4 soil heat flux and storage – Campbell Scientific HFP01 Soil Heat Flux Plate User Manual

Model HFP01 Soil Heat Flux Plate

Example 2. Portion of CR10(X) Program using the Single-Ended Measurement Instruction

The instruction below does not store data in final storage. P92,
P77, and an output processing instruction are required to store
the data permanently.

NOTE

01: Volt (SE) (P1)
1: 1

Reps

2: 2

7.5 mV Slow Range

;CR510 (7.5 mV);CR23X (10 mV); 21X, CR7 (5 mV)

3: 5

SE

Channel

;White wire (SE 5), Green wire (AG)

4: 1

Loc [ HFP01 ]

5: 14.90

Mult

;Enter Calibration

6: 0

Offset

TABLE 6-4. Wiring for Example 3

Description

Color

CR23X

Signal White

9H

Signal Reference

Green

9L

Shield Clear

Example 3. Portion of CR23X Program using the Differential Measurement Instruction

The instruction below does not store data in final storage. P92,
P77, and an output processing instruction are required to store
the data permanently.

NOTE

;Measure the HFP01 Soil Heat Flux plate.
;
01: Volt (Diff) (P2)
1: 1

Reps

2: 21

10 mV, 60 Hz Reject, Slow Range ;CR510, CR10(X) (7.5 mV); 21X, CR7 (5 mV)

3: 9

DIFF

Channel

;White wire (9H); Green wire (9L)

4: 1

Loc [ HFP01 ]

5: 14.90

Mult

;Enter Calibration

6: 0

Offset

6.4 Soil Heat Flux and Storage

The soil heat flux at the surface is calculated by adding the measured flux at a
fixed depth, d, to the energy stored in the layer above the heat flux plates. The
specific heat of the soil and the change in soil temperature,

ΔT

s

, over the

output interval, t, are required to calculate the stored energy.

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