HU186280B - Method and circuit arrangement for receiving television sending of two voice channels - Google Patents

Abstract

The invention relates to a method and a circuit arrangement for the reception of television programs broadcast in the two-channel reception without a Fernsehempfengaer furnished for stereophonic reception. It is the object and the task at a very low cost, a large Fernsehteilnehmerkreis it possible to watch in the branch channel sound telecasts and stereophonic To listen to this and in addition to equip community antenna and cable TV system in such a way that all participants who have in addition to their Fernsehhempfaenger conventional type also have a stereo radio receiver, the two-channel sound television broadcasts and stereophone hear. The solution is that in the headend of a Community antenna or cable television system that prepares incoming signals in the Zweigkanalton, converted into VHF Steriosignale and then fed into the subscriber network and that the subscriber in parallel to the television receiver the stereo stereo radio is turned on and tuned to the corresponding VHF channel.

Description

The present invention relates to a method for receiving two-channel television broadcasts and to a circuit arrangement for carrying out the above method. FIELD OF THE INVENTION The present invention relates to subscriber networks whose television receivers are not capable of stereo sound.

It has long been used to broadcast valuable radio programs on the UHF band in stereo or otherwise known as two-channel audio transmission. Stereo broadcasting and reception have been developing very strongly in recent years, and this has been helped by the development of community antenna systems, which allow high quality stereo radio broadcasting to the same subscriber network as the antenna system.

There was also a need for television viewers to hear certain events broadcast on television, such as concerts, in high-fidelity, and were therefore broadcast in stereo on the UHF band at the same time as television broadcasting. All television subscribers who have a stereo receiver besides their television set could watch an event broadcast on television, such as a concert, by turning on the radio and listening to the program at high quality through the speakers. However, these events are very costly and complex, so they are very rare.

As technology advances, a new trend has emerged that TV signals are transmitted at the usual channel frequency, while the corresponding audio signal is no longer monaural but, according to stereo technology, dual-channel.

In order to receive such dual-channel television broadcasts, a suitable television set is required.

Unfortunately, it is not possible to produce large quantities of such television sets in a short period of time and the costs involved are very significant. And advances in technology require us to develop both black and white and color television sets in stereo sound. With all this in mind, it can be realized that it may take years for the general public to receive stereo broadcasts.

It is an object of the present invention to enable a large subscriber base to receive stereo reception of dual-channel television at a low cost.

The object of the present invention can be defined by modifying the central antenna equipment, the public antenna equipment and the increasingly widespread cable television systems to which more than 100,000 subscribers can connect, so that each subscriber who has a stereo with a traditional television to watch broadcast TV and hear in stereo.

The above task is accomplished by a method of processing the two-channel audio signal at the headend of the central antenna or cable television equipment, then converting it to an ultra-shortwave stereo signal, which is fed to the subscriber network, while the subscriber is connected to the television. is on and tuned to the correct wavelength.

In order to carry out the method, a switching arrangement is provided having an input of a television channel converter unit connected to an input of a mid frequency amplifier and a demodulator, one output of the latter connected to an input of a differential frequency low frequency unit the output of the switching circuit is connected to the first input of the switching circuit and the output of the switching circuit is connected to the first input of a stereocoder, the output of the multiplex modulator is connected to the output connected to the input of a low frequency low frequency unit, amel one output is connected to the second input of the matrix decoder, the other output is connected to the second input of the stereo encoder, and the third output is connected to the input of a stereo sensor, dual tone detector and pilot signaling unit with one output connected to the third input of the stereo encoder.

The invention will now be described in more detail with reference to the drawing, in which the circuit arrangement according to the invention is exemplified. block diagram is shown.

The two-channel audio signals are received from the receiving antenna to input 1 of the switching arrangement and transmitted to a television channel converter unit 2. In this television channel converter unit, the incoming signal is converted to a standard mid frequency signal and fed to a mid frequency amplifier and demodulator. In this mid frequency amplifier and demodulator, the signal is amplified, demodulated, and formed into two difference frequency signals in accordance with the incoming dual channel frequency. The first 5.5 MHz difference frequency signal is fed through the output 4 and 5 inputs of the mid frequency amplifier and demodulator 3 into 6 difference frequency units, from which the first difference frequency signal is summed (L + R), which is output 7 to a first matrix decoder 9. From the second output 23 of the mid frequency amplifier 3 and demodulator, a second 5.74 MHz difference frequency signal is applied to the 24 inputs of a second difference frequency low frequency unit 25, and from this second difference frequency signal, (non-stereo) broadcast the low frequency signal of the second channel. The right channel low frequency (2R) signal is applied through the first output 26 of the difference frequency low frequency unit 25 to the input 27 of the matrix decoder 9. The low frequency signals received at the inputs 8 and 27 of the matrix decoder 9 are

Divide by 2L = 2 (L + R) -2R to obtain the low frequency 2L signal of the left channel. Through the output 10 of the matrix decoder 9, the low frequency 2 L signal of the left channel is applied to the first 11 inputs of the switching circuit 12.

From its -2186280 output, the signal is fed to the first input 14 of a stereo encoder 15 operating at a pilot frequency of 19 kHz. Through the second output 28 of the second difference frequency low frequency unit 25, the right channel low frequency 2R signal is connected to the second input 29 of the stereo encoder 15. Through the third output 30 of the second difference frequency low-frequency unit 25, the components of the right channel 2 R signal are supplied to the inputs 31 of the stereo sensor, dual tone sensor and pilot signal switching unit 32. These last 32 units have three functions. In the case of stereo broadcasting, everything is as described above. In two-channel audio transmission, the dual tone detector unit shuts down the switching circuit 12 through the second output 35 of the stereo detector, dual tone detector and pilot signal switching unit 32, so that the 2 L signal cannot be input to the stereo 15. In mono transmission, the stereo sensor, dual tone detector and pilot signal switching unit 32 outputs the pilot frequency in the stereo encoder 15 through the output 33 and the third input 34 of the stereo encoder. Through the output 16 and the input 17 of the stereo encoder, the processed signal is fed to a multiplex modulator 18 having a frequency of 10.7 MHz, and through its 19 output to the 20 inputs of a UHF output converter unit 21, which mixes the signal to a free UHF channel. The signal from the output 22 of the UHF channel converter unit 21 is fed to a subscriber network. For subscribers, conventional television sets are typically connected and switched on to the community antenna or cable network. If you are receiving stereo sound, you will even need to turn on the stereo radio and tune in to the appropriate ultra shortwave channel. In mono broadcast, the speaker or speakers of the television set are switched off and the stereo sound is heard through the speakers of the stereo radio at the same time as the picture on the television.

The method of the present invention and the switching arrangement implementing it have the advantage that hundreds of thousands or more television subscribers can enjoy two-channel stereo broadcasts at a lower cost than the cost of a single stereo television, depending on the size of the community antenna system.

Claims (2)

A method for receiving two-channel television broadcasts, comprising processing two-channel signals at the headend of a central antenna or cable television equipment, and then converting the signal into an ultra-shortwave stereo signal and transmitting it to a subscriber network, we also operate a stereo radio. Circuit arrangement for carrying out the method according to claim 1, characterized in that the input (1) of the circuit arrangement is an input of a television channel converter unit (2) connected to an input of a center frequency amplifier and a demodulator (3). ) connected to one of the inputs (5) of the low frequency low frequency unit (6), the output (7) of the low frequency low frequency unit (6) is connected to the first input (8) of the matrix decoder (9). ), the output (13) of the switching circuit (12) is connected to the first input (14) of the stereo decoder (15), the input (17) of the multiplex modulator (18) is connected to the output (16) of the stereo encoder (15), the input (20) of the converter unit (21) and the subscriber terminal of the UHF output channel converter unit (21) and the other output (23) of the mid frequency amplifier unit and demodulator (3) is connected to a further input (24) of the difference frequency low frequency unit (25), one output (26) of the difference frequency low frequency unit (25) to the second input of the matrix decoder (9). (27), a second output (28) connected to a second input (29) of the stereo encoder (15), and a third output (30) connected to the input (31) of a stereo signal, dual tone detector and pilot switching unit (32). the third input (34) of the stereo encoder (15) and the other output (35) of the stereo encoder (15) being connected to the other input (36) of the switching circuit (12).