I use Opa129 as voltage to voltage coverter for high input impedance devices. Now I have to use an usb ADC card which requires max input Voltage of ±2.5 V . If one of the input voltage channels exceeds ±2.5 V limit, it disturbs other channel reading as well. Supply Voltage of OPA129 is ±9V or ±12 V. Input is bipolar. How can I limit the output voltage to ±2.5V. which Zenner? Which Diode?
What is the bandwidth of your input signal?
What is the sample rate of your ADC?
What is the input resistance and capacitance of your ADC?
The answers to these questions will help us come up with a solution.
The bandwidth of input signal changes depending on the sensor I use. Input voltage range: ±2.5 V or ±5 V , 0- 1kHz
But I also need to use Low-pass filter (after opa129) with cut-off frequency of 4Hz for static measurements(6 pole sallen-key works fine at the moment, with three CA3140 or Tl071 in series).
unfortunately the lowest voltage zeners I've used are 2.4V, so the clamping voltage would be 2.4V + .7V=3.1V, which exceeds the limits. However, the easy way is to just use a 2 strings of 3 standard switching diodes, which will limit the voltage to (3*.7V) = 2.1V
I think the knee on a zener, particularly a low-voltage zener, is much too soft to give you good limiting while not introducing nonlinearities in your signal path. I have an alternate idea, but it will require 4 op amps (could be in one package) plus a voltage reference chip. Wanna see it?