Campbell Scientific CR1000KD CR1000 Measurement and Control System - Page 90
Ground Potential Differences
View all Campbell Scientific CR1000KD manuals
Add to My Manuals
Save this manual to your list of manuals |
Page 90 highlights
Section 7. Installation grounds ( ) and power grounds (G). To take advantage of this design, observe the following grounding rule: Note Always connect a device ground next to the active terminal associated with that ground. Several ground wires can be connected to the same ground terminal. Examples: • Connect grounds associated with 5V, 12V, and C1 - C8 terminals to G terminals. • Connect excitation grounds to the closest ( ) terminal on the excitation terminal block. • Connect the low side of single-ended sensors to the nearest ( ) terminal on the analog input terminal blocks. • Connect shield wires to the nearest ( ) terminal on the analog input terminal blocks. If offset problems occur because of shield or ground leads with large current flow, tying the problem leads into the ( ) terminals next to the excitation and pulsecounter channels should help. Problem leads can also be tied directly to the ground lug to minimize induced single-ended offset voltages. 7.5.3 Ground Potential Differences Because a single-ended measurement is referenced to CR1000 ground, any difference in ground potential between the sensor and the CR1000 will result in a measurement error. Differential measurements MUST be used when the input ground is known to be at a different ground potential from CR1000 ground. Ground potential differences are a common problem when measuring full-bridge sensors (strain gages, pressure transducers, etc), and when measuring thermocouples in soil. 7.5.3.1 Soil Temperature Thermocouple If the measuring junction of a copper-constantan thermocouple is not insulated when in soil or water, and the potential of earth ground is, for example, 1 mV greater at the sensor than at the point where the CR1000 is grounded, the measured voltage is 1 mV greater than the thermocouple output, which equates to approximately 25°C higher than actual. 7.5.3.2 External Signal Conditioner External signal conditioners, an infrared gas analyzer (IRGA) is an example, are frequently used to make measurements and send analog information to the CR1000. These instruments are often powered by the same ac line source as the CR1000. Despite being tied to the same ground, differences in current drain and lead resistance result in different ground potential at the two instruments. For this reason, a differential measurement should be made on the analog output from the external signal conditioner. 90