Privacy and Security Notice
#
# 24.08.2000 (saw) Start first version for Madey GeN
# 08.09.2000 (maclach) Version 2.
#
####### New Version, Compilied Sept., 11/00 by Glen MacLachlan, Ohio U.
#
#
# This file will contain a list of all EPICS variables (except
# for High Voltage which are to be recorded in coda.
# The format 5 blankspace separated columns, namely:
#
# Epics signal name
# Comma separated list of run types for which signal is to be read
# all = all runtypes except moller
# allm = all runtypes including moller
# sosonly,coin = Sos or Coincidence
# How often signal is to be read (seconds). Several comma separated periods may
# be listed so that a signal gets recorded at several rates.
# The expert for this signal. (Either who put it in this file, or
# who bests understands what it is doing here.)
# The title, meaning or comment of the signal
#
# All fields except for the Comment must have no blank space in them.
#
# contributor codes:
# saw = Stephen Wood
# danagu = Samuel Danagoulian
# maclach = Glen MacLaclan
# smithg = Greg Smith
# gueye = Paul Gueye
#
#Signal Runtype Period Person Dictionary
#Beam currents direct from our IOC
ibcm1 allm 30 saw Hall C Beam Current (monitor # 1)
ibcm2 allm 30 saw Hall C Beam Current (monitor # 2)
ibcm3 allm 30 saw Hall C Beam Current (monitor # 2)
#Beam currents routed through ACC epics
hallc:bcm1 allm 2,30 saw Hall C Beam Current (monitor # 1)
hallc:bcm2 allm 2,30 saw Hall C Beam Current (monitor # 2)
hallc:bcm3 allm 2,30 saw Hall C Beam Current (monitor # 2)
SLDC003A allm 2,30 saw Beam dump Ion Chamber A
SLDC003B allm 2,30 saw Beam dump Ion Chamber B
#EPICS_LIST_1
#
#
EHCRT_IXPEAK allm 30
EHCRT_IYPEA allm 30
ecchart1 allm 30 saw Charybdis Shunt #1?
ecchart2 allm 30 saw Charybdis Shunt #2?
enlk9A:floatspare1 allm 2 gueye dP/P from MCC using (unknown) info
enlk9A:floatspare2 allm 2 gueye dP/P from MCC using corrector magnets info
enlk9A:floatspare3 allm 2 gueye dP/P from MCC using BPM info
#
hallc_dpp allm 30 gueye dP/P from MCC using BPM info
HLCNMRFIELDRBCK allm 30 maclach
#
IBC0L02Current allm 30 maclach
IBC0R07AVG allm 30 maclach
#
L1fc_prcnthz_R allm 30 maclach
L2fc_prcnthz_R allm 30 maclach
L3fc_prcnthz_R allm 30 maclach
L1fc_current_R allm 30 maclach
L2fc_current_R allm 30 maclach
L3fc_current_R allm 30 maclach
#
MBC3C06H.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in horizontal (H) direction
MBC3C08H.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in horizontal (H) direction
MBC3C10H.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in horizontal (H)
direction
MBC3C12H.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in horizontal (H)
direction
MBC3C14H.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in horizontal (H)
direction
MBC3C14H.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in horizontal (H)
direction
MBC3C07V.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in vertical (V)
direction
MBC3C09V.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in vertical (V)
direction
MBC3C11V.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in vertical (V)
direction
MBC3C13V.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in vertical (V)
direction
MBC3C15V.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in vertical (V)
direction
MBC3C17V.BDL allm 2,30 gueye int[Bdl] of a dipole magnet bending in vertical (V)
direction
MBC3C06H.S allm 2,30 gueye dipole setting current
MBC3C08H.S allm 2,30 gueye dipole setting current
MBC3C10H.S allm 2,30 gueye dipole setting current
MBC3C12H.S allm 2,30 gueye dipole setting current
MBC3C14H.S allm 2,30 gueye dipole setting current
MBC3C14H.S allm 2,30 gueye dipole setting current
MBC3C07V.S allm 2,30 gueye dipole setting current
MBC3C09V.S allm 2,30 gueye dipole setting current
MBC3C11V.S allm 2,30 gueye dipole setting current
MBC3C13V.S allm 2,30 gueye dipole setting current
MBC3C15V.S allm 2,30 gueye dipole setting current
MBC3C17V.S allm 2,30 gueye dipole setting current
MBC3C06HM allm 2,30 gueye dipole readback current
MBC3C08HM allm 2,30 gueye dipole readback current
MBC3C10HM allm 2,30 gueye dipole readback current
MBC3C12HM allm 2,30 gueye dipole readback current
MBC3C14HM allm 2,30 gueye dipole readback current
MBC3C14HM allm 2,30 gueye dipole readback current
MBC3C07VM allm 2,30 gueye
MBC3C09VM allm 2,30 gueye
MBC3C11VM allm 2,30 gueye
MBC3C13VM allm 2,30 gueye
MBC3C15VM allm 2,30 gueye
MBC3C17VM allm 2,30 gueye
MBSY3C_energy allm 30 gueye Hall C incident beam energy calculated from the
accelerator side
MBSY3C.BDL allm 30 gueye int[Bdl] of Hall C main dipoles (the 8 main bending dipole
magnets)
MBSY3CM allm 30 gueye main 8-magnets readback current
MQA3C06.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C07.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C08.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C09.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C10.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C11.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C12.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C13.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C14.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C15.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C16.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C17.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C18.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C19.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C20A.BDL allm 2,30 gueye int[Bdl] of a quadrupole magnet
MQA3C06.S allm 2,30 gueye quadrupole setting current
MQA3C07.S allm 2,30 gueye quadrupole setting current
MQA3C08.S allm 2,30 gueye quadrupole setting current
MQA3C09.S allm 2,30 gueye quadrupole setting current
MQA3C10.S allm 2,30 gueye quadrupole setting current
MQA3C11.S allm 2,30 gueye quadrupole setting current
MQA3C12.S allm 2,30 gueye quadrupole setting current
MQA3C13.S allm 2,30 gueye quadrupole setting current
MQA3C14.S allm 2,30 gueye quadrupole setting current
MQA3C15.S allm 2,30 gueye quadrupole setting current
MQA3C16.S allm 2,30 gueye quadrupole setting current
MQA3C17.S allm 2,30 gueye quadrupole setting current
MQA3C06M allm 2,30 gueye quadrupole readback current
MQA3C07M allm 2,30 gueye quadrupole readback current
MQA3C08M allm 2,30 gueye quadrupole readback current
MQA3C09M allm 2,30 gueye quadrupole readback current
MQA3C10M allm 2,30 gueye quadrupole readback current
MQA3C11M allm 2,30 gueye quadrupole readback current
MQA3C12M allm 2,30 gueye quadrupole readback current
MQA3C13M allm 2,30 gueye quadrupole readback current
MQA3C14M allm 2,30 gueye quadrupole readback current
MQA3C15M allm 2,30 gueye quadrupole readback current
MQA3C16M allm 2,30 gueye quadrupole readback current
MQA3C17M allm 2,30 gueye quadrupole readback current
MBSY3C.BDL allm 2,30 gueye quadrupole readback current
MBSY3C.S allm 2,30 gueye
MBSY3CM allm 2,30 gueye
#
NM1830dataRead allm 30 maclach
#
#
Rast_TargWidth allm 30 maclach
#
# Polarized source information
HallProbe2_val allm 30 saw Wien Filter Angle?
MWF1I04.BDL allm 30 saw Wien Filter Magnet (BDL Gcm)
IGL1I00DI24_24M allm 30 saw 1/2 Wave Plate, 0=ON, 1=OFF
IGL1I00DO16_16 allm 30 saw 1/2 Wave Plate
IGL1I00DI24_22M allm 30 saw N.D. Attenuator, 0=ON, 1=OFF
IGL1I00DAC4 allm 30 saw Hall C Laser "Control Level"
IGL1I00DAC5 allm 30 saw Hall C Laser "Control Level"
NM1830dataRead allm 30 saw Power Meter
IGL1I00AI1 allm 30 saw Angle of rotatable 1/2 Wave Plate
IGL1I00DIOHWTB.B1 allm 30 saw Helicity Flip Scheme 0=Pseudorandom, 1=Toggle
IGL1I00DIOHWTB.B2 allm 30 saw Helicity Reporting 0=Direct, 1=Delayed
IGL1I00DIOHWTB.B3 allm 30 saw Helicity Flip Rate 0=1Hz, 1=30Hz
IGL1I00PowerMT allm 30 maclach
IGL1I00BEAMODE allm 30 maclach
# Cryotarget information (Use all for these)
#
Scatt_Chamber_Vacuum_P_R all 30 smithg Scattering Chamber vacuum
BDSPOS all 30 smithg Cryotarget height position encoder
#
SoltarPOS all 30 smithg Solid target height position encoder
SolrotPOS all 30 smithg Solid target rotation encoder
SMCPOS all 30 smithg Cryostat rotation encoder
#
D2_TI_Aft_Heater_R all 30 smithg Loop 3 Cernox resistor temperature (K) between low power htr & cell block, +-20mK
D2_TI_Fore_Heater_R all 30 smithg Loop 3 Cernox resistor temperature (K) between heat exchanger & low power htr, +-20mK
D2_VP_Cell_P_to_T_CALC all 30 smithg Loop 3 temperature (K) calculated from vapor pressure bulb at cell block inlet, coarse msrmnt
D2_VP_HX_P_to_T_CALC all 30 smithg Loop 3 temperature (K) calculated from vapor pressure bulb above heat exchanger, coarse msrmnt
D2_VP_Target_Cell_R all 30 smithg Loop 3 raw pressure (psia) from vapor pressure bulb at cell block inlet
D2_VP_Target_HX_R all 30 smithg Loop 3 raw pressure (psia) from vapor pressure bulb above heat exchanger
D2_P_Exhaust_R all 30 smithg D2 loop pressure transducer (psia, +-~1psia) between heat exchanger & ballast tank inlet
D2_P_Fill_Target_R all 30 smithg D2 loop pressure transducer (psia, +-~1psia) between heat exchanger & supply bottle/ballast tank outlet
D2_DP_Fill_Exhaust_R all 30 smithg D2 loop differential pressure transducer (" H2O) between ballast tank inlet & outlet
D2_Fan_frequency_R all 30 smithg D2 loop fan frequency
#
H2_TI_Aft_Heater_R all 30 smithg Loop 1 Cernox resistor temperature (K) between low power htr & cell block, +-20mK
H2_TI_Fore_Heater_R all 30 smithg Loop 1 Cernox resistor temperature (K) between heat exchanger & low power htr, +-20mK
H2_VP_Cell_P_to_T_CALC all 30 smithg Loop 1 temperature (K) calculated from vapor pressure bulb at cell block inlet, coarse msrmnt
H2_VP_HX_P_to_T_CALC all 30 smithg Loop 1 temperature (K) calculated from vapor pressure bulb above heat exchanger, coarse msrmnt
H2_VP_Target_Cell_R all 30 smithg Loop 1 raw pressure (psia) from vapor pressure bulb at cell block inlet
H2_VP_Target_HX_R all 30 smithg Loop 1 raw pressure (psia) from vapor pressure bulb above heat exchanger
H2_P_Exhaust_R all 30 smithg H2 loop pressure transducer (psia, +-~1psia) between heat exchanger & ballast tank inlet
H2_P_Fill_Target_R all 30 smithg H2 loop pressure transducer (psia, +-~1psia) between heat exchanger & supply bottle/ballast tank outlet
H2_DP_Fill_Exhaust_R all 30 smithg H2 loop differential pressure transducer (" H2O) between ballast tank inlet & outlet
H2_Fan_frequency_R all 30 smithg H2 loop fan frequency
#
He_TI_Aft_Heater_R all 30 smithg Loop 2 Cernox resistor temperature (K) between low power htr & cell block, +-20mK
He_TI_Fore_Heater_R all 30 smithg Loop 2 Cernox resistor temperature (K) between heat exchanger & low power htr, +-20mK
He_VP_Cell_P_to_T_CALC all 30 smithg Loop 2 temperature (K) calculated from vapor pressure bulb at cell block inlet, coarse msrmnt
He_VP_HX_P_to_T_CALC all 30 smithg Loop 2 temperature (K) calculated from vapor pressure bulb above heat exchanger, coarse msrmnt
He_VP_Target_Cell_R all 30 smithg Loop 2 raw pressure (psia) from vapor pressure bulb at cell block inlet
He_VP_Target_HX_R all 30 smithg Loop 2 raw pressure (psia) from vapor pressure bulb above heat exchanger
He_P_Exhaust_R all 30 smithg He loop pressure transducer (psia, +-~1psia) between heat exchanger & ballast tank inlet
He_P_Fill_Target_R all 30 smithg He loop pressure transducer (psia, +-~1psia) between heat exchanger & supply bottle/ballast tank outlet
He_DP_Fill_Exhaust_R all 30 smithg He loop differential pressure transducer (" H2O) between ballast tank inlet & outlet
He_Fan_frequency_R all 30 smithg He loop fan frequency
#
# SOS information
ecmhms_encoder allm 30 maclach
ecsosq1_out allm 30 maclach
# HMS information
ecmsos_encoder allm 30 maclach
Q1HallP allm 30 maclach
Q2HallP allm 30 maclach
Q3HallP allm 30 maclach
echmsq1i_set_s allm 30 maclach
echmsq2i_set_s allm 30 maclach
echmsq3i_set_s allm 30 maclach
echmsdb_true_s allm 30 maclach
# Beamline information - Largely supplied by Paul Gueye
# A verbose description of the folowing variables can
# be found in ~/cdaq/documents/beamline/
IPM3C05 allm 30 gueye
IPM3C05.XPOS allm 30 gueye BPMname.xpos
IPM3C05.YPOS allm 30 gueye BPMname.xpos
IPM3C07 allm 30 gueye
IPM3C07A allm 30 gueye
IPM3C07A.XPOS allm 30 gueye BPMname.xpos
IPM3C07A.YPOS allm 30 gueye BPMname.ypos
IPM3C08 allm 30 gueye
IPM3C10 allm 30 gueye
IPM3C12 allm 30 gueye
IPM3C17 allm 30 gueye
IPM3C20 allm 30 gueye
IPM3C20.XPOS allm 30 gueye BPMname.xpos
IPM3C20.YPOS allm 30 gueye BPMname.ypos
IPM3C20A allm 30 gueye
IPM3C20A.XPOS allm 30 gueye BPMname.xpos
IPM3C20A.YPOS allm 30 gueye BPMname.ypos
IPM3H00 allm 30 gueye
IPM3H00.XPOS allm 30 gueye BPMname.xpos
IPM3H00.YPOS allm 30 gueye BPMname.ypos
IPM3H00A allm 30 gueye
IPM3H00A.XPOS allm 30 gueye BPMname.xpos
IPM3H00A.YPOS allm 30 gueye BPMname.ypos
IPM3H00A.XPRL allm 30 gueye
IPM3H00A.YPRL allm 30 gueye
IPM3H00B allm 30 gueye
IPM3H00B.XPOS allm 30 gueye BPMname.xpos
IPM3H00B.YPOS allm 30 gueye BPMname.ypos
IPM3H00B.XPRL allm 30 gueye
IPM3H00B.YPRL allm 30 gueye
IPM3H00A.LHCL allm 30 gueye Quad.xpos
IPM3H00A.LVCL allm 30 gueye Quad.ypos
IPM3H00B.LHCL allm 30 gueye Quad.xpos
IPM3H00B.LVCL allm 30 gueye Quad.ypos
IPM3C07.XPOS allm 2,30 gueye BPMname.xpos
IPM3C08.XPOS allm 2,30 gueye BPMname.xpos
IPM3C09.XPOS allm 2,30 gueye BPMname.xpos
IPM3C10.XPOS allm 2,30 gueye BPMname.xpos
IPM3C11.XPOS allm 2,30 gueye BPMname.xpos
IPM3C12.XPOS allm 2,30 gueye BPMname.xpos
IPM3C13.XPOS allm 2,30 gueye BPMname.xpos
IPM3C14.XPOS allm 2,30 gueye BPMname.xpos
IPM3C15.XPOS allm 2,30 gueye BPMname.xpos
IPM3C16.XPOS allm 2,30 gueye BPMname.xpos
IPM3C17.XPOS allm 2,30 gueye BPMname.xpos
IPM3C07.YPOS allm 2,30 gueye BPMname.ypos
IPM3C08.YPOS allm 2,30 gueye BPMname.ypos
IPM3C09.YPOS allm 2,30 gueye BPMname.ypos
IPM3C10.YPOS allm 2,30 gueye BPMname.ypos
IPM3C11.YPOS allm 2,30 gueye BPMname.ypos
IPM3C12.YPOS allm 2,30 gueye BPMname.ypos
IPM3C13.YPOS allm 2,30 gueye BPMname.ypos
IPM3C14.YPOS allm 2,30 gueye BPMname.ypos
IPM3C15.YPOS allm 2,30 gueye BPMname.ypos
IPM3C16.YPOS allm 2,30 gueye BPMname.ypos
IPM3C17.YPOS allm 2,30 gueye BPMname.ypos
IPM3H00A.XPOS allm 2,30 gueye BPMname.xpos
IPM3H00A.YPOS allm 2,30 gueye BPMname.ypos
IPM3H00B.XPOS allm 2,30 gueye BPMname.xpos
IPM3H00B.YPOS allm 2,30 gueye BPMname.ypos
IPM3H00C.XPOS allm 2,30 gueye BPMname.xpos
IPM3H00C.YPOS allm 2,30 gueye BPMname.ypos
IPM3C07.XALP allm 30 gueye relative_gain_x
IPM3C07.YALP allm 30 gueye relative_gain_y
IPM3C12.XALP allm 30 gueye relative_gain_x
IPM3C12.YALP allm 30 gueye relative_gain_y
IPM3C17.XALP allm 30 gueye relative_gain_x
IPM3C17.YALP allm 30 gueye relative_gain_y
IPM3H00A.XALP allm 30 gueye relative_gain_x
IPM3H00A.YALP allm 30 gueye relative_gain_y
IPM3H00B.XALP allm 30 gueye relative_gain_x
IPM3H00B.YALP allm 30 gueye relative_gain_y
IPM3H00C.XALP allm 30 gueye relative_gain_x
IPM3H00C.YALP allm 30 gueye relative_gain_y
# Moller information. From Sam Danagoulian 25.08.2000
SPS_SetA allm 30 danagu Q1 set current value
SPSIOUT allm 30 danagu Q1 measured current value
OXSS_SET allm 30 danagu solenoid field value (Tesla)
COLSET1 allm 30 danagu Collimator 1 setpoint
COLSET2 allm 30 danagu Collimator 2 setpoint
COLSET3 allm 30 danagu Collimator 3 setpoint
COLSET4 allm 30 danagu Collimator 4 setpoint
COLSET5 allm 30 danagu Collimator 5 setpoint
COLSET6 allm 30 danagu Collimator 6 setpoint
COLSET7 allm 30 danagu Collimator 7 setpoint
COLPOS1 allm 30 danagu Collimator 1 readback
COLPOS2 allm 30 danagu Collimator 2 readback
COLPOS3 allm 30 danagu Collimator 3 readback
COLPOS4 allm 30 danagu Collimator 4 readback
COLPOS5 allm 30 danagu Collimator 5 readback
COLPOS6 allm 30 danagu Collimator 6 readback
COLPOS7 allm 30 danagu Collimator 7 readback
hallc_last_polarization allm 30 danagu Last measured Moller Polarization
hallc_last_polarization_date allm 30 danagu When updated
mott_last_polarization allm 30 danagu Last measured Mott Polarization
mott_last_polarization_date allm 30 danagu When updated
MHCMQ2IRBCK allm 30 danagu Q2 measured current value
MHCMQ2ISETRBCK allm 30 danagu Q2 set current value
MHCMQ2POLARRBCK allm 30 danagu Q2 polarity
TARGPOS allm 30 danagu Moller target position (readback)
# Don't mess with below. It is just to keep emacs happy.
# Local Variables:
# mode: text
# fill-column: 120
# End: