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Code 6903574
Name PROVOR III Profiling Float
Description Argo NORWAY
Project NorArgo2
Institution Institute of Marine Research (IMR)
Data Assembly Center IF : CORIOLIS
Activity Active
Status
Comment
First station date 25/08/2020 22:18:00
Last station date 12/06/2021 11:20:00
Float cycles 59, 58, 57, 56, 55, 54, 53, 52, 51, 50, 49, 48, 47, 46, 45, 44, 43, 42, 41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 31, 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0
Stations in Ascii, in Netcdf
Trajectory data in Ascii, in Netcdf
Graphics of individual profiles Verticals profiles, Immersion profiles
Map
Float Argo trajectory for platform 6903574
(C) Coriolis data centre - 2021.06.15
T/S Diagram
Section chart



Overlayed profiles



Waterfall profiles



Configuration
Profiler TYPE PROVOR
Profiler VERSION 6.11
Profiler CRC TYPE 16
Profiler LAUNCH DATETIME 25/08/2020 18:36:00
Profiler LAUNCH LATITUDE 67.5012
Profiler LAUNCH LONGITUDE -0.5222
Profiler PROBE CODE 836
Profiler EXPERIMENT ID NorArgo2
Profiler CONDUCTIVITY ACCURACY 2
Platform activity flag A
The last valid station id of the platform 77684293
Data centre in charge of platform data processing IF
Positioning system GPS
Transmission identifier (ARGOS, ORBCOMM, etc.) imrbio005b
The telecommunications system used IRIDIUM
Model of the float NAT_NOS_NOA_imrbio005b
The name of the manufacturer NKE
Instrument type P43208-20NO002
Direction of the profiles B
Name of the principal investigator Kjell Arne Mork
Quality on launch date, time and location 1
Quality on start date 1
Identifier of the deployment platform R/V Kristine Bonnevie
Identifier of stations used to verify the first profile yes
Name of the cruise Cruise 2020616
Date of last update of the metadata of the platform 03/09/2020 20:00:00
Date of last update of the trajectory of the platform 12/06/2021 15:37:40
Version number of the data handbook 1.2
List of parameters with real-time calibration information DOXY
Calibration equation for this parameter PPOX_DOXY_ADJUSTED = a1 * PPOX_DOXY + a0
Calibration coefficients for this equation a1=1.0911, a0=0.0000
Comment applying to this parameter calibration initial assessment by coriolis according to https://doi.org/10.13155/76709 based on case1_1 (cycles 2 3 4 5 6)
Date of the calibration 20200825183600
Firmware version 3.02
The configuration of battery packs in the float 4DD LI
The type of controller board I535
The secondary type of controller board CAMAT256
The serial number of the primary controller board C200131-0136
The float owner IMR
The operating institution of the float IMR
Anderaa calibration coeff C0 0.00280204
Anderaa calibration coeff C1 0.000122431
Anderaa calibration coeff C2 0.00000230393
Anderaa calibration coeff C3 155.884
Anderaa calibration coeff C4 -0.235519
Anderaa calibration coeff C5 -32.1977
Anderaa calibration coeff C6 3.11042
Anderaa optode phase coeff 0 -3.139
Anderaa optode phase coeff 1 1
Anderaa optode phase coeff 2 0
Anderaa optode phase coeff 3 0
Aanderaa Optode temp coeff 0 26.8404
Aanderaa Optode temp coeff 1 -0.031424
Aanderaa Optode temp coeff 2 0.00000314605
Aanderaa Optode temp coeff 3 -0.00000000457157
Aanderaa Optode temp coeff 4 0
Aanderaa Optode temp coeff 5 0
Category of instrument FLOAT
Number of the SIM card 8988169234003165602
Comment on float visual inspection done just before deployment OK
Comment on ballast visual inspection done just before deployment OK
Startup date of the float 29/05/2019 08:13:00
Name of the deployment operator Henrik S°iland
Comment on float visual inspection done during acceptance tests OK
Comment on ballast visual inspection done during acceptance tests ok
Float firmware version during acceptance tests 3.01
Float firmware checksum during acceptance tests 45DD
Float clock set at the beginning of the acceptance tests yes
Float battery voltage measured at the beginning of the acceptance tests 10.5
Float internal vacuum measured with a full bladder at the beginning of the acceptance tests 710
Spy mode set to ON at the beginning of the acceptance tests OK
Show mode set to OFF at the beginning of the acceptance tests OK
Mission armed at the beginning of the acceptance tests OK
Float battery voltage measure at the end of the acceptance tests 10.6
Float internal vacuum measured during the acceptance tests 697
General comments on the acceptance tests OK
Comment on float visual inspection done during the pre-deployment check OK
Comment on ballast visual inspection done during the pre-deployment check OK
Angle of Beta measurements (in angular degree) 124
Wavelength of ECO Beta #<DIM_LEVEL> measurements (in nanometer) 700
Wavelength of ECO sensor for emission of CDOM fluorescence measurements (in nanometer) 460
Wavelength of ECO sensor for excitation of CDOM fluorescence measurements (in nanometer) 370
Wavelength of ECO sensor for emission of CHLA fluorescence measurements (in nanometer) 695
Wavelength of ECO sensor for excitation of CHLA fluorescence measurements (in nanometer) 470
Vertical pressure offset due to the fact that the ECO sensor is not exactly at the CTD pressure (in dbar) 0.1
Bandwidth of OCR sensor DOWNWELLING IRRADIANCE #<DIM_LEVEL> measurements (in nanometer) 10
Wavelength of OCR sensor DOWNWELLING IRRADIANCE #<DIM_LEVEL> measurements (in nanometer) 380
Wavelength of OCR sensor DOWNWELLING IRRADIANCE #<DIM_LEVEL> measurements (in nanometer) 412
Wavelength of OCR sensor DOWNWELLING IRRADIANCE #<DIM_LEVEL> measurements (in nanometer) 490
Vertical pressure offset due to the fact that the OCR sensor is not exactly at the CTD pressure (in dbar) -0.08
Vertical pressure offset due to the fact that the OPTODE sensor is not exactly at the CTD pressure (in dbar) -0.31
Vertical pressure offset due to the fact that the SUNA sensor is not exactly at the CTD pressure (in dbar) 1.5
Suna with scoop which redirects flow through Suna optics (values: 1 = Yes, 0 = No) 0
State of the vector board show mode (0: OFF; 1: ON) 0
State of the sensor board show mode (0: OFF; 1: ON) 0
The APS frame definition allows for a variable number of spectrometer pixels (also called channels) to be included in the frame. The two pixel values are configured indirectly via the wavelength range of the spectrum to be output. 34
The APS frame definition allows for a variable number of spectrometer pixels (also called channels) to be included in the frame. The two pixel values are configured indirectly via the wavelength range of the spectrum to be output. 74
Platform type PROVOR_III
Type of sensor from L22 SeaVox Device Catalogue TOOL0669
Type of sensor from L22 SeaVox Device Catalogue TOOL0826
Type of sensor from L22 SeaVox Device Catalogue TOOL1141
Comment on float internal checks before deployment (valve and pump actions, argos transmission check) OK
Float clock value set during acceptance tests (dd/mm/yyyy hh:mm) ('!TI') 28/08/2017 15:39:00
Comment on float internal checks before acceptance deployment (valve and pump actions, argos transmission check) OK
Buoyancy description before acceptance deployment Water @ 0.5 cm above top of P sensor
Buoyancy description after acceptance deployment Water @ 0.5 cm above top of P sensor
Float firmware version at pre-deployment 3.01
Optode is set up to perform measurements in air for calibration (yes/no) yes
Delay between CTD and Optode (in second) 0
New DARK value is provided (in pool or in lab) (yes/no) no
Coefficient for PH computing -1.4023
Coefficient for PH computing -0.0010199
Coefficient for PH computing -0.0023474
Coefficient for PH computing 0.000012744
Coefficient for PH computing -0.000000022045
Coefficient for PH computing 0.000000000024177
Coefficient for PH computing -1.4956E-14
Transistor pH coefficient F5 4.8909E-18
Transistor pH coefficient F6 -6.5437E-22
Calibration adjusted error 10
Code (used by the decoder) of the method used to estimate adjustment error 1_1
Date of last update of the tech data of the platform 12/06/2021 17:45:53
Configuration phases
Sensors
Name Maker Model Serial number Units Accuracy Resolution
CTD_PRES SBE SBE41CP 11445685
CTD_TEMP SBE SBE41CP 12716
CTD_CNDC SBE SBE41CP 12716
OPTODE_DOXY AANDERAA AANDERAA_OPTODE_4330 3351
RADIOMETER_DOWN_IRR380 SATLANTIC SATLANTIC_OCR504_ICSW 2031
RADIOMETER_DOWN_IRR412 SATLANTIC SATLANTIC_OCR504_ICSW 2031
RADIOMETER_DOWN_IRR490 SATLANTIC SATLANTIC_OCR504_ICSW 2031
RADIOMETER_PAR SATLANTIC SATLANTIC_OCR504_ICSW 2031
FLUOROMETER_CHLA WETLABS ECO_FLBBCD 5960
BACKSCATTERINGMETER_BBP700 WETLABS ECO_FLBBCD 5960
FLUOROMETER_CDOM WETLABS ECO_FLBBCD 5960
SPECTROPHOTOMETER_NITRATE SATLANTIC SUNA_V2 1384
TRANSISTOR_PH SBE SEAFET 10492
Physical parameters
Name Units Accuracy Resolution
CTD_PRES decibar 2.4 1
CTD_TEMP degree_Celsius 0.002 0.001
CTD_CNDC psu 0.005 0.001
OPTODE_DOXY degree
OPTODE_DOXY degree
OPTODE_DOXY degree_Celsius
OPTODE_DOXY micromole/kg 10% 0.001
OPTODE_DOXY millibar
RADIOMETER_DOWN_IRR380 count
RADIOMETER_DOWN_IRR412 count
RADIOMETER_DOWN_IRR490 count
RADIOMETER_PAR count
RADIOMETER_DOWN_IRR380 W/m^2/nm
RADIOMETER_DOWN_IRR412 W/m^2/nm
RADIOMETER_DOWN_IRR490 W/m^2/nm
RADIOMETER_PAR microMoleQuanta/m^2/sec
FLUOROMETER_CHLA count
BACKSCATTERINGMETER_BBP700 count
FLUOROMETER_CDOM count
FLUOROMETER_CHLA mg/m3
BACKSCATTERINGMETER_BBP700 m-1
FLUOROMETER_CDOM ppb
SPECTROPHOTOMETER_NITRATE degree_Celsius
SPECTROPHOTOMETER_NITRATE degree_Celsius
SPECTROPHOTOMETER_NITRATE percent
SPECTROPHOTOMETER_NITRATE count
SPECTROPHOTOMETER_NITRATE dimensionless
SPECTROPHOTOMETER_NITRATE count
SPECTROPHOTOMETER_NITRATE micromole/kg 2 0.01
TRANSISTOR_PH volt
TRANSISTOR_PH dimensionless
TRANSISTOR_PH dimensionless
Calibrations
Parameter Equation Coefficients Comment
PRES
TEMP
PSAL
C1PHASE_DOXY
C2PHASE_DOXY
TEMP_DOXY
DOXY
PPOX_DOXY
RAW_DOWNWELLING_IRRADIANCE380
RAW_DOWNWELLING_IRRADIANCE412
RAW_DOWNWELLING_IRRADIANCE490
RAW_DOWNWELLING_PAR
DOWN_IRRADIANCE380
DOWN_IRRADIANCE412
DOWN_IRRADIANCE490
DOWNWELLING_PAR
FLUORESCENCE_CHLA
BETA_BACKSCATTERING700
FLUORESCENCE_CDOM
CHLA
BBP700
CDOM
TEMP_NITRATE
TEMP_SPECTROPHOTOMETER_NITRATE
HUMIDITY_NITRATE
UV_INTENSITY_DARK_NITRATE
FIT_ERROR_NITRATE
UV_INTENSITY_NITRATE
NITRATE
VRS_PH
PH_IN_SITU_FREE
PH_IN_SITU_TOTAL
Technical parameters Details