KR950004165Y1 - Multi system sound processing apparatus - Google Patents

Abstract

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Description

Multi system sound processing circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: IF IC 2: Micom

3, 6: frequency converter 4, 7: mixer

5, 8: local oscillator 9, 10, 11: filter

Q ₁ , Q ₂ : Transistors D ₁ , D ₂ : Diodes

C ₁ : condenser

The present invention relates to a sound processing circuit of a multi-system that can process multi-type sound by unifying different sound carrier frequencies for each type in a multi-type TV receiving system.

In the conventional multi-system, the voice carrier frequency is mixed with a fixed oscillation frequency and one of the frequencies is selected and used, so that the filtering specification by the single vibration isolation frequency is not good.

That is, since the sound carriers are different and mixed with one oscillation frequency to obtain a desired sound carrier, precise sound carriers cannot be detected and thus affect the sound signal.

In view of the above, the present invention selects an oscillation frequency mixed with a sound carrier for each broadcasting scheme to output one sound carrier, and outputs different carriers according to each broadcasting scheme as one single sound carrier. In order to select the oscillation frequency to be mixed with the sound carrier, when one sound carrier is selected, it cuts the output of the sound carrier of another way to eliminate interference and enjoy good sound.

This invention is described in detail by the accompanying drawings as follows.

The image intermediate frequency detection of the IF IC 1 is configured to be selectively applied to the frequency converter 3, 6 through a diode D ₁ (D ₂ ) whose driving is controlled by a selection voltage for each broadcasting scheme. The output of (D ₁ ) is applied to the frequency converter 3 through the filter 9 and the output of the frequency converter 3 is applied to the frequency converter 6 through the filter 10 and the frequency converter ( The output of 6) is configured to be applied to the limiter amplifier 12 and the FM detector 13 of the IF IC 1 through the filter 11.

At this time, the frequency converter 3 is composed of a mixer 4 to which a 1 MHz local oscillator 5 is connected, and the frequency converter 6 is composed of a mix 7 to which a 0.5 MHA local oscillator 8 is connected.

In addition, the output of the microcomputer 2 that applies different control voltages by applying each broadcasting method is configured such that the collector output of the transistor Q ₂ controls the driving of the transistor Q ₁ and the diode D ₁ . The collector output of Q ₁ is configured to control the driving of diode D ₂ and frequency converter 3.

At this time, the microcomputer 2 recognizes a selection signal for each method to be manually switched or recognizes a signal applied from a broadcasting method selection IC to output a high level in the case of NTSC and a low level in the case of PAL or SECAM. .

The present invention configured as described above is capable of receiving all three TV broadcasting schemes of PAL, SECAM, and NTSC. The frequency of the sound carrier of each broadcasting scheme is 4.5 MHz, 5.5 MHz, 6.5 MHz, and 6.0 MHz.

In other words, the present invention is to convert the different sound carriers to 6.0 MHz sound carrier according to the broadcast method to be supplied to the IF IC (1).

First, when the sound carrier is 4.5MHz, the NTSC method is used, so the microcomputer 2 outputs the high level so that the transistor Q ₂ is turned on and the transistor Q ₁ is turned off so that the cathode side of the diode D ₁ is low. The level falls and the cathode side of the diode D ₂ is applied at a high level so that the diode D ₁ is turned on and the diode D ₂ is turned off.

Thus, the projected intermediate frequency detection output of the IF IC 1 is applied to the frequency converter 3 by means of a diode D ₁ only a sound carrier of 4.5 MHz in the 4.5 MHz filter 9 and of 1 MHz in the frequency converter 3. The oscillation frequency of the local oscillator 5 and the mixer 4 are mixed together and output together with the difference components at 3.5 MHz, 4.5 MHz, and 5.5 MHz, and the output of this frequency converter 3 is 5.5 MHz through the 5.5 MHz filter 10. Only a sound carrier of is passed and this 5.5 MHz sound carrier is applied to the frequency converter 6 via a condenser C ₁ .

In the frequency converter 6, the oscillation frequency of the local oscillator 8 of 0.5 MHz and the mixer 7 are mixed together and output together with the sum and difference components of 5.0 MHz, 5.5 MHz, and 6.0 MHz. The frequency is detected by applying a 6.0 MHz sound carrier component to the limiter amplifier 12 and the TM detector 13 of the IF IC 1 through the 6.0 MHz filter 11.

That is, in the case of NTSC system having a carrier of 4.5 MHz, the frequency converter 3, 6 and the filter 10 pass through the diode D ₁ to convert into a 6.0 MHz sound carrier, which is then transferred to the IF IC 1. Supply it.

However, if the sound carrier is 5.5MHz, 6.0MHz, 6.5MHz, PAL or SECAM is used at this time, so the microcomputer 2 outputs a low level to turn off the transistor Q ₂ and turn on the transistor Q ₁ to turn on the diode ( D ₁ ) is off and diode D ₂ is on.

Therefore, the sound carrier output from the IF IC 1 is mixed with the local oscillation frequency of the 0.5 MHz local oscillator 8 in the mixer 7 and applied to the frequency converter 6 through the condenser C ₁ .

At this time, the diode D ₁ is turned off so that the signal component around 4.5 MHz does not affect the signal component of another frequency band.

The 5.5 MHz sound carrier passing through the diode D ₂ is detected at 6.0 MHz in the filter 11 as a composite of the frequency converter 6 and the 6.0 MHz sound carrier is filtered as a component of the frequency converter 6. The detection is made at 6.0 MHz in (11).

That is, a 6.0 MHz sound carrier is input to the FM detector 13 through the limiter amplifier 12 of the IF IC 1 regardless of the 5.5 MHz, 6.0 MHz, or 6.6 MHz sound carrier.

As described above, the present invention is capable of receiving a voice signal as a single sound carrier by converting the frequency even if different sound carriers are input according to the broadcasting method, and excluding the influence of sound carriers of other broadcasting methods. It is possible to detect a speech signal without interference.

Claims (1)

Sound intermediate frequency of the microcomputer 2, the broadcasting system by mutually inverse drive transistor (Q ₁₎ that by the output voltage of (Q ₂₎ and the transistor (Q ₁₎ (Q ₂₎ IF IC (1) by the driving of A diode (D ₁ ) (D ₂ ) for selectively passing a signal, a frequency converter (3) for frequency converting a sound carrier passing through the diode (D ₁ ) and passing through the filter (9), and the filter (10) A frequency converter 6 for converting the frequency of the sound carrier output through the diode D ₂ and the output of the frequency converter 3 applied through a specific frequency, and a specific frequency of the output frequency of the frequency converter 6. Sound processing circuit of a multi-system consisting of a filter (11) which selects only and supplies it to the IF IC (1).