以上1~14まで
Contents
1. DTA100 FUT HS tmr GIONE oco SAU Ur OTRO MO2. 3 OTips 3 1cm 4mV 0 Scm 2mV
3. 800cm hue HYDRUS HP 33 CR1000 To measure both pressure and weight Declare Public Variables Public PTemp batt volt i Public P1 11 Public P2 11 Public P3 11 public balance
4. 5em 5cm 10cm 4 0
5. OWP4 l a D 6 OPC WP4 l WP4 ON 4mm WP4 WP4 OPEN LOAD
6. HEX Xx 50kPa 3cm 1 2
7. 3 19 lt RRR gt 1 2 1V 2 mV 2 50 100 cm CR1000 10X 23X 1 cm 4 mV 15 cm 30
8. Oy 7243 TDR Tektronix 1502B Cable Tester Campbell Science TDR100 2 Relative real and imaginary permittivity 0805010 O uni m 1e 2 1e 3 1e 4 1e 5 1e 6 1e 7 1e 8 1e 9 1e 10 1e 11 Frequency Hz 1 2 TOR Cable Tester Tektronix 15021 _ BNC Connector 3 IDR PC WinTDR PCTDR TACQ TDR WinTDR TDR100 23 OTDR TDR TDR 3 TDR
9. 29 0805024 OTDR TDR volt time 1 TDR Vr Vi TDR EC Z V BEC EC _ oc Zo Wo 1 LZ V x MEM L 120zL p V Vo sample step dn V step zero A S m 1 EC O K 2 i l4 Z Pr R p Dp
10. 6 WE WP4 TE 39
11. MEDILL HIF CK 2C 50zxEC 1 UP 3 2
12. DEAR READ 1 5 20 MPa HAL pF WP4 c Continuous WP4C p precise mode f fast mode 38 2 WP4 PC RS232C PC USB PC 9600 3 Tera Term MPa pF 5 1
13. 120cm 1 2 3 50c 1 LL a MM AA moo PEE Z tL Aoo m eE
14. 17 RER HEZJZET SEOBCOGXSBEZISRIT ZUCdEXx BUD HEY HV IL Mut Offsep OCRBasic 2 SE SE7 10 Public Variables Public Pressi 11 Presessz 11 zi Public PTemp batt volt Define Data Tables DataTable Test 1 1 Datalnterval 0 300 sec 10 Sample 1 PTemp IEEE4 Minimum 1 batt volt IEEE4 0 False Sample 1 Pressi ii IEEE4 Sample 1 Pressz 11 IEEE4 EndTable Main Program BeginProg Scan 5 5ec 0 0 Panellemp PTemp 60Hz Battery batt volt Measurement of pressure transducer For i 1 To 10 Voltse Pressi i 1 mV5000 6 1 0 60Hz 1 0 Voltse Press2 i 1 mV5000 7 1 9 60Hz 1 0 Next i AvgSpa Pressi 11 10 Pressi i1 Avgipa Pressz 11 10 Pre
15. 7 z E3 Setup Screen EZ Simplified View File View Network Help Std View Add Delete Edit Rename c Datalogger Information Datalogger Name CR 1000 Datalogger Type CR1000 CR1000 Direct Connect Connection COM Port COM Datalogger Settings Baud Rate 57600 PakBus Address 1 Security Code 0 Extra Response Time Os Max Time Online Oh Om Os Collection Schedule Scheduled Collection is OFF BAH BEBOETAUT 28wX Add Delete Edit Rename Edit 2 Main Connect Connect Screen Please select a station File Edit View Datalogger Help Connect Collect Now Custom Station Status File Control Num Display Graphs Ports amp Flags Stations Table Monitor Clocks CR1000 Adjusted Server Date Time Field v alus Station Date Time Check Set Pause Clock Update Program No Program Send Re
16. P10 ce pol lh er Cea ea CR10X Table 1 Program 01 10 Execution Interval seconds 10 Enter 1 Batt Voltage P10 1 1 Loc battery Loc battery 1 iCR10TCR 2 Temp 107 P11 1 1 Reps 2 7 SE Channel 7 Single End Channel 3 3 Excite all reps w E3 i E3 4 2 Loc reftemp 5 1 0 Mult 6 0 0 Offset 3 Internal Temperature P17 1 3 Loc inttemp 15 4 Thermocouple Temp DIFF P14 1 Reps 2 1 2 5 mV Slow Range 3 1 DIFF Channel 1 Differential channel 4 3 Type K Chromel Alumel 9
17. 10 LoggerNet Connect CR1000 CR1 r Connect Screen Please select a station File Edit View Datalogger Help Connect Collect Now Custom Station Status File Control Num Display Graphs Ports amp Flags Stations Table Monitor Clocks CR1000 Adjusted Server Date Time Field lv m Station Date Time Pause Clock Update Program No Program Send Notes List Alphabetically m WP 0 00 00 00 Stop Interval 00 m 01 s Connect PC PC COM port 12V Program Send CR1000 Clocks Adjusted Server Date Time PC
18. 15cm 30 OK CT 700cm 2 PA 850 PA 850 10cm PA 8S0 3 300cc
19. WinTDR E REDDAM gt TDR WinTDR Chapter 1 p6 A Simple Single Probe Walk Through 1 5 2 1 wc wv TDR Wc Kb 5 length impedance WinTDR Auto 0OK TDR
20. BOL OIF SYA AHS 60 9 1 2 EARL ENS BEL 2 Campbell du loss eat ati eatin NENNM 2 OK Ba
21. 3 50cc 100cc 30cc DAP Ev 3 l pF3 2 3bar pF3 2 15bar cm 24 pF kPa pF
22. KEMOD RS 232C COM GKI 2 RXD TXD 7 SG 3 3 Pin connections EEE A ae a DEE RxD ur Reeve das _ 3 Output Transmitdata 5 4 RIS Input Readytosend 5 CTS Output Cieeriosend DM DSR_ Output Datasetready 1 1 ee ET ame as the PRINT ke RE TER fo amc Same as the RE ZERO ke 8 25 Excluding 18 and ER LL NER Not connected 19 Note The signal names for the RS 232C are the same as those for the DTE side except TXD and RXD Circuits FG 4 RXD TXD RTS CTS DSR SG REE Balance RC NC 8 17 2025 71615 4 3 2 1 interior 3 un ooooopjlclooo o o Oo0z ISO metric screw row trend O 0000600000000 RS 232C COM Tx Rx G COM4 m AT IO Du CR1000 A amp D CU e
23. d WP4 WP4T WP4C WP4C Y 6 1 2mm 300g 5 10 20g WP4 2
24. 3 Salinity lab 0 600 cm 2 2 OEdlog 5 s CR23X Table 1 Program 01 10 Execution Interval seconds EDlog index F4 1 Beginning of Loop P87 1 0 Delay 2 10 Loop Count 110 2 Volt SE P1 SE 1 1 Reps 2 25 5000 mV 60 Hz Reject Fast Range 3 1 SEChannel SE 1 4 1 Loc press 10 location 1 10 press1 5 1 0 Mult 6 0 0 Offset 3 End P95 1 4 Spatial Average PS1 10
25. CR1000 RE PCTDR COG WinTDR X RRRB D gt 1 TDR100 PCTDR Tektoronix WinTDR 2 TDR100 EC 3 PCTDR WinTDR 28 OTDR100 CR10X CR1000 PC TDR100 CR10X TDR100 C1 C1 Data C2 C2 Clock C3 C3 Enable 12V 12V G Gnd 5 PC LoggerNet PC208W Gy ingle Se ae PAT UT ae E CRIOX Table 1 Program 01 20 Execution Interval seconds 20 1 TDR100 Measurement P119 1 00 SDM Address TDR100 SDM
26. Program CRBasic Editor File New CR1000 Program File 1 CR1000 3 2008 4 26 tc example CR Const Mult 1 Const Offset 0 Public PTemp Batt volt Public TC 3 0 Units PTemp degC Units TC degC DataTable Test 1 1 Datalnterval 0 1 min 60 Minimum 1 batt volt FP2 0 False Sample 1 PTemp FP2 5 Average 3 TC IEEE4 0 3 at 7 EndTable BeginProg Scan 1 Sec 3 0 PanelTemp PTemp 60Hz Battery Batt volt TCDiff TC 3 mV2_5C 1 TypeT Ptemp True 0 60Hz Mult Offset CallTable Test NextScan EndProg Compile Save and Compile MATS amp FIZ Compiled in PipelineMode
27. SE DIFF T DIFF 7 DiffChan High Low 8SE SEChan Ground Ground CR1000 LoggerNet Program CRBasic Editor CR1 LoggerNet Connect C
28. Topp 3 0ptions Wave Analysis 8 gt 1 2 TDR 2 3 Kb Topp 2 5 gt TDR TDR TDR 5 Ist Peak Reflection Point EC Multiplexing 26 130409 OTDR TDR100 PCTDR PCTDR TDR100 PC TDR100 TDR
29. Waveform Start Length FIC Waveform Start 2 30cm ILength 0 f fse t a Conversion from Dielectric Constant to Volumetric Water Content X SquareRoot Apparent Dielectric Constant La L PCTDR C Ledieu 0 1138 X 0 1758 KOBE 80 C User Defined Offset LO ke Fa gt C User Define CR1000 po Psxmn pafo papo pego kpo Offset d X Apparent Dielectric Constant La L 2 C Topp 0 0000043 X 3 0 00055 X 2 40 0292 X 0 053 L offset et User Defined E I an 00 Ar oo x40 koo l Probe Length x Cancel Help JO I 21 2 Settings Calibration function Volumetric Water Content User Defined
30. KNO HE 4 OTips 5 6 0 0 1
31. 0 r EZSetup Wizard CR1000 CR1000 Wizard Complete Progress Communication Setup Summary Introduction er The following is a summary of the datalogger setup Communication Setup Datalogger Information Datalogger Name CR 1000 Datalogger Settings Datalogger Type CR1000 3 Setup Summary Direct Connect Connection COM Port COM T Communication T est Datalogger Settings Datalogger Clock Baud Rate 57600 PakBus Address 1 Security Code 0 Extra Response Time Os Max Time Online Oh Om Os Send Program Data Files Scheduled Collection Wizard Complete Finish Cancel SummayHelp Next EZSetup Wizard CR1000 CR1000 Progress Communication Test Introduction You now have the option of testing communication with the datalogger This will Communication Setup ensure that the datalogger has been set up correctly The connection will be kept online so that other setup tasks can be performed i e check set clock Datalogger Settings program send Setup Summary Test Communication 3 Communication Test Yes Datalogger Clock No Send Program Data Fies Click Next to continue Scheduled Collection Wizard Complete Next
32. 2 1 a ZD BERT D AKC T ALT ISO EP VA 3500cc eene ir i 4 CR23X SE Succ Ea M LAM NN SM G N rn UU fo Um G 12V G LoggerNet
33. Ig amp LORIKEET S C go gS D g 80 1 e gi 3 5 FADH ER g 1 ZIT EEROR ER TDR Time Domain Reflectometry TDT HF FDR ADR 1 2 GPR Pop Ge
34. 10cm lt 1kPa pF2 1 pF3 pF4 1 OFF SD pF a ai H SHE 7J RED die E SESS Zh V EE
35. TDR100 PCTDR TDR100 PC lL TDR100 BNC im TDR100 RS232 PC Opin SDMX50 2 12VDC TDR100 TDR100 5 12V Ground Gem Cl C2 C3 PCTDR d RS m m ER an TDR pia lim misil mum EE 3 PC 57600 PCTDR 1 PCTDR 77 Continuous Update Caphure Overlay Ose rey mlhlm Calculate Bulk EC WuemrConwm 2 RE Port Baud rate gt 1 CBE 2091008 Spear Os 2 PCTDR Ode 3 Get Weveform 4 2 Cable V 1 Waveform Average 4 Points 251 PRRI RV Start Length 2 10 0 10m start 1 Length 30m
36. 1 1 24 080418 Hanging water method h 10 150 cm STAPH ZT THO ce Or 8 L1 2
37. 2 Vert Scale 1 2 200mp 1st peak Reflection point La Ed 2 0 2 La MENU Tektronix 1502B 3 TDR 1st Peak Reflection point 25 OPC TDR gt PC WinTDR DS PC WinTDR WinTDR Chapi p4 5 TAWave Form File Walk
38. Logger aat OLoggerNet CR1000 1 Main Setup Add EZSetup Wizard Progress Introduction 5 Introduction Communication Setup _ The EZSetup wizard will guide you through the process of setting up Datalogger Settings your datalogger Follow the instructions given and use the Previous and Next buttons below to Setup Summary navigate through the wizard Communication Test Click Next to continue Datalogger Clock Send Program Data Files Scheduled Collection Wizard Complete Next EZSetup Wizard Progress Datalogger Type and Name Introduction maris Select the datalogger type and enter a name gt Communication Setup i FA for your datalogger Datalogger Settings Setup Summary Communication Test Datalogger Clock Click Next to continue Send Program Data Files Scheduled Collection Wizard Complete Datalogger Help Next EZSetup Wizard CR1000 CR1000 Progress Connection Type Introduction Select the made of communication that will be used for this datalogaer 3 Communication Setup direct connection consists of a datalogger Datalogger Settings Phone Modem with an HS 232 port connected to the serial IP Port port on the computer If the datalogger
39. 0 2 00 Output Option AT 3 0001 MMMP Mux amp Probe Selection 1 SDMXS0 4 4 Waveform Averaging 5 1 Vp 6 251 Points 7 7 6 Cable Length meters 8 10 Window Length meters A 9 0 06 Probe Length meters 10 0 069 Probe Offset meters 11 1 Loc 12 1 Mult Mult 1 Offset 0 FAE Kd 13 0 Offset 2 TDR100 Measurement P119 Sim GN 00 SDM Address 3 Electrical Conductivity HJ l 2 3 0001 MMMP Mux amp Probe Selection 4 4 Waveform Averaging 5 Vp 6 7 8 MD 251 Points 7 6 Cable Length meters 10 Window Length meters 9 0 06 Probe Length meters v p LAS s e 10 0 069 Probe Offset meters 11 2 Loc 12 3 16 Mult Kp 13 0 0 Offset Do P86 1 10 Set Output Flag High Flag 0 Real Time P77 1 110 Day Hour Minute midnight 0000 sample P70 1 2 Reps 2 1 Loc TDR
40. lt gt e em 5 van Genuchten 3 130312 Sensor Data logger Tl CR10 10X 23X mI CR1000 TDR CEE Multiplexer Tektronix p m TDR100 SF FERS Decagon ft EEH Em50 Ero es TU I ALR ODE 27 gt PC Campbell D 4 2 PC 9 Excel Hos Campbell Sci CR1
41. 1 10 Swath location 10 2 1 First Loc pressl location 1 3 11 Avg Loc avepl locaton 111 Zavepl 5 Beginning of Loop P87 2 1 0 Delay 2 10 Loop Count 6 Volt SE P1 1 1 Reps 2 25 5000 mV 60 Hz Reject Fast Range 3 2 SE Channel SEO 12 5 4 12 Loc press2 10 location12 22 5 1 0 Mult 6 0 0 Offset 7 End P95 8 Spatial Average P51 location 12 21 10 22 1 10 Swath 20 2 12 First Loc press2 3 22 Avg Loc avep2 9 Beginning of Loop P87 3 1 0 Delay 2 10 Loop Count 10 Volt SE P1 1 1 Reps 2 25 5000 mV 60 Hz Reject Fast Range 3 3 SE Channel 4 23 Loc press3 23 10 5 1 0 Mult 6 0 0 Offset 11 End P95 12 Spatial Average P51 location 23 32 10 33 1 10 Swath 2 23 First Loc press3 3 33 Avg Loc avep3 13 Beginning of Loop P87 4 1 0 Delay 2 10 Loop Count 14 Volt SE
42. Rapp kL TDR K Rapp 3 TDR py 2 30 080606 ANE AIK pF 1 6 4 2 h 50 16000 cm 9 h 1Bar 3Bar 1SBar 2 673 1 2Bar 1 CGS 10 Pa 1013 mbar 1013 hPa 1 atm 10cm lkPa I bar 100kPa 2 2
43. Tektronix 1502B Metallic TDR Cable Tester 1 1502C 1503B C Vo 9 09 0K GF TDR Ist Peak 2 Dist Div CTH 2 1 2 0 25m IDR Div T E cC O Distance m m A See l 2 2
44. 32 by T Hoshino 2009 3 28 ARETE TIYVNMATA VUAYhB Tw WA A EAR BRE FF a aw TY SUZ Me mV hlcm 1 Ka 1
45. 4 2 3 Reflection Time Distance TDR probe E 4 TDR c 3X10 ms 27 7 PT J E I c y 0 999 7 27 vet V ct 1 i 5 2 Li Topp et al 1980
46. 3 0 5 3 x10 2 92x10 e 5 5x10 7 c 43x10 e 3 6 mU RUE XU Jus 4 s w 3 g 9 3 e g Sy T Eus 2 Dem ou c Cl Topp ca ae 24 0805012 OTDR Tektronix 1502B WinTDR TDR TDR
47. 8 Table name 8 Field name 16 16 VoltDiff Dest Reps Range DiffChan RevDiff SettlingTime Integ Mult Offset VoltSE Dest Reps Range SEChan MesOfs SettlingTime Integ Mult Offset TCDiff Dest Reps Range DiffChan TCType TRef RevDiff SettlingTime Integ Mult Offset TCSE Dest Reps Range SEChan TCType TRef MeasOfs SettlingTime Integ Mult Offset Dest Reps Range 7 4 DiffChan Difference channel Reps 1 DiffChan Reps SEChan Single ended Reps DiffChan TCType 7 4 TRef RevDiff MesOfs Integ Mult Offset xMult Offset
48. MERE ee lo VPE PUT RAY Rag 777 Chelly PUFA So POSF7 S97 eels 10 cm 4
49. Description Accepts the PRINT key only p when the display is sible dout ROT n rr Data output Data output mode Reference zero dispaly is stable and ndiWons of HP P AP Auto print mode B and the reference value are Reference last stable value met el rer uy a Interval memory mode continuously with dAEA 2 uses interval memory RP P Auto print polarity CR Pe OO OOO OTTO TT Regardless of displayed value HP b5 Difference between reference value and displayed value Interval time in the interval memory mode with Prt 3 dRER 2 ID number is output Selects the data output interval Selects whether or not auto feed is performed elec output method For now to set time and date to be added refer to 9 9 Clock and Calendar Function Key mode COM4 Wiring of CH1000 and A amp D scale CR1000 AKD C7 Tx 2 RAD Ca Rx 3 TXD p o 7 SG PipelinaeMods Declare Public Variables F scalae commands Public Premp Batt Volt Public Weightstring As String 50 NWgram As String z Public Weight Public StringtoSend As String 0 Const CRLF CHB 13 CHB 10 Subroutine for scale measurement Sub ScaleMass StringtoSend DO T CRLFEF SerialOut C
50. HH IOS Peis ERIC TRO ET 3 EKKA CHATA 287 74 0 40008T 9 398 x 10 T 1 410x 10 T 4 offset EC Sm PCTDR Settings Calibration CProbe Cell Constant Kp TDR 3 cm ELE HAL Measure Cell Constant GER Help DR TDR 1 TDR Water Content 2 File Save ASCII Waveform T TDR
51. P6 11 P7 11 balance as STRING 50 header_String as STRING 16 weight as STRING 16 Unit as STRING 16 weight g Define Data Tables DataTable weight 1 1 DataInterval 0 300 Sec 10 sample 1 batt volt FP2 sample 1 weight_g IEEE4 Sample 1 Sample 1 Sample 1 Sample 1 Sample 1 Sample 1 Sample 1 EndTable P1011 P2 11 P3 11 P4011 P5 11 P6 11 P7011 Define Subroutines sub measure SerialFlush Com4 SerialIn balance Com4 100 13 100 header string mid balance 1 2 weight g mid balance 4 9 unit mid balance 15 1 endsub Main Program BeginProg SerialOpen Com4 9600 0 1000 10000 SerialFlush Com4 Scan 10 Sec 2 0 PanelTemp PTemp 60 Battery Batt volt for i 1 to 10 Single End Voltage measurements P1 P7 Voltse P1 i VoltSe P2 i VoltSe P3 i VoltSe P4 i VoltSe P5 i IEEE4 IEEE4 IEEE4 IEEE4 IEEE4 IEEE4 IEEE4 1 1 1 1 1 mV5000 1 True 0 _60Hz mV5000 2 True 0 _60Hz mV5000 3 True 0 _60Hz mV5000 4 True 0 _60Hz mV5000 5 True 0 _60Hz 13 1 0 1 0 1 0 1 0 1 0 EndProg NextScan VoltSe P6 i 1 VoltSe P7 i 1 next AvgSpa AvgSpa AvgSpa AvgSpa AvgSpa AvgSpa AvgSpa p1 11 p2 11 p3 11 p4 11 pb 11 p6 11 p7 11 call measure mV5000 6 True 0 60Hz 1 0 mV5000 7 True 0 60Hz 1 0 10 P1 1
52. 10 P2 1 10 P3 1 10 P4 1 10 P5 1 10 P6 1 10 P7 1 Call Output Tables CallTable weight 14 080425 CR10X 21X 23X PC208W EDlog CR10X 10X 21X 28X CR1000 PC208W Program LoggerNet EDlog UE esi dl CR1000 CRBasic LoggerNet Connect PC208W Connect LoggerNet lt gt CR1000 CR1000 CR1 CR10X dld PAG PC208W
53. All the Data File Mode Append to End of File Create New File Table Collection Table Table File Name Start Collection 2 Connect Collect Now OK Excel dat Excel iE dcc 12 2 CR1000 To measure both pressure and weight Declare Public Variables Public Public Public Public Public Public Public Public public public public public public PTemp batt volt i P1 11 P2 11 P3 11 P4 11 Pd 11
54. 2 RXD DRE L XTRO SS C8 Rx 3 TXD G 7 SG 35 Key mode 9600 GX HE 9 FUNCTION TABLE The function table reads or rewrites the parameters that are stored in the balance These parameters stored even if the AC adapter is removed are maintained in non volatile memory 9 1Structure and Sequence of the Function Table The function table menu consists of two layers The first layer is the Class and the second layer is the Item Each item stores a parameter Example This example sets Stores weighing data for Data memory and Every 1 minute for Interval time Start From weighing mode Press and hold ay Item Data memory Press Parameter e Press Ga times Stores weighing several Press twice data Parameter Press Every 1 minute _ five times End To weighing modd 9 2 Display and Keys Description The symbol OQ indicate
55. 2 Ref Temp Deg C Loc reftemp 6 4 Loc TC 7 1 0 Mult 8 0 0 Offset EVER A ERE CAE 5 Volt Diff P2 1 1 Reps 2 25 2500 mV 60 Hz Rejection Range Or 2 DIFF Channel 2 Differential channel 4 5 Loc Volt 5 1 0 Mult 6 0 0 Offset 7 2 6 If time is P92 1 0000 Minutes Seconds into a c 2 20 Interval same units as above 3 10 Set Output Flag High Flag 0 1 Resolution P78 1 High Resolution 8 Sample P70 1 5 Reps 2 1 Loc battery 9 Real Time P77 1 1220 Year Day Hour Minute midnight 2400 Table 2 Program 02 0 0000 Execution Interval seconds Table 3 Subroutines End Prog 16 080501
56. as STRING 50 public header String as STRING 16 public weight as STRING 16 public Unit as STRING 16 public weight g Define Data Tables DataTable weight 1 1 DataInterval 0 300 Sec 10 sample 1 batt volt FP2 sample 1 weight g IEEE4 Sample 1 P1 11 IEEE4 Sample 1 P2 11 IEEE4 Sample 1 P3 11 IEEE4 EndTable Define Subroutines sub measure endsub Main Program BeginProg EndProg SerialFlush Com4 SerialIn balance Com4 100 13 100 header stringezmid balance 1 2 weight g mid balance 4 9 unit mid balance 15 1 SerialOpen Com4 9600 0 1000 10000 SerialFlush Com4 Scan 10 Sec 2 0 NextScan PanelTemp PTemp 60 Battery Batt volt for i 1 to 10 Single End Voltage measurements P1 Voltse P1 i 1 mV5000 1 True 0 60Hz 1 0 VoltSe P2 i 1 mV5000 2 True 0 60Hz 1 0 VoltSe P3 i 1 mV5000 3 True 0 60Hz 1 0 next AvgSpa p1 11 10 P1 1 AvgSpa p2 11 10 P2 1 AvgSpa p3 11 10 P3 1 call measure Call Output Tables CallTable weight 94 130319 A amp D CR1000
57. through 1 10 PC gt SP232C RS232 Interface 1 SP232 com 25 9pin TOR TDR WinTDR d 1 WinTDR Suil Analysis l roeram WinTDR Communication Activate Tektronix 150X B C Tool bar Status bar Pl Calbrsie Length TekTDR COME HHE CRAB S YVES py ae eee Ty regmet re T SS ito Mon Sj Analysis Fite Mame v us Com PA ERI Communication Tektronix Setting T
58. 0X 21X 23X LoggerNet Edlog CR1000 LoggerNet CRBasic 12V 12V 12V CR10X 21X 23X CR1000 4 CR1000 CR1000 CR10X PC PC gt PC RS 232 PC RS232C PC USB USB p x PC RS232C USB CR10X C8 I JO PC ISC82A SC32A AS23920 RSz92 25 9 9 9 SC32A gt PC
59. 2013 1 2 3 4 5 6 7 8 9 10 11 12 13 14 X Cw 5 PC Campbell LoggerNet CR1000 CRBasic CR10X 21X 23X PC208W EDlog TDR TDR Tektronix 1502B WinTDR TDR TDR1007 PCTDR TDR WP4 4 CDE BTC 080418 chin tc
60. P1 1 1 Reps 2 25 5000 mV 60 Hz Reject Fast Range 3 4 SE Channel 4 34 Loc press4 34 10 5 1 0 Mult 6 0 0 Offset 15 End P95 16 Spatial Average P51 location 34 43 10 44 1 10 Swath 2 34 First Loc press4 3 44 Avg Loc avep4 17 Beginning of Loop P87 5 l 0 Delay 2 10 Loop Count 18 Volt SE P1 1 1 Reps 2 25 5000 mV 60 Hz Reject Fast Range 3 5 SE Channel 4 45 Loc press5 45 10 5 1 0 Mult 6 0 0 Offset 19 End P95 20 Spatial Average P51 location 45 54 10 35 2l 1 10 Swath 2 45 First Loc press5 3 55 Avg Loc avepS 21 Panel Temperature P17 1 56 Loc intemp location 56 22 Thermocouple Temp DIFF P14 1 1 Reps 2 21 10 mV 60 Hz Reject Slow Range 3 4 DIFF Channel DiffAz amp Diffl 3 SE 1 lt 6 4 1 Type T Copper Constantan 5 56 Ref Temp Deg C Loc intemp location56 6 57 Loc TC 1 location 57 TC 1 7 1 0 Mult 8 0 0 O
61. R1000 LET CR10X 21X 23X Edlog OProgram Declarations Const Public Unit Data Table End Table Begin Program Scan Next Scan End program 1 SHA 2 3 4 For Do 5 DataTable trigger 0 output 6 DataInterval 7 Scan 10ms 30min 0
62. Station Date Time Set Num Display Graph Graph 777 Num Display K Add Public Paste 11 Connect Custom G Custom Collectior Collection Options Collect Mode All the Data File Mode Append to End of File E Starting Record Information Record Information Include Timestamp Include Record Number v V File Format ASCII Table Data Long header TOA5 ml Starting Date Time Ending Date Time Date Time Date 2012 01 31 0 00 00 2012 01 31 10 07 43 Time Table Collection Table File Name Public C Campbellsci LoggerNet D ataCR 1000 Public dat E Status C Campbellsci LoggerNet D ata CR1000_Status dat v Test C miki CR1000_T est4 dat Select All Change File Name Start Collection Collect Mode Data Since Last Collection
63. ffset 23 If time is P92 1 0000 Minutes Seconds into a 2 2 Interval same units as above 3 10 Set Output Flag High Flag 0 24 Resolution P78 1 1 High Resolution 25 Real Time P77 1 1220 Year Day Hour Minute midnight 2400 26 Sample P70 avepl 5 location 11 22 33 81 82 TC 1 location 83 1 1 Reps 2 11 Loc avepl 27 Sample P70 1 1 Reps 2 22 Loc avep2 28 Sample P70 1 1 Reps 2 33 Loc avep3 29 Sample P70 1 1 Reps 2 44 Loc avep4 30 Sample P70 1 1 Reps 2 55 Loc avepS 31 Sample P70 1 9 Reps 2 57 Loc TC 1 Table 2 Program 02 0 0000 Execution Interval seconds Table 3 Subroutines End Prog 22 OTDR Permittivity Fm ERs 8 85 X 107 F m ex Microwave Capacitance C
64. has RFSS RF3X only a CS 1 0 port then the connection is FFX Non PakBus through an appropriate interface device e g 50323 9 pin cable or SC324 SC32B Optically Isolated RS 232 Interface Setup Summary Communication T est Datalogger Clock Send Program Data Files Scheduled Collection Wizard Complete Direct Connect Next EZSetup Wizard CR1000 CR1000 Progress COM Port Selection Introduction Select the computer s COM Port 3 Communication Setup where the datalogger is attached Datalogger Settings Setup Summary ee COM Port Communication Delay If using an SC IRDA device you may Communication T est 00 seconds need to have a delay before communication is attempted on the Dataloaaer Clock COM port This will allow the PC to load the appropriate drivers 2 to 4 Send Program seconds should be enough Data Files Scheduled Collection Wizard Complete COM Port PC COM port EZSetup Wizard CR1000 CR1000 Progress Datalogger Settings Introduction Baud Rate Enter the baud rate that will be used in communicating with the datalogger Note The max baud rate for Communication Setup 57600 5C32A interfaces is 19 200 bps The max for SC929 is 38 400 bps gt Datalogger Settings PakBus Address amp uniq
65. om4 S5tringtoSend 9 100 Serialln Weiqhtstring Com4 100 13 100 Wqram Mid Weightstring 5 11 A amp D scale Weight Ngram Endsub Define Data Tables DataTable 5cale 1 1 Datalnterval 0 2 Min l0 Sample 1 PTemp IEEE4 Minimum l batt volt IEEE4 0 False Sample 1 Weight IEEE4 EndTable Main Program BeginProg SerialOpen Com4 96000 10 100 10000 Sean 10 5ec 0 0 Panellemp Premp 60Hz Battery batt volt Measurement of A amp D Scale Call ScaleMass Call Output Tables CallTable Scale Next5can EndProg 9 7 RS XE 9 m Dill Q COM4 COM4 Weightstring Weightstring Weight Scale 2 COM4 9600 10 130402 OWP4 pF 3 5 6 5 h 3000 300000 cm WP4 Decagon
66. s that the parameter displayed is in effect ey When pressed and held in the weighing mode enters the function table mode Selects the class or item in the function table mode ee When a class is displayed moves to an item in the class When an item is displayed stores the new parameter and displays the next class fs When an item is displayed cancels the new parameter and displays the next class When a class is displayed exits the function table mode and retums to the weighing mode ROWS Vv BOC PERLE ZITI 9 em uel Description mE CR ASCII code 0Dh LF ASCII code 0Ah See 9 6 Description of KF format item Data Format MT format NU format CSV format E UP U No limit Selects the wait time to Timeout i receive a command AK ASC code 06h Controls CTS and RTS U Water temperature Avallable only when Liquid density density mode is selected See 14 DENSITY MEASUREMENT Available only when SF bPS Serial interface Baud rate bE Pr Data bit parity bit CriF Terminator EYPE A amp D standard format Data format DP format Programmable unit Multunit Sets an arbitrary coefficient lect Un it See 4 WEIGHING UNITS S in Displayed only when the Internal mass value correction See 7 CALIBRATION internal mass value correction switch is set to See 10 ID NUMBER AND GLP ID number setting REPORT 9600 36
67. ssz 1 Call Output Tables CallTable Test HextScan EndProg 18 300 5 10 Press1 1 Press1 10 SE6 Press1 Multiplier Offset Press1 1 Press1 10 3E 15 Press1 11 3 Fist 20 FEED FLRRB DEF
68. trieve Notes List Alphabetically mii WP 0 00 00 00 Stop Interval 00m 01 s PC PC COM port Data Collection Custom PC Program CR1000 Num Display Graphs 8 CR1000 CRBasic CR1000 Difference channel DIFF single ended SE CR1000 DIFF 8 SE 16
69. ue PakBus address is used to identify the 1 datalogger in the PakBus network Enter the PakBus Setup Summary address that was set on the datalogger Valid range is 1 4094 Suggested range is 1 3999 Communication Test Security Code If a security code is set on the datalogger it must be T entered here for communication and data collection to Datalogger Clock occur 0 means security will not be used Send Program Extra Response Time If the datalogger requires extra time to respond enter x the extra response time 00 seconds Data Files Scheduled Collection Max Time On Line Because some links are costly it may be desired to 00h 00 m 00s have the connection closed automatically Enter the maximum time for a connection to stay online 0 means stay online until the user disconnects 4 Previous Next gt inisl Cancel Settings Help Baud Rate 57600 dv PC 9600 PC Security Code 0 Extra Response Time 0 OK Max Time On Line
Download Pdf Manuals
Related Search