6
7
Parameter Description
Parameter Description
Example 4: This example shows a potentiometer range between 0V and 5 V. Instead of adjusting gain
as the example below, the user can set P.38 to 120Hz or P.73 to 0 to achieve the same
result.
Example 5: In this example, a 1V negative bias is used. In a noisy environment, it is advantageous to
use the negative bias to provide a noise margin (1V in this example).
Example 6: In this example, a negative bias is used to provide a noise margin. Also a potentiometer
frequency gain is used to reach the maximum output frequency.
5V
2.5V
0V
30Hz
60Hz
0Hz
Gain
adjustment
P.140 =
10V
5V
* 100% = 200%
Max output
frequency
Parameter setting:
P.38 = 60Hz
Max operation frequency
P.139 =0%
Bias adjustment
P.140 = 200% Gain adjustment
P.141 = 0 Positive Bias
P.73 = 1 Voltage signalselection
10V
1V
0V
54Hz
60Hz
0Hz
6Hz
Negative
Bias 6Hz
P.139 =
1V
10V
* 100%
Max output
frequency
Parameter setting:
P.38 = 60Hz
Max operation frequency
P.139 =10%
Bias adjustment
P.140 = 100% Gain adjustment
P.141 = 1 NegativeBias, can not reverse
P.73 = 1 Voltage signalselection
10V
1V
0V
60Hz
0Hz
Bias
adjustment
6.6Hz
P.140 = 10V
* 100% = 111.1%
9V
Max output
frequency
Negative
Bias 6.6Hz
Parameter setting:
P.38 = 60Hz
Max operation frequency
P.139 =10%
Bias adjustment
P.140 = 111% Gain adjustment
P.141 = 1 NegativeBias, can not reverse
P.73 = 1 Voltage signalselection