12 207 relative humidity probe – Campbell Scientific CR10X Measurement and Control System User Manual

SECTION 9. INPUT/OUTPUT INSTRUCTIONS

9-7

PARAM.

DATA

NUMBER

TYPE

DESCRIPTION

01:

2

Repetitions

02:

2

Single-ended channel
number of first
measurement

03:

2

Excitation/Integration
*Code (Table 9-3)

04:

4

Input location number
for first measurement

05:

FP

Multiplier

06:

FP

Offset

Input locations altered: 1 per repetition

*** 12 207 RELATIVE HUMIDITY PROBE ***

FUNCTION
This instruction applies a 1.5 VAC excitation
across Campbell Scientific's Model 207
Temperature and RH Probe, makes a fast
single-ended measurement across a series
resistor, calculates the result with a 5th order
polynomial, and performs the required
temperature compensation before outputting
the result in % RH.

When measuring several probes, all the RH
elements should be connected sequentially.
The temperature values used to correct the RH
measurements should also be stored
sequentially to make use of the REP feature in
Instruction 11.

NOTE: The temperature value used in
compensating the RH value (Parameter 5)
must be obtained (see Instruction 11) prior
to executing Instruction 12 and must be in
Celsius.

The RH results are placed sequentially into the
input locations beginning with the first RH value.

In the 207 probe, the RH and temperature
elements use a common excitation line.

CAUTION: Never excite the 207 probe with
DC excitation because the RH chip will be
damaged.

A 1 before the excitation channel number (1X)
causes the channel to be incremented with
each repetition.

The maximum RH polynomial error is given
here:

Curve Fit Error --

Range (%RH)

Error (%RH)

10 - 100

+4

15 - 94

+1

PARAM.

DATA

NUMBER

TYPE

DESCRIPTION

01:

2

Repetitions

02:

2

First single-ended
channel for RH
measurement

03:

2

Excitation channel
number

04:

4

Input location for first
compensating
temperature
measurement (°C)

05:

4

Input location number
for first measurement

06:

FP

Multiplier

07:

FP

Offset

Input locations altered: 1 per repetition

*** 13 THERMOCOUPLE TEMPERATURE, ***

SINGLE-ENDED MEASUREMENT

FUNCTION
This instruction uses the selected thermocouple
calibration to calculate the thermocouple output
voltage at the reference temperature, then it
makes a SINGLE-ENDED VOLTAGE
MEASUREMENT (Section 13.2) on the
thermocouple and adds the measured voltage
to the calculated reference voltage, then
converts the voltage to temperature in °C. A
multiplier of 1 and an offset of zero yields
temperature in degrees Celsius.

To skip the measurement portion of Instruction
13 and apply the CSI polynomials to a millivolt
value in an input location, index parameter
three, input channel. The input location where
the thermocouple output (mV) is located is now
defined by parameter three. The thermocouple
must be measured with Instruction 1.