DE2159223A1 - LINE SYNCHRONIZATION WITH SWITCHABLE TIME CONSTANT FOR A TV RECEIVER - Google Patents

Description

Line synchronization circuit with switchable time constant for one Television receiver It is known to provide a video recording apparatus for playback connect to a television receiver. This connection can be made at the antenna input socket, take place in the intermediate frequency path or in the video frequency path of the television receiver.

It is known to come from a recording device in such The line frequency is subject to fluctuations. As the line deflection of a television receiver generally with a flywheel circuit and a high control time constant works, the synchronization of the line deflection cannot handle these fluctuations resulting in a deformation of vertical edges in the reproduced image.

It is therefore known, when connecting a recording device, the Line synchronization time constant to about one tenth of its normal value to belittle. With normal television reception where the line frequency is no or is subject to only very small and slow fluctuations, however, it is advisable to that the time constant to achieve sufficient freedom from interference is large again Worth asking.

It is therefore also known (Funkschau 1969, issue 21, pages 739-742), by means of a switching voltage and switching diodes one lying in the path of the control voltage Add a capacitor to the RC element, thereby reducing the time constant of this RC element is changed. This switching g requires an intervention in the base of the RC elementE lying capacitors. However, this intervention is undesirable and guaranteed no defined relationships.

The invention is based on the object of a synchronization circuit to create with switchable time constant in which a direct connection of Capacitors is not required and the intervention on the series resistance of the RC element can be done.

This object is achieved by the invention described in claim 1 solved. Further developments of the invention are given in the subclaims.

The invention allows a loose coupling of the time constant switching amplifier and still a sufficient change in the time constant. The switching voltage is also sufficiently different in the solution according to the invention The RC element lying in the control voltage path is decoupled. If the longitudinal resistance is between the output of a high-resistance phase comparison stage and the input of a reactance stage is, the circuit according to the invention can be dimensioned so that the high resistance The output of the phase comparison stage remains practically unloaded. A switch the capacitors in the cross path of the RC element are not required.

The invention is illustrated below using an exemplary embodiment explained. FIG. 1 shows an exemplary embodiment of the invention and FIG. 2 Values for a circuit that has been tried and tested in practice.

In Fig. 1, line sync pulses 1 are a phase comparison stage 2, which are fed with flyback pulses 4 from a line deflection circuit 3 will. The output of the phase comparison stage 2 is via an RC network, the one Has series resistance 4, a capacitor 5 and another RC element 6.7, with connected to the input of a reactance stage 27, by controlling frequency and Phase of the oscillation generated in the deflection circuit 3 can be influenced. The deflection circuit 3 supplies the line deflection voltage for deflection coils or a terminal 8 Line output stage. The time constant in the path of the control voltage UR is given by the values of the components 4,5,6,7 given. She has with normal operation of the television receiver a relatively high value for wireless reception.

To switch the time constant to a lower value when connecting of a video recorder is to the ends of the resistor 4 via terminals 9,10 the input and the output of an active amplifier 11 are connected. Of the Amplifier 11 includes a transistor 12, an emitter resistor 13 and a Resistor 14. The coupling to the series resistor 4 takes place with resistors 15,16 and capacitors 17,18,19. The switching voltage U5 is from a terminal 21 applied through a resistor 20 to the base of the transistor.

This circuit works as follows: With normal television reception there is a voltage of 0 volts at terminal 21, so that transistor 12 is blocked is. The between the terminals 9,10 through the amplifier 11 now effective impedance is so great that the time constant of the network 4,5,6,7 is practical is not influenced and is of great value. The RC element 15, 17 is used to generate higher frequencies Keep components within the control voltage UR away from the input of the amplifier 11.

When connecting a recording device to the terminal 21 is a Switching voltage of + 12 volts applied, which controls the transistor 12 conductive. By the properties of the now effective amplifier 11 is between the terminals 9,10, so parallel to the series resistance 4, such an impedance effective that the time constant of the RC element lying between stages 2.27, i.e. in the path of the control voltage, is considerable is reduced, e.g. to a tenth of the normal value. The input of the amplifier is expediently designed as high-resistance as possible, e.g. as a bootstrap or Darlington circuit. The resistor 22 generates a bias voltage at the emitter for proper blocking of the transistor when the amplifier is switched off.

In the circuit according to the invention, the path for the control voltage is thus designed with two channels. During normal operation, UR only goes through resistor 4 and in the case of recording operation also via the effective between terminals 9 and 10 Impedance. A special frequency response of the amplifier 11 allows optimal Achieve relationships.

In Fig. 2, the values for the components in Fig. 1 are practical for a proven general management example shown. By a special dimensioning of the frequency sai, (; it of the amplifier 11, the circuit can be adapted to the nature of a certain signal, e.g. from an optical disk.

Claims (9)

P a t e n t a n s p r ü c h e 1. Line synchronization circuit with switchable time constant for a television receiver, in which by means of a switching voltage one in the way of the control voltage lying RC integrator an impedance can be switched in, in particular for connection of a video recording device, characterized in that parallel to the series resistance (4) of the RC element (4-7) input and output of an active amplifier (11) switched and that the switching voltage (U5) is applied to its control electrode. 2. Circuit according to claim 1, characterized in that the amplifier is designed as a pure AC voltage amplifier. 3. Circuit according to claim 1, characterized in that the input of the amplifier to the control voltage input (9) and the output of the amplifier is connected to the control voltage output (10) of the series resistor (4). 4. A circuit according to claim 3, characterized in that between the control voltage input (9) of the series resistor (4) and the input of the amplifier an RC element (15, 17) suppressing high frequencies is connected. 5. Circuit according to claim 1, characterized in that the input and output of the amplifier via capacitors (18, 19) to the ends (9, 10) of the series resistor (4) are connected. 6. A circuit according to claim 1, characterized in that the amplifier is a transistor emitter follower amplifier (12). 7. A circuit according to claim 1, characterized in that the amplifier is designed as a bootstrap circuit. 8. A circuit according to claim 1, characterized in that the amplifier is designed as a Darlington pair. 9. A circuit according to claim 1, characterized in that the frequency response of the amplifier (tD the special peculiarity of the one coming from the recording device Signal is adapted.