Cobra Fiber Positioner in Full-Scale Production at New Scale Technologies
Company to deliver 2,550 miniature SCARA robots for the Subaru Telescope Prime Focus Spectrograph (PFS); extend expertise to additional astronomy and other programs
Victor, NY – June 22, 2016 – New Scale Technologies, Inc. (www.newscaletech.com) has moved its miniature Cobra fiber positioners into full production, manufacturing 200 units per month for the Subaru Telescope Prime Focus Spectrograph (PFS). Using its mature manufacturing processes in a fully-staffed and fully-equipped manufacturing center near Rochester, NY, New Scale will deliver a total of 2,550 Cobra positioners to the California Institute of Technology by June 2017.
Deployed in a close-packed array, the Cobra positioners rapidly configure an array of fibers in the prime focus of the telescope to a precision of 5 µm. They enable the Subaru Telescope to conduct a variety of targeted surveys for studies of dark energy, galaxy evolution, and galactic archaeology.
“Our mission is to enable customers to achieve their science objectives in less time and lower total cost,” said New Scale CEO David Henderson. “From our technological innovations in developing the Cobra positioner, through the controlled and efficient manufacturing processes we have developed here at our facility, we have the unique ability to contribute to other fiber spectrometer programs in the near future.”
This important production milestone was reached after eight years of research and development, resulting in:
• Unique and patented rotary piezoelectric motor technology uniquely suited to the PFS application with reduced operating voltage (10 volts) and longer-life (> 400K cycles).
• Patented drive electronics that are sufficiently small and low power to be integrated in the close-packed Cobra arrays.
• A validated Cobra system design that meets the science requirement of the PFS including:
o 8 mm actuator array spacing with 9.5 mm diameter fiber patrol area.
o 5 µm fiber positioning with < 0.3 degree fiber tilt and < 25 µm fiber defocus.
o Ability to robustly hold position without power and zero backlash.
o Ability to efficiently converge to target positions.
• A global supply chain for the 32 unique Cobra components.
• Assembly tools, fixtures and processes sufficient for producing 200 Cobra positioners per month.
• Quality assurance and 100% in-line testing methods that verify all critical Cobra specifications.
• A highly trained and experienced micro-mechatronic manufacturing staff.
For more information:
Cobra application note and videos: www.newscaletech.com/app-notes/cobra-jpl
White paper on Cobra manufacturing and testing: www.newscaletech.com/doc_downloads/cobra-manufa[...]
The Subaru PFS program: pfs.ipmu.jp/
The Cobra fiber positioner is a custom, two-stage rotary piezoelectric motor system with integrated drive electronics. For more information about custom development programs with New Scale Technologies visit www.newscaletech.com/technology/custom-engineer[...].
M3 “micro-mechatronic module” platform delivers key benefits
New Scale’s M3 “micro-mechatronic modules” are the smallest, highest resolution, most repeatable closed-loop positioning solutions available. Each M3 smart module integrates New Scale’s patented and proprietary SQUIGGLE® or UTAF™ piezoelectric motors, drive electronics, position sensors, micro mechanical guides and control technologies. These “all in-one” smart modules plug-and-play directly with an embedded processor and provide the fastest time to market with the lowest total cost.
About New Scale Technologies, Inc.
New Scale Technologies develops and manufactures the smallest and most precise closed-loop positioning solutions available. Our “all-in-one” M3 Smart Modules – piezoelectric motor systems with built-in controllers – are easy to integrate into handheld and portable instruments. They enable smaller, smarter imaging systems, scientific instruments, medical devices, aerospace and defense systems and more. Our customers achieve the fastest time to market with the lowest total cost.