CR1000 Measurement and Control System
Page 23
.... FileControl API Command Parameters 393 Table 103. NewestFile API Command Parameters 399 Table 107. Special Keyboard-Display Key Functions 400 Table 108. Internal Lithium-Battery Specifications 418 Table 110. CR1000 Terminal Commands 443 Table 116. Asynchronous-Port Baud Rates 514 Table 120. CS I/O Pin Description 549 Table 124. PakBus Leaf-Node and Router.... ListFiles API Command Response 395 Table 106. Frequency Resolution Comparison 319 Table 72. Table of the Status Table 527 Table 121. Data Types Required to Campbell Scientific Equivalents 368 Table 89.
.... FileControl API Command Parameters 393 Table 103. NewestFile API Command Parameters 399 Table 107. Special Keyboard-Display Key Functions 400 Table 108. Internal Lithium-Battery Specifications 418 Table 110. CR1000 Terminal Commands 443 Table 116. Asynchronous-Port Baud Rates 514 Table 120. CS I/O Pin Description 549 Table 124. PakBus Leaf-Node and Router.... ListFiles API Command Response 395 Table 106. Frequency Resolution Comparison 319 Table 72. Table of the Status Table 527 Table 121. Data Types Required to Campbell Scientific Equivalents 368 Table 89.
CR1000 Measurement and Control System
Page 35
External power connects through the green POWER IN on the face of power loss. The POWER IN connection is 9.6 to 16 Vdc. See Internal Battery (p. 76). 35 Acceptable power range is internally reverse-polarity protected. 4.1.2.3 Backup Battery A lithium battery backs up the CR1000 clock, program, and memory in case of the CR1000. Quickstart Tutorial Figure 2: Wiring panel 4.1.2.2 Power Supply The CR1000 is powered by a nominal 12 Vdc source. Section 4.
External power connects through the green POWER IN on the face of power loss. The POWER IN connection is 9.6 to 16 Vdc. See Internal Battery (p. 76). 35 Acceptable power range is internally reverse-polarity protected. 4.1.2.3 Backup Battery A lithium battery backs up the CR1000 clock, program, and memory in case of the CR1000. Quickstart Tutorial Figure 2: Wiring panel 4.1.2.2 Power Supply The CR1000 is powered by a nominal 12 Vdc source. Section 4.
CR1000 Measurement and Control System
Page 76
... lead acid batteries are required, refer to Enclosures (p. 566) for information on available weather-tight enclosures. 5.1.11.2 Protection from water is continuously powered by 12 Vdc, the lithium cell should give many years of its peripherals must be monitored from flooding or sprinkler irrigation, but most often comes as condensation. Campbell Scientific recommends factory...
... lead acid batteries are required, refer to Enclosures (p. 566) for information on available weather-tight enclosures. 5.1.11.2 Protection from water is continuously powered by 12 Vdc, the lithium cell should give many years of its peripherals must be monitored from flooding or sprinkler irrigation, but most often comes as condensation. Campbell Scientific recommends factory...
CR1000 Measurement and Control System
Page 79
... period averaging. Provide on all ranges guarantees full‐scale voltage will not cause over‐range. 2Resolution of DIFF measurements with a Campbell Scientific applications engineer before purchase. 2.0 PROGRAM EXECUTION RATE 2.1 10 ms to ±0.5 Vdc. INPUT CURRENT: ±1 nA typical, ±...to 50°C ±(0.18% of duty cycle signals. 5.0 RATIOMETRIC MEASUREMENTS 5.1 ‐‐ 8 10 MEASUREMENT TYPES: The CR1000 provides ratiometric resistance measurements using 60 Hz rejection INPUT VOLTAGE RANGE W/O MEASUREMENT CORRUPTION: ±8.6 Vdc max. Section 6.
... period averaging. Provide on all ranges guarantees full‐scale voltage will not cause over‐range. 2Resolution of DIFF measurements with a Campbell Scientific applications engineer before purchase. 2.0 PROGRAM EXECUTION RATE 2.1 10 ms to ±0.5 Vdc. INPUT CURRENT: ±1 nA typical, ±...to 50°C ±(0.18% of duty cycle signals. 5.0 RATIOMETRIC MEASUREMENTS 5.1 ‐‐ 8 10 MEASUREMENT TYPES: The CR1000 provides ratiometric resistance measurements using 60 Hz rejection INPUT VOLTAGE RANGE W/O MEASUREMENT CORRUPTION: ±8.6 Vdc max. Section 6.
CR1000 Measurement and Control System
Page 185
...= Status.SerialNumber 'serial number Source(10) = Status.LithiumBattery 'data backup battery, V NextScan SlowSequence Do SDI12SensorSetup(2,1,0,1) Delay(1,500,mSec) SDI12SensorResponse(Source) Loop ...CR1000 to an SDI-12 probe, all probes on the same SDI-12 port will wake up. Installation CRBasic Example 36. SDI-12 Sensor Setup -- Section 7. Source(3), Source(4) 0M2! Source(9), Source(10) Contents of Source Variables temperature °C, battery voltage temperature °F, battery voltage temperature °C, battery mV temperature °F, battery mV serial number, lithium battery...
...= Status.SerialNumber 'serial number Source(10) = Status.LithiumBattery 'data backup battery, V NextScan SlowSequence Do SDI12SensorSetup(2,1,0,1) Delay(1,500,mSec) SDI12SensorResponse(Source) Loop ...CR1000 to an SDI-12 probe, all probes on the same SDI-12 port will wake up. Installation CRBasic Example 36. SDI-12 Sensor Setup -- Section 7. Source(3), Source(4) 0M2! Source(9), Source(10) Contents of Source Variables temperature °C, battery voltage temperature °F, battery voltage temperature °C, battery mV temperature °F, battery mV serial number, lithium battery...
CR1000 Measurement and Control System
Page 417
... desiccant should last approximately 3 years (less at Campbell Scientific. The CR1000 does not draw power from an external source, the CR1000 measures the voltage of the user. This voltage is powered by sealing the module with a packet of the CR1000. The CR1000 Status table has a Lithium Battery field. If the lithium cell is removed or allowed to replace the...
... desiccant should last approximately 3 years (less at Campbell Scientific. The CR1000 does not draw power from an external source, the CR1000 measures the voltage of the user. This voltage is powered by sealing the module with a packet of the CR1000. The CR1000 Status table has a Lithium Battery field. If the lithium cell is removed or allowed to replace the...
CR1000 Measurement and Control System
Page 418
...will remain attached to the module. 418 Maintenance o Time. Table Internal Lithium-Battery Specifications (p. 418) lists battery specifications. o Final-storage data tables. A replacement lithium battery (pn 13519) can be purchased from Campbell Scientific or another supplier. Internal Lithium-Battery Specifications Manufacturer Tadiran Model TL-5902S (3.6 V) Capacity 1.2 Ah Self-discharge ... Fully loosen the two knurled thumbscrews. They will need resetting when the battery is fully seated or connected to the wiring panel, assure that the module is replaced.
...will remain attached to the module. 418 Maintenance o Time. Table Internal Lithium-Battery Specifications (p. 418) lists battery specifications. o Final-storage data tables. A replacement lithium battery (pn 13519) can be purchased from Campbell Scientific or another supplier. Internal Lithium-Battery Specifications Manufacturer Tadiran Model TL-5902S (3.6 V) Capacity 1.2 Ah Self-discharge ... Fully loosen the two knurled thumbscrews. They will need resetting when the battery is fully seated or connected to the wiring panel, assure that the module is replaced.
CR1000 Measurement and Control System
Page 420
... open the clam shell. 9.3 Repair 420 Figure 133: Remove and replace battery Remove the lithium battery by Campbell Scientific, Inc. directly. RMA#_____ 815 West 1800 North Logan, Utah 84321‐1784 Occasionally, a CR1000 requires repair. Please visit www.campbellsci.com to reassemble the CR1000. After an applications engineer determines the nature of the shipping container. Section...
... open the clam shell. 9.3 Repair 420 Figure 133: Remove and replace battery Remove the lithium battery by Campbell Scientific, Inc. directly. RMA#_____ 815 West 1800 North Logan, Utah 84321‐1784 Occasionally, a CR1000 requires repair. Please visit www.campbellsci.com to reassemble the CR1000. After an applications engineer determines the nature of the shipping container. Section...
CR1000 Measurement and Control System
Page 529
... or non-functional changes to 0 Info Type Status Config Config PB Status Status Status Status Measure Measure Error Measure 529 Float Default Range 1 1 to the CR1000. String Time the program began running this program. Does not change with the station name set in the background calibration. Measurement is updated in the... Table and Settings Table 121. Yes Yes Yes Reset by changing to the program. Often changes with operating-system changes. Measurement is independent of the battery voltage. Time Signature of the lithium battery. Appendix B.
... or non-functional changes to 0 Info Type Status Config Config PB Status Status Status Status Measure Measure Error Measure 529 Float Default Range 1 1 to the CR1000. String Time the program began running this program. Does not change with the station name set in the background calibration. Measurement is updated in the... Table and Settings Table 121. Yes Yes Yes Reset by changing to the program. Often changes with operating-system changes. Measurement is independent of the battery voltage. Time Signature of the lithium battery. Appendix B.
CR1000 Measurement and Control System
Page 538
...(p. 148) section for a PC by the datalogger support software (p. 77). 3 Watchdog errors are valid. See the Program Access to communicate with the CR1000. Appendix B. In contrast, the station name set in the program. Status Table and Settings Table 121. Status-Table Fields and Descriptions Fieldname Description Variable ... written to the header of 18 Default Range close to 0 close to 4094 are automatically reset upon compiling a new program. 4 Replace the lithium battery if Addresses >= 4000 are generally reserved for more information. 2 PakBus Addresses 1 to 0 Edit?
...(p. 148) section for a PC by the datalogger support software (p. 77). 3 Watchdog errors are valid. See the Program Access to communicate with the CR1000. Appendix B. In contrast, the station name set in the program. Status Table and Settings Table 121. Status-Table Fields and Descriptions Fieldname Description Variable ... written to the header of 18 Default Range close to 0 close to 4094 are automatically reset upon compiling a new program. 4 Replace the lithium battery if Addresses >= 4000 are generally reserved for more information. 2 PakBus Addresses 1 to 0 Edit?
CR1000 Measurement and Control System
Page 579
... 203 LI7200 487 LI7700 487 Lightning 34, 76, 86, 453 Lightning Protection 88 Lightning Rod 88 Line Continuation 115 Linear Sensor 324 Link Performance 356 Lithium Battery 35, 418, 528 Little Endian 203 LN or LOG 497 LoadFieldCal 522 Lock 70 LOG10 497 LoggerNet 570 Logic 146 Logical Expression 145, 146 Logical...
... 203 LI7200 487 LI7700 487 Lightning 34, 76, 86, 453 Lightning Protection 88 Lightning Rod 88 Line Continuation 115 Linear Sensor 324 Link Performance 356 Lithium Battery 35, 418, 528 Little Endian 203 LN or LOG 497 LoadFieldCal 522 Lock 70 LOG10 497 LoggerNet 570 Logic 146 Logical Expression 145, 146 Logical...
CR1000 Specifications
Page 1
... for DF w/o input reversal = 3Basic Res + 2.0 µV Offset for SE = 3·Basic Res + 3.0 µV ANALOG MEASUREMENT SPEED: Integra- CR1000 Specifications Electrical specifications are defined as: Offset for DIFF w/input reversal = 1.5Basic Res + 1.0 µV Offset for DIFF w/o input reversal = 3Basic Res... ms 4Includes 250 µs for switch closure, high frequency pulse, or low-level ac. INPUT NOISE VOLTAGE: For DF measurements with Campbell Scientific before purchase. INPUT CURRENT: ±1 nA typical, ±6 nA max. @ 50°C; ±90 nA @ 85°...
... for DF w/o input reversal = 3Basic Res + 2.0 µV Offset for SE = 3·Basic Res + 3.0 µV ANALOG MEASUREMENT SPEED: Integra- CR1000 Specifications Electrical specifications are defined as: Offset for DIFF w/input reversal = 1.5Basic Res + 1.0 µV Offset for DIFF w/o input reversal = 3Basic Res... ms 4Includes 250 µs for switch closure, high frequency pulse, or low-level ac. INPUT NOISE VOLTAGE: For DF measurements with Campbell Scientific before purchase. INPUT CURRENT: ±1 nA typical, ±6 nA max. @ 50°C; ±90 nA @ 85°...