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Optical Engineering

Integrated optical sigma-delta modulators
Author(s): Phillip E. Pace; Stephen J. Ying; John P. Powers; Ronald J. Pieper
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Paper Abstract

Modern avionics equipment, such as superresolution direction-finding systems (frequency band 0.3 to 3 MHz), now require resolutions greater than 15 bits. Oversampled analog-to-digital converter architectures offer a means of exchanging resolution in time for that in amplitude and represent an attractive approach to implementing precision converters without the need for complex precision analog circuits. Using oversampling techniques based on sigma-delta (??) modulation, a convenient trade-off exists between sampling rate and resolution. One of the major advantages of integrated optics is the capability to efficiently couple wideband signals into the optical domain. Typically, ?? processors require simple and relatively low precision analog components and thus are well suited to integrated optical implementations. The current ?? methodology is reviewed and the design of the single-bit, integrated optical ?? modulator is presented. Simulation results for both first- and second-order architectures are presented by evaluating the transfer characteristics numerically. A 16-bit f 0=1 MHz design (oversampling ratio of 132) is also quantified.

Paper Details

Date Published: 1 July 1996
PDF: 9 pages
Opt. Eng. 35(7) doi: 10.1117/1.600613
Published in: Optical Engineering Volume 35, Issue 7
Show Author Affiliations
Phillip E. Pace, U.S. Navy (United States)
Stephen J. Ying, Naval Postgraduate School (United States)
John P. Powers, Naval Postgraduate School (United States)
Ronald J. Pieper, U.S. Navy (United States)


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