Logarithmic Gain Adjustment
This gain control scheme allows establishing one of seven gain steps logarithmically distributed.
Simply set the GainCtl parameter to one of the seven values tabulated below, and maintain all involved GainTrim<1,2,3> parameters to zero.
GainCtl value |
Gain for all camera channels |
|
Logarithmic expression |
Linear expression |
|
+3 dB |
Nominal gain + 3dB |
Nominal gain x 1.413 |
+2 dB |
Nominal gain +2dB |
Nominal gain x 1.259 |
+1 dB |
Nominal gain +1dB |
Nominal gain x 1.122 |
0 dB |
Nominal gain |
Nominal gain |
-1 dB |
Nominal gain -1dB
|
Nominal gain x 0.891 |
-2 dB |
Nominal gain -2dB |
Nominal gain x 0.794 |
-3 dB |
Nominal gain - 3dB |
Nominal gain x 0.708 |
When these values are used for GainCtl, the Gain parameter is not applicable.
Once the common gain is chosen for all camera taps (1, 2 or 3), it is still possible to trim an individual tap through the GainTrim<1,2,3> parameter.
The control resolution for GainTrim<1,2,3> is not specified. Each unit increment or decrement correspond to the minimal amount of gain alteration the board hardware is supporting.
Setting the GainTrim<1,2,3> parameter to a positive value increases the gain for the relevant camera tap above the value established by the GainCtl common parameter. The correction induced by GainTrim<1,2,3> is simply added to the common gain after the logarithmic conversion of Gain.
Setting the GainTrim<1,2,3> parameter to a negative value decreases the gain for the relevant camera tap below the value established by the GainCtl common parameter.
The minimal and maximal values for GainTrim<1,2,3> depend on the value assigned to GainCtl. The limits are in the order of magnitude of ±500.