DE1945004C3 - Phase comparison circuit for synchronizing the line deflection in a television receiver - Google Patents

Description

A phase comparison circuit is used to synchronize the line deflection in a television receiver. on the one hand with a comparison pulse having a sloping edge and on the other hand with a key pulse is fed and by phase comparison of these pulses a control voltage for the Supplies reactance stage of the line oscillator. The comparison pulse is thereby differentiated from the Line sync pulse or the return line pulse, while the return line pulse as a key pulse or the line sync pulse is used.

The phase comparison circuit generally consists of a symmetrical phase discriminator with a push-pull winding and two rectifier sections, each with a diode.

It is also known - see e.g. B. the DT-AS 12 66 343 or the DT-AS 10 05 575 -, the comparison pulse via to feed a capacitor to a circuit point, which is periodically over a by the key pulse permeable controlled switch is grounded and the control voltage for the synchronization via a filter element of the oscillator supplies. This switch generally consists of two diodes with load networks, which are controlled by strobe pulses of opposite polarity SS. This circuit is proportionate expensive because it requires several resistors and capacitors.

It is also known to form said electronic switch by a transistor connected to the &> Basis is controlled by the touch pulse.

The invention is based on the object of improving the last-mentioned circuit in such a way that the symmetry of the control voltage generated as a function of the frequency deviation and the control slope ⁶ S are improved.

This object is achieved by the invention characterized in claim 1

The two complementary transistors ensure that said circuit point for positive and negative components of the comparison pulse is equally well grounded. One transistor causes the Earthing of the circuit point for the positive and the other transistor for the negative parts of the Comparison pulse. This achieves a particularly good symmetry of the control voltage generated The complexity of the circuitry is low and applies particularly to integrated circuits where the Realization of a further transistor hardly represents any additional effort the known circuit with two diodes mentioned, which also has the symmetry mentioned, is the The cost of resistors and capacitors for the load networks is reduced because of the invention the two transistors can be located directly between said node and earth.

The invention is explained below with reference to the drawing

F i g. 1 shows a circuit example of the invention and F i g. 2 impulses to explain the mode of operation.

In Fig. 1, a line sync pulse 2, which is at a terminal 1 and separated from the video signal, is converted in an AC element 3 by differentiation into a comparison pulse 4 with a sloping edge, which is fed to a circuit point 6 via a capacitor 5. The circuit point 6 supplies a control voltage Ur via a filter element 7 at point 14 to synchronize a line deflection circuit 8. Between the circuit point 6 and earth, a switch is provided which, according to the invention, consists of the parallel connection of the collector-emitter paths of two complementary transistors 9, 10 consists of a winding 11 of the line deflection circuit 8, the transistors 9,10 are controlled by strobe pulses 12, 13 of opposite polarity at their bases

The mode of operation is illustrated in FIGS. 2 explained As long as the transistors 9, 10 are impermeable, there is no control voltage at point 14, because the filtering of the symmetrical comparison pulse 4 in the RC element 7 does not result in any voltage and connect node 6 to earth. Depending on the time between the pulses 4 and 12, 13, the capacitor 5 charges up to a greater or lesser extent. If, for example, the pulses 12, 13 shift to the left relative to the comparison pulse 4, a charging current flows through the capacitor 5, which charges it in such a way that a positive voltage is created on its left electrode Charge is transferred into the capacitor of the filter element 7, whereby a negative control voltage Ur is formed here. When the probe pulses 12, 13 are shifted in the opposite direction, the control voltage becomes positive.

For a symmetrical control voltage characteristic, point 6 must be replaced by pulses 12, 13 both for positive and negative components of the comparison pulse 4 are properly grounded. This is done through the Invention achieved by the complementary transistors by the transistor 9 essentially for positive voltages and transistor 10 essentially for negative voltages at point 6 is effective so that both are properly grounded.

The diodes 15.16 in series with the collector-emitter

Routes of the transistors 9, 10 serve to protect the collector-emitter routes against excessively high reverse voltages at point 6 to protect. For example, if the voltage at point 6 becomes very negative, the The base-emitter path of the transistor 9 can be controlled in the reverse direction until the breakdown Point 6 grounded undesirably through the collector-emitter path of transistor 9 Except for one Endangerment of the transistor is thereby impaired the effect of the circuit The diode 15 is now in in this case non-conductive and prevents the negative voltage from reaching transistor 9 Diode 16 works in the same way. The resistor 17 is used to the base emitting switching current of the Transistors 9, 10 to limit, since the winding 11 is a low-resistance voltage source Winding 11 must have a grounded center tap the base of the transistor 10 is also a resistor.

1 sheet of drawings

Claims (4)

Patent claims: 1. Phase comparison circuit for synchronizing the line deflection in a television receiver, in which a comparison pulse with a sloping edge is transmitted via a capacitor Circuit point is fed via a transistor switch opened by a tactile pulse connected to earth and via a filter element to the> o synchronization input of the deflection circuit is, characterized in that the transistor switch from the parallel connection of the Collector-emitter paths of two complementary transistors (9,10), which at their bases' 5 are controlled simultaneously permeable by two tactile pulses (12, 13) of opposite polarity. 2. A circuit according to claim 1, characterized in that in each case in series with the collector-emitter path a permeable diode (15,16) is located when the transistor (9,10) is controlled to be permeable 3. A circuit according to claim 1, characterized in that the bases of the two transistors (9, 10) are connected to the ends of a winding (11) of the flyback transformer. ¹ p 4. A circuit according to claim 3, characterized in that between the one base and the Winding (11) has a resistor (17)