Claims
- 1. An optical communications system comprising:
- an optical communication channel;
- a plurality of transmitters, each coupled to said channel;
- a receiver, coupled to said channel for receiving light from each of said plurality of transmitters; and
- means for synchronizing said plurality of transmitters for operating in a time division multiplex mode;
- each of said plurality of transmitters comprising a light source and drive means, responsive to a data signal comprising a plurality of bits, for modulating said light source in dependence upon the data signal and with respect to a predetermined output power level during its respective predetermined time period, wherein said drive means is arranged to drive said light source during a first time period immediately preceding said predetermined time period such that its output power increases gradually to said level and during a second time period immediately following said predetermined time period so that its output power decreases gradually from said level, each of said first and second time periods being substantially greater than a bit period of the data signal, the output power during each of said first and second time periods having a predetermined waveform of substantially lower spectral content than the data signal;
- said receiver comprising means for detecting the light signal for providing a combined signal, means for filtering of said combined signal for deriving the data signals from the combined signal.
- 2. An optical communications system as claimed in claim 1, wherein said means for synchronizing comprises a synchronization signal generator, a synchronization channel coupled to said generator, and a plurality of synchronization receivers each coupled to said synchronization channel for receiving a synchronization signal from said generator and to a respective one of said plurality of transmitters for providing an enabling signal thereto.
- 3. An optical communications system as claimed in claim 2, wherein said drive means includes a first source means responsive to said data signal and a second source means responsive to said enabling signal for generating a step waveform, said second source means including filter means responsive to said step waveform to provide a signal varying according to the predetermined waveform.
- 4. An optical communications system as claimed in claim 3, wherein said second source means is further responsive to a monitoring device coupled optically to said light source.
- 5. An optical communications system as claimed in claim 4, wherein said drive means is arranged to provide a substantially sinusoidal predetermined waveform.
- 6. A method of communicating data signals comprising the steps of:
- transmitting an optical signal from each of a plurality of time division multiplexed transmitters, the optical signal from each transmitter comprising light modulated with a data signal, comprising a plurality of bits, about a predetermined power level during a predetermined time period, light with a power gradually increasing to said power level during a first time period preceding said predetermined time period, light with a power gradually decreasing from said power level during a second time period following said predetermined time period, each of said first and second time periods being substantially greater than a bit period of the data signal;
- in a single receiver, receiving the optical signals from said plurality of transmitters with said predetermined time periods of the optical signals multiplexed in time; and the output power during each of said first and second time periods having a predetermined waveform of substantially lower spectral content than the data signal;
- filtering a combined signal in the receiver to derive the data signals from the combined signal.
Parent Case Info
This application is a continuation-in-part of application Ser. No. 869,762 filed June 2, 1986, now abandoned.
US Referenced Citations (4)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
869762 |
Jun 1986 |
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