PakBus NetWorking Guide
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... 5.1 PakBus Graph 14 5.2 LogView 14 Appendix A. Use the Adobe Acrobat® bookmarks tab for links to specific sections. 1. PakBus Network Terminology 1 3. PakBus Dataloggers 9 4.1 CRBasic Dataloggers (CR800, CR850, CR1000, and CR3000 10 4.2 CR200 Series Datalogger 11 4.3 Edlog Dataloggers (CR510-PB, CR10X-PB and CR23X-PB 12 4.3.1 PakBus Settings 12 5.
... 5.1 PakBus Graph 14 5.2 LogView 14 Appendix A. Use the Adobe Acrobat® bookmarks tab for links to specific sections. 1. PakBus Network Terminology 1 3. PakBus Dataloggers 9 4.1 CRBasic Dataloggers (CR800, CR850, CR1000, and CR3000 10 4.2 CR200 Series Datalogger 11 4.3 Edlog Dataloggers (CR510-PB, CR10X-PB and CR23X-PB 12 4.3.1 PakBus Settings 12 5.
PakBus NetWorking Guide
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... Select the appropriate communication port and enter the baud rate, beacon interval and verify interval. Once connected to administer configurable Campbell Scientific devices. Other PakBus related settings are activated under the Port Settings tab. Keep in mind that each PakBus device in the...range specified in the network that this port and click on the Add Range button. PakBus Networking Guide 4.1 CRBasic Dataloggers (CR800, CR850, CR1000, and CR3000) PakBus settings for these dataloggers are entered with the Device Configuration Utility, the PakBus address of addresses that...
... Select the appropriate communication port and enter the baud rate, beacon interval and verify interval. Once connected to administer configurable Campbell Scientific devices. Other PakBus related settings are activated under the Port Settings tab. Keep in mind that each PakBus device in the...range specified in the network that this port and click on the Add Range button. PakBus Networking Guide 4.1 CRBasic Dataloggers (CR800, CR850, CR1000, and CR3000) PakBus settings for these dataloggers are entered with the Device Configuration Utility, the PakBus address of addresses that...
CR800 and CR850 Measurement and Control Systems
Page 3
...and shipping defective products to the limits extended by Campbell, are warranted only to Campbell. Warranty The CR800 Measurement and Control Datalogger is in the corresponding Campbell pricelist or product manual. Campbell will return such products best way CIP (Port of..., indirect, incidental, and/or consequential damages. Batteries, fine-wire thermocouples, desiccant, and other locations, Campbell will return such products by Campbell Scientific, Inc. ("Campbell") to modification, misuse, neglect, improper service, accidents of Entry) INCOTERM® 2010, prepaid. are...
...and shipping defective products to the limits extended by Campbell, are warranted only to Campbell. Warranty The CR800 Measurement and Control Datalogger is in the corresponding Campbell pricelist or product manual. Campbell will return such products best way CIP (Port of..., indirect, incidental, and/or consequential damages. Batteries, fine-wire thermocouples, desiccant, and other locations, Campbell will return such products by Campbell Scientific, Inc. ("Campbell") to modification, misuse, neglect, improper service, accidents of Entry) INCOTERM® 2010, prepaid. are...
CR800 and CR850 Measurement and Control Systems
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Table of a Data-Acquisition System 33 4.1.1.1 Sensors 33 4.1.1.2 Datalogger 33 4.1.1.3 Data Retrieval 33 4.1.2 CR800 Module and Power Supply 34 4.1.2.1 Wiring Panel 34 4.1.2.2 Power Supply 36 4.1.2.3 Backup Battery 36 4.1.3 Sensors 36 4.1.3.1 Analog Sensors 36 4.1.3.2...PC200W Steps 10 to 11 56 4.2.5.7 Procedure: (PC200W Steps 12 to 13 56 7 Quickstart Tutorial 33 4.1 Primer - Initial Inspection 31 Section 4. CR800 Data-Acquisition 33 4.1.1 Components of Contents Section 1. Introduction 27 1.1 HELLO 27 1.2 Typography 27 Section 2. Cautionary Statements 29 Section 3.
Table of a Data-Acquisition System 33 4.1.1.1 Sensors 33 4.1.1.2 Datalogger 33 4.1.1.3 Data Retrieval 33 4.1.2 CR800 Module and Power Supply 34 4.1.2.1 Wiring Panel 34 4.1.2.2 Power Supply 36 4.1.2.3 Backup Battery 36 4.1.3 Sensors 36 4.1.3.1 Analog Sensors 36 4.1.3.2...PC200W Steps 10 to 11 56 4.2.5.7 Procedure: (PC200W Steps 12 to 13 56 7 Quickstart Tutorial 33 4.1 Primer - Initial Inspection 31 Section 4. CR800 Data-Acquisition 33 4.1.1 Components of Contents Section 1. Introduction 27 1.1 HELLO 27 1.2 Typography 27 Section 2. Cautionary Statements 29 Section 3.
CR800 and CR850 Measurement and Control Systems
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... Section 7. Installation 81 7.1 Moisture Protection 81 8 System Overview 57 5.1 CR800 Datalogger 58 5.1.1 Clock 59 5.1.2 Sensor Support 59 5.1.3 CR800 Wiring Panel 60 5.1.3.1 Measurement Inputs 60 5.1.3.2 Voltage Outputs 61 5.1.3.3 Grounding Terminals 62 5.1.3.4 ... Final Data Storage 66 5.1.8 Data Retrieval 67 5.1.8.1 Via Telecommunications 67 5.1.8.2 Via Mass-Storage Device 67 5.1.8.3 Data File-Formats in CR800 Memory 67 5.1.8.4 Data Format on Computer 68 5.1.9 Communications 68 5.1.9.1 PakBus 68 5.1.9.2 Modbus 69 5.1.9.3 DNP3 Communication 69 5.1.9.4 Keyboard Display...
... Section 7. Installation 81 7.1 Moisture Protection 81 8 System Overview 57 5.1 CR800 Datalogger 58 5.1.1 Clock 59 5.1.2 Sensor Support 59 5.1.3 CR800 Wiring Panel 60 5.1.3.1 Measurement Inputs 60 5.1.3.2 Voltage Outputs 61 5.1.3.3 Grounding Terminals 62 5.1.3.4 ... Final Data Storage 66 5.1.8 Data Retrieval 67 5.1.8.1 Via Telecommunications 67 5.1.8.2 Via Mass-Storage Device 67 5.1.8.3 Data File-Formats in CR800 Memory 67 5.1.8.4 Data Format on Computer 68 5.1.9 Communications 68 5.1.9.1 PakBus 68 5.1.9.2 Modbus 69 5.1.9.3 DNP3 Communication 69 5.1.9.4 Keyboard Display...
CR800 and CR850 Measurement and Control Systems
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Table of Contents 7.2 Temperature Range 81 7.3 Enclosures 81 7.4 Power Sources 82 7.4.1 CR800 Power Requirement 83 7.4.2 Calculating Power Consumption 83 7.4.3 Power Supplies 83 7.4.3.1 External Batteries 83 7.4.4 Vehicle Power ...Reference 90 7.5.3 Ground Potential Differences 90 7.5.3.1 Soil Temperature Thermocouple 90 7.5.3.2 External Signal Conditioner 90 7.5.4 Ground Looping in Ionic Measurements 91 7.6 CR800 Configuration 92 7.6.1 Device Configuration Utility 92 7.6.2 Sending the Operating System 94 7.6.2.1 Sending OS with DevConfig 94 7.6.2.2 Sending OS with Program Send...
Table of Contents 7.2 Temperature Range 81 7.3 Enclosures 81 7.4 Power Sources 82 7.4.1 CR800 Power Requirement 83 7.4.2 Calculating Power Consumption 83 7.4.3 Power Supplies 83 7.4.3.1 External Batteries 83 7.4.4 Vehicle Power ...Reference 90 7.5.3 Ground Potential Differences 90 7.5.3.1 Soil Temperature Thermocouple 90 7.5.3.2 External Signal Conditioner 90 7.5.4 Ground Looping in Ionic Measurements 91 7.6 CR800 Configuration 92 7.6.1 Device Configuration Utility 92 7.6.2 Sending the Operating System 94 7.6.2.1 Sending OS with DevConfig 94 7.6.2.2 Sending OS with Program Send...
CR800 and CR850 Measurement and Control Systems
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... Figure 35: DevConfig OS download window 95 Figure 36: Dialog box confirming OS download 95 Figure 37: DevConfig Settings Editor 97 Figure 38: Summary of CR800 configuration 98 Figure 39: DevConfig Deployment tab 98 Figure 40: DevConfig Deployment | ComPorts Settings tab 100 Figure 41: DevConfig Deployment | Advanced tab 101 Figure 42...
... Figure 35: DevConfig OS download window 95 Figure 36: Dialog box confirming OS download 95 Figure 37: DevConfig Settings Editor 97 Figure 38: Summary of CR800 configuration 98 Figure 39: DevConfig Deployment tab 98 Figure 40: DevConfig Deployment | ComPorts Settings tab 100 Figure 41: DevConfig Deployment | Advanced tab 101 Figure 42...
CR800 and CR850 Measurement and Control Systems
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...() at 1 Hz 233 Table 34. Extracting String Characters 240 Table 42. PRTCalc() Type-Code-4 Sensor 257 Table 49. DataInterval() Lapse Parameter Options 130 Table 15. CR800 Serial Ports 203 Table 32. Measuring VoltSE() at 100 Hz 234 Table 35. Formatting Strings Examples 241 Table 44. Formatting Hexadecimal Variables - Examples 241 Table...
...() at 1 Hz 233 Table 34. Extracting String Characters 240 Table 42. PRTCalc() Type-Code-4 Sensor 257 Table 49. DataInterval() Lapse Parameter Options 130 Table 15. CR800 Serial Ports 203 Table 32. Measuring VoltSE() at 100 Hz 234 Table 35. Formatting Strings Examples 241 Table 44. Formatting Hexadecimal Variables - Examples 241 Table...
CR800 and CR850 Measurement and Control Systems
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... Times and Codes 280 Table 55. First Six Values of Frequency Signals 306 Table 70. Example. Data Types Required to Campbell Scientific Equivalents 351 Table 85. API Commands, Parameters, and Arguments 357 Table 88. SetValueEx API Command Parameters 368 Table 92. ... 353 Table 87. CRBasic Parameters Varying Measurement Sequence and Timing 274 Table 52. CRBasic Measurement Settling Times 283 Table 58. CR800 Telecommunications Options 333 Table 80. SetValue API Command Response 369 Table 93. Analog Measurements and Offset Voltage Compensation.......... 278 Table...
... Times and Codes 280 Table 55. First Six Values of Frequency Signals 306 Table 70. Example. Data Types Required to Campbell Scientific Equivalents 351 Table 85. API Commands, Parameters, and Arguments 357 Table 88. SetValueEx API Command Parameters 368 Table 92. ... 353 Table 87. CRBasic Parameters Varying Measurement Sequence and Timing 274 Table 52. CRBasic Measurement Settling Times 283 Table 58. CR800 Telecommunications Options 333 Table 80. SetValue API Command Response 369 Table 93. Analog Measurements and Offset Voltage Compensation.......... 278 Table...
CR800 and CR850 Measurement and Control Systems
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... 273H 1246H Table 145. 24-Vdc Power-Supply Kits 544 274H 1247H Table 146. Mass-Storage Devices 546 28H 125H Table 154. CR800 Terminal Commands 422 Table 112. FP2 Decimal-Locater Bits 535 25H 125H Table 124. Resistive Bridge TIM Modules 539 260H 123H Table 132.... Special Keyboard-Display Key Functions 383 Table 104. CR800 Settings 518 Table 119. Pulse / Frequency Input-Expansion Modules 539 257H 1230H Table 129. Typical Gzip File Compression Results 395 Table 105....
... 273H 1246H Table 145. 24-Vdc Power-Supply Kits 544 274H 1247H Table 146. Mass-Storage Devices 546 28H 125H Table 154. CR800 Terminal Commands 422 Table 112. FP2 Decimal-Locater Bits 535 25H 125H Table 124. Resistive Bridge TIM Modules 539 260H 123H Table 132.... Special Keyboard-Display Key Functions 383 Table 104. CR800 Settings 518 Table 119. Pulse / Frequency Input-Expansion Modules 539 257H 1230H Table 129. Typical Gzip File Compression Results 395 Table 105....
CR800 and CR850 Measurement and Control Systems
Page 27
...data-acquisition. If you are programming with CRBasic, you need to speak with a cheery HELLO at Campbell Scientific. 1.2 Typography The following type faces used throughout the CR800 operator's manual. For more demanding applications, the remainder of the manual and other than any of your...You can still hear the cheery HELLO echoed in -depth study requires other Campbell Scientific publications, most of the manual: Capitalization - More in the voices you hear at the flip of CR800 data-acquisition and walks you progressively deeper into the complexity of sentences, phrases,...
...data-acquisition. If you are programming with CRBasic, you need to speak with a cheery HELLO at Campbell Scientific. 1.2 Typography The following type faces used throughout the CR800 operator's manual. For more demanding applications, the remainder of the manual and other than any of your...You can still hear the cheery HELLO echoed in -depth study requires other Campbell Scientific publications, most of the manual: Capitalization - More in the voices you hear at the flip of CR800 data-acquisition and walks you progressively deeper into the complexity of sentences, phrases,...
CR800 and CR850 Measurement and Control Systems
Page 29
The internal battery will give years of reliable service if a few precautions are observed: • Protect from over-voltage • Protect from water • Protect from ESD Disuse accelerates depletion of calibration appropriate to 10 or more years. Cautionary Statements The CR800 is a rugged instrument and will be depleted in three years or less if a CR800 is continuously used, the internal battery may last up several functions. Section 2. When the CR800 is left on the shelf. Maintain a level of the internal battery, which backs up to the application. 29
The internal battery will give years of reliable service if a few precautions are observed: • Protect from over-voltage • Protect from water • Protect from ESD Disuse accelerates depletion of calibration appropriate to 10 or more years. Cautionary Statements The CR800 is a rugged instrument and will be depleted in three years or less if a CR800 is continuously used, the internal battery may last up several functions. Section 2. When the CR800 is left on the shelf. Maintain a level of the internal battery, which backs up to the application. 29
CR800 and CR850 Measurement and Control Systems
Page 31
...-pin female to the serial port of the cable that connects to a Campbell Scientific enclosure backplate. Contact Campbell Scientific immediately if there are found at the end of a PC. Model or part numbers are any discrepancies. 31 Section 3. Initial Inspection • The CR800 datalogger ship with the shipping company. • Immediately check package contents. o ResourceDVD...
...-pin female to the serial port of the cable that connects to a Campbell Scientific enclosure backplate. Contact Campbell Scientific immediately if there are found at the end of a PC. Model or part numbers are any discrepancies. 31 Section 3. Initial Inspection • The CR800 datalogger ship with the shipping company. • Immediately check package contents. o ResourceDVD...
CR800 and CR850 Measurement and Control Systems
Page 33
...problems early with a laptop or PDA. Data are copied, not moved, from a data acquisition system are data in memory awaiting transfer to CR800 data acquisition. 4.1 Primer - Multiple users may have access to the PC. On-site serial communications are also used when the user visits... dedicate a serial (COM) port for the datalogger. See the appendix Accuracy, Precision, and Resolution (p. 449). 4.1.1.2 Datalogger 4.1.1.3 Data Retrieval The CR800 can measure almost any part of devices such as direct serial connection or infrared link are preferred if the datalogger is near the PC, and...
...problems early with a laptop or PDA. Data are copied, not moved, from a data acquisition system are data in memory awaiting transfer to CR800 data acquisition. 4.1 Primer - Multiple users may have access to the PC. On-site serial communications are also used when the user visits... dedicate a serial (COM) port for the datalogger. See the appendix Accuracy, Precision, and Resolution (p. 449). 4.1.1.2 Datalogger 4.1.1.3 Data Retrieval The CR800 can measure almost any part of devices such as direct serial connection or infrared link are preferred if the datalogger is near the PC, and...
CR800 and CR850 Measurement and Control Systems
Page 34
Quickstart Tutorial modems, radios, satellite transceivers, and TCP/IP network modems are available for connecting sensors, power and communications devices. Figure 1: Data-acquisition system components 4.1.2 CR800 Module and Power Supply 4.1.2.1 Wiring Panel As shown in figure CR800 Wiring Panel (p. 35), the wiring panel provides terminals for the most demanding applications. Internal surge protection is incorporated with the input channels. 34 Section 4.
Quickstart Tutorial modems, radios, satellite transceivers, and TCP/IP network modems are available for connecting sensors, power and communications devices. Figure 1: Data-acquisition system components 4.1.2 CR800 Module and Power Supply 4.1.2.1 Wiring Panel As shown in figure CR800 Wiring Panel (p. 35), the wiring panel provides terminals for the most demanding applications. Internal surge protection is incorporated with the input channels. 34 Section 4.
CR800 and CR850 Measurement and Control Systems
Page 36
...CR800. The POWER IN connection is measured with respect to ground (figure Analog Sensor Wired to Differential Channel #1 (p. 37) ). Check for assistance. 4.1.3.1 Analog Sensors Analog sensors output continuous voltages that vary with the phenomena measured. Acceptable power range is powered by Campbell Scientific..., can be interfaced to 16 Vdc. Section 4. Table Single-ended and Differential Input Channels (p. 37) lists channel assignments. Quickstart Tutorial 4.1.2.2 Power Supply The CR800 is 9.6 to the...
...CR800. The POWER IN connection is measured with respect to ground (figure Analog Sensor Wired to Differential Channel #1 (p. 37) ). Check for assistance. 4.1.3.1 Analog Sensors Analog sensors output continuous voltages that vary with the phenomena measured. Acceptable power range is powered by Campbell Scientific..., can be interfaced to 16 Vdc. Section 4. Table Single-ended and Differential Input Channels (p. 37) lists channel assignments. Quickstart Tutorial 4.1.2.2 Power Supply The CR800 is 9.6 to the...
CR800 and CR850 Measurement and Control Systems
Page 37
The CR800 supplies a precise scalable voltage excitation via excitation terminals. Examples of bridge sensor wiring using voltage excitation are illustrated in wind direction. 4.1.3.2.1 Voltage Excitation Bridge resistance ...
The CR800 supplies a precise scalable voltage excitation via excitation terminals. Examples of bridge sensor wiring using voltage excitation are illustrated in wind direction. 4.1.3.2.1 Voltage Excitation Bridge resistance ...
CR800 and CR850 Measurement and Control Systems
Page 38
This is a series of voltage waves. wind vane potentiometer Figure 6: Full-bridge wiring -- Measurements are measured on CR800 pulse-measurement channels. The sensor couples its output signal to high). pressure transducer 4.1.3.3 Pulse Sensors Pulse sensors are processed... between voltage extremes (high to low or low to the measured phenomenon by a pulse sensor is termed "state transition". Section 4. The CR800 detects each wave as counts, frequency, or timing data. 38 The output signal generated by modulating wave frequency. Quickstart Tutorial Figure 5: Half-bridge...
This is a series of voltage waves. wind vane potentiometer Figure 6: Full-bridge wiring -- Measurements are measured on CR800 pulse-measurement channels. The sensor couples its output signal to high). pressure transducer 4.1.3.3 Pulse Sensors Pulse sensors are processed... between voltage extremes (high to low or low to the measured phenomenon by a pulse sensor is termed "state transition". Section 4. The CR800 detects each wave as counts, frequency, or timing data. 38 The output signal generated by modulating wave frequency. Quickstart Tutorial Figure 5: Half-bridge...
CR800 and CR850 Measurement and Control Systems
Page 40
...to a G channel. one of which is always ground. Connect power ground to a (ground) channel. Connect the other wire to the sensor or CR800 may require a pull-up resistors. Do not confuse the pulse wire with various baud rates, parity options, stop-bit options, and so forth as ... to the RS-232 port or to digital I /O port can be two more wires - Quickstart Tutorial 4.1.3.3.3 Pulse Sensor Wiring Wiring a pulse sensor to a CR800 is straight forward, as defined in figure Use of RS-232 Ports (p. 41). Figure 8: Pulse-input wiring -- Note With the correct adaptor, the CS I...
...to a G channel. one of which is always ground. Connect power ground to a (ground) channel. Connect the other wire to the sensor or CR800 may require a pull-up resistors. Do not confuse the pulse wire with various baud rates, parity options, stop-bit options, and so forth as ... to the RS-232 port or to digital I /O port can be two more wires - Quickstart Tutorial 4.1.3.3.3 Pulse Sensor Wiring Wiring a pulse sensor to a CR800 is straight forward, as defined in figure Use of RS-232 Ports (p. 41). Figure 8: Pulse-input wiring -- Note With the correct adaptor, the CS I...
CR800 and CR850 Measurement and Control Systems
Page 42
Edge timing, switch closure, and highfrequency pulse functions are available from Campbell Scientific to control a device and monitor the state (whether on the CR800. These devices connect to the CR800 through digital I/O ports C1, C2, and C3 C3. 4.1.6 Input Expansion Modules Modules are ...to expand the number of SDM device capabilities are multi-function ports. Quickstart Tutorial 4.1.4 Digital I/O Ports The CR800 has four digital I /O ports on or off) of the CR800. Figure Control and Monitoring with digital I /O (Control Port) Expansion (p. 541) lists available modules. ...
Edge timing, switch closure, and highfrequency pulse functions are available from Campbell Scientific to control a device and monitor the state (whether on the CR800. These devices connect to the CR800 through digital I/O ports C1, C2, and C3 C3. 4.1.6 Input Expansion Modules Modules are ...to expand the number of SDM device capabilities are multi-function ports. Quickstart Tutorial 4.1.4 Digital I/O Ports The CR800 has four digital I /O ports on or off) of the CR800. Figure Control and Monitoring with digital I /O (Control Port) Expansion (p. 541) lists available modules. ...