PI (Physik Instrumente) L.P.

PI's new linear pusher is small, fast, and strong.

Geared towards precision industrial motion and automation systems, PI's new controller integrates digital servo, drivers, and power supply in one package.

Industry, OEMs, and research benefit from PI's many years of design and manufacturing experience of piezoelectric components.

PI's automated high-speed alignment engine is honored with a 2017 Lightwave Innovation Reviews Award given for unique solutions in optical communications.

Inexpensive, versatile, compact: PI's E-872 stick-slip motor driver has it all for OEM applications.

New High-End Controller/Driver based on 4 decades of PI piezo nanopositioning experience produces higher resolution, bandwidth.

It's only 22.5mm wide and easily configurable in XY / XYZ combinations without adapter plates.

PI's automated high-speed alignment engine was selected as a PIC Awards finalist in the Advances in Manufacturing category. Winners will be announced at the PIC conference 07 - 08 Mar 2017, Brussels, Belgium.

PI will highlight its new silicon photonics (SiP) alignment engines in addition to precision motion and control technologies at Photonics West in San Francisco, starting January 28, 2017.

The acquisition of ACS further demonstrates PI's technical leadership and marketplace focus to provide the OEM with a complete customized application solution.

Ultra-precise linear motor stages are well-suited for industry and research positioning and scanning applications, such as found in precision automation, micro-assembly, biotechnology, laser beam control, optics, lens testing, and photonics alignment.

New complete systems for ultrafast alignment tasks are available in single or double-sided arrays.

6-axis Parallel positioning systems provide precision and versatility for loads from 2 kg to 1,000+ kg.

When alignment speed is critical and accuracy needs to be at the nanoscale, for projects from planar testing to packaging, PI's system is the solution.

A new family of precision positioning can be combined for multi-axis positioning.

Jordan was key contributor to PI's award-winning photonics systems, the Fast Multi-Channel Photonics Alignment (FMPA) system.

PI's new PIHera Piezo Flexure linear stages with travel to 1800 µm and

High-end system provides 10nm resolution, auto-locking with no drift, for extremely stable images.

Bussa's focus is on solution-centered customer consultations, initially technology-agnostic, as key to PI's global success and continued growth as an industry leader.

This dynamic cost-effective controller is well-suited for multi-axis applications from microscopy to semiconductor metrology.

Higher scanning speed, ceramic-insulated acutators for long life, flexures for friction-free motion, and capactive sensors for sub-nm precise positioning make this new piezo nanopositioner ideal for fast fiber alignment and microscopy applications.

Vacuum and UHV applications in research and industry are increasing in importance as testing and manufacturing specifically require vacuum or cryogenic environments.

Affordable system with a new all-digital servo controller and auto-calibration chip, long-life PICMA® piezo drives comes in 6 different variations optimized for travel range, speed, linearity, and stability.

A solution is now available for fast, parallel, nanoscale-accurate, multi-degree-of-freedom global optical alignment optimization required in key SiP production steps from planar test to packaging.

Value Added Piezo Element Assembly Speeds up OEM Integration, Saves Cost

PI's palm-sized motorized positioning stage combines precision with long lifetime components, making it more attractive to research and industry.

Full integrated flexure-guided design delivers repeatable subnanometer step precision.

Nanometer precision motion control for piezo inertia drives.

PI launches new accelerated delivery of high quality nanopositioning core components.

New PIHera XY positioners with travel to 1800 µm and

Hexapods provide precision and versatility for loads from 2 kg to 1,000+ kg.

An ultra-precise motor in a compact, flat stage design facilitates mechanical integration of the new N-565 linear positioner.

Piezoelectric ceramic transducers are well-suited for industrial, medical applications, and scientific applications that require frequencies above 20 kHz.

High force and compact design are combined with a piezoelectric stick-slip inertia drive in PI's newest stage.

Optimum positioning and force regulation performance solutions based on technology developed and manufactured in-house.

As a technology leader, PI continues to invest in research and development of motion and positioning applications with precision, speed, and stability.

Low power requirements and micro size make PI's new ultrasonic stages easy to integrate into industry and research applications.

High precision positioner now available for loads up to 22lbs.

PI's newest hexapod, driven by brushless servo motors, easily handles loads to 130 lbs.