netcdf RF01 { dimensions: Time = 9735 ; sps1 = 1 ; sps20 = 20 ; sps62 = 62 ; sps150 = 150 ; sps10 = 10 ; 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 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 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 PSWC(Time) ; PSWC:units = " MB" ; PSWC:long_name = "CORRECTED STATIC PRESSURE (WING)" ; PSWC:OutputRate = 1 ; PSWC: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 PALT(Time) ; PALT:units = " M" ; PALT:long_name = "NACA PRESSURE ALTITUDE" ; PALT:OutputRate = 1 ; PALT: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 RHUM(Time) ; RHUM:units = " PCT" ; RHUM:long_name = "RELATIVE HUMIDITY" ; RHUM:OutputRate = 1 ; RHUM: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 SDWC1(Time) ; SDWC1:units = " CNTS" ; SDWC1:long_name = "SHADOW-OR, 2D-C, PROBE 1" ; SDWC1:OutputRate = 1 ; SDWC1:missing_value = -32767.f ; float SDWP1(Time) ; SDWP1:units = " CNTS" ; SDWP1:long_name = "SHADOW-OR, 2D-P, PROBE 1" ; SDWP1:OutputRate = 1 ; SDWP1:missing_value = -32767.f ; float TWDA1(Time) ; TWDA1:units = " VDC" ; TWDA1:long_name = "PMS-2D-C1 HOUSEKEEPING" ; TWDA1:OutputRate = 1 ; TWDA1:missing_value = -32767.f ; float TWDB1(Time) ; TWDB1:units = " VDC" ; TWDB1:long_name = "PMS-2D-P1 HOUSEKEEPING" ; TWDB1:OutputRate = 1 ; TWDB1:missing_value = -32767.f ; float TWCH1(Time) ; TWCH1:units = " VDC" ; TWCH1:long_name = "PMS-2D PROBE 1 HOUSEKEEPING" ; TWCH1:OutputRate = 1 ; TWCH1: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 THI(Time) ; THI:units = " DEG" ; THI:long_name = "AIRCRAFT TRUE HEADING (ARINC)" ; THI:OutputRate = 1 ; THI:missing_value = -32767.f ; float CROLL(Time) ; CROLL:units = " DEG" ; CROLL:long_name = "AIRCRAFT COARSE ROLL ANGLE" ; CROLL:OutputRate = 1 ; CROLL: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 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 RICE(Time) ; RICE:units = " VDC" ; RICE:long_name = "RAW ICING RATE INDICATOR" ; RICE:OutputRate = 1 ; RICE: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 TV10(Time) ; TV10:units = " C" ; TV10:long_name = "TEMP OF VOLTAGE REFERENCE" ; TV10:OutputRate = 1 ; TV10: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 VDREF(Time) ; VDREF:units = " VDC" ; VDREF:long_name = "DIFFERENCE OF 10-V REFERENCES" ; VDREF:OutputRate = 1 ; VDREF:missing_value = -32767.f ; float CKEVP(Time) ; CKEVP:units = "none" ; CKEVP:long_name = "COCKPIT EVENT (BITS 0-5)" ; CKEVP:OutputRate = 1 ; CKEVP: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 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 TMLAG(Time) ; TMLAG:units = " S" ; TMLAG:long_name = "ARINC TIME LAG" ; TMLAG:OutputRate = 1 ; TMLAG:missing_value = -32767.f ; float TSEC(Time) ; TSEC:units = " S" ; TSEC:long_name = "TIME OF DAY IN SECONDS AFTER MIDNIGHT" ; TSEC:OutputRate = 1 ; TSEC:missing_value = -32767.f ; float DMECH(Time) ; DMECH:units = " MHZ" ; DMECH:long_name = "DME FREQUENCY" ; DMECH:OutputRate = 1 ; DMECH:missing_value = -32767.f ; float DMEDI(Time) ; DMEDI:units = " NMI" ; DMEDI:long_name = "DME RANGE" ; DMEDI:OutputRate = 1 ; DMEDI:missing_value = -32767.f ; float DMEFLG(Time) ; DMEFLG:units = "none" ; DMEFLG:long_name = "DME FLAG" ; DMEFLG:OutputRate = 1 ; DMEFLG:missing_value = -32767.f ; float CGS(Time) ; CGS:units = " M/S" ; CGS:long_name = "LORAN-C GROUND SPEED" ; CGS:OutputRate = 1 ; CGS:missing_value = -32767.f ; float CCEP(Time) ; CCEP:units = " NMI" ; CCEP:long_name = "LORAN-C CIRCULAR ERROR OF PROBABILITY" ; CCEP:OutputRate = 1 ; CCEP:missing_value = -32767.f ; float FMB(Time) ; FMB:units = " KV" ; FMB:long_name = "FIELD MILL, FUSELAGE BOTTOM" ; FMB:OutputRate = 1 ; FMB:missing_value = -32767.f ; float FMRT(Time) ; FMRT:units = " KV" ; FMRT:long_name = "FIELD MILL, RADOME TOP" ; FMRT:OutputRate = 1 ; FMRT:missing_value = -32767.f ; float FMRL(Time) ; FMRL:units = " KV" ; FMRL:long_name = "FIELD MILL, RADOME LEFT" ; FMRL:OutputRate = 1 ; FMRL:missing_value = -32767.f ; float FMRB(Time) ; FMRB:units = " KV" ; FMRB:long_name = "FIELD MILL, RADOME BOTTOM" ; FMRB:OutputRate = 1 ; FMRB:missing_value = -32767.f ; float FMRR(Time) ; FMRR:units = " KV" ; FMRR:long_name = "FIELD MILL, RADOME RIGHT" ; FMRR:OutputRate = 1 ; FMRR:missing_value = -32767.f ; float FMT(Time) ; FMT:units = " KV" ; FMT:long_name = "FIELD MILL, FUSELAGE TOP" ; FMT:OutputRate = 1 ; FMT:missing_value = -32767.f ; float SFMB(Time) ; SFMB:units = " KV" ; SFMB:long_name = "SENSITIVE FIELD MILL, FUSELAGE BOTTOM" ; SFMB:OutputRate = 1 ; SFMB:missing_value = -32767.f ; float SFMRT(Time) ; SFMRT:units = " KV" ; SFMRT:long_name = "SENSITIVE FIELD MILL, RADOME TOP" ; SFMRT:OutputRate = 1 ; SFMRT:missing_value = -32767.f ; float SFMRL(Time) ; SFMRL:units = " KV" ; SFMRL:long_name = "SENSITIVE FIELD MILL, RADOME LEFT" ; SFMRL:OutputRate = 1 ; SFMRL:missing_value = -32767.f ; float SFMRB(Time) ; SFMRB:units = " KV" ; SFMRB:long_name = "SENSITIVE FIELD MILL, RADOME BOTTOM" ; SFMRB:OutputRate = 1 ; SFMRB:missing_value = -32767.f ; float SFMRR(Time) ; SFMRR:units = " KV" ; SFMRR:long_name = "SENSITIVE FIELD MILL, RADOME RIGHT" ; SFMRR:OutputRate = 1 ; SFMRR:missing_value = -32767.f ; float SFMT(Time) ; SFMT:units = " KV" ; SFMT:long_name = "SENSITIVE FIELD MILL, FUSELAGE TOP" ; SFMT:OutputRate = 1 ; SFMT:missing_value = -32767.f ; float XEFQYR(Time) ; XEFQYR:units = " KV" ; XEFQYR:long_name = "ELECTRIC FIELD" ; XEFQYR:OutputRate = 1 ; XEFQYR:missing_value = -32767.f ; float XEFQZR(Time) ; XEFQZR:units = " KV" ; XEFQZR:long_name = "ELECTRIC FIELD" ; XEFQZR:OutputRate = 1 ; XEFQZR:missing_value = -32767.f ; float XEFQZ(Time) ; XEFQZ:units = " KV" ; XEFQZ:long_name = "ELECTRIC FIELD" ; XEFQZ:OutputRate = 1 ; XEFQZ:missing_value = -32767.f ; float XEFX1(Time) ; XEFX1:units = " KV" ; XEFX1:long_name = "ELECTRIC FIELD" ; XEFX1:OutputRate = 1 ; XEFX1:missing_value = -32767.f ; float XEFX2(Time) ; XEFX2:units = " KV" ; XEFX2:long_name = "ELECTRIC FIELD" ; XEFX2:OutputRate = 1 ; XEFX2:missing_value = -32767.f ; float XEFYR(Time) ; XEFYR:units = " KV" ; XEFYR:long_name = "ELECTRIC FIELD" ; XEFYR:OutputRate = 1 ; XEFYR:missing_value = -32767.f ; float XEFZR(Time) ; XEFZR:units = " KV" ; XEFZR:long_name = "ELECTRIC FIELD" ; XEFZR:OutputRate = 1 ; XEFZR:missing_value = -32767.f ; float XEFZ(Time) ; XEFZ:units = " KV" ; XEFZ:long_name = "ELECTRIC FIELD" ; XEFZ:OutputRate = 1 ; XEFZ:missing_value = -32767.f ; float XEFQYRS(Time) ; XEFQYRS:units = " KV" ; XEFQYRS:long_name = "ELECTRIC FIELD" ; XEFQYRS:OutputRate = 1 ; XEFQYRS:missing_value = -32767.f ; float XEFQZRS(Time) ; XEFQZRS:units = " KV" ; XEFQZRS:long_name = "ELECTRIC FIELD" ; XEFQZRS:OutputRate = 1 ; XEFQZRS:missing_value = -32767.f ; float XEFQZS(Time) ; XEFQZS:units = " KV" ; XEFQZS:long_name = "ELECTRIC FIELD" ; XEFQZS:OutputRate = 1 ; XEFQZS:missing_value = -32767.f ; float XEFX1S(Time) ; XEFX1S:units = " KV" ; XEFX1S:long_name = "ELECTRIC FIELD" ; XEFX1S:OutputRate = 1 ; XEFX1S:missing_value = -32767.f ; float XEFX2S(Time) ; XEFX2S:units = " KV" ; XEFX2S:long_name = "ELECTRIC FIELD" ; XEFX2S:OutputRate = 1 ; XEFX2S:missing_value = -32767.f ; float XEFYRS(Time) ; XEFYRS:units = " KV" ; XEFYRS:long_name = "ELECTRIC FIELD" ; XEFYRS:OutputRate = 1 ; XEFYRS:missing_value = -32767.f ; float XEFZRS(Time) ; XEFZRS:units = " KV" ; XEFZRS:long_name = "ELECTRIC FIELD" ; XEFZRS:OutputRate = 1 ; XEFZRS:missing_value = -32767.f ; float XEFZS(Time) ; XEFZS:units = " KV" ; XEFZS:long_name = "ELECTRIC FIELD" ; XEFZS:OutputRate = 1 ; XEFZS:missing_value = -32767.f ; float HVLT(Time) ; HVLT:units = " KV" ; HVLT:long_name = "SKIN CHARGE" ; HVLT:OutputRate = 1 ; HVLT:missing_value = -32767.f ; float HVI(Time) ; HVI:units = " VOLTS" ; HVI:long_name = "HIGH VOLTAGE CURRENT" ; HVI:OutputRate = 1 ; HVI:missing_value = -32767.f ; float PRTCT(Time) ; PRTCT:units = " C" ; PRTCT:long_name = "RADIOMETRIC SURFACE TEMP-CAVITY TEMP" ; PRTCT:OutputRate = 1 ; PRTCT: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 WDR(Time, sps20) ; WDR:units = " DEG" ; WDR:long_name = "HORIZONTAL WIND DIRECTION (RADOME)" ; WDR:OutputRate = 20 ; WDR:missing_value = -32767.f ; float WSR(Time, sps20) ; WSR:units = " M/S" ; WSR:long_name = "HORIZONTAL WIND SPEED (RADOME)" ; WSR:OutputRate = 20 ; WSR:missing_value = -32767.f ; float UIR(Time, sps20) ; UIR:units = " M/S" ; UIR:long_name = "WIND EAST COMPONENT (RADOME)" ; UIR:OutputRate = 20 ; UIR:missing_value = -32767.f ; float VIR(Time, sps20) ; VIR:units = " M/S" ; VIR:long_name = "WIND NORTH COMPONENT (RADOME)" ; VIR:OutputRate = 20 ; VIR:missing_value = -32767.f ; float WIR(Time, sps20) ; WIR:units = " M/S" ; WIR:long_name = "WIND VERTICAL COMPONENT (RADOME)" ; WIR:OutputRate = 20 ; WIR:missing_value = -32767.f ; float UXR(Time, sps20) ; UXR:units = " M/S" ; UXR:long_name = "WIND LONGITUDINAL COMPONENT (RADOME)" ; UXR:OutputRate = 20 ; UXR:missing_value = -32767.f ; float VYR(Time, sps20) ; VYR:units = " M/S" ; VYR:long_name = "WIND LATERAL COMPONENT (RADOME)" ; VYR:OutputRate = 20 ; VYR: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 THETAV(Time, sps20) ; THETAV:units = " K" ; THETAV:long_name = "VIRTUAL POTENTIAL TEMPERATURE" ; THETAV:OutputRate = 20 ; THETAV: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 LWCCZ(Time) ; LWCCZ:units = " G/M3" ; LWCCZ:long_name = "CORRECTED C-T LIQUID WATER CONTENT" ; LWCCZ:OutputRate = 1 ; LWCCZ:missing_value = -32767.f ; float SCLWC(Time) ; SCLWC:units = " G/M3" ; SCLWC:long_name = "SUPERCOOLED LIQUID WATER CONTENT" ; SCLWC:OutputRate = 1 ; SCLWC:missing_value = -32767.f ; float PHDG(Time, sps20) ; PHDG:units = " DEG" ; PHDG:long_name = "PLATFORM HEADING" ; PHDG:OutputRate = 20 ; PHDG: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 TASW(Time, sps20) ; TASW:units = " M/S" ; TASW:long_name = "AIRCRAFT TRUE AIRSPEED (WING)" ; TASW:OutputRate = 20 ; TASW: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 QCWC(Time, sps20) ; QCWC:units = " MB" ; QCWC:long_name = "CORRECTED DYNAMIC PRESSURE (WING)" ; QCWC:OutputRate = 20 ; QCWC:missing_value = -32767.f ; float QCRC(Time, sps20) ; QCRC:units = " MB" ; QCRC:long_name = "CORRECTED DYNAMIC PRESSURE (RADOME)" ; QCRC:OutputRate = 20 ; QCRC: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 QCR(Time, sps20) ; QCR:units = " MB" ; QCR:long_name = "RAW DYNAMIC PRESSURE (RADOME)" ; QCR:OutputRate = 20 ; QCR:missing_value = -32767.f ; float AKRD(Time, sps20) ; AKRD:units = " DEG" ; AKRD:long_name = "ATTACK ANGLE (RADOME)" ; AKRD:OutputRate = 20 ; AKRD:missing_value = -32767.f ; float SSRD(Time, sps20) ; SSRD:units = " DEG" ; SSRD:long_name = "SIDESLIP ANGLE (RADOME)" ; SSRD:OutputRate = 20 ; SSRD:missing_value = -32767.f ; float ADIFR(Time, sps20) ; ADIFR:units = " MB" ; ADIFR:long_name = "ATTACK DIFFERENTIAL PRESSURE (RADOME)" ; ADIFR:OutputRate = 20 ; ADIFR:missing_value = -32767.f ; float BDIFR(Time, sps20) ; BDIFR:units = " MB" ; BDIFR:long_name = "SIDESLIP DIFFERENTIAL PRESSURE (RADOME)" ; BDIFR:OutputRate = 20 ; BDIFR: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 VLA(Time, sps20) ; VLA:units = " VDC" ; VLA:long_name = "RAW LYMAN-ALPHA VOLTAGE" ; VLA:OutputRate = 20 ; VLA: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 RFLAG(Time, sps20) ; RFLAG:units = "none" ; RFLAG:long_name = "STATUS FLAG FOR RECOUPLE PROCEDURE (L-A)" ; RFLAG:OutputRate = 20 ; RFLAG:missing_value = -32767.f ; float MRLA(Time, sps20) ; MRLA:units = " G/KG" ; MRLA:long_name = "MIXING RATIO (LYMAN ALPHA)" ; MRLA:OutputRate = 20 ; MRLA:missing_value = -32767.f ; float DPLA(Time, sps20) ; DPLA:units = " C" ; DPLA:long_name = "DEW POINT TEMPERATURE (LYMAN ALPHA)" ; DPLA:OutputRate = 20 ; DPLA:missing_value = -32767.f ; float RHUMLA(Time, sps20) ; RHUMLA:units = " PCT" ; RHUMLA:long_name = "RELATIVE HUMIDITY (LYMAN ALPHA)" ; RHUMLA:OutputRate = 20 ; RHUMLA:missing_value = -32767.f ; float SPHUMLA(Time, sps20) ; SPHUMLA:units = " G/KG" ; SPHUMLA:long_name = "SPECIFIC HUMIDITY (LYMAN ALPHA)" ; SPHUMLA:OutputRate = 20 ; SPHUMLA:missing_value = -32767.f ; float THETELA(Time, sps20) ; THETELA:units = " K" ; THETELA:long_name = "EQUIVALENT POTENTIAL TEMP. (LYMAN ALPHA)" ; THETELA:OutputRate = 20 ; THETELA:missing_value = -32767.f ; float THETVLA(Time, sps20) ; THETVLA:units = " K" ; THETVLA:long_name = "VIRTUAL POTENTIAL TEMP. (LYMAN ALPHA)" ; THETVLA:OutputRate = 20 ; THETVLA:missing_value = -32767.f ; float TVIRLA(Time, sps20) ; TVIRLA:units = " C" ; TVIRLA:long_name = "VIRTUAL TEMPERATURE (LYMAN ALPHA)" ; TVIRLA:OutputRate = 20 ; TVIRLA:missing_value = -32767.f ; float PLWC(Time, sps20) ; PLWC:units = " W" ; PLWC:long_name = "RAW PMS-KING POWER" ; PLWC:OutputRate = 20 ; PLWC:missing_value = -32767.f ; float STROB(Time, sps20) ; STROB:units = "Unk" ; STROB:long_name = "No title" ; STROB:OutputRate = 20 ; STROB:missing_value = -32767.f ; float SUM15F_01(Time) ; SUM15F_01:units = " CNTS" ; SUM15F_01:long_name = "PMS FSSP PROBE (TOTAL COUNTS)" ; SUM15F_01:OutputRate = 1 ; SUM15F_01:missing_value = -32767.f ; float CONCF_01(Time) ; CONCF_01:units = " N/CM3" ; CONCF_01:long_name = "FSSP PROBE CONCENTRATION" ; CONCF_01:OutputRate = 1 ; CONCF_01:missing_value = -32767.f ; float DBARF_01(Time) ; DBARF_01:units = " UM" ; DBARF_01:long_name = "FSSP MEAN DIAMETER" ; DBARF_01:OutputRate = 1 ; DBARF_01:missing_value = -32767.f ; float DISPF_01(Time) ; DISPF_01:units = "none" ; DISPF_01:long_name = "FSSP DISPERSION (SIGMA/DBARF)" ; DISPF_01:OutputRate = 1 ; DISPF_01:missing_value = -32767.f ; float FACT_01(Time) ; FACT_01:units = "none" ; FACT_01:long_name = "FSSP CALCULATED ACTIVITY FRACTION" ; FACT_01:OutputRate = 1 ; FACT_01:missing_value = -32767.f ; float PLWCF_01(Time) ; PLWCF_01:units = " G/M3" ; PLWCF_01:long_name = "FSSP LIQUID/ICE WATER CONTENT" ; PLWCF_01:OutputRate = 1 ; PLWCF_01:missing_value = -32767.f ; float FBMFR_01(Time) ; FBMFR_01:units = "none" ; FBMFR_01:long_name = "FSSP BEAM FRACTION (FSSP/FSTROB)" ; FBMFR_01:OutputRate = 1 ; FBMFR_01:missing_value = -32767.f ; float FRNG_01(Time) ; FRNG_01:units = "none" ; FRNG_01:long_name = "FSSP RANGE" ; FRNG_01:OutputRate = 1 ; FRNG_01:missing_value = -32767.f ; float FRESET_01(Time) ; FRESET_01:units = " CNTS" ; FRESET_01:long_name = "FSSP FAST RESETS" ; FRESET_01:OutputRate = 1 ; FRESET_01:missing_value = -32767.f ; float FSTROB_01(Time) ; FSTROB_01:units = " CNTS" ; FSTROB_01:long_name = "FSSP TOTAL STROBES" ; FSTROB_01:OutputRate = 1 ; FSTROB_01:missing_value = -32767.f ; float XSUMX6_25(Time) ; XSUMX6_25:units = " CNTS" ; XSUMX6_25:long_name = "PMS 260X PROBE (TOTAL COUNTS)" ; XSUMX6_25:OutputRate = 1 ; XSUMX6_25:missing_value = -32767.f ; float XCONC6_25(Time) ; XCONC6_25:units = "N/LTR" ; XCONC6_25:long_name = "260X TOTAL CONCENTRATION (CELL 1-62)" ; XCONC6_25:OutputRate = 1 ; XCONC6_25:missing_value = -32767.f ; float XPLWC6_25(Time) ; XPLWC6_25:units = " G/M3" ; XPLWC6_25:long_name = "260X WATER/ICE CONTENT" ; XPLWC6_25:OutputRate = 1 ; XPLWC6_25:missing_value = -32767.f ; float XDBAR6_25(Time) ; XDBAR6_25:units = " UM" ; XDBAR6_25:long_name = "260X MEAN DIAMETER" ; XDBAR6_25:OutputRate = 1 ; XDBAR6_25:missing_value = -32767.f ; float XDBZ6_25(Time) ; XDBZ6_25:units = " DB(Z)" ; XDBZ6_25:long_name = "260X REFLECTIVITY FACTOR" ; XDBZ6_25:OutputRate = 1 ; XDBZ6_25:missing_value = -32767.f ; float XDISP6_25(Time) ; XDISP6_25:units = "none" ; XDISP6_25:long_name = "260X DISPERSION (SIGMA/DBAR6)" ; XDISP6_25:OutputRate = 1 ; XDISP6_25:missing_value = -32767.f ; float AFSSP_01(Time, sps1, 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 = 1 ; AFSSP_01:VectorLength = 16 ; AFSSP_01:FirstBin = 1 ; AFSSP_01:LastBin = 15 ; float CFSSP_01(Time, sps1, Vector16) ; CFSSP_01:units = " N/CM3" ; CFSSP_01:long_name = "FSSP CORRECTED CONCENTRATION (per cell)" ; CFSSP_01:missing_value = -32767.f ; CFSSP_01:OutputRate = 1 ; CFSSP_01:VectorLength = 16 ; CFSSP_01:FirstBin = 1 ; CFSSP_01:LastBin = 15 ; float AFSSP_15(Time, sps10, Vector16) ; AFSSP_15:units = " CNTS" ; AFSSP_15:long_name = "FSSP ACCUMULATED RAW COUNT(1-15) HIGH RT" ; AFSSP_15:missing_value = -32767.f ; AFSSP_15:OutputRate = 10 ; AFSSP_15:VectorLength = 16 ; AFSSP_15:FirstBin = 1 ; AFSSP_15:LastBin = 15 ; float A260X_21(Time, sps1, Vector64) ; A260X_21:units = " CNTS" ; A260X_21:long_name = "260X ACCUMULATED RAW COUNT (1-62)" ; A260X_21:missing_value = -32767.f ; A260X_21:OutputRate = 1 ; A260X_21:VectorLength = 64 ; A260X_21:FirstBin = 1 ; A260X_21:LastBin = 62 ; float A260X_25(Time, sps1, Vector64) ; A260X_25:units = " CNTS" ; A260X_25:long_name = "260X ACCUMULATED FIXED COUNT (1-62)" ; A260X_25:missing_value = -32767.f ; A260X_25:OutputRate = 1 ; A260X_25:VectorLength = 64 ; A260X_25:FirstBin = 1 ; A260X_25:LastBin = 62 ; float C260X_25(Time, sps1, Vector64) ; C260X_25:units = "N/LTR" ; C260X_25:long_name = "260X PROBE CONCENTRATION (1-62)" ; C260X_25:missing_value = -32767.f ; C260X_25:OutputRate = 1 ; C260X_25:VectorLength = 64 ; C260X_25:FirstBin = 1 ; C260X_25:LastBin = 62 ; // 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 11 21:24:31 UTC 1994" ; :JOBID = "CK9999" ; :DateConvertedFromGENPRO = "Jul 12 21:22 UTC 2010" ; :ProjectName = "CaPE 15JUL91" ; :Aircraft = "N312D" ; :ProjectNumber = "276" ; :FlightNumber = "RF01" ; :FlightDate = "07/15/1991" ; :TimeInterval = "12:41:12-15:23:26" ; }