Model hfp01sc self-calibrating soil heat flux plate revision: 8/12 c o p y r i g h t © 2 0 0 2 - 2 0 1 2 c a m p b e l l s c i e n t i f i c , i n c ..
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Hfp01sc table of contents pdf viewers: these page numbers refer to the printed version of this document. Use the pdf reader bookmarks tab for links to specific sections. 1. Introduction..................................................................1 2. Cautionary statements..........................
Model hfp01sc self-calibrating soil heat flux plate 1. Introduction the hfp01sc self-calibrating heat flux sensor measures soil heat flux, typically for energy-balance or bowen-ratio flux systems. It is intended for applications requiring the highest possible degree of measurement accuracy. At least...
Model hfp01sc self-calibrating soil heat flux plate in order to measure soil heat flux at the surface, several hfp01scs are used to measure the soil heat flux at a depth of eight centimeters. A tcav averaging soil thermocouple is used to measure the temporal change in temperature of the soil layer a...
Model hfp01sc self-calibrating soil heat flux plate average power consumption: 0.02 to 0.04 w sensor: thermopile and film heater heater voltage input: 9 to 15 vdc heater voltage output: 0 to 2 vdc expected accuracy: ±3% of reading sensitivity (nominal): 50 μv w -1 m -2 sensor resistance (nominal): 2...
Model hfp01sc self-calibrating soil heat flux plate 6. Installation 6.1 placement in soil the hfp01sc soil heat flux plates, the tcav averaging soil temperature probes, and the cs616 water content reflectometer are installed as shown in figure 6-1. The location of the heat flux plates and thermocoup...
Model hfp01sc self-calibrating soil heat flux plate h uk seflu x h e at flux pl at e signal (white) signal reference (green) shield (clear) heater resistor signal (yellow) heater resistor signal reference (purple) shield (clear) power (red) power reference (black) figure 6-2. Hfp01sc plate table 6-1...
Model hfp01sc self-calibrating soil heat flux plate table 6-2. Datalogger connections for a differential measurement description color cr10(x) cr3000, cr5000, cr23x cr800, cr850, cr1000 sensor signal white differential input (h) differential input (h) differential input (h) sensor signal reference g...
Model hfp01sc self-calibrating soil heat flux plate table 6-3. Wiring for example 1 description color cr5000 sensor signal #1 white 11h sensor signal reference #1 green 11l shield #1 clear sensor signal #2 white 12h sensor signal reference #2 green 12l shield #2 clear sensor signal #3 white 13h sens...
Model hfp01sc self-calibrating soil heat flux plate example 1. Sample cr5000 program using a differential measurement instruction 'cr5000 series datalogger const output_interval = 30 'online mean output interval in minutes. Const cal_interval = 1440 'hfp01sc insitu calibration interval (minutes). Co...
Model hfp01sc self-calibrating soil heat flux plate beginprog 'hfp01sc factory calibration in w/(m^2 mv) = 1000/sensitivity. Shf_cal(1) = hfp01sc_cal_1 shf_cal(2) = hfp01sc_cal_2 shf_cal(3) = hfp01sc_cal_3 shf_cal(4) = hfp01sc_cal_4 scan (100,msec,3,0) 'measure the hfp01sc soil heat flux plates. Vol...
Model hfp01sc self-calibrating soil heat flux plate example 2. Sample cr10(x) program using a single-ended measurement instruction ;{cr10x} ; *table 1 program 01: 1 execution interval (seconds) ;measure hfp01sc on smaller range. ; 1: volt (se) (p1) 1: 1 reps 2: 22 7.5 mv 60 hz rejection range 3: 1 s...
Model hfp01sc self-calibrating soil heat flux plate ;apply custom calibration to the raw soil heat flux measurement. ; 9: z=x*y (p36) 1: 2 x loc [ shf_mv ] 2: 3 y loc [ cal ] 3: 1 z loc [ shf ] ;output data. ; 10: if time is (p92) 1: 0 minutes (seconds --) into a 2: 20 interval (same units as above)...
Model hfp01sc self-calibrating soil heat flux plate ;perform in-situ calibratation. ; 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 se...
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...
Model hfp01sc self-calibrating soil heat flux plate -input locations- 1 shf 2 shf_mv 3 cal 4 mv_0 5 mv_180 6 mv_end 7 v_rf 8 shf_mv_a 9 work table 6-5. Wiring for example 3 description color cr23x sensor signal white 9h sensor signal reference green 9l shield clear heater resistor signal yellow 10h ...
Model hfp01sc self-calibrating soil heat flux plate ;load in the factory calibration. ; 3: if (xf) (p89) 1: 3 x loc [ cal ] 2: 1 = 3: 0 f 4: 30 then do ;factory calibration in w/(m^2 mv) = 1000/sensitivity. ; 4: z=f (p30) 1: 1 f ; 2: 0 exponent of 10 3: 3 z loc [ cal ] 5: end (p95) ;use data from th...
Model hfp01sc self-calibrating soil heat flux plate 14: average (p71) 1: 1 reps 2: 1 loc [ shf ] 15: do (p86) 1: 29 set intermed. Proc. Disable flag low (flag 9) 16: sample (p70) 1: 1 reps 2: 3 loc [ cal ] ;add other processing here. ;call calibration routine. ; 17: do (p86) 1: 8 call subroutine 8 *...
Model hfp01sc self-calibrating soil heat flux plate ;measure voltage across current shunt resistor during calibration. ;this measurement is used to compute power. ; 8: volt (diff) (p2) 1: 1 reps 2: 25 5000 mv, 60 hz reject, fast range 3: 10 diff channel 4: 7 loc [ v_rf ] 5: .001 mult 6: 0 offset 9: ...
Model hfp01sc self-calibrating soil heat flux plate 19: z=x-y (p35) 1: 9 x loc [ work ] 2: 5 y loc [ mv_180 ] 3: 9 z loc [ work ] 20: z=abs(x) (p43) 1: 9 x loc [ work ] 2: 9 z loc [ work ] 21: z=x/y (p38) 1: 3 x loc [ cal ] 2: 9 y loc [ work ] 3: 3 z loc [ cal ] 22: end (p95) 23: end (p95) end progr...
Model hfp01sc self-calibrating soil heat flux plate table 6-6. Sensor wiring for example 4 description color cr10x a21rel-12 sensor signal #1 white 1h sensor signal #2 white 1l sensor signal #3 white 2h sensor signal #4 white 2l sensor signal #5 white 3h sensor signal #6 white 3l all signal referenc...
Model hfp01sc self-calibrating soil heat flux plate example 4. Sample cr10x program using external power and relay ;{cr10x} ; *table 1 program 01: 1 execution interval (seconds) ;measure hfp01sc on smallest range. ; 1: volt (se) (p1) 1: 6 reps 2: 22 7.5 mv 60 hz rejection range 3: 1 se channel 4: 7 ...
Model hfp01sc self-calibrating soil heat flux plate 7: z=f (p30) 1: 1 f ; 2: 0 exponent of 10 3: 16 z loc [ cal_4 ] 8: z=f (p30) 1: 1 f ; 2: 0 exponent of 10 3: 17 z loc [ cal_5 ] 9: z=f (p30) 1: 1 f ; 2: 0 exponent of 10 3: 18 z loc [ cal_6 ] 10: end (p95) 11: beginning of loop (p87) 1: 0 delay 2: ...
Model hfp01sc self-calibrating soil heat flux plate ;do not include that calibration data in the soil heat flux. ; 20: if flag/port (p91) 1: 18 do if flag 8 is high 2: 19 set intermed. Proc. Disable flag high (flag 9) 21: average (p71)^21989 1: 6 reps 2: 1 loc [ shf_1 ] 22: do (p86) 1: 29 set interm...
Model hfp01sc self-calibrating soil heat flux plate ;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...
Model hfp01sc self-calibrating soil heat flux plate 18: beginning of loop (p87) 1: 0 delay 2: 6 loop count 19: z=x (p31) 1: 7 -- x loc [ shf_mv_1 ] 2: 31 -- z loc [ mv_end_1 ] 20: z=x*y (p36) 1: 37 -- x loc [ v_rf_1 ] 2: 37 -- y loc [ v_rf_1 ] 3: 13 -- z loc [ cal_1 ] 21: z=x*f (p37) 1: 13 -- x loc ...
Model hfp01sc self-calibrating soil heat flux plate 5 shf_5 0 0 0 6 shf_6 0 0 0 7 shf_mv_1 1 5 2 8 shf_mv_2 1 0 1 9 shf_mv_3 1 0 1 10 shf_mv_4 1 0 1 11 shf_mv_5 1 0 1 12 shf_mv_6 1 0 1 13 cal_1 5 5 3 14 cal_2 9 0 1 15 cal_3 9 0 1 16 cal_4 9 0 1 17 cal_5 9 0 1 18 cal_6 9 0 1 19 mv_0_1 9 1 1 20 mv_0_2...
Model hfp01sc self-calibrating soil heat flux plate ( ) c c c c s b d m w b d v w = + = + ρ θ ρ θ ρ c w (1) θ ρ ρ θ m w b v = (2) where c s is the heat capacity of moist soil, ρ b is bulk density, ρ w is the density of water, c d is the heat capacity of a dry mineral soil, θ m is soil water content ...
Model hfp01sc self-calibrating soil heat flux plate table 6-8. Hukseflux and campbell scientific variable names description hukseflux campbell scientific soil heat flux ϕ shf output of sensor in mv v sen shf_mv 1/sensitivity 1/e sen2 cal output of sensor during calibration at t=0 seconds v (0) mv_0 ...
Model hfp01sc self-calibrating soil heat flux plate 28.
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