KR890004267B1 - Sound changing circuit of multi-system tv - Google Patents

Abstract

The circuit receiving television broadcasts from both a PAL system and a NTSC system comprises the PAL/NTSC detector (1) driving the transistor (Q8), the detector (2) responding to 6.0 MHz signals to drive the transistors (Q6, Q7), the switching circuits (3,4) controlled under the transistors (Q6, Q7), the oscillator circuits (5,6) comprising the crystals (X1X2) and the transistors (Q2, Q4), the mixer (8) mixing the introduced audio intermediate frequency and the output signals of the oscilltor circuits (5,6), and the ceramic filter (P3) filtering the selected frequency.

Description

Multi-channel TV's voice switching circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: PAL / NTSC discrimination unit 2: 6.0MHZ detector

3,4 switching unit 5,6 oscillation unit

8: Mixer section Q ₁ , Q ₂ , Q ₃ , Q ₄ ... Q ₈ : Transistor

X ₁ , X ₂ : Vibration element P ₃ : Ceramic filter

R ₁ , R ₂ , R ₃ ...: Resistor C ₁ , C ₂ , C ₃ ...: Capacitor

P ₁ : Input terminal P ₂ : Output terminal

The present invention relates to a voice switching circuit of a multi-modal television system capable of receiving both NTSC (National Television System Committee) and PAL (Phase Alternation byline) audio signals together.

To solve this problem, various circuits have been proposed to receive video and audio signals from different types of broadcast signals, and there are various TV transmission methods. It was not possible to receive the broadcast signal by the broadcast method.

In particular, the reception of voice signals of different methods can be solved by changing only the intermediate frequency bandwidth of the voice signals according to each method, but it has a disadvantage of complicated circuits.

In addition, the broadcast signal transmission method of the PLA type television is transmitted in the same manner as the NTSC method, but the phase distortion is prevented by inverting the phase of one chroma signal of the two chroma signals. However, even in the PLA method, the video frequency is the same but the audio frequency bandwidth is different, so that the video signal can be received by the same PLA method, but the audio signal cannot be received. The case was to occur.

An object of the present invention is to configure the separate detection circuit in the intermediate frequency input stage to automatically switch the audio signal of the television different broadcasting system, except that switching the detection signal according to the different broadcasting signal NTSC signal Even if the audio intermediate frequency signals of PLA-I and PLA-B are input, respectively, the audio intermediate frequency of a constant frequency is always output through the filter of the mixer. The switching transistor is controlled by the PAL / NTSC discriminator and the 6.0MHZ detector. It is configured to drive the speech switching unit, speech generators of different frequencies are configured for speech, and the mixer unit generates a bit frequency so that only a certain frequency is output through the filter.

This will be described in detail with reference to the accompanying drawings.

The PAL / NTSC determination unit 1 of the present invention is configured to output a high level signal when a PAL signal is applied and a low level signal when an NTSC signal is applied to control the transistor Q ₈ and to provide a 6.0MHZ detector 2 ) Is configured to control the driving of the transistor Q ₆ (Q ₇ ) by outputting a high level signal when the voice intermediate frequency SIF is applied at 6.0 MHz (PAL-I method). And output resistance of each transistor (Q ₆ -Q ₈₎ - to control the switching unit (3) (4) consisting of _{(R 1 3), (R} 8) and a transistor (Q ₁₎ (Q ₃₎ configured after the resistance to the switching unit 3 in the driving of (4) a transistor _{(Q 2) (Q 4)} (R 4 - 13) and capacitors (C ₁ -C ₇₎ the address configuration and the oscillating element (X ₁₎ ( The oscillation unit 5 is configured to control the driving of the oscillation units 5 and 6 connected to X2), and the oscillation unit 5 oscillates at a frequency of 0.5 MHz and the oscillation unit 6 is configured to oscillate at a frequency of 1.0 MHz. The output of the oscillator 5 and 6 is applied to the mixer 8 and mixed with the voice intermediate frequency input to the input terminal P ₁ and then mixed through a 5.5 MHZ ceramic filter P _{3 with a} bead frequency. an output terminal configured to be output to the (P _2), and wherein the mixer unit 8 against the base side of the transistor _{(Q 5) (R 14 -R} 15) and a capacitor (C ₁₀₎ (C ₁₁₎ the speech and collector side in that the via the capacitor (C ₁₄₎ for blocking a direct current is configured to be output to the ceramic filter (P ₃₎ a ceramic filter (P ₃₎ is a filter configured to be passed through a sound intermediate frequency signal of 5.5 MHZ.

In the present invention configured as described above, the NTSC broadcast voice signal is applied as a 4.5 MHZ voice intermediate frequency signal and the PAL-B broadcast voice signal is applied as a 5.5 MHZ voice intermediate frequency signal and the PAL-I broadcast voice signal 6.0 MHZ It is included in the composite video signal as an audio intermediate frequency signal. Therefore, in case of receiving PAL-I system in Hong Kong area, the voice intermediate frequency is applied as 6.0MHZ, so the 6.0MHZ detector 2 detects the output of voice intermediate frequency (SIF) and outputs the high level status signal. Since the transistor Q ₇ is turned on so that the transistor Q ₆ is turned on through the resistors R ₂₁ and ₂₂ , the transistor Q ₁ of the switching unit 3 maintains a cutoff state.

In addition, since the PAL / NTSC determination unit 1 is receiving the PAL method, the PAL / NTSC determination unit 1 outputs a high level. This causes the transistor Q _{8 of the} resistor R ₂₃ (R ₂₄ ) to be connected to conduct the transistor Q ₃ of the switching unit 4. To be turned on.

Therefore, when the PAL-I broadcast is received, the transistor Q ₁ of the switching unit 3 and 4 is cut off and the transistor Q ₃ is turned on, so that the oscillation element X ₁ oscillating 0.5 MHZ is operated and 1.0. The vibrating element X _{2 for} oscillating MHZ is stopped.

That is, when receiving the PAL-I method, the 1.0 MHZ oscillation element X _{2 of} the oscillation unit 5 stops operation, and the oscillation element X ₁ of the oscillation unit 5 oscillates at a frequency of 0.5 MHZ so that the transistor Q ₂ ), the oscillation output of 0.5MHZ is applied to the mixer section 8 through the resistor R ₂₅ and the condenser C ₅ .

In this way, the 0.5 MHZ oscillation output of the oscillator 5 is mixed with the PAL-I 6.0 MHZ audio intermediate frequency signal applied to the mixer 8 and input to the input terminal P ₁ , and thus the byte frequencies of 5.5 MHZ and 6.5 MHZ. The bead frequency is output through the transistor (Q ₅ ), but only the 5.5 MHZ voice middle frequency signal is output to the output terminal (P ₂ ) by the 5.5 MHZ ceramic filter (P ₃ ). The I-type audio signal can be received.

In addition, when receiving a PAL-B type voice signal, such as a hollow, a 5.5 MHZ voice intermediate frequency signal is applied to the 6.0 MHZ detector 2 so as to output a low level signal to output a transistor Q ₆ (Q ₇ ). Since the PAL / NTSC discrimination unit 1 is receiving the PAL system, the PAL / NTSC determination unit 1 outputs a high level to conduct the transistor Q ₈ .

That is, when the PAL-B broadcast is received, the transistor Q ₆ is cut off, and the transistor Q ₁ of the switching unit ₃ is biased to the resistors R _1- R ₃ by the power source B ⁺ and conducts the oscillation unit 5. ) Will remain blocked.

However, since the high level signal outputted from the PAL / NTSC determination unit 1 conducts the transistor Q ₈ to conduct the transistor Q ₃ of the switching unit 4, the oscillation unit 6 is also cut off.

Therefore, since the oscillator 5 and 6 do not operate at the time of receiving PAL-B broadcast, the voice intermediate frequency SIF applied to the input terminal P ₁ of the mixer unit 8 remains the transistor Q _{5 as it} is. After thrust through the 5.5MHZ ceramic filter (P ₃ ) through the output terminal (P ₂ ) to output a 5.5MHZ voice intermediate frequency signal.

Therefore, the voice signal of the PAL-B method can be received.

On the other hand, while receiving the NTSC broadcast like in the United States, a 4.5 MHZ voice intermediate frequency (SIF) is applied, so that the 6.0 MHZ detector 2 outputs a low-level signal and switches off the transistor Q ₆ (Q ₇ ). The transistor Q ₁ of the unit 3 is turned on to cut off the 0.5 MHZ oscillation signal of the oscillation unit 5, and the PAL / NTSC discrimination unit 1 is at the time of applying the NTSC broadcast signal. By shutting off Q ₈ , the transistor Q ₃ of the switching unit 4 maintains the blocking state.

As such, when the transistor Q ₃ of the switching unit 4 is cut off when receiving an NTSC broadcast, the transistor Q ₄ , the resistors R _7- R ₁₈ , the capacitors C _6- C ₈ , and the vibration element X ₂ are blocked. In the configured oscillation section 6, an oscillation frequency of 1.0 MHZ is applied to the mixer section 8.

Therefore, in the mixer section 8, the 1.0 MHZ oscillation frequency of the oscillation section 6 is applied, and the NTM system 4.5MHZ voice intermediate frequency is input and mixed through the input terminal P ₁ so that the ratio of 5.5MHZ and 3.5MHZ is mixed. The frequency is output through the transistor (Q ₅ ) and this beet frequency is NTSC type because only 5.5MHZ audio intermediate frequency signal is output to the output terminal (P ₂ ) by the 5.5MHZ ceramic filter (P ₃ ). The voice signal of can be received.

As described above, the present invention is more convenient than the method of obtaining a desired voice signal output by switching in a separate detector according to the broadcasting method, and different NTSC, PAL-I, and PAL-B voice intermediate frequency signals are respectively provided according to the broadcasting method. Even if it is input, the switching part controls the oscillator so that the bead frequency of the mixer part can obtain the voice intermediate frequency signal of the desired frequency through the filter, so that any voice frequency can be selected automatically. There are advantages to choose from.

Claims (1)

It is configured to control the driving of the transistors Q ₆ -Q ₈ by the output of the PAL / NTSC discrimination unit 1 for discriminating PAL broadcasts and NTSC broadcasts, and the 6.0MHZ detector 2 for detecting the audio intermediate frequency of 6.0 MHZ. The transistors Q ₆ -Q ₈ control the driving of the transistors Q ₁ and Q ₃ of the switching unit 3 and 4 to oscillation elements X ₁ and X ₂ and the transistors Q ₂ . (Q ₄ ) is configured to control the driving of the oscillator (5) (6) for outputting different oscillation frequency, the oscillation frequency of the oscillator (5) (6) is the input voice intermediate frequency and the mixer (8) The audio switching circuit of the multi-mode television configured to be output through the ceramic filter (P ₃ ) after mixing through a transistor (Q ₅ ) of only a predetermined frequency.

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