XTENSION= 'BINTABLE' / FITS Binary Table Extension BITPIX = 8 / NAXIS = 2 / NAXIS1 = 128 / NAXIS2 = 24 / PCOUNT = 0 / GCOUNT = 1 / TFIELDS = 10 / EXTNAME = 'FLAG ' / EXTVER = 1 / TTYPE1 = 'SOURCE_ID' / source id number from source tbl TFORM1 = '1J ' / TTYPE2 = 'ARRAY ' / ???? TFORM2 = '1J ' / TTYPE3 = 'ANTS ' / antenna id from antennas tbl TFORM3 = '2J ' / TUNIT3 = ' ' / TTYPE4 = 'FREQID ' / freq id number from frequency tbl TFORM4 = '1J ' / TTYPE5 = 'TIMERANG' / time flag condition begins, ends TFORM5 = '2E ' / TUNIT5 = 'DAYS ' / TTYPE6 = 'BANDS ' / true if the baseband is bad TFORM6 = '8J ' / TTYPE7 = 'CHANS ' / channel range to be flagged TFORM7 = '2J ' / TTYPE8 = 'PFLAGS ' / flag array for polarization TFORM8 = '4J ' / TTYPE9 = 'REASON ' / reason for data to be flagged bad TFORM9 = '40A ' / TTYPE10 = 'SEVERITY' / severity code TFORM10 = '1J ' / OBSCODE = 'RDV60 ' / Proposal code RDATE = '2006-12-07' / Reference date NO_STKD = 1 / Nmbr stokes STK_1 = -1 / First stokes NO_BAND = 8 / Number of basebands NO_CHAN = 64 / Number of channels REF_FREQ= 8.40599000000000000E+09 / Frequency reference CHAN_BW = 1.25000000000000000E+05 / Channel bandwidth REF_PIXL= 6.25000000000000000E-01 / TABREV = 2 / END ? x:? |oSystem idle? yf? }Source change in progress? yf? Antenna off source? x:? System idle? ? Subreflector error? ? Source change in progress? ? Antenna off source? x:? |xSystem idle? yo? }Source change in progress? yo? Antenna off source? x:? |xSystem idle? yo? }Source change in progress? yo? ʃAntenna off source? x:? |xSystem idle? yo? }Source change in progress? yo? Antenna off source ? x:? |oSystem idle ? yf? }%Source change in progress ? z? }Synthesizer 1 unlocked ? yf? qAntenna off source ? x:? +System idle ? ? Subreflector error ? ? Source change in progress ? ? Antenna off sourceXTENSION= 'BINTABLE' / FITS Binary Table Extension BITPIX = 8 / NAXIS = 2 / NAXIS1 = 92 / NAXIS2 = 38 / PCOUNT = 0 / GCOUNT = 1 / TFIELDS = 8 / EXTNAME = 'SYSTEM_TEMPERATURE' / EXTVER = 1 / TTYPE1 = 'TIME ' / time of center of interval TFORM1 = '1D ' / TUNIT1 = 'DAYS ' / TTYPE2 = 'TIME_INTERVAL' / time span of datum TFORM2 = '1E ' / TUNIT2 = 'DAYS ' / TTYPE3 = 'SOURCE_ID' / source id number from source tbl TFORM3 = '1J ' / TTYPE4 = 'ANTENNA_NO' / antenna id from array geom. tbl TFORM4 = '1J ' / TTYPE5 = 'ARRAY ' / ???? TFORM5 = '1J ' / TTYPE6 = 'FREQID ' / freq id number from frequency tbl TFORM6 = '1J ' / TTYPE7 = 'TSYS_1 ' / system temperature TFORM7 = '8E ' / TUNIT7 = 'K ' / TTYPE8 = 'TANT_1 ' / antenna temperature TFORM8 = '8E ' / TUNIT8 = 'K ' / OBSCODE = 'RDV60 ' / Proposal code RDATE = '2006-12-07' / Reference date NO_STKD = 1 / Nmbr stokes STK_1 = -1 / First stokes NO_BAND = 8 / Number of basebands NO_CHAN = 64 / Number of channels REF_FREQ= 8.40599000000000000E+09 / Frequency reference CHAN_BW = 1.25000000000000000E+05 / Channel bandwidth REF_PIXL= 6.25000000000000000E-01 / NO_POL = 1 / TABREV = 1 / END ?@< : aB[UBUB]jBfB UB}A"B?Kb: aBY)BTsB[ygBe B &BAXB,?V: aBXVBSDBYBcHB eB+AnBn?b^ƃ: aBV&BQBW0Bb9B BօA˨B^??<j:BB}BB B.ʢB B"=B9?D: aBB~BB{B.BPB!pB9{?PS: aBRNB}[B~WBTB-xBSXB +B8,?[sM%: aB}B}?9BBB-2BB B7N?9}9~ܻBO2qBg$BрBifBBgs4BwYBa?@< : aBLͯBd{B/BpBBe4!Bv. B?Kb: aBJ6Bb)BY BFB8Bf3B{g5B?V: aBHB`B|BLBBqBx[B?b^ƃ: aBFB^B3BwaC TBwBrhB?9N96 aB;bBBBBLiBYXB bB/|BzBd?@< : aB8BBBLIBYB B,Bv)BG?Kb: aB7[B@BJĔBXB ZB,BvFB p?V: aB5}B? BIlBVB XB,!TBu%AB:?b^ƃ: aB4a?B=@BGBU B B*=BtB1?6ٸ:ldBiB`)BBEB kB,.B GB5 @?@< : aBjIB`=B BB{B+fBB7?Kb: aBj5BaB%BiBokB-(B >B7 ?V: aBj$BaBfBBYB-B !B7Ui?b^ƃ: aBj6BaCBwB4EBD(B/dB!B9 N?0OG9 BB#B$ B,VB1B6QVB[B<6?7-: a BB9?Z<: a BDB"B#+v,?PS: a B^HBchaBp^BsBcB>BXB?6?[sM%: a B^bUBcbBp;xBrY-B_B?BXB>1XTENSION= 'BINTABLE' / FITS Binary Table Extension BITPIX = 8 / NAXIS = 2 / NAXIS1 = 484 / NAXIS2 = 23 / PCOUNT = 0 / GCOUNT = 1 / TFIELDS = 12 / EXTNAME = 'PHASE-CAL' / EXTVER = 1 / TTYPE1 = 'TIME ' / time of center of interval TFORM1 = '1D ' / TUNIT1 = 'DAYS ' / TTYPE2 = 'TIME_INTERVAL' / time span of datum TFORM2 = '1E ' / TUNIT2 = 'DAYS ' / TTYPE3 = 'SOURCE_ID' / source id number from source tbl TFORM3 = '1J ' / TTYPE4 = 'ANTENNA_NO' / antenna id from array geom. tbl TFORM4 = '1J ' / TTYPE5 = 'ARRAY ' / ???? TFORM5 = '1J ' / TTYPE6 = 'FREQID ' / freq id number from frequency tbl TFORM6 = '1J ' / TTYPE7 = 'CABLE_CAL' / cable length calibration TFORM7 = '1D ' / TUNIT7 = 'SECONDS ' / TTYPE8 = 'STATE_1 ' / state counts (4 per baseband) TFORM8 = '32E ' / TTYPE9 = 'PC_FREQ_1' / Pcal recorded frequency TFORM9 = '16D ' / TUNIT9 = 'Hz ' / TTYPE10 = 'PC_REAL_1' / Pcal real TFORM10 = '16E ' / TTYPE11 = 'PC_IMAG_1' / Pcal imag TFORM11 = '16E ' / TTYPE12 = 'PC_RATE_1' / Pcal rate TFORM12 = '16E ' / OBSCODE = 'RDV60 ' / Proposal code RDATE = '2006-12-07' / Reference date NO_STKD = 1 / Nmbr stokes STK_1 = -1 / First stokes NO_BAND = 8 / Number of basebands NO_CHAN = 64 / Number of channels REF_FREQ= 8.40599000000000000E+09 / Frequency reference CHAN_BW = 1.25000000000000000E+05 / Channel bandwidth REF_PIXL= 6.25000000000000000E-01 / NO_TONES= 2 / NO_POL = 1 / TABREV = 2 / END ?B_*:b=>МAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ;߼:b=9cAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ;{O:b= ZGhAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ<>9yz^;8̺&b; _{D:^$;tٻhh;r`BՖ<]TͬgAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ9B'H;;$OF(ͣK?;sW2;;E9hJH;h;+VhgAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬԭF9 ;~Y;S;Y] ĺ L;;;Q;1F0G;s;+-<"}<#:;^rK:: }889˔uXK; ;;s빍H9ZL;??Z:b>Y APAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ-A: ż;h;ʡ# Nٻ$=;x;5Z;l&C9(;q;&C<#<<#XL:U?t@La::f8p?98t; ;ﻹ9ؓ?@{:b=|G4\APAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ2j,QAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ/ BL3EpAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ*<<<<_ř;8<*NN<[mP:cw2=aH4HHAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ㰼v<<5OAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ< <<<_;2\!{r<8<ǻS v_?BW5:b >v9APAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬf=d<>nE<$Lu%<‰;Dˑ#qٽAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬǷ=<+6A9 <[MXvT<¨;bZ<bD[APAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ`=]<鼏nӼ’o<GͶv <;˳<5뼨K 5g'&APAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ >rAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ<~ߜp?} Bs4APAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ Fe^ސAPAUZAWAB_BbBxBBSAAଥpATxAAAᑇ/A#gAᷬ?C?YpV?ffDSP@QA?YpV@DtF?33?j/C?YpVA+33DKe/fff@8h7C?YpVLDK >_B?YpV@D$D{@MB?YpV aD|~33@pIC?YpV `D^wC?YpV AD~$ZA33@̩BXTENSION= 'BINTABLE' / FITS Binary Table Extension BITPIX = 8 / NAXIS = 2 / NAXIS1 = 588 / NAXIS2 = 9 / PCOUNT = 0 / GCOUNT = 1 / TFIELDS = 11 / EXTNAME = 'GAIN_CURVE' / EXTVER = 1 / TTYPE1 = 'ANTENNA_NO' / antenna id from array geom. tbl TFORM1 = '1J ' / TUNIT1 = ' ' / TTYPE2 = 'ARRAY ' / ???? TFORM2 = '1J ' / TTYPE3 = 'FREQID ' / freq id number from frequency tbl TFORM3 = '1J ' / TUNIT3 = ' ' / TTYPE4 = 'TYPE_1 ' / gain curve type TFORM4 = '8J ' / TUNIT4 = ' ' / TTYPE5 = 'NTERM_1 ' / number of terms TFORM5 = '8J ' / TUNIT5 = ' ' / TTYPE6 = 'X_TYP_1 ' / abscissa type of plot TFORM6 = '8J ' / TUNIT6 = ' ' / TTYPE7 = 'Y_TYP_1 ' / second axis of 3d plot TFORM7 = '8J ' / TUNIT7 = ' ' / TTYPE8 = 'X_VAL_1 ' / For tabulated curves TFORM8 = '8E ' / TUNIT8 = ' ' / TTYPE9 = 'Y_VAL_1 ' / For tabulated curves TFORM9 = '48E ' / TUNIT9 = ' ' / TTYPE10 = 'GAIN_1 ' / Gain curve TFORM10 = '48E ' / TUNIT10 = ' ' / TTYPE11 = 'SENS_1 ' / Sensitivity TFORM11 = '8E ' / TUNIT11 = 'Kelvin/Jy' / OBSCODE = 'RDV60 ' / Proposal code RDATE = '2006-12-07' / Reference date NO_STKD = 1 / Nmbr stokes STK_1 = -1 / First stokes NO_BAND = 8 / Number of basebands NO_CHAN = 64 / Number of channels REF_FREQ= 8.40599000000000000E+09 / Frequency reference CHAN_BW = 1.25000000000000000E+05 / Channel bandwidth REF_PIXL= 6.25000000000000000E-01 / NO_POL = 1 / NO_TABS = 6 / TABREV = 1 / END ????????=S=S=S=S====????????=====}=}=}=}????????=====y#=y#=y#=y#????????=====T=T=T=T????????=`=`=`=`=O=O=O=O????????=;d=;d=;d=;d={={={={ ????????=G=G=G=G=ȴ9=ȴ9=ȴ9=ȴ9 ????????======== ????????=/=/=/=/={={={={