Three-point calibration on a transmitter is typically performed to set zero, span, and correct nonlinearities across the range.

• A. To calibrate the display brightness.
• B. To adjust the transmitter's response time.
• C. To verify insulation integrity.
• D. To set zero, span, and correct nonlinearity across the range.

Answer: (D)

The test is about how a transmitter’s calibration aligns its output across the entire measurement range by addressing offset, gain, and any nonlinearity. Setting zero fixes the baseline so the lowest input yields the correct low-end output, preventing an offset at the start of the range. Setting span adjusts the overall scale so that the highest input produces the correct full-scale output, correcting gain across the range. Adding a third calibration point helps straighten any curved or nonlinear response, ensuring the input-to-output relationship stays linear throughout, not just at the endpoints. This combination—zero, span, and nonlinearity correction—is essential for accurate, consistent readings from the transmitter.

Other options don’t relate to this mapping of input to output: calibrating display brightness isn’t about the transmitter’s measurement scale; adjusting response time deals with dynamic behavior rather than static accuracy; and verifying insulation integrity is a safety test, not a calibration of signal scaling.