netcdf RF04 { dimensions: Time = 4255 ; sps1 = 1 ; sps10 = 10 ; sps20 = 20 ; Vector16 = 16 ; Vector32 = 32 ; Vector64 = 64 ; variables: int base_time ; base_time:long_name = "Seconds since Jan 1, 1970." ; float time_offset(Time) ; time_offset:long_name = "Seconds since base_time." ; float HOUR(Time) ; HOUR:units = " HR" ; HOUR:long_name = "UNALTERED TAPE TIME" ; HOUR:OutputRate = 1 ; HOUR:missing_value = -32767.f ; float MINUTE(Time) ; MINUTE:units = " MIN" ; MINUTE:long_name = "UNALTERED TAPE TIME" ; MINUTE:OutputRate = 1 ; MINUTE:missing_value = -32767.f ; float SECOND(Time) ; SECOND:units = " S" ; SECOND:long_name = "UNALTERED TAPE TIME" ; SECOND:OutputRate = 1 ; SECOND:missing_value = -32767.f ; float PTIME(Time) ; PTIME:units = " S" ; PTIME:long_name = "PROCESSOR TIME" ; PTIME:OutputRate = 1 ; PTIME:missing_value = -32767.f ; float TPTIME(Time) ; TPTIME:units = " S" ; TPTIME:long_name = "RAW TAPE TIME" ; TPTIME:OutputRate = 1 ; TPTIME:missing_value = -32767.f ; float ALAT(Time) ; ALAT:units = " DEG" ; ALAT:long_name = "INS LATITUDE" ; ALAT:OutputRate = 1 ; ALAT:missing_value = -32767.f ; float ALON(Time) ; ALON:units = " DEG" ; ALON:long_name = "INS LONGITUDE" ; ALON:OutputRate = 1 ; ALON:missing_value = -32767.f ; float PSFDC(Time) ; PSFDC:units = " MB" ; PSFDC:long_name = "CORRECTED STATIC PRESSURE (FUSELAGE DI)" ; PSFDC:OutputRate = 1 ; PSFDC:missing_value = -32767.f ; float PSFC(Time) ; PSFC:units = " MB" ; PSFC:long_name = "CORRECTED STATIC PRESSURE (FUSELAGE)" ; PSFC:OutputRate = 1 ; PSFC:missing_value = -32767.f ; float ATFH(Time) ; ATFH:units = " C" ; ATFH:long_name = "AMBIENT TEMPERATURE (FUSELAGE HEATED)" ; ATFH:OutputRate = 1 ; ATFH:missing_value = -32767.f ; float DPTC(Time) ; DPTC:units = " C" ; DPTC:long_name = "DEW POINT TEMPERATURE (THERMOELEC) (TOP)" ; DPTC:OutputRate = 1 ; DPTC:missing_value = -32767.f ; float DPBC(Time) ; DPBC:units = " C" ; DPBC:long_name = "DEW POINT TEMPERATURE (THERMOELEC) (BOT)" ; DPBC:OutputRate = 1 ; DPBC:missing_value = -32767.f ; float PALT(Time) ; PALT:units = " M" ; PALT:long_name = "NACA PRESSURE ALTITUDE" ; PALT:OutputRate = 1 ; PALT:missing_value = -32767.f ; float MR(Time) ; MR:units = " G/KG" ; MR:long_name = "MIXING RATIO" ; MR:OutputRate = 1 ; MR:missing_value = -32767.f ; float SPHUM(Time) ; SPHUM:units = " G/KG" ; SPHUM:long_name = "SPECIFIC HUMIDITY" ; SPHUM:OutputRate = 1 ; SPHUM:missing_value = -32767.f ; float QCFC(Time) ; QCFC:units = " MB" ; QCFC:long_name = "CORRECTED DYNAMIC PRESSURE (FUSELAGE)" ; QCFC:OutputRate = 1 ; QCFC:missing_value = -32767.f ; float QCRC(Time) ; QCRC:units = " MB" ; QCRC:long_name = "CORRECTED DYNAMIC PRESSURE (RADOME)" ; QCRC:OutputRate = 1 ; QCRC:missing_value = -32767.f ; float QCF(Time) ; QCF:units = " MB" ; QCF:long_name = "RAW DYNAMIC PRESSURE (FUSELAGE)" ; QCF:OutputRate = 1 ; QCF:missing_value = -32767.f ; float QCR(Time) ; QCR:units = " MB" ; QCR:long_name = "RAW DYNAMIC PRESSURE (RADOME)" ; QCR:OutputRate = 1 ; QCR:missing_value = -32767.f ; float AKRD(Time) ; AKRD:units = " DEG" ; AKRD:long_name = "ATTACK ANGLE (RADOME)" ; AKRD:OutputRate = 1 ; AKRD:missing_value = -32767.f ; float SSRD(Time) ; SSRD:units = " DEG" ; SSRD:long_name = "SIDESLIP ANGLE (RADOME)" ; SSRD:OutputRate = 1 ; SSRD:missing_value = -32767.f ; float ADIFR(Time) ; ADIFR:units = " MB" ; ADIFR:long_name = "ATTACK DIFFERENTIAL PRESSURE (RADOME)" ; ADIFR:OutputRate = 1 ; ADIFR:missing_value = -32767.f ; float BDIFR(Time) ; BDIFR:units = " MB" ; BDIFR:long_name = "SIDESLIP DIFFERENTIAL PRESSURE (RADOME)" ; BDIFR:OutputRate = 1 ; BDIFR:missing_value = -32767.f ; float PSFD(Time) ; PSFD:units = " MB" ; PSFD:long_name = "RAW STATIC PRESSURE (FUSELAGE DI)" ; PSFD:OutputRate = 1 ; PSFD:missing_value = -32767.f ; float PSF(Time) ; PSF:units = " MB" ; PSF:long_name = "RAW STATIC PRESSURE (FUSELAGE)" ; PSF:OutputRate = 1 ; PSF:missing_value = -32767.f ; float PCAB(Time) ; PCAB:units = " MB" ; PCAB:long_name = "CABIN PRESSURE" ; PCAB:OutputRate = 1 ; PCAB:missing_value = -32767.f ; float TTFH(Time) ; TTFH:units = " C" ; TTFH:long_name = "TOTAL TEMPERATURE (FUSELAGE HEATED)" ; TTFH:OutputRate = 1 ; TTFH:missing_value = -32767.f ; float DPT(Time) ; DPT:units = " C" ; DPT:long_name = "DEW/FROST POINT TEMP (THERMOELEC) (TOP)" ; DPT:OutputRate = 1 ; DPT:missing_value = -32767.f ; float DPB(Time) ; DPB:units = " C" ; DPB:long_name = "DEW/FROST POINT TEMP (THERMOELEC) (BOT)" ; DPB:OutputRate = 1 ; DPB:missing_value = -32767.f ; float VCRH(Time) ; VCRH:units = "VDC" ; VCRH:long_name = "RAW CRYOGENIC OUTPUT" ; VCRH:OutputRate = 1 ; VCRH:missing_value = -32767.f ; float XICN(Time) ; XICN:units = "VOLTS" ; XICN:long_name = "CN COUNTER:ISOKINETIC FLOW RATE" ; XICN:OutputRate = 1 ; XICN:missing_value = -32767.f ; float XICNC(Time) ; XICNC:units = "L/MIN" ; XICNC:long_name = "CN COUNTER:CORRECTED ISOK VOL FLOW RATE" ; XICNC:OutputRate = 1 ; XICNC:missing_value = -32767.f ; float PCN(Time) ; PCN:units = "VOLTS" ; PCN:long_name = "CN COUNTER:RAW INLET PRESSURE" ; PCN:OutputRate = 1 ; PCN:missing_value = -32767.f ; float PCNC(Time) ; PCNC:units = "MB" ; PCNC:long_name = "CN COUNTER:CORRECT INLET PRESSURE" ; PCNC:OutputRate = 1 ; PCNC:missing_value = -32767.f ; float FCN(Time) ; FCN:units = "VOLTS" ; FCN:long_name = "CN COUNTER:RAW FLOW RATE" ; FCN:OutputRate = 1 ; FCN:missing_value = -32767.f ; float FCNC(Time) ; FCNC:units = "L/MIN" ; FCNC:long_name = "CN COUNTER:CORRECTED VOL FLOW RATE" ; FCNC:OutputRate = 1 ; FCNC:missing_value = -32767.f ; float FCBADS(Time) ; FCBADS:units = "C" ; FCBADS:long_name = "CN COUNTER:INLET TEMPERATURE" ; FCBADS:OutputRate = 1 ; FCBADS:missing_value = -32767.f ; float PHYG(Time) ; PHYG:units = "MB" ; PHYG:long_name = "PRESSURE, OPHIR HYGROMETER" ; PHYG:OutputRate = 1 ; PHYG:missing_value = -32767.f ; float O3FF(Time) ; O3FF:units = " SLPM" ; O3FF:long_name = "OZONE FLOW" ; O3FF:OutputRate = 1 ; O3FF:missing_value = -32767.f ; float O3FT(Time) ; O3FT:units = " C" ; O3FT:long_name = "OZONE TEMPERATURE" ; O3FT:OutputRate = 1 ; O3FT:missing_value = -32767.f ; float EV1(Time) ; EV1:units = "none" ; EV1:long_name = "EVENT PAD (1)" ; EV1:OutputRate = 1 ; EV1:missing_value = -32767.f ; float TMLAG(Time) ; TMLAG:units = " S" ; TMLAG:long_name = "ARINC TIME LAG" ; TMLAG:OutputRate = 1 ; TMLAG:missing_value = -32767.f ; float FZV(Time) ; FZV:units = " VDC" ; FZV:long_name = "FIXED ZERO VOLTAGE" ; FZV:OutputRate = 1 ; FZV:missing_value = -32767.f ; float CONC3_10(Time, sps10) ; CONC3_10:units = " N/CM3" ; CONC3_10:long_name = "300X PROBE CONCENTRATION" ; CONC3_10:OutputRate = 10 ; CONC3_10:missing_value = -32767.f ; float DBAR3_10(Time, sps10) ; DBAR3_10:units = "MICRON" ; DBAR3_10:long_name = "300X MEAN DIAMETER" ; DBAR3_10:OutputRate = 10 ; DBAR3_10:missing_value = -32767.f ; float CONCF_01(Time, sps10) ; CONCF_01:units = " N/CM3" ; CONCF_01:long_name = "FSSP PROBE CONCENTRATION" ; CONCF_01:OutputRate = 10 ; CONCF_01:missing_value = -32767.f ; float DBARF_01(Time, sps10) ; DBARF_01:units = "MICRON" ; DBARF_01:long_name = "FSSP MEAN DIAMETER" ; DBARF_01:OutputRate = 10 ; DBARF_01:missing_value = -32767.f ; float DISPF_01(Time, sps10) ; DISPF_01:units = "none" ; DISPF_01:long_name = "FSSP DISPERSION (SIGMA/DBARF)" ; DISPF_01:OutputRate = 10 ; DISPF_01:missing_value = -32767.f ; float ATF(Time, sps20) ; ATF:units = " C" ; ATF:long_name = "AMBIENT TEMPERATURE (FUSELAGE)" ; ATF:OutputRate = 20 ; ATF:missing_value = -32767.f ; float ATOPH(Time, sps20) ; ATOPH:units = " C" ; ATOPH:long_name = "OPHIR TEMPERATURE" ; ATOPH:OutputRate = 20 ; ATOPH:missing_value = -32767.f ; float DPCRC(Time, sps20) ; DPCRC:units = " C" ; DPCRC:long_name = "CORRECTED CYROGENIC DEW POINT TEMP" ; DPCRC:OutputRate = 20 ; DPCRC:missing_value = -32767.f ; float THETA(Time, sps20) ; THETA:units = " K" ; THETA:long_name = "POTENTIAL TEMPERATURE" ; THETA:OutputRate = 20 ; THETA:missing_value = -32767.f ; float THETAE(Time, sps20) ; THETAE:units = " K" ; THETAE:long_name = "EQUIVALENT POTENTIAL TEMPERATURE" ; THETAE:OutputRate = 20 ; THETAE:missing_value = -32767.f ; float RHUM(Time, sps20) ; RHUM:units = " PCT" ; RHUM:long_name = "RELATIVE HUMIDITY" ; RHUM:OutputRate = 20 ; RHUM:missing_value = -32767.f ; float RHODT(Time, sps20) ; RHODT:units = " G/M3" ; RHODT:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (TOP)" ; RHODT:OutputRate = 20 ; RHODT:missing_value = -32767.f ; float RHODB(Time, sps20) ; RHODB:units = " G/M3" ; RHODB:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (BOT)" ; RHODB:OutputRate = 20 ; RHODB:missing_value = -32767.f ; float RHOCR(Time, sps20) ; RHOCR:units = " G/M3" ; RHOCR:long_name = "ABSOLUTE HUMIDITY (CRYOGENIC)" ; RHOCR:OutputRate = 20 ; RHOCR:missing_value = -32767.f ; float RHOLA(Time, sps20) ; RHOLA:units = " G/M3" ; RHOLA:long_name = "ABSOLUTE HUMIDITY (LYMAN ALPHA )" ; RHOLA:OutputRate = 20 ; RHOLA:missing_value = -32767.f ; float VLA(Time, sps20) ; VLA:units = "V" ; VLA:long_name = "LYMAN ALPHA VOLTAGE" ; VLA:OutputRate = 20 ; VLA:missing_value = -32767.f ; float CONCN(Time, sps20) ; CONCN:units = "N/CM3" ; CONCN:long_name = "TOTAL CN PARTICLE CONCENTRATION" ; CONCN:OutputRate = 20 ; CONCN:missing_value = -32767.f ; float CONCNC(Time, sps20) ; CONCNC:units = "N/CM3" ; CONCNC:long_name = "CORRECTED CN PARTICLE CONCENTRATION" ; CONCNC:OutputRate = 20 ; CONCNC:missing_value = -32767.f ; float TASF(Time, sps20) ; TASF:units = " M/S" ; TASF:long_name = "AIRCRAFT TRUE AIRSPEED (FUSELAGE)" ; TASF:OutputRate = 20 ; TASF:missing_value = -32767.f ; float TASR(Time, sps20) ; TASR:units = " M/S" ; TASR:long_name = "AIRCRAFT TRUE AIRSPEED (RADOME)" ; TASR:OutputRate = 20 ; TASR:missing_value = -32767.f ; float TTF(Time, sps20) ; TTF:units = " C" ; TTF:long_name = "TOTAL TEMPERATURE (FUSELAGE)" ; TTF:OutputRate = 20 ; TTF:missing_value = -32767.f ; float DPCR(Time, sps20) ; DPCR:units = " C" ; DPCR:long_name = "FROST POINT TEMPERATURE,CRYOGENIC" ; DPCR:OutputRate = 20 ; DPCR:missing_value = -32767.f ; float CRHT(Time, sps20) ; CRHT:units = "C" ; CRHT:long_name = "CRYOGENIC INLET TEMPERATURE" ; CRHT:OutputRate = 20 ; CRHT:missing_value = -32767.f ; float CRHP(Time, sps20) ; CRHP:units = "MB" ; CRHP:long_name = "CRYOGENIC INLET PRESSURE" ; CRHP:OutputRate = 20 ; CRHP:missing_value = -32767.f ; float CNCTS(Time, sps20) ; CNCTS:units = "N/.02S" ; CNCTS:long_name = "CN COUNTER:RAW CN COUNTS" ; CNCTS:OutputRate = 20 ; CNCTS:missing_value = -32767.f ; float O3F(Time, sps20) ; O3F:units = " V" ; O3F:long_name = "OZONE VOLTAGE" ; O3F:OutputRate = 20 ; O3F:missing_value = -32767.f ; float XMARK(Time, sps20) ; XMARK:units = "none" ; XMARK:long_name = "SLIDE MARKS" ; XMARK:OutputRate = 20 ; XMARK:missing_value = -32767.f ; float HYCI(Time, sps20) ; HYCI:units = " CNTS" ; HYCI:long_name = "OPHIR HYGROMETER CLEAR CHANNEL" ; HYCI:OutputRate = 20 ; HYCI:missing_value = -32767.f ; float HYVI(Time, sps20) ; HYVI:units = " CNTS" ; HYVI:long_name = "OPHIR HYGROMETER VAPOR CHANNEL" ; HYVI:OutputRate = 20 ; HYVI:missing_value = -32767.f ; float THYGE(Time, sps20) ; THYGE:units = " C" ; THYGE:long_name = "OPHIR HYGROMETER EXTERNAL TEMPERATURE" ; THYGE:OutputRate = 20 ; THYGE:missing_value = -32767.f ; float THYGI(Time, sps20) ; THYGI:units = " C" ; THYGI:long_name = "OPHIR HYGROMETER INTERNAL TEMPERATURE" ; THYGI:OutputRate = 20 ; THYGI:missing_value = -32767.f ; float ZAIRV(Time, sps20) ; ZAIRV:units = " VDC" ; ZAIRV:long_name = "OPHIR RADIOMETER VOLTAGE" ; ZAIRV:OutputRate = 20 ; ZAIRV:missing_value = -32767.f ; float ZREF1(Time, sps20) ; ZREF1:units = " C" ; ZREF1:long_name = "OPHIR BB REFERENCE 1" ; ZREF1:OutputRate = 20 ; ZREF1:missing_value = -32767.f ; float ZREF2(Time, sps20) ; ZREF2:units = " C" ; ZREF2:long_name = "OPHIR BB REFERENCE 2" ; ZREF2:OutputRate = 20 ; ZREF2:missing_value = -32767.f ; float ZREF3(Time, sps20) ; ZREF3:units = " C" ; ZREF3:long_name = "OPHIR BB REFERENCE 3" ; ZREF3:OutputRate = 20 ; ZREF3:missing_value = -32767.f ; float AFSSP_01(Time, sps10, Vector16) ; AFSSP_01:units = " CNTS" ; AFSSP_01:long_name = "PMS PROBE FSSP RAW COUNT (per cell)" ; AFSSP_01:missing_value = -32767.f ; AFSSP_01:OutputRate = 10 ; AFSSP_01:VectorLength = 16 ; AFSSP_01:FirstBin = 1 ; AFSSP_01:LastBin = 15 ; float A300X_10(Time, sps10, Vector32) ; A300X_10:units = " CNTS" ; A300X_10:long_name = "PMS PROBE 300X RAW COUNT (per cell)" ; A300X_10:missing_value = -32767.f ; A300X_10:OutputRate = 10 ; A300X_10:VectorLength = 32 ; A300X_10:FirstBin = 1 ; A300X_10:LastBin = 31 ; float CFSSP_01(Time, sps10, Vector16) ; CFSSP_01:units = " N/CM3" ; CFSSP_01:long_name = "FSSP CORRECTED CONCENTRATION (per cell)" ; CFSSP_01:missing_value = -32767.f ; CFSSP_01:OutputRate = 10 ; CFSSP_01:VectorLength = 16 ; CFSSP_01:FirstBin = 1 ; CFSSP_01:LastBin = 15 ; float C300X_10(Time, sps10, Vector32) ; C300X_10:units = " N/CM3" ; C300X_10:long_name = "300X CORRECTED CONCENTRATION (per cell)" ; C300X_10:missing_value = -32767.f ; C300X_10:OutputRate = 10 ; C300X_10:VectorLength = 32 ; C300X_10:FirstBin = 1 ; C300X_10:LastBin = 31 ; // global attributes: :Source = "NCAR Research Aviation Facility" ; :Address = "P.O. Box 3000, Boulder, CO 80307-3000" ; :Phone = "(303) 497-1030" ; :Conventions = "NCAR-RAF/nimbus" ; :DateProcessed = "Feb 09 12:37:36 UTC 1990" ; :JOBID = "SIO236" ; :DateConvertedFromGENPRO = "Aug 20 16:50 UTC 2010" ; :ProjectName = " NELSON 24MAR89" ; :Aircraft = "N307D" ; :ProjectNumber = "760" ; :FlightNumber = "RF04" ; :FlightDate = "03/24/1989" ; :TimeInterval = "13:49:33-15:00:27" ; }