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Electro-Optic Hybrid Rotary Joint (EOHRJ)Xu, Guoda, Bartha, John, Zhang, Sean, Qiu, Wei, Lin, Freddie, McNamee, Stuart, Rheaume, Larry 10 1900 (has links)
International Telemetering Conference Proceedings / October 23-26, 2000 / Town & Country Hotel and Conference Center, San Diego, California / An advanced electro-optic hybrid rotary joint (EOHRJ) has been developed in Phase II of an AF SBIR effort with Physical
Optics Corporation (POC) to replace cable wrap structure for multi-channel rotation-to-fixed (RTF) signal transmission. The
EOHRJ meets AFFTC and other range special needs with a generic, high performance, rotary joint solution. At the moment,
we have successfully installed and tested the EOHRJ on our KTM tracker system with the following capabilities: 1) able to
accommodate hundreds of transmission channels, including electrical power, control, feedback, and low-speed signals; 2)
able to accommodate multiple channel, high data rate (over gigabits per second), and bi-directional signal transmission; 3)
able to be reliable for harsh environmental operation, adaptive to stringent sized requirement, and accommodating existing
electrical and mechanical interfaces.
The completed EOHRJ contains three uniquely integrated functional rings. The first and the outmost one is power ring,
which provides RTF transmission channels for over 50 high voltage and high current channels. The second and the middle
one is low speed electrical signal ring, which provides RTF transmission for over hundred control, feedback, and low speed
data signals. The third and the inmost one is optical fiber slip ring, which, incorporating with current advanced signal
multiplexing technologies (either time division or wavelength division multiplexing ) is able to provide multiple channel,
high data rate, and bi-directional signal transmission. At the moment, the prototype module of the tree-layer EOHRJ has
been successfully assembled in Air Force’s tracker system, and is providing a satisfactory performance. This paper presents
our joint work on this project.
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OPTICAL SLIP-RING CONNECTORXu, Guoda, Bartha, John M., McNamee, Stuart, Rheaume, Larry, Khosrowabadi, Allen 10 1900 (has links)
International Telemetering Conference Proceedings / October 25-28, 1999 / Riviera Hotel and Convention Center, Las Vegas, Nevada / Current ground-based tracking systems at the DoD test and training ranges require
transmission of a variety of signals from rotating platform to fixed control and process
center. Implementation of commercial off the shelf (COTS) solution for transmitting high-speed,
multiple-channel data signals over a rotational platform prompt the development of
an advanced electro-optic hybrid rotating-to-fixed information transmission technology.
Based on current demand, an Air Force-sponsored Small Business Innovative Research
(SBIR) contract has been awarded to Physical Optics Corporation (POC) to modify
existing tracking mounts with a unique electro-optic hybrid rotary joint (EOHRJ). The
EOHRJ under current development is expected to provide the following features: 1)
include a specially designed electrical slip-ring, which is able to accommodate hundreds of
transmission channels, including electrical power, control, feedback, and low-speed data
signals; 2) include an optical fiber slip-ring which, by incorporating with electrical time
division mulitplexing (TDM) and optical wavelength division multiplexing (WDM)
technologies, is able to provide multiple channel, high data rate (over gigabits per second),
and bi-directional signal transmission; and 3) is designed to be reliable for harsh
environmental operation, adaptive to stringent size requirement, and accommodating to
existing electrical and mechanical interfaces.
Besides the military use, other possible commercial applications include on board
monitoring of satellite spinners, surveillance systems, instrumentation and multi spectral
vision systems, emergency/medical instruments, remote sensing, and robotics.
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