Access AIM-16 user manual Considerations for RTD Sensors, Considerations for Strain Gage Sensors

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AIM-16 Manual

Considerations for RTD Sensors

Three-wire connection may be applied to an RTD sensor by adding two shorts per channel for each sensor served. The locations for these shorts are labelled R0 through R15. For example, install two shorts in the two locations labeled R2 if an RTD sensor is used at channel 2.

For extended range and resolution of measurements, it is common practice in RTD processing to offset the sensor output in a negative direction. The AIM-16 allows a negative 10V offset, so that a zero input to a channel provides a -10V output. In order to enable this feature install a jumper in the OFST position of the programming point labeled OFST STD and place the DIP switch labeled OSH in the ON position.

If the host A to D card is rated at ±5V full scale, install the OFST STD jumper as above but place the OSH switch in the OFF position. This will reduce the offset to -5V.

While this offset increases the range and resolution of RTD operation, remember that it is a selection that affects all channels on a given card.

Connections to an RTD sensor are as follows: the V+, I+ lead to the "+" input; the V- lead to the "-" input; and the I- to the "GND" input.

If all of your sensors are RTDs, model AIM-16R is designed specifically for RTDs.

Considerations for Strain Gage Sensors

A ratiometric reading of a strain gage sensor requires input to two channels of an AIM-16 card. One channel measures the sensor excitation while the other channel reads the sensor output. The host computer computes the output as a ratio of the sensor output to sensor excitation. This requires different gains for each signal, nominally a gain of 1 for the excitation and 200 for the signal. Thus, strain gage measurement requires the use of programmable gain on an AIM-16 board.

Excitation for the strain gage(s) is available at a screw terminal block on the AIM-16. That excitation is derived from the AD12-8's precision 10V reference voltage and can supply over 200mA current.

A jumper should be installed in the STD position of the programming point labeled "OFST STD". When the STD position is selected, no offset is produced.

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Manual MAIM-16.D1d

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Contents Model AIM-16 Page Pageiii Coverage WarrantyTerms and Conditions Equipment Not Manufactured by AccesTable of Contents List of Figures List of TablesIntroduction Environmental SpecificationsAnalog Inputs and Outputs 1AIM-16 Block Diagram AIM-16 Manual Manual MAIM-16.D1d Inch Diskette Installation InstallationCD Installation DOS/WIN3.xDirectories Created on the Hard Disk WinRisc.exeSamples PCIFind.exePoly.exe Installation of the AIM-16Findbase.exe Risc.batManual MAIM-16.D1d 1Use of CAB-37Y Cables Option Selection Programmable Gain ModeManual Gain Mode Gain SelectionCombination of Gain Mode Current Inputs Reference Junction Temperature Input Channel SelectionChannel Selection Thermocouple Break Detect SelectionRTD Output Offset Power Supply SelectionRTD Sensor Selection 2AIM-16 Option Selection Map Calibration Procedure Calibration and TestSample Programs SoftwareDrivers AIM-16 Manual Manual MAIM-16.D1d Sensor Interface Considerations for ThermocouplesConsiderations for RTD Sensors Considerations for Strain Gage SensorsConsiderations for Current Inputs Considerations for Other Voltage InputsAIM-16 Manual Manual MAIM-16.D1d Appendix a Cabling and Connector Information Input Connector Pin AssignmentsA-2 Customer Comments
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