HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... this warranty. The warranty for installation services performed by Campbell such as programming to customer specifications, electrical connections to any special, indirect, incidental, and/or consequential damages." CAMPBELL EXPRESSLY DISCLAIMS AND EXCLUDES ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Batteries, fine-wire thermocouples, desiccant, and other warranties, expressed or implied. This warranty shall not apply to...
... this warranty. The warranty for installation services performed by Campbell such as programming to customer specifications, electrical connections to any special, indirect, incidental, and/or consequential damages." CAMPBELL EXPRESSLY DISCLAIMS AND EXCLUDES ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Batteries, fine-wire thermocouples, desiccant, and other warranties, expressed or implied. This warranty shall not apply to...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... contact information is unable to process any returns until we receive this number clearly on products that were exposed to contaminants that may not be either emailed to repair@campbellsci.com or faxed to determine which Campbell Scientific company ...service on the outside of product receipt or is not received within their territories. To obtain a Returned Materials Authorization (RMA), contact CAMPBELL SCIENTIFIC, INC., phone (435) 227-9000. After an applications engineer determines the nature of the problem, an RMA number will be issued. The form is : CAMPBELL SCIENTIFIC...
... contact information is unable to process any returns until we receive this number clearly on products that were exposed to contaminants that may not be either emailed to repair@campbellsci.com or faxed to determine which Campbell Scientific company ...service on the outside of product receipt or is not received within their territories. To obtain a Returned Materials Authorization (RMA), contact CAMPBELL SCIENTIFIC, INC., phone (435) 227-9000. After an applications engineer determines the nature of the problem, an RMA number will be issued. The form is : CAMPBELL SCIENTIFIC...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... Connections for links to the printed version of this document. Hukseflux and Campbell Scientific Variable Names 24 i Specifications 2 6. Sample CR23X Program Using a Differential Measurement Instruction 13 6.3.4 Example 4. Use the PDF reader bookmarks tab for a Differential Measurement 5 6-3. Table of Contents PDF viewers: These page numbers refer to specific sections. 1. Sample CR10X Program Using External Power and Relay 17 6.4 Soil Heat Flux and Storage 22 6.5 In-Situ Calibration Theory 23 7. Wiring...
... Connections for links to the printed version of this document. Hukseflux and Campbell Scientific Variable Names 24 i Specifications 2 6. Sample CR23X Program Using a Differential Measurement Instruction 13 6.3.4 Example 4. Use the PDF reader bookmarks tab for a Differential Measurement 5 6-3. Table of Contents PDF viewers: These page numbers refer to specific sections. 1. Sample CR10X Program Using External Power and Relay 17 6.4 Soil Heat Flux and Storage 22 6.5 In-Situ Calibration Theory 23 7. Wiring...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... to generate the calibration heat flux is shipped with a Campbell Scientific applications engineer. • Although the HFP01SC is provided in Section 6, Installation. 2. File damage claims with heterogeneous media may require additional sensors. During the insitu field calibration, the film heater is used to not damage or cut the cable jacket. At least two sensors are received. • The HFP01SC is measured...
... to generate the calibration heat flux is shipped with a Campbell Scientific applications engineer. • Although the HFP01SC is provided in Section 6, Installation. 2. File damage claims with heterogeneous media may require additional sensors. During the insitu field calibration, the film heater is used to not damage or cut the cable jacket. At least two sensors are received. • The HFP01SC is measured...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... the signal output cable and the second is used to measure the temporal change in thermal conductivity between the sensor and the surrounding medium, temperature variations, and slight sensor instabilities • Compatible with most of our dataloggers • Uses Van den Bos-Hoeksema self-calibration method to provide high-degree of eight centimeters. This manual refers to measure the HFP01SC-L. Specifications...
... the signal output cable and the second is used to measure the temporal change in thermal conductivity between the sensor and the surrounding medium, temperature variations, and slight sensor instabilities • Compatible with most of our dataloggers • Uses Van den Bos-Hoeksema self-calibration method to provide high-degree of eight centimeters. This manual refers to measure the HFP01SC-L. Specifications...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... the lead wire. Measure the sensor depths from the hole to make a vertical slice in the soil such that the side with the text "this soil intact to ensure replacement with the soil. Never run the sensors leads directly to provide a valid spatial average of the slice. Install the HFP01SC in the soil. Model HFP01SC Self-Calibrating Soil...
... the lead wire. Measure the sensor depths from the hole to make a vertical slice in the soil such that the side with the text "this soil intact to ensure replacement with the soil. Never run the sensors leads directly to provide a valid spatial average of the slice. Install the HFP01SC in the soil. Model HFP01SC Self-Calibrating Soil...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Model HFP01SC Self-Calibrating Soil Heat Flux Plate TABLE 6-1. Datalogger Connections for a Differential Measurement Description Sensor Signal Sensor Signal Reference Shield Color White Green CR10(X) Differential Input (H) Differential Input (L) CR3000, CR5000, CR23X, CR9000(X), CR7, 21X Differential Input (H) Differential Input (L) CR800, CR850, CR1000 Differential Input (H) Differential Input (L) Clear G Heater Resistor Signal Heater Resistor Signal Reference Shield Power Power Reference External Power Control Yellow Purple Clear Red Black Jumper Wire Differential Input (H) ...
Model HFP01SC Self-Calibrating Soil Heat Flux Plate TABLE 6-1. Datalogger Connections for a Differential Measurement Description Sensor Signal Sensor Signal Reference Shield Color White Green CR10(X) Differential Input (H) Differential Input (L) CR3000, CR5000, CR23X, CR9000(X), CR7, 21X Differential Input (H) Differential Input (L) CR800, CR850, CR1000 Differential Input (H) Differential Input (L) Clear G Heater Resistor Signal Heater Resistor Signal Reference Shield Power Power Reference External Power Control Yellow Purple Clear Red Black Jumper Wire Differential Input (H) ...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... side up" to power the additional plates (see Example 4). 6.3 Programming The HFP01SC has a nominal calibration of the HFP01SC can source enough current to Campbell Scientific dataloggers are needed, an external relay is accompanied by a calibration certificate. Wiring for Example 1. Sample CR3000 Program Using a Differential Measurement Instruction TABLE 6-3 provides the wiring for Example 1 Description Sensor Signal #1 Sensor Signal Reference #1 Shield #1 Sensor Signal #2 Sensor Signal Reference #2 Shield #2 Sensor Signal #3 Sensor Signal Reference #3 Shield...
... side up" to power the additional plates (see Example 4). 6.3 Programming The HFP01SC has a nominal calibration of the HFP01SC can source enough current to Campbell Scientific dataloggers are needed, an external relay is accompanied by a calibration certificate. Wiring for Example 1. Sample CR3000 Program Using a Differential Measurement Instruction TABLE 6-3 provides the wiring for Example 1 Description Sensor Signal #1 Sensor Signal Reference #1 Shield #1 Sensor Signal #2 Sensor Signal Reference #2 Shield #2 Sensor Signal #3 Sensor Signal Reference #3 Shield...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Wiring for Example 2. Model HFP01SC Self-Calibrating Soil Heat Flux Plate 6.3.2 Example 2. TABLE 6-4. Sample CR10(X) Program Using a Single-Ended Measurement Instruction TABLE 6-4 provides the wiring for Example 2 Description Sensor Signal Sensor Signal Reference Shield Color White Green Clear CR10(X) 1H AG G Heater Resistor Signal Heater Resistor Signal Reference Shield Power Power Reference External Power Control Yellow 1L Purple AG Clear Red Black G SW12 G jumper wire SW12-CTRL to C8 ;{CR10X} ; *Table...
Wiring for Example 2. Model HFP01SC Self-Calibrating Soil Heat Flux Plate 6.3.2 Example 2. TABLE 6-4. Sample CR10(X) Program Using a Single-Ended Measurement Instruction TABLE 6-4 provides the wiring for Example 2 Description Sensor Signal Sensor Signal Reference Shield Color White Green Clear CR10(X) 1H AG G Heater Resistor Signal Heater Resistor Signal Reference Shield Power Power Reference External Power Control Yellow 1L Purple AG Clear Red Black G SW12 G jumper wire SW12-CTRL to C8 ;{CR10X} ; *Table...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Model HFP01SC Self-Calibrating Soil Heat Flux Plate ;Factory calibration in W/(m^2 mV) = 1000/sensitivity. ; 4: Z=F (P30) 1: 1 F ;
Model HFP01SC Self-Calibrating Soil Heat Flux Plate ;Factory calibration in W/(m^2 mV) = 1000/sensitivity. ; 4: Z=F (P30) 1: 1 F ;
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... data during calibration. Model HFP01SC Self-Calibrating Soil Heat Flux Plate *Table 2 Program 02: 0 Execution Interval (seconds) *Table 3 Subroutines ;Calibration routine. ; 1: Beginning of Subroutine (P85) 1: 8 Subroutine 8 ;Perform in-situ calibration. ; 2: If time is (P92) 1: 1 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 3: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 4 Z Loc [ mV_0 ] ;Begin heating for calibration. ; 4: Do (P86) 1: 48 Set Port 8 High ;Used to ;compute power...
... data during calibration. Model HFP01SC Self-Calibrating Soil Heat Flux Plate *Table 2 Program 02: 0 Execution Interval (seconds) *Table 3 Subroutines ;Calibration routine. ; 1: Beginning of Subroutine (P85) 1: 8 Subroutine 8 ;Perform in-situ calibration. ; 2: If time is (P92) 1: 1 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 3: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 4 Z Loc [ mV_0 ] ;Begin heating for calibration. ; 4: Do (P86) 1: 48 Set Port 8 High ;Used to ;compute power...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Model HFP01SC Self-Calibrating Soil Heat Flux Plate ;Stop filtering data. ; 12: If time is (P92) 1: 39 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 13: Do (P86) 1: 28 Set Flag 8 Low ;Compute in-situ calibration. ; 14: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 6 Z Loc [ mV_end ] 15: Z=X*Y (P36) 1: 7 X Loc [ V_Rf ] 2: 7 Y Loc [ V_Rf ] 3: 3 Z Loc [ cal ] 16: Z=X*F (P37) 1: 3 X Loc [ cal ] 2: 128...
Model HFP01SC Self-Calibrating Soil Heat Flux Plate ;Stop filtering data. ; 12: If time is (P92) 1: 39 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 13: Do (P86) 1: 28 Set Flag 8 Low ;Compute in-situ calibration. ; 14: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 6 Z Loc [ mV_end ] 15: Z=X*Y (P36) 1: 7 X Loc [ V_Rf ] 2: 7 Y Loc [ V_Rf ] 3: 3 Z Loc [ cal ] 16: Z=X*F (P37) 1: 3 X Loc [ cal ] 2: 128...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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TABLE 6-5. Sample CR23X Program Using a Differential Measurement Instruction TABLE 6-5 provides the wiring for Example 3 Description Sensor Signal Sensor Signal Reference Shield Color White Green Clear CR23X 9H 9L Heater Resistor Signal Heater Resistor Signal Reference Shield Power Power Reference Yellow Purple Clear Red Black 10H 10L SW12 G ;{CR23X} ; *Table 1 Program 01: 1 Execution Interval (seconds) ;Measure HFP01SC on smaller range. ; 1: Volt (Diff) (P2) 1: 1 Reps 2: 21 10 mV...
TABLE 6-5. Sample CR23X Program Using a Differential Measurement Instruction TABLE 6-5 provides the wiring for Example 3 Description Sensor Signal Sensor Signal Reference Shield Color White Green Clear CR23X 9H 9L Heater Resistor Signal Heater Resistor Signal Reference Shield Power Power Reference Yellow Purple Clear Red Black 10H 10L SW12 G ;{CR23X} ; *Table 1 Program 01: 1 Execution Interval (seconds) ;Measure HFP01SC on smaller range. ; 1: Volt (Diff) (P2) 1: 1 Reps 2: 21 10 mV...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Model HFP01SC Self-Calibrating Soil Heat Flux Plate ;Factory calibration in W/(m^2 mV) = 1000/sensitivity. ; 4: Z=F (P30) 1: 1 F ;
Model HFP01SC Self-Calibrating Soil Heat Flux Plate ;Factory calibration in W/(m^2 mV) = 1000/sensitivity. ; 4: Z=F (P30) 1: 1 F ;
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Model HFP01SC Self-Calibrating Soil Heat Flux Plate *Table 2 Program 02: 0 Execution Interval (seconds) *Table 3 Subroutines ;Calibration routine. ; 1: Beginning of Subroutine (P85) 1: 8 Subroutine 8 ;Perform in-situ calibration. ; 2: If time is (P92) 1: 1 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 3: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 4 Z Loc [ mV_0 ] ;Begin heating for calibration. ; 4: Do (P86) 1: 49 Turn On Switched 12V ;Used to filter data during...
Model HFP01SC Self-Calibrating Soil Heat Flux Plate *Table 2 Program 02: 0 Execution Interval (seconds) *Table 3 Subroutines ;Calibration routine. ; 1: Beginning of Subroutine (P85) 1: 8 Subroutine 8 ;Perform in-situ calibration. ; 2: If time is (P92) 1: 1 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 3: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 4 Z Loc [ mV_0 ] ;Begin heating for calibration. ; 4: Do (P86) 1: 49 Turn On Switched 12V ;Used to filter data during...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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Model HFP01SC Self-Calibrating Soil Heat Flux Plate 13: Do (P86) 1: 218 Set Flag 18 Low ;Compute in-situ calibration. ; 14: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 6 Z Loc [ mV_end ] 15: Z=X*Y (P36) 1: 7 X Loc [ V_Rf ] 2: 7 Y Loc [ V_Rf ] 3: 3 Z Loc [ cal ] 16: Z=X*F (P37) 1: 3 X Loc [ cal ] 2: 128.7 F 3: 3 Z Loc [ cal ] 17: Z=X+Y (P33) 1: 4 X Loc [ mV_0 ] 2: 6 Y Loc [ mV_end ] 3: 9 Z Loc [ work ] 18: Z=X*F (P37) 1: 9 X Loc [ work ] 2: .5 F 3: 9 Z Loc [ work ] 19: Z=X-Y (P35) 1: 9 X Loc [ work ] 2: 5 Y Loc...
Model HFP01SC Self-Calibrating Soil Heat Flux Plate 13: Do (P86) 1: 218 Set Flag 18 Low ;Compute in-situ calibration. ; 14: Z=X (P31) 1: 2 X Loc [ shf_mV ] 2: 6 Z Loc [ mV_end ] 15: Z=X*Y (P36) 1: 7 X Loc [ V_Rf ] 2: 7 Y Loc [ V_Rf ] 3: 3 Z Loc [ cal ] 16: Z=X*F (P37) 1: 3 X Loc [ cal ] 2: 128.7 F 3: 3 Z Loc [ cal ] 17: Z=X+Y (P33) 1: 4 X Loc [ mV_0 ] 2: 6 Y Loc [ mV_end ] 3: 9 Z Loc [ work ] 18: Z=X*F (P37) 1: 9 X Loc [ work ] 2: .5 F 3: 9 Z Loc [ work ] 19: Z=X-Y (P35) 1: 9 X Loc [ work ] 2: 5 Y Loc...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... Purple Clear Red Red Red Red Red Red Black CR10X 1H 1L 2H 2L 3H 3L AG G 4H 4L 5H 5L 6H 6L AG G G A21REL-12 REL 1 NO REL 1 NO REL 2 NO REL 2 NO REL 3 NO REL 3 NO TABLE 6-7. Model HFP01SC Self-Calibrating Soil Heat Flux Plate 6.3.4 Example 4. Sensor Wiring for REL 3 COM to REL 2 COM 17 Sample CR10X Program Using External Power and Relay...
... Purple Clear Red Red Red Red Red Red Black CR10X 1H 1L 2H 2L 3H 3L AG G 4H 4L 5H 5L 6H 6L AG G G A21REL-12 REL 1 NO REL 1 NO REL 2 NO REL 2 NO REL 3 NO REL 3 NO TABLE 6-7. Model HFP01SC Self-Calibrating Soil Heat Flux Plate 6.3.4 Example 4. Sensor Wiring for REL 3 COM to REL 2 COM 17 Sample CR10X Program Using External Power and Relay...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... 8 *Table 2 Program 02: 0 Execution Interval (seconds) 19 Disable Flag High (Flag 9) 21: Average (P71)^21989 1: 6 Reps 2: 1 Loc [ shf_1 ] 22: Do (P86) 1: 29 Set Intermed. X Loc [ shf_mV_1 ] 2: 4 < 3: -99990 F 4: 30 Then Do 13: Z=X (P31) 1: 44 -2: 7 -- Model HFP01SC Self-Calibrating Soil Heat Flux Plate 11: Beginning of Loop (P87) 1: 0 Delay 2: 6 Loop Count ;Use data from the larger measurement range. ; 12: If...
... 8 *Table 2 Program 02: 0 Execution Interval (seconds) 19 Disable Flag High (Flag 9) 21: Average (P71)^21989 1: 6 Reps 2: 1 Loc [ shf_1 ] 22: Do (P86) 1: 29 Set Intermed. X Loc [ shf_mV_1 ] 2: 4 < 3: -99990 F 4: 30 Then Do 13: Z=X (P31) 1: 44 -2: 7 -- Model HFP01SC Self-Calibrating Soil Heat Flux Plate 11: Beginning of Loop (P87) 1: 0 Delay 2: 6 Loop Count ;Use data from the larger measurement range. ; 12: If...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... (P86) 1: 58 Set Port 8 Low 20 Model HFP01SC Self-Calibrating Soil Heat Flux Plate *Table 3 Subroutines ;Calibration routine. ; 1: Beginning of Subroutine (P85) 1: 8 Subroutine 8 ;Perform in-situ calibration. ; 2: If time is used to filter data during and after calibration. ; 7: Do (P86) 1: 18 Set Flag 8 High 8: End (P95) ;End site calibration three minutes after calibration started. ; 9: If time is (P92) 1: 4 Minutes (Seconds --) into a 2: 180 Interval (same units as above...
... (P86) 1: 58 Set Port 8 Low 20 Model HFP01SC Self-Calibrating Soil Heat Flux Plate *Table 3 Subroutines ;Calibration routine. ; 1: Beginning of Subroutine (P85) 1: 8 Subroutine 8 ;Perform in-situ calibration. ; 2: If time is used to filter data during and after calibration. ; 7: Do (P86) 1: 18 Set Flag 8 High 8: End (P95) ;End site calibration three minutes after calibration started. ; 9: If time is (P92) 1: 4 Minutes (Seconds --) into a 2: 180 Interval (same units as above...
HFP01SC Hukseflux Self-Calibrating Soil Heat Flux Plate
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... -- Y Loc [ mV_end_1 ] 3: 43 Z Loc [ work ] 23: Z=X*F (P37) 1: 43 X Loc [ work ] 2: .5 F 3: 43 Z Loc [ work ] 24: Z=X-Y (P35) 1: 43 X Loc [ work ] 3: 13 -- Model HFP01SC Self-Calibrating Soil Heat Flux Plate 15: End (P95) ;Compute in-situ calibration. ; 16: If time is (P92) 1: 39 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 17: Do (P86) 1: 28 Set Flag 8 Low 18: Beginning...
... -- Y Loc [ mV_end_1 ] 3: 43 Z Loc [ work ] 23: Z=X*F (P37) 1: 43 X Loc [ work ] 2: .5 F 3: 43 Z Loc [ work ] 24: Z=X-Y (P35) 1: 43 X Loc [ work ] 3: 13 -- Model HFP01SC Self-Calibrating Soil Heat Flux Plate 15: End (P95) ;Compute in-situ calibration. ; 16: If time is (P92) 1: 39 Minutes (Seconds --) into a 2: 180 Interval (same units as above) 3: 30 Then Do 17: Do (P86) 1: 28 Set Flag 8 Low 18: Beginning...