In order to meet the needs of small-size applications, CoreMorrow developed and designed a series of small-size piezo amplifiers to adapt to its industrial matching applications. It is single-channel open-loop driving, which is small in size, simple in operation, and convenient for IC board controllers. Used in industrial control and processing fields. At the same time, CoreMorrow will provide customized services, and the professional R&D team can quickly provide customers with the best solutions according to application needs.
E63.A Piezo Amplifier
E63.A1K adopts analog input control mode, pin-type connection, ultra-low noise, small size, only 60×30×11.5mm, which is very suitable for industrial applications.
1 channel open loop
Analog input: 0-10V
Output voltage: 0-120/150V
Ave. Current: 12mA
Mass: 30g
E63.C Piezo Amplifier
E63.C1K has a USB interface and PC software control function. It looks like a USB flash drive and has the volume of 89×30×14mm. It is very suitable for applications such as interferometers.
1channel open loop
USB software
Output voltage: 0-150V
Ave. Current: 2.5mA
Mass: 52g
E61 Piezo Amplifier
E61.K1DL adopts pin connection, ultra-small size, only 22.4×18.5×7mm, which meets the strict requirements of nanopositioning application system.
1 channel open loop
Analog input: 0-10V
Output voltage: 0-120V
Ave. Current: 5mA
E62 Piezo Amplifier
E62.K1DL is specially designed for industrial matching, analog input control, pin connection, 34×17×4mm overall size, can be connected with PCB board.
1 channel open loop
Analog input: 0-10V
Output voltage: 0-100V
Ave. Current: 3mA
Driving Piezo Actuator/Stage
CoreMorrow’s small volume piezo amplifier is very suitable for driving piezoelectric ceramic, piezoelectric stacks, open-loop piezoelectric actuators, open-loop nanopositioning stages, etc., such as driving small piezoelectric phase shifters and driving bonding wires. The piezoelectric stack ceramics in the machine can control the opening and closing of the clamps, drive the stepping of the piezoelectric ceramics in the fiber end detection to complete the three-dimensional imaging and so on.