HU195049B - Method and circuit arrangement for transmitting auxiliary programs through vhf-fm transmitter broadcasting network - Google Patents

Abstract

The present invention relates to a method for transmitting ancillary programs over a URH-FM broadcasting transmission network, wherein the URH-FM transmitter's auxiliary carrier wave is modulated by a digital signal, the digital signals are organized into message blocks, the message block is generated by combining start signals, synchronization signals, marker signals, information signals, stop signals. In the process, the message block is periodically transmitted sequentially, and the information signals contain non-selective signals and / or selective signals or address marks. In the arrangement according to the invention, a transmission multiplexer (3) is connected to the input of the transmission system block (4) and the receiver multiplexer (5) is connected to its output. The non-selective signal generator (1) and the control unit (2) connected to each other on the transponder multiplexer (3) are connected to the inputs (6) of both the inputs (5) of the multiplexer (5) (FIG.). -1-

Description

The present invention relates to a method for transmitting auxiliary programs over a UHF-FM broadcasting network, wherein the auxiliary carrier wave of the UHF-FM transmitter is modulated by a digital signal, the digital signals are organized into a message block 5, the message block consisting of

The invention further relates to a circuit arrangement for carrying out the method, comprising a transmission system unit.

Such a method and circuit arrangement is known per se and with their help, the ultra-shortwave frequency modulated (UHF-FM) broadcast transmitters can transmit 15 additional information independent of the main program in addition to the main program. The information broadcast next to the main program is hereinafter referred to as the "supplementary program".

With such solutions, UHF-FM broadcast radio transmitters can be made relatively easy to broadcast auxiliary program. For this purpose, one or more auxiliary carrier waves of suitably chosen frequency are supplied to the UHF-FM transmitter modulator. This carrier wave is modulated by the information signals of the add-on program.

Known services using the auxiliary program broadcasting method are motorway information system (ARI), program identifier (Pl), background broadcast (SC.A), selective paging (Radio Paging), or selective data transmission. In selective paging or selective data transmission systems, information signals are digital, since the purpose here is to transmit numerical data or alphanumeric messages.

The additional program requires a UHF-FM receiver and some additional circuits. The supplement consists of a band amplifier 40 tuned to the auxiliary carrier frequency, an additional demodulator, and baseband circuits for processing the signals of the auxiliary program, such as call recognition, message decoding and display, etc. - are necessary.

The additional information to be transmitted usually modulates the auxiliary carrier in frequency or phase. In order to produce a modulating signal, a suitable control unit must be provided in the UHF-FM transmitter. This unit receives the information to be transmitted from an external information source. The received signals must be processed before transmitting from the transmitter. On the one hand, the processing consists of coding, various transformations, modifying the transmission rate, and the insertion of different signals and groups of signals. The complete sequence 60 thus processed and prepared for broadcasting is hereinafter referred to as a message block.

A distinction should be made between the auxiliary information transmission systems implemented so far in that they transmit information to one participant at a time, or to all participants 2 without discrimination on the basis of θ ₅ . The first type of system is called a selective system and the second one, which is more of a broadcasting type, is called a non-selective system.

Known systems are capable of transmitting non-selective ancillary programs according to their application or only, such as Radio Paging as a selective system and ARI, P1 or SCA as non-selective.

SUMMARY OF THE INVENTION It is an object of the present invention to improve the efficiency of known auxiliary program broadcasting methods and circuit arrangements by providing a system for transmitting both selective add-on programs and non-selective add-on programs.

The additional program transmission according to the present invention is based on the recognition that the system design of the transmitter and the proper circuit arrangement of the receivers enable the transmitters to transmit not only selective but also non-selective signals, and the receivers are capable of receiving both selective and non-selective signals.

This object is achieved by the method described in the introduction, wherein the message blocks are transmitted periodically, one after the other, and the information signals comprise non-selective signals and / or selective signals and address symbols.

In a further embodiment of the method according to the invention, non-selective signals, address signals, selective signals or marker signals, address signals and selective signals, or marker signals and selective signals are transmitted in the information block of the message blocks.

In a circuit arrangement implementing the method of the present invention, a transmit-side multiplexer is connected to the input of the auxiliaries of the transmission system block. Each input of the transmitter multiplexer is the selective signal output, and further input is provided with a non-selective signal generator or control unit. The non-selective signal generator and the control unit are directly connected. A receiver-side demultiplexer and synchronization unit is connected to the output of the transmission system block. The receiver demultiplexer and the synchronization unit are directly connected to each other. One output of the receiver-side demultiplexer is a selective information output, the other output is a non-selective information output.

In a further embodiment of the circuit arrangement according to the invention, one output of the receiver-side demultiplexer is a common selective and non-selective information output and the other output is a signal indicating the presence of selective information.

The process according to the invention can be carried out in various ways. The following examples illustrate the embodiment.

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If this method is used, the message block may contain both selective and non-selective information. A possible solution is to place selective and non-selective announcements within a single message block. The preferred order within the message block may be to first broadcast the non-selective information, followed by the address of the selected receiver and finally the selective information. Alternatively, some message blocks contain only selective information and others contain only non-selective information. In this case, it is advisable to start the message block with signals that will be used by the customers to decide what type of information the block contains. These signals are called marker signals. Such message blocks do not require the address to be broadcast after the marker signals, if non-selective information is broadcast.

Marking the start and end of the message blocks, i.e., synchronizing the message blocks, is a method which does not touch the spirit of the invention, by any method. In the case of asynchronous transmission, start and stop signals may be used before and after the message block signals, and in the case of synchronous transmission, the synchronization signals inserted. It is also irrelevant whether the message blocks are of the same or variable length. It is also permissible to use error correction coding to reduce transmission errors or to confuse the message block signals before transmitting (Scrambling procedure).

Some examples of the use of non-selective information in a selective system are given below.

Subscriber may verify the functionality of the receivers of the auxiliary broadcasting system by displaying on a numerical or alphanumeric display unit of any receiver a known or easily verifiable number or sequence of letters when each message block is received. This number or string is contained in the non-selective message.

If the non-selective message contains data specific to the station broadcasting the add-on program, such as the name of the transmitter site or the program it broadcasts, the receiver may determine which broadcast or program it is receiving.

Non-selective information to a group of customers may allow them to receive only information from a particular tax. This is advantageous where part of the information is transmitted by a single transmitter only to customers within its coverage area. However, if one receiver were tuned to a transmitter in another district, this fact would be detectable by non-selective signals. Non-selective information identifying transmitters is also useful when two or more auxiliary programs having the same auxiliary carrier frequency are broadcast by the transmitting network, but each auxiliary programs are broadcast at different frequencies.

Non-selective messages may also include current announcements concerning a large number of subscribers, which are broadcast by a transmitter according to a predetermined program (program).

Non-selective signals, groups of signals can also be used to check the proper functioning of the system, set up the tuners of the receivers, or measure the transmission characteristics of the system.

The circuit arrangement according to the invention will be described with reference to the embodiment illustrated in the drawing.

A transmitter multiplexer 3 is connected to the auxiliary input 16 of the transmission system block 4. One of the inputs 12 of the transmitter multiplexer 3 is the selective signal input, another input 13, 14 is connected to a non-selective signal generator 1 and a control unit 2. The non-selective signal generator 1 and the control unit 2 are also directly connected. A receiver demultiplexer 5 and a synchronization unit 6 are connected to the output 17 of the transmission system block 4. The receiver demultiplexer 5 and the synchronization unit 6 are directly connected to one another.

The non-selective signal generator 1 serves to generate the signals to be transmitted to all receivers or to a large group of receivers. You can generate constant signals that do not change in the case of repeated radiation, and it is also permissible to generate, by some algorithm, a program of continuously changing signals. The signals are displayed on output 9. The non-selective signal generator 1 may also receive signals from input 7 from an external information source.

The control unit 2 generates signals at one of its outputs 10, whereby the non-selective signal generator 1 generates the non-selective signal once. The other output 11 controls the transmitter multiplexer 3.

The transmitting multiplexer 3 receives and temporarily stores selective information at one of its inputs 12. Non-selective signals are output to a further 13 inputs. As a result of a signal from the control unit 2 to an additional input 14, the transmitter multiplexer 3 generates a message block which is displayed at the output 15.

The transmission system block 4 represents, in a simplified manner, the entire transmission system from the auxiliary modulation input of the UHF-FM transmitter to the output of the selective receiver auxiliary carrier demodulator. The transmission system block 4 has 16 auxiliary inputs and 17 outputs. Its auxiliary input 16 and output 17 output signals are assumed to be identical in transmission.

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The signals from the output 17 are on the one hand to the input 18 of the receiver-side demultiplexer 5 and on the other hand to the input 22 of the synchronization unit 6.

The synchronization unit 6 determines the beginning and end of the message blocks from the signals arriving at its input 22 and synchronizes the elementary signals. The synchronization signals are output to output 23.

It transmits selective signals to one of the outputs 19 and non-selective signals to the other output 20 of the receiver demultiplexer 21 using input from the synchronization unit 6 and using decoding circuits from the transmission system block 4 to the message block 18. The selective and non-selective signals on the two inputs 12, 13 of the transmitter multiplexer 3 are the same as the selective and non-selective signals on the two outputs 19, 20 of the receiver demultiplexer. Output signals will be reused in a manner that does not affect the spirit of the invention.

The receiver demultiplexer 5 may also have a circuit arrangement such that selective and non-selective signals only appear on one of the outputs 19, but then the signal on the other output 20 will appear during the time of the selective signals.

The use of the method and circuit arrangement of the present invention in UHF-FM broadcast radio networks, the ancillary program of which is selective paging, digits and / or letters and / or other signals (e.g. pixels) addressed to individuals or groups, persons or automatic switches is advantageous. or for the transmission of a message or instruction transmitted phonetically and / or for selective data transmission.

The usefulness of transmitting selective and non-selective information within a single transmission system will extend the capabilities of the add-on program and create favorable operating conditions.

The system also allows for flexibility in meeting additional subscriber needs later on.

Claims (3)

PATENT CLAIMS 1. Procedure of Add-on Programs for UHF-FM Transferring 5 broadcasting via transmitter network, wherein the VHF sub-carrier wave of digital signals modulated digital signals organized message block, the message block is prepared starting signals, synchronization signals, mar ¹ θ kerjelek, information signals, stop signals összetűzéséből, characterized in that the message block periodically transmitted, and the information signals include non-selective signals and / or selective signals and address signals. Method according to claim 1, characterized in that in the information part of the message blocks non-selective signals, address symbols and 20 selective signals, or marker signals and selective signals. A circuit arrangement for carrying out the method of claim 1 or 2, which is The arrangement comprises a transmission system block, characterized in that a transmission multiplexer (3) is connected to the auxiliary input (16) of the transmission system bit: kk (4), one of the inputs (12) of the transmission side multiplexer (3). 30 selective signal outputs; a non-selective signal generator (1) and a control unit (2) are connected to a further input (13, 14), the non-selective signal generator (1) and the control unit (2) being directly connected. a receiver demultiplexer (5) and a synchronization unit (6) connected to the output (17) of the transmission system block (4), the receiver demultiplexer (5) and the synchronization unit (6) being directly connected to one another, one of the outputs of the receiver demultiplexer (5) (19) selective information output, m person output (20) non-selective information output. Circuit arrangement according to claim 3, characterized in that one of the outputs (19) of the receiver demultiplexer (5) is a common selective and non-selective information output, the other output (20) an indication of the presence of selective information.