Introduction

The GDS Calibrator has been designed to give simple, accurate linear calibrations.
The unit is based around a high accuracy micrometer head and a linear guide.
The Calibrator has a maximum travel of 50mm with a resolution of 5um.

Mounting the hall effect transducer

The Calibrator has purpose-designed attachments for mounting GDS Hall Effect transducers. Each Transducer (chip) should be calibrated against its corresponding magnet arm, with which it will be used in practice.

The Hall Effect transducer chip is mounted in the same style of holder as for placement on a triaxial sample.

Fit the magnet arm into the groove in the holding platen and tighten the two bolts holding the arm in place. (3)

The arm is then adjusted into position over the Hall Effect chip. The position of the arm can be altered vertically and horizontally. Using the horizontal adjustment position the magnet near the center of the Hall Effect chip. Using the vertical adjustment adjust so that the magnet block is parallel with the Hall Effect chip. (4)

Plug in the Hall Effect chip to the data acquisition device and adjust the lateral position of the chip to give a reading close to the zero gauss position of the transducer.

Gently tighten all of the retaining bolts.

Mounting the LVDT transducer

The GDS displacement transducer calibrator is a high-quality versatile displacement transducer calibrator. A high accuracy micrometer head is used to set a series of reference displacements while the transducer is held in position.

Depending on the model chosen the micrometer may have a range of 50mm with a resolution of 5μm and accuracy of ±5μm or a range of 25mm with resolution 1μm and accuracy of ±3μm.

Typically the 50mm travel micrometer will be used with external potentiometer transducers, while the 25mm version is more suitable for use with LVDTs.

To access the wizard, click on the transducer you want to calibrate in the Object Display, as shown in the image on the right.

Under the Calibration tab, click on Calibrate Transducer

The screenshot shows the wizard’s main window. 

For tabulated calibration data you input the ‘Applied Value’ and ‘Read Value’, clicking ‘Accept’ after each pair is entered.  To perform a point-by-point calibration you enter the applied value manually, then having selected ‘Autoread’ click accept when you have applied the force/displacement etc.

The graph and error values will update with each new data point.  When you have entered sufficient data points click next to continue. 

Finally, the new calibration details will be set and you are returned to the calibration tab.

To change, update or create a new calibration for a transducer, open the transducer window by clicking on the transducer name in the Object/Hardware Display window.

In the image, for example, we open the Load Cell transducer window.

Select the Calibration tab. The transducer window shows the calibration applied to the selected transducer.

The figure on the right shows, among other parameters, the Sensitivity and Offset parameters, which are associated with a Linear calibration. Other calibration types can be used, for example:

• Table-based calibration

• Polynomial calibration

• Calculated calibration (not modifiable by the user)

• CalibrationNone, which provides the raw reading of the transducer without any modification.

After pressing the Change/Modify Calibration button, a new window opens with a list of calibrations stored in the device.

Below the info panel, on the left, sits the calibration data point table. It contains data points collected during the calibration procedure and it allows the manual editing of the calibration points.

The field Applied refers to the calibrated units the transducer is currently subjected to, e.g. 1 kN or 50 kPa. The field Read is the raw reading of the transducer, which most often is in units of mV.

The figure on the right shows an example with 3 data points. The Applied, Read and Use? fields can be modified.

A new data row can be added by manually inserting data in the blank row at the bottom of the table or, preferably, by using the Applied Value and Read Value input box shown in the figure on the right.

Press Insert to add the pair of applied and read value to the data table.
The Autoread button, if enabled, automatically feeds the Read Value box with data collected automatically by the device. This allows for a fast point-by-point calibration procedure.

The Full Scale Value field is used to set the full scale value (in mV) of the transducer which will be used by the system to select the optimal input stage configuration for maximum accuracy. The Effective Full-Scale field shows the current full scale of the input.

At the bottom of the calibration wizard, you will find the graph and, where applicable, the regression results from the current calibration points. For a linear calibration, the results indicate the slope (which will determine the sensitivity of the final calibration), the intercept (which will determine the offset), the maximum error from linearity and its associated data point, and the R2 coefficient which determines the goodness of the linear fit (the closer to 1, the better).

For polynomial calibrations, this panel also shows the polynomial order chosen for positive and negative raw values.

After closing the Calibration Wizard, select the new or updated calibration and click Ok.