Four level frequency shift keying optical communication apparatus
First Claim
1. A four level FSK optical communication apparatus comprising,a light source for emitting a signal light modulated in FSK with a four level transmitting signal,a local oscillation light source for emitting a local oscillation light,an optical coupler for combining said signal and local oscillation lights to produce a combined light,means for converting said combined light to an intermediate frequency signal,means for dividing said intermediate frequency signal into first and second intermediate frequency signals,means for delaying said second intermediate frequency signal to produce a delayed intermediate frequency signal,a phase shift means for shifting a phase of said delayed intermediate frequency signal by π
- /2 to produce a phase shift intermediate frequency signal,a first mixing means for mixing said phase shift intermediate frequency signal and said first intermediate frequency signal to produce a first delay detection signal, anda second mixing means for mixing said delayed intermediate frequency signal and said first intermediate frequency signal to produce a second delay detection signal.
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Accused Products
Abstract
In a four level FSK optical communication apparatus, signal light which is modulated in FSK with information is transmitted through an optical transmission line. The signal light is detected in an optical heteroclyne system by using local oscillation light, thereby producing intermediate frequency band signal which is then demodulated. A detection system comprises first and second delay detection circuits. In the first detection circuit, the intermediate frequency band signal is divided into first and second signals. The first signal is delayed by a delay time, and then mixed with a second signal which is not delayed to produce first delay detection signal. In the second delay detection circuit, one of the first signal delayed and the second signal not delayed is shifted in its phase by π/2. Then, signal having the phase shift of π/2 and signal having no phase shift are mixed to produce second delay detection signal. Thus, the demodulation of four level FSK modulation signal is performed.
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Citations
6 Claims
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1. A four level FSK optical communication apparatus comprising,
a light source for emitting a signal light modulated in FSK with a four level transmitting signal, a local oscillation light source for emitting a local oscillation light, an optical coupler for combining said signal and local oscillation lights to produce a combined light, means for converting said combined light to an intermediate frequency signal, means for dividing said intermediate frequency signal into first and second intermediate frequency signals, means for delaying said second intermediate frequency signal to produce a delayed intermediate frequency signal, a phase shift means for shifting a phase of said delayed intermediate frequency signal by π - /2 to produce a phase shift intermediate frequency signal,
a first mixing means for mixing said phase shift intermediate frequency signal and said first intermediate frequency signal to produce a first delay detection signal, and a second mixing means for mixing said delayed intermediate frequency signal and said first intermediate frequency signal to produce a second delay detection signal. - View Dependent Claims (2, 3, 4, 5)
- /2 to produce a phase shift intermediate frequency signal,
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6. A four level FSK optical communication apparatus, comprising:
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a light source for emitting a signal light modulated in FSK with a four level transmitting signal; a local oscillation light source for emitting a local oscillation light; an optical coupler for combining said signal and local oscillation lights to produce a combined light; means for converting said combined light to an intermediate frequency signal; means for dividing said intermediate frequency signal into first and second intermediate frequency signals; a first delay means for delaying said first intermediate frequency signal to produce a first delayed signal; a phase shift means for shifting a phase of said second intermediate frequency signal to produce a phase shift signal; a second delay means for delaying said second intermediate frequency signal to produce a second delayed signal; a first mixing means for mixing said first delayed signal and said first intermediate frequency signal to produce a first delay detection signal; and a second mixing means for mixing said second delayed signal and said phase shift signal to produce a second delay detection signal.
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Specification