netcdf RF01A { dimensions: Time = 2941 ; sps1 = 1 ; sps10 = 10 ; sps15 = 15 ; sps20 = 20 ; sps150 = 150 ; sps580 = 580 ; 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 TPTIME(Time) ; TPTIME:units = " S" ; TPTIME:long_name = "RAW TAPE TIME" ; TPTIME:OutputRate = 1 ; TPTIME:missing_value = -32767.f ; float PTIME(Time) ; PTIME:units = " S" ; PTIME:long_name = "PROCESSOR TIME" ; PTIME:OutputRate = 1 ; PTIME: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 CLAT(Time) ; CLAT:units = " DEG" ; CLAT:long_name = "LORAN C LATITUDE" ; CLAT:OutputRate = 1 ; CLAT:missing_value = -32767.f ; float CLON(Time) ; CLON:units = " DEG" ; CLON:long_name = "LORAN C LONGITUDE" ; CLON:OutputRate = 1 ; CLON:missing_value = -32767.f ; float DEI(Time) ; DEI:units = " KM" ; DEI:long_name = "DISTANCE EAST OF START" ; DEI:OutputRate = 1 ; DEI:missing_value = -32767.f ; float DNI(Time) ; DNI:units = " KM" ; DNI:long_name = "DISTANCE NORTH OF START" ; DNI:OutputRate = 1 ; DNI: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 PSBC(Time) ; PSBC:units = " MB" ; PSBC:long_name = "CORRECTED STATIC PRESSURE (BOOM)" ; PSBC:OutputRate = 1 ; PSBC:missing_value = -32767.f ; float PSWC(Time) ; PSWC:units = " MB" ; PSWC:long_name = "CORRECTED STATIC PRESSURE (WING)" ; PSWC:OutputRate = 1 ; PSWC:missing_value = -32767.f ; float PRT6(Time) ; PRT6:units = " C" ; PRT6:long_name = "RADIOMETRIC NEAR FIELD TEMPERATURE" ; PRT6:OutputRate = 1 ; PRT6: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 HGM(Time) ; HGM:units = " M" ; HGM:long_name = "GEOMETRIC (RADIO) ALTITUDE" ; HGM:OutputRate = 1 ; HGM:missing_value = -32767.f ; float HGME(Time) ; HGME:units = " M" ; HGME:long_name = "GEOMETRIC (RADAR) ALTITUDE (APN-159)" ; HGME:OutputRate = 1 ; HGME: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 DVALU(Time) ; DVALU:units = " M" ; DVALU:long_name = "D-VALUE (HGME - PALT)" ; DVALU:OutputRate = 1 ; DVALU:missing_value = -32767.f ; float PSURF(Time) ; PSURF:units = " MB" ; PSURF:long_name = "SURFACE PRESSURE" ; PSURF:OutputRate = 1 ; PSURF:missing_value = -32767.f ; float TVIR(Time) ; TVIR:units = " C" ; TVIR:long_name = "VIRTUAL TEMPERATURE" ; TVIR:OutputRate = 1 ; TVIR:missing_value = -32767.f ; float RHODT(Time) ; RHODT:units = " G/M3" ; RHODT:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (TOP)" ; RHODT:OutputRate = 1 ; RHODT:missing_value = -32767.f ; float RHODB(Time) ; RHODB:units = " G/M3" ; RHODB:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (BOT)" ; RHODB:OutputRate = 1 ; RHODB: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 QMR(Time) ; QMR:units = " G/KG" ; QMR:long_name = "TOTAL WATER MIXING RATIO" ; QMR:OutputRate = 1 ; QMR: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 RHUM(Time) ; RHUM:units = " PCT" ; RHUM:long_name = "RELATIVE HUMIDITY" ; RHUM:OutputRate = 1 ; RHUM:missing_value = -32767.f ; float LWCC(Time) ; LWCC:units = " G/M3" ; LWCC:long_name = "CORRECTED C-T LIQUID WATER CONTENT" ; LWCC:OutputRate = 1 ; LWCC:missing_value = -32767.f ; float RSTT(Time) ; RSTT:units = " C" ; RSTT:long_name = "RADIOMETRIC SKY TEMPERATURE" ; RSTT:OutputRate = 1 ; RSTT:missing_value = -32767.f ; float RSTB(Time) ; RSTB:units = " C" ; RSTB:long_name = "RADIOMETRIC SURFACE TEMPERATURE" ; RSTB:OutputRate = 1 ; RSTB:missing_value = -32767.f ; float SWT(Time) ; SWT:units = " W/M2" ; SWT:long_name = "TOP SHORTWAVE IRRADIANCE" ; SWT:OutputRate = 1 ; SWT:missing_value = -32767.f ; float SWB(Time) ; SWB:units = " W/M2" ; SWB:long_name = "BOTTOM SHORTWAVE IRRADIANCE" ; SWB:OutputRate = 1 ; SWB:missing_value = -32767.f ; float IRTC(Time) ; IRTC:units = " W/M2" ; IRTC:long_name = "TOP INFRARED CORRECTED IRRADIANCE" ; IRTC:OutputRate = 1 ; IRTC:missing_value = -32767.f ; float IRBC(Time) ; IRBC:units = " W/M2" ; IRBC:long_name = "BOTTOM INFRARED CORRECTED IRRADIANCE" ; IRBC:OutputRate = 1 ; IRBC:missing_value = -32767.f ; float UVT(Time) ; UVT:units = " W/M2" ; UVT:long_name = "TOP ULTRAVIOLET IRRADIANCE" ; UVT:OutputRate = 1 ; UVT:missing_value = -32767.f ; float UVB(Time) ; UVB:units = " W/M2" ; UVB:long_name = "BOTTOM ULTRAVIOLET IRRADIANCE" ; UVB:OutputRate = 1 ; UVB:missing_value = -32767.f ; float THI(Time) ; THI:units = " DEG" ; THI:long_name = "AIRCRAFT TRUE HEADING (ARINC)" ; THI:OutputRate = 1 ; THI:missing_value = -32767.f ; float PCAB(Time) ; PCAB:units = " MB" ; PCAB:long_name = "CABIN STATIC PRESSURE" ; PCAB:OutputRate = 1 ; PCAB: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 PSB(Time) ; PSB:units = " MB" ; PSB:long_name = "RAW STATIC PRESSURE (BOOM)" ; PSB:OutputRate = 1 ; PSB:missing_value = -32767.f ; float PSW(Time) ; PSW:units = " MB" ; PSW:long_name = "RAW STATIC PRESSURE (WING)" ; PSW:OutputRate = 1 ; PSW: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 IRT(Time) ; IRT:units = " W/M2" ; IRT:long_name = "RAW TOP INFRARED IRRADIANCE" ; IRT:OutputRate = 1 ; IRT:missing_value = -32767.f ; float IRB(Time) ; IRB:units = " W/M2" ; IRB:long_name = "RAW BOTTOM INFRARED IRRADIANCE" ; IRB:OutputRate = 1 ; IRB:missing_value = -32767.f ; float DTT(Time) ; DTT:units = " C" ; DTT:long_name = "TOP PYRGEOMETER DOME TEMPERATURE" ; DTT:OutputRate = 1 ; DTT:missing_value = -32767.f ; float STT(Time) ; STT:units = " C" ; STT:long_name = "TOP PYRGEOMETER SINK TEMPERATURE" ; STT:OutputRate = 1 ; STT:missing_value = -32767.f ; float DTB(Time) ; DTB:units = " C" ; DTB:long_name = "BOTTOM PYRGEOMETER DOME TEMPERATURE" ; DTB:OutputRate = 1 ; DTB:missing_value = -32767.f ; float STB(Time) ; STB:units = " C" ; STB:long_name = "BOTTOM PYRGEOMETER SINK TEMPERATURE" ; STB:OutputRate = 1 ; STB:missing_value = -32767.f ; float LWC(Time) ; LWC:units = " G/M3" ; LWC:long_name = "RAW C-T LIQUID WATER CONTENT" ; LWC:OutputRate = 1 ; LWC: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 V10(Time) ; V10:units = " VDC" ; V10:long_name = "10-V REFERENCE" ; V10:OutputRate = 1 ; V10:missing_value = -32767.f ; float V10R(Time) ; V10R:units = " VDC" ; V10R:long_name = "10-V REFERENCE THROUGH RESISTOR" ; V10R:OutputRate = 1 ; V10R:missing_value = -32767.f ; float TADS(Time) ; TADS:units = " C" ; TADS:long_name = "AIR TEMP ADS INTERFACE" ; TADS:OutputRate = 1 ; TADS:missing_value = -32767.f ; float FLOADS(Time) ; FLOADS:units = " C" ; FLOADS:long_name = "AIR TEMP FLOW MONITOR - ADS" ; FLOADS:OutputRate = 1 ; FLOADS: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 FZVR(Time) ; FZVR:units = " VDC" ; FZVR:long_name = "FIXED ZERO VOLTAGE THRU RESISTOR" ; FZVR:OutputRate = 1 ; FZVR:missing_value = -32767.f ; float XV10(Time) ; XV10:units = " VDC" ; XV10:long_name = "10V REFERENCE (EXT. CHASSIS)" ; XV10:OutputRate = 1 ; XV10:missing_value = -32767.f ; float XV10R(Time) ; XV10R:units = " V" ; XV10R:long_name = "TEN VOLT REF / RESISTOR" ; XV10R:OutputRate = 1 ; XV10R:missing_value = -32767.f ; float XTADS(Time) ; XTADS:units = " C" ; XTADS:long_name = "AIR TEMP ADS INTERFACE (EXT. CHASSIS)" ; XTADS:OutputRate = 1 ; XTADS:missing_value = -32767.f ; float XFLOAD(Time) ; XFLOAD:units = " C" ; XFLOAD:long_name = "AIR TEMP-FLOW MONITOR (ADS EXTENSION)" ; XFLOAD:OutputRate = 1 ; XFLOAD:missing_value = -32767.f ; float XFZV(Time) ; XFZV:units = " VDC" ; XFZV:long_name = "FIXED ZERO VOLTAGE (EXT. CHASSIS)" ; XFZV:OutputRate = 1 ; XFZV:missing_value = -32767.f ; float XFZVR(Time) ; XFZVR:units = " V" ; XFZVR:long_name = "FIXED ZERO VOLTAGE / RESISTOR" ; XFZVR:OutputRate = 1 ; XFZVR:missing_value = -32767.f ; float EVP1(Time) ; EVP1:units = " EVP1" ; EVP1:long_name = "EVENT PAD 1" ; EVP1:OutputRate = 1 ; EVP1:missing_value = -32767.f ; float EV2(Time) ; EV2:units = "none" ; EV2:long_name = "EVENT PAD (2)" ; EV2:OutputRate = 1 ; EV2:missing_value = -32767.f ; float EV3(Time) ; EV3:units = "none" ; EV3:long_name = "EVENT PAD (3)" ; EV3:OutputRate = 1 ; EV3:missing_value = -32767.f ; float EV4(Time) ; EV4:units = "none" ; EV4:long_name = "EVENT PAD (4)" ; EV4:OutputRate = 1 ; EV4:missing_value = -32767.f ; float RFLAG(Time) ; RFLAG:units = "none" ; RFLAG:long_name = "STATUS FLAG FOR RECOUPLE PROCEDURE (L-A)" ; RFLAG:OutputRate = 1 ; RFLAG:missing_value = -32767.f ; float O3M(Time) ; O3M:units = " PPBV" ; O3M:long_name = "MEAN OZONE MIXING RATIO" ; O3M:OutputRate = 1 ; O3M:missing_value = -32767.f ; float DASO3(Time) ; DASO3:units = " PPBV" ; DASO3:long_name = "DASIBI OZONE MIXING RATIO" ; DASO3:OutputRate = 1 ; DASO3:missing_value = -32767.f ; float O3PMT(Time) ; O3PMT:units = " VDC" ; O3PMT:long_name = "OZONE PMT TEMPERATURE" ; O3PMT:OutputRate = 1 ; O3PMT:missing_value = -32767.f ; float O3RXP(Time) ; O3RXP:units = " VDC" ; O3RXP:long_name = "REACTION CHAMBER PRESSURE" ; O3RXP:OutputRate = 1 ; O3RXP:missing_value = -32767.f ; float O3RXT(Time) ; O3RXT:units = " VDC" ; O3RXT:long_name = "REACTION CHAMBER TEMPERATURE" ; O3RXT:OutputRate = 1 ; O3RXT:missing_value = -32767.f ; float O3HV(Time) ; O3HV:units = " SLPM" ; O3HV:long_name = "DASIBI MANIFOLD FLOW" ; O3HV:OutputRate = 1 ; O3HV:missing_value = -32767.f ; float O3NOF(Time) ; O3NOF:units = " SCCM" ; O3NOF:long_name = "NITRIC OXIDE FLOW" ; O3NOF:OutputRate = 1 ; O3NOF:missing_value = -32767.f ; float DASPR(Time) ; DASPR:units = " MB" ; DASPR:long_name = "DASIBI INSTRUMENT PRESSURE" ; DASPR:OutputRate = 1 ; DASPR:missing_value = -32767.f ; float BH1(Time) ; BH1:units = " VDC" ; BH1:long_name = "AEROSOL SAMPLE FLOW 1" ; BH1:OutputRate = 1 ; BH1:missing_value = -32767.f ; float BH2(Time) ; BH2:units = " VDC" ; BH2:long_name = "AEROSOL SAMPLE FLOW 2" ; BH2:OutputRate = 1 ; BH2:missing_value = -32767.f ; float CO1(Time) ; CO1:units = " VDC" ; CO1:long_name = "CARBON MONOXIDE (10S)" ; CO1:OutputRate = 1 ; CO1:missing_value = -32767.f ; float CO2(Time) ; CO2:units = " VDC" ; CO2:long_name = "CARBON MONOXIDE (30S)" ; CO2:OutputRate = 1 ; CO2:missing_value = -32767.f ; float CMODE(Time) ; CMODE:units = " VDC" ; CMODE:long_name = "CARBON MONOXIDE DETECTER, STATUS" ; CMODE:OutputRate = 1 ; CMODE:missing_value = -32767.f ; float SUM15Y_20(Time) ; SUM15Y_20:units = "CNTS" ; SUM15Y_20:long_name = "PMS 200Y PROBE (TOTAL COUNTS)" ; SUM15Y_20:OutputRate = 1 ; SUM15Y_20:missing_value = -32767.f ; float CONCY_20(Time) ; CONCY_20:units = "N/L" ; CONCY_20:long_name = "200Y PROBE CONCENTRATION" ; CONCY_20:OutputRate = 1 ; CONCY_20:missing_value = -32767.f ; float DBARY_20(Time) ; DBARY_20:units = "MICRON" ; DBARY_20:long_name = "200Y MEAN DIAMETER" ; DBARY_20:OutputRate = 1 ; DBARY_20:missing_value = -32767.f ; float DISPY_20(Time) ; DISPY_20:units = "none" ; DISPY_20:long_name = "200Y DISPERSION (SIGMA/DBARY)" ; DISPY_20:OutputRate = 1 ; DISPY_20:missing_value = -32767.f ; float PLWCY_20(Time) ; PLWCY_20:units = " G/M3" ; PLWCY_20:long_name = "200Y WATER/ICE CONTENT" ; PLWCY_20:OutputRate = 1 ; PLWCY_20:missing_value = -32767.f ; float DBZY_20(Time) ; DBZY_20:units = " DB(Z)" ; DBZY_20:long_name = "200Y REFLECTIVITY FACTOR" ; DBZY_20:OutputRate = 1 ; DBZY_20:missing_value = -32767.f ; float SUM15A_28(Time, sps10) ; SUM15A_28:units = "CNTS" ; SUM15A_28:long_name = "PMS ASASP PROBE (TOTAL COUNTS)" ; SUM15A_28:OutputRate = 10 ; SUM15A_28:missing_value = -32767.f ; float CONCA_28(Time, sps10) ; CONCA_28:units = "N/CM3" ; CONCA_28:long_name = "ASASP PROBE CONCENTRATION" ; CONCA_28:OutputRate = 10 ; CONCA_28:missing_value = -32767.f ; float DBARA_28(Time, sps10) ; DBARA_28:units = "MICRON" ; DBARA_28:long_name = "ASASP MEAN DIAMETER" ; DBARA_28:OutputRate = 10 ; DBARA_28:missing_value = -32767.f ; float DISPA_28(Time, sps10) ; DISPA_28:units = "none" ; DISPA_28:long_name = "ASASP DISPERSION (SIGMA/DBARA)" ; DISPA_28:OutputRate = 10 ; DISPA_28:missing_value = -32767.f ; float SUM15F_18(Time, sps10) ; SUM15F_18:units = "CNTS" ; SUM15F_18:long_name = "PMS FSSP PROBE (TOTAL COUNTS)" ; SUM15F_18:OutputRate = 10 ; SUM15F_18:missing_value = -32767.f ; float CONCF_18(Time, sps10) ; CONCF_18:units = "N/CM3" ; CONCF_18:long_name = "FSSP PROBE CONCENTRATION" ; CONCF_18:OutputRate = 10 ; CONCF_18:missing_value = -32767.f ; float DBARF_18(Time, sps10) ; DBARF_18:units = "MICRON" ; DBARF_18:long_name = "FSSP MEAN DIAMETER" ; DBARF_18:OutputRate = 10 ; DBARF_18:missing_value = -32767.f ; float DISPF_18(Time, sps10) ; DISPF_18:units = "none" ; DISPF_18:long_name = "FSSP DISPERSION (SIGMA/DBARF)" ; DISPF_18:OutputRate = 10 ; DISPF_18:missing_value = -32767.f ; float PLWCF_18(Time, sps10) ; PLWCF_18:units = "G/M3" ; PLWCF_18:long_name = "FSSP WATER/ICE CONTENT" ; PLWCF_18:OutputRate = 10 ; PLWCF_18:missing_value = -32767.f ; float FACT_18(Time, sps10) ; FACT_18:units = "none" ; FACT_18:long_name = "FSSP CALCULATED ACTIVITY FRACTION" ; FACT_18:OutputRate = 10 ; FACT_18:missing_value = -32767.f ; float FBMFR_18(Time, sps10) ; FBMFR_18:units = "none" ; FBMFR_18:long_name = "FSSP BEAM FRACTION (FSSP/FSTROB)" ; FBMFR_18:OutputRate = 10 ; FBMFR_18:missing_value = -32767.f ; float FRNG_18(Time, sps10) ; FRNG_18:units = "none" ; FRNG_18:long_name = "FSSP RANGE" ; FRNG_18:OutputRate = 10 ; FRNG_18:missing_value = -32767.f ; float FSTROB_18(Time, sps10) ; FSTROB_18:units = "CNTS" ; FSTROB_18:long_name = "FSSP TOTAL STROBES" ; FSTROB_18:OutputRate = 10 ; FSTROB_18:missing_value = -32767.f ; float SUMX6_24(Time, sps10) ; SUMX6_24:units = "CNTS" ; SUMX6_24:long_name = "PMS 260X PROBE (TOTAL COUNTS)" ; SUMX6_24:OutputRate = 10 ; SUMX6_24:missing_value = -32767.f ; float CONC6_24(Time, sps10) ; CONC6_24:units = "N/L" ; CONC6_24:long_name = "260X PROBE CONCENTRATION" ; CONC6_24:OutputRate = 10 ; CONC6_24:missing_value = -32767.f ; float DBAR6_24(Time, sps10) ; DBAR6_24:units = "MICRON" ; DBAR6_24:long_name = "260X MEAN DIAMETER" ; DBAR6_24:OutputRate = 10 ; DBAR6_24:missing_value = -32767.f ; float DISP6_24(Time, sps10) ; DISP6_24:units = "none" ; DISP6_24:long_name = "260X DISPERSION (SIGMA/DBAR6)" ; DISP6_24:OutputRate = 10 ; DISP6_24:missing_value = -32767.f ; float PLWC6_24(Time, sps10) ; PLWC6_24:units = "G/M3" ; PLWC6_24:long_name = "260X WATER/ICE CONTENT" ; PLWC6_24:OutputRate = 10 ; PLWC6_24:missing_value = -32767.f ; float DBZ6_24(Time, sps10) ; DBZ6_24:units = "DB(Z)" ; DBZ6_24:long_name = "260X REFLECTIVITY FACTOR" ; DBZ6_24:OutputRate = 10 ; DBZ6_24:missing_value = -32767.f ; float ATB(Time, sps20) ; ATB:units = " C" ; ATB:long_name = "AMBIENT TEMPERATURE (BOOM)" ; ATB:OutputRate = 20 ; ATB:missing_value = -32767.f ; float ATRF(Time, sps20) ; ATRF:units = " C" ; ATRF:long_name = "AMBIENT TEMPERATURE (REVERSE FLOW)" ; ATRF:OutputRate = 20 ; ATRF:missing_value = -32767.f ; float ATKP(Time, sps20) ; ATKP:units = " C" ; ATKP:long_name = "AMBIENT TEMPERATURE (FAST RESPONSE)" ; ATKP:OutputRate = 20 ; ATKP:missing_value = -32767.f ; float WD(Time, sps20) ; WD:units = " DEG" ; WD:long_name = "HORIZONTAL WIND DIRECTION" ; WD:OutputRate = 20 ; WD:missing_value = -32767.f ; float WS(Time, sps20) ; WS:units = " M/S" ; WS:long_name = "HORIZONTAL WIND SPEED" ; WS:OutputRate = 20 ; WS:missing_value = -32767.f ; float UI(Time, sps20) ; UI:units = " M/S" ; UI:long_name = "WIND EAST COMPONENT" ; UI:OutputRate = 20 ; UI:missing_value = -32767.f ; float VI(Time, sps20) ; VI:units = " M/S" ; VI:long_name = "WIND NORTH COMPONENT" ; VI:OutputRate = 20 ; VI:missing_value = -32767.f ; float WI(Time, sps20) ; WI:units = " M/S" ; WI:long_name = "WIND VERTICAL COMPONENT" ; WI:OutputRate = 20 ; WI:missing_value = -32767.f ; float UX(Time, sps20) ; UX:units = " M/S" ; UX:long_name = "WIND LONGITUDINAL COMPONENT" ; UX:OutputRate = 20 ; UX:missing_value = -32767.f ; float VY(Time, sps20) ; VY:units = " M/S" ; VY:long_name = "WIND LATERAL COMPONENT" ; VY:OutputRate = 20 ; VY:missing_value = -32767.f ; float WDD(Time, sps20) ; WDD:units = " DEG" ; WDD:long_name = "HORIZONTAL WIND DIRECTION (858)" ; WDD:OutputRate = 20 ; WDD:missing_value = -32767.f ; float WSD(Time, sps20) ; WSD:units = " M/S" ; WSD:long_name = "HORIZONTAL WIND SPEED (858)" ; WSD:OutputRate = 20 ; WSD:missing_value = -32767.f ; float UID(Time, sps20) ; UID:units = " M/S" ; UID:long_name = "WIND EAST COMPONENT (858)" ; UID:OutputRate = 20 ; UID:missing_value = -32767.f ; float VID(Time, sps20) ; VID:units = " M/S" ; VID:long_name = "WIND NORTH COMPONENT (858)" ; VID:OutputRate = 20 ; VID:missing_value = -32767.f ; float WID(Time, sps20) ; WID:units = " M/S" ; WID:long_name = "WIND VERTICAL COMPONENT (858)" ; WID:OutputRate = 20 ; WID:missing_value = -32767.f ; float UXD(Time, sps20) ; UXD:units = " M/S" ; UXD:long_name = "WIND LONGITUDINAL COMPONENT (858)" ; UXD:OutputRate = 20 ; UXD:missing_value = -32767.f ; float VYD(Time, sps20) ; VYD:units = " M/S" ; VYD:long_name = "WIND LATERAL COMPONENT (858)" ; VYD:OutputRate = 20 ; VYD:missing_value = -32767.f ; float HI3(Time, sps20) ; HI3:units = " M" ; HI3:long_name = "PRESSURE-DAMPED INERTIAL ALTITUDE" ; HI3:OutputRate = 20 ; HI3: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 THETAQ(Time, sps20) ; THETAQ:units = " K" ; THETAQ:long_name = "WET EQUIVALENT POTENTIAL TEMPERATURE" ; THETAQ:OutputRate = 20 ; THETAQ:missing_value = -32767.f ; float THETAV(Time, sps20) ; THETAV:units = " K" ; THETAV:long_name = "VIRTUAL POTENTIAL TEMPERATURE" ; THETAV:OutputRate = 20 ; THETAV:missing_value = -32767.f ; float RHOLA(Time, sps20) ; RHOLA:units = "G/M3" ; RHOLA:long_name = "CORRECTED LYMAN ALPHA ABSOLUTE HUMIDITY" ; RHOLA:OutputRate = 20 ; RHOLA:missing_value = -32767.f ; float PLWCC(Time, sps20) ; PLWCC:units = " G/M3" ; PLWCC:long_name = "CORRECTED PMS-KING LIQUID WATER CONTENT" ; PLWCC:OutputRate = 20 ; PLWCC:missing_value = -32767.f ; float CLRAN(Time, sps20) ; CLRAN:units = " M" ; CLRAN:long_name = "LIDAR RANGE TO CLOUD" ; CLRAN:OutputRate = 20 ; CLRAN:missing_value = -32767.f ; float CFLAG(Time, sps20) ; CFLAG:units = "none" ; CFLAG:long_name = "FLAG FOR LIDAR LOOKING UP(0) OR DOWN(1)" ; CFLAG:OutputRate = 20 ; CFLAG:missing_value = -32767.f ; float CLSTR(Time, sps20) ; CLSTR:units = "none" ; CLSTR:long_name = "STRENGTH OF RETURN (RELATIVE POWER)" ; CLSTR:OutputRate = 20 ; CLSTR:missing_value = -32767.f ; float CLDEP(Time, sps20) ; CLDEP:units = " M" ; CLDEP:long_name = "PULSE WITH/PENETRATION DEPTH" ; CLDEP:OutputRate = 20 ; CLDEP:missing_value = -32767.f ; float CLDHT(Time, sps20) ; CLDHT:units = " M" ; CLDHT:long_name = "HEIGHT TO CLOUD BOUNDARY" ; CLDHT:OutputRate = 20 ; CLDHT:missing_value = -32767.f ; float THF(Time, sps20) ; THF:units = " DEG" ; THF:long_name = "AIRCRAFT TRUE HEADING" ; THF:OutputRate = 20 ; THF:missing_value = -32767.f ; float ROLL(Time, sps20) ; ROLL:units = " DEG" ; ROLL:long_name = "AIRCRAFT ROLL ATTITUDE ANGLE" ; ROLL:OutputRate = 20 ; ROLL:missing_value = -32767.f ; float PITCH(Time, sps20) ; PITCH:units = " DEG" ; PITCH:long_name = "AIRCRAFT PITCH ATTITUDE ANGLE" ; PITCH:OutputRate = 20 ; PITCH:missing_value = -32767.f ; float ACINS(Time, sps20) ; ACINS:units = " M/S2" ; ACINS:long_name = "AIRCRAFT INS ACCELERATION" ; ACINS:OutputRate = 20 ; ACINS:missing_value = -32767.f ; float VZI(Time, sps20) ; VZI:units = " M/S" ; VZI:long_name = "RAW INS VERTICAL VELOCITY" ; VZI:OutputRate = 20 ; VZI:missing_value = -32767.f ; float WP3(Time, sps20) ; WP3:units = " M/S" ; WP3:long_name = "DAMPED AIRCRAFT VERTICAL VELOCITY" ; WP3:OutputRate = 20 ; WP3:missing_value = -32767.f ; float GSF(Time, sps20) ; GSF:units = " M/S" ; GSF:long_name = "INS GROUND SPEED" ; GSF:OutputRate = 20 ; GSF:missing_value = -32767.f ; float VEW(Time, sps20) ; VEW:units = " M/S" ; VEW:long_name = "INS GROUND SPEED EAST COMPONENT" ; VEW:OutputRate = 20 ; VEW:missing_value = -32767.f ; float VNS(Time, sps20) ; VNS:units = " M/S" ; VNS:long_name = "INS GROUND SPEED NORTH COMPONENT" ; VNS:OutputRate = 20 ; VNS:missing_value = -32767.f ; float XVI(Time, sps20) ; XVI:units = " M/S" ; XVI:long_name = "INS GROUND SPEED X COMPONENT" ; XVI:OutputRate = 20 ; XVI:missing_value = -32767.f ; float YVI(Time, sps20) ; YVI:units = " M/S" ; YVI:long_name = "INS GROUND SPEED Y COMPONENT" ; YVI:OutputRate = 20 ; YVI:missing_value = -32767.f ; float TASB(Time, sps20) ; TASB:units = " M/S" ; TASB:long_name = "AIRCRAFT TRUE AIRSPEED (BOOM)" ; TASB:OutputRate = 20 ; TASB:missing_value = -32767.f ; float TASG(Time, sps20) ; TASG:units = " M/S" ; TASG:long_name = "AIRCRAFT TRUE AIRSPEED (GUST)" ; TASG:OutputRate = 20 ; TASG:missing_value = -32767.f ; float TASW(Time, sps20) ; TASW:units = " M/S" ; TASW:long_name = "AIRCRAFT TRUE AIRSPEED (WING)" ; TASW:OutputRate = 20 ; TASW:missing_value = -32767.f ; float QCBC(Time, sps20) ; QCBC:units = " MB" ; QCBC:long_name = "CORRECTED DYNAMIC PRESSURE (BOOM)" ; QCBC:OutputRate = 20 ; QCBC:missing_value = -32767.f ; float QCGC(Time, sps20) ; QCGC:units = " MB" ; QCGC:long_name = "CORRECTED DYNAMIC PRESSURE (GUST)" ; QCGC:OutputRate = 20 ; QCGC:missing_value = -32767.f ; float QCWC(Time, sps20) ; QCWC:units = " MB" ; QCWC:long_name = "CORRECTED DYNAMIC PRESSURE (WING)" ; QCWC:OutputRate = 20 ; QCWC:missing_value = -32767.f ; float QCB(Time, sps20) ; QCB:units = " MB" ; QCB:long_name = "RAW DYNAMIC PRESSURE (BOOM)" ; QCB:OutputRate = 20 ; QCB:missing_value = -32767.f ; float QCG(Time, sps20) ; QCG:units = " MB" ; QCG:long_name = "RAW DYNAMIC PRESSURE (GUST)" ; QCG:OutputRate = 20 ; QCG:missing_value = -32767.f ; float QCW(Time, sps20) ; QCW:units = " MB" ; QCW:long_name = "RAW DYNAMIC PRESSURE (WING)" ; QCW:OutputRate = 20 ; QCW:missing_value = -32767.f ; float AKDF(Time, sps20) ; AKDF:units = " DEG" ; AKDF:long_name = "ATTACK ANGLE (DIFFERENTIAL PRESSURE)" ; AKDF:OutputRate = 20 ; AKDF:missing_value = -32767.f ; float AKFXL(Time, sps20) ; AKFXL:units = " DEG" ; AKFXL:long_name = "ATTACK ANGLE (FIXED VANE, LEFT)" ; AKFXL:OutputRate = 20 ; AKFXL:missing_value = -32767.f ; float AKFXR(Time, sps20) ; AKFXR:units = " DEG" ; AKFXR:long_name = "ATTACK ANGLE (FIXED VANE, RIGHT)" ; AKFXR:OutputRate = 20 ; AKFXR:missing_value = -32767.f ; float SSDF(Time, sps20) ; SSDF:units = " DEG" ; SSDF:long_name = "SIDESLIP ANGLE (DIFFERENTIAL PRESSURE)" ; SSDF:OutputRate = 20 ; SSDF:missing_value = -32767.f ; float SSFXT(Time, sps20) ; SSFXT:units = " DEG" ; SSFXT:long_name = "SIDESLIP ANGLE (FIXED VANE) (TOP)" ; SSFXT:OutputRate = 20 ; SSFXT:missing_value = -32767.f ; float SSFXB(Time, sps20) ; SSFXB:units = " DEG" ; SSFXB:long_name = "SIDESLIP ANGLE (FIXED VANE) (BOT)" ; SSFXB:OutputRate = 20 ; SSFXB:missing_value = -32767.f ; float ADIF(Time, sps20) ; ADIF:units = " MB" ; ADIF:long_name = "ATTACK DIFFERENTIAL PRESSURE" ; ADIF:OutputRate = 20 ; ADIF:missing_value = -32767.f ; float AFIXL(Time, sps20) ; AFIXL:units = " G" ; AFIXL:long_name = "RAW ATTACK (FIXED VANE, LEFT)" ; AFIXL:OutputRate = 20 ; AFIXL:missing_value = -32767.f ; float AFIXR(Time, sps20) ; AFIXR:units = " G" ; AFIXR:long_name = "RAW ATTACK (FIXED VANE, RIGHT)" ; AFIXR:OutputRate = 20 ; AFIXR:missing_value = -32767.f ; float BDIF(Time, sps20) ; BDIF:units = " MB" ; BDIF:long_name = "SIDESLIP DIFFERENTIAL PRESSURE" ; BDIF:OutputRate = 20 ; BDIF:missing_value = -32767.f ; float BFIXT(Time, sps20) ; BFIXT:units = " G" ; BFIXT:long_name = "RAW SIDESLIP (FIXED VANE, TOP)" ; BFIXT:OutputRate = 20 ; BFIXT:missing_value = -32767.f ; float BFIXB(Time, sps20) ; BFIXB:units = " G" ; BFIXB:long_name = "RAW SIDESLIP (FIXED VANE, BOTTOM)" ; BFIXB:OutputRate = 20 ; BFIXB:missing_value = -32767.f ; float TTB(Time, sps20) ; TTB:units = " C" ; TTB:long_name = "TOTAL TEMPERATURE (BOOM)" ; TTB:OutputRate = 20 ; TTB:missing_value = -32767.f ; float TTRF(Time, sps20) ; TTRF:units = " C" ; TTRF:long_name = "TOTAL TEMPERATURE (REVERSE FLOW)" ; TTRF:OutputRate = 20 ; TTRF:missing_value = -32767.f ; float TTKP(Time, sps20) ; TTKP:units = " C" ; TTKP:long_name = "TOTAL TEMPERATURE (FAST RESPONSE)" ; TTKP:OutputRate = 20 ; TTKP:missing_value = -32767.f ; float VLA(Time, sps20) ; VLA:units = " VDC" ; VLA:long_name = "RAW LYMAN-ALPHA VOLTAGE" ; VLA:OutputRate = 20 ; VLA:missing_value = -32767.f ; float PLWC(Time, sps20) ; PLWC:units = " W" ; PLWC:long_name = "RAW PMS-KING LIQUID WATER CONTENT" ; PLWC:OutputRate = 20 ; PLWC:missing_value = -32767.f ; float O3F50(Time, sps20) ; O3F50:units = "PPBV" ; O3F50:long_name = "FAST RESPONSE OZONE MIXING RATIO" ; O3F50:OutputRate = 20 ; O3F50:missing_value = -32767.f ; float AFSSP_18(Time, sps10, Vector16) ; AFSSP_18:units = "CNTS" ; AFSSP_18:long_name = "FSSP ACCUMULATED RAW COUNTS(CELL 1-15)" ; AFSSP_18:missing_value = -32767.f ; AFSSP_18:OutputRate = 10 ; AFSSP_18:VectorLength = 16 ; AFSSP_18:FirstBin = 1 ; AFSSP_18:LastBin = 15 ; float A200Y_20(Time, sps1, Vector16) ; A200Y_20:units = "CNTS" ; A200Y_20:long_name = "200Y ACCUMULATED RAW COUNTS(CELL 1-15)" ; A200Y_20:missing_value = -32767.f ; A200Y_20:OutputRate = 1 ; A200Y_20:VectorLength = 16 ; A200Y_20:FirstBin = 1 ; A200Y_20:LastBin = 15 ; float A260X_24(Time, sps10, Vector64) ; A260X_24:units = "CNTS" ; A260X_24:long_name = "260X ACCUMULATED RAW COUNTS(CELL 5-62)" ; A260X_24:missing_value = -32767.f ; A260X_24:OutputRate = 10 ; A260X_24:VectorLength = 64 ; A260X_24:FirstBin = 1 ; A260X_24:LastBin = 58 ; float AASAS_28(Time, sps10, Vector16) ; AASAS_28:units = "CNTS" ; AASAS_28:long_name = "ASAS ACCUMULATED RAW COUNTS(CELL 1-15)" ; AASAS_28:missing_value = -32767.f ; AASAS_28:OutputRate = 10 ; AASAS_28:VectorLength = 16 ; AASAS_28:FirstBin = 1 ; AASAS_28:LastBin = 15 ; float CFSSP_18(Time, sps10, Vector16) ; CFSSP_18:units = "N/CM3" ; CFSSP_18:long_name = "FSSP CORRECTED CONCENTRATIONS(CELL 1-15)" ; CFSSP_18:missing_value = -32767.f ; CFSSP_18:OutputRate = 10 ; CFSSP_18:VectorLength = 16 ; CFSSP_18:FirstBin = 1 ; CFSSP_18:LastBin = 15 ; float C200Y_20(Time, sps1, Vector16) ; C200Y_20:units = "N/L" ; C200Y_20:long_name = "200Y CORRECTED CONCENTRATIONS(CELL 1-15)" ; C200Y_20:missing_value = -32767.f ; C200Y_20:OutputRate = 1 ; C200Y_20:VectorLength = 16 ; C200Y_20:FirstBin = 1 ; C200Y_20:LastBin = 15 ; float C260X_24(Time, sps10, Vector64) ; C260X_24:units = "N/L" ; C260X_24:long_name = "260X CORRECTED CONCENTRATIONS(CELL 5-62)" ; C260X_24:missing_value = -32767.f ; C260X_24:OutputRate = 10 ; C260X_24:VectorLength = 64 ; C260X_24:FirstBin = 1 ; C260X_24:LastBin = 58 ; float CASAS_28(Time, sps10, Vector16) ; CASAS_28:units = "N/CM3" ; CASAS_28:long_name = "ASAS CORRECTED CONCENTRATIONS(CELL 1-15)" ; CASAS_28:missing_value = -32767.f ; CASAS_28:OutputRate = 10 ; CASAS_28:VectorLength = 16 ; CASAS_28:FirstBin = 1 ; CASAS_28:LastBin = 15 ; // 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 = "Jan 01 17:06:13 UTC 1988" ; :JOBID = "SIO917" ; :DateConvertedFromGENPRO = "Jan 07 21:33 UTC 2011" ; :ProjectName = "FIRE 29JUN 1987" ; :Aircraft = "N308D" ; :ProjectNumber = "860" ; :FlightNumber = "RF01A" ; :FlightDate = "06/29/1987" ; :TimeInterval = "17:45:57-18:34:57" ; }