HSCデータのヘッダキーワード FORTRANフォーマット 検討の詳細ノート draft 2015.9.18b furusawa.h v1 2015.9.24c 提案の方針は以下による 1. 基本キーワードは、現行辞書に問題ない限りそれに合わせる 現行辞書に問題ある場合は、提案を示し、その旨を記載する。 2. 装置固有キーワードは現在のHSCヘッダと現行のSuprime-Cam辞書の 類似のキーワード定義を参考にして提案する 辞書の変更について Basic Dictionaryに存在しない新規キーワード - LONPOLE - RADESYS Basic Dictionaryの変更が必要なキーワード - OBJECT 将来的に文字数制限を緩和する可能性はあるが、 現状はA30に合わせるべきとした 1. 基本 (Basic) キーワード 共同利用開始以降、2015-08-07UT現在までHSCのヘッダに含まれる すばる基本ヘッダ辞書キーワード。 以下のリストでは、 KeyWordからBasicFormatFまではBasic dictionaryの情報、 STARS SupCamは、参考までにSTARS登録フォーマット(1999.2.3版; http://www2.subaru.nao.ac.jp/fits/STARS_F.txt) 最後のカラムがHSC提案と注釈となっています。 HSC提案は、原則、現状のBasic Dictionaryに合わせてあります。 ================================================================= Basic STARS KeyWord Category Importance FormatF SupCam HSC(提案) ------- ------------ ------------ ------- ------ --------- ADC-END Telescope Optional F20.3 F7.3 F20.3 ADC-STR Telescope Optional F20.3 F7.3 F20.3 ADC-TYPE Telescope Optional A20 A80 A20 AIRMASS Time Common F20.3 F6.4 F20.3 ALTITUDE Telescope Optional F20.5 F7.3 F20.5 AZIMUTH Telescope Optional F20.5 F7.3 F20.5 BIN-FCT1 Instrument Common I20 I2 I20 BIN-FCT2 Instrument Common I20 I2 I20 BITPIX FITS Common I20 - I20 BLANK File Common I20 - I20 BSCALE File Common F20.8 - F20.8 BUNIT File Common A10 - A10 BZERO File Common F20.8 - F20.8 (*1) CD1_1 WCS Optional F20.8 - F20.8 (*1) CD1_2 WCS Optional F20.8 - F20.8 (*1) CD2_1 WCS Optional F20.8 - F20.8 (*1) CD2_2 WCS Optional F20.8 - F20.8 (*1) COMMENT Comment Optional A79 - A79 CRPIX1 File Common F20.1 F8.1 F20.1 CRPIX2 File Common F20.1 F8.1 F20.1 CRVAL1 File Common F20.8 F11.7 F20.8 CRVAL2 File Common F20.8 F11.7 F20.8 CTYPE1 File Common A10 A80 A10 (*2) CTYPE2 File Common A10 A80 A10 (*2) CUNIT1 File Common A10 A80 A10 CUNIT2 File Common A10 A80 A10 DATA-TYP Object Common A30 A80 A30 DATASET Object Object A20 A80 A20 DATE-OBS Time Common A10 A80 A10 DEC Object Common A12 A80 A12 DEC2000 Object Common A12 A80 A12 DET-ID Instrument Optional I20 I2 I20 DET-TMAX Instrument Optional F20.2 F6.2 F20.2 DET-TMED Instrument Optional F20.2 F6.2 F20.2 DET-TMIN Instrument Optional F20.2 F6.2 F20.2 DET-TMP Instrument Common F20.2 F6.2 F20.2 DET-VER Instrument Optional A30 - A30 DETECTOR Instrument Common A20 A80 A20 DOM-HUM Environment Optional F20.1 F5.1 F20.1 DOM-PRS Environment Optional F20.2 F7.2 F20.2 DOM-TMP Environment Optional F20.2 F6.2 F20.2 DOM-WND Environment Optional F20.2 F5.2 F20.2 EQUINOX Object Common F20.1 F6.1 F20.1 EXP-ID Instrument Common A12 A80 A12 EXPTIME Time Common F20.2 F7.1 F20.2 EXTEND FITS Common BOOLEAN - BOOLEAN FILTER01 Instrument Optional A30 A80 A30 FOC-POS Origin Common A12 A80 A12 FOC-VAL Origin Common F20.3 F10.3 F20.3 FRAMEID Instrument Common A12 A16 A12 GAIN Instrument Common F20.3 F6.3 F20.3 HST Time Common A12 A80 A12 HST-END Time Optional A12 A80 A12 HST-STR Time Optional A12 A80 A12 INR-END Telescope Optional F20.3 F8.3 F20.3 INR-STR Telescope Optional F20.3 F8.3 F20.3 INS-VER Instrument Optional A30 A80 A30 INST-PA Instrument Optional F20.3 - F20.3 INSTRUME Instrument Common A20 - A20 LONPOLE WCS Imaging F20.1 F6.1 F20.1 (*3) LST Time Common A12 A80 A12 LST-END Time Optional A12 A80 A12 LST-STR Time Optional A12 A80 A12 M2-ANG1 Telescope Optional F20.3 - F20.3 (*5) M2-ANG2 Telescope Optional F20.3 - F20.3 (*5) M2-ANG3 Telescope Optional F20.3 - F20.3 (*5) M2-POS1 Telescope Optional F20.3 - F20.3 (*6) M2-POS2 Telescope Optional F20.3 - F20.3 (*6) M2-POS3 Telescope Optional F20.3 - F20.3 (*6) MJD Time Common F20.8 F12.6 F20.8 MJD-END Time Optional F20.8 F12.6 F20.8 MJD-STR Time Optional F20.8 F12.6 F20.8 NAXIS FITS Common I20 I1 I20 NAXIS1 FITS Common I20 I5 I20 NAXIS2 FITS Common I20 I5 I20 OBJECT Object Common A30 A80 A30 (*7)(*8) OBS-ALOC Telescope Common A12 A80 A12 OBS-MOD Instrument Common A30 A80 A30 OBSERVAT Origin Common A20 - A20 OBSERVER Origin Common A50 A80 A50 (*8) OUT-HUM Environment Optional F20.1 F5.1 F20.1 OUT-PRS Environment Optional F20.2 F7.2 F20.2 OUT-TMP Environment Optional F20.2 F6.2 F20.2 OUT-WND Environment Optional F20.2 F5.2 F20.2 PROP-ID Origin Common A8 A8 A8 RA Object Common A12 A80 A12 RA2000 Object Common A12 A80 A12 RADESYS Object Common A8 - A8 (*4) SECZ-END Time Optional F20.3 F6.3 F20.3 SECZ-STR Time Optional F20.3 F6.3 F20.3 SEEING Environment Optional F20.2 F5.2 F20.2 SIMPLE FITS Common BOOLEAN - BOOLEAN TELESCOP Origin Common A30 - A30 TELFOCUS Telescope Common A30 A80 A30 TIMESYS Time Common A8 - A8 UT Time Common A12 A80 A12 UT-END Time Optional A12 A80 A12 UT-STR Time Optional A12 A80 A12 WCS-ORIG WCS Imaging A20 A80 A20 WEATHER Environment Optional A30 A80 A30 ZD-END Time Optional F20.5 F6.3 20.5 ZD-STR Time Optional F20.5 F6.3 20.5 ================================================================ (*1) We prefer to use the formalism with CD, rather than the combination of PC and CDELT. FITS Standard 3.0, section 8.1 requires that CDELT should be ignored by software which supports CD. Although the FITS Standard allows coexistence of CDELT and CD, to avoid any confusion, we do not include CDELT. FITS Standard 3.0, section 8.2 does not allow coexistence of CD and PC. So, we do not include PC, either. 'Basic dictionary' should require existence of one of the two conventions of [CD] or [PC and CDELT], rather than setting CDELT and PC as Common and Imaging (*2) This should be ok now. In the future, if a new convention like 'TAN-SIP' are approved by the FITS Standard and we decide to go for it, the 'Basic dictionary' should also updated to accept the expanded number of characters. (*3) LONGPOLE is not defined FITS Standard 3.0. Instead we use LONPOLE. Transition from LONGPOLE to LONPOLE is done from HSCA00495400 (2014-07-06UT) 'Basic dictionary' should be update to follow this change. (*4) RADECSYS is deprecated in FITS Standard 3.0. Instead we use RADESYS. Transition from RADECSYS to RADESYS is done from HSCA00464600 (2014-07-05UT) 'Basic dictionary' should be update to follow this change. (*5) corresponds to 0.6 arcsec precision. seems to be enough. all agree? (*6) corresponds to 1 micron precision. seems to be enough. all agree? (*7) I just put A30 to follow the Basic dictionary, but might be helpful to extend it to A50 both in the HSC dictionary and the Basic dictionary, which is the maximum number of characters allowed in the Basic dictionary for regular keywords except 'COMMENT' and 'HISTORY'. We should not allow CONTINUE unless the formarism with it is defined in FITS Standard. (*8) Note that CONTINUE and HIERARCH cards are under review and not allowed in FITS Standard 3.0. (http://fits.gsfc.nasa.gov/registry/continue_keyword.html, http://fits.gsfc.nasa.gov/registry/hierarch_keyword.html) So, currently, we should not allow any keywords exceeding a 80-byte line, as well as any keywords with more than 8 characters. HIERARCH T_NFRAMES (2014-02-07UT) should be simply ignored or replaced with T_NFRAME. 2. 装置固有 (HSC) キーワード 共同利用開始以降、2015-08-07UT現在までHSCのヘッダに含まれる装置固有キーワード。 以下のリストでは HSC Keywordはキーワード名、 SupFormatは、類似のキーワードがSuprime-Cam辞書(2009/12/22版)で 定義されている場合のそのフォーマット、 HSCFormatからUnitまでが、HSCキーワードのフォーマット定義(提案)、 Commentは、comment部の提案(単位除く)と提案の注釈 となっています。 ================================================================================== HSC Sup HSC KeyWord Format Format Type Unit Comment ------- ------- ------- --------- ----- ------------------------------------- T_AG - - BOOLEAN - AG Exposure T_BEEID - I1 INTEGER - ID for BEE used for CCD readout T_CCDID - A20 CHARACTER - Name of CCD (*1) T_CCDSN - A20 CHARACTER - CCD Serial Number (*2) T_CCDTM - A12 CHARACTER - CCD Temperature retrieve time (*3) T_CCDTV - F20.2 REAL degC CCD Temperature value T_CFGFIL - A20 CHARACTER - Configuration for formatting FITS data (*4) T_DATSET - A30 CHARACTER - Dataset to which this exposure belongs (*5) T_EFMN11 I4 I4 INTEGER pixel MIN pixel of x-effective range for ch1 T_EFMN12 I4 I4 INTEGER pixel MIN pixel of y-effective range for ch1 T_EFMN21 I4 I4 INTEGER pixel MIN pixel of x-effective range for ch2 T_EFMN22 I4 I4 INTEGER pixel MIN pixel of y-effective range for ch2 T_EFMN31 I4 I4 INTEGER pixel MIN pixel of x-effective range for ch3 T_EFMN32 I4 I4 INTEGER pixel MIN pixel of y-effective range for ch3 T_EFMN41 I4 I4 INTEGER pixel MIN pixel of x-effective range for ch4 T_EFMN42 I4 I4 INTEGER pixel MIN pixel of y-effective range for ch4 T_EFMX11 I4 I4 INTEGER pixel MAX pixel of x-effective range for ch1 T_EFMX12 I4 I4 INTEGER pixel MAX pixel of y-effective range for ch1 T_EFMX21 I4 I4 INTEGER pixel MAX pixel of x-effective range for ch2 T_EFMX22 I4 I4 INTEGER pixel MAX pixel of y-effective range for ch2 T_EFMX31 I4 I4 INTEGER pixel MAX pixel of x-effective range for ch3 T_EFMX32 I4 I4 INTEGER pixel MAX pixel of y-effective range for ch3 T_EFMX41 I4 I4 INTEGER pixel MAX pixel of x-effective range for ch4 T_EFMX42 I4 I4 INTEGER pixel MAX pixel of y-effective range for ch4 T_GAIN1 F6.3 F6.3 REAL e/ADU Gain for channel 1 T_GAIN2 F6.3 F6.3 REAL e/ADU Gain for channel 2 T_GAIN3 F6.3 F6.3 REAL e/ADU Gain for channel 3 T_GAIN4 F6.3 F6.3 REAL e/ADU Gain for channel 4 T_HEDVER - A30 CHARACTER - Header Version (*6) T_M2OFF1 F6.3 F6.3 REAL mm Stewart Platform offset in x T_M2OFF2 F6.3 F6.3 REAL mm Stewart Platform offset in y T_M2OFF3 F6.3 F6.3 REAL mm Stewart Platform offset in z T_NFRAME - I3 INTEGER - Number of total frames T_OSMN11 I4 I4 INTEGER pixel MIN pixel of x-overscan region for ch1 T_OSMN12 I4 I4 INTEGER pixel MIN pixel of y-overscan region for ch1 T_OSMN21 I4 I4 INTEGER pixel MIN pixel of x-overscan region for ch2 T_OSMN22 I4 I4 INTEGER pixel MIN pixel of y-overscan region for ch2 T_OSMN31 I4 I4 INTEGER pixel MIN pixel of x-overscan region for ch3 T_OSMN32 I4 I4 INTEGER pixel MIN pixel of y-overscan region for ch3 T_OSMN41 I4 I4 INTEGER pixel MIN pixel of x-overscan region for ch4 T_OSMN42 I4 I4 INTEGER pixel MIN pixel of y-overscan region for ch4 T_OSMX11 I4 I4 INTEGER pixel MAX pixel of x-overscan region for ch1 T_OSMX12 I4 I4 INTEGER pixel MAX pixel of y-overscan region for ch1 T_OSMX21 I4 I4 INTEGER pixel MAX pixel of x-overscan region for ch2 T_OSMX22 I4 I4 INTEGER pixel MAX pixel of y-overscan region for ch2 T_OSMX31 I4 I4 INTEGER pixel MAX pixel of x-overscan region for ch3 T_OSMX32 I4 I4 INTEGER pixel MAX pixel of y-overscan region for ch3 T_OSMX41 I4 I4 INTEGER pixel MAX pixel of x-overscan region for ch4 T_OSMX42 I4 I4 INTEGER pixel MAX pixel of y-overscan region for ch4 T_PNTGID - A50 CHARACTER - Pointing ID of this exposure (*7) T_PROG - A20 CHARACTER - Name of research program T_PURPOS - A30 CHARACTER - Purpose of this exposure (*8) T_SDOID - I3 INTEGER - SDO-ID of CCD T_SHTDIR - I1 INTEGER - Which screen moved on this exposure (*9) T_UFNAME A40 A50 CHARACTER - Original filename (*10) T_XFLIP - - BOOLEAN - CCD readout is x-flipped when create image T_YFLIP - - BOOLEAN - CCD readout is y-flipped when create image ================================================================================== (*1) slightly large bit (20) is set to allow possible long CCD names in the future (*2) slightly large bit (20) is set to allow possible long serial numbers in the future (*3) slightly large bit (12) (in the same manner as HST etc.) to allow to record sub-seconds in the future (*4) slightly large bit (20) is set to allow a possible long name of a configuration file. (*5) slightly large bit (30) is set to allow a detailed description of dataset (*6) This keyword currently has a date in the comment part, but better to be included the value. So, I set slightly large bit (30) and suggest to make the comment static. (*7) This keyword sometimes has long words to describe a dithering pattern. So A50 is set in the same manner as the other basic keyword. (*8) slightly large bit (30) is set to allow a possible combination of multiple purposes. (*9) slightly large bit (30) is set to allow possible long words by combination of multiple purpose. (*10) A50 is set as the large bit to allow possible various long path names. Appendix. ヘッダ例 2015-08-07UTのエンジニアリングデータ キーワード値は上記のフォーマットに沿っていないものが多数あるため、 辞書に沿うように変更することと、またComment部への単位の記載や体裁に 今後、一部改善が必要です。 現在分っているComment部の未修整点 1. CRPIX[1-2] (pixel) 単位をsquare bracket括りに変更 2. DATE-OBS 単位に[UTC]を記載する 3. DET-ID ダブルクォーテーションを取る 4. EXPTIME 単位を加える [sec] 5. FRAMEID コメントからパスを外し固定する 6. INST-PA 単位を加える [degree] その他単位がIAU recommendationのbasic unitに 沿っていないキーワードがあるが、これらの修正は 引き続き検討する。 7. DET-TMP [celsius degree] 8. T_CCDTV [celsius degree] 12345678901234567890123456789012345678901234567890123456789012345678901234567890 SIMPLE = T / conforms to FITS standard BITPIX = 16 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 2144 / length of data axis 1 NAXIS2 = 4241 / length of data axis 2 EXTEND = F / FITS dataset may contain extensions BUNIT = 'ADU ' / Unit of original pixel value BSCALE = 1.0 / Default scaling factor BZERO = 32768 / Offset data range to that of unsigned short BLANK = -32768 / Value used for NULL pixels TIMESYS = 'UTC ' / Time System used in the header DATE-OBS= '2015-08-07' / Observation start date (yyyy-mm-dd) UT-STR = '07:58:28.483' / HH:MM:SS.S UTC at the start exposure time HST-STR = '21:58:28.483' / HH:MM:SS.S HST at the beginning of exp. LST-STR = '18:38:40.028' / HH:MM:SS.SSS LST at the beginning of exposure MJD-STR = 57241.33227411006 / [d] Mod.Julian Date at the start of exposure UT = '07:58:28.512' / HH:MM:SS.S typical UTC at the exposure (middle HST = '21:58:28.512' / HH:MM:SS.S Typical HST at exposure LST = '18:38:40.058' / HH:MM:SS.SSS Typical LST at exposure MJD = 57241.33227444766 / [d] Mod. Julian Date at typical time UT-END = '07:58:35.327' / HH:MM:SS.S UTC at the end of the exposure HST-END = '21:58:35.327' / HH:MM:SS.S HST at the end of exposure LST-END = '18:38:46.891' / HH:MM:SS.SSS LST at the end of exposure MJD-END = 57241.33235332556 / [d] Mod.Julian Date at the end of exposure ZD-STR = 30.12850979 / [degree] Zenith Distance at exposure start tim ZD-END = 30.1305007 / [degree] Zenith Distance at exposure end time SECZ-STR= 1.156 / SEC(Zenith Distance) at exposure start time SECZ-END= 1.156 / SEC(Zenith Distance) at exposure end time AIRMASS = 1.155844137102577 / Average airmass during exposure AZIMUTH = 355.74241156 / [degree] Azimuth of tel-pointing. 0:S->90:W ALTITUDE= 59.87145029 / [degree] Altitude ang. of telescope pointing PROP-ID = 'o15015 ' / Proposal ID OBSERVER= '"Komiyama, Kawanomoto @Mitaka, Nakata@Hilo, Utsumi@Hirshima"' / Nam FRAMEID = 'HSCA03698353' / /raid/S15B/20150806/object044_1_53.fits EXP-ID = 'HSCA03698200' / First frame ID DATASET = 'NODATA ' / ID of dataset this data were taken OBS-MOD = 'IMAG ' / Observation Mode OBS-ALOC= 'Observation' / Allocation Mode DATA-TYP= 'OBJECT ' / Characteristics of this data OBJECT = 'HSCPA: Az=-180.0 El=60.0 PA=+360.0' / Object RA = '18:24:59.907' / Right ascension of telescope pointing DEC = '+49:49:32.10' / Declination of telescope pointing RA2000 = '18:24:59.907' / Right ascension of telescope pointing (J2000) DEC2000 = '+49:49:32.10' / Declination of telescope pointing (J2000) RADESYS = 'FK5 ' / The equatorial coordinate system EQUINOX = 2000.0 / [y] Equinox CTYPE1 = 'RA---TAN' / Pixel coordinate system CRPIX1 = -13834.167 / Reference pixel in x (pixel) CRVAL1 = 276.2496125 / Physical value of the reference pixel in x CUNIT1 = 'degree ' / Units used in both CRVAL1 and CD matrix CTYPE2 = 'DEC--TAN' / Pixel coordinate system CRPIX2 = -4542.167 / Reference pixel in y (pixel) CRVAL2 = 49.8255833333 / Physical value of the reference pixel in y CUNIT2 = 'degree ' / Units used in both CRVAL2 and CD matrix CD1_1 = 2.89152716465347E-21 / Pixel Coordinate transformation matrix CD1_2 = 4.72222222222222E-05 / Pixel Coordinate transformation matrix CD2_1 = -4.7222222222222E-05 / Pixel Coordinate transformation matrix CD2_2 = 2.89152716465347E-21 / Pixel Coordinate transformation matrix LONPOLE = 180.0 / [degree] The North Pole of standard system WCS-ORIG= 'Rough estimation' / Origin/quality of the WCS values OBSERVAT= 'NAOJ ' / Observatory TELESCOP= 'Subaru ' / Telescope name FOC-POS = 'PRIME ' / Position of the instrument focus unit TELFOCUS= 'P_OPT2 ' / The Focus where beam reaches FOC-VAL = 3.74 / [mm] Encoder value of the focus unit FILTER01= 'HSC-Y ' / Filter barcode EXPTIME = 5.0 / Exposure time INSTRUME= 'Hyper Suprime-Cam' / Name of instrument DETECTOR= 'notSet ' / Name of the detector/CCD DET-ID = 0 / "Sequential number assgined for the entire CCDs DET-TMP = -100.439 / CCD Temperature value [celsius degree] DET-TMED= 0.0 / [Kelvin] Median of the detector temperature DET-TMIN= 0.0 / [Kelvin] Minimum of the detector temperature DET-TMAX= 0.0 / [Kelvin] Maximum of the detector temperature GAIN = 0.0 / AD conversion factor (electron/ADU) BIN-FCT1= 1 / Binning factor of axis 1 BIN-FCT2= 1 / Binning factor of axis 2 DET-VER = 'notSet ' / Version of the detector control command INS-VER = 'notSet ' / Version of the instrument (hard/soft) WEATHER = 'Fine ' / Weather condition SEEING = 0.0 / [arcsec] FWHM of the star at telescope focus ADC-TYPE= 'LINK ' / ADC state ADC-STR = 0.0 / [degree] ADC pos. ang. at the start of exposur ADC-END = 0.0 / [degree] ADC pos. ang. at the end of exposure INR-STR = 173.769254 / [degree] Inst. rotator angle at start INR-END = 173.769254 / [degree] Inst. rotator angle at end DOM-WND = 0.2 / [m/s] Wind speed in the dome/enclosure OUT-WND = 3.6 / [m/s] Wind speed outside dome/enclosure DOM-TMP = 277.65 / [Kelvin] Atm. temp. in the dome/enclosure OUT-TMP = 276.05 / [Kelvin] Atm. temp. outside the dome/encl. DOM-HUM = 54.7 / [%] Humidity in the dome OUT-HUM = 62.5 / [%] Humidity outside the dome/encl. DOM-PRS = 623.2 / [hPa] Atm. pressure in the dome OUT-PRS = 623.2 / [hPa] Atm. press. outside the dome/encl. INST-PA = 0.0 / Position Angle of the Instrument Flange M2-POS1 = -2.895806 / [mm] Stewart Platform x-value M2-POS2 = -4.515715 / [mm] Stewart Platform y-value M2-POS3 = 4.848842 / [mm] Stewart Platform z-value M2-ANG1 = 0.750132 / [arcmin] Stewart Platform x-rotation angle M2-ANG2 = 2.250012 / [arcmin] Stewart Platform y-rotation angle M2-ANG3 = -8.1E-05 / [arcmin] Stewart Platform z-rotation angle COMMENT ------------------------------------------------------------ COMMENT ------------- PARAMETERS FOR HYPER SUPRIME_CAM ------------- COMMENT ------------------------------------------------------------ T_M2OFF1= -1.8 / [mm] Stewart Platform offset in x T_M2OFF2= -2.6 / [mm] Stewart Platform offset in y T_M2OFF3= 3.74 / [mm] Stewart Platform offset in z T_PROG = 'NODATA ' / Name of research program T_PNTGID= 'NODATA ' / Pointing ID of this exposure T_PURPOS= 'NODATA ' / Purpose of this exposure T_DATSET= 'NODATA ' / Dataset to which this exposure belongs T_SHTDIR= 2 / The number shows which screen did move on this T_AG = F / AG Exposure T_UFNAME= '/raid/S15B/20150806/object044_1_53.fits' / Original filename T_NFRAME= 112 / "Number of total frames" T_GAIN2 = 3.17 / "Gain for channel 2" T_GAIN1 = 3.36 / "Gain for channel 1" T_GAIN4 = 3.33 / "Gain for channel 4" T_GAIN3 = 3.31 / "Gain for channel 3" T_XFLIP = F / "CCD readout is x-flipped when create image" T_CCDID = 'undefined' / "Name of CCD" T_CCDSN = '126 ' / "CCD Serial Number" T_YFLIP = F / "CCD readout is y-flipped when create image" T_CCDTV = -100.439 / CCD Temperature value [celsius degree] T_CCDTM = '21:55:24' / CCD Temperature retrieve time T_HEDVER= '116 CCDs for Summit4' / 2014/03/06 Updated by Utsumi, Y. T_CFGFIL= '20140306.cfg' / Configuration for formatting FITS data T_BEEID = 1 / ID for BEE used for CCD readout T_SDOID = 53 / SDO-ID of CCD T_OSMN11= 521 / MIN pixel of x-overscan region for ch1 T_OSMX11= 536 / MAX pixel of x-overscan region for ch1 T_EFMN11= 9 / MIN pixel of x-effective range for ch1 T_EFMX11= 520 / MAX pixel of x-effective range for ch1 T_OSMN12= 4226 / MIN pixel of y-overscan region for ch1 T_OSMX12= 4241 / MAX pixel of y-overscan region for ch1 T_EFMN12= 50 / MIN pixel of y-effective range for ch1 T_EFMX12= 4225 / MAX pixel of y-effective range for ch1 T_OSMN21= 537 / MIN pixel of x-overscan region for ch2 T_OSMX21= 552 / MAX pixel of x-overscan region for ch2 T_EFMN21= 553 / MIN pixel of x-effective range for ch2 T_EFMX21= 1064 / MAX pixel of x-effective range for ch2 T_OSMN22= 4226 / MIN pixel of y-overscan region for ch2 T_OSMX22= 4241 / MAX pixel of y-overscan region for ch2 T_EFMN22= 50 / MIN pixel of y-effective range for ch2 T_EFMX22= 4225 / MAX pixel of y-effective range for ch2 T_OSMN31= 1593 / MIN pixel of x-overscan region for ch3 T_OSMX31= 1608 / MAX pixel of x-overscan region for ch3 T_EFMN31= 1081 / MIN pixel of x-effective range for ch3 T_EFMX31= 1592 / MAX pixel of x-effective range for ch3 T_OSMN32= 4226 / MIN pixel of y-overscan region for ch3 T_OSMX32= 4241 / MAX pixel of y-overscan region for ch3 T_EFMN32= 50 / MIN pixel of y-effective range for ch3 T_EFMX32= 4225 / MAX pixel of y-effective range for ch3 T_OSMN41= 1609 / MIN pixel of x-overscan region for ch4 T_OSMX41= 1624 / MAX pixel of x-overscan region for ch4 T_EFMN41= 1625 / MIN pixel of x-effective range for ch4 T_EFMX41= 2136 / MAX pixel of x-effective range for ch4 T_OSMN42= 4226 / MIN pixel of y-overscan region for ch4 T_OSMX42= 4241 / MAX pixel of y-overscan region for ch4 T_EFMN42= 50 / MIN pixel of y-effective range for ch4 T_EFMX42= 4225 / MAX pixel of y-effective range for ch4 END (ENDを除いて161個)