Bimorph piezo actuators achieve a mechanical amplification effect by different layers expanding at different rates. The new actuators are co-fired, i.e. they are monolithic and all layers are produced in one step. They achieve long travel ranges with motion to 2mm and nanometer resolution. Response times are in the millisecond range, important for fast switching or scanning applications. Due to the monolithic design they provide excellent mechanical stability, low operating voltage and can be operated at temperatures to 150°C.
The typical applications of bimorph piezos are pneumatic valves, fast optical switches, beam deflection, micropositioning acceleration sensors, medical device engineering, semiconductor manufacturing, aerospace, bio-nanotechnology and automotive.
The piezo bimorph actuators can be factory-equipped with position feedback sensors for closed-loop operation. Controllers, OEM driver electronics/piezo power supplies are also available. The new actuators come in a variety of standard and custom shapes, from rectangular stripes to triangles, circular disks with optional aperture etc. Compact versions with only a few millimeters in size can be produced.
A piezo actuator is a ceramic device that converts electrical energy into mechanical energy or motion with high precision, speed and force. There is no friction and wear involved resulting in a device with very high motion resolution and virtually unlimited lifetime. There are two basic types of piezo actuators are common: bulk/stacked/glued discrete actuators and cofired (multilayer, monolithic) actuators.