; NOTE: the following CSI logger program annotations may contain errors. ; From an experimental perl module, Campbell::Program, by fnkci@uaf.edu ; output generated on host shand at Sat Jul 11 09:04:55 2015 local time MODE 13 13:00 1 01:} MODE 14 MODE 1 SCAN RATE 60 1:P10 ; BATT VOLT 1:50 ; store in location 50 2:P17 ; INTERNAL TEMP 1:49 ; store in location 49 3:P3 ; PULSE 1:1 ; 1 repetition 2:7 ; from control port C7 3:2 ; as switch closure 4:1 ; store result in location 1 5:.0133 ; with multiplier * 0.0133 6:.447 ; and with offset + 0.447 4:P3 ; PULSE 1:1 ; 1 repetition 2:2 ; from pulse counter P2 3:2 ; as switch closure 4:2 ; store result in location 2 5:.0133 ; with multiplier * 0.0133 6:.447 ; and with offset + 0.447 5:P3 ; PULSE 1:1 ; 1 repetition 2:1 ; from pulse counter P1 3:21 ; as low level AC, discard long interval counts, output frequency (Hz) 4:3 ; store result in location 3 5:.098 ; with multiplier * 0.098 6:.447 ; and with offset + 0.447 6:P3 ; PULSE 1:1 ; 1 repetition 2:8 ; from control port C8 3:2 ; as switch closure 4:29 ; store result in location 29 5:.1 ; with multiplier * 0.1 6:0 ; and with offset + 0 7:P86 ; DO 1:43 ; set port C3 high 8:P86 ; DO 1:74 ; pulse port C4 9:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 10:P2 ; VOLT (DIFF) 1:1 ; 1 repetition 2:2 ; using 7.5 mV range, slow integration 3:2 ; from input channel DIFF2 4:15 ; store result in location 15 5:213.16 ; with multiplier * 213.16 6:0 ; and with offset + 0 11:P86 ; DO 1:74 ; pulse port C4 12:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 13:P2 ; VOLT (DIFF) 1:1 ; 1 repetition 2:2 ; using 7.5 mV range, slow integration 3:2 ; from input channel DIFF2 4:16 ; store result in location 16 5:221.24 ; with multiplier * 221.24 6:0 ; and with offset + 0 14:P86 ; DO 1:74 ; pulse port C4 15:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 16:P2 ; VOLT (DIFF) 1:1 ; 1 repetition 2:3 ; using 25 mV range, slow integration 3:2 ; from input channel DIFF2 4:17 ; store result in location 17 5:100 ; with multiplier * 100 6:0 ; and with offset + 0 17:P86 ; DO 1:74 ; pulse port C4 18:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 19:P2 ; VOLT (DIFF) 1:1 ; 1 repetition 2:3 ; using 25 mV range, slow integration 3:2 ; from input channel DIFF2 4:18 ; store result in location 18 5:104.28 ; with multiplier * 104.28 6:0 ; and with offset + 0 20:P86 ; DO 1:74 ; pulse port C4 21:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 22:P2 ; VOLT (DIFF) 1:1 ; 1 repetition 2:4 ; using 250 mV range, slow integration 3:2 ; from input channel DIFF2 4:19 ; store result in location 19 5:70.423 ; with multiplier * 70.423 6:0 ; and with offset + 0 23:P86 ; DO 1:74 ; pulse port C4 24:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 25:P6 ; FULL BR 1:1 ; 1 repetition 2:5 ; using 2500 mV range, slow integration 3:2 ; from input channel DIFF2 4:2 ; drive excitation channel E2 5:2500 ; with 2500 mV excitation 6:20 ; store result in location 20 7:1 ; with multiplier * 1 8:0 ; and with offset + 0 26:P86 ; DO 1:74 ; pulse port C4 27:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:5 ; delay 0.05 sec after excitation 4:0 ; with 0 mV excitation 28:P4 ; EX-DEL-SE 1:1 ; 1 repetition 2:15 ; using 2500 mV range, fast integration 3:3 ; from input channel SE3 4:2 ; drive excitation channel E2 5:1 ; with delay 0.01 sec 6:2500 ; with 2500 mV excitation 7:4 ; store result in location 4 8:.146 ; with multiplier * 0.146 9:0 ; and with offset + 0 29:P86 ; DO 1:74 ; pulse port C4 30:P86 ; DO 1:53 ; set port C3 low 31:P20 ; PORT SET 1:9997 ; P8=nc, P7=nc, P6=nc, P5=output 2:9999 ; P4=nc, P3=nc, P2=nc, P1=nc 32:P86 ; DO 1:45 ; set port C5 high 33:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:15 ; delay 0.15 sec after excitation 4:0 ; with 0 mV excitation 34:P1 ; VOLT (SE) 1:3 ; 3 repetitions 2:5 ; using 2500 mV range, slow integration 3:7 ; from input channel SE7 4:5 ; store result in location 5 5:.1 ; with multiplier * 0.1 6:-40 ; and with offset + -40 35:P1 ; VOLT (SE) 1:3 ; 3 repetitions 2:5 ; using 2500 mV range, slow integration 3:10 ; from input channel SE10 4:8 ; store result in location 8 5:.1 ; with multiplier * 0.1 6:0 ; and with offset + 0 36:P92 ; IF TIME 1:59 ; is 59 minutes into 2:60 ; 60 minute interval 3:30 ; then DO... 37:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:85 ; delay 0.85 sec after excitation 4:0 ; with 0 mV excitation 38:P1 ; VOLT (SE) 1:1 ; 1 repetition 2:5 ; using 2500 mV range, slow integration 3:5 ; from input channel SE5 4:11 ; store result in location 11 5:.08 ; with multiplier * 0.08 6:850 ; and with offset + 850 39:P95 ; END IF-DO 40:P86 ; DO 1:55 ; set port C5 low 41:P92 ; IF TIME 1:0 ; is 0 minutes into 2:60 ; 60 minute interval 3:10 ; set output flag F0 high, output array id 141 42:P77 ; REAL TIME 1:1210 ; year + day(midnight=prev.day) + hour-minute(midnight=2400) 43:P71 ; AVERAGE 1:2 ; 2 repetitions 2:1 ; value from location 1 44:P69 ; WIND VECTOR 1:1 ; 1 repetition 2:15 ; 15 scans for standard deviation subinterval 3:0 ; avg spd, avg dir, std dev of dir (Yamartino), for anem. & vane 4:3 ; wind speed from location 3 5:4 ; wind direction from location 4 45:P70 ; SAMPLE 1:1 ; 1 repetition 2:4 ; value from location 4 46:P71 ; AVERAGE 1:6 ; 6 repetitions 2:5 ; value from location 5 47:P70 ; SAMPLE 1:1 ; 1 repetition 2:11 ; value from location 11 48:P72 ; TOTALIZE 1:1 ; 1 repetition 2:29 ; value from location 29 49:P71 ; AVERAGE 1:7 ; 7 repetitions 2:15 ; value from location 15 50:P71 ; AVERAGE 1:2 ; 2 repetitions 2:49 ; value from location 49 51:P91 ; IF FLAG/PORT 1:56 ; if port C6 is low 2:30 ; then DO... 52:P96 ; SERIAL OUT 1:71 ; storage module 1 53:P95 ; END IF-DO 54:P20 ; PORT SET 1:9979 ; P8=nc, P7=nc, P6=output, P5=nc 2:9999 ; P4=nc, P3=nc, P2=nc, P1=nc 55:P92 ; IF TIME 1:0 ; is 0 minutes into 2:60 ; 60 minute interval 3:30 ; then DO... 56:P89 ; IF X < = > F 1:50 ; if X from location 50 2:4 ; is < 3:12.2 ; fixed value 12.2 4:21 ; set flag F1 low 57:P89 ; IF X < = > F 1:50 ; if X from location 50 2:3 ; is >= 3:11.8 ; fixed value 11.8 4:46 ; set port C6 high 58:P95 ; END IF-DO 59:P92 ; IF TIME 1:720 ; is 720 minutes into 2:1440 ; 1440 minute interval 3:46 ; set port C6 high 60:P92 ; IF TIME 1:6 ; is 6 minutes into 2:60 ; 60 minute interval 3:30 ; then DO... 61:P91 ; IF FLAG/PORT 1:21 ; if flag F1 is low 2:56 ; set port C6 low 62:P95 ; END IF-DO 63:P0 ; NOP MODE 2 SCAN RATE 600 1:P86 ; DO 1:41 ; set port C1 high 2:P87 ; LOOP 1:0 ; execute on every pass 2:14 ; for 14 iterations 3:P86 ; DO 1:72 ; pulse port C2 4:P22 ; EXCIT w/DEL 1:1 ; drive excitation channel E1 2:0 ; delay 0 sec w/ excitation 3:3 ; delay 0.03 sec after excitation 4:0 ; with 0 mV excitation 5:P4 ; EX-DEL-SE 1:1 ; 1 repetition 2:5 ; using 2500 mV range, slow integration 3:6 ; from input channel SE6 4:1 ; drive excitation channel E1 5:1 ; with delay 0.01 sec 6:2500 ; with 2500 mV excitation 7:31-- ; store result in locations 31 through 44 8:.0004 ; with multiplier * 0.0004 9:0 ; and with offset + 0 6:P95 ; END LOOP 7:P86 ; DO 1:51 ; set port C1 low 8:P59 ; BRIDGE TRANSFORM, Rs=Rf(X/(1-X)) 1:14 ; 14 repetitions 2:31 ; Rs replaces X in location 31 3:4 ; with multiplier Rf = 4 9:P92 ; IF TIME 1:0 ; is 0 minutes into 2:60 ; 60 minute interval 3:10 ; set output flag F0 high, output array id 209 10:P77 ; REAL TIME 1:1210 ; year + day(midnight=prev.day) + hour-minute(midnight=2400) 11:P71 ; AVERAGE 1:12 ; 12 repetitions 2:31 ; value from location 31 12:P91 ; IF FLAG/PORT 1:56 ; if port C6 is low 2:30 ; then DO... 13:P96 ; SERIAL OUT 1:71 ; storage module 1 14:P95 ; END IF-DO 15:P0 ; NOP MODE 3 1:P0 ; NOP MODE 10 1:50 2:111 3:0 4:1097729 5:2048 MODE 12 1:0 1:0 1:0 MODE 13 13:8 8:0 MODE 13 13:9 9:0 MODE 13 13:10 10:0 MODE 13 13:13 13:0 MODE 11 1:23517 2:27061 3:2304 4:9 5:99 6:9801 7:22 8:3.2205 9:1 10:00-- 11:.375 ;; CAUTION: experimental output tags follow: ;; ;; output array: ;; 1. id_141 ;; 2. year ;; 3. day ;; 4. hhmm ;; 5. average-Loc1.C7 ;; 6. average-Loc2.P2 ;; 7. vector_avg_spd-Loc3.P1 ;; 8. vector_avg_dir-Loc4.SE3 ;; 9. vector_dir_std_dev ;; 10. sample-Loc4.SE3 ;; 11. average-Loc5.SE7 ;; 12. average-Loc6 ;; 13. average-Loc7 ;; 14. average-Loc8.SE10 ;; 15. average-Loc9 ;; 16. average-Loc10 ;; 17. sample-Loc11.SE5 ;; 18. totalize-Loc29.C8 ;; 19. average-Loc15.DIFF2 ;; 20. average-Loc16.DIFF2 ;; 21. average-Loc17.DIFF2 ;; 22. average-Loc18.DIFF2 ;; 23. average-Loc19.DIFF2 ;; 24. average-Loc20.DIFF2 ;; 25. average-Loc21 ;; 26. average-Loc49.panel_temperature_C ;; 27. average-Loc50.logger_battery_voltage ;; ;; output array: ;; 1. id_209 ;; 2. year ;; 3. day ;; 4. hhmm ;; 5. average-Loc31 ;; 6. average-Loc32 ;; 7. average-Loc33 ;; 8. average-Loc34 ;; 9. average-Loc35 ;; 10. average-Loc36 ;; 11. average-Loc37 ;; 12. average-Loc38 ;; 13. average-Loc39 ;; 14. average-Loc40 ;; 15. average-Loc41 ;; 16. average-Loc42