2 resistance calculation, 2 edlog dataloggers, 1 program instruction 5 – Campbell Scientific 253-L and 257-L (Watermark 200) Soil Matric Potential Sensors User Manual

253-L and 257-L Soil Matric Potential Sensors

TABLE 7-1 shows the excitation and voltage ranges used with the CRBasic
dataloggers.

TABLE 7-1. Excitation and Voltage Ranges for

CRBasic Dataloggers

Datalogger

mV excitation

Full Scale Range

CR800 Series

250

± 250 mV

CR1000 250

±

250

mV

CR3000 200

±

200

mV

CR5000 200

±

200

mV

CR9000(X) 200

±

200

mV

7.2.1.2 Resistance Calculation

Sensor resistance is calculated with a CRBasic expression. If the result of the
BRHalf() instruction is assigned to a variable called kOhms, then the
resistance would be determined with the expression:

kOhms = 1 * (kOhms/(1-kOhms))

where the 1 represents the value of the reference resistor in kOhms and can be
omitted from the expression if desired.

7.2.2 Edlog Dataloggers

7.2.2.1 Program Instruction 5

Edlog dataloggers use Instruction 5, AC Half Bridge (P5), to excite and
measure the 253 and 257. Recommended excitation voltages and input ranges
for Edlog dataloggers are listed in TABLE 7-2.

TABLE 7-2. Excitation and Voltage Ranges for Edlog Dataloggers

Datalogger mV

excitation

Range Code Full Scale Range

21X 500 14 ±

500

mV

CR10(X) 250

14

±

250

mV

CR510/CR500 250

14

±

250

mV

CR23X 200

13

±

200

mV

CR7 500 16 ±

500

mV

7.2.2.2 Program Instruction 59

Instruction 59, Bridge Transform (P59), is used to output sensor resistance
(R

s

). The instruction takes the AC Half Bridge output (V

s

/V

x

) and computes

the sensor resistance as follows:

16