XTENSION= 'BINTABLE'           / binary table extension                         
BITPIX  =                    8 / 8-bit bytes                                    
NAXIS   =                    2 / 2-dimensional binary table                     
NAXIS1  =                   88 / width of table in bytes                        
NAXIS2  =                  993 / number of rows in table                        
PCOUNT  =                    0 / size of special data area                      
GCOUNT  =                    1 / one data group (required keyword)              
TFIELDS =                    8 / number of fields in each row                   
TTYPE1  = 'TSTART  '           / label for field   1                            
TFORM1  = 'D       '           / data format of field: 8-byte DOUBLE            
TTYPE2  = 'TSTOP   '           / label for field   2                            
TFORM2  = 'D       '           / data format of field: 8-byte DOUBLE            
TTYPE3  = 'BARYCORR'           / label for field   3                            
TFORM3  = 'E       '           / data format of field: 4-byte REAL              
TTYPE4  = 'DATE-OBS'           / label for field   4                            
TFORM4  = '24A     '           / data format of field: ASCII Character          
TTYPE5  = 'DATE-END'           / label for field   5                            
TFORM5  = '24A     '           / data format of field: ASCII Character          
TTYPE6  = 'BKG     '           / label for field   6                            
TFORM6  = 'E       '           / data format of field: 4-byte REAL              
TTYPE7  = 'QUALITY '           / label for field   7                            
TFORM7  = 'K       '           / data format of field: 8-byte INTEGER           
TTYPE8  = 'FFIINDEX'           / label for field   8                            
TFORM8  = 'K       '           / data format of field: 8-byte INTEGER           
INHERIT =                    T / inherit the primary header                     
EXTVER  =                    1 / extension version number (not format version)  
SIMDATA =                    F / file is based on simulated data                
TELESCOP= 'TESS    '           / telescope                                      
INSTRUME= 'TESS Photometer'    / detector type                                  
CAMERA  =                    1 / Camera number                                  
CCD     =                    4 / CCD chip number                                
EXPOSURE=       0.016499995962 / [d] time on source                             
TIMEREF = 'SOLARSYSTEM'        / barycentric correction applied to times        
TASSIGN = 'SPACECRAFT'         / where time is assigned                         
TIMESYS = 'TDB     '           / time system is Barycentric Dynamical Time (TDB)
BJDREFI =              2457000 / integer part of BTJD reference date            
BJDREFF =                   0. / fraction of the day in BTJD reference date     
TIMEUNIT= 'd       '           / time unit for TIME, TSTART and TSTOP           
TELAPSE =       0.020833328235 / [d] TSTOP - TSTART                             
LIVETIME=   0.0164999959621873 / [d] TELAPSE multiplied by DEADC                
TSTART  =     1468.27700852203 / observation start time in BTJD                 
TSTOP   =      1490.0475170911 / observation stop time in BTJD                  
DATE-OBS= '2018-12-15T18:37:44.352Z' / TSTART as UTC calendar date              
DATE-END= '2019-01-06T13:07:16.293Z' / TSTOP as UTC calendar date               
DEADC   =                0.792 / deadtime correction                            
TIMEPIXR=                  0.5 / bin time beginning=0 middle=0.5 end=1          
TIERRELA=             1.16E-05 / [d] relative time error                        
BTC_PIX1=                1068. / reference col for barycentric time correction  
BTC_PIX2=                1024. / reference row for barycentric time correction  
BARYCORR=           0.00554968 / [d] barycentric time correction                
INT_TIME=                 1.98 / [s] photon accumulation time per frame         
READTIME=                 0.02 / [s] readout time per frame                     
FRAMETIM=                   2. / [s] frame time (INT_TIME + READTIME)           
NUM_FRM =                  900 / number of frames per time stamp                
TIMEDEL =   0.0208333333333333 / [d] time resolution of data                    
BACKAPP =                    F / background is subtracted                       
DEADAPP =                    T / deadtime applied                               
VIGNAPP =                    T / vignetting or collimator correction applied    
GAINA   =     5.34999990463257 / [electrons/count] CCD output A gain            
GAINB   =     5.21999979019165 / [electrons/count] CCD output B gain            
GAINC   =     5.21999979019165 / [electrons/count] CCD output C gain            
GAIND   =     5.17999982833862 / [electrons/count] CCD output D gain            
READNOIA=     10.0579996109009 / [electrons] read noise CCD output A            
READNOIB=       7.464599609375 / [electrons] read noise CCD output B            
READNOIC=     7.30799961090088 / [electrons] read noise CCD output C            
READNOID=     9.16859912872314 / [electrons] read noise CCD output D            
NREADOUT=                  720 / number of read per cadence                     
FXDOFF  =              3355400 / compression fixed offset                       
TMOFST14=   0.0599999986588955 / (s) readout delay for camera 1 and ccd 4       
MEANBLCA=                 6589 / [count] FSW mean black level CCD output A      
MEANBLCB=                 6649 / [count] FSW mean black level CCD output B      
MEANBLCC=                 6427 / [count] FSW mean black level CCD output C      
MEANBLCD=                 6359 / [count] FSW mean black level CCD output D      
LVCSA   =                    1 / serial register col start, output A            
LVCEA   =                   11 / serial register col end (inclusive), output A  
TVCSA   =                 2093 / trailing virtual column start, output A        
TVCEA   =                 2103 / trailing virtual column end (inclusive), output
SCCSA   =                   45 / science col start, output A                    
SCCEA   =                  556 / science col end (inclusive), output A          
SCICOLHA=                    T / T science cols are read increasing order else d
LVCSB   =                   12 / serial register col start, output B            
LVCEB   =                   22 / serial register col end (inclusive), output B  
TVCSB   =                 2104 / trailing virtual column start, output B        
TVCEB   =                 2114 / trailing virtual column end (inclusive), output
SCCSB   =                  557 / science col start, output B                    
SCCEB   =                 1068 / science col end (inclusive), output B          
SCICOLHB=                    F / T science cols are read increasing order else d
LVCSC   =                   23 / serial register col start, output C            
LVCEC   =                   33 / serial register col end (inclusive), output C  
TVCSC   =                 2115 / trailing virtual column start, output C        
TVCEC   =                 2125 / trailing virtual column end (inclusive), output
SCCSC   =                 1069 / science col start, output C                    
SCCEC   =                 1580 / science col end (inclusive), output C          
SCICOLHC=                    T / T science cols are read increasing order else d
LVCSD   =                   34 / serial register col start, output D            
LVCED   =                   44 / serial register col end (inclusive), output D  
TVCSD   =                 2126 / trailing virtual column start, output D        
TVCED   =                 2136 / trailing virtual column end (inclusive), output
SCCSD   =                 1581 / science col start, output D                    
SCCED   =                 2092 / science col end (inclusive), output D          
SCICOLHD=                    F / T science cols are read increasing order else d
SCIROWS =                    1 / science rows start                             
SCIROWE =                 2048 / science rows end (inclusive)                   
VROWS   =                 2069 / virtual row start                              
VROWE   =                 2078 / virtual row end (inclusive)                    
SMROWS  =                 2059 / smear rows start                               
SMROWE  =                 2068 / smear rows end (inclusive)                     
BFROWS  =                 2049 / buffer rows start                              
BFROWE  =                 2058 / buffer rows end (inclusive)                    
RADESYS = 'ICRS    '           / reference frame of celestial coordinates       
EQUINOX =                2000. / equinox of celestial coordinate system         
WCSAXES =                    2 / number of WCS axes                             
CTYPE1  = 'RA---TAN-SIP'       / Gnomonic projection + SIP distortions          
CTYPE2  = 'DEC--TAN-SIP'       / Gnomonic projection + SIP distortions          
CRVAL1  =     86.6154236714445 / RA at CRPIX1, CRPIX2                           
CRVAL2  =      11.866975665176 / DEC at CRPIX1, CRPIX2                          
CRPIX1  =                -175. / X reference pixel                              
CRPIX2  =                -619. / Y reference pixel                              
CD1_1   = -0.00571670249848042 / Transformation matrix                          
CD1_2   = -8.04361195372955E-05 / Transformation matrix                         
CD2_1   =  -5.763543053977E-05 / Transformation matrix                          
CD2_2   =    -0.00571120598021 / Transformation matrix                          
A_ORDER =                    4 / Polynomial order, axis 1                       
B_ORDER =                    4 / Polynomial order, axis 2                       
A_2_0   =  -1.932824569652E-05 / distortion coefficient                         
A_1_1   =   1.704083824548E-05 / distortion coefficient                         
A_0_2   =  -3.004149177246E-06 / distortion coefficient                         
A_3_0   =  -2.664567905898E-09 / distortion coefficient                         
A_2_1   =   9.317612728938E-11 / distortion coefficient                         
A_1_2   =  -2.687573603069E-09 / distortion coefficient                         
A_0_3   =    1.98335097997E-10 / distortion coefficient                         
A_4_0   =  -6.285137800984E-14 / distortion coefficient                         
A_3_1   =   3.879560574831E-13 / distortion coefficient                         
A_2_2   =  -2.186477884695E-13 / distortion coefficient                         
A_1_3   =   2.465954892073E-13 / distortion coefficient                         
A_0_4   =  -6.435273741604E-14 / distortion coefficient                         
B_2_0   =   3.228144242471E-06 / distortion coefficient                         
B_1_1   =  -1.640313910647E-05 / distortion coefficient                         
B_0_2   =   1.996502949593E-05 / distortion coefficient                         
B_3_0   =   2.008170619705E-10 / distortion coefficient                         
B_2_1   =   -2.74796666449E-09 / distortion coefficient                         
B_1_2   =   2.710223789551E-11 / distortion coefficient                         
B_0_3   =  -2.657197149498E-09 / distortion coefficient                         
B_4_0   =  -5.824033282522E-14 / distortion coefficient                         
B_3_1   =  -3.350176080472E-13 / distortion coefficient                         
B_2_2   =   2.373980687008E-13 / distortion coefficient                         
B_1_3   =  -3.080394304748E-13 / distortion coefficient                         
B_0_4   =    1.48927190596E-13 / distortion coefficient                         
AP_ORDER=                    4 / Inv polynomial order, axis 1                   
BP_ORDER=                    4 / Inv polynomial order, axis 2                   
AP_1_0  =  -6.708489463338E-05 / inv distortion coefficient                     
AP_0_1  =   4.473351254872E-05 / inv distortion coefficient                     
AP_2_0  =   1.932381754772E-05 / inv distortion coefficient                     
AP_1_1  =  -1.703364258037E-05 / inv distortion coefficient                     
AP_0_2  = 3.00238287197611E-06 / inv distortion coefficient                     
AP_3_0  =   3.597956603502E-09 / inv distortion coefficient                     
AP_2_1  =   -1.56277428838E-09 / inv distortion coefficient                     
AP_1_2  = 3.73286234555209E-09 / inv distortion coefficient                     
AP_0_3  =   -4.32689234204E-10 / inv distortion coefficient                     
AP_4_0  = 3.80526704208098E-13 / inv distortion coefficient                     
AP_3_1  =  -7.741748688196E-13 / inv distortion coefficient                     
AP_2_2  =   6.467043232431E-13 / inv distortion coefficient                     
AP_1_3  =  -5.895761785864E-13 / inv distortion coefficient                     
AP_0_4  =   1.204150295567E-13 / inv distortion coefficient                     
BP_1_0  =   4.373104150798E-05 / inv distortion coefficient                     
BP_0_1  =  -6.959618910651E-05 / inv distortion coefficient                     
BP_2_0  =  -3.227169072255E-06 / inv distortion coefficient                     
BP_1_1  =   1.639493751486E-05 / inv distortion coefficient                     
BP_0_2  =  -1.995959199214E-05 / inv distortion coefficient                     
BP_3_0  =  -4.313113406751E-10 / inv distortion coefficient                     
BP_2_1  = 3.76453002348067E-09 / inv distortion coefficient                     
BP_1_2  =  -1.495367563714E-09 / inv distortion coefficient                     
BP_0_3  =   3.650723081353E-09 / inv distortion coefficient                     
BP_4_0  =   3.426340800601E-15 / inv distortion coefficient                     
BP_3_1  =   6.744213088096E-13 / inv distortion coefficient                     
BP_2_2  =  -6.772147619309E-13 / inv distortion coefficient                     
BP_1_3  =   6.796837714789E-13 / inv distortion coefficient                     
BP_0_4  =   -4.80952840256E-13 / inv distortion coefficient                     
A_DMAX  =     45.8759633840889 / maximum distortion, axis 1                     
B_DMAX  =     46.0671457078544 / maximum distortion, axis 2                     
WCSNAMEP= 'PHYSICAL'           / name of world coordinate system alternate P    
WCSAXESP=                    2 / number of WCS physical axes                    
CTYPE1P = 'RAWX    '           / physical WCS axis 1 type CCD col               
CUNIT1P = 'PIXEL   '           / physical WCS axis 1 unit                       
CRPIX1P =                    1 / reference CCD column                           
CRVAL1P =                    1 / value at reference CCD column                  
CDELT1P =                   1. / physical WCS axis 1 step                       
CTYPE2P = 'RAWY    '           / physical WCS axis 2 type CCD row               
CUNIT2P = 'PIXEL   '           / physical WCS axis 2 units                      
CRPIX2P =                    1 / reference CCD row                              
CRVAL2P =                    1 / value at reference CCD row                     
CDELT2P =                   1. / physical WCS axis 2 step                       
RA_NOM  =     92.0096282958984 / [deg] RA of camera boresight                   
DEC_NOM =    -30.5838603973389 / [deg] DEC of camera boresight                  
ROLL_NOM=         178.63671875 / [deg] roll angle of camera                     
DQUALITY=                    0 / data quality flags                             
IMAGTYPE= 'cal     '           /  FFI image type: raw, cal, uncert              
COMMENT   ***********************                                               
COMMENT   *    eleanor INFO     *                                               
COMMENT   ***********************                                               
AUTHOR  = 'Adina D. Feinstein'                                                  
VERSION = '0.2.9   '                                                            
TVERSION= '0.0.1.dev0'                                                          
GITHUB  = 'https://github.com/afeinstein20/eleanor'                             
CREATED = '2021-09-05'                                                          
MJD-BEG =     58467.7770085218 / observation start time in MJD                  
MJD-END =      58489.547517091 / observation end time in MJD                    
POSTPIX1=                 1220 / origin of postcard axis 1                      
POSTPIX2=                 1620 / origin of postcard axis 2                      
CEN_X   =                1294. / central pixel of postcard in FFI               
CEN_Y   =                1672. / central pixel of postcard in FFI               
CEN_RA  =     85.1266644137176 / RA of central pixel                            
CEN_DEC =     7.99196355630806 / Dec of central pixel                           
POST_H  =                 148. / Height of postcard in pixels                   
POST_W  =                 104. / Width of postcard in pixels                    
SECTOR  = '0006    '           / TESS sector                                    
FILTER  = 'TESS    '           / Filter keyword                                 
VERSION = '1.0.2   '           / eleanor version used for light curve production
TIC_ID  =            144728046 / TESS Input Catalog ID                          
TMAG    =               16.154 / TESS mag                                       
TIC_V   =             20190415 / TIC Version                                    
GAIA_ID =  3334499874312914560 / Associated Gaia ID                             
SECTOR  =                    6 / Sector                                         
CAMERA  =                    1 / Camera                                         
CCD     =                    4 / CCD                                            
CHIPPOS1=    1316.896306166884 / central x pixel of TPF in FFI chip             
CHIPPOS2=    1670.569223517052 / central y pixel of TPF in FFI                  
POSTCARD= 'hlsp_eleanor_tess_ffi_postcard-s0006-1-4-cal-1294-1672_tess_v2_pc.f&'
CONTINUE  'its'                                                                 
CEN_RA  =                 85.0 / RA of TPF source                               
CEN_DEC =                  8.0 / DEC of TPF source                              
TPF_H   =                   13 / Height of the TPF in pixels                    
TPF_W   =                   13 / Width of the TPF in pixels                     
TESSCUT =                    F / If TessCut was used to make this TPF           
BKG_SIZE=                   13 / Size of region used for background subtraction 
BKG_LVL = 'PC_LEVEL'           / Stage at which background is subtracted        
URL     = 'https://users.flatironinstitute.org/dforeman/public_www/tess/postca&'
CONTINUE  'rds_test/s0006/1-4/&'                                                
CONTINUE  '' / URL eleanor files are located at                                 