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* Sea-Bird SBE 9 Data File:
* FileName = C:\SEASOFT\PIRATA-FR29\data\fr29003.hex
* Software Version Seasave V 7.26.7.107
* Temperature SN = 6083
* Conductivity SN = 4509
* Number of Bytes Per Scan = 42
* Number of Voltage Words = 3
* Number of Scans Averaged by the Deck Unit = 1
* Append System Time to Every Scan
* System UpLoad Time = Mar 06 2019 22:00:42
* NMEA Latitude = 00 00.63 N
* NMEA Longitude = 009 51.00 W
* NMEA UTC (Time) = Mar 06 2019 22:00:42
* Store Lat/Lon Data = Append to Every Scan
** Cruise: PIRATA-FR29
** Ship: THALASSA
** Station: 3
** Bottom Depth: 5168
** Barometric pressure : 1011.5
** Temp Air: 28.4
** Operator: Jacques Jerome
** Comments:
** Attente pdt 45 min. pour positionnement du bateau
* System UTC = Mar 06 2019 22:00:42
# nquan = 25
# nvalues = 4041
# units = specified
# name 0 = scan: Scan Count
# name 1 = timeJ: Julian Days
# name 2 = prDM: Pressure, Digiquartz [db]
# name 3 = depSM: Depth [salt water, m]
# name 4 = t090C: Temperature [ITS-90, deg C]
# name 5 = t190C: Temperature, 2 [ITS-90, deg C]
# name 6 = c0S/m: Conductivity [S/m]
# name 7 = c1S/m: Conductivity, 2 [S/m]
# name 8 = sbeox0V: Oxygen raw, SBE 43 [V]
# name 9 = sbeox1V: Oxygen raw, SBE 43, 2 [V]
# name 10 = sbox0dV/dT: Oxygen, SBE 43 [dov/dt]
# name 11 = sbox1dV/dT: Oxygen, SBE 43, 2 [dov/dt]
# name 12 = CStarTr0: Beam Transmission, WET Labs C-Star [%]
# name 13 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]
# name 14 = flC: Fluorescence, Chelsea Aqua 3 Chl Con [ug/l]
# name 15 = sbox0Mm/Kg: Oxygen, SBE 43 [umol/kg], WS = 2
# name 16 = sbox1Mm/Kg: Oxygen, SBE 43, 2 [umol/kg], WS = 2
# name 17 = sal00: Salinity, Practical [PSU]
# name 18 = sal11: Salinity, Practical, 2 [PSU]
# name 19 = sigma-00: Density [sigma-theta, kg/m^3]
# name 20 = sigma-11: Density, 2 [sigma-theta, kg/m^3]
# name 21 = svCM: Sound Velocity [Chen-Millero, m/s]
# name 22 = svCM1: Sound Velocity, 2 [Chen-Millero, m/s]
# name 23 = nbin: number of scans per bin
# name 24 = flag: flag
# span 0 = -1383, 166194
# span 1 = 65.916485, 65.997300
# span 2 = 1.000, 2022.000
# span 3 = 0.977, 2001.224
# span 4 = 3.5917, 29.2793
# span 5 = 3.5914, 29.2735
# span 6 = 3.303189, 5.826620
# span 7 = 3.303357, 5.826722
# span 8 = 1.1197, 2.6922
# span 9 = 1.3474, 3.4003
# span 10 = -0.02167, 0.01972
# span 11 = -0.02833, 0.02412
# span 12 = 87.3979, 90.1388
# span 13 = 0.0369, 1.6954
# span 14 = 0.0077, 0.4804
# span 15 = 79.474, 236.758
# span 16 = 80.310, 239.607
# span 17 = 34.5075, 36.6991
# span 18 = 34.5086, 36.6949
# span 19 = 22.3118, 27.8166
# span 20 = 22.3157, 27.8179
# span 21 = 1482.85, 1544.65
# span 22 = 1482.85, 1544.65
# span 23 = 16, 179
# span 24 = 0.0000e+00, 0.0000e+00
# interval = decibars: 1
# start_time = Mar 06 2019 22:00:42 [System UTC, first data scan.]
# bad_flag = -9.990e-29
# <Sensors count="11" >
# <sensor Channel="1" >
# <!-- Frequency 0, Temperature -->
# <TemperatureSensor SensorID="55" >
# <SerialNumber>6083</SerialNumber>
# <CalibrationDate>06-Jun-18</CalibrationDate>
# <UseG_J>1</UseG_J>
# <A>0.00000000e+000</A>
# <B>0.00000000e+000</B>
# <C>0.00000000e+000</C>
# <D>0.00000000e+000</D>
# <F0_Old>0.000</F0_Old>
# <G>4.35319981e-003</G>
# <H>6.68879170e-004</H>
# <I>2.68418148e-005</I>
# <J>2.12681557e-006</J>
# <F0>1000.000</F0>
# <Slope>1.00000000</Slope>
# <Offset>0.0000</Offset>
# </TemperatureSensor>
# </sensor>
# <sensor Channel="2" >
# <!-- Frequency 1, Conductivity -->
# <ConductivitySensor SensorID="3" >
# <SerialNumber>4509</SerialNumber>
# <CalibrationDate>07-Jun-18</CalibrationDate>
# <UseG_J>1</UseG_J>
# <!-- Cell const and series R are applicable only for wide range sensors. -->
# <SeriesR>0.0000</SeriesR>
# <CellConst>2000.0000</CellConst>
# <ConductivityType>0</ConductivityType>
# <Coefficients equation="0" >
# <A>0.00000000e+000</A>
# <B>0.00000000e+000</B>
# <C>0.00000000e+000</C>
# <D>0.00000000e+000</D>
# <M>0.0</M>
# <CPcor>-9.57000000e-008</CPcor>
# </Coefficients>
# <Coefficients equation="1" >
# <G>-1.00364060e+001</G>
# <H>1.51500525e+000</H>
# <I>-4.43743566e-004</I>
# <J>1.14695984e-004</J>
# <CPcor>-9.57000000e-008</CPcor>
# <CTcor>3.2500e-006</CTcor>
# <!-- WBOTC not applicable unless ConductivityType = 1. -->
# <WBOTC>0.00000000e+000</WBOTC>
# </Coefficients>
# <Slope>1.00000000</Slope>
# <Offset>0.00000</Offset>
# </ConductivitySensor>
# </sensor>
# <sensor Channel="3" >
# <!-- Frequency 2, Pressure, Digiquartz with TC -->
# <PressureSensor SensorID="45" >
# <SerialNumber>1263</SerialNumber>
# <CalibrationDate>15-Dec-15</CalibrationDate>
# <C1>-4.023025e+004</C1>
# <C2>-4.466859e-001</C2>
# <C3>1.240000e-002</C3>
# <D1>3.511700e-002</D1>
# <D2>0.000000e+000</D2>
# <T1>3.023099e+001</T1>
# <T2>-4.469710e-004</T2>
# <T3>4.128850e-006</T3>
# <T4>2.885040e-009</T4>
# <Slope>1.00000000</Slope>
# <Offset>0.00000</Offset>
# <T5>0.000000e+000</T5>
# <AD590M>1.279148e-002</AD590M>
# <AD590B>-9.405686e+000</AD590B>
# </PressureSensor>
# </sensor>
# <sensor Channel="4" >
# <!-- Frequency 3, Temperature, 2 -->
# <TemperatureSensor SensorID="55" >
# <SerialNumber>6086</SerialNumber>
# <CalibrationDate>06-Jun-18</CalibrationDate>
# <UseG_J>1</UseG_J>
# <A>0.00000000e+000</A>
# <B>0.00000000e+000</B>
# <C>0.00000000e+000</C>
# <D>0.00000000e+000</D>
# <F0_Old>0.000</F0_Old>
# <G>4.35947792e-003</G>
# <H>6.70575828e-004</H>
# <I>2.73048438e-005</I>
# <J>2.16054153e-006</J>
# <F0>1000.000</F0>
# <Slope>1.00000000</Slope>
# <Offset>0.0000</Offset>
# </TemperatureSensor>
# </sensor>
# <sensor Channel="5" >
# <!-- Frequency 4, Conductivity, 2 -->
# <ConductivitySensor SensorID="3" >
# <SerialNumber>4510</SerialNumber>
# <CalibrationDate>07-Jun-18</CalibrationDate>
# <UseG_J>1</UseG_J>
# <!-- Cell const and series R are applicable only for wide range sensors. -->
# <SeriesR>0.0000</SeriesR>
# <CellConst>2000.0000</CellConst>
# <ConductivityType>0</ConductivityType>
# <Coefficients equation="0" >
# <A>0.00000000e+000</A>
# <B>0.00000000e+000</B>
# <C>0.00000000e+000</C>
# <D>0.00000000e+000</D>
# <M>0.0</M>
# <CPcor>-9.57000000e-008</CPcor>
# </Coefficients>
# <Coefficients equation="1" >
# <G>-9.74550860e+000</G>
# <H>1.55873621e+000</H>
# <I>-1.41241334e-003</I>
# <J>1.86472266e-004</J>
# <CPcor>-9.57000000e-008</CPcor>
# <CTcor>3.2500e-006</CTcor>
# <!-- WBOTC not applicable unless ConductivityType = 1. -->
# <WBOTC>0.00000000e+000</WBOTC>
# </Coefficients>
# <Slope>1.00000000</Slope>
# <Offset>0.00000</Offset>
# </ConductivitySensor>
# </sensor>
# <sensor Channel="6" >
# <!-- A/D voltage 0, Oxygen, SBE 43 -->
# <OxygenSensor SensorID="38" >
# <SerialNumber>3261</SerialNumber>
# <CalibrationDate>13-Jun-18</CalibrationDate>
# <Use2007Equation>1</Use2007Equation>
# <CalibrationCoefficients equation="0" >
# <!-- Coefficients for Owens-Millard equation. -->
# <Boc>0.0000</Boc>
# <Soc>0.0000e+000</Soc>
# <offset>0.0000</offset>
# <Pcor>0.00e+000</Pcor>
# <Tcor>0.0000</Tcor>
# <Tau>0.0</Tau>
# </CalibrationCoefficients>
# <CalibrationCoefficients equation="1" >
# <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. -->
# <Soc>4.6618e-001</Soc>
# <offset>-0.4992</offset>
# <A>-4.5144e-003</A>
# <B> 2.3176e-004</B>
# <C>-3.7531e-006</C>
# <D0> 2.5826e+000</D0>
# <D1> 1.92634e-004</D1>
# <D2>-4.64803e-002</D2>
# <E> 3.6000e-002</E>
# <Tau20> 1.0100</Tau20>
# <H1>-3.3000e-002</H1>
# <H2> 5.0000e+003</H2>
# <H3> 1.4500e+003</H3>
# </CalibrationCoefficients>
# </OxygenSensor>
# </sensor>
# <sensor Channel="7" >
# <!-- A/D voltage 1, Oxygen, SBE 43, 2 -->
# <OxygenSensor SensorID="38" >
# <SerialNumber>3265</SerialNumber>
# <CalibrationDate>13-Jun-18</CalibrationDate>
# <Use2007Equation>1</Use2007Equation>
# <CalibrationCoefficients equation="0" >
# <!-- Coefficients for Owens-Millard equation. -->
# <Boc>0.0000</Boc>
# <Soc>0.0000e+000</Soc>
# <offset>0.0000</offset>
# <Pcor>0.00e+000</Pcor>
# <Tcor>0.0000</Tcor>
# <Tau>0.0</Tau>
# </CalibrationCoefficients>
# <CalibrationCoefficients equation="1" >
# <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. -->
# <Soc>3.5388e-001</Soc>
# <offset>-0.5257</offset>
# <A>-4.5824e-003</A>
# <B> 2.6664e-004</B>
# <C>-4.0298e-006</C>
# <D0> 2.5826e+000</D0>
# <D1> 1.92634e-004</D1>
# <D2>-4.64803e-002</D2>
# <E> 3.6000e-002</E>
# <Tau20> 1.6600</Tau20>
# <H1>-3.3000e-002</H1>
# <H2> 5.0000e+003</H2>
# <H3> 1.4500e+003</H3>
# </CalibrationCoefficients>
# </OxygenSensor>
# </sensor>
# <sensor Channel="8" >
# <!-- A/D voltage 2, Transmissometer, WET Labs C-Star -->
# <WET_LabsCStar SensorID="71" >
# <SerialNumber>CTS1827DR</SerialNumber>
# <CalibrationDate>27/07/2017</CalibrationDate>
# <M>19.2254</M>
# <B>-0.0692</B>
# <PathLength>0.250</PathLength>
# </WET_LabsCStar>
# </sensor>
# <sensor Channel="9" >
# <!-- A/D voltage 3, Fluorometer, WET Labs ECO-AFL/FL -->
# <FluoroWetlabECO_AFL_FL_Sensor SensorID="20" >
# <SerialNumber>FLRTD-4707</SerialNumber>
# <CalibrationDate>24/04/2017</CalibrationDate>
# <ScaleFactor>6.00000000e+000</ScaleFactor>
# <!-- Dark output -->
# <Vblank>0.0590</Vblank>
# </FluoroWetlabECO_AFL_FL_Sensor>
# </sensor>
# <sensor Channel="10" >
# <!-- A/D voltage 4, Fluorometer, Chelsea Aqua 3 -->
# <FluoroChelseaAqua3Sensor SensorID="5" >
# <SerialNumber>088-081</SerialNumber>
# <CalibrationDate>2016/01/29</CalibrationDate>
# <VB>0.148700</VB>
# <V1>2.094600</V1>
# <Vacetone>0.280900</Vacetone>
# <ScaleFactor>1.000000</ScaleFactor>
# <Slope>1.000000</Slope>
# <Offset>0.000000</Offset>
# </FluoroChelseaAqua3Sensor>
# </sensor>
# <sensor Channel="11" >
# <!-- A/D voltage 5, Free -->
# </sensor>
# </Sensors>
# datcnv_date = Mar 07 2019 00:43:41, 7.26.7.114 [datcnv_vars = 15]
# datcnv_in = m:\PIRATA-FR29\data-processing\CTD\data\raw\fr29003.hex m:\PIRATA-FR29\data-processing\CTD\data\raw\fr29003.XMLCON
# datcnv_skipover = 0
# datcnv_ox_hysteresis_correction = yes
# datcnv_ox_tau_correction = no
# wildedit_date = Mar 07 2019 00:43:55, 7.26.7.114
# wildedit_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# wildedit_pass1_nstd = 2.0
# wildedit_pass2_nstd = 20.0
# wildedit_pass2_mindelta = 0.000e+000
# wildedit_npoint = 100
# wildedit_vars = prDM depSM t090C t190C c0S/m c1S/m sbeox0V sbeox1V sbox0dV/dT sbox1dV/dT CStarTr0 flECO-AFL flC
# wildedit_excl_bad_scans = yes
# filter_date = Mar 07 2019 00:43:56, 7.26.7.114
# filter_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# filter_low_pass_tc_A = 0.030
# filter_low_pass_tc_B = 0.150
# filter_low_pass_A_vars = sbox0dV/dT sbox1dV/dT flECO-AFL flC
# filter_low_pass_B_vars = prDM
# alignctd_date = Mar 07 2019 00:43:57, 7.26.7.114
# alignctd_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# alignctd_adv = sbeox0V 2.000, sbeox1V 2.000
# celltm_date = Mar 07 2019 00:43:58, 7.26.7.114
# celltm_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# celltm_alpha = 0.0300, 0.0300
# celltm_tau = 7.0000, 7.0000
# celltm_temp_sensor_use_for_cond = primary, secondary
# loopedit_date = Mar 07 2019 00:43:59, 7.26.7.114
# loopedit_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# loopedit_minVelocity = 0.000
# loopedit_surfaceSoak: do not remove
# loopedit_excl_bad_scans = yes
# wfilter_date = Mar 07 2019 00:44:00, 7.26.7.114
# wfilter_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# wfilter_excl_bad_scans = yes
# wfilter_action prDM = median, 24
# wfilter_action depSM = median, 24
# wfilter_action t090C = median, 5
# wfilter_action t190C = median, 5
# wfilter_action c0S/m = median, 5
# wfilter_action c1S/m = median, 5
# Derive_date = Mar 07 2019 00:44:01, 7.26.7.114 [derive_vars = 8]
# Derive_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv m:\PIRATA-FR29\data-processing\CTD\data\raw\fr29003.xmlcon
# derive_time_window_docdt = seconds: 2
# derive_ox_tau_correction = no
# binavg_date = Mar 07 2019 00:44:03, 7.26.7.114
# binavg_in = m:\PIRATA-FR29\data-processing\CTD\data\tmp\fr29003.cnv
# binavg_bintype = decibars
# binavg_binsize = 1
# binavg_excl_bad_scans = yes
# binavg_skipover = 0
# binavg_omit = 0
# binavg_min_scans_bin = 1
# binavg_max_scans_bin = 2147483647
# binavg_surface_bin = yes, min = 0.000, max = 2.000, value = 0.000
# file_type = ascii
*END*