FR2640103A1 - FREQUENCY CONVERTER SOUND INTERMEDIATE - Google Patents

Abstract

The intermediate sound frequency converter according to the invention is intended for a sound output stage of a multichannel television set in which the intermediate sound frequency signal is supplied through a band-pass filter 3 and a sound output circuit 10, the device comprising a band-pass filter 1 intended to transmit the intermediate sound frequency signal not received by the tuner, an oscillator circuit 8 which oscillates according to the frequency through the band-pass filter, a mixer 9 intended to compose the signal of oscillation of the oscillator circuit 8 and the signal passing through the band-pass filter 1, and a band-pass filter 2 intended to transmit only the second harmonic component of the output of the mixer 9 to the sound output circuit 10. The present The invention makes it possible to convert the signal frequency to an intermediate sound frequency applied from the intermediate sound frequency detector using the oscillation circuit 8, the mixer 9 and the bandpass filter 2, and the present invention makes it possible to produce a good signal of intermediate sound frequency without noise or distortion.

Description

The present invention relates to a converter

  frequency its intermediary and more particularly a convert-

  sor intended to convert the frequency signal to its intermediate so that a sound signal of good quality can be received in

  The output circuit of a multi-channel TV.

  In a known manner, in the multichannel television output circuits intended to deliver a sound signal in the multichannel television, in order to change the various intermediate frequency signals according to the methods of transmission to the sound signal and to produce it, the frequency converter is placed between the output stage of the intermediate frequency signal and the input stage of a frequency-modulated detector, and the frequency of the intermediate frequency signal according to each emission method is modulated and is produced as a sound signal so noise is introduced into the sound signal and

  a signal distortion appears.

  So even if the intermediate frequency signal can

  to be received by the tuner himself, he must go through the convert-

  frequency, resulting in the appearance of noise and

distortion of the sound signal.

  The present invention has been made with these data in mind and aims to provide a sound intermediate frequency converter in which the signal, which can be received by the tuner itself, is produced as such after signal processing sound, while in the case of different transmission methods the video signal can be received by the tuner itself, but the intermediate frequency signal cannot be received, so that the frequency signal is intermediate is converted to produce the sound signal, thereby producing a

  good sound signal without noise or distortion.

  According to the present invention, an intermediate sound frequency converter is produced having the sound output stage of multichannel television in which the intermediate sound frequency signal is produced through a bandpass filter and the

  sound output circuit, the arrangement comprising: a pass filter

  band intended to transmit the intermediate frequency signal

  not received by the tuner, an oscillator circuit which oscillates according to the frequency through the bandpass filter, a mixer

  intended to compose the oscillation signal of said oscillating circuit

  tion and the signal passing through the bandpass filter, and a bandpass filter intended to transmit only the second harmonic component of the output of said mixer to the circuit

sound output.

  Other features and advantages of this

  invention will appear better on reading the description which

  follows with reference to the accompanying drawings, in which: Figure I is a block diagram of the present invention. Figure 2 is a diagram of a circuit according to this

invention.

  Figure 3 is a characteristic diagram of the frequency

  at node A, according to the present invention.

  Figure 4 is a characteristic diagram of the frequency

  at node B, according to the present invention.

  The present invention will now be described in more detail

  detail with reference to Figure 1.

  Figure 1 shows a block diagram of the present invention. A bandpass filter 1 transmits the intermediate frequency signal of (N + x) MHz which cannot be received by the tuner itself, while bandpass filters 2 and 3 transmit the intermediate frequency signal which can be received by the tuner itself. The intermediate sound frequency signal passing through the bandpass filter 3 is transmitted to the loudspeaker 7 through the frequency modulation detector 4, The bass amplifier

  frequency 5, and the low frequency output stage 6.

  Figure 2 shows the diagram of a circuit according to the present invention. The bandpass filters 1 and 2 to which the output of its intermediate frequency detector is connected are

  composed respectively of ceramic filters Z1 and Z2.

  The intermediate frequency signal passing through the ceramic filter Z1 controls the oscillator circuit 8 consisting of the capacitors Cl, C2 and the resistor R3. The output of the oscillator circuit, i.e. node A, has a frequency of xMHz corresponding to the difference between the applied frequencies

  differently according to the emission method, i.e. the difference

  rence of NMHz and (N + x) MHz, by adjusting the transformer

intermediate frequency L1.

  After the oscillating signal of the oscillator circuit 8 and 10. the intermediate frequency signal passing through the ceramic filter has been added in the mixer 9 consisting of resistors R1, R2 and capacitors C3, C4, the only second harmonic of the signal mixed can be transmitted through the ceramic filter Z2. Thus, the present invention is constructed so that the intermediate sound frequency signal of NMHz which can be received by the tuner itself is supplied to the speaker 7 through the bandpass filter 3 and the sound output circuit 10 such that, while the intermediate sound frequency signal of (N + x) MHz is applied to the oscillation circuit 8 through the bandpass filter for CN + x) MHz, the oscillation circuit then provides an oscillating signal of xMHz according to the adjustment

  of the intermediate frequency transformer L1.

  When the oscillating signal of xMHz is produced, the oscillating signal is composed with the intermediate sound frequency signal of (N + x) MHz passing through the ceramic filter Zl, at the level of the mixer 9. Thus, only the sound frequency signal intermediate of NMHz, among Second harmonics, can be supplied to speaker 2 through the ceramic filter Z2 and

The sound output circuit.

  In such a type of invention, the case of the signal

  frequency its intermediary which can be received by the tuner itself

  even, that is to say NMHz, will be described first.

  If the NMHz intermediate sound frequency signal received by the tuner itself is applied, it is then intercepted by the bandpass filter 1 of (N + x) MHz, as is the intermediate sound frequency signal passing the pass filter. strip 2 of

2 6 4 0 1 03

  NMHz is intercepted at mixer 9 since the transistor

Q1 is not in operation.

  Thus, when the intermediate frequency signal of NMHz which can be received by the tuner itself is applied, it is

  intercepted by the Z1 ceramic filter of (N + x) MHz.

  Then the intermediate sound frequency signal passes through the ceramic filter Z2, but the transistor Q1 not being in operation, the intermediate sound frequency signal is

  blocked, and the mixer 9 and the oscillation circuit 8 do not work

  not argue. Thus, the frequency signal is its intermediate which

  can be received by the tuner itself is transmitted to the pass filter

  band 3 of NMHz and it is supplied through the output circuit

sound 10.

  In this transmission method, in which the signal can be received by the tuner itself, the intermediate sound frequency signal is supplied to the speaker 7 through the signal circuit.

  sound output 10 without passing through a traditional sound converter

  so that no noise is produced and only a sound signal

  good quality can be obtained.

  On the other hand, in the other transmission methods for which the video signal can be received by the tuner itself while the sound signal cannot be received by the tuner itself, the

  sound signal output is as follows.

  When the intermediate sound frequency signal of (N + x) MHz is applied from the intermediate sound frequency signal detector, in case the video signal is received by the tuner itself, and the sound signal is not not received by the tuner, the intermediate frequency signal is transmitted only to the

  Bandpass filter 1 of (N + x) MHz. At this time, the pass filters

  band 2 and 3 do not transmit the frequency signal its inter-

  medial because they can only transmit the frequency of NMHz.

  Thus, if the intermediate frequency signal of (N + x) MHz which cannot be received by the tuner itself passes the bandpass filter 1, then the oscillation circuit 8 consisting of the resistor R3, C1, C2 and transformer capacities to

  intermediate frequency L1, is controlled.

  By adjusting the intermediate frequency transformer L1, the oscillation frequency is fixed equal to the difference between The frequency (N + x) MHz of the sound frequency signal passing through the filter 1 and The NMHz frequency passing through the pass filter band 2, so that the oscillation signal of xMHz as shown in FIG. 3 appears at node A. In other words, the oscillation circuit 8 is controlled when the frequency signal is its intermediate of ( N + x) MHz is applied through the bandpass filter 1, and the oscillation circuit supplies the oscillation signal of xMHz by adjusting the intermediate frequency transformer L1, signal equal to the difference between the pass frequencies of the filters bandpass 1 and 2, so that the frequency characteristic at node A is as shown in Figure 3. At this time, the frequency characteristic at node B is given by the fourier function of the variable xMHz adjusted by the transformer to

intermediate frequency L1.

  Thus, at node B of mixer 9, the frequency signal is its intermediate NMHz signal which can pass through the filter

  bandpass 2 is produced as a component of second harmo-

  pic, as shown in figure 4.

  The second harmonic component of NMHz, generated at node B, and represented in FIG. 4, is applied to the sound output circuit 10 consisting of the frequency modulation detector 4, the low frequency amplifier 5, and the stage Release

  low frequency 6, through the bandpass filter 2.

  Thus, if the intermediate sound frequency signal of (N + x) MHz is applied from the intermediate sound frequency detector, aWhen the oscillator circuit 8 produces the signal of xMHz, and the oscillating signal generated is mixed with the frequency signal its intermediate applied to the mixer 9, then the second harmonic component of NMHz, which can pass through the bandpass filter, is generated at the level of the mixture 9

  and is supplied through the conventional sound output circuit 10.

  Thus, only in the case of a transmission method in which the intermediate frequency signal can be received by the tuner itself, the oscillation circuit and the mixer are controlled so that the signal is converted into a signal of frequency its intermediate NMHz which can be received by the

tuner itself.

  As stated above, the present invention can provide a good intermediate sound frequency signal without noise or distortion by converting the frequency of the intermediate sound frequency signal applied from the intermediate sound frequency detector through the oscillation circuit, the mixer and the bandpass filter in a multi-TV broadcast method, in which the video signal can be received by the tuner itself while the sound signal cannot be received by the tuner.

  The invention is in no way limited to the embodiment

  tion which has just been described. Various modifications of the embodiment described as well as other embodiments of the invention will be apparent to those skilled in the art with reference to

  the description of the invention. It is therefore expected that claims

  which will cover any modification or other mode

  without departing from the scope of the invention.

Claims (3)

  1. Intermediate sound frequency converter comprising a sound output stage of a multi-channel television, in which the intermediate sound frequency signal is supplied through a bandpass filter (3) and a sound output circuit (10), characterized in that it comprises: a band-pass filter (1) intended to transmit the intermediate frequency signal not received by the tuner, an oscillator circuit (8) which oscillates according to the frequency passing through the pass-filter tape (1), a mixer   (9) intended to compose the oscillating signal of said oscillating circuit   tor (8) and the signal passing through said bandpass filter (1), and a bandpass filter (2) for transmitting only the second harmonic component from the output of said   mixer (9) to the sound output circuit (10).   2. Converter according to claim 1, characterized in that the oscillation circuit consists of two capacitors (C1, C2) and a resistor (R3), so that the oscillation frequency is fixed equal to the difference between the pass frequencies of the band filters (1 and 2) by manual adjustment   an intermediate frequency transformer (L1).   3. Converter according to claim 1, characterized in   that the mixer (9) is designed so that the frequency does not   sant through the bandpass filter (1) is mixed with the oscillation frequency of the oscillator circuit (8), and in that it comprises a transistor (Q1), resistors (R1, R2) and capacities (C3 and C4).