Field Calibration - Correction Factor Method

Understanding & Customizing your GPI "09" Digital Display

In part 1 of this 4 part series, we discussed the features and benefits of GPI’s 09 Series Electronic Display. One of the most valuable features found on this display is the ability to Field Calibrate your flow meter to specific conditions using a plus or minus percentage factor, also known as the “Correction Factor” method.


Part 2 - Field Calibration Procedures (Correction Factor Method)

As opposed to the factory calibration where K/F's are permanent, field calibrations using the correction factor method are meant to be performed by the end user and can be changed or modified at any time by using the same procedure as outlined below. For the most accurateCalibration Container results, it's recommended that you use a uniformly dependable and accurate calibration container. Your flow meter should be installed and purged of any air prior to beginning the test.

The first step is to flow a known amount of fluid (by weight or volume) through the flow meter. It's highly recommended that you dispense fluids at a flow rate which best simulates your actual operating conditions. Avoid "dribbling" more fluid or repeatedly starting and stopping the flow. This can result in less accurate calibrations.

Next, compare the readings on the meter display to the total volume of fluid passing through the meter during your step 1 flow test. Subtract the lesser of the two from the greater to determine a valid difference. To determine a percentage of error, use the following equation:

(Difference ÷ Display Reading) x 100

For instance, using GPI's 5-Gallon Calibration Container, you determine that exactly 5 gallons of fluid has passed through the meter, while at the same time the integral display says that same batch was just 4.8 Gallons. The difference is a minus 0.2 gallons. Divide that by 4.8 and then multiply the result times 100.

(0.2 ÷4.8) x 100 = 4.16

The percentage of error is 4.16%. Because the 0.2 gallon difference was a negative, enter the correction factor as a +4.16% to compensate for the error. Had the difference been a +0.2, you would enter the Correcton Factor as a -4.16%.


Now that you know how to calculate the correction factor, here's how you use that number to field calibrate your meter to this specific fluid/application.


  1. To calibrate, press and hold the CALIBRATE and DISPLAY buttons for about 3 seconds until you see FLdCAL. Release both buttons and you will see CF - 00.0. You are now in the field calibration mode and values from -99.9% to +99.9% can be entered.
  2. The +/- position appears either as an “underscore” character for plus, or as a “hyphen” character for minus. The DISPLAY button selects the position and the CALIBRATE button toggles this character.
  3. The DISPLAY button can then be pushed to select the numeric positions. Press the CALIBRATE button to scroll from 0 to 9. Enter the percentage of change you want the display to correct. When satisfied with the value, press both CALIBRATE and DISPLAY buttons simultaneously, CALEnd will be displayed and unit will go back to normal operation, less the FAC (factory calibration) icon.
  4. All enabled units-of-measure remain visible and selectable. The entered correction will be applied to all enabled units.
  5. To return to factory calibration (FAC), press and hold both CALIBRATE and DISPLAY buttons for about 3 seconds until FAcCAL is displayed. Then release buttons. Unit should return to normal operation and FAC icon is visible.

Your display/flow meter is now set up with the original factory calibration and the Field Calibration. Both will be accesible in kind and as needed until a new correction factor replaces the old one.


Up next...User Configurations, Programming your display to meet your specific needs.