APPLICATION NOTE NO.
11LICOR
Calculating Calibration Coefficients for LICOR Underwater Type SA PAR Light
Sensor without Built-In Log Amplifier
Revised February 2010
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This application note applies to a Licor Instruments
underwater type SA quantum light sensor. The current output of this sensor is
measured through a log amplifier in your CTD (or through the PN 90310 Log Amp
Module) to obtain adequate resolution over the measurement range.
This PAR sensor is compatible with the following Sea-Bird CTDs:
- SBE 16, 16plus, 16plus-IM, 19,
or 19plus CTD
configured with an optional log amplifier and PAR sensor connector
Note: Optional log amplifier and PAR sensor connector are not available
on V2 SEACATs (16plus
V2,
16plus-IM V2,
and 19plus V2)
- SBE 25 CTD configured
with a log amplifier and PAR sensor connector (standard on current production
SBE 25s, optional on older versions)
- SBE
9plus, 16,
16plus, 16plus-IM,
16plus V2,
16plus-IM V2, 19,
19plus, 19plus
V2, or
25 CTD interfacing with a PN
90310 Log Amp Module. The Log Amp Module mounts on the CTD or cage, and
connects to a single-ended or differential A/D voltage channel on the CTD.
SEASOFT computes PAR using the following equation:
PAR = [multiplier * (109 *
10(V-B) / M) /
calibration constant] + offset
Enter the following coefficients in the CTD configuration (.con
or .xmlcon) file:
M = slope of log amplifier (Note 2)
B = offset of log amplifier (Note 2)
calibration constant = from the Sea-Bird calibration certificate
(Note 2)
multiplier = 1.0 for output units of μEinsteins/m2.sec
(Note 3)
offset = 0, typically (Note 4)
Notes:
- In our SEASOFT V2 suite of programs, edit the CTD configuration (.con
or .xmlcon) file using the Configure
Inputs
menu in Seasave V7 (real-time data
acquisition software)
or the Configure menu in SBE Data Processing
(data processing software).
- Sea-Bird provides two calibration sheets for the PAR sensor in the CTD
manual:
- Calibration sheet generated by Licor, showing Licor’s calibration data.
- Calibration sheet generated by Sea-Bird, showing the parameters needed
for entry in Sea-Bird software ‑
►Calibration constant ‑ the in water Calibration Constant (μamps/1000
μmoles/m2.sec) from the Licor calibration sheet.
Note that 1 μmole/m2.sec = 1 μEinstein/m2.sec.
►M
and B.
- Do not enter the LI-1000 Multiplier from the Licor calibration
certificate as the multiplier.
The multiplier can be used to calculate irradiance in units other than
μEinsteins/m2.sec. See Application Note
11General for multiplier values for other units.
The multiplier can also be used to scale the data, to compare the shape of
data sets taken at disparate light levels. For example, a multiplier of 10
would make a 10 μEinsteins/m2.sec light level plot as 100
μEinsteins/m2.sec.
- Offset may be used to offset the data by a constant, if field data
indicates a drift in the sensor. To calculate the offset: Enter M, B,
calibration constant, and multiplier, and set offset = 0 in the configuration
(.con or .xmlcon) file.
With the sensor dark (covered), display the calculated PAR output in
Seasave V7; then enter the negative of this reading as the offset in the
configuration (.con or .xmlcon)
file.
![[HRule Image]](../images/div.gif)
Last modified:
05-May-2010
Sea-Bird Home Phone: (+1) 425-643-9866
Fax: (+1) 425-643-9954 E-mail:
seabird@seabird.com