Reorganized order of PD# entries

csv/ParameterDefs.csv

@@ -42,6 +42,7 @@ FLOR,,fluorometric_chlorophyll_a,PD22,function,,float32,,µg L-1,-9999999,Chloro
 FLOR,,fluorometric_cdom,PD23,function,,float32,,ppb,-9999999,CDOM Concentration,6,,PFID79,"{""counts_output"":""PD1143"",""counts_dark"":""CC_dark_counts_cdom"",""scale_factor"":""CC_scale_factor_cdom""}",,,CDOMFLO_L1,"Fluorometric CDOM Concentration is a measure of how much light has been re-emitted (fluoresced) from colored organic compounds found in the colored dissolved organic matter (CDOM) in seawater. Examples of CDOM include tannins (polyphenols that bind to proteins and other large molecules) or lignins (polymers of phenolic acids) from decaying plant material and byproducts from the decomposition of animals. It accounts for the tea-like color in seawater. CDOM is not particulate, but seawater can contain both CDOM and turbidity.",Fluorometric CDOM Concentration,Science Data,L1
 FLOR,,total_volume_scattering_coefficient,PD24,function,,float32,,m-1 sr-1,-9999999,Total Volume Scattering Coefficient,6,,PFID81,"{""counts_output"":""dpi_FLUBSCT_L0"",""counts_dark"":""CC_dark_counts_volume_scatter"", ""scale_factor"":""CC_scale_factor_volume_scatter""}",FLUBSCT,,FLUBSCT_L1,Total Volume Scattering Coefficient values represent the volume scattering from particles and the molecular scattering from water at a given wavelength of light and the default angle of 117 degrees for the ECO meter.,Total Volume Scattering Coefficient,,L1
 FLOR,,optical_backscatter,PD25,function,,float32,,m-1,-9999999,Optical Backscatter,4,,PFID78,"{""beta"":""dpi_FLUBSCT_L1"", ""degC"":[""dpi_TEMPWAT_L1"",""dpi_TEMPSRF_L1""], ""psu"":[""dpi_PRACSAL_L2"",""dpi_SALSURF_L2""], ""theta"":""CC_scattering_angle"", ""wlngth"":""CC_measurement_wavelength"", ""xfactor"":""CC_angular_resolution""}",,,FLUBSCT_L2,"Optical Backscatter (Red Wavelengths) is a measure of the amount of red light (630-740 nm wavelengths) scattered in the backward direction due to suspended matter within seawater, providing a proxy for turbidity and suspended solids.",Optical Backscatter (Red Wavelengths),Science Data,L2
+PARAD_A,PARAD,input_voltage,PD27,quantity,,float32,,volts,-99999999,Instrument Input Voltage,9,FALSE,,,,,,Instrument input voltage.,Instrument Input Voltage,Engineering Data,L0
 "BASE,PARAD_A",PARAD,elapsed_time,PD28,quantity,,float64,,s,-1,Time Since Reset,,,,,,,,,,,
 BASE,,pressure_temp,PD29,quantity,,float32,,ºC,-9999,Pressure Sensor Internal Temperature,,,,,,,,"The temperature at the pressure sensor (inside the housing, but isolated from housing and the electronics.",,,
 "BETA,CTDMO_GHQR",,sample_number,PD73,quantity,,int32,,count,-9999,Sample Number,0,FALSE,,,,,,,,,
@@ -130,11 +131,10 @@ BETA,PRESF,press_coeff_b,PD173,quantity,,float32,,1,-9999999,Pressure Coefficien
 "BETA,CTD_CABLED,CTD_CABLED_SBE43",PRESF,cond_coeff_cpcor,PD186,quantity,,float32,,1,-9999999,Conductivity Coefficient PCor,6,,,,,,,,,,
 "BETA,CTD_CABLED,CTD_CABLED_SBE43",PRESF,cond_coeff_cslope,PD187,quantity,,float32,,1,-9999999,Conductivity Coefficient Slope,6,,,,,,,,,,
 PARAD_A,PARAD,par,PD188,quantity,,uint32,,counts,0,PAR Measurement,0,,,,,,OPTPARW_L0,Photosynthetically Active Radiation (PAR) unprocessed sensor reading.,Photosynthetically Active Radiation (400-700 nm) Measurement,Unprocessed Data,L0
-PARAD_A,PARAD,par_counts_output,PD192,function,,float32,,µmol photons m-2 s-1,-99999999,Photosynthetically Active Radiation,4,,PFID83,"{""counts_output"":""PD188"",""a0"":""CC_a0"",""a1"":""CC_a1"",""Im"":""CC_Im""}",OPTPARW,downwelling_photosynthetic_photon_flux_in_sea_water,OPTPARW_L1,Photosynthetically Active Radiation (PAR) is the measure of the density of photons per unit area that are in the spectral range of light (400-700 nanometers) that primary producers use for photosynthesis.,Photosynthetically Active Radiation (400-700 nm),Science Data,L1
-PARAD_A,PARAD,par_measured,PD191,quantity,,float32,,µmol photons m-2 s-1,-99999999,Measured Photosynthetically Active Radiation,4,,,,OPTPARW,downwelling_photosynthetic_photon_flux_in_sea_water,OPTPARW_L1,Photosynthetically Active Radiation (PAR) is the measure of the density of photons per unit area that are in the spectral range of light (400-700 nanometers) that primary producers use for photosynthesis.,Photosynthetically Active Radiation (400-700 nm),Science Data,L1
-PARAD_A,PARAD,input_voltage,PD27,quantity,,float32,,volts,-99999999,Instrument Input Voltage,9,FALSE,,,,,,Instrument input voltage.,Instrument Input Voltage,Engineering Data,L0
 PARAD_A,PARAD,voltage_out,PD189,quantity,,float32,,volts,-99999999,Instrument Output Voltage,7,FALSE,,,,,,Instrument output voltage.,Instrument Output Voltage,Engineering Data,L0
 PARAD_A,PARAD,temperature_volts,PD190,quantity,,float32,,volts,-99999999,Internal Temperature Raw Voltage,5,FALSE,,,,,,Raw analog voltage of instrument internal temperature sensor.,Temperature Raw Voltage,Engineering Data,L0
+PARAD_A,PARAD,par_measured,PD191,quantity,,float32,,µmol photons m-2 s-1,-99999999,Measured Photosynthetically Active Radiation,4,,,,OPTPARW,downwelling_photosynthetic_photon_flux_in_sea_water,OPTPARW_L1,Photosynthetically Active Radiation (PAR) is the measure of the density of photons per unit area that are in the spectral range of light (400-700 nanometers) that primary producers use for photosynthesis.,Photosynthetically Active Radiation (400-700 nm),Science Data,L1
+PARAD_A,PARAD,par_counts_output,PD192,function,,float32,,µmol photons m-2 s-1,-99999999,Photosynthetically Active Radiation,4,,PFID83,"{""counts_output"":""PD188"",""a0"":""CC_a0"",""a1"":""CC_a1"",""Im"":""CC_Im""}",OPTPARW,downwelling_photosynthetic_photon_flux_in_sea_water,OPTPARW_L1,Photosynthetically Active Radiation (PAR) is the measure of the density of photons per unit area that are in the spectral range of light (400-700 nanometers) that primary producers use for photosynthesis.,Photosynthetically Active Radiation (400-700 nm),Science Data,L1
 "BETA,CTD_CABLED,CTD_CABLED_SBE43,CTDPF_CKL_CSTL,CTDMO_GHQR",CTDBP,temperature,PD193,quantity,,int32,,counts,-9999999,Seawater Temperature Measurement,0,,,,,,TEMPWAT_L0,Seawater temperature unprocessed measurement near the sensor.,Seawater Temperature Measurement,Unprocessed Data,L0
 "BETA,CTD_CABLED,CTD_CABLED_SBE43,CTDPF_CKL_CSTL,CTDMO_GHQR",CTDBP,conductivity,PD194,quantity,,int32,,counts,-9999999,Seawater Conductivity Measurement,0,,,,,,CONDWAT_L0,"Seawater conductivity refers to the ability of seawater to conduct electricity. The presence of ions in the seawater, such as salt, increases the electrical conducting ability of seawater. As such, conductivity can be used as a proxy for determining the quantity of salt in a sample of seawater. This is the unprocessed data that are output directly from the sensor which are then converted to salinity in S m-1.",Seawater Electrical Conductivity Measurement,Unprocessed Data,L0
 "BETA,CTD_CABLED,CTD_CABLED_SBE43,CTDPF_CKL_CSTL,CTDMO_GHQR",CTDBP,pressure,PD195,quantity,,int32,,counts,-9999999,Seawater Pressure Measurement,0,,,,,,PRESWAT_L0,Seawater Pressure refers to the pressure exerted on a sensor in situ by the weight of the column of seawater above it. It is calculated by subtracting one standard atmosphere from the absolute pressure at the sensor to remove the weight of the atmosphere on top of the water column. The pressure at a sensor in situ provides a metric of the depth of that sensor. This is the unprocessed data that are output directly from the sensor which are then converted to pressure in dbar.,Seawater Pressure Measurement,Unprocessed Data,L0