3.4 KiB
+++ title = "Charge Amplifiers" author = ["Thomas Dehaeze"] draft = false +++
- Tags
- [Electronics]({{< relref "electronics" >}})
Description
A charge amplifier outputs a voltage proportional to the charge generated by a sensor connected to its inputs.
This can be typically used to interface with piezoelectric sensors.
Basic Circuit
Two basic circuits of charge amplifiers are shown in Figure 1 (taken from (Fleming 2010)) and Figure 2 (taken from (Schmidt, Schitter, and Rankers 2014))
{{< figure src="/ox-hugo/charge_amplifier_circuit.png" caption="Figure 1: Electrical model of a piezoelectric force sensor is shown in gray. The op-amp charge amplifier is shown on the right. The output voltage \(V_s\) equal to \(-q/C_s\)" >}}
{{< figure src="/ox-hugo/charge_amplifier_circuit_bis.png" caption="Figure 2: A piezoelectric accelerometer with a charge amplifier as signal conditioning element" >}}
The input impedance of the charge amplifier is very small (unlike when using a voltage amplifier).
The gain of the charge amplified (Figure 1) is equal to: \[ \frac{V_s}{q} = \frac{-1}{C_s} \]
Manufacturers
| Manufacturers | Links | Country |
|---|---|---|
| PCB | link | USA |
| HBM | link | Germany |
| Kistler | link | Swiss |
| MMF | link | Germany |
| DJB | link | UK |
| MTI Instruments | link | USA |
| Sinocera | link | China |
| L-Card | link | Rusia |
Bibliography
Fleming, A.J. 2010. “Nanopositioning System with Force Feedback for High-Performance Tracking and Vibration Control.” IEEE/ASME Transactions on Mechatronics 15 (3):433–47. https://doi.org/10.1109/tmech.2009.2028422.
Schmidt, R Munnig, Georg Schitter, and Adrian Rankers. 2014. The Design of High Performance Mechatronics - 2nd Revised Edition. Ios Press.