HU208205B - Multi-system sound signal processing unit for multi-system television receiver - Google Patents

Abstract

The automatic selecting circuit is suitable for use in a multi-system television receiver, enabling it to adapt automatically to any one of a number of different audio frequency broadcasting systems. The circuit basically comprises: a set of three ceramic filters CF1-3 for waveform shaping input signals of B/G, I or D/K systems respectively; a frequency converter 2 for converting the output from the set of filters to a predetermined frequency; an additional filter CFA for the M system; frequency detection circuitry 4, 7 which produces a logic signal indicating whether the input signal is B/G or I or D/K, or M system; an audio detector 3 which receives either the output of the frequency converter 2 or the output of the additional filter CF4; and selection circuitry 6 which determines which output is to be received by the audio detector 3, based on the logic signal. Circuit 8 is a resonance circuit for detector 3. <IMAGE>

Description

The subject of the application is a multi-standard audio processing unit for a multi-standard television receiver having parallel-coupled 5.5 MHz, 6 MHz and 6.5 MHz bandpass filters connected to a video detector output having a mixer connected to a common output. is connected to an audio detector through an additional 6 MHz bandpass filter.

The systems most commonly used in terrestrial television in Europe are the B / G norms, as well as the standards I, D / K and M, in which the auxiliary carrier frequency is 5.5 MHz, 6 MHz, 6.5 MHz, respectively. for system M 4.5 MHz.

Television receivers and video tuners are known which have an audio processing unit capable of processing not only standard audio signals but also two to three standard audio signals, and which audio processing units automatically select a mode corresponding to the received broadcast standard.

Such known multimode audio processing units have parallel-tuned band-pass filters connected to the output of a video detector, tuned to 5.5 MHz, 6 MHz and 6.5 MHz, the common output of which is connected to a mixer which mixes an additional 6 MHz is tuned to a sound detector through a bandpass tuner, where the local oscillator of the mixer vibrates at 0.5 MHz.

A drawback of this known solution is that the processing of a 4.5 MHz audio subcarrier compliant with the M norm cannot be accomplished in this way while providing the other standards for reception.

It is an object of the invention to overcome the above defect. The task is to develop a multi-standard audio signal processing unit for a television receiver that is

In addition to processing 5.5 MHz, 6 MHz, 6.5 MHz audio sub-carriers, it is also capable of processing M-compliant 4.5 MHz audio sub-carriers.

In the embodiment of the present invention, a 6 MHz tuned bandpass filter coupled to a mixer output is coupled to a sound detector output circuit, the other input of said switch circuit having a 4.5 MHz tuned bandpass filter coupled to a video detector output. and its input is connected to the output of a 4.5 MHz carrier control circuit for detecting a carrier frequency, to which is also connected a frequency converter input of the audio detector tuning circuit.

Preferably, the circuit control circuit comprises an FM detector connected to the video detector output, a tuning circuit of the FM detector, and a switching signal inverter connected to the output of the FM detector.

An advantage of the present invention is that it allows the processing of four subwoofer audio subcarriers, including automatic processing of an M standard 4.5 MHz subcarrier.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in detail with reference to an exemplary embodiment.

In the drawing, Figure 1 is a circuit diagram of a multi-standard audio signal processing unit.

Fig. 1 is a schematic diagram of an embodiment of a multi-standard audio signal processing unit according to the invention. In the figure, parallel-tuned band-pass filters (CF1, CF2, CF3) of 5.5 MHz, 6 MHz, and 6.5 MHz are connected to the output of the video detector (1) of the television receiver (1). 2) Mixer is connected. The mixer (2) is connected to an audio detector (3) via an additional bandpass filter (CF5) tuned to 6 MHz and a switch circuit (6). The other input of the switching circuit (6) is connected to the output of the video detector (1),

A 4.5 MHz tuned bandpass filter (CF4) is connected. The control input of the switch circuit (6)

Connected to the output of a switching control circuit for detecting a carrier frequency of 4.5 MHz, which is connected to the output of the video detector (4) by an FM detector (4), a tuner circuit (7) comprising an FM inductor (L2) and a capacitor (C7); ) It consists of a switching-mode inverter (5) connected to the output of an FM detector. In addition, the frequency converter input of the tuning circuit (8) of the sound detector (3) is connected to the output of the circuit control circuit.

The tuning circuit (8) of the sound detector (3) comprises an oscillating circuit (L1) of inductance and (C4) tuned to 6 MHz, a capacitor (C5) connected in parallel with the oscillating circuit (D3), Tune to 5 MHz. The switching circuit of the switching diode (D3) comprises a resistor (R8) connected between the output of the inverter (5) and a common point of the cathode (D3) and the capacitor (C5) and a voltage divider (R6, R7) dividing the supply voltage (B ⁺ ). consisting of a point of intersection connected to the anode of a contact diode (D3) and cooled by a capacitor (C6).

The switching circuit (6) comprises two switching diodes (D1, D2). The common cathode of the switching diodes (D1 and D2) is connected via a resistor (R1) to a ground point and a capacitor (C3) is connected to the input of the sound detector (3). The anode of the switching diode (D1) is connected via a capacitor (C1) to the filter (CF4) and the switching diode (D2) is connected to the filter (CF5) through the capacitor (C2). The terminal (D1) is connected to the collector (C1) of a capacitor (C1) to the collector of a first grounded emitter (TR1), and the terminal (D2) to the condenser (C2) is connected to the collector of a second (TR2) grounded emitter. The resistor (R3, R5) of the switching transistors (TR1, TR2) is connected to the supply voltage (B ⁺ ). The base of the first switching transistor (TRI) is connected via a resistor (R2) to the output of the inverter (5), and the base of the second switching transistor (TR2) is connected via a resistor to the collector of the first switching transistor (TRI).

The operation of the exemplary circuit is described in detail below.

One of the ceramic (CF1, CF2, CF3) filters passes the 5.5 MHz, 6 MHz,

6.5 MHz modulated audio subcarrier (if any in the received signal). The mixer (2) mixes the signal to 6 MHz in the presence of any auxiliary carrier

EN 208 205 B, the ceramic (CF5) filter filters out the output signal

5.5 MHz, respectively. 6.5 MHz components and thus only the 6 MHz modulated signal goes to the anode of the switching diode (D2).

The ceramic (CF4) filter passes the 4.5 MHz audio auxiliary carrier to the anode of the (Di) switching diode.

The FM detector (4) gives an output signal ("0") when the frequency of the signal coming from the video detector (1) is 5.5 MHz, 6 MHz or 6.5 MHz and ("1") when the video detector (1) the incoming signal frequency is 4.5 MHz.

Thus, when the television receiver receives a B / G, I or D / K signal, the FM detector (4) gives a signal ("0"), the inverter output (5) displays a signal ("1") and ( TRI) switching transistor is in a conductive state and is saturated. As a result (TR2), the switching transistor closes, i.e. turns off. In this state, the switching diode (D1) is in the off state, the switching diode (D2) is in the on (conducting) state and the 6 MHz output signal of the mixer (2) is transmitted to the sound detector (3). However, the switching diode (D3) is switched off (open) by the output signal (1) of the inverter (5), so that the tuning circuit (8) of the sound detector (3) is formed by the inductance (L1) and the capacitor (C4).

If a 4.5 MHz audio subcarrier signal corresponding to (M) standard is present at the output of the video detector (1), the FM detector (4) provides an output signal ("1"), at the output of the inverter (5) (" 0 ”), which causes the first (TRI) switching transistor to close and the second (TR2) switching transistor to saturate, meaning that its collector voltage is practically 0 V. As a result, the diode conductor (D1) and the diode (D2) are open, and a 4.5 MHz signal passing through the ceramic (CF4) filter is transmitted to the sound detector (3). At the same time, the switching diode (D3) of the tuning circuit (8) enters a conductive state and switches the capacitor (C5) in parallel with the capacitor (C4).

Claims (2)

PATENT CLAIMS 1. A multi-standard audio signal processing unit for a multi-standard television receiver having parallel-coupled 5.5 MHz, 6 MHz and 6.5 MHz band pass filters connected to a common output of a video detector connected to a common output. which mixer is coupled to an audio detector through an additional 6 MHz tuned bandpass filter, characterized in that a 6 MHz tuned bandpass filter (CF5) coupled to the mixer output is coupled to the output of the audio detector (3), the other input of a switching circuit (6) being connected to a 4.5 MHz bandpass filter (CF4) tuned to the output of a video detector (1) and a control input connected to the output of a switching control circuit capable of detecting a carrier frequency of 4.5 MHz to which the frequency converter input of the tuning circuit (8) of the sound detector (3) is connected. The multimode audio signal processing unit according to claim 1, characterized in that the switch control circuit is connected to the output of the FM detector (4) connected to the output of the video detector (1) and to the output of the FM detector (4). comprising a connected switching signal generating inverter (5).