DE29605600U1 - Transmitting and receiving system for audio-video microwave signals - Google Patents

Description

GLAWE, DELFS ₁ MOLL & PARTNERS*! ^: ···. PATENT ATTORNEYS

• · · ASSOCIATES OF THE ROPEAN PATENT OFFICE

RICHARD GLAWE, Dr.-lng. (1952-1985) KLAUS DELFS, Dipl.-lng., Hamburg WALTER MOLL, Dipl.-Phys. Dr. rer. nat., Munich HEINRICH NIEBUHR, Dipl.-Phys. Dr. phil. habil., Hamburg ULRICH GLAWE, Dipl.-Phys. Dr. rer. nat., Munich

.. &rgr;, ... BERNHARD MERKAU, Dipl.-Phys., Munich

VeCCOm L/O. , Ltd., CHRISTOF KEUSSEN, Dipl.-Chem. Dr. rer. nat,, Hamburg

Tao Yuan Hsien, Taiwan

PO Box 26 01 62 PO Box 13 03 91

80058 Munich 20103 Hamburg

Liebherrstrasse 20 Rothenbaumchaussee 58

80538 Munich 20148 Hamburg

Phone (089) 22 46 65 Phone (040) 4 10 20 08

Fax (089) 22 39 38 (G3) Fax (040) 45 89 84 (G4.G3)

Telex 5 22 505

HAMBURG,

&rgr; 17017/96 N/Kö (#157)

Transmission and reception system for audio/video microwave signals

The present invention relates to a transmission and reception system for audio/video microwave signals.

A large number of transmission and reception systems for audio/video signals have become known. These transmission and reception systems for audio/video signals generally use the 900 MHz baseband for modulation. However, conventional transmission and reception systems for audio/video signals only work satisfactorily within a short transmission distance. If the receiver is far away from the transmitter, a signal loss will occur. In addition, the transmission frequency of the transmitter circuit can be influenced by the temperature, and the 900 MHz baseband is disturbed by surface sound waves.

The present invention has been created to provide a transmission and reception system for modulated audio/video microwave signals, by which the above-mentioned disadvantages are eliminated. It is an object of the present invention to provide a transmission and reception system for modulated audio/video microwave signals, by which the transmission distance of the signal at which signal loss does not occur is greatly increased. Another object of the present invention is to provide a transmission and reception system for modulated audio/video signals, by which the signal-to-

A further object of the present invention is to provide a transmission and reception system for modulated audio/video microwave signals, which provides a stable local oscillation signal by means of the operation of a phase-lock logic so that the oscillation frequency of the audio/video signal is kept stable.

According to the preferred embodiment of the present invention, the transmitting and receiving system for modulated audio/video microwave signals comprises a transmitting circuit and a receiving circuit, the transmitting circuit comprising a video signal input terminal, an audio signal input terminal, a video signal processing circuit having a signal input end connected to the video signal input terminal and having a signal output end, an audio signal processing circuit having an input end connected to the audio signal input terminal and having a signal output end, an oscillating modulator having a signal input end connected to the signal output end of the video signal processing circuit and the signal output end of the audio signal processing circuit and having a signal output end, a power amplifier having a signal input end connected to the signal output end of the oscillating modulator and having a signal output end, a filter having a signal input end connected to the signal output end of the power amplifier and having a signal output end, and a transmitting antenna connected to the signal output end of the filter ; wherein the receiver comprises a receiving antenna, a low noise preamplifier connected to the signal input end of the receiving antenna and having a signal output end, a prefilter connected to a signal input end of the low noise preamplifier and having a signal output end, a mixer connected to a first signal input end of the signal output end of the prefilter and having a second signal input end and a signal output end, an oscillator connected to a signal output end of the second signal input end of the mixer, a variable gain amplifier connected to a signal input end of the signal output end of the mixer and having a signal output end, a secondary filter connected to a signal input end of the signal output end of the variable gain amplifier and has a signal output end, a

a post-amplifier having a signal input end connected to the signal output end of the secondary filter and having a signal output end, a demodulator having a signal input end connected to the signal output end of the post-amplifier and having a signal output end, a video processing circuit and an audio processing circuit having a corresponding signal input end connected to the corresponding signal output end of the demodulator and having a corresponding signal output end connected to an external circuit.

The invention is described below using an advantageous embodiment with reference to the accompanying drawings. They show:

Fig. 1 is a circuit block diagram of the transmitter circuit of the transmitting and receiving system of the invention for modulated audio/video microwave signals;

Fig. 2 is a circuit block diagram of the receiver circuit of the transmitting and receiving system for modulated audio/video microwave signals according to the invention;

Fig. 3 is a circuit diagram of the transmitter circuit of the invention;

Fig. 4 is a circuit diagram of the receiver circuit of the invention (Part I); and

Fig. 5 is a circuit diagram of the receiver circuit of the invention (Part II).

As shown in Figs. 1 to 5, the modulated audio/video microwave signal transmission and reception system of the invention is generally constructed of a transmitter circuit 10 and a receiver circuit 20.

The transmitter circuit 10 has a video signal input terminal 11, an audio signal input terminal 13, a video signal processing circuit 12 which is connected to a signal input end with the video signal input terminal 11 and has a signal output end, an audio signal processing circuit 14 which is connected to a signal input end with the audio signal input terminal 13 and has a signal output end, an oscillating modulator 15 which is connected to a signal

input end connected to the signal output end of the video signal processing circuit 12 and the signal output end of the audio signal processing circuit 14 and having a signal output end, a power amplifier 16 having a signal input end connected to the signal output end of the oscillating modulator 15 and having a signal output end, a filter 17 having a signal input end connected to the signal output end of the power amplifier 16 and having a signal output end, and a transmitting antenna 18 connected to the signal output end of the filter 17.

The receiver circuit 20 includes a receiving antenna 21, a low noise preamplifier 22 having a signal input end connected to the receiving antenna 21 and having a signal output end, a prefilter 23 having a signal input end connected to the signal output end of the low noise preamplifier 22 and having a signal output end, a mixer 24 having a first signal input end connected to the signal output end of the prefilter 23 and having a second signal input end and a signal output end, an oscillator 202 having a signal output end connected to the second signal input end of the mixer 24, a variable gain amplifier 25 having a signal input end connected to the signal output end of the mixer and having a signal output terminal a secondary filter 26 having a signal input end connected to the signal output end of the variable gain amplifier 25 and having a signal output end, a post-amplifier 27 having a signal input end connected to the signal output end of the secondary filter 26 and having a signal output end, a demodulator 28 having a signal input end connected to the signal output end of the post-amplifier 27 and having a signal output end, a video processing circuit 29 and an audio processing circuit 201 having a corresponding signal input end connected to the corresponding signal output end of the demodulator 28 and having a corresponding signal output end to an external circuit.

When audio and video signals are received by the receiver circuit 10 through the video signal input terminal 11 and the audio signal input terminal 13, the received audio and video signals are processed by the video signal processing circuit 12 and the audio signal processing circuit 14, respectively. The video signal

Processing circuit processes and amplifies the video signal. The audio signal processing circuit processes the audio signal and modulates the left and right audio tracks of the audio signal at 6 MHz and 6.5 MHz onto the subcarrier. The output signal of the video signal processing circuit 12 and the output signal of the audio signal processing circuit 14 are added together, then modulated by the oscillating modulator 15 and then amplified by the amplifier 16 and then filtered by the filter 17 and then transmitted to the receiver circuit 20 through the transmitting antenna 18. When the receiving antenna 21 of the receiver circuit 20 receives a signal from the transmitter circuit 10, the received signal is amplified by the preamplifier 22 with low gain, then filtered by the prefilter 23 so that the false image signal! removes that. The filtered signal from the pre-filter 23 is then mixed with a set frequency by the oscillator 22 at the mixer 24, and then the mixed output signal from the mixer 24 is sent to the variable gain amplifier 25, causing the variable gain amplifier 25 to output a constant level output signal. The output signal from the variable gain amplifier 25 is then filtered by the secondary amplifier 26 and then amplified by the post-amplifier 27 and then demodulated by the demodulator 28. The baseband frequency output signal from the demodulator 28 is sent to the video processing circuit 29 and the audio processing circuit 201 and then discriminated into the original video signal and audio signal for outputting these signals. The heterodyne oscillation signal for the mixer 24 is obtained using phase-lock logic so that the signal frequency is kept stable. The secondary filter 26 is a surface acoustic wave (SAW) filter which removes neighboring frequencies from the signal so that any signal loss caused by surface acoustic waves is avoided. The variable gain amplifier 25 controls the intensity of the input signal and keeps the signal at a constant level. Therefore, intense signals are not allowed to pass through to the demodulator 28 to cause further signal loss of the demodulated signal.

The invention can be summarized as follows. The transmitting and receiving system for modulated audio/video microwave signals comprises a transmitter circuit and a receiver circuit, wherein the transmitter circuit uses a modulator to modulate the signal so that the transmission distance of the signal can be increased without any loss. The heterodyne oscillation signal generated by the mixer

the receiver circuit is obtained by means of a phase-locking logic, so that the oscillation frequency of the signal is kept stable.

It will be understood that the drawings are for illustration purposes only and are not intended to be a definition of the limits and scope of the invention disclosed herein.

Claims (8)

Protection claims 1. Transmission and reception system for modulated audio/video microwave signals, with a transmitter circuit and a receiver circuit, characterized in that the transmitter circuit (10) has a video signal input connection (11), an audio signal input connection (13), a video signal processing circuit (12) which is connected to the video signal input connection (11) with a signal input end and has a signal output end, an audio signal processing circuit (14) which is connected to the audio signal input connection (13) with a signal input end and has a signal output end, an oscillating modulator (15) which is connected to the signal output end of the video signal processing circuit (12) and the signal output end of the audio signal processing circuit (14) with a signal input end and has a signal output end, a power amplifier (16) having a signal input end connected to the signal output end of the oscillating modulator (15) and having a signal output end, a filter (17) having a signal input end connected to the signal output end of the power amplifier (16) and having a signal output end, and a transmitting antenna (18) connected to the signal output end of the filter (17). 2. Transmission and reception system for modulated audio/video microwave signals, characterized in that the video signal processing circuit (12) of the transmitter circuit (10) amplifies the video input signal and that the audio signal processing circuit (14) of the transmitter circuit (10) modulates the audio signal and modulates its left and right sound track signals to 6 MHz and 6.5 MHz onto the subcarrier. 3. Transmission and reception system for modulated audio/video microwave signals according to claim 1 or 2, characterized in that the video output signal and audio output signal from the video signal processing circuit (12) and the audio signal processing circuit (14) are added together, then modulated by the oscillating modulator (15) and subsequently amplified by the amplifier (16) and subsequently filtered by the filter (17) and finally fed to the receiver circuit &tgr;· ^! &iacgr; (20) are transmitted through the transmitting antenna (18). 4. Transmission and reception system for modulated audio/video microwave signals according to one of claims 1 to 3, characterized in that the receiver circuit (20) comprises a receiving antenna (21) for receiving the signal transmitted by the transmitting antenna (18) of the transmitter circuit (10), a low-noise preamplifier (22) having a signal input end connected to the receiving antenna (21) and having a signal output end, a prefilter (23) having a signal input end connected to the signal output end of the low-noise preamplifier (22) and having a signal output end, a mixer (24) having a first signal input end connected to the signal output end of the prefilter (23) and having a second signal input end and a signal output end, an oscillator (202) which is connected with a signal output end to the second signal input end of the mixer (24), a variable gain amplifier (25) which is connected with a signal input end to the signal output end of the mixer and has a signal output end, a secondary filter (26) which is connected with a signal input end to the signal output end of the variable gain amplifier (25) and has a signal output end, a post-amplifier (27) which is connected with a signal input end to the signal output end of the secondary filter (26) and has a signal output end, a demodulator (28) which is connected with a signal input end to the signal output end of the post-amplifier (27) and has a signal output end, a video processing circuit (29) and an audio processing circuit (201) which are connected to a corresponding signal input end to the corresponding signal output end of the demodulator (28) and to a corresponding signal output end to an external circuit. 5. Transmission and reception system for modulated audio/video microwave signals according to one of claims 1 to 4, characterized in that when the receiving antenna (21) of the receiver circuit (20) receives a signal from the transmitter circuit (10), the received signal is amplified by the amplifier (22) with low noise, filtered by the pre-filter (23), then mixed with a set frequency from the oscillator (22) at the mixer (24) and then by the amplifier (25) with • · • · variable gain, then filtered by the secondary filter (26), then amplified by the post-amplifier (27), then demodulated by the demodulator (28) and then processed by the video signal processing circuit (29) and the audio signal processing circuit (201) of the receiver circuit to output the signal. 6. Transmission and reception system for modulated audio/video microwave signals according to one of claims 1 to 5, characterized in that the superposition oscillation signal used by the mixer (24) is obtained by means of a phase-locked logic. 7. Transmission and reception system for modulated audio/video microwave signals according to one of claims 4 to 6, characterized in that the secondary filter (26) of the receiver circuit (20) is a SAW filter (surface acoustic wave filter) which removes neighboring frequencies from the processed signal in order to avoid signal losses caused by surface sound waves. 8. A system for transmitting and receiving modulated audio/video microwave signals according to one of claims 4 to 7, characterized in that the variable frequency amplifier (25) regulates the intensity of the input signal and regulates the signal to a constant level so that no strong signal can reach the demodulator (28) and cause a further signal loss of the demodulated signal.