netcdf RF06 { dimensions: Time = 12218 ; sps1 = 1 ; 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 PTIME(Time) ; PTIME:units = " SEC" ; PTIME:long_name = "PROCESSOR TIME" ; PTIME:OutputRate = 1 ; PTIME:missing_value = -32767.f ; float TPTIME(Time) ; TPTIME:units = " SEC" ; TPTIME:long_name = "RAW TAPE TIME" ; TPTIME:OutputRate = 1 ; TPTIME:missing_value = -32767.f ; float TMLAG(Time) ; TMLAG:units = " SEC" ; TMLAG:long_name = "LTN-51 ARINC TIME LAG" ; TMLAG:OutputRate = 1 ; TMLAG:missing_value = -32767.f ; float ALAT(Time) ; ALAT:units = " DEG" ; ALAT:long_name = "RAW INS LATITUDE" ; ALAT:OutputRate = 1 ; ALAT:missing_value = -32767.f ; float ALON(Time) ; ALON:units = " DEG" ; ALON:long_name = "RAW INS LONGITUDE" ; ALON:OutputRate = 1 ; ALON: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 ALPHA(Time) ; ALPHA:units = " DEG" ; ALPHA:long_name = "INS WANDER ANGLE" ; ALPHA:OutputRate = 1 ; ALPHA:missing_value = -32767.f ; float TPYRG(Time) ; TPYRG:units = " W/M2" ; TPYRG:long_name = "RAW TOP PYRGEOMETER IRRADIANCE" ; TPYRG:OutputRate = 1 ; TPYRG:missing_value = -32767.f ; float BPYRG(Time) ; BPYRG:units = " W/M2" ; BPYRG:long_name = "RAW BOTTOM PYRGEOMETER IRRADIANCE" ; BPYRG:OutputRate = 1 ; BPYRG:missing_value = -32767.f ; float TPGDT(Time) ; TPGDT:units = " C" ; TPGDT:long_name = "TOP PYRGEOMETER DOME TEMPERATURE" ; TPGDT:OutputRate = 1 ; TPGDT:missing_value = -32767.f ; float TPGST(Time) ; TPGST:units = " C" ; TPGST:long_name = "TOP PYRGEOMETER SINK TEMPERATURE" ; TPGST:OutputRate = 1 ; TPGST:missing_value = -32767.f ; float BPGDT(Time) ; BPGDT:units = " C" ; BPGDT:long_name = "BOTTOM PYRGEOMETER DOME TEMPERATURE" ; BPGDT:OutputRate = 1 ; BPGDT:missing_value = -32767.f ; float BPGST(Time) ; BPGST:units = " C" ; BPGST:long_name = "BOTTOM PYRGEOMETER SINK TEMPERATURE" ; BPGST:OutputRate = 1 ; BPGST: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 PSWC(Time) ; PSWC:units = " MB" ; PSWC:long_name = "CORRECTED STATIC PRESR (WING)" ; PSWC:OutputRate = 1 ; PSWC:missing_value = -32767.f ; float DPRB(Time) ; DPRB:units = " C" ; DPRB:long_name = "DEW/FROST POINT TEMP.(EG&G)(RT. BOT)" ; DPRB:OutputRate = 1 ; DPRB:missing_value = -32767.f ; float DPRT(Time) ; DPRT:units = " C" ; DPRT:long_name = "DEW/FROST POINT TEMP.(EG&G)(RT. TOP)" ; DPRT:OutputRate = 1 ; DPRT:missing_value = -32767.f ; float BPRT5(Time) ; BPRT5:units = " C" ; BPRT5:long_name = "SURFACE RADIATION (9.5-11.5 MICRO M)" ; BPRT5:OutputRate = 1 ; BPRT5:missing_value = -32767.f ; float TPYR1(Time) ; TPYR1:units = " W/M2" ; TPYR1:long_name = "TOP PYRANOMETER IRRADIANCE" ; TPYR1:OutputRate = 1 ; TPYR1:missing_value = -32767.f ; float BPYR1(Time) ; BPYR1:units = " W/M2" ; BPYR1:long_name = "BOTTOM PYRANOMETER IRRADIANCE" ; BPYR1:OutputRate = 1 ; BPYR1:missing_value = -32767.f ; float TPYGC2(Time) ; TPYGC2:units = " W/M2" ; TPYGC2:long_name = "CLOUD DETECTOR (CORRECTED)" ; TPYGC2:OutputRate = 1 ; TPYGC2:missing_value = -32767.f ; float TPGD2(Time) ; TPGD2:units = " C" ; TPGD2:long_name = "TOP PYRGEOMETER DOME TEMPERATURE (#2)" ; TPGD2:OutputRate = 1 ; TPGD2:missing_value = -32767.f ; float TPGS2(Time) ; TPGS2:units = " C" ; TPGS2:long_name = "TOP PYRGEOMETER SINK TEMPERATURE (#2)" ; TPGS2:OutputRate = 1 ; TPGS2: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 CHGME(Time) ; CHGME:units = " DEG" ; CHGME:long_name = "COARSE GEOMETRIC (RADAR) ALTITUDE" ; CHGME:OutputRate = 1 ; CHGME: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 GSF(Time) ; GSF:units = " M/S" ; GSF:long_name = "GROUND SPEED" ; GSF:OutputRate = 1 ; GSF:missing_value = -32767.f ; float BDPC(Time) ; BDPC:units = " C" ; BDPC:long_name = "DEWPOINT TEMP. BOTTOM(THERMOELEC)" ; BDPC:OutputRate = 1 ; BDPC:missing_value = -32767.f ; float TDPC(Time) ; TDPC:units = " C" ; TDPC:long_name = "DEWPOINT TEMP. TOP (THERMOELEC)" ; TDPC:OutputRate = 1 ; TDPC:missing_value = -32767.f ; float BRHOTD(Time) ; BRHOTD:units = "G/M3" ; BRHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC B)" ; BRHOTD:OutputRate = 1 ; BRHOTD:missing_value = -32767.f ; float TRHOTD(Time) ; TRHOTD:units = " G/M3" ; TRHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC T)" ; TRHOTD:OutputRate = 1 ; TRHOTD:missing_value = -32767.f ; float RM(Time) ; RM:units = " G/KG" ; RM:long_name = "MIXING RATIO" ; RM:OutputRate = 1 ; RM:missing_value = -32767.f ; float RHUM(Time) ; RHUM:units = "PERCENT" ; RHUM:long_name = "RELATIVE HUMIDITY" ; RHUM:OutputRate = 1 ; RHUM:missing_value = -32767.f ; float TPYRGC(Time) ; TPYRGC:units = " W/M2" ; TPYRGC:long_name = "DOWNWARD IRRADIANCE (CORRECTED PYRG.)" ; TPYRGC:OutputRate = 1 ; TPYRGC:missing_value = -32767.f ; float BPYRGC(Time) ; BPYRGC:units = " W/M2" ; BPYRGC:long_name = "UPWARD IRRADIANCE (CORRECTED PYRG. )" ; BPYRGC:OutputRate = 1 ; BPYRGC:missing_value = -32767.f ; float V10(Time) ; V10:units = " VDC" ; V10:long_name = "10 VOLT REFERENCE" ; V10:OutputRate = 1 ; V10:missing_value = -32767.f ; float V10R(Time) ; V10R:units = " VDC" ; V10R:long_name = "10 VOLT REF THRU RESISTOR" ; V10R:OutputRate = 1 ; V10R: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 TEN VOLT REFS" ; VDREF:OutputRate = 1 ; VDREF: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 EVP1(Time) ; EVP1:units = " EVP1" ; EVP1:long_name = " EVENT PAD 1" ; EVP1:OutputRate = 1 ; EVP1:missing_value = -32767.f ; float DFH3(Time) ; DFH3:units = " M" ; DFH3:long_name = "DAMPED INS ALTITUDE ERROR SIGNAL" ; DFH3:OutputRate = 1 ; DFH3:missing_value = -32767.f ; float VLA2(Time) ; VLA2:units = " VDC" ; VLA2:long_name = "LYMAN ALPHA #2" ; VLA2:OutputRate = 1 ; VLA2:missing_value = -32767.f ; float QCW(Time) ; QCW:units = "MB" ; QCW:long_name = "RAW DYNAMIC PRESSURE (WING)" ; QCW:OutputRate = 1 ; QCW:missing_value = -32767.f ; float QCWC(Time) ; QCWC:units = " MB" ; QCWC:long_name = "CORRECTED DYNAMIC PRESSURE (WING)" ; QCWC:OutputRate = 1 ; QCWC:missing_value = -32767.f ; float TASW(Time) ; TASW:units = " M/S" ; TASW:long_name = "AIRCRAFT TRUE AIRSPEED ( WING )" ; TASW:OutputRate = 1 ; TASW:missing_value = -32767.f ; float TTRF(Time) ; TTRF:units = " C" ; TTRF:long_name = "TOTAL TEMPERATURE (REVERSE FLOW )" ; TTRF:OutputRate = 1 ; TTRF:missing_value = -32767.f ; float ATRF(Time) ; ATRF:units = " C" ; ATRF:long_name = "AMBIENT TEMPERATURE (REVERSE FLOW)" ; ATRF:OutputRate = 1 ; ATRF:missing_value = -32767.f ; float PSFD(Time) ; PSFD:units = " MB" ; PSFD:long_name = "RAW STATIC PRESSURE (FUSELAGE DIGITAL)" ; PSFD:OutputRate = 1 ; PSFD:missing_value = -32767.f ; float PSFDC(Time) ; PSFDC:units = " MB" ; PSFDC:long_name = "CORRECTED STATIC PRESR (FUSELAGE DI)" ; PSFDC:OutputRate = 1 ; PSFDC:missing_value = -32767.f ; float FREQ(Time) ; FREQ:units = "MHZ" ; FREQ:long_name = "DME FREQUENCY STATION IDENTIFIER" ; FREQ:OutputRate = 1 ; FREQ:missing_value = -32767.f ; float FLAG(Time) ; FLAG:units = "none" ; FLAG:long_name = "DME STATION (HIGH BIT=BAD DATA)" ; FLAG:OutputRate = 1 ; FLAG:missing_value = -32767.f ; float RANG(Time) ; RANG:units = "NAUT.MI" ; RANG:long_name = "DME RANGE DATA" ; RANG:OutputRate = 1 ; RANG:missing_value = -32767.f ; float R109P6(Time) ; R109P6:units = "NAUT.MI" ; R109P6:long_name = "DME RANGE DATA" ; R109P6:OutputRate = 1 ; R109P6:missing_value = -32767.f ; float R112P8(Time) ; R112P8:units = "NAUT.MI" ; R112P8:long_name = "DME RANGE DATA" ; R112P8:OutputRate = 1 ; R112P8:missing_value = -32767.f ; float R113P1(Time) ; R113P1:units = "NAUT.MI" ; R113P1:long_name = "DME RANGE DATA" ; R113P1:OutputRate = 1 ; R113P1:missing_value = -32767.f ; float R117P0(Time) ; R117P0:units = "NAUT.MI" ; R117P0:long_name = "DME RANGE DATA" ; R117P0:OutputRate = 1 ; R117P0: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 QCB(Time, sps20) ; QCB:units = "MB" ; QCB:long_name = "RAW DYNAMIC PRESSURE (BOOM)" ; QCB:OutputRate = 20 ; QCB:missing_value = -32767.f ; float VLA(Time, sps20) ; VLA:units = " VDC" ; VLA:long_name = "LYMAN ALPHA" ; VLA:OutputRate = 20 ; VLA: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 TTKP(Time, sps20) ; TTKP:units = " C" ; TTKP:long_name = "TOTAL TEMPERATURE (FAST RESPONSE)" ; TTKP:OutputRate = 20 ; TTKP: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 PSB(Time, sps20) ; PSB:units = " MB" ; PSB:long_name = "RAW STATIC PRESSURE (BOOM)" ; PSB:OutputRate = 20 ; PSB:missing_value = -32767.f ; float XVI(Time, sps20) ; XVI:units = " M/S" ; XVI:long_name = "RAW INS GROUND SPEED X COMPONENT" ; XVI:OutputRate = 20 ; XVI:missing_value = -32767.f ; float YVI(Time, sps20) ; YVI:units = " M/S" ; YVI:long_name = "RAW INS GROUND SPEED Y COMPONENT" ; YVI:OutputRate = 20 ; YVI:missing_value = -32767.f ; float THF(Time, sps20) ; THF:units = " DEG" ; THF:long_name = "AIRCRAFT TRUE HEADING (YAW)" ; THF:OutputRate = 20 ; THF: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 QCBC(Time, sps20) ; QCBC:units = " MB" ; QCBC:long_name = "CORRECTED DYNAMIC PRESSURE (BOOM)" ; QCBC:OutputRate = 20 ; QCBC:missing_value = -32767.f ; float PSBC(Time, sps20) ; PSBC:units = " MB" ; PSBC:long_name = "CORRECTED STATIC PRESR ( BOOM )" ; PSBC:OutputRate = 20 ; PSBC: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 ATKP(Time, sps20) ; ATKP:units = " C" ; ATKP:long_name = "AMBIENT TEMPERATURE (FAST RESPONSE )" ; ATKP:OutputRate = 20 ; ATKP:missing_value = -32767.f ; float VTHETA(Time, sps20) ; VTHETA:units = " K" ; VTHETA:long_name = "VIRTUAL POTENTIAL TEMPREATURE" ; VTHETA:OutputRate = 20 ; VTHETA: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 ETHETA(Time, sps20) ; ETHETA:units = " K" ; ETHETA:long_name = "EQUIVALENT POTENTIAL TEMPERATURE" ; ETHETA:OutputRate = 20 ; ETHETA:missing_value = -32767.f ; float RAKFIX(Time, sps20) ; RAKFIX:units = " DEG" ; RAKFIX:long_name = "ATTACK ANGLE (FIXED VANE,RIGHT)" ; RAKFIX:OutputRate = 20 ; RAKFIX:missing_value = -32767.f ; float LAKFIX(Time, sps20) ; LAKFIX:units = " DEG" ; LAKFIX:long_name = "ATTACK ANGLE (FIXED VANE,LEFT)" ; LAKFIX:OutputRate = 20 ; LAKFIX:missing_value = -32767.f ; float TSSFIX(Time, sps20) ; TSSFIX:units = " DEG" ; TSSFIX:long_name = "SIDESLIP ANGLE (FIXED TOP VANE)" ; TSSFIX:OutputRate = 20 ; TSSFIX:missing_value = -32767.f ; float BSSFIX(Time, sps20) ; BSSFIX:units = " DEG" ; BSSFIX:long_name = "SIDESLIP ANGLE (FIXED BOTTOM VANE)" ; BSSFIX:OutputRate = 20 ; BSSFIX: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 UI(Time, sps20) ; UI:units = " M/S" ; UI:long_name = "WIND VECTOR EAST GUST COMPONENT" ; UI:OutputRate = 20 ; UI:missing_value = -32767.f ; float VI(Time, sps20) ; VI:units = " M/S" ; VI:long_name = "WIND VECTOR NORTH GUST COMPONENT" ; VI:OutputRate = 20 ; VI:missing_value = -32767.f ; float WI(Time, sps20) ; WI:units = " M/S" ; WI:long_name = "WIND VECTOR VERTICAL GUST COMP" ; WI:OutputRate = 20 ; WI:missing_value = -32767.f ; float UX(Time, sps20) ; UX:units = " M/S" ; UX:long_name = "WIND VECTOR LNGTDNL GUST COMPONENT" ; UX:OutputRate = 20 ; UX:missing_value = -32767.f ; float VY(Time, sps20) ; VY:units = " M/S" ; VY:long_name = "WIND VECTOR LATERAL GUST COMPONENT" ; VY:OutputRate = 20 ; VY:missing_value = -32767.f ; float VEW(Time, sps20) ; VEW:units = " M/S" ; VEW:long_name = "RAW INS GROUND SPEED EAST COMP" ; VEW:OutputRate = 20 ; VEW:missing_value = -32767.f ; float VNS(Time, sps20) ; VNS:units = " M/S" ; VNS:long_name = "RAW INS GROUND SPEED NORTH COMP" ; VNS:OutputRate = 20 ; VNS: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 WP3(Time, sps20) ; WP3:units = " M/S" ; WP3:long_name = "DAMPED AIRCRAFT VERT VELOCITY" ; WP3:OutputRate = 20 ; WP3:missing_value = -32767.f ; float ACINS(Time, sps20) ; ACINS:units = " M/S2" ; ACINS:long_name = "AIRCRAFT INS VERTICAL ACCELERATION" ; ACINS:OutputRate = 20 ; ACINS:missing_value = -32767.f ; float WDIR(Time, sps20) ; WDIR:units = " DEG" ; WDIR:long_name = "HORIZONTAL WIND DIRECTION)" ; WDIR:OutputRate = 20 ; WDIR:missing_value = -32767.f ; float WSPD(Time, sps20) ; WSPD:units = " M/S" ; WSPD:long_name = "HORIZONTAL WIND SPEED" ; WSPD:OutputRate = 20 ; WSPD:missing_value = -32767.f ; float DEI(Time, sps20) ; DEI:units = " KM" ; DEI:long_name = "DISTANCE EAST OF START" ; DEI:OutputRate = 20 ; DEI:missing_value = -32767.f ; float DNI(Time, sps20) ; DNI:units = " KM" ; DNI:long_name = "DISTANCE NORTH OF START" ; DNI:OutputRate = 20 ; DNI:missing_value = -32767.f ; float RHOTD(Time, sps20) ; RHOTD:units = " G/M3" ; RHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC B)" ; RHOTD:OutputRate = 20 ; RHOTD:missing_value = -32767.f ; float RHOLA1(Time, sps20) ; RHOLA1:units = " G/M3" ; RHOLA1:long_name = "ABSOLUTE HUMIDITY (LYMAN-ALPHA) (1)" ; RHOLA1:OutputRate = 20 ; RHOLA1:missing_value = -32767.f ; float RHOLA2(Time, sps20) ; RHOLA2:units = " G/M3" ; RHOLA2:long_name = "ABSOLUTE HUMIDITY (LYMAN-ALPHA) (2)" ; RHOLA2:OutputRate = 20 ; RHOLA2:missing_value = -32767.f ; float RHOLA3(Time, sps20) ; RHOLA3:units = " G/M3" ; RHOLA3:long_name = "ABSOLUTE HUMIDITY (LYMAN-ALPHA) (3)" ; RHOLA3:OutputRate = 20 ; RHOLA3:missing_value = -32767.f ; float ERR1(Time, sps20) ; ERR1:units = "none" ; ERR1:long_name = " ERROR OF RHOLA1/RHOTD" ; ERR1:OutputRate = 20 ; ERR1:missing_value = -32767.f ; float ERR2(Time, sps20) ; ERR2:units = "none" ; ERR2:long_name = " ERROR OF RHOLA2/RHOTD" ; ERR2:OutputRate = 20 ; ERR2:missing_value = -32767.f ; float RXPR1(Time, sps20) ; RXPR1:units = "none" ; RXPR1:long_name = " SLOPE OF RHOLA1" ; RXPR1:OutputRate = 20 ; RXPR1:missing_value = -32767.f ; float RXPR2(Time, sps20) ; RXPR2:units = "none" ; RXPR2:long_name = " SLOPE OF RHOLA2" ; RXPR2:OutputRate = 20 ; RXPR2:missing_value = -32767.f ; float RXPR3(Time, sps20) ; RXPR3:units = "none" ; RXPR3:long_name = " SLOPE OF RHOLA3" ; RXPR3:OutputRate = 20 ; RXPR3:missing_value = -32767.f ; float VLNO1(Time, sps20) ; VLNO1:units = "none" ; VLNO1:long_name = " GAIN FOR INCREMENTAL ALGO. 1" ; VLNO1:OutputRate = 20 ; VLNO1:missing_value = -32767.f ; float VLNO2(Time, sps20) ; VLNO2:units = "none" ; VLNO2:long_name = " GAIN FOR INCREMENTAL ALGO. 2" ; VLNO2:OutputRate = 20 ; VLNO2:missing_value = -32767.f ; float SCATA1(Time, sps20) ; SCATA1:units = "none" ; SCATA1:long_name = " RHOTD * XC" ; SCATA1:OutputRate = 20 ; SCATA1:missing_value = -32767.f ; float CORC1(Time, sps20) ; CORC1:units = "none" ; CORC1:long_name = " GAIN CORRECTION (1)" ; CORC1:OutputRate = 20 ; CORC1:missing_value = -32767.f ; float CORC2(Time, sps20) ; CORC2:units = "none" ; CORC2:long_name = " CORRECTION FOR GAIN (2)" ; CORC2:OutputRate = 20 ; CORC2:missing_value = -32767.f ; float VPP1(Time, sps20) ; VPP1:units = "none" ; VPP1:long_name = " CORRECTED LYMAN ALPHA" ; VPP1:OutputRate = 20 ; VPP1:missing_value = -32767.f ; float VPP2(Time, sps20) ; VPP2:units = "none" ; VPP2:long_name = " CORRECTED LYMAN ALPHA" ; VPP2:OutputRate = 20 ; VPP2:missing_value = -32767.f ; float VPPG(Time, sps20) ; VPPG:units = "none" ; VPPG:long_name = " CORRECTED LYMAN ALPHA" ; VPPG:OutputRate = 20 ; VPPG:missing_value = -32767.f ; float GAP(Time) ; GAP:units = "none" ; GAP:long_name = " GAP FILL INDICATOR (0=OFF ; 99999=ON)" ; GAP:OutputRate = 1 ; GAP:missing_value = -32767.f ; float HOUR(Time) ; HOUR:units = "hr" ; HOUR:long_name = "TIME FROM PTIME" ; HOUR:missing_value = -32767.f ; HOUR:OutputRate = 1 ; float MINUTE(Time) ; MINUTE:units = "min" ; MINUTE:long_name = "TIME FROM PTIME" ; MINUTE:missing_value = -32767.f ; MINUTE:OutputRate = 1 ; float SECOND(Time) ; SECOND:units = "sec" ; SECOND:long_name = "TIME FROM PTIME" ; SECOND:missing_value = -32767.f ; SECOND:OutputRate = 1 ; // 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 14 21:40:09 UTC 1985" ; :JOBID = "IO6255" ; :DateConvertedFromGENPRO = "Oct 12 07:13 UTC 2010" ; :ProjectName = "PHOENIX 17 MAY 84" ; :Aircraft = "N312D" ; :ProjectNumber = "211" ; :FlightNumber = "RF06" ; :FlightDate = "05/17/1984" ; :TimeInterval = "12:11:34-15:35:11" ; }