DE1803631A1 - Circuit for synchronizing a vertical deflection circuit - Google Patents

Description

TE L EPUNKEF

Patent collecting society ι ο η ο c ο ι ·

ν ττ I ο U O D 0 I

m.b.H.

Ulm / Danube
Elisabethenstrasse 3

Hanover, * 11. Oct. 1968 ZE / PT-Wp / Kr. W 7782

Circuit for synchronizing a vertical deflection circuit

Vertical deflection circuits for television receivers generally include a charging capacitor that is over during the trace time a charging resistor is charged slowly and during the deceleration time via a switch parallel to the charging capacitor is discharged quickly. By feedback from the output electrode of the circuit to a control electrode of the switch such a circuit can be designed to be self-oscillating. The synchronization is generally done in that this control electrode a trigger pulse obtained from the vertical sync pulse by integration is supplied. Line frequencies by coupling Pulses from the line deflection coil to the image deflection coil can be reached very easily via the aforementioned Ruc & coupling path line-frequency pulse to the control electrode of the switch and thereby disturb the line jump. If the control electrode is e.g. by; ground a capacitor or for the line frequency, so is the Aue Ib * seimpul β is also undesirably deformed by this capacitor «

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SAD ORIGfNAL

in which the trigger pulse directly corresponds to the one with the control electrode End transistor of the deflection circuit connected charging capacitor fed will. This circuit has the disadvantage that during the Interference voltages occurring during the run-out time a control of the output transistor and thus cause a speed modulation of the electron beam in the vertical direction.

It is also a circuit is known (German Patent Specification ⁰ 995 AO) ■> ψ wherein said feedback path to the grating and the trigger pulses are applied to the cathode of a grounded via a resistor serving as a switch triode. In this known circuit, however, the Auslöseimpuls.via the charging capacitor also acts on the control electrode of the output tube, so that interference pulses can cause undesired control of the output tube. In addition, inaccuracies in the synchronization time and thus in the interlace can occur because the interference pulses and line-frequency residual pulses usually present in the trigger pulse reach the control electrode t of the switch.

The invention is based on the object of modifying this circuit in such a way that that the accuracy of the synchronization time and thus the quality of the interlace are improved.

This object is achieved by the invention characterized in claim 1 solved.

• The invention results in the following advantages; "Qm Veratarkerelement with the Sckwellwert" causes aunäefost. That the between the trigger pulses below the ^ eliwsllwerbes

INSPECTED

.: ■. = ■ - :::> - ::! ■;: l |: i :: i !! lll:!: Li! | J ■ .i :: ^| : ^i::! l :: ^I .. "■ ■ ^ = ÎÎÎÎÎ-IH ¹ - - | Ι>: ΐΐ: ΐ | ΙϋΙΙ

- 3 - V 77S2

low line-frequency residual pulses are not allowed to pass and cannot interfere with the synchronization. In addition, the generally misshapen, subject to disturbance, becomes through integration The trigger pulse obtained from the vertical synchronizing pulse is converted into a defined rectangular trigger pulse, the is less subject to interference. Through the differentiation, this impulse is converted into a short needle impulse, the

"particularly ine timely triggering the vertical deflection and thus effects a good interlace. By separation of * synchronizing and feedback electrode (cathode and control grid) may optimum conditions are created for the suppression of rows residues at the control grid on the one hand and for accurate synchronization at the cathode on the other. The amplifier element hardly increases the cost of the circuit compared to the conventional effort, since suction circuits (expensive inductances) and low-pass filters for suppressing line residues in the synchronization path or via the feedback path are saved.

The invention is explained below with reference to the drawing. ' Show in it

Fig. 1 shows a circuit example of the invention and

Fig. 2 curves to explain the mode of operation. The small letters indicate at which points in Fig. 1 the stresses after FIg * 2 stand.

Fig. 1 rises with a self-oscillating vertical deflection circuit a charging capacitor 1, a charging resistor 2, a coupling capacitor 3 »an output tube 4, an RC element 5 for generation

009833/1640 - 4 -

- 4 -. W 7782

the grid bias voltage of the tube 4, a grid discharge resistor 6, an output transformer 7> deflection coils 8, a feedback path with capacitors 3 ^ 0 and resistors 11,12 as well as a frequency-determining RC element 13 ₅ 24 and a triode 14 serving as a switch for discharging the charging capacitor 1 · Whose cathode is grounded via a resistor 15. The circuit described so far is known.

The synchronization according to the invention of this _{circuit, which is designed to be self-oscillating through the path 9 »11 r} ^ 10,12, takes place from a terminal 16 via a transistor 17, whose base is grounded via a resistor 18 and its collector via a resistor 19 the cathode of the end tube 4, serving as the operating voltage source, is connected to the cathode of the triode 14 via a capacitor 20. The mode of operation is explained with reference to FIG. '

The integration of the vertical sync pulse is available at terminal 16 trigger pulses obtained according to FIG. 2a. The transistor 17 has a threshold value IL at which it becomes conductive negative pulses arise at the collector according to FIG. 2b in a defined form. The amplifier element thus suppresses between the Line-frequency residual pulses 21 lying next to pulses according to FIG. 2a as well as other glitches. By that from the capacitor 20 and The differentiator formed by the resistor I5 are the pulses differentiated according to FIG. 2b, so that needle-shaped pulses according to FIG. 2c reach the cathode of the triode 14. The negative one The needle-shaped pulse 22 triggers the circuit at a precisely defined point in time because this pulse is the triode

50 9 8 3 3V1 β L 0
This release is therefore very precise in terms of time,

OfWGiNAL INSPECTED

■ mini pi

- 5 - W 7782

because the needle-shaped pulse 22 is very short. The positive one needle-shaped pulse 23, however, has no effect because he does not control the triode 14 conductive. For this reason, there are also time shifts in the trailing edge of the pulse according to Fig. 2b has no effect on the time of triggering. The on the terminal 16 standing pulse according to Fig. 2a is therefore more advantageous Way, before it arrives at the cathode of the triode 14 for triggering, it is shortened twice, once by the threshold value circuit 17 and on the other hand through the differentiation with j the RC element 15.20.

009833/1640

Claims (3)

- 6 - W 7782 patent claims lie 1. Circuit for synchronizing a vertical deflection circuit, especially in a television receiver, with a charging capacitor and an electronic switch lying parallel to it, the to a control electrode grounded via a resistor by a trigger pulse derived from the vertical sync pulse is controlled, A characterized in that the trigger pulse is fed to an amplifier element (17) with a threshold value (Π,.) And its output terminal carrying a rectangular trigger pulse (b) is connected to the control electrode of the switch (14) via a capacitor (20) of such dimensions, that this forms a differentiating element for the rectangular trigger pulse (b) with the resistor (15). 2. A circuit according to claim 1, characterized in that the voltage at the over as operating ^ voltage for the amplifier element (17) an RC element (5) grounded cathode of the deflection coils. (8) dining End tube (4) is used. 3. A circuit according to claim 1, characterized in that, in a self-oscillating circuit, a capacitor (24) located in the feedback path sum switch (14) is dimensioned so large that it suppresses line-frequency excitation pulses * 009113/1148