The maximum correction influence can be adjusted with parameters for each channel. The maximum correction influence is subdivided according to the adjusted zero point.

For example, for channel 1 the correction influence is adjusted via parameter Correction signal 1: C [1 - 8]: Correction at low load at low load and via Correction signal 1: C [1 - 8]: Correction at full load at full load. Depending on the current load position, a linear interpolation is performed between these parameters. In this way, the correction influence can be defined depending on the load position. If the parameter values are identical, then the same correction influence applies for the entire capacity range. If parameter Correction signal 1: C [1 - 8]: Correction at low load is smaller than Correction signal 1: C [1 - 8]: Correction at full load, the correction influence increases as the load position increases. If parameter Correction signal 1: C [1 - 8]: Correction at low load is larger than Correction signal 1: C [1 - 8]: Correction at full load, the correction influence decreases as the load position increases.

The correction signal takes effect only if at least two load points are saved!

Correction influence via the adjusted range limits

X

Load position (Digit)

Y

Channel position (digit)

A

Channel position depending on the load position

B

Minimum correction influence on the channel position

C

Maximum correction influence on the channel position