XTENSION (C) = BINTABLE / binary table extension BITPIX (I4) = 8 / 8-bit bytes NAXIS (I4) = 2 / 2-dimensional binary table NAXIS1 (I4) = 23 / width of table in bytes NAXIS2 (I4) = 2 / number of rows in table PCOUNT (I4) = 0 / size of special data area GCOUNT (I4) = 1 / one data group (required keyword) TFIELDS (I4) = 3 / number of fields in each row EXTNAME (C) = IMBF-scan / name of this binary table extension TELESCOP (C) = IRAM 30m / Telescope Name TELSIZE (R8) = 30.0000000000000 / [m] Telescope Diameter SITELONG (R8) = -3.39875641986850 / [deg] observatory longitude (EAST) SITELAT (R8) = 37.0684132670517 / [deg] observatory latitude (NORTH) SITEELEV (R8) = 2851.50000000000 / [m] observatory elevation PROJID (C) = 102-16 / Project ID OBSID (C) = XX / Observer initials OPERATOR (C) = Pako / Operator initials SCANNUM (I4) = 138 / Scan number DATE-OBS (C) = 2017-03-29T10:54:54.00 / scan start in TIMESYS system DATE (C) = 2017-03-29T10:55:18 / Date of FITS file creation MJD (R8) = 57841.4547916667 / [day] Scan date/time (Modified Julian Date) LST (R8) = 83367.1998821900 / [s] Local apparent sidereal time (scan start) N_OBS (I4) = 3 / Number of observations in this scan EXPTIME (I4) = 15 / Total netto integration time [s] TIMESYS (C) = UTC / time system (TT, TAI, UTC ...) UT1UTC (R8) = 0.477150000000000 / [s] UT1-UTC time translation TAIUTC (R8) = 35.0000000000000 / [s] TAI-UTC time translation ETUTC (R8) = 67.1840000000000 / [s] Ephemeris Time - UTC time translation GPSTAI (R8) = 0.00000000000000 / [s] GPS time - TAI translation POLEX (R8) = 2.714956614210000E-08 / [rad] Celestial Pole Offset X POLEY (R8) = 1.781205464400000E-06 / [rad] Celestial Pole Offset Y OBJECT (C) = XXXXXXXX / Source name CTYPE1 (C) = RA-SFL / Basis system (longitude) -- CTYPE2 (C) = DEC-SFL / Basis system (latitude) -- XLAT-SFL RADESYS (C) = / additional system definition for ecliptic/equat EQUINOX (R8) = 2000.00000000000 / [Julian yrs] Equinox CRVAL1 (R8) = 0.00000000000000 / [deg] Native frame zero in basis system (long.) CRVAL2 (R8) = 0.00000000000000 / [deg] Native frame zero in basis system (lat.) LONPOLE (R8) = 0.00000000000000 / [deg] Native longitude of celestial pole: range LATPOLE (R8) = 0.00000000000000 / [deg] Basis latitude of native pole LONGOBJ (R8) = 00.0000000000000 / [deg] Source longitude in basis frame LATOBJ (R8) = 00.0000000000000 / [deg] Source latitude in basis frame SWTCHMOD (C) = totalPower / Switch mode NOSWITCH (I4) = 1 / no. of switch phases in a switch cycle PHASETIM (R8) = 0.500000000000000 / [s] Integration time per phase WOBTHROW (R8) = 0.00000000000000 / [deg] wobbler throw WOBDIR (I4) = 0 / wobbler throw direction WOBCYCLE (R8) = 0.00000000000000 / [s] wobbler period WOBMODE (C) = / wobbler mode (SQUARE/TRIANGULAR}) NFEBE (I4) = 8 / \nfebe\ number of FEBEs PRESSURE (R8) = 728.500000000000 / [hPa] Atmospheric pressure (hPa) TAMBIENT (R8) = -3.00000000000000 / [deg C] Outside temperature (C) HUMIDITY (R8) = 36.6000000000000 / [%] Relative Humidity (%) WINDDIR (R8) = 187.300000000000 / [deg] Wind direction (deg) WINDVEL (R8) = 1.50000000000000 / [m/s] Wind velocity (m/s) WINDVELM (R8) = 2.50000000000000 / [m/s] Wind max. velocity (m/s) DATE-WEA (C) = 2017-03-29T10:55:15.58 / Time of weather station par. REFRACTI (R8) = 0.00000000000000 / [none] Refraction Correction, as a function of THOT (R8) = 295.150000000000 / [K] Hot Load Temperature in K DATE-HOT (C) = 2017-03-29T10:54:44.75 / Time of Hot Load Temp. meas. TIPTAUZ (R8) = 0.136721000000000 / [ ] Tau meter zenith opacity TIPTAUC (R8) = 0.999226000000000 / [ ] Tau meter goodness of fit DATE-TIP (C) = 2017-03-29T10:54:50.85 / Time of Tau from Taumeter SYSOFF (C) = Nasmyth projection / WARNING! Added a dummy 'projection' value XOFFSET (R4) = -1.9150140E-04 0.000000 / WARNING! Added a dummy 'projection' value YOFFSET (R4) = 2.6664753E-05 0.000000 / WARNING! Added a dummy 'projection' value