Sample NetCDF Header
netcdf RF22.19781103.170614_180514 {
dimensions:
Time = 3541 ;
sps10 = 10 ;
variables:
int Time(Time) ;
Time:long_name = "time of measurement" ;
Time:units = "seconds since 1978-11-03 00:00:00 +0000" ;
Time:strptime_format = "seconds since %F %T %z" ;
Time:standard_name = "time" ;
float TPTIME(Time) ;
TPTIME:long_name = "UNALTERED TAPE TIME (SEC) AFTER MIDNIGHT" ;
TPTIME:units = "s" ;
TPTIME:actual_range = 61574.f, 65114.f ;
TPTIME:SampledRate = 1 ;
TPTIME:_FillValue = -32767.f ;
float TMLAG(Time) ;
TMLAG:long_name = "LTN-51 ARINC TIME LAG (SEC)" ;
TMLAG:units = "s" ;
TMLAG:actual_range = 0.05999756f, 0.09999847f ;
TMLAG:SampledRate = 1 ;
TMLAG:_FillValue = -32767.f ;
float EVMRKS(Time) ;
EVMRKS:long_name = "EVENT MARKER WORD (16 BITS)" ;
EVMRKS:units = "unk" ;
EVMRKS:actual_range = 0.f, 0.f ;
EVMRKS:SampledRate = 1 ;
EVMRKS:_FillValue = -32767.f ;
float XMIT(Time) ;
XMIT:long_name = "PILOT MICROPHONE SWITCH (XMIT) (VDC)" ;
XMIT:units = "Vdc" ;
XMIT:actual_range = 0.0759964f, 8.801003f ;
XMIT:SampledRate = 1 ;
XMIT:_FillValue = -32767.f ;
float FZV(Time) ;
FZV:long_name = "FIXED ZERO VOLTAGE (VDC)" ;
FZV:units = "Vdc" ;
FZV:actual_range = -0.001998901f, 0.001998901f ;
FZV:SampledRate = 1 ;
FZV:_FillValue = -32767.f ;
float DMERNG(Time) ;
DMERNG:long_name = "DME AIRCRAFT-TO-STATION RANGE (NMI)" ;
DMERNG:units = "NMI" ;
DMERNG:actual_range = -0.3659973f, 33.386f ;
DMERNG:SampledRate = 1 ;
DMERNG:_FillValue = -32767.f ;
float ENV1R(Time) ;
ENV1R:long_name = "ENVIRONMENT 1 RANGE (VDC)" ;
ENV1R:units = "Vdc" ;
ENV1R:actual_range = 2.977997f, 6.959999f ;
ENV1R:SampledRate = 1 ;
ENV1R:_FillValue = -32767.f ;
float ENV1O(Time) ;
ENV1O:long_name = "ENVIRONMENT 1 OUTPUT (VDC)" ;
ENV1O:units = "Vdc" ;
ENV1O:actual_range = 0.02200317f, 1.695999f ;
ENV1O:SampledRate = 1 ;
ENV1O:_FillValue = -32767.f ;
float ENV1C(Time) ;
ENV1C:long_name = "ENVIRONMENT 1 CONCENTRATION (N(K)/CM3)" ;
ENV1C:units = "N(K)/CM3" ;
ENV1C:actual_range = 3.854f, 211.624f ;
ENV1C:SampledRate = 1 ;
ENV1C:_FillValue = -32767.f ;
float RICE(Time) ;
RICE:long_name = "ICE ACCUMULATION (ROSEMOUNT) (MM)" ;
RICE:units = "MM" ;
RICE:actual_range = Infinityf, Infinityf ;
RICE:SampledRate = 1 ;
RICE:_FillValue = -32767.f ;
float RICED(Time) ;
RICED:long_name = "ICE ACCUM. RATE (1/2 SEC DELAY) (MM/SEC)" ;
RICED:units = "MM/SEC" ;
RICED:actual_range = Infinityf, Infinityf ;
RICED:SampledRate = 1 ;
RICED:_FillValue = -32767.f ;
float ULWC(Time) ;
ULWC:long_name = "UNDERCOOLED LIQUID WATER CONTENT (G/M3)" ;
ULWC:units = "gram/m3" ;
ULWC:actual_range = 0.f, 0.2259979f ;
ULWC:SampledRate = 1 ;
ULWC:_FillValue = -32767.f ;
float LAT(Time, sps10) ;
LAT:long_name = "RAW INS LATITUDE (DEG)" ;
LAT:units = "degree_N" ;
LAT:Category = "Position" ;
LAT:standard_name = "latitude" ;
LAT:valid_range = -90.f, 90.f ;
LAT:actual_range = 43.091f, 43.47301f ;
LAT:SampledRate = 10 ;
LAT:_FillValue = -32767.f ;
float LON(Time, sps10) ;
LON:long_name = "RAW INS LONGITUDE (DEG)" ;
LON:units = "degree_E" ;
LON:Category = "Position" ;
LON:standard_name = "longitude" ;
LON:valid_range = -180.f, 180.f ;
LON:actual_range = -86.465f, -86.046f ;
LON:SampledRate = 10 ;
LON:_FillValue = -32767.f ;
float THI(Time, sps10) ;
THI:long_name = "AIRCRAFT TRUE HEADING (ARINC) (DEG)" ;
THI:units = "degree" ;
THI:actual_range = 0.01100159f, 359.979f ;
THI:SampledRate = 10 ;
THI:_FillValue = -32767.f ;
float ALPHA(Time, sps10) ;
ALPHA:long_name = "INS WANDER ANGLE (DEG)" ;
ALPHA:units = "degree" ;
ALPHA:actual_range = 55.745f, 56.033f ;
ALPHA:SampledRate = 10 ;
ALPHA:_FillValue = -32767.f ;
float XVI(Time, sps10) ;
XVI:long_name = "RAW INS GROUND SPD X COMPONENT (M/S)" ;
XVI:units = "m/s" ;
XVI:actual_range = -61.647f, 84.31702f ;
XVI:SampledRate = 10 ;
XVI:_FillValue = -32767.f ;
float YVI(Time, sps10) ;
YVI:long_name = "RAW INS GROUND SPD Y COMPONENT (M/S)" ;
YVI:units = "m/s" ;
YVI:actual_range = -81.535f, 77.49701f ;
YVI:SampledRate = 10 ;
YVI:_FillValue = -32767.f ;
float GSF(Time, sps10) ;
GSF:long_name = "RAW INS GROUND SPEED (M/S)" ;
GSF:units = "m/s" ;
GSF:actual_range = 24.742f, 84.39999f ;
GSF:SampledRate = 10 ;
GSF:_FillValue = -32767.f ;
float PITCH(Time, sps10) ;
PITCH:long_name = "AIRCRAFT PITCH ATTITUDE ANGLE (DEG)" ;
PITCH:units = "degree" ;
PITCH:actual_range = -2.561996f, 11.962f ;
PITCH:SampledRate = 10 ;
PITCH:_FillValue = -32767.f ;
float ROLL(Time, sps10) ;
ROLL:long_name = "AIRCRAFT ROLL ATTITUDE ANGLE (DEG)" ;
ROLL:units = "degree" ;
ROLL:actual_range = -39.609f, 29.05901f ;
ROLL:SampledRate = 10 ;
ROLL:_FillValue = -32767.f ;
float THF(Time, sps10) ;
THF:long_name = "AIRCRAFT TRUE HEADING (YAW) (DEG)" ;
THF:units = "degree" ;
THF:actual_range = 0.01899719f, 359.988f ;
THF:SampledRate = 10 ;
THF:_FillValue = -32767.f ;
float VZI(Time, sps10) ;
VZI:long_name = "RAW INS VERTICAL VELOCITY (M/S)" ;
VZI:units = "m/s" ;
VZI:actual_range = -18.069f, 7.761993f ;
VZI:SampledRate = 10 ;
VZI:_FillValue = -32767.f ;
float QCW(Time, sps10) ;
QCW:long_name = "RAW DYNAMIC PRESSURE (WING) (MB)" ;
QCW:units = "hPa" ;
QCW:actual_range = 4.68f, 42.06599f ;
QCW:SampledRate = 10 ;
QCW:_FillValue = -32767.f ;
float QCG(Time, sps10) ;
QCG:long_name = "RAW DYNAMIC PRESSURE (GUST PROBE) (MB)" ;
QCG:units = "hPa" ;
QCG:actual_range = 3.463997f, 38.325f ;
QCG:SampledRate = 10 ;
QCG:_FillValue = -32767.f ;
float QCWC(Time, sps10) ;
QCWC:long_name = "CORRECTED DYNAMIC PRESR (WING) (MB)" ;
QCWC:units = "hPa" ;
QCWC:actual_range = 5.959999f, 42.435f ;
QCWC:SampledRate = 10 ;
QCWC:_FillValue = -32767.f ;
float QCGC(Time, sps10) ;
QCGC:long_name = "CORRECTED DYNAMIC PRESR (GUST PROBE)(MB)" ;
QCGC:units = "hPa" ;
QCGC:actual_range = 3.57f, 41.739f ;
QCGC:SampledRate = 10 ;
QCGC:_FillValue = -32767.f ;
float PSF(Time, sps10) ;
PSF:long_name = "RAW STATIC PRESSURE (FUSELAGE) (MB)" ;
PSF:units = "hPa" ;
PSF:actual_range = 919.678f, 997.635f ;
PSF:SampledRate = 10 ;
PSF:_FillValue = -32767.f ;
float PSB(Time, sps10) ;
PSB:long_name = "RAW STATIC PRESSURE (BOOM) (MB)" ;
PSB:units = "hPa" ;
PSB:actual_range = 921.354f, 997.953f ;
PSB:SampledRate = 10 ;
PSB:_FillValue = -32767.f ;
float PSFC(Time, sps10) ;
PSFC:long_name = "CORRECTED STATIC PRESR (FUSELAGE) (MB)" ;
PSFC:units = "hPa" ;
PSFC:actual_range = 918.931f, 996.626f ;
PSFC:SampledRate = 10 ;
PSFC:_FillValue = -32767.f ;
float PSBC(Time, sps10) ;
PSBC:long_name = "CORRECTED STATIC PRESSURE (BOOM) (MB)" ;
PSBC:units = "hPa" ;
PSBC:actual_range = 919.264f, 997.203f ;
PSBC:SampledRate = 10 ;
PSBC:_FillValue = -32767.f ;
float HP(Time, sps10) ;
HP:long_name = "NACA PRESSURE ALTITUDE (M)" ;
HP:units = "m" ;
HP:actual_range = 139.2f, 816.1f ;
HP:SampledRate = 10 ;
HP:_FillValue = -32767.f ;
float HGM(Time, sps10) ;
HGM:long_name = "GEOMETRIC (RADIO) ALTITUDE (M)" ;
HGM:units = "m" ;
HGM:actual_range = 1.289001f, 683.993f ;
HGM:SampledRate = 10 ;
HGM:_FillValue = -32767.f ;
float TTW(Time, sps10) ;
TTW:long_name = "TOTAL TEMPERATURE (WING ROSEMOUNT) (C)" ;
TTW:units = "deg_C" ;
TTW:actual_range = 13.9f, 20.493f ;
TTW:SampledRate = 10 ;
TTW:_FillValue = -32767.f ;
float TTRF(Time, sps10) ;
TTRF:long_name = "TOTAL TEMPERATURE (REVERSE FLOW) (C)" ;
TTRF:units = "deg_C" ;
TTRF:actual_range = 14.515f, 19.573f ;
TTRF:SampledRate = 10 ;
TTRF:_FillValue = -32767.f ;
float TTKP(Time, sps10) ;
TTKP:long_name = "TOTAL TEMPERATURE (FAST RESPONSE) (C)" ;
TTKP:units = "deg_C" ;
TTKP:actual_range = 14.603f, 20.206f ;
TTKP:SampledRate = 10 ;
TTKP:_FillValue = -32767.f ;
float ATW(Time, sps10) ;
ATW:long_name = "AMBIENT TEMPERATURE (ROSEMOUNT) (C)" ;
ATW:units = "deg_C" ;
ATW:actual_range = 13.298f, 18.195f ;
ATW:SampledRate = 10 ;
ATW:_FillValue = -32767.f ;
float ATRF(Time, sps10) ;
ATRF:long_name = "AMBIENT TEMPERATURE (REVERSE-FLOW) (C)" ;
ATRF:units = "deg_C" ;
ATRF:actual_range = 14.051f, 18.167f ;
ATRF:SampledRate = 10 ;
ATRF:_FillValue = -32767.f ;
float ATKP(Time, sps10) ;
ATKP:long_name = "AMBIENT TEMPERATURE (FAST RESPONSE) (C)" ;
ATKP:units = "deg_C" ;
ATKP:actual_range = 13.608f, 18.1f ;
ATKP:SampledRate = 10 ;
ATKP:_FillValue = -32767.f ;
float DP(Time, sps10) ;
DP:long_name = "DEW/FROSTPOINT TEMP (THERMOELEC) (C)" ;
DP:units = "deg_C" ;
DP:actual_range = 0.4520035f, 9.164001f ;
DP:SampledRate = 10 ;
DP:_FillValue = -32767.f ;
float DPC(Time, sps10) ;
DPC:long_name = "DEWPOINT TEMPERATURE (THERMOELEC) (C)" ;
DPC:units = "deg_C" ;
DPC:actual_range = 0.4520035f, 9.164001f ;
DPC:SampledRate = 10 ;
DPC:_FillValue = -32767.f ;
float RHOTD(Time, sps10) ;
RHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (G/M3)" ;
RHOTD:units = "gram/m3" ;
RHOTD:actual_range = 4.765999f, 8.745003f ;
RHOTD:SampledRate = 10 ;
RHOTD:_FillValue = -32767.f ;
float TASW(Time, sps10) ;
TASW:long_name = "AIRCRAFT TRUE AIRSPEED (WING) (M/S)" ;
TASW:units = "m/s" ;
TASW:actual_range = 31.43201f, 85.37399f ;
TASW:SampledRate = 10 ;
TASW:_FillValue = -32767.f ;
float TASG(Time, sps10) ;
TASG:long_name = "AIRCRAFT TRUE AIRSPEED (GUST) (M/S)" ;
TASG:units = "m/s" ;
TASG:actual_range = 24.329f, 84.679f ;
TASG:SampledRate = 10 ;
TASG:_FillValue = -32767.f ;
float LWC(Time, sps10) ;
LWC:long_name = "RAW J-W LIQUID WATER CONTENT (G/M3)" ;
LWC:units = "gram/m3" ;
LWC:actual_range = -0.2460022f, 0.1849976f ;
LWC:SampledRate = 10 ;
LWC:_FillValue = -32767.f ;
float LWCC(Time, sps10) ;
LWCC:long_name = "CORRCTD J-W LIQUID WATER CONTENT (G/M3)" ;
LWCC:units = "gram/m3" ;
LWCC:actual_range = -0.4120026f, 0.2559967f ;
LWCC:SampledRate = 10 ;
LWCC:_FillValue = -32767.f ;
float ADIF(Time, sps10) ;
ADIF:long_name = "VERTICAL DIFF. PRESR (GUST PROBE) (MB)" ;
ADIF:units = "hPa" ;
ADIF:actual_range = -0.008003235f, 11.178f ;
ADIF:SampledRate = 10 ;
ADIF:_FillValue = -32767.f ;
float ATTACK(Time, sps10) ;
ATTACK:long_name = "ATTACK ANGLE (ROSEMOUNT) (DEG)" ;
ATTACK:units = "degree" ;
ATTACK:actual_range = -0.02799988f, 7.913002f ;
ATTACK:SampledRate = 10 ;
ATTACK:_FillValue = -32767.f ;
float BDIF(Time, sps10) ;
BDIF:long_name = "HORIZONTAL DIFF. PRESR (GUST PROBE) (MB)" ;
BDIF:units = "hPa" ;
BDIF:actual_range = -6.411003f, 4.195f ;
BDIF:SampledRate = 10 ;
BDIF:_FillValue = -32767.f ;
float SSLIP(Time, sps10) ;
SSLIP:long_name = "SIDESLIP ANGLE (ROSEMOUNT) (DEG)" ;
SSLIP:units = "degree" ;
SSLIP:actual_range = -6.341003f, 2.910004f ;
SSLIP:SampledRate = 10 ;
SSLIP:_FillValue = -32767.f ;
float UI(Time, sps10) ;
UI:long_name = "WIND VECTOR EAST GUST COMPONENT (M/S)" ;
UI:units = "m/s" ;
UI:actual_range = -3.722f, 12.05299f ;
UI:SampledRate = 10 ;
UI:_FillValue = -32767.f ;
float VI(Time, sps10) ;
VI:long_name = "WIND VECTOR NORTH GUST COMPONENT (M/S)" ;
VI:units = "m/s" ;
VI:actual_range = -0.5540009f, 10.647f ;
VI:SampledRate = 10 ;
VI:_FillValue = -32767.f ;
float WI(Time, sps10) ;
WI:long_name = "WIND VECTOR VERTICAL GUST COMP (H) (M/S)" ;
WI:units = "m/s" ;
WI:actual_range = -0.5759964f, 2.334f ;
WI:SampledRate = 10 ;
WI:_FillValue = -32767.f ;
float UX(Time, sps10) ;
UX:long_name = "WIND VECTOR LNGTDNL GUST COMPONENT (M/S)" ;
UX:units = "m/s" ;
UX:actual_range = -10.967f, 13.244f ;
UX:SampledRate = 10 ;
UX:_FillValue = -32767.f ;
float VY(Time, sps10) ;
VY:long_name = "WIND VECTOR LATERAL GUST COMPONENT (M/S)" ;
VY:units = "m/s" ;
VY:actual_range = -13.05901f, 12.354f ;
VY:SampledRate = 10 ;
VY:_FillValue = -32767.f ;
float WDRCTN(Time, sps10) ;
WDRCTN:long_name = "HORIZONTAL WIND DIRECTION (DEG)" ;
WDRCTN:units = "degree" ;
WDRCTN:actual_range = 140.646f, 253.89f ;
WDRCTN:SampledRate = 10 ;
WDRCTN:_FillValue = -32767.f ;
float WSPD(Time, sps10) ;
WSPD:long_name = "HORIZONTAL WIND SPEED (M/S)" ;
WSPD:units = "m/s" ;
WSPD:actual_range = 1.012001f, 15.223f ;
WSPD:SampledRate = 10 ;
WSPD:_FillValue = -32767.f ;
float UI1(Time, sps10) ;
UI1:long_name = "WIND VECTOR EAST COMPONENT (M/S)" ;
UI1:units = "m/s" ;
UI1:actual_range = -1.531998f, 12.7f ;
UI1:SampledRate = 10 ;
UI1:_FillValue = -32767.f ;
float VI1(Time, sps10) ;
VI1:long_name = "WIND VECTOR NORTH COMPONENT (M/S)" ;
VI1:units = "m/s" ;
VI1:actual_range = 1.001999f, 12.321f ;
VI1:SampledRate = 10 ;
VI1:_FillValue = -32767.f ;
float UX1(Time, sps10) ;
UX1:long_name = "WIND VECTOR LNGTDNL COMPONENT (M/S)" ;
UX1:units = "m/s" ;
UX1:actual_range = -15.222f, 12.746f ;
UX1:SampledRate = 10 ;
UX1:_FillValue = -32767.f ;
float VY1(Time, sps10) ;
VY1:long_name = "WIND VECTOR LATERAL COMPONENT (M/S)" ;
VY1:units = "m/s" ;
VY1:actual_range = -13.636f, 13.808f ;
VY1:SampledRate = 10 ;
VY1:_FillValue = -32767.f ;
float VEW(Time, sps10) ;
VEW:long_name = "RAW INS GROUND SPD EAST COMP (M/S)" ;
VEW:units = "m/s" ;
VEW:actual_range = -63.09299f, 82.01801f ;
VEW:SampledRate = 10 ;
VEW:_FillValue = -32767.f ;
float VNS(Time, sps10) ;
VNS:long_name = "RAW INS GROUND SPD NORTH COMP (M/S)" ;
VNS:units = "m/s" ;
VNS:actual_range = -74.384f, 80.31201f ;
VNS:SampledRate = 10 ;
VNS:_FillValue = -32767.f ;
float DEI(Time, sps10) ;
DEI:long_name = "DISTANCE EAST OF CHILL RADAR (KM)" ;
DEI:units = "km" ;
DEI:actual_range = -3.549805f, 30.3501f ;
DEI:SampledRate = 10 ;
DEI:_FillValue = -32767.f ;
float DNI(Time, sps10) ;
DNI:long_name = "DISTANCE NORTH OF CHILL RADAR (KM)" ;
DNI:units = "km" ;
DNI:actual_range = -40.47998f, 1.899902f ;
DNI:SampledRate = 10 ;
DNI:_FillValue = -32767.f ;
float CGAC(Time, sps10) ;
CGAC:long_name = "AIRCRAFT C.G. ACCELERATION (M/S2)" ;
CGAC:units = "m/s2" ;
CGAC:actual_range = -2.213997f, 2.415001f ;
CGAC:SampledRate = 10 ;
CGAC:_FillValue = -32767.f ;
float WP3(Time, sps10) ;
WP3:long_name = "DAMPED AIRCRAFT VERT VELOCITY (M/S)" ;
WP3:units = "m/s" ;
WP3:actual_range = -6.070999f, 9.329002f ;
WP3:SampledRate = 10 ;
WP3:_FillValue = -32767.f ;
float HI3(Time, sps10) ;
HI3:long_name = "PRESSURE-DAMPED INERTIAL ALTITUDE (M)" ;
HI3:units = "m" ;
HI3:actual_range = 142.9f, 815.4f ;
HI3:SampledRate = 10 ;
HI3:_FillValue = -32767.f ;
float VAVCSD(Time, sps10) ;
VAVCSD:long_name = "VERTICAL AIR VELOCITY (CSD EQNS.) (M/S)" ;
VAVCSD:units = "m/s" ;
VAVCSD:actual_range = -2.411003f, 11.21f ;
VAVCSD:SampledRate = 10 ;
VAVCSD:_FillValue = -32767.f ;
float TVIR(Time, sps10) ;
TVIR:long_name = "VIRTUAL TEMPERATURE (C)" ;
TVIR:units = "deg_C" ;
TVIR:actual_range = 13.98f, 19.321f ;
TVIR:SampledRate = 10 ;
TVIR:_FillValue = -32767.f ;
float THETA(Time, sps10) ;
THETA:long_name = "POTENTIAL TEMPERATURE (K)" ;
THETA:units = "deg_K" ;
THETA:actual_range = 286.912f, 296.096f ;
THETA:SampledRate = 10 ;
THETA:_FillValue = -32767.f ;
float ETHETA(Time, sps10) ;
ETHETA:long_name = "EQUIVALENT POTENTIAL TEMPERATURE (K)" ;
ETHETA:units = "deg_K" ;
ETHETA:actual_range = 298.145f, 312.327f ;
ETHETA:SampledRate = 10 ;
ETHETA:_FillValue = -32767.f ;
float CAMRAW(Time, sps10) ;
CAMRAW:long_name = "CANNON CAMERA FRAME VOLTAGE (VDC)" ;
CAMRAW:units = "Vdc" ;
CAMRAW:actual_range = -0.03199768f, 0.387001f ;
CAMRAW:SampledRate = 10 ;
CAMRAW:_FillValue = -32767.f ;
float CFRCNT(Time, sps10) ;
CFRCNT:long_name = "CANNON CAMERA FRAME COUNT" ;
CFRCNT:units = "unk" ;
CFRCNT:actual_range = 0.f, 1048575.f ;
CFRCNT:SampledRate = 10 ;
CFRCNT:_FillValue = -32767.f ;
float FSSP(Time) ;
FSSP:long_name = "FSSP PROBE RANGE (1-4)" ;
FSSP:units = "RANGE" ;
FSSP:actual_range = 1.f, 1048575.f ;
FSSP:SampledRate = 1 ;
FSSP:_FillValue = -32767.f ;
float IDPMS(Time) ;
IDPMS:long_name = "PMS DATA BLOCK I. D. WORD" ;
IDPMS:units = "unk" ;
IDPMS:actual_range = 13107.f, 1048575.f ;
IDPMS:SampledRate = 1 ;
IDPMS:_FillValue = -32767.f ;
float SUM1_1(Time) ;
SUM1_1:long_name = "PROBE 1/CELL 1 ACCUMULATION (COUNTS)" ;
SUM1_1:units = "COUNTS" ;
SUM1_1:actual_range = 0.f, 1048575.f ;
SUM1_1:SampledRate = 1 ;
SUM1_1:_FillValue = -32767.f ;
float SUM1_2(Time) ;
SUM1_2:long_name = "PROBE 1/CELL 2 ACCUMULATION (COUNTS)" ;
SUM1_2:units = "COUNTS" ;
SUM1_2:actual_range = 0.f, 112.f ;
SUM1_2:SampledRate = 1 ;
SUM1_2:_FillValue = -32767.f ;
float SUM1_3(Time) ;
SUM1_3:long_name = "PROBE 1/CELL 3 ACCUMULATION (COUNTS)" ;
SUM1_3:units = "COUNTS" ;
SUM1_3:actual_range = 0.f, 64.f ;
SUM1_3:SampledRate = 1 ;
SUM1_3:_FillValue = -32767.f ;
float SUM1_4(Time) ;
SUM1_4:long_name = "PROBE 1/CELL 4 ACCUMULATION (COUNTS)" ;
SUM1_4:units = "COUNTS" ;
SUM1_4:actual_range = 0.f, 79.f ;
SUM1_4:SampledRate = 1 ;
SUM1_4:_FillValue = -32767.f ;
float SUM1_5(Time) ;
SUM1_5:long_name = "PROBE 1/CELL 5 ACCUMULATION (COUNTS)" ;
SUM1_5:units = "COUNTS" ;
SUM1_5:actual_range = 0.f, 55.f ;
SUM1_5:SampledRate = 1 ;
SUM1_5:_FillValue = -32767.f ;
float SUM1_6(Time) ;
SUM1_6:long_name = "PROBE 1/CELL 6 ACCUMULATION (COUNTS)" ;
SUM1_6:units = "COUNTS" ;
SUM1_6:actual_range = 0.f, 37.f ;
SUM1_6:SampledRate = 1 ;
SUM1_6:_FillValue = -32767.f ;
float SUM1_7(Time) ;
SUM1_7:long_name = "PROBE 1/CELL 7 ACCUMULATION (COUNTS)" ;
SUM1_7:units = "COUNTS" ;
SUM1_7:actual_range = 0.f, 32.f ;
SUM1_7:SampledRate = 1 ;
SUM1_7:_FillValue = -32767.f ;
float SUM1_8(Time) ;
SUM1_8:long_name = "PROBE 1/CELL 8 ACCUMULATION (COUNTS)" ;
SUM1_8:units = "COUNTS" ;
SUM1_8:actual_range = 0.f, 23.f ;
SUM1_8:SampledRate = 1 ;
SUM1_8:_FillValue = -32767.f ;
float SUM1_9(Time) ;
SUM1_9:long_name = "PROBE 1/CELL 9 ACCUMULATION (COUNTS)" ;
SUM1_9:units = "COUNTS" ;
SUM1_9:actual_range = 0.f, 17.f ;
SUM1_9:SampledRate = 1 ;
SUM1_9:_FillValue = -32767.f ;
float SUM1_10(Time) ;
SUM1_10:long_name = "PROBE 1/CELL10 ACCUMULATION (COUNTS)" ;
SUM1_10:units = "COUNTS" ;
SUM1_10:actual_range = 0.f, 18.f ;
SUM1_10:SampledRate = 1 ;
SUM1_10:_FillValue = -32767.f ;
float SUM1_11(Time) ;
SUM1_11:long_name = "PROBE 1/CELL11 ACCUMULATION (COUNTS)" ;
SUM1_11:units = "COUNTS" ;
SUM1_11:actual_range = 0.f, 8.f ;
SUM1_11:SampledRate = 1 ;
SUM1_11:_FillValue = -32767.f ;
float SUM1_12(Time) ;
SUM1_12:long_name = "PROBE 1/CELL12 ACCUMULATION (COUNTS)" ;
SUM1_12:units = "COUNTS" ;
SUM1_12:actual_range = 0.f, 14.f ;
SUM1_12:SampledRate = 1 ;
SUM1_12:_FillValue = -32767.f ;
float SUM1_13(Time) ;
SUM1_13:long_name = "PROBE 1/CELL13 ACCUMULATION (COUNTS)" ;
SUM1_13:units = "COUNTS" ;
SUM1_13:actual_range = 0.f, 11.f ;
SUM1_13:SampledRate = 1 ;
SUM1_13:_FillValue = -32767.f ;
float SUM1_14(Time) ;
SUM1_14:long_name = "PROBE 1/CELL14 ACCUMULATION (COUNTS)" ;
SUM1_14:units = "COUNTS" ;
SUM1_14:actual_range = 0.f, 7.f ;
SUM1_14:SampledRate = 1 ;
SUM1_14:_FillValue = -32767.f ;
float SUM1_15(Time) ;
SUM1_15:long_name = "PROBE 1/CELL15 ACCUMULATION (COUNTS)" ;
SUM1_15:units = "COUNTS" ;
SUM1_15:actual_range = 0.f, 6.f ;
SUM1_15:SampledRate = 1 ;
SUM1_15:_FillValue = -32767.f ;
float SUM2_1(Time) ;
SUM2_1:long_name = "PROBE 2/CELL 1 ACCUMULATION (COUNTS)" ;
SUM2_1:units = "COUNTS" ;
SUM2_1:actual_range = 0.f, 0.f ;
SUM2_1:SampledRate = 1 ;
SUM2_1:_FillValue = -32767.f ;
float SUM2_2(Time) ;
SUM2_2:long_name = "PROBE 2/CELL 2 ACCUMULATION (COUNTS)" ;
SUM2_2:units = "COUNTS" ;
SUM2_2:actual_range = 0.f, 1.f ;
SUM2_2:SampledRate = 1 ;
SUM2_2:_FillValue = -32767.f ;
float SUM2_3(Time) ;
SUM2_3:long_name = "PROBE 2/CELL 3 ACCUMULATION (COUNTS)" ;
SUM2_3:units = "COUNTS" ;
SUM2_3:actual_range = 0.f, 0.f ;
SUM2_3:SampledRate = 1 ;
SUM2_3:_FillValue = -32767.f ;
float SUM2_4(Time) ;
SUM2_4:long_name = "PROBE 2/CELL 4 ACCUMULATION (COUNTS)" ;
SUM2_4:units = "COUNTS" ;
SUM2_4:actual_range = 0.f, 0.f ;
SUM2_4:SampledRate = 1 ;
SUM2_4:_FillValue = -32767.f ;
float SUM2_5(Time) ;
SUM2_5:long_name = "PROBE 2/CELL 5 ACCUMULATION (COUNTS)" ;
SUM2_5:units = "COUNTS" ;
SUM2_5:actual_range = 0.f, 0.f ;
SUM2_5:SampledRate = 1 ;
SUM2_5:_FillValue = -32767.f ;
float SUM2_6(Time) ;
SUM2_6:long_name = "PROBE 2/CELL 6 ACCUMULATION (COUNTS)" ;
SUM2_6:units = "COUNTS" ;
SUM2_6:actual_range = 0.f, 0.f ;
SUM2_6:SampledRate = 1 ;
SUM2_6:_FillValue = -32767.f ;
float SUM2_7(Time) ;
SUM2_7:long_name = "PROBE 2/CELL 7 ACCUMULATION (COUNTS)" ;
SUM2_7:units = "COUNTS" ;
SUM2_7:actual_range = 0.f, 0.f ;
SUM2_7:SampledRate = 1 ;
SUM2_7:_FillValue = -32767.f ;
float SUM2_8(Time) ;
SUM2_8:long_name = "PROBE 2/CELL 8 ACCUMULATION (COUNTS)" ;
SUM2_8:units = "COUNTS" ;
SUM2_8:actual_range = 0.f, 0.f ;
SUM2_8:SampledRate = 1 ;
SUM2_8:_FillValue = -32767.f ;
float SUM2_9(Time) ;
SUM2_9:long_name = "PROBE 2/CELL 9 ACCUMULATION (COUNTS)" ;
SUM2_9:units = "COUNTS" ;
SUM2_9:actual_range = 0.f, 0.f ;
SUM2_9:SampledRate = 1 ;
SUM2_9:_FillValue = -32767.f ;
float SUM2_10(Time) ;
SUM2_10:long_name = "PROBE 2/CELL10 ACCUMULATION (COUNTS)" ;
SUM2_10:units = "COUNTS" ;
SUM2_10:actual_range = 0.f, 0.f ;
SUM2_10:SampledRate = 1 ;
SUM2_10:_FillValue = -32767.f ;
float SUM2_11(Time) ;
SUM2_11:long_name = "PROBE 2/CELL11 ACCUMULATION (COUNTS)" ;
SUM2_11:units = "COUNTS" ;
SUM2_11:actual_range = 0.f, 0.f ;
SUM2_11:SampledRate = 1 ;
SUM2_11:_FillValue = -32767.f ;
float SUM2_12(Time) ;
SUM2_12:long_name = "PROBE 2/CELL12 ACCUMULATION (COUNTS)" ;
SUM2_12:units = "COUNTS" ;
SUM2_12:actual_range = 0.f, 0.f ;
SUM2_12:SampledRate = 1 ;
SUM2_12:_FillValue = -32767.f ;
float SUM2_13(Time) ;
SUM2_13:long_name = "PROBE 2/CELL13 ACCUMULATION (COUNTS)" ;
SUM2_13:units = "COUNTS" ;
SUM2_13:actual_range = 0.f, 0.f ;
SUM2_13:SampledRate = 1 ;
SUM2_13:_FillValue = -32767.f ;
float SUM2_14(Time) ;
SUM2_14:long_name = "PROBE 2/CELL14 ACCUMULATION (COUNTS)" ;
SUM2_14:units = "COUNTS" ;
SUM2_14:actual_range = 0.f, 0.f ;
SUM2_14:SampledRate = 1 ;
SUM2_14:_FillValue = -32767.f ;
float SUM2_15(Time) ;
SUM2_15:long_name = "PROBE 2/CELL15 ACCUMULATION (COUNTS)" ;
SUM2_15:units = "COUNTS" ;
SUM2_15:actual_range = 0.f, 0.f ;
SUM2_15:SampledRate = 1 ;
SUM2_15:_FillValue = -32767.f ;
float CON1_1(Time) ;
CON1_1:long_name = "PROBE 1/CELL 1 CONCENTRATION (CTS/CC)" ;
CON1_1:units = "1/cm3" ;
CON1_1:actual_range = 0.f, 2.64f ;
CON1_1:SampledRate = 1 ;
CON1_1:_FillValue = -32767.f ;
float CON1_2(Time) ;
CON1_2:long_name = "PROBE 1/CELL 2 CONCENTRATION (CTS/CC)" ;
CON1_2:units = "1/cm3" ;
CON1_2:actual_range = 0.f, 11.79f ;
CON1_2:SampledRate = 1 ;
CON1_2:_FillValue = -32767.f ;
float CON1_3(Time) ;
CON1_3:long_name = "PROBE 1/CELL 3 CONCENTRATION (CTS/CC)" ;
CON1_3:units = "1/cm3" ;
CON1_3:actual_range = 0.f, 6.94f ;
CON1_3:SampledRate = 1 ;
CON1_3:_FillValue = -32767.f ;
float CON1_4(Time) ;
CON1_4:long_name = "PROBE 1/CELL 4 CONCENTRATION (CTS/CC)" ;
CON1_4:units = "1/cm3" ;
CON1_4:actual_range = 0.f, 4.05f ;
CON1_4:SampledRate = 1 ;
CON1_4:_FillValue = -32767.f ;
float CON1_5(Time) ;
CON1_5:long_name = "PROBE 1/CELL 5 CONCENTRATION (CTS/CC)" ;
CON1_5:units = "1/cm3" ;
CON1_5:actual_range = 0.f, 2.82f ;
CON1_5:SampledRate = 1 ;
CON1_5:_FillValue = -32767.f ;
float CON1_6(Time) ;
CON1_6:long_name = "PROBE 1/CELL 6 CONCENTRATION (CTS/CC)" ;
CON1_6:units = "1/cm3" ;
CON1_6:actual_range = 0.f, 1.89f ;
CON1_6:SampledRate = 1 ;
CON1_6:_FillValue = -32767.f ;
float CON1_7(Time) ;
CON1_7:long_name = "PROBE 1/CELL 7 CONCENTRATION (CTS/CC)" ;
CON1_7:units = "1/cm3" ;
CON1_7:actual_range = 0.f, 1.65f ;
CON1_7:SampledRate = 1 ;
CON1_7:_FillValue = -32767.f ;
float CON1_8(Time) ;
CON1_8:long_name = "PROBE 1/CELL 8 CONCENTRATION (CTS/CC)" ;
CON1_8:units = "1/cm3" ;
CON1_8:actual_range = 0.f, 1.13f ;
CON1_8:SampledRate = 1 ;
CON1_8:_FillValue = -32767.f ;
float CON1_9(Time) ;
CON1_9:long_name = "PROBE 1/CELL 9 CONCENTRATION (CTS/CC)" ;
CON1_9:units = "1/cm3" ;
CON1_9:actual_range = 0.f, 0.82f ;
CON1_9:SampledRate = 1 ;
CON1_9:_FillValue = -32767.f ;
float CON1_10(Time) ;
CON1_10:long_name = "PROBE 1/CELL10 CONCENTRATION (CTS/CC)" ;
CON1_10:units = "1/cm3" ;
CON1_10:actual_range = 0.f, 0.87f ;
CON1_10:SampledRate = 1 ;
CON1_10:_FillValue = -32767.f ;
float CON1_11(Time) ;
CON1_11:long_name = "PROBE 1/CELL11 CONCENTRATION (CTS/CC)" ;
CON1_11:units = "1/cm3" ;
CON1_11:actual_range = 0.f, 0.47f ;
CON1_11:SampledRate = 1 ;
CON1_11:_FillValue = -32767.f ;
float CON1_12(Time) ;
CON1_12:long_name = "PROBE 1/CELL12 CONCENTRATION (CTS/CC)" ;
CON1_12:units = "1/cm3" ;
CON1_12:actual_range = 0.f, 0.67f ;
CON1_12:SampledRate = 1 ;
CON1_12:_FillValue = -32767.f ;
float CON1_13(Time) ;
CON1_13:long_name = "PROBE 1/CELL13 CONCENTRATION (CTS/CC)" ;
CON1_13:units = "1/cm3" ;
CON1_13:actual_range = 0.f, 0.53f ;
CON1_13:SampledRate = 1 ;
CON1_13:_FillValue = -32767.f ;
float CON1_14(Time) ;
CON1_14:long_name = "PROBE 1/CELL14 CONCENTRATION (CTS/CC)" ;
CON1_14:units = "1/cm3" ;
CON1_14:actual_range = 0.f, 0.34f ;
CON1_14:SampledRate = 1 ;
CON1_14:_FillValue = -32767.f ;
float CON1_15(Time) ;
CON1_15:long_name = "PROBE 1/CELL15 CONCENTRATION (CTS/CC)" ;
CON1_15:units = "1/cm3" ;
CON1_15:actual_range = 0.f, 0.29f ;
CON1_15:SampledRate = 1 ;
CON1_15:_FillValue = -32767.f ;
float CON2_1(Time) ;
CON2_1:long_name = "PROBE 2/CELL 1 CONCENTRATION (CTS/CC)" ;
CON2_1:units = "1/cm3" ;
CON2_1:actual_range = 0.f, 0.f ;
CON2_1:SampledRate = 1 ;
CON2_1:_FillValue = -32767.f ;
float CON2_2(Time) ;
CON2_2:long_name = "PROBE 2/CELL 2 CONCENTRATION (CTS/CC)" ;
CON2_2:units = "1/cm3" ;
CON2_2:actual_range = 0.f, 0.00020002f ;
CON2_2:SampledRate = 1 ;
CON2_2:_FillValue = -32767.f ;
float CON2_3(Time) ;
CON2_3:long_name = "PROBE 2/CELL 3 CONCENTRATION (CTS/CC)" ;
CON2_3:units = "1/cm3" ;
CON2_3:actual_range = 0.f, 0.f ;
CON2_3:SampledRate = 1 ;
CON2_3:_FillValue = -32767.f ;
float CON2_4(Time) ;
CON2_4:long_name = "PROBE 2/CELL 4 CONCENTRATION (CTS/CC)" ;
CON2_4:units = "1/cm3" ;
CON2_4:actual_range = 0.f, 0.f ;
CON2_4:SampledRate = 1 ;
CON2_4:_FillValue = -32767.f ;
float CON2_5(Time) ;
CON2_5:long_name = "PROBE 2/CELL 5 CONCENTRATION (CTS/CC)" ;
CON2_5:units = "1/cm3" ;
CON2_5:actual_range = 0.f, 0.f ;
CON2_5:SampledRate = 1 ;
CON2_5:_FillValue = -32767.f ;
float CON2_6(Time) ;
CON2_6:long_name = "PROBE 2/CELL 6 CONCENTRATION (CTS/CC)" ;
CON2_6:units = "1/cm3" ;
CON2_6:actual_range = 0.f, 0.f ;
CON2_6:SampledRate = 1 ;
CON2_6:_FillValue = -32767.f ;
float CON2_7(Time) ;
CON2_7:long_name = "PROBE 2/CELL 7 CONCENTRATION (CTS/CC)" ;
CON2_7:units = "1/cm3" ;
CON2_7:actual_range = 0.f, 0.f ;
CON2_7:SampledRate = 1 ;
CON2_7:_FillValue = -32767.f ;
float CON2_8(Time) ;
CON2_8:long_name = "PROBE 2/CELL 8 CONCENTRATION (CTS/CC)" ;
CON2_8:units = "1/cm3" ;
CON2_8:actual_range = 0.f, 0.f ;
CON2_8:SampledRate = 1 ;
CON2_8:_FillValue = -32767.f ;
float CON2_9(Time) ;
CON2_9:long_name = "PROBE 2/CELL 9 CONCENTRATION (CTS/CC)" ;
CON2_9:units = "1/cm3" ;
CON2_9:actual_range = 0.f, 0.f ;
CON2_9:SampledRate = 1 ;
CON2_9:_FillValue = -32767.f ;
float CON2_10(Time) ;
CON2_10:long_name = "PROBE 2/CELL10 CONCENTRATION (CTS/CC)" ;
CON2_10:units = "1/cm3" ;
CON2_10:actual_range = 0.f, 0.f ;
CON2_10:SampledRate = 1 ;
CON2_10:_FillValue = -32767.f ;
float CON2_11(Time) ;
CON2_11:long_name = "PROBE 2/CELL11 CONCENTRATION (CTS/CC)" ;
CON2_11:units = "1/cm3" ;
CON2_11:actual_range = 0.f, 0.f ;
CON2_11:SampledRate = 1 ;
CON2_11:_FillValue = -32767.f ;
float CON2_12(Time) ;
CON2_12:long_name = "PROBE 2/CELL12 CONCENTRATION (CTS/CC)" ;
CON2_12:units = "1/cm3" ;
CON2_12:actual_range = 0.f, 0.f ;
CON2_12:SampledRate = 1 ;
CON2_12:_FillValue = -32767.f ;
float CON2_13(Time) ;
CON2_13:long_name = "PROBE 2/CELL13 CONCENTRATION (CTS/CC)" ;
CON2_13:units = "1/cm3" ;
CON2_13:actual_range = 0.f, 0.f ;
CON2_13:SampledRate = 1 ;
CON2_13:_FillValue = -32767.f ;
float CON2_14(Time) ;
CON2_14:long_name = "PROBE 2/CELL14 CONCENTRATION (CTS/CC)" ;
CON2_14:units = "1/cm3" ;
CON2_14:actual_range = 0.f, 0.f ;
CON2_14:SampledRate = 1 ;
CON2_14:_FillValue = -32767.f ;
float CON2_15(Time) ;
CON2_15:long_name = "PROBE 2/CELL15 CONCENTRATION (CTS/CC)" ;
CON2_15:units = "1/cm3" ;
CON2_15:actual_range = 0.f, 0.f ;
CON2_15:SampledRate = 1 ;
CON2_15:_FillValue = -32767.f ;
// global attributes:
:institution = "NCAR Research Aviation Facility" ;
:Address = "P.O. Box 3000, Boulder, CO 80307-3000" ;
:creator_url = "http://www.eol.ucar.edu" ;
:Conventions = "NCAR-RAF/nimbus" ;
:ConventionsURL = "http://www.eol.ucar.edu/raf/Software/netCDF.html" ;
:ConventionsVersion = "1.3" ;
:Metadata_Conventions = "Unidata Dataset Discovery v1.0" ;
:standard_name_vocabulary = "CF-1.0" ;
:time_coordinate = "Time" ;
:Phone = "(303) 497-1030" ;
:ProcessorURL = "https://github.com/ncareol/GENPRO" ;
:ProcessorRevision = "8ff1ae2e-dirty" ;
:Categories = "Position,Thermodynamic,Aircraft State,Atmos. State" ;
:geospatial_vertical_positive = "up" ;
:date_created = "2016-08-09T18:32:03 +0000" ;
:Platform = "N306D" ;
:wind_field = "WSPD WDRCTN WI" ;
:time_coverage_start = "1978-11-03T17:06:14 +0000" ;
:time_coverage_end = "1978-11-03T18:05:14 +0000" ;
:TimeInterval = "17:06:14-18:05:14" ;
:FlightDate = "11/03/1978" ;
:geospatial_lat_min = 43.091f ;
:geospatial_lat_max = 43.47301f ;
:latitude_coordinate = "LAT" ;
:geospatial_lon_min = -86.465f ;
:geospatial_lon_max = -86.046f ;
:longitude_coordinate = "LON" ;
:zaxis_coordinate = "HP" ;
:geospatial_vertical_units = "m" ;
:geospatial_vertical_min = 139.2f ;
:geospatial_vertical_max = 816.1f ;
:DESCRIPTION = "668-22 SNOW PHYSICS 3NOV78 16/57/58" ;
:CYCLE_TIME = 1.f ;
:FlightNumber = "RF22" ;
:ProjectName = "Cloud Physics of Snow and Urban Plumes" ;
:converted_from = "G51080" ;
}
Data Access