The charge amplifier requires a high input impedance and a low bias current.

An operational amplifier. A high input impedance avoids electricity on the feedback capacitance.

The charge leakage, low bias current prevents excessive charge and discharge from the feedback capacitor. charge

The layout of the amplifier circuit is the key. The operational amplifier shell must be well connected

The input end of the ground should be well protected and well connected to the same place as the shell.

The layout of the protected input side is shown in Figure 46. To prevent operation amplifier

The leakage noise caused by the large insulation is applied to the end connection of the insulated STANDOFF joint

Enter the cable.

In spite of the above protection measures, the output voltage is still drifting. For compensation drifting

Shift, usually in a circuit, to design a reset switch at one end of one end with a manual

Put the output to zero. One is to connect a reed switch on the resistance, but

The feedback capacitor is Cf parallel. The starting reed switch closes the switch and releases the switch.

Feedback the voltage in the capacitor.

Another method is to use a MOSFET device to determine the minimum gate voltage of the FET in the device with the maximum output voltage and the closing voltage. In practical applications, the MOSFET gate is given a voltage greater than the amplifier voltage to reduce its leakage / source impedance and to create a current path for the feedback capacitance discharge.

The third method is in the feedback loop and a voltage divider. This electricity

A time constant (CfRf) is generated, and the time constant and film capacitance

It is independent and can be controlled accurately.

Figure 47 the signal level detector applied in high SNR. this

It is ideal for a circuit to detect impact in low level vibration. Signal to noise ratio

A situation of low and necessary identification of shock or pressure signals from a background vibration.

The differential amplifier circuit of figure 48 is suitable. This circuit consists of two

A sensor that drives a differential amplifier.

This circuit uses the concept of common mode suppression. The two switch mechanical coupling is used

Eliminate the unwanted vibration of the analog two. Input or input on a switch

The pressure signal produces the output, while the other is not.

The CMOS logic circuit provides a low level of interface with the piezoelectric film.

This program. As mentioned earlier, the low energy consumption circuit implemented by CMOS technology is very important.

It is suitable for piezoelectric thin film switches. CMOS applications for piezoelectric thin films

It's working on low frequency. Other features to be considered include the input leakage of the device

Flow, input impedance, input bias impedance, and EMI effect. For example, one

The CMOS circuit can be used to induce a single impact or a pressure signal.

The D flip-flop of figure 49 shows that an impact or pressure signal will drive one

Sound alarm.

The circuit diagram of 50 in counting application induction of repeated impact or pressure

Signal.

There are many different CMOS circuit configurations available to the piezoelectric film interface.

The common point of all circuits is that the input bias resistance and the piezoelectric film are in parallel.

The resistance is connected in series with the piezoelectric film. The bias resistor is responsible for the leakage current and the series of electricity

The hindrance current protects it from the shock of the electric charge of the electrostatic discharge.

Cable

In the application of the amplificati