PLC   Ethernet 1D Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
11-1 Various Control and Monitor Points E:DURinn PLC Ethrnt           Detailed Separately Puska & Doyle
& Kasley
12 Target Pile Air Cooling System PLC   Ethernet Anticipate Using Automation Direct PLC Hardware.  Primary Components Include a Chiller, Reheater, Fan and Filters.  Various Monitor Points of Temperature, Pressure and Humidity. Andy Stefanik
Jim Hylen
12-1 Various Control and Monitor Points E:TPCinn PLC Ethrnt Detailed Separately Andy Stefanik
12-2 Fan Differential Pressure E:TPCFDP Custom 1 1A MADC #87 Electronics Independent of PLC Jim Hylen      Rich Talaga
12-3 Target Pile Air Supply Temperature E:TPCAST Custom 1     1A MADC #87 Electronics Independent of PLC Jim Hylen      Rich Talaga
13 Target Positioning System ARCNET VME Ethrnt No 5 Motors and Similar to AP0 Al Legan                    Kris Anderson
14 Positioning System for Horn #1 ARCNET VME Ethrnt No 4 Motors and Similar to AP0 Al Legan                    Kris Anderson
15 Total Loss Monitor Gas Flow (E:TLMGF) Custom 1D From Gas Bottles in
Power Supply Support Room
Dan Schoo
16 TCLK Event Monitor and Fanout 178 CC $E6 N15 For Local Instrumentation & Dignostics Greg Vogel           Bob Ducar
17 TCLK Timing Capability Initial
E:THSRT0/F
2 x 377 CC $E6 N17
CC $E6 N16
Horn Timing and Also for Local Instrumentation Ken Bourkland       Al Franck
18 MIBS Timing Capability (Ref $74) 479 CC $E6 N14 Horn Timing and Also for Local Instrumentation Ken Bourkland     Vogel/Ducar
19 MADC Facility - Located in Rack THSR103 MADC #87 290 CC $E6 N23 14 Bit Resolution Required Here Ryan Hagler
Rupe Crouch
20 MADC Facility - Located in Rack THSR104 MADC #88 290 CC $E6 N22 14 Bit Resolution Required Here Ryan Hagler
Rupe Crouch
21 NuMI Beam Permit 200 CC $E6 N20 BP Input Panel Located in Rack THSR103 Greg Vogel         Bob Ducar
22 NuMI Beam Permit 200 CC $E6 N21 BP Input Panel Located in Rack THSR104 Greg Vogel         Bob Ducar
23 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #87 1D CC $E6 N19 Output to Local 200 Beam Permit Module. Al Franck            Bob Ducar
24 Beam Permit Process Channel Interface and Controller 204 Connects to MADC #88 1D CC $E6 N18 Output to Local 200 Beam Permit Module. Al Franck            Bob Ducar
25 Ethernet Connectivity Needed for Interface of Local Electronics and Console Dan Stenman           Jimmy You
26 VME with Connection to Ethernet Needed for Interface of Motion Control Dan Stenman
27 ACNET Console X Terminal Thought to Reside Here Permanently.  Definitely Necessary During Commissioning. Dan Stenman
         
MINOS Service Building
(West of Lederman Science Center)
"MSB"
    Little Controls Infrastructure is Required Here in Mechanical Areas.  Main Purpose is to Provide Repeater Stations for Necessary Signals Linking Controls Infrastructure.  Basic Control and Monitoring Anticipated, But Nothing Especially Complex.  
1 TCLK Event Monitor and Fanout 178 CC $E7 N20 Not Thought Necessary for Equipment, But Useful for Diagnostics. Greg Vogel         Bob Ducar
2 Digital In - Digital Out Facility 184 CC $E7 N1 Potential for Control and Monitor of Local Systems Greg Vogel         Bob Ducar
3 MADC Facility - Located in Rack MSB101 MADC #1 290 CC $E7 N23 12 Bit Resolution Adequate Here.   Expected to Monitor Critical Sump Pump Functions. Ryan Hagler
Rupe Crouch
4 NuMI Beam Permit Origin Module 201 CC $E7 N21 Most Distant Location for the Extraction Kicker.   Close the Loop With TCLK $A6. Greg Vogel         Bob Ducar
5 NuMI Beam Permit 200 None CC $E7 N22 Useful for Diagnostics if Checking Return of Permit Signal from Absorber Area. Greg Vogel         Bob Ducar
6 Ethernet Connectivity Thought Necessary Because of Distances Involved Dan Stenman
       
MINOS Near Detector Hall
(350 Feet Underground of MINOS Svc Bldg)
"MND"
    New Controls Infrastructure Required Here Linked by Fiber to Above MINOS Building.  Link from here to Absorber Access Tunnel.  Fiber Connectivity to Feynman Supported on Controls Singlemode Fibers.
1 Detector Magnet Power Supply E:NDMAG 218 2 1 No CC $E8 N1 150 kW PEI 150-5 with a Reversing Switch.  Expected to Run DC. Leon Beverly
Walt Jaskierny
2 MINOS LCW System PLC               Ethernet No Includes Analysis Magnet and Its Power Supply and Detector Electronics Rack Cooling.   Also Controlling Heat Exchangers Using Clean and Cold Sump Water. Puska & Doyle
& Kasley
2-1 Various Control and Monitor Points E:MNWinn PLC Ethrnt Detailed Separately Puska & Doyle
& Kasley
3 Area Temperature & Humidity Sensors No Likely to be Instrumented Thru Above Local PLC Cat James
4 TCLK Event Monitor and Fanout 178 CC $E8 N19 Diagnostics and Other Potential Utility Greg Vogel      Bob Ducar
5 TCLK Timing Capability 377 CC $E8 N21 Diagnostics and Other Potential Utility Al Franck               Bob Ducar
6 MIBS Timing Capability  (Ref $74) 479 CC $E8 N20 Need Main Injector 53 MHz for MINOS Experiment Clocking Cat James  Vogel/Ducar
7 Digital In - Digital Out Facility 184 CC $E8 N2 Potential for Control and Monitor of Local Systems in Lieu of Local PLC Greg Vogel         Bob Ducar
8 MADC Facility - Located in Rack MND101 MADC #2 290 CC $E8 N23 12 Bit Resolution Should be OK Here Ryan Hagler
Rupe Crouch
9 NuMI Beam Permit 200 None CC $E8 N22 Status of Permit Loop and Diagnostics Afforded.  No Inputs Planned Here. Greg Vogel      Bob Ducar
10 Ethernet Connectivity Dan Stenman
       
Absorber Access Tunnel
(Near Absorber at End of Decay Pipe)
"AAT"
    New Controls Infrastructure Required Here Linked by Fiber to MINOS Near Detector - About 900 Feet Away.
1 Hadron Monitor Instrumentation E:HADM ARCNET VME Ethrnt No Detectors Installed Between Decay Pipe End and Absorber.  Using SWIC Scanner Hardware for Readout.   Debbie Harris      Sacha Kopp
1-1 High Voltage Supply #1 for Hadron Monitor E:HMHV1 .25 x 052 1 No CC $E9 N1 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
1-2 High Voltage Supply #2 for Hadron Monitor E:HMHV2 .25 x 052 1 No CC $E9 N1 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
1-3 High Voltage Supply #3 for Hadron Monitor E:HMHV3 .25 x 052 1 No CC $E9 N1 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
1-4 High Voltage Supply #4 for Hadron Monitor E:HMHV4 .25 x 052 1 No CC $E9 N1 A3 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
1-5 High Voltage Supply #5 for Hadron Monitor E:HMHV5 .25 x 052 1 No CC $E9 N2 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
1-6 High Voltage Supply #6 for Hadron Monitor E:HMHV6 .25 x 052 1 No CC $E9 N2 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
1-7 High Voltage Supply #7 for Hadron Monitor E:HMHV7 .25 x 052 1 No CC $E9 N2 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
2 Muon Monitor Instrumentation for Alcove 1 E:MMA1 ARCNET VME Ethrnt No Detectors Installed at Muon Alcove 1.  Using SWIC Scanner Hardware for Readout.                    Gas System is Fully Manual. Debbie Harris      Sacha Kopp
2-1 High Voltage Supply #1 for Muon Monitor in Alcove 1 E:MM1HV1 .25 x 052 1 No CC $E9 N3 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
2-2 High Voltage Supply #2 for Muon Monitor in Alcove 1 E:MM1HV2 .25 x 052 1 No CC $E9 N3 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
2-3 High Voltage Supply #3 for Muon Monitor in Alcove 1 E:MM1HV3 .25 x 052 1 No CC $E9 N3 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
3 Muon Monitor Instrumentation for Alcove 2 E:MMA2 ARCNET VME Ethrnt No Detectors Installed at Muon Alcove 2.  Using SWIC Scanner Hardware for Readout.                    Gas System is Fully Manual. Debbie Harris      Sacha Kopp
3-1 High Voltage Supply #1 for Muon Monitor in Alcove 2 E:MM2HV1 .25 x 052 1 No CC $E9 N4 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
3-2 High Voltage Supply #2 for Muon Monitor in Alcove 2 E:MM2HV2 .25 x 052 1 No CC $E9 N4 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
3-3 High Voltage Supply #3 for Muon Monitor in Alcove 2 E:MM2HV3 .25 x 052 1 No CC $E9 N4 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
4 Muon Monitor Instrumentation for Alcove 3 E:MMA3 ARCNET VME Ethrnt No Detectors Installed at Muon Alcove 3.  Using SWIC Scanner Hardware for Readout.                    Gas System is Fully Manual. Debbie Harris      Sacha Kopp
4-1 High Voltage Supply #1 for Muon Monitor in Alcove 3 E:MM3HV1 .25 x 052 1 No CC $E9 N5 A0 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
4-2 High Voltage Supply #2 for Muon Monitor in Alcove 3 E:MM3HV2 .25 x 052 1 No CC $E9 N5 A1 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
4-3 High Voltage Supply #3 for Muon Monitor in Alcove 3 E:MM3HV3 .25 x 052     1 No CC $E9 N5 A2 PS is Half of PREP NIM Module ES-7125.         052 Provides Reference and Reset. Sacha Kopp       Greg Vogel
5 Hadron & Muon Monitor Gas System Sacha Kopp
5-1 Hadron Monitor Gas Pressures
at AAT101 Rack and Detector
and Overall Gas Flow
E:HMGPR
E:HMGPD
E:HMGF
3 MADC #3 Kopp Providing Transducers Sacha Kopp
5-2 Alcove 1 Muon Monitor Gas Pressures
at AAT101 Rack and Detector
and Overall Gas Flow
E:MM1GPR
E:MM1GPD
E:MM!GF
3 MADC #3 Kopp Providing Transducers Sacha Kopp
5-3 Alcove 2 Muon Monitor Gas Pressures
at AAT101 Rack and Detector
and Overall Gas Flow
E:MM2GPR
E:MM2GPD
E:MM2GF
3 MADC #3 Kopp Providing Transducers Sacha Kopp
5-4 Alcove 3 Muon Monitor Gas Pressures
at AAT101 Rack and Detector
and Overall Gas Flow
E:MM3GPR
E:MM3GPD
E:MM3GF
3 MADC #3 Kopp Providing Transducers Sacha Kopp
5-5 Miscellaneous Gas System Monitors E:MGO2I
E:MGSP
E:HMMRCI
      3   MADC #3 Kopp Providing Transducers Sacha Kopp
6 Temperature and Humidity Monitors 2 NIM Slots Will Be Required in the NIM Bin in Rack AAT102 John Seraphin
6-1 Hadron Monitor Area Temperature E:TTHADM NIM 1 MADC #3 John Seraphin
6-2 Muon Alcove 1 Temperature E:TTMA1 NIM 1 MADC #3 John Seraphin
6-3 Muon Alcove 2 Temperature E:TTMA2 NIM 1 MADC #3 John Seraphin
6-4 Muon Alcove 3 Temperature E:TTMA3 NIM 1 MADC #3 John Seraphin
6-5 Upper Absorber Access Tunnel Temp E:TTAATU NIM 1 MADC #3 John Seraphin
6-6 Upper AAT Humidity E:THAATU NIM 1 MADC #3 John Seraphin
6-7 Lower AAT Temperature E:TTAATL NIM 1 MADC #3 John Seraphin
6-8 Lower AAT Humidity E:THAATL NIM 1 MADC #3 John Seraphin
6-9 Hadron Monitor RTD E:HMRTD ? 1 MADC #3 Sacha Kopp
6-10 Muon Monitor at Alcove 1 RTD E:MM1RTD ? 1 MADC #3 Sacha Kopp
6-11 Muon Monitor at Alcove 2 RTD E:MM2RTD ? 1 MADC #3 Sacha Kopp
6-12 Muon Monitor at Alcove 3 RTD E:MM3RTD ?     1   MADC #3   Sacha Kopp
7 Absorber Instrumentation  1D Anticipate Using Automation Direct PLC Hardware.  Mostly Thermocouples and Humidity Sensors. Dixon Bogert
Ernie Villegas
7-1 Various Control and Monitor Points E:ABSinn PLC Ethrnt Mostly Thermocouples.  Detailed Separately. Dixon Bogert
Ernie Villegas
Paul Kasley
8 Decay Pipe Vacuum System 1D Anticipate Using Automation Direct PLC Hardware.  Controls Also at Upstream End. Dave Pushka
8-1 Various Control and Monitor Points E:DPVinn PLC Ethrnt Detailed Separately.  Expecting Two 20 HP Pumps at a Maximum. Dave Pushka
9 Absorber Cooling RAW System 1D Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
9-1 Various Control and Monitor Points E:ABRinn PLC Ethrnt Detailed Separately.  Expecting Two 3 HP Pumps at a Maximum. Puska & Doyle
& Kasley
10 Intermediate Water Cooling for Absorber RAW System No Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
10-1 Various Control and Monitor Points E:ABIinn PLC Ethrnt Detailed Separately.  Expecting Two 5 HP Pumps. Puska & Doyle
& Kasley
11 Decay Pipe Cooling RAW System - Downstream End 1D Anticipate Using Automation Direct PLC Hardware Puska & Doyle
& Kasley
11-1 Various Control and Monitor Points E:DDRinn PLC Ethrnt Detailed Separately.  Expecting Two 7.5 HP Pumps. Puska & Doyle
& Kasley
12 TCLK Event Monitor and Fanout 178 CC $E9 N19 Needs Not Specific at this Time But Useful for Diagnostics. Greg Vogel     Bob Ducar
13 TCLK Timing Capability 377 CC $E9 N21 Needs Not Specific at this Time But Useful for Diagnostics. Al Franck              Bob Ducar
14 MIBS Timing Capability  (Ref $74) 479 CC $E9 N20 Thought Necessary for Hadron and Muon Monitor Instrumentation. Debbie Harris      Sacha Kopp
15 MADC Facility - Located in Rack AAT103 MADC #3 290 CC $E9 N23 12 or 14 Bit Resolution Ryan Hagler
Rupe Crouch
16 NuMI Beam Permit 200 CC $E9 N22 Greg Vogel     Bob Ducar
17 Ethernet Connectivity Dan Stenman
18 VME with Connection to Ethernet For Hadron & Muon Monitors Dan Stenman    Jimmy You
19 ACNET Console X Terminal May Not Reside Here Permanently But Thought Convenient During Commissioning Dan Stenman
General Ordering of System / Device:     Power Supplies, Trim Supplies, Instrumentation, Vacuum, Water, Special, Timing, Digital I/O, MADC, Beam Permit, Ethernet, VME, Console