DE2927772A1 - TV receiver control circuit - has filter separating synchronising signal for intermediate frequency amplifier using strobing logic gate - Google Patents

Abstract

Simplified circuit for t.v. receiver prevents cable t.v. or any unapproved signals from being shown on the screen, and forms an integral part of the unit. The freewheeling oscillator is synchronised by specific signals and a suppressor blanks out the audio or video part of the receiver by a given signal. The video signal from the intermediate frequency amplifier (4) is fed to a filter (5) which separates the sync signal for applying to the logic gate (6). The other input of the gate receives pulses from an oscillator (8), and when the two inputs are simultaneously activated the gate (6) provides a strobing signal to a gate (7) and triggers it into a conductive state. This allows the video signal to be transmitted from the intermediate frequency amplifier (4).

Description

Receiver circuit for television sets

The invention relates to a receiver circuit for a television set for receiving television signals according to the preamble of claim 1.

Regulatory technical regulations for television broadcast receivers make it necessary that additional technical measures are provided in the devices that prevent the unauthorized reception of broadcasts from other radio services, without the reception frequency range having to be restricted accordingly. The latter is not desirable, for example, if the same television set is used for reception of television broadcast signals transmitted in special areas, e.g.

Cable television, should be used. In these cases it should be avoided that radio signals from broadcasts that are not approved are received via the receiving antenna can be. The sound and / or image part of the receiver should be switched off if there is no standardized television signal at the input. One for this The technical measure envisaged is also intended to ensure that they do not can be made ineffective with little effort.

Starting from the commonly used receiver circuits like them are listed in the preamble of claim 1, and taking into account the the aforementioned technical conditions that are placed on modern television receivers are, the invention is based on the object of providing a circuit arrangement in a Provide receiver circuit that meets the requirements met and is characterized by a particularly simple structure that is integrated into existing Components of the device can be integrated without significant additional costs for the end user.

The object is according to the invention according to the characterizing part of the patent claim 1 cited technical teaching solved.

By comparing the phase of the demodulated synchronous signal with the Sync pulse generated by the oscillator in a logic gate it is ensured that the video signal that is present at the IF amplifier output is only is switched through to the other receiver circuits if the free-running Oscillator synchronizing signal is present during normal operation. Does it in the synchronizing signal according to claim 2 to the horizontal synchronizing pulse, this ensures that only then is the electronic current gate switched to the conductive state when the horizontal sync pulse is applied and the one emitted by the oscillator Horizontal pulse is applied to the second input of the logic gate. The logical one Gate works according to the AND function. The logic gate can e.g. in DTL technology, TTL or through integrated injection logic, emitter-coupled logic, NMOS logic and other known circuit techniques. The electricity gate is through a switching transistor or formed from another electronic switching element, e.g. a keyed control amplifier.

Advantageous developments of the invention are in the subclaims described.

The invention is illustrated below with reference to FIGS. 1 and 2 Embodiments explained in more detail.

In Fig. 1, the essential assemblies are in the form of a block circuit a receiver circuit for a television receiving device shown, for explanation of the invention are necessary.

Generally known associated circuits, such as power supply, Receiver circuits that are used to generate the necessary supply voltage for the synchronous oscillator are necessary, as well as the tilting part, color part and sound part of the TV set are not shown.

The television signal is sent to the channel selector via antenna input 1 2, which is essentially the tuner required for reception and the setting elements for setting the various tuning voltages.

The channel selector 2 is followed by an IF filter 3 and an IF amplifier 4. The tuners in the channel selector 2 are drawn from the IF amplifier 4 by the Return line regulated by means of a generated control voltage. The IF amplifier includes in addition, the necessary circuits for generating the control voltage as well the IF synchronous demodulator for the video signal generation from the output of the IF amplifier 4 can be tapped. On the circuit details that are commonly found in an IF amplifier are still necessary, will be discussed later with reference to FIG. Essential to the invention is now that the video signal present at the output of the IF amplifier 4 is not direct for signal processing passed to the remaining receiver circuits but via a stream gate 7, which is controlled by a logic gate (AND gate) 6 is controlled. For this purpose there is the video signal that is at the output of the IF amplifier pending, on an amplitude sieve 5, which is set so that a certain, in this case the horizontal sync pulse is filtered out. This impulse occupies the first input of logic gate 6 and synchronizes at the same time the free-running horizontal oscillator 8. At the second input of the logic gate 6, a pulse 9 generated by the horizontal oscillator 8 is present. Since between adjacent If pulses are in phase, the logic gate generates a clock pulse to control the power gate 7 issued.

The power gate is switched on and switches the video signal by. The subsequent circuits cause the image and sound processing. Is there a television signal with no standard-compliant synchronizing signal, then the amplitude filter 5 also no pulse while the horizontal pulse from the horizontal oscillator is applied 8 are present. The logic gate 6 remains blocked, as does the stream gate 7, so that the signal to the receiver circuits is not switched through. Thereby are but it also fulfills the requirements set out at the beginning. The receiving circuit can only be effective if a certain sync pulse, au5 the circuit is designed, is present. This is only for standardized television signals the case.

In the embodiment of FIG. 2 are essentially the same Building blocks included. Channel selector 2 is located at antenna input 1 and at its output the IF filter is switched on. The output of the IF filter is one in one Integrated circuit arranged regulated IF amplifier 8 connected.

To generate the voltage for automatic frequency correction the IF signal present at the output of the IF amplifier 8 for the purpose of obtaining a Reference signal applied to the reference signal circuit 1i. The reference voltage gained is on the one hand to a synchronous demodulator for the AFC signal generation and on the one hand put another to a phase shifter. Works through appropriate external wiring the synchronous demodulator like a frequency discriminator.

The synchronous demodulator 13 is used for this purpose in the reference circle screened out image carrier oscillation directly and on the other hand via the frequency dependent phase shifter 12, which, if the receiver is correctly tuned, i.e. both video carrier frequency = 38.9 MHz just causes a phase shift of f 900. The synchronous demodulator 13 then supplies the corresponding AFC signal at the output, which is superimposed on the adjustable tuning voltage U.

The reference signal obtained in the reference signal circuit 11 becomes used for synchronous demodulation of the picture IF signal, which is in frequency and Phase coincides with the unmodulated video carrier components contained in the IF signal. For this purpose, the IF output signal is used in the reference signal extraction circuit 11 reinforced the image carrier component with a sufficiently narrow-band filter sifted out and then limited. The phase modulation is due to the filtering down to a no longer disturbing remainder and by the limitation the residual amplitude modulation eliminated. With the reference signal obtained in this way, the IF synchronous demodulator 9 regulated for the video signal generation. That at the exit The video signal that is present can be fed to the other receiver circuits. In order to regulate the IF amplifier 8 as a function of the video signal this is amplified in amplifier 14 and fed to a keyed control amplifier 15. The gated control amplifier is controlled by the horizontal pulses 9, which are present via input 18. The sampled amplified signals are in a control voltage conditioning circuit 16 processed so that they on the one hand as a control voltage for the IF amplifier 8 and on the other hand as a control voltage for the automatic gain control of the external channel selector can be used can. What is essential to the invention is that the applied horizontal sync pulses 9 simultaneously serve to control the logic gate 6, at the second Input the horizontal synchronizing signals sifted out of the video signal by an amplitude sifter 5, which synchronize the external horizontal oscillator at the same time, are present.

If both inputs are occupied, an outgoing signal causes the Stromtor 7 switched on and the applied video signal to the preamplifier 10 switched through. At output 17 of the preamplifier is the video signal for the Signal processing circuit can be tapped in the television set. All in the block diagram The assemblies shown are - with the exception of the channel selector and the IF filter - Combined in an integrated circuit. It can be seen that the for the components 5, 6 and 7 necessary for the invention in this integrated circuit can also be introduced without a substantial effort must The circuit thus meets all requirements that are placed on it, Without a noticeable surcharge and additional external effort necessary is. A prerequisite, however, is that the keyed control is dependent the tactile signals takes place, which is synchronized by the received sync signal should be.

Claims (5)

Claims 2.y receiver circuit for a television set for reception of television signals with a channel selector connected to an antenna, a Intermediate frequency amplifier, a free-running one from certain sync pulses the received synchronizing signal synchronizable oscillator and a signal or system-related muting, which switches off the sound and / or picture part of the receiver, if there is no standardized television signal at the antenna input, then it is e k e n n n n e i c h n e t that from the video signal amplified by the IF amplifier (4) the synchronous signal is filtered out by an amplitude filter {5), which the free-running Oscillator (8) synchronized and at one input of a logic gate (6) is present, at whose second input the pulses of the oscillator (8) are present, and that with simultaneous application of both pulses from the logic gate (6) a key pulse is delivered, which a Stromtor (7) keys conductive that the video signal to the the IF amplifier (4) following known device circuits through. 2. Receiver circuit according to claim 1, d a d u r c h g e k e n n z e i c h n e t that from the received sync signal the horizontal sync pulse screened out and in the logic gate (6) with the synchronized horizontal pulse (9) of the horizontal oscillator (8) is compared, which is when the phase positions match of both impulses emits the tactile impulse. 3. Receiver circuit according to claim 1, d a d u r c h g e k e n n z e i c h n e t that from the received sync signal the vertical sync pulse sifted out and with the synchronized vertical pulse of the vertical oscillator is compared in the logic gate, which when the phase positions match emits the key pulse of both pulses. 4. Receiver circuit according to one of the preceding claims, d a d u r c h e k e n n z e 1 c h -n e t that the controllable power gate from a keyed Amplifier is formed, which depends on the applied to the logic gate Impulses is sampled. 5. Receiver circuit with an intermediate frequency amplifier with integrated Circuit components for image IF processing with one of the horizontal pulses keyed control circuit, d u r c h e k e n n n z e i c h n e t that in the common circuit the amplitude filter and the logic gate are integrated, the necessary horizontal pulses from the oscillator are applied to its second input1 and that the output of the logic gate with a also integrated keyed Control amplifier is connected, which is controlled by the tactile pulses.