@@@@@ BEGIN SECTION - inst.id @@@@@ AERI-105@@@@@ END OF SECTION - inst.id @@@@@ @@@@@ BEGIN SECTION - FTSW_Eaeri.Config @@@@@ // *** Important **** : for filenames and paths use '/' instead of '\' FTSW_EAERI.Version = "1.11" //Flag that determine which mirror angle to use for the ABB & HBB ((mirror.index1Angle & mirror.index2Angle) or (mirror.reversIndex1Angle & mirror.reversIndex2Angle)) //When = true, it will do the following (360 - desiredAngle) with the other angles received from Ingest software. //Note that the Custom angle that can be sent from the FTSW AERI GUI are not affected by this flag. Acquire.inputOpticReversed = false //Flag to control the second trap on some EAERI configuration Acquire.secondTrapControl = false Acquire.TopTrapOpen = true Acquire.SideTrapOpen = false Acquire.refreshRate = 2 Acquire.udpPort = 20000 // Measurements //Separator to be used in the housekeeping file. It must be enclosed in double quotes when spaces or tabs are used. Acquire.ASCIIHkSeparator = , Acquire.changeSignSPC = false // Measurements Settings Acquire.emissivityHBB = 0.995 Acquire.emissivityCBB = 0.995 // Instrument Settings Acquire.saveAllBFS = false //Display Settings Display.xViewSpcMinA = 50.0 Display.xViewSpcMinB = 50.0 Display.xViewSpcMaxA = 3500.0 Display.xViewSpcMaxB = 7000.0 Display.logHKSimpleFormat = false Display.showErrorMsg = false //Automatic gains/offsets computation when start FTSW AERI (1=YES) Start.computeGainOffset = 0 // Compute Calibrated Spectrum CompCalSpc.keepTmpResult = false //font settings font.airPrimary = 22 font.airSecondary = 20 font.groundPrimary = 16 font.groundSecondary = 18 //Pointing Mirror configuration mirror.comPort = COM5 mirror.index0Angle = 179.5 mirror.index1Angle = 300.55 mirror.index2Angle = 240.35 mirror.index3Angle = 0.0 mirror.reversIndex1Angle = 59.6 mirror.reversIndex2Angle = 120.5 //the mirror offset must be a positive value representing the offset //in step count (360 deg = 4000 steps) between the optical home position and the bumper mirror.offset = 5 //TEC Controller configuration TECController.comPort = COM6 TECController.setTemp = 23.0 TECController.deadBand = 0.1 TECController.cutOffTemp = 50.0 TECController.allowHeating = false //Sun detector Threshold sun.threshold = 75.0 sun.deadBand = 5.0 // Rain sensor Mode: if set to true, the rain detector algorithm is used to determine if // it is raining, otherwise it is user responsability to set a valid threshold and deadband // setting for both rain detectors. Rain.digitalMode = true // Rain sainsor Threshold Rain.outsideDetThreshold = 2.80 Rain.outsideDetDeadband = 0.1 Rain.insideDetThreshold = 2.80 Rain.insideDetDeadband = 0.1 //Agilent Config file Agilent.configFile = ./agilent.config // ./agilent_calBB.config is appropriate for fixed resistance Agilent calibration testing // agilent.configFile = ./agilent_calBB.config Agilent.betweenMeasTime = 1000 // Agilent volt values //DAC1 is connected with Hot Blackbody controller Agilent.DAC1Volt = 0.894 //DAC2, in an AIM config is connected with AIM cooler controller (see StirlingCooler.type below) //DAC2 may be connected to a Blackbody controller, config file shall represent hardware configuration. Agilent.DAC2Volt = 4.986 Agilent.DAC2StandbyVolt = 4.986 // Stirling Cooler Temperature Cutoff StirlingCooler.compressorCutoffTemp = 85.0 StirlingCooler.expenderCutoffTemp = 100.0 //Stirling Cooler type // 0 -> no control on Strirling cooler // 1 -> AIM: On/Off on l4452A bit 24 positive logic, set point on l4452A DAC2 // 2 -> Thales: On/Off on l4452A bits 24,25 and 26 negatice logic, set point on RS-232 comm x StirlingCooler.type = 2 // HatchStandbyTime is the time in second before to open the hatch after the // rain/sun sensors are in correct state (no rain, no sun). (Only with cooler type > 0) StirlingCooler.HatchStandbyTime = 180 //comPort, setPoint_mV and standBy_mV is only used when StirlingCooler.type = 2 //ThalesCooler.comPort = COM7 ThalesCooler.comPort = COM9 ThalesCooler.setPoint_mV = 1058.0 //ThalesCooler.standby_mV = 1023.5 ThalesCooler.standby_mV = 1058.0 //BB Coefficient for BB s/n 69 -40 to +20 degrees C tempCoef.ambientBlackbodyTopRimTemperatureCoef1 = 0.0010219466 tempCoef.ambientBlackbodyTopRimTemperatureCoef2 = 2.4046786E-4 tempCoef.ambientBlackbodyTopRimTemperatureCoef3 = 1.4932603E-7 tempCoef.ambientBlackbodyApexTemperatureCoef1 = 0.0010222564 tempCoef.ambientBlackbodyApexTemperatureCoef2 = 2.4052908E-4 tempCoef.ambientBlackbodyApexTemperatureCoef3 = 1.4901131E-7 tempCoef.ambientBlackbodyBottomRimTemperatureCoef1 = 0.0010214966 tempCoef.ambientBlackbodyBottomRimTemperatureCoef2 = 2.4048598E-4 tempCoef.ambientBlackbodyBottomRimTemperatureCoef3 = 1.4959490E-7 // 2nd set of coefficients for BB s/n 69 - 40 to +20 degrees C tempCoef.ambientBlackbodyDegreeCBelowTemp = 0.0 tempCoef.ambientBlackbodyTopRimTemperatureCoef4 = 0.0010219466 tempCoef.ambientBlackbodyTopRimTemperatureCoef5 = 2.4046786E-4 tempCoef.ambientBlackbodyTopRimTemperatureCoef6 = 1.4932603E-7 tempCoef.ambientBlackbodyApexTemperatureCoef4 = 0.0010222564 tempCoef.ambientBlackbodyApexTemperatureCoef5 = 2.4052908E-4 tempCoef.ambientBlackbodyApexTemperatureCoef6 = 1.4901131E-7 tempCoef.ambientBlackbodyBottomRimTemperatureCoef4 = 0.0010214966 tempCoef.ambientBlackbodyBottomRimTemperatureCoef5 = 2.4048598E-4 tempCoef.ambientBlackbodyBottomRimTemperatureCoef6 = 1.4959490E-7 // HBB s/n 71 +0 to +60 degrees Celcius tempCoef.hotBlackbodyTopRimTemperatureCoef1 = 0.0010194618 tempCoef.hotBlackbodyTopRimTemperatureCoef2 = 2.4104286E-4 tempCoef.hotBlackbodyTopRimTemperatureCoef3 = 1.4641256E-7 tempCoef.hotBlackbodyApexTemperatureCoef1 = 0.0010189763 tempCoef.hotBlackbodyApexTemperatureCoef2 = 2.4107354E-4 tempCoef.hotBlackbodyApexTemperatureCoef3 = 1.4696863E-7 tempCoef.hotBlackbodyBottomRimTemperatureCoef1 = 0.0010160924 tempCoef.hotBlackbodyBottomRimTemperatureCoef2 = 2.4142944E-4 tempCoef.hotBlackbodyBottomRimTemperatureCoef3 = 1.4726154E-7 tempCoef.generalCoef1 = 0.001033198 tempCoef.generalCoef2 = 2.38473E-4 tempCoef.generalCoef3 = 1.59E-7 // Help UserManualFilename = "./AA004392-01 Rev B FTSW AERI Software User and Reference Manual.pdf" //3body Calibration kit settings calibKit.configFile = ./agilentCalKit.config calibKit.connected = false // 1.363 corresponds to 45 degree C calibKit.DAC1VoltValue = 1.363 calibKit.DAC2VoltValue = 4.5 //3body_breakout Calibration kit settings (Y cable linked to ABB used) calibKitY.connected = false // 1.363 corresponds to 45 degree C calibKitY.DAC2VoltValue = 1.363 //Monitoring settings Monitoring.xmlConfigFileName = ./MonitoringConfig.xml // refreshRateMilliSec minimum = 5000 Monitoring.refreshRateMilliSec = 10000 @@@@@ END OF SECTION - FTSW_Eaeri.Config @@@@@ @@@@@ BEGIN SECTION - agilent.config @@@@@ // Example configuration file for E-AERI Agilent system // note : this file is parsed line by line, a comment line must begin with // (double slash), // a // in middle of a line DO NOT represent a comment // This config file must have 3 parts to be a valid Agilent config file : // -->L4411A // -->L4421A // -->L4452A // The line IMMEDIATLY after a change of section MUST be the VISA address of the instrument -->L4411A TCPIP0::169.254.44.11::inst0::INSTR // Configuration lines for L4411A module // module L4411A can contain subsections, // Each subsection must begins with a line that begins with *-->L4411A- // For Each subsection of the L4411A instrument should correspond // a subsection of the L4421A instrument *-->L4411A-1 (Resistance 2W) CONF:RES AUTO, DEF TRIG:SOUR EXT TRIG:COUNt 21 //RES:NPLC 0.001 TRIG:DElay 0.1 *-->L4411A-2 (Resistance 4W) ABB1 CONF:FRES AUTO FRES:RANG:AUTO ONCE RES:NPLC 1 TRIG:SOUR EXT TRIG:COUNt 1 TRIG:DElay 3 *-->L4411A-3 (Resistance 4W) ABB2 CONF:FRES AUTO FRES:RANG:AUTO ONCE RES:NPLC 1 TRIG:SOUR EXT TRIG:COUNt 2 TRIG:DElay 3 *-->L4411A-4 (Resistance 4W) HBB CONF:FRES AUTO FRES:RANG:AUTO ONCE RES:NPLC 1 TRIG:SOUR EXT TRIG:COUNt 3 TRIG:DElay 3 *-->L4411A-5 (Volt DC) CONF:VOLT:DC AUTO, DEF TRIG:SOUR EXT TRIG:COUNt 1 VOLT:NPLC 10 TRIG:DElay 0.1 *-->L4411A-6 (Volt DC) CONF:VOLT:DC AUTO, DEF TRIG:SOUR EXT TRIG:COUNt 1 VOLT:NPLC 10 TRIG:DElay 0.1 *-->L4411A-7 (Volt DC) CONF:VOLT:DC AUTO, DEF TRIG:SOUR EXT TRIG:COUNt 5 //VOLT:NPLC 0.001 TRIG:DElay 0.1 //*-->L4411A-6 (Diode) //CONF:DIODe //TRIG:SOUR EXT //TRIG:COUNt 1 -->L4421A TCPIP0::169.254.44.21::inst0::INSTR // Configuration lines for L4421A module // module L4421A can contain subsections, // Each subsection must begins with a line that begins with *-->L4421A- // For Each subsection of the L4421A instrument should correspond // a subsection of the L4411A instrument // For Each subsection of the L4421A instrument should correspond // the list of corresponding HK variable separated by comma // (valid list of variables at the end of this file) *-->L4421A-1 (Resistance 2W) ROUT:SCAN (@1007,1008,1009,1010,1011,1012,1013,1014,1015,1016,1017,1018,1019,1020,1027,1028,1029,1030,1031,1039,1040) ROUT:CHAN:ADV:SOUR EXT HK:refRes1, refRes2, refRes3, outsideAirRes, interferometerAirRes, blackbodySupportStructureRes, blackbodyAirRes, mirrorMotorRes, sceneMirrorRes, powerSupplyRes24V, powerSupplyRes28V, stirlingCoolerCompressorRes, stirlingCoolerExpenderRes, thermalEnclosureRes, inputMirrorMotorDriveElectronicRes, dataAcquisitionModulesRes, sceneWindowRes, fanAirflowRes, protectiveEnclosureRes, externalSunDetectorSensor, internalSunDetectorSensor *-->L4421A-2 (Resistance 4W) ROUT:CHAN:FWIR ON,(@1001) ROUT:SCAN (@1001) ROUT:CHAN:ADV:SOUR EXT ROUT:CLOS (@1001,1021, 1911, 1922) HK:ambientBlackbodyTopRimRes *-->L4421A-3 (Resistance 4W) ROUT:CHAN:FWIR ON,(@1002, 1003) ROUT:SCAN (@1002, 1003) ROUT:CHAN:ADV:SOUR EXT ROUT:CLOS (@1003,1023, 1911, 1922) HK:ambientBlackbodyApexRes, ambientBlackbodyBottomRimRes *-->L4421A-4 (Resistance 4W) ROUT:CHAN:FWIR ON,(@1004, 1005, 1006) ROUT:SCAN (@1004, 1005, 1006) ROUT:CHAN:ADV:SOUR EXT ROUT:CLOS (@1006,1026, 1911, 1922) HK:hotBlackbodyTopRimRes, hotBlackbodyApexRes, hotBlackbodyBottomRimRes *-->L4421A-5 (Volt DC) ROUT:SCAN (@1033) ROUT:CHAN:ADV:SOUR EXT HK:stirlingCoolerCurrent *-->L4421A-6 (Volt DC) ROUT:SCAN (@1032) ROUT:CHAN:ADV:SOUR EXT HK:detectorTemperatureSensor *-->L4421A-7 (Volt DC) ROUT:SCAN (@1034,1035,1036,1037,1038) ROUT:CHAN:ADV:SOUR EXT HK:atmosphericRelativeHumidity, interferometerRelativeHumidity, atmosphericPressureSensor, externalRainDetectorSensor, internalRainDetectorSensor //*-->L4421A-6 (Diode) //ROUT:SCAN (@1032) //ROUT:CHAN:ADV:SOUR EXT //HK:detectorTemperatureSensor -->L4452A TCPIP0::169.254.44.52::inst0::INSTR // Configuration lines for L4452A module Configure:Digital:State input,(@1001) Configure:Digital:State input,(@1002) Configure:Digital:State output,(@1003) Configure:Digital:State output,(@1004) Source:Digital:Data:Byte 3,(@1003) Source:Digital:Data:Byte 0,(@1004) Source:VOLT:LEV 0.894,(@1006) Source:VOLT:LEV 4.986,(@1007) // List of valid variable for L4421A instrument // ambientBlackbodyTopRimRes // ambientBlackbodyApexRes // ambientBlackbodyBottomRimRes // hotBlackbodyTopRimRes // hotBlackbodyApexRes // hotBlackbodyBottomRimRes // refRes1 // refRes2 // refRes3 // outsideAirRes // interferometerAirRes // blackbodySupportStructureRes // blackbodyAirRes // mirrorMotorRes // sceneMirrorRes // powerSupplyRes24V // powerSupplyRes28V // stirlingCoolerCompressorRes // stirlingCoolerExpenderRes // thermalEnclosureRes // inputMirrorMotorDriveElectronicRes // dataAcquisitionModulesRes // sceneWindowRes // fanAirflowRes // protectiveEnclosureRes // detectorTemperatureSensor // stirlingCoolerCurrent // atmosphericRelativeHumidity // interferometerRelativeHumidity // atmosphericPressureSensor // externalRainDetectorSensor // internalRainDetectorSensor // externalSunDetectorSensor // internalSunDetectorSensor //End of Agilent configuration file@@@@@ END OF SECTION - agilent.config @@@@@ @@@@@ BEGIN SECTION - aeri.pos @@@@@ LAT = 43.071 LON = -89.407 ALT = 295 "05-28-2015","16:15:00"@@@@@ END OF SECTION - aeri.pos @@@@@ @@@@@ BEGIN SECTION - mirror.beg @@@@@ 20 1 D4915 HBB 17 240.35 D-25085 ABB 17 300.55 D-1085 SKY 17 179.5 D-1085 T-SKY 17 179.5 D-1085 U-SKY 17 179.5 D-1085 V-SKY 17 179.5 D-1085 W-SKY 17 179.5 D-1085 X-SKY 17 179.5 D-1085 Y-SKY 17 179.5 D-1085 Z-SKY 17 179.5 D-25085 ABB 17 300.55 D4915 HBB 17 240.35 D-1085 SKY 17 179.5 D-1085 T-SKY 17 179.5 D-1085 U-SKY 17 179.5 D-1085 V-SKY 17 179.5 D-1085 W-SKY 17 179.5 D-1085 X-SKY 17 179.5 D-1085 Y-SKY 17 179.5 D-1085 Z-SKY 17 179.5 @@@@@ END OF SECTION - mirror.beg @@@@@ @@@@@ BEGIN SECTION - op.set @@@@@ ; ; Default setup file ; ; General parameters ; ; Instrument type (0=M100 1=MB 2=M120 4=M100 5=MR200) INSTYP = 1 ; Extended (1) or Limited (0) filing system EXTLIM = 1 ; DSP board interrupt number (3 or 5) DSPINT = 5 ; Number of DSP boards installed (1-2) DSPNUM = 2 ; Type of DSP board installed (1=normal DSP 3=1 wait state 4=0 wait state DSPTYP = 1 ; Forward scans only (0) or bidirectional (1) DIRMOD = 1 ; Calibration method = 0 = One point calibration ; 1 = Two-point calibration with self phase correction ; 2 = Two-point calib. with black body phase correction CALIBR = 2 ; Combine forward and reverse (1) or not (0) after calibration COMBIN = 0 ; Merge Detector 1 and 2 together (1) or not (0) after calibration ; (valid only with a 2 DSP system ) MERGED = 0 ; Cutoff frequency in case of a merge (floating point format) CUTOFF = 1700.0 ; Keep all scans (1) or not (0) (requires LabCalc, output files all become ; LabCalc Multifile format) KEEPSC = 0 ; Wavenumber minimum limit for detector #1 (floating point format) SIGMN1 = 200.0 ; Wavenumber maximum limit for detector #1 (floating point format) SIGMX1 = 2000.0 ; Wavenumber minimum limit for detector #2 (floating point format)(optional) SIGMN2 = 1600.0 ; Wavenumber maximum limit for detector #2 (floating point format)(optional) SIGMX2 = 3020.0 ; Apodization function (0=BOXCAR 1=BARTLET 2=COSINE 3=HAMMING 4=BLACKMAN ; 5=GAUSSIAN 6=NORTON_B_WEEK 7=NORTON_B_MEDIUM ; 8=NORTON_B_STRONG) ; WARNING: DSP96000 only APODIZ = 0 ; ; Cold calibration parameters ; ; Cold calibration Aperture Stop Diameter in cm (floating point format) CC_ASD = 1.5 ; Cold calibration Field Stop Diameter in cm (floating point format) CC_FSD = 0.64 ; Distance or Collimator Focal Length in cm (floating point format) CC_CFL = 13.9 ; Cold Black Body Temperature in Kelvin (floating point format) CC_BBT = 293.0 ; Cold Black Body ambiant temperature in Kelvin (floating point format) ; (optional) CCAMBT = 300.0 ; Cold Black body emissivity (0 <= emissivity <= 1) (floating point format) ; (optional) CCEMIS = 1.0 ; Number of scan to be done for Cold calibration CCNSCA = 1 ; Cold calibration file description ; (must be enclosed in double quotes 80 char. max ) CCDESC = "Sample description for Cold calibration ... " ; ; Hot calibration parameters ; ; Hot calibration Aperture Stop Diameter in cm (floating point format) HC_ASD = 1.5 ; Hot calibration Field Stop Diameter in cm (floating point format) HC_FSD = 0.64 ; Distance or Collimator Focal Length in cm (floating point format) HC_CFL = 13.9 ; Hot Black Body Temperature in Kelvin (floating point format) HC_BBT = 293.0 ; Hot Black Body ambiant temperature in Kelvin (floating point format) ; (optional) HCAMBT = 300.0 ; Hot Black body emissivity (0 <= emissivity <= 1) (floating point format) ; (optional) HCEMIS = 1.0 ; Number of scan to be done for Hot calibration HCNSCA = 1 ; Hot calibration file description ; (must be enclosed in double quotes 80 char. max ) HCDESC = "Sample description for Hot calibration ... " ; ; Sample measurement parameters ; ; Sample measurement Aperture Stop Diameter in cm (floating point format) SM_ASD = 1.5 ; Sample measurement Field Stop Diameter in cm (floating point format) SM_FSD = 0.64 ; Distance or Collimator Focal Length in cm (floating point format) SM_CFL = 13.9 ; Obscuration area (in %) OBSCAR = 0 ; Target area of the Field of view (in %) TARGAR = 100 ; Number of scan to be done for Sample measurement SMNSCA = 1 ; Sample measurement file description ; (must be enclosed in double quotes 80 char. max ) SMDESC = "Sample description for Sample measurement ... " ; Instrument parameters ; Laser frequency LASERF = 15799.7 ; Detector of channel #1 (A) preamplifier delay (DSP96000 and MR200 only) DELAYA = 3.75 ; Detector of channel #2 (B) preamplifier delay (DSP96000 and MR200 only) DELAYB = 3.75 ; Instrument settings (DSP96000 and supported instrument only) ; (NOTE: any parameter commented out is not changed) ; Resolution (0=128 1=64 2=32 3=16 4=8 5=4 6=2 7=1 cm-1) RESOLU = 7 ; Detector #1 gain (1,2,4,8,16) ;GAIND1 = 4 ; Detector #2 gain (1,2,4,8,16) ;GAIND2 = 4 ; Oversampling for detector #1 (0=1 1=2 sample per fringe) ;OVERS1 = 0 ; Oversampling for detector #2 (0=1 1=2 sample per fringe) ;OVERS2 = 0 ; Auxiliary detector (0=1st 2=2nd detector) ;AUXDET = 0 DELOS2 = 1.0@@@@@ END OF SECTION - op.set @@@@@ @@@@@ BEGIN SECTION - aeriemis.asc @@@@@ 7/96 Sample #5 (Best of Lot #3 of 2.7 inch Aperture BB's) 400 0.9623 500 0.9628 550 0.9620 600 0.9594 650 0.9560 700 0.9556 740 0.9541 765 0.9548 800 0.9541 850 0.9556 900 0.9560 950 0.9556 1000 0.9503 1060 0.9413 1100 0.9495 1150 0.9686 1200 0.9732 1300 0.9760 1400 0.9766 1510 0.9770 1550 0.9770 1650 0.9770 1700 0.9767 1732 0.9751 1746 0.9744 1800 0.9669 1850 0.9644 1900 0.9636 2030 0.9640 2100 0.9640 2200 0.9646 2300 0.9654 2400 0.9646 2500 0.9646 2600 0.9654 2700 0.9654 2800 0.9661 2900 0.9669 3000 0.9676 3100 0.9676 @@@@@ END OF SECTION - aeriemis.asc @@@@@ @@@@@ BEGIN SECTION - rwaspc.sip @@@@@ (File: RWASPC.SIP -- "static" input parameters for RWASPC) (GENERIC) (Note: blank lines, and lines with "(" in col.1, are ignored.) numberFirstCycle:= 1 numberLastCycle:= 9999 LASERwavenumberCh1:= 15799.30 LASERwavenumberCh2:= 15799.30@@@@@ END OF SECTION - rwaspc.sip @@@@@ @@@@@ BEGIN SECTION - nlapp.sip @@@@@ (File: NLAPP.SIP -- "static" input parameters for NLAPP) (AERI-105: 26 August 2016) (Analysis using records: 1 - 120) ( modified aperture ) (Note: blank lines, and lines with "(" in col.1, are ignored.) firstHBBreferenceRecNum(IHREC):= 1 firstInputRecord(IRECLO):= 1 lastInputRecord(IRECHI):= 9999 NLAPPwgt(WGT):= 100000.000000 NLAPPeff(EFF):= 0.700000 NLAPPfback(FBACK):= 1.000000 NLAPPhzpd0(HZPD0):= 5841.557 NLAPPczpd0(CZPD0):= -15052.3946 NLAPPnmax(NMAX):= 2 NLAPPan1(AN(1)):= 1.0 NLAPPan2(AN(2)):= 4.328909367e-07 NLAPPan3(AN(3)):= 0.0 NLAPPan4(AN(4)):= 0.0 NLAPPan5(AN(5)):= 0.0@@@@@ END OF SECTION - nlapp.sip @@@@@ @@@@@ BEGIN SECTION - aericalv.sip @@@@@ (File: AERICALV.SIP -- "static" input parameters for AERICALV) (Note: Comment lines must have a left parenthesis, "(", in the first column, ( and blank lines are ignored. hotViewIdentifier(MPHOT):= 'H' coldViewIdentifier(MPCOLD):= 'A' firstSceneNumber(NFSCN):= 1 lastSceneNumber(NLSCN):= 9999 outputImaginaryPart(OUTOP2):= 'Y' outputResponsivity(OUTOP3):= 'Y' minValidThermistorCount(CTMIN):= -32767 maxValidThermistorCount(CTMAX):= 32767 ratioTestFactor(RATFAC):= 1.5 BBcavityFactor(CAVFAC):= 39 (Following 8 parameters are BB Temperature Weights) ABBtempOffset(ABTOFF):= 0 HBBtempOffset(HBTOFF):= 0 ABBtopTempWeight(WTABBT):= 0.0945 ABBapexTempWeight(WTABBA):= 0.811 ABBbottomTempWeight(WTABBB):= 0.0945 HBBtopTempWeight(WTHBBT):= 0.0945 HBBapexTempWeight(WTHBBA):= 0.811 HBBbottomTempWeight(WTHBBB):= 0.0945 @@@@@ END OF SECTION - aericalv.sip @@@@@ @@@@@ BEGIN SECTION - ffovcmr.si1 @@@@@ (File: FFOVCMR.SI1 -- "static" input parameters for FFOVCMR, Ch.1) (GENERIC) (Note: blank lines, and lines with "(" in col.1, are ignored.) FFOVhalfAngle(FFOV):= 23 rolloffPointLow(WNL):=520 rolloffPointHigh(WNH):=1800 firstInputRecord(NFR):= 1 lastInputRecord(NLR):= 9999 interferogramLength(NUSED):= 8192 numberOfTerms(NTERMS):= 2 @@@@@ END OF SECTION - ffovcmr.si1 @@@@@ @@@@@ BEGIN SECTION - ffovcmr.si2 @@@@@ (File: FFOVCMR.SI2 -- "static" input parameters for FFOVCMR, Ch.2) (GENERIC) (Note: blank lines, and lines with "(" in col.1, are ignored.) FFOVhalfAngle(FFOV):= 23 rolloffPointLow(WNL):=1800 rolloffPointHigh(WNH):=3020 firstInputRecord(NFR):= 1 lastInputRecord(NLR):= 9999 interferogramLength(NUSED):= 8192 numberOfTerms(NTERMS):= 2 @@@@@ END OF SECTION - ffovcmr.si2 @@@@@ @@@@@ BEGIN SECTION - zfli.si1 @@@@@ (File: ZFLI.SI1 -- "static" input parameters for ZFLI, Ch.1) (13 Aug 2013: From on 10 Aug 2013 case) (Note: blank lines, and lines with "(" in col.1, are ignored.) originalLaserWavenumber(WNLASR):= 15799.66 firstInputRecord(NFREC):= 1 lastInputRecord(NLREC):= 9999 outputLaserWavenumber(WNLASO):= 15799.0 firstWavenumberOut(WNAO):= 520.0 lastWavenumberOut(WNBO):= 1800.0 FFTpowerOf2(JEXP):= 17 @@@@@ END OF SECTION - zfli.si1 @@@@@ @@@@@ BEGIN SECTION - zfli.si2 @@@@@ (File: ZFLI.SIP -- "static" input parameters for ZFLI, Ch.2) (13 Aug 2013: 10 Aug 2013 case) (Note: blank lines, and lines with "(" in col.1, are ignored.) originalLaserWavenumber(WNLASR):= 15799.41 firstInputRecord(NFREC):= 1 lastInputRecord(NLREC):= 9999 outputLaserWavenumber(WNLASO):= 15799.0 firstWavenumberOut(WNAO):= 1800.0 lastWavenumberOut(WNBO):= 3020.0 FFTpowerOf2(JEXP):= 17 @@@@@ END OF SECTION - zfli.si2 @@@@@ @@@@@ BEGIN SECTION - aerisum.sip @@@@@ (File: AERISUM.SIP -- "static" input parameters for AERISUM) (GENERIC) (Note: blank lines, and lines with "(" in col.1, are ignored.) firstInputRecord(NFR):= 1 lastInputRecord(NLR):= 9999 HBBtempDriftLimit(DHBBMX):= 0.5 LWskyNENlimit(SNENMX(1)):= 1.0 SWskyNENlimit(SNENMX(2)):= 0.05 @@@@@ END OF SECTION - aerisum.sip @@@@@ @@@@@ BEGIN SECTION - channel.map @@@@@ (AERIBago Channel.Map of Metrabyte Channels ) (020507) (Note: Comment lines must have a left parenthesis, "(", in the first column, ) ( and blank lines are ignored. ) ( Negative channels represent digitals, of which there are 32 available: ) ( -1 : first byte, first bit ) ( -9 : second byte, first bit ... etc. ) ( History: ) ( 961212 : RKG adapted from channel.map and hkchan.txt ) ( 970707 : fixed up hatchOpenDetect, hatchClosedDetect ) ( 970722 : added opticsCompartmentRelativeHumidity ) ( 020507 : removed scene mirror temp & air flow delta parameers) (Ch. Short Name in single quotes) 00 'ABBtopTemp' 01 'ABBapexTemp' 02 'ABBbottomTemp' 03 'HBBtopTemp' 04 'HBBapexTemp' 05 'HBBbottomTemp' 06 'fixed2500ohmResistor' 07 'fixed97KohmResistor' 08 'outsideAirTemp' 09 'airNearInterferometerTemp' 10 'interferometerSecondPortTemp' 11 'BBsupportStructureTemp' 12 'airNearBBsTemp' 13 'mirrorMotorTemp' (14 'sceneMirrorTemp') 15 'fixed12KohmResistor' 16 'BBcontroller1temp' 17 'BBcontroller2temp' 18 'coolerCompressorTemp' 19 'coolerExpanderTemp' 20 'coolerPowerSupplyTemp' 21 'rackAmbientTemp' 22 'computerTemp' 23 'motorDriverTemp' 24 'SCEtemp' 25 'coolerCurrent' 26 'detectorTemp' 27 'rainSensorIntensity' 28 'interferometerWindowTemp' (29 'frontEndFanAirUnheatedTemp') (30 'frontEndFanAirHeatedTemp') 31 'spareTemp' 32 'atmosphericRelativeHumidity' 33 'interferometerEnclosureRelativeHumidity' 34 'atmosphericPressure' (35 'sunSensorIntensity') (1026 'opticsCompartmentRelativeHumidity') (digitals) -2 'hatchOpenDetect' -3 'hatchClosedDetect' @@@@@ END OF SECTION - channel.map @@@@@ @@@@@ BEGIN SECTION - outgoing.lis @@@@@ ; COMPREHENSIVE OUTGOING.LIS (981213) ; ; list files to be saved in \OUTGOING as wild card files ; ; Comments begin with ";" or "#" # Blank lines are ignored *.PAR *.QC *.SIT *.SUM *.CSV *.RNC *.CXS *.UVS *.LOG@@@@@ END OF SECTION - outgoing.lis @@@@@ @@@@@ BEGIN SECTION - eaeri_hk_sched.py @@@@@ # $Id: eaeri_hk_sched.py,v 1.1.2.1 2010/10/25 15:57:58 rayg Exp $ # housekeeping sampling schedule for spline interpolation # this file potentially changes when agilent.config changes! # Goal: to be able to spline-interpolate calibration temps and resistances to within 5s accuracy # E-AERI has a cyclical housekeeping measurement system operating over ~28s cycles # each measurement is taken in turn, and the final buffered output is recorded as one timestep # in order to support rapid-sample, we find a spline fit on the estimated actual measurement time # this requires knowing the seconds offset from the reporting time to the actual time # such information is derived from agilent.config and information about FTSW_EAERI # more notes in RayG's notebook 2010.10.24 # table is in the form # housekeeping_name = scd( seconds_offset_from_measurement_time_or_0.0, max_delta_per_second_or_None ) # Overall cycle time of the housekeeping system averages to 27.4s but may be closer to 28 due to 1s granularity # gleaned by averaging EAERI101 delta-T's in raw hk files where they were contiguous # we estimate that timestamp is happening around 27s mark in the cycle # all time values are in seconds relative to recording time # offset from recording time to start of the below schedule, which should be within 1s of actual TOFF = -27.0 class scd(object): dt = 0.0 dv = None def __init__(self, dt_, dv_ ): self.dt = dt_ self.dv = dv_ # first 5 seconds run through these but we won't worry about any but blackbodySupportStructure # 21 values total, about 0.25s per measurement # refRes1, refRes2, refRes3, outsideAirRes, interferometerAirRes, blackbodySupportStructureRes, blackbodyAirRes, mirrorMotorRes, sceneMirrorRes, powerSupplyRes24V, powerSupplyRes28V, stirlingCoolerCompressorRes, stirlingCoolerExpenderRes, thermalEnclosureRes, inputMirrorMotorDriveElectronicRes, dataAcquisitionModulesRes, sceneWindowRes, fanAirflowRes, protectiveEnclosureRes, externalSunDetectorSensor, internalSunDetectorSensor # offset of 3 gets us to interferometer air resistance => temperature outsideAirResistance = scd(TOFF+0.25*3, None) outsideAirTemperature = scd(TOFF+0.25*3, None) interferometerAirResistance = scd(TOFF+0.25*4, None) interferometerAirTemperature = scd(TOFF+0.25*4, None) # blackbody support struct, offset 5 in the list blackbodySupportStructureResistance = scd(TOFF+0.25*5, None) blackbodySupportStructureTemperature = scd(TOFF+0.25*5, None) blackbodyAirResistance = scd(TOFF+0.25*6, None) blackbodyAirTemperature = scd(TOFF+0.25*6, None) sceneMirrorResistance = scd(TOFF+0.25*8, None) sceneMirrorTemperature = scd(TOFF+0.25*8, None) thermalEnclosureResistance = scd(TOFF+0.25*13, None) thermalEnclosureTemperature = scd(TOFF+0.25*13, None) sceneWindowResistance = scd(TOFF+0.25*16, None) sceneWindowTemperature = scd(TOFF+0.25*16, None) protectiveEnclosureResistance = scd(TOFF+0.25*18, None) protectiveEnclosureTemperature = scd(TOFF+0.25*18, None) # +5.0 - +13.0 # ambientBlackbodyTopRimRes, ambientBlackbodyApexRes, ambientBlackbodyBottomRimRes # 1.5s, 4.5s, 7.5s within that 9s region ambientBlackbodyTopRimResistance = scd(TOFF+5.0+1.5, None) ambientBlackbodyTopRimTemperature = scd(TOFF+5.0+1.5, None) ambientBlackbodyApexResistance = scd(TOFF+5.0+4.5, None) ambientBlackbodyApexTemperature = scd(TOFF+5.0+4.5, None) ambientBlackbodyBottomRimResistance = scd(TOFF+5.0+7.5, None) ambientBlackbodyBottomRimTemperature = scd(TOFF+5.0+7.5, None) # +13.0 - +21.0 # hotBlackbodyTopRimRes, hotBlackbodyApexRes, hotBlackbodyBottomRimRes hotBlackbodyTopRimResistance = scd(TOFF+13.0+1.5, None) hotBlackbodyTopRimTemperature = scd(TOFF+13.0+1.5, None) hotBlackbodyApexResistance = scd(TOFF+13.0+4.5, None) hotBlackbodyApexTemperature = scd(TOFF+13.0+4.5, None) hotBlackbodyBottomRimResistance = scd(TOFF+13.0+7.5, None) hotBlackbodyBottomRimTemperature = scd(TOFF+13.0+7.5, None) # detector temperature is pretty much at the end so let's use it to nail down the other end of the schedule detectorTemperatureSensor = scd(0.0, None) # other values we don't really care about right now will also be assumed 0.0s offset from recording time # TECInput1Temperature= # TECOutput= # atmosphericPressureSensor = scd(0.0, None) # atmosphericRelativeHumidity = scd(0.0, None) # dataAcquisitionModulesResistance= # dataAcquisitionModulesTemperature= # externalRainDetectorSensor= # externalSunDetectorSensor= # fanAirflowResistance= # fanAirflowTemperature= # inputMirrorMotorDriveElectronicResistance= # inputMirrorMotorDriveElectronicTemperature= # interferometerRelativeHumidity= # internalRainDetectorSensor= # internalSunDetectorSensor= # mirrorMotorResistance= # mirrorMotorTemperature= # pointingMirrorAngle= # powerSupplyResistance24V= # powerSupplyResistance28V= # powerSupplyTemperature24V= # powerSupplyTemperature28V= # refResistance1= # refResistance2= # refResistance3= # refTemp1= # refTemp2= # refTemp3= # stirlingCoolerCompressorResistance= # stirlingCoolerCompressorTemperature= # stirlingCoolerCurrent= # stirlingCoolerExpenderResistance= # stirlingCoolerExpenderTemperature=@@@@@ END OF SECTION - eaeri_hk_sched.py @@@@@ @@@@@ BEGIN SECTION - SUMARY.SCR @@@@@ window with position of 0 67; size of 541 141; real-time is on; title is "INSTRUMENT ..."; bottom-label is "Time"; decimal-hours-x is on; visible-menu is off; horizontal-divisions is 8; vertical-divisions is 10; common-x is on; common-y is on; graph with line of red; range of 0 24 150 350; FILE(meta:timeHHMMSS:surfaceLayerAirTemp675_680) end; graph with line of blue; range of 0 24 150 350; FILE(meta:timeHHMMSS:longwaveWindowAirTemp985_990) end; graph with line of darkgreen; range of 0 24 150 350; FILE(meta:timeHHMMSS:shortwaveWindowAirTemp2510_2515) end; end; window with position of 0 348; size of 541 141; real-time is on; title is "INSTRUMENT ..."; bottom-label is "Time"; decimal-hours-x is on; visible-menu is off; horizontal-divisions is 8; vertical-divisions is 10; common-x is on; common-y is off; graph with line of black; range of 0 24 0 1.0; FILE(meta:timeHHMMSS:coolerCurrent) end; graph with line of red; range of 0 24 60 75; FILE(meta:timeHHMMSS:detectorTemp) end; end; window with position of 0 207; size of 541 141; real-time is on; title is "INSTRUMENT ..."; bottom-label is "Time"; decimal-hours-x is on; visible-menu is off; horizontal-divisions is 8; vertical-divisions is 10; common-x is on; common-y is on; graph with line of red; range of 0 24 240 340; FILE(meta:timeHHMMSS:calibrationHBBtemp) end; graph with line of blue; range of 0 24 240 340; FILE(meta:timeHHMMSS:calibrationCBBtemp) end; graph with line of darkgreen; range of 0 24 240 340; FILE(meta:timeHHMMSS:BBsupportStructureTemp) end; graph with line of brown; range of 0 24 240 340; FILE(meta:timeHHMMSS:calibrationAmbientTemp) end; graph with line of neutral; range of 0 24 240 340; FILE(meta:timeHHMMSS:airNearBBsTemp) end; graph with line of yellow; range of 0 24 240 340; FILE(meta:timeHHMMSS:interferometerSecondPortTemp) end; graph with line of darkblue; range of 0 24 240 340; FILE(meta:timeHHMMSS:spareTemp) end; graph with line of pink; range of 0 24 240 340; FILE(meta:timeHHMMSS:outsideAirTemp) end; end; @@@@@ END OF SECTION - SUMARY.SCR @@@@@ @@@@@ BEGIN SECTION - AESITTER.SCR @@@@@ #AESITTER.SCR # AERIbago instrument - (030708) ,BOMEM EAERI (080930) # #THIS VERS CLUDGES THE HATCH STATUS AS CONTROLLER STATUS IS BOGUS # Limits Tests for AERI: AESITTER input script # # R. Dedecker / R. Garcia # Space Science and Engineering Center # University of Wisconsin-Madison # # # invocation : aesitter -DFILE=test.sum -x=100 -y=100 test.scr # position for AERI windows position is 375 100; position is 539 84; help file is aesitter.hlp; title is INSTRUMENT ...; metadata FILE is date is position is 1 1; meaning is "instrument date"; prefix is "Date "; format is yymmdd; dateYYMMDD end; time is position is 2 1; meaning is "instrument time"; help id is 50025; prefix is "UTC "; format is hhmmss; timeHHMMSS end; record is position is 3 1; meaning is "record number"; help id is 50020; prefix is "Record "; 0 end; Latitude is position is 1 2; meaning is "GPS latitude"; prefix is "Lat "; format is time; Latitude end; Longitude is position is 2 2; meaning is "GPS longitude"; prefix is "Lon "; format is time; Longitude end; Mirror Angle is position is 3 2; meaning is "Mirror Angle"; prefix is "Scene Mirror Angle "; format is integer; sceneMirrorAngle end; ABB Temp is position is 1 3; yellow is 243.15 313.15; green is 248.15 308.15; calibrationCBBtemp end; Outside Air Temp is position is 2 3; yellow is 233.15 323.15; green is 253.15 313.15; help id is PrimaryPanel; outsideAirTemp end; Rack Ambient Temp is position is 3 3; yellow is 277.15 319.15; green is 282.15 314.15; rackAmbientTemp end; Rain Intensity is position is 3 6; yellow is 2.50 3.20; green is 2.80 3.04; rainSensorIntensity end; ABB Max Temp Diff is position is 1 4; green is 0 0.105; yellow is 0 0.21; ABBmaxTempDiff end; BB Support Struct. Temp is position is 2 4; yellow is 233.15 323.15; green is 253.15 313.15; BBsupportStructureTemp end; Hatch Open is position is 3 10; yellow is 0 0; green is 1 2; hatchOpen end; HBB Temp is position is 1 5; yellow is 263.15 353.15; green is 298.5 333.5; calibrationHBBtemp end; Air Temp Near BBs is position is 2 5; yellow is 233.15 343.15; green is 253.15 338.15; airNearBBsTemp end; SCE Temp is position is 3 4; yellow is 273.15 333.15; green is 278.15 328.15; SCEtemp end; HBB Max Temp Diff is position is 1 6; green is 0 0.4; yellow is 0 0.7; HBBmaxTempDiff end; # Scene Mirror Temp is # position is 3 12; # yellow is 233.15 343.15; # green is 253.15 338.15; # sceneMirrorTemp # end; # ABB Controller Temp is # position is 3 6; # yellow is 273.15 323.15; # green is 278.15 318.15; # BBcontroller1temp # end; #JG replace with Inter. Humidity #Air Humidity is #position is 2 6; #yellow is 1.0 99.0; #green is 10.0 97.0; #atmosphericRelativeHumidity #end; HBB Temp Stability is position is 1 7; yellow is -0.5 0.5; green is -0.05 0.05; HBBtempDrift end; Mirror Motor Temp is position is 2 7; yellow is 233.15 363.15; green is 238.15 333.15; mirrorMotorTemp end; # HBB Controller Temp is # position is 3 7; # yellow is 273.15 323.15; # green is 278.15 318.15; # BBcontroller2temp # end; Atmos. Pressure is position is 2 8; yellow is 750.0 1040.0; green is 800.0 1025.0; atmosphericPressure end; 336 Kelvin (Reference) is position is 1 8; yellow is 2423.36 2432.95; green is 2425.76 2430.55; help id is 50060; fixed2500ohmResistor end; # Air Flow Delta Temp is # position is 2 8; # position is 3 13; # yellow is .50 3.2; # green is .65 2.8; # yellow is -3.2 3.2; # green is -2.8 2.8; # frontEndFanAirTempDiff # end; # Cooler Pwr Sup. Temp is # position is 3 8; # yellow is 281.15 333.15; # green is 288.15 328.15; # coolerPowerSupplyTemp # end; 293 Kelvin (Reference) is position is 1 9; yellow is 10439.45 10490.40; green is 10452.16 10477.63; help id is 50055; fixed12KohmResistor end; # Spare Temp is # position is 2 9; # yellow is 281.15 308.15; # green is 288.15 303.15; # help id is PrimaryPanel; # spareTemp # end; #Motor Driver Temp is #position is 3 5; #yellow is 273.15 323.15; #green is 278.15 318.15; #motorDriverTemp #end; # Sun Intensity is # position is 4 9; # yellow is 273.15 323.15; # green is 278.15 318.15; # sunSensorIntensity # end; 249 Kelvin (Reference) is position is 1 10; yellow is 97100.72 97726.1; green is 97256.64 97569.34; help id is 50055; fixed97KohmResistor end; Interfer. Window Temp is position is 2 9; yellow is 312.00 344.00; green is 315.00 338.00; interferometerWindowTemp end; # Max Sample StdDev is # position is 1 11; # green is 0 0.137; # yellow is 0 0.177; # maxSampleStdDev # end; #JG add in placwe of Air Temp near Interfer. Interfer. 2nd Port Temp is #position is 2 11; position is 2 10; yellow is 281.15 311.15; green is 288.15 306.15; interferometerSecondPortTemp end; Encoder Scene Confirm is position is 3 7; yellow is -5 5; green is -2.5 2.5; sceneMirPosEncoderDrift end; # Maximum Roll is # AERI window position position is 4 11; # position is 3 12; # yellow is -15 15; # green is -5 5; # maxRoll # end; LW HBB NEN is position is 1 11; green is 0 0.2; yellow is 0 1; LW_HBB_NEN end; #JG replace with Second Port Temp #Air Temp Near Interfer. is #position is 2 10; #yellow is 293.8692584 322.0907416; #green is 300.1672146 315.7927854; #airNearInterferometerTemp #end; # Maximum Pitch is # AERI window position position is 4 12; # position is 3 13; # yellow is -15 15; # green is -5 5; # maxPitch # end; SW HBB NEN is position is 1 12; green is 0 0.015; yellow is 0 0.1; SW_HBB_NEN end; #JG uncomment, replace Air Humidity Interfer. Humidity is # position is 2 13; position is 2 6; yellow is 12.0 20.0; green is 0.0 12.0; interferometerEnclosureRelativeHumidity end; LW Responsivity is position is 2 11; #green is 0.011505 5.0; #yellow is 0.01121 5.0; green is 0.007 5.0; yellow is 0.007 5.0; LWresponsivity end; Cooler Comp. Temp is position is 3 11; yellow is 290.3983165 350.2016835; green is 301.1489933 333.4510067; coolerCompressorTemp end; #JG change thresholds x10 Cooler Current is position is 3 8; #yellow is 0.03 0.086; #green is 0.05 0.07; yellow is 0.3 2.86; green is 0.5 2.55; coolerCurrent end; SW Responsivity is position is 2 12; green is 0.011442605 20.0; yellow is 0.01120233 20.0; SWresponsivity end; Cooler Expander Temp is position is 3 12; yellow is 285.0 368.43367; green is 298.0 350.0; coolerExpanderTemp end; Detector Temp is position is 3 9; yellow is 74 85; green is 75 79; detectorTemp end; # Optics Humidity is # position is 2 16; # yellow is 12.0 20.0; # green is 0.0 12.0; # opticsCompartmentRelativeHumidity # end; end;@@@@@ END OF SECTION - AESITTER.SCR @@@@@ @@@@@ BEGIN SECTION - RADIANCE.SCR @@@@@ window with position of 0 485; size of 509 285; real-time is on; title is "INSTRUMENT Ch. 1 Rad. [...]"; bottom-label is "Wavenumber"; common-x is on; common-y is off; graph with line of black; range of 500 1500 0 180; FILE1(1data1:1) end; end; window with position of 506 486; size of 518 285; real-time is on; title is "INSTRUMENT Ch. 2 Rad. [...]"; bottom-label is "Wavenumber"; common-x is on; common-y is off; graph with line of black; range of 2000 3000 0 10; FILE2(1data1:1) end; end; @@@@@ END OF SECTION - RADIANCE.SCR @@@@@