Electro-optical data bus
First Claim
1. An electro-optical multiplex bus comprising:
- an electrical bus;
a fiber optic bus comprising a receiving fiber optic cable and a transmitting fiber optic cable;
a converter module for effecting a transparent connection between said electrical bus and said fiber optic bus, said converter module comprising,an optical input port,an optical receiver circuit operatively coupled to said optical input port and responsive to changes in light flux thereat for applying a corresponding electrical bi-phase signal to said electrical bus,an optical output port, andan optical transmitter circuit operatively coupled to said output port and responsive to electrical bi-phase signals carried on said electrical bus for generating corresponding changes in light flux at said output port;
a plurality of optical terminals, each of said optical terminals having a terminal input port and a terminal output port;
means for optically coupling said transmitting cable to the respective output ports of said optical terminals and to said input port of said converter module;
means for optically coupling said receiving cable to said converter module output port and to the respective input ports of said optical terminals; and
a data bus controller for transmitting command signals to a particular one of said optical terminals via said converter module transmitter circuit and for receiving status word signals generated by said particular terminal in response to said command word signals, said status signals being transmitted to said controller via said optical receiver circuit of said converter module.
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Accused Products
Abstract
An electrical multiplex data bus is operatively coupled to an optical multiplex data bus by means of a novel electro-optical converter arrangement to form a hybrid data transmission system in which the transition from the optical data bus to the electrical data bus or vice versa is transparent to the individual terminals and controllers connected thereto. The data on the electrical bus is encoded in a biphase Manchester II code. Within the optical portion of the system, the data is represented by three different levels of flux within the optical fiber transmission line. Since flux is a measure of the intensity of the light, it will never be less than zero; accordingly, the three flux levels may be "zero", an intermediate value "L", and a maximum value "H". A flux of zero then would correspond to a negative bi-phase electrical signal, a flux of H would correspond to a positive electrical signal and a flux of L would correspond to a transitory electrical signal that is undergoing a change of state from positive to negative (or vice versa). In one presently preferred embodiment, this is achieved by decomposing an electrical signal into two binary-valved components DATA and DATA* which respectively switch two separate externally controlled current sources such that a first current source establishes the L flux level and the sum of the two current sources establishes the H level; the current sources (and thus the flux levels) are adjusted to minimal values consistent with pre-established signal-to-noise thresholds.
39 Citations
6 Claims
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1. An electro-optical multiplex bus comprising:
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an electrical bus; a fiber optic bus comprising a receiving fiber optic cable and a transmitting fiber optic cable; a converter module for effecting a transparent connection between said electrical bus and said fiber optic bus, said converter module comprising, an optical input port, an optical receiver circuit operatively coupled to said optical input port and responsive to changes in light flux thereat for applying a corresponding electrical bi-phase signal to said electrical bus, an optical output port, and an optical transmitter circuit operatively coupled to said output port and responsive to electrical bi-phase signals carried on said electrical bus for generating corresponding changes in light flux at said output port; a plurality of optical terminals, each of said optical terminals having a terminal input port and a terminal output port; means for optically coupling said transmitting cable to the respective output ports of said optical terminals and to said input port of said converter module; means for optically coupling said receiving cable to said converter module output port and to the respective input ports of said optical terminals; and a data bus controller for transmitting command signals to a particular one of said optical terminals via said converter module transmitter circuit and for receiving status word signals generated by said particular terminal in response to said command word signals, said status signals being transmitted to said controller via said optical receiver circuit of said converter module. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification