Wireless stereo center speaker system
First Claim
1. A wireless concealed transmitter center speaker system including a concealed transmitter unit installed in a center speaker cabinet, and two receiver units installed in two rear speaker cabinets, wherein:
- said concealed transmitter unit comprises;
an automatic audio level regulating circuit comprising an audio regulating IC, having an input terminal connected to the output terminal of said audio equipment to regulate the audio level of the output signal of said audio equipment to a predetermined range to a signal processing circuit;
said signal processing circuit having an input terminal connected to the output terminal of said automatic audio level regulating circuit and output terminal connected to an external and internal dual adjustable oscillatory frequency regulating circuit;
said external and internal dual adjustable oscillatory frequency regulating circuit comprising an oscillator transistor, and dielectric resonator, a first variable capacitor and a second variable capacitor diode;
an inductance antenna connected to the output terminal of said external and to internal dual adjustable frequency regulating circuit, said inductance antenna being a matching device; and
a power control circuit controlled by the output signal of said audio equipment to provide the necessary working voltage to said concealed transmitter unit, said power control circuit comprising a signal amplifier, a comparator and a transistor switch, when said signal amplifier receives an input signal from said audio equipment it drives on said comparator and transistor switch hence permitting external power supply or battery supply to be connected to said concealed transmitting unit.
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Accused Products
Abstract
A Wireless Concealed Transmitter Stereo Center Speaker System includes a concealed transmitter unit installed a center speaker, and two receiver units installed in two rear speakers, wherein the concealed transmitter unit includes an automatic audio level regulating circuit to regulate the audio level of the output signal of audio equipment to a predetermined range, a power control circuit controlled by the output signal of the audio equipment to provide the necessary working voltage, and an inductance antenna to transmit stable output signal from the audio equipment to the receiver units of rear speakers; the receiver units are of low working voltage design, including an automatic 24-time frequency divider circuit to effectively discriminate left and right sound tracks, and an auto-shut off circuit to automatically cut off power supply from either an alternating current source or battery power supply when the audio equipment does not work; the concealed transmitter unit and the receiver units further use a respective external and internal dual adjustable oscillatory frequency regulating circuit consisting of an oscillatory transistor, a dielectric resonator, and a variable capacitor and a variable capacitor diode for regulating a broader range of the frequency and allowing users/consumers to adjust the first local oscillation through “external frequency controller VRI” without changing the second local oscillation.
55 Citations
47 Claims
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1. A wireless concealed transmitter center speaker system including a concealed transmitter unit installed in a center speaker cabinet, and two receiver units installed in two rear speaker cabinets, wherein:
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said concealed transmitter unit comprises;
an automatic audio level regulating circuit comprising an audio regulating IC, having an input terminal connected to the output terminal of said audio equipment to regulate the audio level of the output signal of said audio equipment to a predetermined range to a signal processing circuit;
said signal processing circuit having an input terminal connected to the output terminal of said automatic audio level regulating circuit and output terminal connected to an external and internal dual adjustable oscillatory frequency regulating circuit;
said external and internal dual adjustable oscillatory frequency regulating circuit comprising an oscillator transistor, and dielectric resonator, a first variable capacitor and a second variable capacitor diode;
an inductance antenna connected to the output terminal of said external and to internal dual adjustable frequency regulating circuit, said inductance antenna being a matching device; and
a power control circuit controlled by the output signal of said audio equipment to provide the necessary working voltage to said concealed transmitter unit, said power control circuit comprising a signal amplifier, a comparator and a transistor switch, when said signal amplifier receives an input signal from said audio equipment it drives on said comparator and transistor switch hence permitting external power supply or battery supply to be connected to said concealed transmitting unit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47)
an external and internal dual adjustable oscillatory frequency regulating circuit comprising an oscillatory transistor, a dielectric resonator, and a variable capacitor and a variable capacitor diode, its down converted frequency being connected to a signal processing circuit, said signal processing circuit connected to said external and internal dual adjustable oscillatory frequency regulating circuit to process received signals and to provide processed signals to said unit, an automatic 24-time frequency divider circuit comprised of a resistor and an oscillator and connected to an IC of the signal processing circuit of said receiver unit to divide the frequency of the received signal by 24, so as to provide a 19 KHz three-dimensional demodulated signal, and an auto-shut off circuit comprised of said IC and a transistor, said transistor being controlled by said IC to turn on/off an external power supply or battery supply.
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23. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit comprises an oscillatory transistor, a dielectric resonator, a first variable capacitor and a second variable capacitor diode.
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24. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit has an input terminal connected to the output terminal of said receiving antenna, and an output terminal connected to said signal processing circuit.
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25. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit and external frequency controller VR1 enables users or consumers to adjust first a local oscillatory frequency externally in order to chose channels.
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26. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit has a first intermediate frequency output being within approximately 10 MHz to 230 MHz.
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27. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit provides a local oscillatory frequency to at least approximately 1000 MHz which is 10 to 20 times the second local oscillatory frequency (50 MHz˜
- 100 MHz).
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28. The invention of claim 22 wherein in said external and internal dual adjustable oscillatory frequency regulating circuit said external frequency controller VR1 can be altered into an infrared or wireless digital automatic channel scanning system.
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29. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit is capable of adjusting frequency broadly, and to down-convert frequency from 10 MHz to 230 MHz.
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30. The invention of claim 22 wherein said external and internal dual adjustable oscillatory frequency regulating circuit can input said FM and AM commercial band frequency signals to said signal processing circuit.
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31. The invention of claim 22 wherein said signal processing circuit is connected to said external and internal dual adjustable oscillatory frequency regulating circuit.
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32. The invention of claim 31 wherein said signal processing circuit can both detect and demodulate AM or FM audio stereo or mono audio signal from said transmitter unit.
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33. The invention of claim 31 wherein said signal processing circuit can process FM or AM audio signal approximately within range of 10 MHz to 230 MHz.
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34. The invention of claim 31 wherein said signal processing circuit within which the second local oscillation is internally adjustable or fixable by adding a quartz.
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35. The invention of claim 31 wherein said signal processing circuit within which the second local oscillation is externally adjustable by users to switch channels.
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36. The invention of claim 31 wherein said signal processing circuit can demodulate stereo audio signals and by 456 KHz ceramic resonator oscillating and 24-times frequency dividing provide exact high fidelity 19 KHz multi-demodulating signals.
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37. The invention of claim 23 wherein said auto-shut off circuit is comprised of an integrate circuit and transistors.
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38. The invention of claim 37 wherein said transistor of said auto-shut off circuit is controlled by the IC of said auto-shut off to automatically turn on/off an external power supply or battery power supply.
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39. The invention of claim 37 wherein said auto-shut off circuit can automatically turn on said receiver unit when it receives audio signals and automatically turns off said receiver unit when it receives no audio signal.
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40. The invention of claim 37 wherein said auto-shut off circuit can be turned on or turned off by manual control.
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41. The invention of claim 23 wherein said receiver unit consists of integrate circuits and transistors.
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42. The invention of claim 24 wherein said external and internal dual adjustable oscillatory frequency regulating circuit can be (a) variable resistor, (b) variable capacitor, (c) variable electrical sensor or above mentioned combination of (a) (a), (b) (b), (c) (c), (a) (b), (b) (c), (a) (c) coupled with fixed electric resistor, electric capacitor, inductor, dielectric resonator, transistor, mixer and IC to make a down-converter.
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43. The invention of claim 23 wherein said receiver unit is housed in rear speaker cabinets.
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44. The invention of claim 23 wherein the function, method and application of said receiver unit can be used in other types of wireless audio receivers, earphone and wireless microphones.
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45. The invention of claim 23 wherein said receiver unit can output a surround audio effect after processing the original audio source without the additional mounting of a surround processor.
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46. The invention of claim 23 wherein said receiver unit is capable to process sound mixing when additionally mounting a sound mixer.
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47. The invention of claim 23 wherein said receiver unit is wireless so that it can be positioned or relocated from place to place by users.
Specification