DE3922999C2 - Intermediate audio frequency converter - Google Patents

Description

The invention relates to a tone intermediate frequency converter for Conversion of an input Tone intermediate frequency signal, which from an output circuit a multi-channel television is delivered in one of one Sound output circuit processable intermediate frequency signal.

DE 33 46 981 A1 describes an intermediate tone frequency Transducer comprising three stages arranged in series. A first one Stage consists of a parallel arrangement of several Bandpass filters, whose pass frequencies are each one certain standard frequency are matched. The second stage, the is connected to the output of the first stage, includes a Frequency mixer circuit that the of each Bandpass filter output frequency signal with one of a Oscillator generated oscillating signal mixes. In the second Stage, the output signal of the first stage also turns on led a frequency-voltage converter, its output signal affects the frequency of the oscillator. The frequency Voltage converter has a characteristic curve, so that according to the from one of the bandpass filters in the input stage Passed frequency of the oscillator a mixed signal on the Mixer so provides that in the output signal of the mixer a certain standard frequency occurs in the spectrum. In the third stage, which consists of a sound output circuit and a before that there is a bandpass filter Output signal of the mixer for extraction of the standard frequency filtered. One of the band passes in the first stage and the Bandpass in the third stage have the same Pass frequency. If an input signal with a Standard frequency is present, which is exactly this pass frequency corresponds, the frequency-voltage converter controls the  So that the oscillator is at the lowest mixing frequency swings. This turns on the output signal of the mixer Mixed signal provided, in turn, a spectral line occurs at the standard frequency, which is then from the bandpass filter is extracted in the third stage. If others There are intermediate tone signals at the input which Have standard frequencies, each of the pass frequencies of other bandpass filters in the first stage, becomes another by means of the frequency-voltage converter Mixing frequency of the oscillator set, again a Spectral line at the pass frequency of the bandpass filter in the third stage occurs. Regardless of the frequency of the the intermediate tone signal present at the input must however one of the bandpass filters in the first stage, the mixer and the bandpass filter and the sound output circuit go through even if the entered Tone intermediate frequency signal has a frequency which is accurate the pass frequency of the bandpass filter in the third stage corresponds. However, interference signals and Signal distortion also for such Intermediate tone signal generated.

With the conventional output circuit of a multi-channel TV for the sound signal is to the various IF signals according to the transmission methods in the Convert sound signal and deliver this, the Frequency converter between the output stage of the SIF signal and the input stage of an FM detector. The IF- Signal according to one of the transmission technology methods modulated and delivered as a sound signal, thus interference signals get into the audio signal and signal distortion occurs.

This means that even if the IF signal from the tuner can be received, this must run through the frequency converter and thereby causing noise and distortion of the sound signal.

The object of the present invention is a To provide intermediate tone frequency converter, at which on the Bandpass filter before the sound output circuit a mixed signal is present, which has little interference and distortion, especially if the tone intermediate frequency converter is a Intermediate tone frequency signal entered at a standard frequency that can be received by the tuner itself.

This task is accomplished through a tone intermediate frequency converter solved according to claim 1. In contrast to the beginning mentioned serial arrangement of a tone intermediate frequency According to the invention, the converter is used for the intermediate tone frequency Input signal with a certain standard frequency none Frequency conversion performed during a frequency conversion other standard frequencies is made in a parallel branch. The second bandpass filter catches just that Intermediate sound frequency signals having a frequency that is passed by the third bandpass filter. The second Bandpass filters, on the other hand, also transmit audio intermediate frequency signals a frequency that is not from the first bandpass filter be allowed through. One at the output of the mixer and on the third connected to the input of the first bandpass filter Bandpass filter leaves only those harmonics of the Mixer output signal to the first bandpass filter through which have a frequency from the first bandpass filter to the Sound output circuit can be transmitted. Thus a Sound signal with good quality without noise and distortion delivered.

In the intermediate tone frequency converter according to the invention Signal that can be received by the tuner itself after the Sound signal processing delivered in the existing form, while in the case of the different Transmission method the video signal can be received by the tuner itself can, but not the SIF signal.

Further advantageous embodiments of the invention result itself from the subclaims. The following is the invention based on a preferred embodiment with reference to the drawings are described.

Fig. 1 shows a block diagram of the audio intermediate frequency converter according to the invention;

FIG. 2 shows a circuit diagram of the intermediate tone frequency converter according to the invention according to FIG. 1;

Fig. 3 shows the diagram of the frequency response in the circuit node A in Fig. 2; and

FIG. 4 shows the diagram of the frequency response in circuit node B in FIG. 2.

Fig. 1 shows the block diagram of the present invention. A bandpass filter 1 transmits the IF signal of (N + x) MHz, which cannot be received by the tuner itself, while bandpass filters 2 and 3 transmit the IF signal, which can be received by the tuner itself.

The SIF signal passing through the bandpass filter 3 is applied to the loudspeaker 7 via the FM detector, the low-frequency amplifier 5 and the low-frequency output stage 6 .

Fig. 2 shows the circuit diagram of the present invention. The bandpass filters 1 and 2 , which are connected to the output of the SIF detector, each consist of the ceramic filters Z1 and Z2.

After passing through the ceramic filter Z1, the SIF signal drives the oscillator circuit 8 , which consists of the capacitors C1, C2 and the resistor R3, the output of the oscillator circuit, the node A, carrying a frequency of x MHz, which is the difference of the Tuning the IF transformer L1 corresponds to different frequencies according to the transmission method, ie, the difference between N MHZ and (N + x) MHz.

After adding the oscillation signal of the oscillator circuit 8 and the SIF signal passing through the ceramic filter Z1 in the mixer 9 , which consists of the resistors R1 and R2 and the capacitors C1 and C2, only the second harmonic of the mixed signal can be transmitted through the ceramic filter Z2. The circuit arrangement according to the invention is thus made such that the N MHz SIF signal which the tuner can receive itself is supplied via the bandpass filter 3 and the sound output circuit 10 to the loudspeaker 7 in its original form, while the SIF signal of (N + x) MHz is applied to the oscillator circuit 8 via the bandpass filter for (N + x) MHz, whereupon the oscillator circuit 8 supplies the oscillation signal of x MHz in accordance with the tuning of the IF transformer L1.

When the vibration signal of x MHz is generated, the vibration signal is compounded with the SIF signal of (N + x) MHz passing through the ceramic filter Z1 in the mixer 9 . Thus, only the second harmonic of the SIF signal of N MHz can reach the loudspeaker through the ceramic filter Z2 and the sound output circuit.

In the present invention, the case below of the SIF signal received by the tuner itself can be d. that is, the signal from N MHz, first to be discribed.

If the NIF SIF signal received by the tuner is present, it is intercepted in the (N + x) MHz bandpass filter. Likewise, the SIF signal passing through the bandpass filter 2 of N MHz is intercepted in the mixer 8 because the transistor Q1 is not switched on.

So that means that if the SIF signal of N MHz, the can be received by the tuner himself, it will intercepted by the ceramic filter Z1 of (N + x) MHz.

The SIF signal also passes through the ceramic filter Z2. The transistor Q1 is not turned on, however, so that the SIF signal does not continue and the oscillator circuit 8 and the mixer 9 do not work. Thus, the SIF signal, which can be received by the tuner itself, is transmitted to the bandpass filter 3 of N MHz and passed on through the sound output circuit 10 .

In this transmission method, in which the signal can be received by the tuner itself, the SIF signal is supplied to the loudspeaker 7 via the sound output circuit 10 without running through the conventional sound converter, so that no interference signals are generated and a good sound signal is obtained.

On the other hand, in the other transmission method, in which the Video signal can be received by the tuner itself, while the sound signal by the tuner itself is not can be received, the course of the sound output signal the following.

If, in the case that the video signal is received by the tuner itself, but the audio signal cannot be received by the tuner, the SIF signal of (N + x) MHz is supplied by the SIF signal detector, the SIF signal is only transmitted through the bandpass filter 1 transmitted from (N + x) MHz. In this case, bandpass filters 2 and 3 do not transmit the SIF signal, since both can only transmit the frequency of N MHz.

So when the SIF signal of (N + x) MHz, which cannot be received by the tuner itself, passes the bandpass filter 1 , the oscillator circuit 8 , consisting of the resistors R3, the capacitors C1, C2 and the IF transformer L1 , controlled.

By tuning the IF transformer L1, the oscillation frequency is set to the difference between the frequency (N + x) MHz of the SIF signal passing through the bandpass filter 1 and the frequency N MHz passing through the bandpass filter 2 , that is, that shown in FIG Vibration signal of x MHz occurs in circuit node A.

In other words, the oscillator circuit 8 is operated when the SIF signal of (N + x) MHz is applied via the bandpass filter 1 , the oscillator circuit providing the oscillation signal of x MHz by tuning the IF transformer L1, i.e. the difference between the Bandpass filters 1 and 2 passing frequencies, so that the frequency response occurring in node A according to FIG. 3 results. Then the frequency response in node B is represented by the Fourier function of the variable x MHz coordinated by the IF transformer L1.

Thus, in the node B of the mixer 9, the SIF signal of N MHz, which can pass through the bandpass filter 2 , is generated as a second harmonic, as shown in FIG. 4.

The second harmonic of N MHz generated in node B according to FIG. 4 is applied via the bandpass filter 2 to the sound output circuit 10 , which consists of the FM detector 4 , the low-frequency amplifier 5 and the low-frequency output stage 6 .

Thus, when the SIF signal of (N + x) MHz is applied by the SIF detector, the oscillator circuit 8 generates the signal of x MHz and the oscillation signal generated is compounded in the mixer 9 with the applied SIF signal. Then the second harmonic of N MHz, which can pass through the bandpass filter 2 , is generated in the mixer 9 and output by the conventional sound output circuit 10 . Thus, only in the transmission method in which the SIF signal cannot be received by the tuner itself, the oscillator circuit and the mixer are controlled, whereby the signal is converted into the SIF signal of N MHz, which is received by the tuner itself can.

As stated above, the present invention provides good by converting the frequency of the SIF signal SIF signal without interference and distortion, the signal from the SIF detector via the oscillator circuit, the mixer and the bandpass filter of the multi-tone television broadcasting method who receive the video signal through the tuner itself can be while the sound signal is not through the tuner can be received.

Claims (4)

A tone intermediate frequency converter for converting a tone intermediate frequency signal present at an input, which is emitted by an output circuit of a multinorm television set, into a tone intermediate frequency signal which can be processed by a sound output circuit ( 10 ), comprising:

• a) between the input of the intermediate tone frequency converter and the tone output circuit ( 10 ) provided first bandpass filter ( 3 ) with a pass frequency (N) which transmits intermediate tone signals at a standard frequency;
• b) a second bandpass filter ( 1 ) connected to the input of the intermediate tone frequency converter, which intercepts tone intermediate frequency signals at the standard frequency (N) and transmits intermediate tone frequency signals at a frequency (N + x) which are not passed by the first bandpass filter ( 3 );
• c) an oscillator ( 8 ) connected to the output of the second bandpass filter ( 1 ), which is activated by an intermediate tone signal transmitted by the second bandpass filter ( 1 ) in order to generate an oscillation signal with a frequency (x) which is the difference between the frequencies (N + x) of the intermediate tone frequency signal passed by the second bandpass filter ( 1 ) and the standard frequency (N) passed by the first bandpass filter ( 3 );
• d) a mixer ( 9 ) which mixes the oscillation signal of the oscillator ( 8 ) and the tone intermediate frequency signal passed through the second bandpass filter ( 1 ); and
• e) a third bandpass filter ( 2 ) connected to the output of the mixer ( 9 ) and to the input of the first bandpass filter ( 3 ), which only transmits those harmonics of the mixer output signal to the first bandpass filter ( 3 ) which have a frequency (N ) have, which are transmitted from the first bandpass filter ( 3 ) to the sound output circuit ( 10 ).

2. Tone intermediate frequency converter for a multi-standard television set according to claim 1, characterized in that the mixer ( 9 ) is switched in such a way that the second bandpass filter ( 1 ) passing frequency (N + x) through a transistor (Q1), resistors (R1, R2) and capacitors (C3, C4) is mixed with the oscillation frequency of the oscillator circuit ( 8 ). 3. Tone intermediate frequency converter for a multinorm television set according to claim 1, characterized in that the third bandpass filter ( 2 ) supplies the second harmonic (N) of the output signal of the mixer ( 9 ) to the first bandpass filter ( 3 ). 4. Tone intermediate frequency converter for a multi-standard television set according to claim 1, characterized in that the oscillator circuit ( 8 ) comprises an oscillating circuit consisting of capacitors (C1, C2) and a winding of a transformer (L1), the values of which are set such that the oscillation frequency (x) of the resonant circuit corresponds to the difference in the pass frequencies of the first bandpass filter ( 3 ) and the second bandpass filter ( 1 ).