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Operation phase setpoint (degrees, where 0 is on-crestPDESa.k.a.gold, phase offset used by LLRF to convert measured phase to one relative to on-crest operation, adjusted by beam phasing (degrees)PREFMeasured detune frequency (Hz) using state space equation, cavity and forward signals - used to drive piezosDF N/AMeasured detune frequency (Hz) using state space equation, cavity and forward signals is valid. If it is not valid, its value cannot be used and the resonance system will not automatically change the piezo setting. In order for it to be valid, there must be sufficient cavity signal and it must be within +/- a couple hundred Hz.DFVALIDMeasured detune frequency (Hz) using frequency counter method -  not used in resonance control, larger operating range than DFDFFC NA ACCLFREQ NA ACCLIMPED NAFLTLTCHLTCHWBYPBYP_BYP_RBVACCLCRYOSUMACNTTACCLCRYOSUMACNTYACCLCRYOSUMA_CNTCRYOSUM[A,B]_CNTU0200CRYOSUMA_CNTU/WGAIN_I Amplitude feedback integral gain setting (units not yet determined)AMPFBGAIN_I  PHAFBGAIN_P_RBV Phase feedback proportional gain readback (units not yet determined)AMPFBGAINP_RBV/W Phase feedback proportional gain setting (units not yet determined)AMPFBGAIN PHAFBGAIN_I_RBV Phase feedback integral gain readback (units not yet determined)AMPFBGAINI_RBV/WGAIN_I Phase feedback integral gain setting (units not yet determined)AMPFBGAIN_I ACCL
R/WNameDescription

SRF Example

(CM 2 Cavity 1)

Gun/Buncher Example
R/WRFMODECTRLRF mode control (SEL, SELA, SELAP, SEL Raw, Pulse, Chirp) ACCL:L1B:0210:RFMODECTRL N/A
RRFMODEReadback of current RF mode (SEL, SELA, SELAP, SEL Raw, Pulse, Chirp, Tone) ACCL:L1B:0210:RFMODE
R/WRFCTRLCavity on/off control. Off = LLRF drive set to 0. (SSA control will be different.) ACCL:L1B:0210:RFCTRL
RRFSTATEReadback of cavity RF on/off state ACCL:L1B:0210:RFSTATE

 N/A

RRFREADYFORBEAM

Indicates cavity is in an okay state for beam operation. Possible states:

Ready (numerical 1) = cavity RF is On and mode is SELAP

Not ready (numerical 0) = Ready criteria not met

ACCL:L1B:0210:RFREADYFORBEAM
R/WADES

Operation amplitude setpoint (MV)

(For SRF, this setting is used in SEL, SELA, SELAP modes.)

 ACCL:L1B:0210:ADES
R/WACON

Configuration amplitude (MV)

 ACCL:L1B:0210:ACON
WACONTODES

Push configuration amplitude value to ADES. To do this, write 1 to ACONTODES

 ACCL:L1B:0210:ACONTODES
RGDESGradient setpoint (MV/m) - readback only ACCL:L1B:0210:GDES N/A
RSEL_ASETSRF amplitude setpoint in SEL Raw, Pulse, Chirp modes. Is in units of % of full drive scale. ACCL:L1B:0210:SEL_ASET N/A
RAACTAACTMEANMeasured amplitude from cavity probe (MV) (, averaged over LLRF waveform. Identical to CAV:AMEAN). Typically averaged over ~350 ms, but this can vary depending on waveform settings.
 ACCL:L1B:0210:AACTAACTMEAN
RGACTGACTMEANMeasured gradient from cavity probe (MV/m) ACCL:L1B:0210:GACT, averaged over LLRF waveform. Typically averaged over ~350 ms, but this can vary depending on waveform settings.
 ACCL:L1B:0210:GACTMEAN
RADES_MAXR/WAMAX

Maximum allowable amplitude (MV) - experts only - More limits coming and details TBD. Minimum of SRF, RF, and Ops limits (below).

 ACCL:L1B:0210:AMAXADES_MAX
RGMAX/WADES_MAX_SRF

SRF maximum allowable amplitude, set by SRF experts (MV)Maximum allowable gradient (MV/m) - readback only

 ACCL:L1B:0210:GMAXADES_MAX_SRF
R/WPDESADES_MAX_RFRF maximum allowable amplitude, set by RF experts  (MV) ACCL:L1B:0210:ADES_MAX_RF
R/WADES_MAX_OPSOps maximum allowable amplitude, set by Operations experts (MV) ACCL:L1B:0210:ADES_MAX_OPS
RPACTPACTMEANMeasured phase from cavity probe (degrees)(, averaged over LLRF waveform. Identical to CAV:PMEAN) ACCL:L1B:0210:PACTR/WPREF. Typically averaged over ~350 ms, but this can vary depending on waveform settings. ACCL:L1B:0210:PACTMEAN
R/WPDESOperation phase setpoint (degrees, where 0 is on-crest by convention). Range -180 to 180. ACCL:L1B:0210:PDES
R/WSEL_POFFPCONSEL

Configuration phase

offset setpoint (not used in SELA/GDR mode

(degrees)

 ACCL:L1B:0210:SEL_POFF N/ARSEL_POFF_RBVACON
WPCONTODES

Push configuration phase value to PDES. To do this, write 1 to PCONTODES

SEL phase offset (not used in SELA/GDR mode)

 ACCL:L1B:0210:SEL_POFF_RBV N/ARDFACTMeasured etune frequency (Hz)N/ARDFPCONTODES
R/WCKP

Cavity needs to be phased with respect to beam. Phasing program should set this to 0 when phasing is complete. It is set to 1 automatically when someone accepts a new Phase Reference Line offset.

Okay (numerical 0)

Check phase (numerical 1) - cavity needs to be phased

 ACCL:L1B:0210:CKP
RDFVALIDCKPSUM

Alarm status for: cavity needs to be phased with respect to beam. Takes into account whether cavity is parked.

Okay (numerical 0)

Check phase (numerical 2)

 ACCL:L1B:0210:CKPSUM N/ARDF_FC
WGOLD_PDES

'Golds' PDES. It will cause PREF to be updated and leave PDES at zero. How to use:

  1. Find maximum energy by adjusting PDES
  2. Set GOLD_PDES to 1

Doing so will cause:

a. PREF to be set to (PREF-PDES)

b. PDES will then be set to 0

 ACCL:L1B:0210:GOLD_PDES
R/WPREF

Do not set PREF directly. Instead, use GOLD_PDES above.

Phase offset (degrees) used by LLRF to convert measured phase to one relative to on-crest operation, adjusted by (gold) beam phasing. Recommend not setting PREF directly, but using GOLD_PDES (above).

PREF is subtracted from PDES before writing phase to hardware. PREF is added to the raw phase readback from hardware.

 ACCL:L1B:0210:PREF
R/WPTOF

Phase offset (degrees) used to adjust for changes in beam time-of-arrival, in particular for changes in bunch compressor path length. Unlike PREF, changing PTOF will immediately change the cavity phase. 

PTOF is subtracted from PDES before writing phase to hardware. PTOF is added to the raw phase readback from hardware.

ACCL:L1B:0210:PTOF
R/WSEL_POFFSEL phase offset setpoint ACCL:L1B:0210:SEL_POFF N/A
RSEL_POFF_RBVSEL phase offset readback ACCL:L1B:0210:SEL_POFF_RBV N/A
RDFACTMeasured detune frequency (Hz)N/A
RDFMeasured detune frequency (Hz) using state space equation, cavity and forward signals - used to drive piezos ACCL:L1B:0210:DF N/A
RDFVALIDMeasured detune frequency (Hz) using state space equation, cavity and forward signals is valid. If it is not valid, its value cannot be used and the resonance system will not automatically change the piezo setting. In order for it to be valid, there must be sufficient cavity signal and it must be within +/- a couple hundred Hz. ACCL:L1B:0210:DFVALID N/A
RDF_FCMeasured detune frequency (Hz) using frequency counter method -  not used in resonance control, larger operating range than DF ACCL:L1B:0210:DF_FC N/A
RCHIRP:DFMeasured detune frequency (Hz) using chirp method -  only active in Chirp and Pulsed modes, primarily for use when cavity is many kHz out of tune, operating range of tens of kHz or more ACCL:L1B:0210:CHIRP:DF N/A
R/WALEMLEM computed integrated RF amplitude (MV) per cavity and per cryomodule ACCL:L1B:0210:ALEM
R/WPLEMLEM computed phase (deg) ACCL:L1B:0210:PLEM
R/WEGLEMLEM computed energy gain (MeV) ACCL:L1B:0210:EGLEM
R/WCHLEMLEM computed chirp (MeV)RCHIRP:DFMeasured detune frequency (Hz) using chirp method -  only active in Chirp and Pulsed modes, primarily for use when cavity is many kHz out of tune, operating range of tens of kHz or more ACCL:L1B:0210:CHIRP:DF N/ACHLEM
R/WALEMLEM computed integrated RF amplitude (MV) per cavity and per cryomodule ACCL:L1B:0210:ALEMCAV:FUDGE

Beam-based scale factor applied to cavity probe amplitude readback. Nominal value of 1.

CAV:SCALE = cavity_preliminary_scaling * CAV:FUDGE

CAV:SCALE is applied at the waveform level and so FUDGE is included in scalars like AACT, CAV:AMEAN, CAV:AMIN, CAV:AMAX, etc. and waveforms like CAV:IWF, CAV:QWF, CAV:AWF, etc.

Example:

Cavity ADES and AACTMEAN are 10 MV, but measured energy gain is 11 MV. 

Set CAV:FUDGE to 1.1.

This will cause the RF drive level to be adjusted by 1/1.1

new_drive = original_drive / 1.1

and the cavity amplitude readback to be adjusted by 1.1.

R/WPLEMLEM computed phase (deg) ACCL:L1B:0210:PLEMR/WEGLEMLEM computed energy gain (MeV)

 ACCL:L1B:0210:EGLEMCAV:FUDGE
R/WCHLEMCavity design length - constantLEM computed chirp (MeV) ACCL:L1B:0210:CHLEML N/A
R/WCAV:FUDGFREQCavity design frequency - constantBeam-based scale factor applied to cavity probe amplitude readback. Nominal value of 1. ACCL:L1B:0210:CAV:FUDGFREQ N/A
RIMPEDCavity design length shunt impedance - constant ACCL:L1B:0210:LIMPED N/A
RPWRDISSCavity dissipated power (W). Calculated by LLRF from Q0 and cavity amplitude. Sent by LLRF to cryo controls.ACCL:L1B:0210:PWRDISS
RFREQCavity design frequency - constantQ0Cavity Q0 (unitless), including user fudge factor. This is the value used by HaLO, LLRF calculation of dissipated power, etc. Formula: Q0 = Q0:MEAS * Q0:FUDGEACCL:L1B:0210:Q0
R/WRIMPEDCavity design shunt impedance - constantQ0:MEASLast measured cavity Q0 (unitless)ACCL:L1B:0210:Q0:MEAS
R/W
Tentative
Q0:FUDGECavity Q0 fudge factor (unitless). Nominal value of 1. Can be used to adjust Q0 if suspect actual Q0 is not Q0:MEAS, for example due to recent quench.ACCL:L1B:0210:Q0:FUDGE

 STAT

 Status bits in software (define the bits) HSTA Hardware statusSRF Interlocks - Per Cavity
 WINTLK_RESET_ALL Reset all latched faults from RFS and Resonance/Interlock chassisACCL:L1B:0210:INTLK_RESET_ALL
 RRFS:INTLK_FIRST Bit mask indicating which interlock fault was first detected by RFS.ACCL:L1B:0210:RFS:INTLK_FIRST N/A
 RRFS:FLTINTLK_FIRST For last captured fault waveform, bit mask indicating which interlock fault was first detected by RFSACCL:L1B:0210:RFS:FLTINTLK_FIRST N/A
RQUENCH_FLT


Cavity quench fault, from RFS chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

ACCL:L1B:0210:QUENCH_FLT
RQUENCH_LTCHACCL:L1B:0210:QUENCH_LTCH
WQUENCH_BYPACCL:L1B:0210:QUENCH_BYP
RQUENCH_BYP_RBVACCL:L1B:0210:QUENCH_BYP_RBV
RQUENCH_CNTTACCL:L1B:0210:QUENCH_CNTT
RQUENCH_CNTYACCL:L1B:0210:QUENCH_CNTY
RQUENCH_CNTACCL:L1B:0210:QUENCH_CNT
RQUENCH_CNTUACCL:L1B:0210:QUENCH_CNTU
RSTEPTEMP_FLT

    

Stepper temperature fault, from Interlock chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

ACCL:L1B:0210:STEPTEMP_FLT
RSTEPTEMP_LTCHACCL:L1B:0210:STEPTEMP_LTCH
WSTEPTEMP_BYP ACCL:L1B:0210:STEPTEMP_BYP
RSTEPTEMP_BYP_RBVACCL:L1B:0210:STEPTEMP_BYP_RBV
RSTEPTEMP_CNTTACCL:L1B:0210:STEPTEMP_CNTT
RSTEPTEMP_CNTYACCL:L1B:0210:STEPTEMP_CNTY
RSTEPTEMP_CNTACCL:L1B:0210:STEPTEMP_CNT
RSTEPTEMP_CNTUACCL:L1B:0210:STEPTEMP_CNTU
RCPLRTEMP1_FLT


Coupler temperature 1 fault, from Interlock chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

ACCL:L1B:0210:CPLRTEMP1_FLT
RCPLRTEMP1_LTCHACCL:L1B:0210:CPLRTEMP1_LTCH
WCPLRTEMP1_BYP ACCL:L1B:0210:CPLRTEMP1_BYP
RCPLRTEMP1_BYP_RBV ACCL:L1B:0210:CPLRTEMP1_BYP_RBV
RCPLRTEMP1_CNTTACCL:L1B:0210:CPLRTEMP1_CNTT
RCPLRTEMP1_CNTYACCL:L1B:0210:CPLRTEMP1_CNTY
RCPLRTEMP1_CNTACCL:L1B:0210:CPLRTEMP1_CNT
RCPLRTEMP1_CNTUACCL:L1B:0210:CPLRTEMP1_CNTU
RCPLRTEMP2_FLT


Coupler temperature 2 fault, from Interlock chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

    		ACCL:L1B:0210:CPLRTEMP2_FLT
RCPLRTEMP2_LTCHACCL:L1B:0210:CPLRTEMP2_LTCH
WCPLRTEMP2_BYPACCL:L1B:0210:CPLRTEMP2_BYP
RCPLRTEMP2_BYP_RBVACCL:L1B:0210:CPLRTEMP2_BYP_RBV
RCPLRTEMP2_CNTTACCL:L1B:0210:CPLRTEMP2_CNTT
RCPLRTEMP2_CNTYACCL:L1B:0210:CPLRTEMP2_CNTY
RCPLRTEMP2_CNTACCL:L1B:0210:CPLRTEMP2_CNT
RCPLRTEMP2_CNTUACCL:L1B:0210:CPLRTEMP2_CNTU
RPLL_FLT

FPGA PLL lock fault, from RFS chassis. Current status, latched status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults. Cannot be bypassed.    

ACCL:L1B:0210:PLL_FLT
RPLL_LTCH ACCL:L1B:0210:PLL_LTCH
RPLL_CNTTACCL:L1B:0210:PLL_CNTT
RPLL_CNTYACCL:L1B:0210:PLL_CNTY
RPLL_CNTACCL:L1B:0210:PLL_CNT
RPLL_CNTUACCL:L1B:0210:PLL_CNTU
RIOCWDOG_FLT


EPICS IOC watchdog fault, from RFS chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

ACCL:L1B:0210:IOCWDOG_FLT
IOCWDOG_LTCH ACCL:L1B:0210:IOCWDOG_FLT
IOCWDOG_BYP ACCL:L1B:0210:IOCWDOG_BYP
IOCWDOG_BYP_RBV ACCL:L1B:0210:IOCWDOG_BYP_RBV 
RIOCWDOG_CNTTACCL:L1B:0210:IOCWDOG_CNTT
RIOCWDOG_CNTYACCL:L1B:0210:IOCWDOG_CNTY
RIOCWDOG_CNTACCL:L1B:0210:IOCWDOG_CNT
RIOCWDOG_CNTUACCL:L1B:0210:IOCWDOG_CNTT
RSSA_FLT


SSA permit fault, from RFS chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

ACCL:L1B:0210:SSA_FLT
SSA_LTCH ACCL:L1B:0210:SSA_LTCH
SSA_BYP ACCL:L1B:0210:SSA_BYP
SSA_BYP_RBV ACCL:L1B:0210:SSA_BYP_RBV
RSSA_CNTTACCL:L1B:0210:SSA_CNTT
RSSA_CNTYACCL:L1B:0210:SSA_CNTY
RSSA_CNTACCL:L1B:0210:SSA_CNT
RSSA_CNTUACCL:L1B:0210:SSA_CNTU
SRF Interlocks - Per Rack (A or B)

RCPLRVAC[A,B]_FLT

   


Coupler vacuum fault, from Interlock chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

    		ACCL:L1B:0200:CPLRVACA_FLT
RCPLRVAC[A,B]_LTCHACCL:L1B:0200:CPLRVACA_LTCH
WCPLRVAC[A,B]_BYP ACCL:L1B:0200:CPLRVACA_BYP
RCPLRVAC[A,B]_BYP_RBV ACCL:L1B:0200:CPLRVACA_BYP_RBV
RCPLRVAC[A,B]_CNTTACCL:L1B:0200:CPLRVACA_CNTT
RCPLRVAC[A,B]_CNTYACCL:L1B:0200:CPLRVACA_CNTY
RCPLRVAC[A,B]_CNTACCL:L1B:0200:CPLRVACA_CNT
RCPLRVAC[A,B]_CNTUACCL:L1B:0200:CPLRVACA_CNTU
RBMLNVAC[A,B]_FLT



Beamline vacuum fault, from Interlock chassis. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults.

    		ACCL:L1B:0200:BMLNVACA_FLT
RBMLNVAC[A,B]_LTCHACCL:L1B:0200:BMLNVACA_LTCH
WBMLNVAC[A,B]_BYP ACCL:L1B:0200:BMLNVACA_BYP 
RBMLNVAC[A,B]_BYP_RBV ACCL:L1B:0200:BMLNVACA_BYP_RBV
RBMLNVAC[A,B]_CNTTACCL:L1B:0200:BMLNVACA_CNTT
RBMLNVAC[A,B]_CNTYACCL:L1B:0200:BMLNVACA_CNTY
RBMLNVAC[A,B]_CNTACCL:L1B:0200:BMLNVACA_CNT
RBMLNVAC[A,B]_CNTUACCL:L1B:0200:BMLNVACA_CNTU

R

CRYOSUM[A,B]_FLT



Cryo summary fault, from local Cryo PLC. Current status, latched status, bypass command, bypass status, counts of today's faults, yesterday's faults, total faults, a resettable counter's faults, total faults, a resettable counter's faults..

ACCL:L1B:0200:CRYOSUMA_FLT
RCRYOSUM[A,B]_LTCHACCL:L1B:0200:CRYOSUMA_LTCH
WCRYOSUM[A,B]_BYPACCL:L1B:0200:CRYOSUMA_BYP
RCRYOSUM[A,B]_BYP_RBVACCL:L1B:0200:CRYOSUMA_BYP_RBV
RCRYOSUM[A,B]_CNTTACCL:L1B:0200:CRYOSUMA_CNTT
RCRYOSUM[A,B]_CNTYACCL:L1B:0200:CRYOSUMA_CNTY
RCRYOSUM[A,B]_CNTACCL:L1B:0200:CRYOSUMA_CNT
RCRYOSUM[A,B]_CNTUACCL:L1B:0200:CRYOSUMA_CNTU
   SRF Interlocks - Per Cryomodule - Tentative

 RCRYOSUM_FLT Cryo summary status from local Cryo PLC. Current status ACCLACCL:L1B:0200:CRYOSUMACRYOSUM_BYP_RBVFLT RCRYOSUM[A,B]_CNTT
 RHELEVEL_FLT Cryo Helium level status from local Cryo PLC. Current status ACCL:L1B:0200:HELEVEL_FLT
 RHEPRES_FLT Cryo Helium pressure status from local Cryo PLC. Current status ACCLRCRYOSUM[A,B]_CNTY:L1B:0200:HEPRES_RCRYOSUM[A,B]_CNTFLT
 RCRYOHEARTBEAT_FLT Cryo PLC heartbeat fault. Generated by RF software when cryo data stops updating or updates too slowly ACCL:L1B:0200:RCRYOPLC_HEARTBEAT
   SRF Cavity Characterization and Expert Settings
RQLOADEDLoaded QACCL:L1B:0210:   SRF Interlocks - Per Cryomodule - Tentative RCRYOSUM_FLT Cryo summary status from local Cryo PLC. Current status ACCL:L1B:0200:CRYOSUM_FLT  RHELEVEL_FLT Cryo Helium level status from local Cryo PLC. Current status ACCL:L1B:0200:HELEVEL_FLT RHEPRES_FLT Cryo Helium pressure status from local Cryo PLC. Current status ACCL:L1B:0200:HEPRES_FLT RCRYOHEARTBEAT_FLT Cryo PLC heartbeat fault. Generated by RF software when cryo data stops updating or updates too slowly ACCL:L1B:0200:CRYOPLC_HEARTBEAT
   SRF Cavity Characterization and Expert Settings
QLOADED
RLDCOEFLorentz detuning coefficientACCL:L1B:0210:LDCOEF
RBCOEFMState space B coefficient magnitudeACCL:L1B:0210:BCOEFM
RBCOEFPState space B coefficient phaseACCL:L1B:0210:BCOEFP
RSSA:SLOPESSA curve parameter - slopeACCL:L1B:0210:SSA:SLOPE
RSSA:PEDSSA curve parameter - pedestalRQLOADEDLoaded QACCL:L1B:0210:SSA:QLOADEDPED
RLDCOEFLorentz detuning coefficientSSA:MINXSSA curve parameter - min x ACCLACCL:L1B:0210:LDCOEFSSA:MINX
RBCOEFMState space B coefficient magnitudeACCL:L1B:0210:BCOEFMRBCOEFPState space B coefficient phaseACCL:L1B:0210:BCOEFPRSSA:SLOPESSA curve parameter - slopeACCL:L1B:0210:SSA:SLOPERSSA:PEDSSA curve parameter - pedestalACCL:L1B:0210:SSA:PEDRSSA:MINXSSA curve parameter - min x ACCL:L1B:0210:SSA:MINXRSSA:MAXR  Maximum drive to SSA, range 0 to 1. (Need better name.)ACCL:L1B:0210:QLOADED 
     
  Waveform Signals

Each SRF cavity has the following waveform signals:

Description PV name, <SIG> in following sectionAmplitude Units Power Units Phase 
 Drive (RFS chassis loopback) DRVsqrt(W) Wdegrees
 Forward Power FWDsqrt(W) Wdegrees 
 Reverse/Reflected Power REVsqrt(W)  Wdegrees 
 Cavity Probe CAVMV mWdegrees 
 DAC (FPGA internal, input to DAC that drives SSA) DAC% of full DAC scale (% of full DAC scale)^2degrees 
 Detune (see below) DFHz  N/A N/A

For SRF systems, these PVs are provided for CAV, FWD, REV, DAC (and DRV only during expert diagnostics/troubleshooting.) Example PVs are for CAV.

SSA:DRV_MAXMaximum drive to SSA, range 0 to 1. Do not change this directly. It is set by SSA calibration script.ACCL:L1B:0210:DRV_MAX
     
  Waveform Signals

Each SRF cavity has the following waveform signals:

Description PV name, <SIG> in following sectionAmplitude Units Power Units Phase Units
Forward Power FWDsqrt(W) Wdegrees 
Reverse/Reflected Power REVsqrt(W)  Wdegrees 
Cavity Probe CAVMV mWdegrees 
DAC (FPGA internal, input to DAC that drives SSA) DAC% of full DAC scale (% of full DAC scale)^2degrees 
Detune (see below) DFHz  N/A N/A
Drive (RFS chassis loopback) - waveform disabled by defaultDRVsqrt(W)Wdegrees

For SRF systems, these PVs are provided for CAV, FWD, REV, DAC (and DRV only during expert diagnostics/troubleshooting.) Example PVs are for CAV.

 <SIG>:AWF Signal amplitude waveformACCL:L1B:0210:CAV:AWF
R <SIG>:AMEAN Mean of <SIG>:AWFACCL:L1B:0210:CAV:AMEAN
R <SIG>:ASTD Standard deviation of <SIG>:AWFACCL:L1B:0210:CAV:ASTD
R <SIG>:ARSTD Standard deviation of <SIG>:AWF divided by mean of <SIG>:AWFACCL:L1B:0210:CAV:ARSTD 
R <SIG>:AMIN Minimum of <SIG>:AWFACCL:L1B:0210:CAV:AMIN
R <SIG>:AMAX Maximum of <SIG>:AWFACCL:L1B:0210:CAV:AWF 
 R <SIG>:PWF Signal phase  <SIG>:AWF Signal amplitude waveformACCL:L1B:0210:CAV:AWFPWF
R R <SIG>:AMEANPMEAN Mean of <SIG>:AWFPWFACCL:L1B:0210:CAV:AMEANPMEAN 
R <SIG>:PSTD Standard deviation of <SIG>:PWFACCL:L1B:0210:CAV:PSTD 
 <SIG>:ASTDPRSTD Standard deviation of <SIG>:PWF divided by mean of <SIG>:PWFACCL:L1B:0210:CAV:PRSTD  
R <SIG>:PMIN Minimum of <SIG>:AWFPWFACCL:L1B:0210:CAV:ASTDPMIN
R <SIG>:ARSTDPMAX Standard deviation  Maximum of <SIG>:AWF divided by mean of <SIG>:AWFPWFACCL:L1B:0210:CAV:ARSTD PMAX
R <SIG>:AMINPWRWF Signal power waveform Minimum of <SIG>:AWFACCL:L1B:0210:CAV:AMINPWRWF
R <SIG>:AMAXPWRMEAN Mean of <SIG>:PWRWF Maximum of <SIG>:AWFACCL:L1B:0210:CAV:AWF PWRMEAN
 RR <SIG>:PWFPWRSTD Standard deviation of <SIG>:PWRWF Signal phase waveformACCL:L1B:0210:CAV:PWFPWRSTD 
 RR <SIG>:PMEANPWRRSTD Standard deviation of <SIG>:PWRWF divided by mean of <SIG>:PWRWF Mean of <SIG>:PWFACCL:L1B:0210:CAV:PMEAN PWRRSTD
R <SIG>:PSTDPWRMIN Minimum of <SIG>:PWRWF Standard deviation of <SIG>:PWFACCL:L1B:0210:CAV:PSTD PWRMIN
R <SIG>:PRSTDPWRMAX Maximum  Standard deviation of <SIG>:PWF divided by mean of <SIG>:PWFPWRWFACCL:L1B:0210:CAV:PRSTD  PWRMAX
R <SIG>:PMINIWF Signal I waveform Minimum of <SIG>:PWFACCL:L1B:0210:CAV:PMINIWF
R <SIG>:PMAXQWF Signal Q waveform Maximum of <SIG>:PWFACCL:L1B:0210:CAV:PMAXAWF
R <SIG>:PWRWFFLTAWF Signal power  Fault waveform - signal amplitudeACCL:L1B:0210:CAV:PWRWFFLTAWF
R <SIG>:PWRMEANFLTPWF Fault waveform - signal phase Mean of <SIG>:PWRWFACCL:L1B:0210:CAV:PWRMEAN:FLTPWF
Other SRF Waveform Signals:     
R <SIG>DF:PWRSTDWF Detune frequency waveform. Calculated by software from cavity and forward signals. [Hz] Standard deviation of <SIG>:PWRWFACCL:L1B:0210:CAVDF:PWRSTD WF
R <SIG>DF:PWRRSTDMEANMean of DF:WF Standard deviation of <SIG>:PWRWF divided by mean of <SIG>:PWRWFACCL:L1B:0210:CAVDF:PWRRSTDMEAN
R <SIG>DF:PWRMINSTD Standard deviation of DF:WF Minimum of <SIG>:PWRWFACCL:L1B:0210:CAVDF:PWRMINSTD 
R <SIG>DF:PWRMAXMINMinimum of DF:WF Maximum of <SIG>:PWRWFACCL:L1B:0210:CAVDF:PWRMAXMIN 
R <SIG>DF:IWFMAX Maximum of DF:WF Signal I waveformACCL:L1B:0210:CAVDF:IWFMAX 
R <SIG>BW:QWFWF  Signal Q waveformCavity bandwidth waveform. Calculated by software from cavity and forward signals.  [Hz]ACCL:L1B:0210:CAVBW:AWFWF 
R <SIG>CTRL:FLTAWFIWFP/I Controller Output I waveform. Calculated by software from cavity and DAC signals. [% of full scale, range -1 to 1] Fault waveform - signal amplitudeACCL:L1B:0210:CAVCTRL:FLTAWFIWF 
R <SIG>CTRL:FLTPWFQWF P/I Controller Output Q waveform. Calculated by software from cavity and DAC signals. [% of full scale, range -1 to 1]  Fault waveform - signal phaseACCL:L1B:0210:CAVCTRL:FLTPWF
Other SRF Waveform Signals:     
QWF  
CTRL:AWF P/I Controller Output amplitude RDF:WF Detune frequency waveform. Calculated by software from cavity and forward DAC signals. [Hz]% of full scale, range -1 to 1] ACCL:L1B:0210:CTRL:AWF  
RCTRL:FLTAWFFault waveform - P/I Controller Output amplitudeACCL:L1B:0210:DFCTRL:WFFLTAWF
RDFCTRL:MEANFLTPWFFault waveform - P/I Controller Output phaseMean of DF:WFACCL:L1B:0210:DFCTRL:MEANFLTPWF
RDF:STD /WACQ_FLT_DELAYFault data trigger control. In % of total waveform data duration. 0% = all data is pre-fault, 100% = all data is post-faultStandard deviation of DF:WFACCL:L1B:0210:DF:STD RDF:MINMinimum of DF:WFACQ_FLT_DELAY
     
Feedback     
 AMPFB_GAIN_P_RBV Amplitude feedback proportional gain readback (units not yet determined)ACCL:L1B:0210:DF:MIN AMPFB_GAIN_P_RBV
R/W AMPFB_GAIN_P Amplitude feedback proportional gain setting (units not yet determined)DF:MAX Maximum of DF:WFACCL:L1B:0210:DF:MAX AMPFB_GAIN_P 
 AMPFB_GAIN_I_RBV Amplitude feedback integral gain readback (units not yet determined)RBW:WF Cavity bandwidth waveform. Calculated by software from cavity and forward signals.  [Hz]ACCL:L1B:0210:BW:WF AMPFB_GAIN_I_RBV
R/W AMPFB_GAIN_I Amplitude feedback integral gain setting (units not yet determined)ACCL:L1B:0210:AMPFB_GAIN_I 
 PHAFB_GAIN_P_RBV Phase feedback proportional gain readback (units not yet determined)RCTRL:IWFP/I Controller Output I waveform. Calculated by software from cavity and DAC signals. [% of full scale, range -1 to 1]ACCL:L1B:0210:CTRL:IWF :AMPFB_GAIN_P_RBV
R/W PHAFB_GAIN_P Phase feedback proportional gain setting (units not yet determined)ACCL:L1B:0210:AMPFB_GAIN_P 
 PHAFB_GAIN_I_RBV Phase feedback integral gain readback (units not yet determined)CTRL:QWF P/I Controller Output Q waveform. Calculated by software from cavity and DAC signals. [% of full scale, range -1 to 1] ACCL:L1B:0210:CTRL:QWF  CTRL:AWF :AMPFB_GAIN_I_RBV
R/W PHAFB_GAIN_I Phase feedback integral gain setting (units not yet determined)ACCL:L1B:0210:AMPFB_GAIN_I 
 AMPFB_LSUM Amplitude feedback is at lower limit while feedback is active. 0 if true (alarm state), 1 if false (good state)P/I Controller Output amplitude waveform. Calculated by software from cavity and DAC signals. [% of full scale, range -1 to 1] ACCL:L1B:0210:CTRL:AWF  AMPFB_LSUM 
AMPFB_HSUM Amplitude feedback is at upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state)RCTRL:FLTAWF Fault waveform - P/I Controller Output amplitudeACCL:L1B:0210:CTRL:FLTAWFRCTRL:FLTPWF Fault waveform - P/I Controller Output phaseACCL:L1B:0210:CTRL:FLTPWFAMPFB_HSUM 
AMPFB_SUM Amplitude feedback is at either lower or upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state)R/WACQ_FLT_DELAYFault data trigger control. In % of total waveform data duration. 0% = all data is pre-fault, 100% = all data is post-faultACCL:L1B:0210:ACQ_FLT_DELAY
     
Feedback     
AMPFB_SUM 
PHAFB_LSUM Phase feedback is at lower limit while feedback is active. 0 if true (alarm state), 1 if false (good state AMPFB_GAIN_P_RBV Amplitude feedback proportional gain readback (units not yet determined)ACCL:L1B:0210:AMPFB_GAIN_P_RBVR/W AMPFB_GAIN_PPHAFB_LSUM 
PHAFB_HSUM Phase feedback is at upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state Amplitude feedback proportional gain setting (units not yet determined)ACCL:L1B:0210:AMPFBPHAFB_GAIN_P HSUM 
R AMPFB_GAIN_I_RBVPHAFB_SUMPhase feedback is at either lower or upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state Amplitude feedback integral gain readback (units not yet determined)ACCL:L1B:0210:AMPFB_GAIN_I_RBVPHAFB_SUM
R AMPFBFB_SUMAmplitude or phase feedback is at either lower or upper limit while RFREADYFORBEAM is active. 0 if true (alarm state), 1 if false (good state). This summary's counts of today's faults, yesterday's faults, total faults, a resettable counter faults.ACCL:L1B:0210:FB_SUM
RFB_SUM_CNTTACCL:L1B:0210:FB_SUM_CNTT
R PHAFB_GAIN_PFB_SUM_CNTYACCL:L1B:0210:FB_SUM_CNTY
RFB_SUM_CNTACCL:L1B:0210:FB_SUM_CNT
R PHAFBFB_SUM_CNTUACCL:L1B:0210:FB_ AMPFB_LSUM Amplitude feedback is at lower limit while feedback is active. 0 if true (alarm state), 1 if false (good state)SUM_CNTU

Resonance control


NameDescriptionDescription

SRF Example

(CM2 Cavity 1)SRF Example

Gun/Buncher Example 
R/WSTEP:NSTEPSStepper tuner number of steps per move ACCL:L1B:0210:
AMPFB_LSUM AMPFB_HSUM Amplitude feedback is at upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state)
STEP:NSTEPS
WSTEP:MOV_REQ_NEGRequest stepper tuner move negative STEP:NSTEPS. Write 1 to request ACCL
ACCL
:L1B:0210:STEP:
AMPFB
MOV_REQ_
HSUM 
NEG
AMPFB_SUM Amplitude feedback is at either lower or upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state)

WSTEP:MOV_REQ_POSRequest stepper tuner move positive STEP:NSTEPS. Write 1 to request ACCL
ACCL
:L1B:0210:
AMPFB_SUM PHAFB_LSUM Phase feedback is at lower limit while feedback is active. 0 if true (alarm state), 1 if false (good state)ACCL:L1B:0210:PHAFB_LSUM PHAFB_HSUM Phase feedback is at upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state)ACCL:L1B:0210:PHAFB_HSUM RPHAFB_SUMPhase feedback is at either lower or upper limit while feedback is active. 0 if true (alarm state), 1 if false (good state)ACCL:L1B:0210:PHAFB_SUMRFB_SUMAmplitude or phase feedback is at either lower or upper limit while RFREADYFORBEAM is active. 0 if true (alarm state), 1 if false (good state). This summary's counts of today's faults, yesterday's faults, total faults, a resettable counter faults.ACCL:L1B:0210:FB_SUMRFB_SUM_CNTTACCL:L1B:0210:FB_SUM_CNTTRFB_SUM_CNTYACCL:L1B:0210:FB_SUM_CNTYRFB_SUM_CNTACCL:L1B:0210:FB_SUM_CNTRFB_SUM_CNTUACCL:L1B:0210:FB_SUM_CNTU

Resonance control

Piezo enable/disable control; set to 1 to enable, 0 to disableENABLEPiezo mode status; 1 = Integrator, 0 = DC
STEP:MOV_REQ_POS
RSTEP:STATWRDStepper controller status word readback ACCL:L1B:0210:STEP:STATWRD
RSTEP:STATWRD.B0Stepper controller status bit: motor moving; 1 = moving, 0 = not ACCL:L1B:0210:STEP:STATWRD.B0
RSTEP:STATWRD.B2Stepper controller status bit: motor done; 1 = done, 0 = not ACCL:L1B:0210:STEP:STATWRD.B2
RSTEP:STATWRD.B3Stepper controller status bit: at limit B; 1 = at limit, 0 = not. (The limit should never be reached.) ACCL:L1B:0210:STEP:STATWRD.B3
RSTEP:STATWRD.B4Stepper controller status bit: at limit A; 1 = at limit, 0 = not. (The limit should never be reached.) ACCL:L1B:0210:STEP:STATWRD.B4
RSTEP:CTRLWRDStepper controller status word readback ACCL:L1B:0210:STEP:CTRLWRD
RSTEP:CTRLWRD.B5Stepper controller status bit: move direction; 1 if negative, 0 if positive ACCL:L1B:0210:STEP:STATWRD.B0
RSTEP:STATMSG  High-level status message from stepper controller softwareACCL:L1B:0210:STEP:STATMSG 
PZT:ENABLEPiezo enable/disable control; set to 1 to enable, 0 to disableACCL:L1B:0210:PZT:ENABLE
 RPZT:ENABLESTATPiezo enable/disable status; 1 = enabled, 0 = disabledACCL:L1B:0210:PZT:ENABLESTAT 
PZT:MODECTRL

Piezo mode control; set to 1 for Integrator (feedback driven by RFS measured detune), 0 for DC control.

Integrator is the correct mode for normal operations.

ACCL:L1B:0210:PZT:MODECTRL
PZT:MODESTATPiezo mode status; 1 = Integrator, 0 = DCACCL:L1B:0210:PZT:MODESTAT
PZT:VCalculated piezo voltage ACCL:L1B:0210:PZT:V 
PZT:DF_RFS Detune measurement sent from RFS to Resonance chassis. This drives the piezo while in Integrator mode.ACCL:L1B:0210:PZT:DF_RFS 
PZT:DFVALID_RFS 

Detune measurement sent from RFS to Resonance chassis is valid. If it is not valid, the Integrator

will not change the piezo setting

ACCL:L1B:0210:PZT:DFVALID_RFS 
R/W PZT:DAC_SPDC voltage offset setting. Only used while in DC mode.ACCL:L1B:0210:PZT:DAC_SP
R/WPZT:INTEG_SP Optional Integrator setpoint. Can be used to compensate for observed systematic detune offset while in Integrator mode.ACCL:L1B:0210:PZT:INTEG_SP
RPZT:INTEG_SP_RBV Readback of optional Integrator setpoint.ACCL:L1B:0210:PZT:INTEG_SP_RBV
R/WPZT:BIAS

Piezo bias voltage setting. Nominally 25 V. Used to operate piezo away from range limits.

This should not change during normal operations.

ACCL:L1B:0210:PZT:BIAS
RPZT:BIAS_RBV

Readback of piezo bias voltage setting.

NameDescriptionDescription

SRF Example

(CM2 Cavity 1)SRF Example

Gun/Buncher Example R/WSTEP:NSTEPSStepper tuner number of steps per move ACCL:L1B:0210:STEP:NSTEPSWSTEP:MOV_REQ_NEGRequest stepper tuner move negative STEP:NSTEPS. Write 1 to request ACCL:L1B:0210:STEP:MOV_REQ_NEGWSTEP:MOV_REQ_POSRequest stepper tuner move positive STEP:NSTEPS. Write 1 to request ACCL:L1B:0210:STEP:MOV_REQ_POSRSTEP:STATWRDStepper controller status word readback ACCL:L1B:0210:STEP:STATWRDRSTEP:STATWRD.B0Stepper controller status bit: motor moving; 1 = moving, 0 = not ACCL:L1B:0210:STEP:STATWRD.B0RSTEP:STATWRD.B2Stepper controller status bit: motor done; 1 = done, 0 = not ACCL:L1B:0210:STEP:STATWRD.B2RSTEP:STATWRD.B3Stepper controller status bit: at limit B; 1 = at limit, 0 = not. (The limit should never be reached.) ACCL:L1B:0210:STEP:STATWRD.B3RSTEP:STATWRD.B4Stepper controller status bit: at limit A; 1 = at limit, 0 = not. (The limit should never be reached.) ACCL:L1B:0210:STEP:STATWRD.B4RSTEP:CTRLWRDStepper controller status word readback ACCL:L1B:0210:STEP:CTRLWRDRSTEP:CTRLWRD.B5Stepper controller status bit: move direction; 1 if negative, 0 if positive ACCL:L1B:0210:STEP:STATWRD.B0RSTEP:STATMSG  High-level status message from stepper controller softwareACCL:L1B:0210:STEP:STATMSG PZT:ENABLE

ACCL:L1B:0210:PZT:BIAS_RBV
 RRPZT:ENABLESTATINTEG_AT_LIM

Piezo integrator (feedback) is at a limit of its range. This may require moving the stepper to re-center the piezo.

Piezo enable/disable status; 1 = enabled, 0 = disabled

ACCL:L1B:0210:PZT:ENABLESTAT PZT:MODECTRL

Piezo mode control; set to 1 for Integrator (feedback driven by RFS measured detune), 0 for DC control.

Integrator is the correct mode for normal operations.

ACCL:L1B:0210:PZT:MODECTRLPZT:MODESTATINTEG_AT_LIM

Deployment and calibration attributes

By default, these should be write-protected during operation

PZT:MODESTATDetune measurement sent from RFS to Resonance chassis. This drives the piezo while in Integrator mode.PZT:DF_RFS /W DACSPDC voltage offset setting. Only used while in DC mode.PZTDAC_SP/WINTEGSP Optional Integrator setpoint. Can be used to compensate for observed systematic detune offset while in Integrator mode.PZTINTEG_SPReadback of optional Integrator setpoint.PZT:INTEG_SP_RBV/WBIAS

Piezo bias voltage setting. Nominally 25 V. Used to operate piezo away from range limits.

This should not change during normal operations.PZT:BIASPZTBIAS_RBVReadback of piezo bias voltage setting.PZT:BIAS_RBV

NameDescription

SRF Example

(CM 2 Cavity 1)

 		Gun/Buncher Example 
RAT:GMAXDuring acceptance testing, maximum gradient. [MV/m]ACCL:L1B:0210:AT:GMAXN/A
RAT:AMAXDuring acceptance testing, maximum amplitude. [MV]PZT:VCalculated piezo voltage ACCL:L1B:0210:PZT:V PZT:DF_RFS AT:AMAXN/A
RAT:GUSEDuring acceptance testing, usable gradient. [MV/m]ACCL:L1B:0210:AT:GUSEN/A
RAT:AUSEDuring acceptance testing, usable amplitude. [MV]PZT:DFVALID_RFS 

Detune measurement sent from RFS to Resonance chassis is valid. If it is not valid, the Integrator

will not change the piezo setting		ACCL:L1B:0210:PZT:DFVALID_RFS AT:AUSEN/A
RPZTAT:FEON_GACTDuring acceptance testing, gradient at which field emission begins. [MV/m]ACCL:L1B:0210:AT:FEON_GACTN/A
RPZTAT:FEON_AACTDuring acceptance testing, amplitude at which field emission begins. [MV]ACCL:L1B:0210:AT:FEON_AACTN/A
RPZT:INTEG_SP_RBV AT:LIMITDuring acceptance testing, cavity limiting factor. 0 = Undefined, 1 = Quench, 2 = FE, 3 = SSA trip, 4 = Admin, 5 = RF power, 6 = OtherACCL:L1B:0210:AT:LIMITN/A
RPZTAT:Q0During acceptance testing, cavity Q0 measured at 16 MV/mACCL:L1B:0210:AT:Q0N/A
RAT:QPROBEDuring acceptance testing, cavity probe Q external, coldACCL:L1B:0210:AT:QPROBEN/A
RPZTAT:INTEGQHOM_AT_LIMPiezo integrator (feedback) is at a limit of its range. This may require moving the stepper to re-center the piezo.CPLRDuring acceptance testing, Higher Order Mode coupler Q external, coldACCL:L1B:0210:PZTAT:INTEG_AT_LIM

Deployment and calibration attributes

By default, these should be write-protected during operation

Gun/Buncher Example Lorentz Force Detuning K factor(Hz/(MV/m)^2) measured in-situ
QHOM_CPLRN/A
RAT:QHOM_PICKUPDuring acceptance testing, Higher Order Mode pickup Q external, coldACCL:L1B:0210:AT:QHOM_PICKUPN/ANameDescription

SRF Example

(CM 2 Cavity 1)

 


(from Chris Adolfsen. Garth wonders should this be a calibration attribute rather than physics interface?) Slow tuner start-up position prior to rf turn on - with the piezo voltages zeroed, the cavity would be tuned close to 1.3 GHz after the operating  gradient is established - thus the initial detuning with rf off relative to 1.3 GHz is K*(operating gradient)^2



(from Chris Adolfsen. Garth wonders should this be a calibration attribute rather than physics interface?) Slow tuner park position - this is the position the tuner would be set if one wants to detune the cavity so it does not interact with the beam.Q0Q0 measurement from partner labs, delivered with the cryomoduleQextQext measured in-situ (last measurement – used to calibrate cavity probe signal based on discharge power)LFD



Calibration of the slow tuner (Hz/step) measured in-situ



Calibration of the piezo tuners (Hz/volt) measured in-situ

Per Cryomodule
RSNCryomodule serial numberACCL:L1B:0200:SNN/A

 Signal calibration.

For SRF cavities, the PVs below are provided for CAV, FWD, REV, DRV signals. The SRF PV name examples below use CAV.

 Measured values
R/W  <SIG>:CAL_ADC_10DBMADC counts at 10 dBm. EPICS software uses this to calculate RF power at full scale.ACCL:L1B:0210:CAV:CAL_ADC_10DBM
R/W  <SIG>:CAL_LOSS_CABLEMeasured cable losses used in signal calibration. Positive value in dB.ACCL:L1B:0210:CAV:CAL_LOSS_CABLE
R/W  <SIG>:CAL_LOSS_CPLRMeasured coupler loss used in signal calibration. Positive value in dB.ACCL:L1B:0210:CAV:CAL_LOSS_CPLR
R/W <SIG>:CAL_LOSS_ATTENFixed attenuator used in signal calibration. Positive value in dB.ACCL:L1B:0210:CAV:CAL_LOSS_ATTEN
R/W  <SIG>:CAL_LOSS_OTHERUnattributed measured loss used in signal calibration. Positive value in dB.ACCL:L1B:0210:CAV:CAL_LOSS_OTHER
 EPICS-calculated values 
R <SIG>:CAL_REF_PWRRF power at ADC full scale. [dBm] ACCL:L1B:0210:CAV:CAL_REF_PWR
 <SIG>:CAL_LOSS_TOTALTotal (of cable, coupler, atten, other) loss used in signal calibration. Positive value in dB. ACCL:L1B:0210:CAV:CAL_LOSS_TOTAL 
 <SIG>:SCALEFinal calibration scale factor to convert raw ADC counts to amplitude. This also include the beam-based fudge factor ACCL:L1B:0210:CAV:SCALE
For SRF, the signal calibration for Cavity Probe (CAV) can be calculated 2 ways: (1) using the above system losses, power at ADC full scale, and cavity probe Q or (2) calculated from the reverse signal decay. Experts can choose which method they would like to use per cavity
 R/WCAVSCALE_SEL Select between calibration methods: 0 = Qprobe, 1 = RevCalACCL:L1B:0210:CAVSCALE_SEL 
 R/WQPROBE  Cavity probe Q. Used in Qprobe calibration method.ACCL:L1B:0210:QPROBE


Other attributes for operations -

...

Tentative

NameDescription
VChassis power supply voltage
TChassis board temperature
DCSSA enable/disable internal DC power

SSA RF enable, how to distinguish from global RF enable?

PzVout

Output voltage to the piezo tuning motor

PzHzExpected tuning change from PzVout


...