Optical bypass switch
First Claim
1. A method of selectively accessing a transmission optical fiber, comprising the steps of:
- withdrawing a first optical signal from a first bend in a transmission optical fiber at a first location and transmitting the first optical signal to a receiver;
injecting a second optical signal from a transmitter into the transmission optical fiber at a second location downstream of the first location on the transmission optical fiber;
disengaging couplers for withdrawing the first signal and for injecting the second signal from and into the transmission optical fiber when a bypass state is desired so that the first optical signal can be transmitted in the transmission optical fiber without being withdrawn and the second signal is not injected into the transmission optical fiber;
connecting the transmitter with the receiver so that signals transmitted by the transmitter can be detected by the receiver when in the bypass state.
3 Assignments
0 Petitions
Accused Products
Abstract
An optical bypass switch includes a normal state and a bypass state, a transmission optical fiber having a signal withdrawn therefrom and injected thereto in its normal state so as to be capable of use in a ring or bus architecture. In the bypass state of the switch, the transmission optical fiber is substantially disengaged so that a signal being transmitted thereby can bypass the switch, and in this state optical fibers connected to a transmitter and a receiver of the bypass switch are maintained in a bent attitude so as to allow signals to be withdrawn and injected thereinto. A loop back path, e.g. a connector optical fiber, is provided which allows a path between the transmitter and the receiver to be completed in the bypass state of the bypass switch, and logic circuitry is provided for analyzing signals detected by the receiver which should have originated from the transmitter for evaluating a state of operation of the transmitter, receiver, and connecting means therefor. Whenever the logic circuitry detects a malfunction in any of these elements, e.g. the transmitter, the receiver and connecting structure therefor, the optical bypass switch is kept in its bypass state and prevented from re-engaging the transmission fiber so as to prevent the bypass switch from optically coupling to the transmission fiber when its electro-optic elements are not functioning properly.
32 Citations
7 Claims
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1. A method of selectively accessing a transmission optical fiber, comprising the steps of:
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withdrawing a first optical signal from a first bend in a transmission optical fiber at a first location and transmitting the first optical signal to a receiver; injecting a second optical signal from a transmitter into the transmission optical fiber at a second location downstream of the first location on the transmission optical fiber; disengaging couplers for withdrawing the first signal and for injecting the second signal from and into the transmission optical fiber when a bypass state is desired so that the first optical signal can be transmitted in the transmission optical fiber without being withdrawn and the second signal is not injected into the transmission optical fiber; connecting the transmitter with the receiver so that signals transmitted by the transmitter can be detected by the receiver when in the bypass state. - View Dependent Claims (2, 3, 4, 5)
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6. An optical coupler for coupling light between a core of an optical fiber and an electromagnetic transducer, comprising:
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means for forming a curved channel having a curved end and a top and bottom channel face extending substantially perpendicular from the curved end so as to form a captivating channel for an optical fiber, the top and bottom channel faces being separated by a distance less than twice a diameter of an outer coating of the fiber; a curved engaging member engageable with the curved channel; means for urging the engageable member into the channel and keeping the optical fiber bent between an end face of the engaging member and the channel end. - View Dependent Claims (7)
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Specification