Pseudo-full duplex television/telephone loudspeaker system
First Claim
1. In a television receiver including a microcompute-controlled tuning system, said microcomputer responsive to user selected input commands for generating control signals, said television receiver further including a microphone and a loudspeaker and coupled to a two-wire telephone line, a pseudo-full duplex telephone system comprising:
- ring detection means for detecting an incoming ring signal;
differential coupling means;
switch means selectively coupling said ring detection means and said differential coupling means to said telephone line, said switch means coupled to said microcomputer and responsive to control signals therefrom for decoupling said ring detection means from said telephone line and coupling said differential coupling means thereto following detection of an incoming ring signal in response to a user selected input command;
line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker;
variable impedance means connected to said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; and
signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling said variable impedance means in circuit with said line balance means in matching the impedance of said telephone system with that of said telephone line.
3 Assignments
0 Petitions
Accused Products
Abstract
A television/telephone loudspeaker system is disclosed wherein feedback oscillation caused by having a speaker phone system simultaneously in the transmit and receive mode is minimized. Improved separation of transmit and receive signals is accomplished by microprocessor-controlled dynamic balancing of a bridge network coupled to a telephone isolation transformer to which the incoming and outgoing calls are provided. In addition, by microprocessor sampling of the television receiver'"'"'s loudspeaker drive voltage from the telephone input line, dynamic proportional attenuation of microphone gain (AGC) is digitally accomplished in simulating full duplex operation. Bridge balancing is accomplished by means of test signals output by the microprocessor during quiet periods with various other audio signal refinements, such as room background noise cancellation, available with the constant monitoring of the microphone signal. Audio and visual indications of an incoming telephone call are provided by the television receiver'"'"'s tuning system microcomputer which detects and decodes user remote commands and activates a phone relay and phone light emitting diode (LED) drivers.
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Citations
17 Claims
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1. In a television receiver including a microcompute-controlled tuning system, said microcomputer responsive to user selected input commands for generating control signals, said television receiver further including a microphone and a loudspeaker and coupled to a two-wire telephone line, a pseudo-full duplex telephone system comprising:
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ring detection means for detecting an incoming ring signal; differential coupling means; switch means selectively coupling said ring detection means and said differential coupling means to said telephone line, said switch means coupled to said microcomputer and responsive to control signals therefrom for decoupling said ring detection means from said telephone line and coupling said differential coupling means thereto following detection of an incoming ring signal in response to a user selected input command; line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker; variable impedance means connected to said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; and signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling said variable impedance means in circuit with said line balance means in matching the impedance of said telephone system with that of said telephone line. - View Dependent Claims (2, 3, 4, 5, 6, 14, 15)
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7. In a television receiver including a microcomputer-controlled tuning system, said microcomputer responsive to user selected input commands for generating control signals, said television receiver further including a microphone and a loudspeaker and coupled to a two-wire telephone line, a pseudo-full duplex telephone system comprising:
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ring detection means for detecting an incoming ring signal; first means coupled to said ring detection means for providing a visual and audio indication to said user of an incoming ring signal; signal control means coupled to said microcomputer and said microphone for muting an audio signal from said microphone in response to a user selected input command; display means coupled to said signal control means for providing a visual indication to said user of the muting of an audio signal from said microphone; differential coupling means; switch means selectively coupling said ring detection means and said differential coupling means to said telephone line, said switch means coupled to said microcomputer and responsive to control signals therefrom for decoupling said ring detection means from said telephone line and coupling said differential coupling means thereto following detection of an incoming ring signal in response to a user selected input command; line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker; variable impedance means connected to said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; and signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling said variable impedance means in circuit with said line balance means in matching the impedance of said telephone system with that of said telephone line.
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8. In a television receiver including a microcomputer-controlled tuning system, said microcomputer responsive to user selected input commands for generating control signals, said television receiver further including a microphone and a loudspeaker and coupled to a two-wire telephone line, a pseudo-full duplex telephone system comprising:
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ring detection means for detecting an incoming ring signal; first means coupled to said ring detection means for providing a visual and audio indication to said user of an incoming ring signal; signal control means coupled to said microcomputer and said microphone for muting an audio signal from said microphone in response to a user selected input command; display means coupled to said signal control means for providing a visual indication to said user of the muting of an audio signal from said microphone; differential coupling means; switch means selectively coupling said ring detection means and said differential coupling means to said telephone line, said switch means coupled to said microcomputer and responsive to control signals therefrom for decoupling said ring detection means from said telephone line and coupling said differential coupling means thereto following detection of an incoming ring signal in response to a user selected input command; line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker; variable impedance means connected to said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling said variable impedance means in circuit with said line balance means in matching the impedance of said telephone system with that of said telephone line; and audio switching means coupling said line balance means to said loudspeaker and coupled to said microcomputer for automatically decoupling television audio signals and coupling telephone signals to said loudspeaker in response to a control signal from said microcomputer following detection of an incoming ring signal.
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9. A pseudo-full duplex telephone system having a microphone and a loudspeaker, said telephone system comprising:
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differential coupling means for connection to a two-wire telephone line; line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker; variable impedance means connected to said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; and signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling in circuit said variable impedance means to said line balance means in matching the impedance of said telephone system with that of said telephone line. - View Dependent Claims (10, 11, 12, 13)
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16. A pseudo-full duplex telephone system having a microphone and a loudspeaker, said telephone system comprising:
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differential coupling means for connection to a two-wire telephone line; line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker, said line balance means including a bridge circuit having first and second branches, with said first branch coupled to said differential coupling means; variable impedance means including a plurality of capacitors and resistors connected in parallel to the second branch of said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; and signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling said variable impedance means in circuit with said line balance means in matching the impedance of said telephone system with that of said telephone line.
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17. A pseudo-full duplex telephone system having a microphone and a loudspeaker, said telephone system comprising:
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differential coupling means for connection to a two-wire telephone line; line balance means connecting said microphone to said differential coupling means for providing an audio signal received by said microphone to said telephone line and connecting said differential coupling means to said loudspeaker for providing a received telephone signal to said loudspeaker, said line balance means including a bridge circuit having first and second branches, with said first branch coupled to said differential coupling means; variable impedance means including a plurality of capacitors and resistors connected in parallel to the second branch of said line balance means for varying the impedance thereof in accordance with the impedance of said telephone line; signal processing means coupled to said variable impedance means and to said line balance means and responsive to an output signal provided by said line balance means to said loudspeaker during the transmission of an audio signal from said microphone to said telephone line for selectively coupling said variable impedance means in circuit with said line balance means in matching the impedance of said telephone system with that of said telephone line; and automatic gain control means coupled to said microphone for providing said microphone audio signal to said signal processing means, said signal processing means including signal level measuring and comparing means for comparing the level of said audio signal with a reference signal level and for providing a control signal to said automatic gain control means in regulating the level of the audio signal from said microphone.
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Specification