Signal conditioning

What is signal conditioning?

Analog measurement signals often have to be conditioned so that they can be processed by downstream systems at all. A classic example is the signal amplification of sensors with low voltage levels, such as thermocouples. This signal conditioning prepares the measurement signal for further processing.

'Charge amplifiers like the Kistler LabAmp enable signal conditioning for piezoelectric sensors.
Signal conditioning for piezoelectric sensors can be performed via charge amplifiers with integrated data acquisition, e.g. with the Kistler LabAmp laboratory charge amplifier.

Signal conditioning for sensors with charge output

Piezoelectric sensors without integrated electronics have a charge output. Since this charge cannot be processed directly by data acquisition systems, it must first be converted into a proportional voltage. This is done in a charge amplifier. Amplification to the required voltage range, often –10V to +10V, is also done in the charge amplifier. Signal conditioning for the subsequent data acquisition system takes place in the charge amplifier.

Signal conditioning for sensors with IEPE

Piezoelectric sensors with built-in electronics (IEPE) are active measuring elements - they need a voltage supply. This is typically done with a constant current of 4 to 20mA and a compliance voltage of 25V.

Since IEPE sensors are designed to measure dynamic events (AC), this supply of direct current (DC) can be applied to the same signal lines without introducing offset or measurement error.

When using IEPE sensors, the signal conditioner has the task of supplying the sensor with constant current and compliance voltage in addition to signal conditioning and providing the measurement signals for the subsequent data acquisition system.