Motion and nano precision positioning systems leader PI (Physik Instrumente) released a new 250 page catalog on precision mechatronic actuators and nanopositioning systems based on piezo drive technology and frictionless flexure guiding systems. Products covered in this catalog use PI’s in-house designed and manufactured Mars Rover-tested piezo ceramic actuators as their drive principle.
Motion and nanopositioning industry leader PI released a new precision feedback option for its linear stages equipped with direct-drive ironless 3-phase motors.
Applications for linear and rotary stages with classical DC and stepper motors include the industrial fields and research where precise positioning of measuring tools, processing tools and cameras is mission critical.
With the usability of 6-axis hexapods increasing in research and industry applications, PI introduces a new medium load 6-axis precision motion platform, the H-825 hexapod. The H-825 provides a self-locking load capacity up to 30 kg (66lbs). The motion range is up to 55mm (linear) and up to 38 degrees (rotation). High system precision is guaranteed by absolute encoders and an actuator resolution of 8 nanometers – with excellent position repeatability of ±0.1µm and ±2µrad, respectively.
PI (Physik Instrumente) L.P., known industry-wide for nanometer precision motion components, systems, and OEM solutions, announces a new compact closed-loop motion controller. The new E-871.1A1N digital servo controller is the latest model in a series of drivers and controllers specifically designed for inertia-motor based opto-mechanical actuators (piezo ratchet drives) that are widely used in the semiconductor, laser and photonics industry for fine-tuning of complex systems. The miniature actuators are often employed as “set-and-forget” mechanisms with an option to remotely make adjustments, where manual micrometer screws would necessitate a system-shutdown to allow for corrections. Other application fields include bio-nanotechnology, microscopy, and micro-manipulation.
PI’s ultra-precise linear motor stages are well-suited for industry and research. Applications include metrology, testing, positioning, scanning, precision automation, micro-assembly, biotechnology, delay-lines, laser beam control, optics, lens testing, and photonics alignment.
Precision positioning systems industry leader PI (Physik Instrumente) has released a new 6-axis servo motor controller – the C-884.6DC. Most modern precision motion systems are driven by servo motors, because they provide high torque, fast acceleration, smooth motion with a wide dynamic speed range, and fast start stop performance.
The FMPA is a high-speed 12-axis automated silicon alignment system based on a highly specialized digital motion controller (E-712) and a hybrid alignment mechanism to achieve the required long travel ranges without sacrificing stability, resolution, or alignment speed. FMPA is implemented in the E-712’s modular firmware to enable fast, simultaneous alignment and tracking of multichannel couplings in multiple degrees of freedom.
This video features Dr. Markus Simon, head of the PI miCos beamline instrumentation group, who explains a special double hexapod PKM system used for synchrotron x-ray spectroscopy for material testing in fields such as semiconductor and medical applications.
PI provides a large variety of fast Z-Stages and collar piezo objective positioners for 3D imaging (Z-stack acquisition), deconvolution, and fast focusing applications. These Piezo nanopositioning stages & positioners are essential tools for high-resolution metrology and microscopy applications due to their sub-atomic resolution and extremely fast response times.
This video is an introduction of hexapod parallel kinematic 6-axis positioners, and a visual representation of key features of operation.
Opto Diode’s national sales manager Stan Duda kept us up to date on some new developments at Opto Diode. Watch the video to learn more about a new EUV compatible position sensing detector covering the 0.1 nm to 400 nm spectral range.
The PIMag 6D is a design concept for multi-axis nanopositioning applications where the highest precision is required, e.g. in semiconductor processing and inspection systems. This novel precision positioning system is based on magnetic levitation: The completely passive platform levitates on a magnetic field, which actively positions and also guides it. Objects can be moved linearly or rotationally on a plane with a unprecedented guiding accuracy.
Stefan Vorndran with PI (Physik Instrumente) gives us a rundown of their precision positioning technology capabilities at SPIE DSS 2013.