Mobile infrared communication system
First Claim
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1. A mobile full-duplex IR communication system for communicating between at least a first headset microphone and earphone and a vehicle communication system, comprising:
- a first transmitter means electrically connected to the first headset microphone and including a first plurality of IR emitters;
a first receiver means electrically connected to the first headset earphone and including a first plurality of IR detectors;
a first IR module mountable on a portion of a cabin of the vehicle and including a second transmitter means having a second plurality of IR emitters and a second receiver means having a second plurality of IR detectors; and
said second transmitter means and said second receiver means being electrically connectable to the vehicle communication system.
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Abstract
An IR FM communication system for full-duplex communication between mobile IR devices such as headsets or a headset and a module that is connectable to an aircraft or other vehicle communication system. Each mobile IR device includes a transmitter circuit and a receiver circuit. The transmitter produces an IR emission beam extending approximately 360° in azimuth and at least 15° in elevation. The receiver has a detection envelope extending approximately 360° in azimuth and at least 45° in elevation.
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Citations
38 Claims
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1. A mobile full-duplex IR communication system for communicating between at least a first headset microphone and earphone and a vehicle communication system, comprising:
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a first transmitter means electrically connected to the first headset microphone and including a first plurality of IR emitters;
a first receiver means electrically connected to the first headset earphone and including a first plurality of IR detectors;
a first IR module mountable on a portion of a cabin of the vehicle and including a second transmitter means having a second plurality of IR emitters and a second receiver means having a second plurality of IR detectors; and
said second transmitter means and said second receiver means being electrically connectable to the vehicle communication system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A mobile full-duplex IR communication system for communicating between a first headset microphone and earphone and at least a second headset microphone and earphone, comprising:
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a first FM transmitter means electrically connected to the first headset microphone and including a first plurality of IR emitters;
a first FM receiver means electrically connected to the first headset earphone and including a first plurality of IR detectors;
a second FM transmitter means electrically connected to the second headset microphone and including a second plurality of IR emitters; and
a second FM receiver means electrically connected to the second headset earphone and including a second plurality of IR detectors. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A mobile IR communication device for communicating between an IR headset and an aircraft communication system, comprising:
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a transmitter means having a plurality of IR emitters;
a receiver means having a plurality of IR detectors;
said transmitter means and said receiver means housed by a mobile module mountable on a portion of a cabin of the aircraft and electrically connectable to the aircraft communication system;
said receiver means operable to receive a first IR transmission beam from the IR headset at a first carrier frequency; and
said transmitter means operable to transmit a second IR transmission beam detectable by the IR headset at a second carrier frequency.
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30. A mobile IR communication system for communicating between an IR transmitter means and an IR receiver means, comprising:
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a plurality of IR emitters electrically connected to the IR transmitter means and producing an IR transmission beam of approximately 360°
in azimuth and at least 7½
°
elevation above the horizontal plane to at least 7½
°
elevation below the horizontal plane;
a plurality of IR detectors electrically connected to the IR receiver means and having an IR detection envelope of approximately 360°
in azimuth and at least 45°
in elevation;
a first mobile unit housing the IR transmitter means and said plurality of IR emitters; and
a second mobile unit housing the IR receiver means and said plurality of IR detectors. - View Dependent Claims (31, 32)
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33. A mobile IR communication system for voice communication between a first mobile unit and a second mobile unit, comprising:
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an FM IR transmitter means having a plurality of IR emitters and housed by the first mobile unit;
an FM IR receiver means having a plurality of IR detectors and housed by the second mobile unit;
a set of carrier frequencies in the range of 50-250 KHz;
said FM IR transmitter means and said FM IR receiver means field settable to any member of said set of carrier frequencies; and
whereby the first mobile unit is capable of transmitting an IR transmission beam at said any member of said set of carrier frequencies and the second mobile unit is capable of receiving said IR transmission beam. - View Dependent Claims (34)
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35. A transmitter circuit for receiving an audio input signal and transmitting an FM IR transmission beam, comprising:
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a pre-amplifier comprising an op-amp;
a pre-emphasis circuit coupled to said pre-amplifier;
a crystal-stabilized frequency synthesizer having a frequency select switch;
a modulator coupled to said pre-emphasis circuit and said frequency synthesizer;
a threshold adjustable voice activated switch coupled to said pre-amplifier;
a plurality of parallel coupled strings of series coupled IR LED emitters having the anode end of said strings coupled to said voice activated switch and the cathode end of said strings coupled to the drain of a power amp; and
the gate of said power amp coupled to said modulator.
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36. A receiver circuit for receiving an FM IR transmission beam and generating an audio signal, comprising:
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a first plurality of parallel coupled PIN devices;
a first plurality of PIN amplifiers coupled to said first plurality of PIN devices;
a second plurality of parallel coupled PIN devices;
a second plurality of PIN amplifiers coupled to said second plurality of PIN devices;
a mixer coupled to said first and second plurality of PIN amplifiers and a local oscillator;
said local oscillator comprising a voltage controlled oscillator coupled to a crystal stabilized frequency stabilizer having a frequency select switch;
an IF amp coupled to said mixer;
an FM detector coupled to said IF amp;
a de-emphasis circuit coupled to said FM detector; and
an audio amplifier coupled to said de-emphasis circuit.
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37. A method of IR communication between at least two users comprising the steps of:
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equipping a first user with a headset microphone and an IR transmitter;
equipping a second user with a headset earphone and an IR receiver;
directing a first user'"'"'s IR transmission beam toward the second user;
speaking into the first user'"'"'s headset microphone to create a first audio signal;
generating a first frequency modulated signal in response to said first audio signal;
radiating said first IR transmission beam in response to said first FM signal when said first audio signal exceeds a set threshold;
detecting said first IR transmission beam with said IR receiver;
generating a second FM signal in response to said IR transmission beam;
generating a second audio signal by demodulating said second FM signal;
amplifying said second audio signal; and
driving said headset earphone in response to said second audio signal.
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38. A method of using an IR headset with a vehicle audio panel, comprising:
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equipping an operator with a headset microphone, at least one headset earphone, a first IR transmitter, and a first IR receiver;
connecting a second IR transmitter to an output channel of the vehicle audio panel and a second IR receiver to an input channel of the vehicle audio panel;
generating a first audio signal in response to speech into said microphone;
radiating a first IR beam from said first IR transmitter in response to said first audio signal;
detecting said first IR beam using said second IR receiver;
generating a second audio signal for connection to said input channel and in response to said first IR beam;
radiating a second IR beam from said second IR transmitter in response to a third audio signal from said output channel;
detecting said second IR beam using said first IR receiver; and
generating an amplified fourth audio signal for connection to said earphone and in response to said second IR beam.
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Specification