Product News: Test & Measuring Instruments, Machinery & Machining Tools, Optics & Photonics
Laser Beam Profiling Camera has large array, GigE interface.
Press Release Summary:
February 13, 2013 - With 320 x 320 pixel pyroelectric array that can profile beams up to 25 mm without reduction optics, Pyrocam IV measures pulsed and CW (continuous wave) lasers from 13–355 nm and 1.06 to greater than 3,000 µm. Electronics control design includes interface to GigE (Gigabit Ethernet) cameras, and integral focal plane chopper is included for CW beams and thermal imaging. Other features include 14-bit ADC, SNR of 1,000:1, and Ultracal® baseline algorithm.
Original Press Release
Ophir-Spiricon's New Pyroelectric Laser Beam Profiling Camera Features Larger Array and Gige Interface
Press release date: February 6, 2013
San Francisco, CA - Ophir Photonics, global leader in precision laser measurement equipment and a Newport Corporation brand, today announced the Pyrocam IV at Photonics West. The Pyrocam IV is the company's latest beam profiling camera. It features a larger, 320 x 320 pixel pyroelectric array that can profile beams up to 25 mm without the need for reduction optics. The new electronics control design includes an interface to GigE (Gigabit Ethernet) cameras for high-speed applications. The Pyrocam IV measures both pulsed and CW (continuous wave) lasers, from 13 to 355 nm and 1.06 to >3000 µm; an integral focal plane chopper is included for CW beams and thermal imaging. The camera is housed in a new, compact case that provides easy access to the array and chopper.
The Pyrocam IV ensures alignment and proper operation of CO2 and telecom NIR lasers, as well as other infrared sources out to the Far IR THz range. A 14-bit A/D converter provides reliable measurement and analysis of both large signals and low level signals in the wings of the laser beam. A signal to noise ratio of 1000:1 means beams of 30 mW/cm2 are easily visible. The patented Ultracal® baseline algorithm allows multiple frames to be summed; summing 256 frames enables viewing of beam as low as 1 to 2 mW/cm2.
"The Pyrocam III and now the Pyrocam IV are unique in the industry," said Gary Wagner, General Manager, Ophir Photonics (U.S.). "These cameras are the only reliable means to 2D images and highly accurate measurement of spatial power distribution into the CO2 wavelength...and beyond."
The Pyrocam IV works with Ophir-Spiricon's BeamGage®, the industry's most advanced laser beam analysis software. It includes all the algorithms and calculations needed to make the accurate, ISO approved laser beam measurements. The software provides 2D and 3D viewing, advanced image processing features, NIST traceable power measurements, and multilingual support for English, Japanese, Chinese, and German.
Availability & Pricing
The Pyrocam IV pyroelectric laser beam profiling camera is available now. OEM prices on request.
Pyrocam Data Sheet: http://ow.ly/hmyvC
About Ophir Photonics
With over 30 years of experience, Ophir Photonics, a Newport Corporation brand, provides a complete line of instrumentation including power and energy meters, beam profilers, spectrum analyzers, and goniometric radiometers. Dedicated to continuous innovation in laser measurement, the company holds a number of patents, including Spiricon's Ultracal™, the baseline correction algorithm that helped establish the ISO 11146-3 standard for beam measurement accuracy. The Photon family of products includes NanoScan scanning-slit technology, which is capable of measuring beam size and position to sub-micron resolution. The company's modular, customizable solutions serve manufacturing, medical, military, and research industries throughout the world. For more information, visit www.ophiropt.com/photonics
For more information, contact:
Gary Wagner, General Manager
Ophir Photonics (U.S.)
3050 North 300 West
North Logan, UT 84341
Telesian Technology Inc.
49 Midgley Lane
Worcester, MA 01604
© 2013. BeamGage, BeamMaker, BeamMic, and Ultracal are trademarks of Ophir-Spiricon. All other trademarks are the registered property of their respective owners.