DE2602035C2 - Start-up circuit for a television receiver with receiver circuits separated from the mains potential - Google Patents

Description

The invention relates to a start-up circuit for a television receiver which is separated from the mains potential Receiver circuits according to the preamble of claim 1.

The power supply of the receiver circuits in modern receiving devices can also be via the Line transformer take place, whereby significant advantages are given. On the one hand, the device can do without costly additional circuits are galvanically isolated from the alternating current network, on the other hand for the low-voltage generation no larger power transformers necessary. Appropriately, are those generated by the horizontal deflection generator Current oscillations are dimensioned in terms of their frequency and amplitude in such a way that, on the one hand, the generation of the magnetic field in the deflection coil and, on the other hand, also sufficient reactive power Active power are present. For implementation it is provided that the rectifier circuit of the power supply with is connected to the horizontal deflection generator, which can only commutate when the line oscillator is working. To do this, the line oscillator, which operates during normal operation of the circuit, must be used receives its operating voltage from the flyback transformer, a starting voltage can be applied.

In other known device circuits isolated from the mains with a thyristor horizontal deflection generator from a forward and a return switch, ίο which has a series inductance and a storage capacitor are connected to one another and have a flyback transformer on the output side, the Mains disconnection made via the series inductance. Partly also from the input side necessary storage inductance auxiliary voltages tapped from an additional secondary winding. In In any case, it is necessary to start the circuit that the driver stage is from an oscillator is controlled. After the start-up, the oscillator must be synchronized with the line frequency.

From DE-AS 23 39 583 a start-up circuit with a switch with wiper contact is known, which during the actuation of the pushbutton switch briefly closes after closing the mains contacts and during a an operating voltage to start up the control circuit of the horizontal deflection generator durchschaitet, the wiping contact opens again with or before the end of the actuation, so that the power supply of the control circuit of the Horizohtalablenkgenerators exclusively via the Line transformer or another voltage source can be done. It goes without saying that the starting point required voltage must be tapped from a power supply unit.

This solution can be considered satisfactory if it is assumed that the Operator always requires the same switch-on time. In certain tolerance ranges, the function is also still ensured, but no longer when switched on very quickly, as one has to start up first necessary voltage must be stored. If you want to be independent of the operating time of the operator be, the switch must have a rather complex mechanism that causes a time delay of the Connection enabled independently of the push of a button, or an electronic delay element built in be. In order to avoid these disadvantages, an electronic circuit has been developed in which the Horizontal deflection generator initially controlled by a free-running oscillator via a transformer which generates the control pulses necessary for control and dem. via a driver stage Horizonlaloszillator supplies. At the output transformer of the horizontal deflection generator, the for Power supply of the synchronized horizontal oscillator necessary operating voltage removed. the Control pulses present on the output side of the horizontal oscillator become the free-running, synchronizable Oscillator supplied as synchronization pulses.

This usually occurs phase jumps that appear visibly on the screen, what as is perceived as annoying. In addition to this disadvantage, there is another one from a structural point of view, since both the synchronizable, free-running oscillator and the horizontal oscillator designed as synchronous oscillators must be.

The invention is based on the object of designing a control circuit so that a phase

jump is always excluded and a particularly simple overall circuit is achieved.

The object is achieved according to the teaching given in the characterizing part of claim 1.

Advantageous further developments of the invention are given in the subclaims.

The invention assumes that to control the horizontal deflection generator by the synchronized Horizontal oscillator only ever receives one control pulse, so that phase jumps from the start be avoided. The free-running oscillator required for starting is also not a synchronous oscillator designed

The invention is described below with reference to the figures shown in the drawing. In the Drawing shows

1 shows a known circuit arrangement for controlling a thyristor horizontal deflection generator from a forward and a return switch, which are connected to each other in a known manner Lind and the Build generator, and

F i g. 2 shows a circuit designed according to the invention for controlling a thyristor horizontal deflection circuit.

A thyristor horizontal deflection generator is used both in the known and in the embodiment according to the invention chosen, although the invention is also applicable to other deflection generators, e.g. B. transistor deflection circuits, is applicable.

The known circuit according to claim 1 shows a deflection generator consisting of a flow switch 1 and a return switch 2, which consists of a commutation thyristor 3 and an anti-parallel diode 4, soft switches 1 and 2 are connected to one another via a series inductance 5 and a storage capacitor 6. Other components that are normally present are not shown for the sake of simplicity. The deflection generator is fed by a voltage source Ub 1 via a storage inductance 7. On the output side, the deflection generator is connected to a flyback transformer 8, to whose primary winding 9 a tangent correction capacitor 10 is connected in series. The illustrated secondary windings 11 and 12 form z. B. a high voltage winding and a supply voltage winding. The primary winding 9 is also connected to a rectifier 13, which serves to rectify the supply voltage for the horizontal oscillator 10, which can be synchronized via a synchronous input 15 of line-frequency pulses. The rectified voltage is smoothed by means of a capacitor 16. The output side of the horizontal oscillator 14 is connected to a transformer 17 via which the synchronized control pulses are transmitted during normal operation. When the device is switched on, ie when the voltage Ub 1 and the second supply voltage Ub 2 are applied to a free-running, but synchronizable oscillator 18, the operating voltage is switched through to both the deflection generator and the free-running oscillator 18. This is done for the free-running oscillator 18 via the resistor 19. The free-running oscillator 18, which is connected to a feedback winding 20 of a transformer 21, starts to oscillate automatically.

The pulses present on the output side are generated by means of the primary winding 22 of the transformer 21 the secondary winding); 23 transmitted via a Capacitor 24 is connected to the drive electrode of the commutation thyristor and via the the thyristor 3 is controlled by the free-running oscillator 18. A start-up thus takes place independently whether the line oscillator is working or not; furthermore regardless of whether the generator is line-synchronized is or not. When the deflection generator starts up the isolated circuit, the supply voltage constructed for the horizontal oscillator 14 so that it begins to oscillate. His synchronized output pulses are used to synchronize the free-running oscillator 18 and are fed to this via a synchronization input. Usually occurs during the initial synchronization Phase jump, which can be so large that the deflection generator switches off when the deviation between line and oscillator frequency is very large. In any case, the phase jumps on the Screen visible in the form of annoying image distortions. According to the invention, one is to avoid this Circuit according to FIG. 2 suggested.

The deflection generator consists of a storage inductance 7, a return switch 4 with a commutation thyristor 3 and an anti-parallel connected diode 4 and a series inductance 5. a storage capacitance 6 and a ramp switch 1 and a flyback transformer 8 with a primary winding 9, a series-connected tangent correction capacitor 10, which Flyback transformer 8 has on the output side, for example, a high-voltage winding 11 and one or more secondary windings 12, via which the device circuits are supplied with energy. When the device is switched on, the supply voltages Ub 1 and Ub 2 are applied to the unit, namely Ub, to the deflection generator and Ub 2 via a resistor 10 to a free-running, but not synchronizable, free-running oscillator 18. B. is designed as a simple blocking oscillator. The free-running oscillator has a feedback winding 20. The pulses present on the output side are transmitted by the transformer 21 and rectified by means of a downstream diode 25 and stored in a capacitor 26. The DC voltage obtained in this way serves as a start-up supply voltage for the synchronizable horizontal oscillator 14, which is synchronized by line pulses via the synchronous input 15. This oscillator 14 controls via a driver stage, which is integrated in this case, via an interposed capacitor 24 for pulse shaping, the commutation thyristor 3 via its control electrode. It can be seen that already when switching on - after the free-running oscillator 18 and the immediately synchronized horizontal oscillator 14 have started to oscillate - the horizontal deflection generator starts synchronously at line frequencies. In order to ensure a particularly low energy transfer via the transformer 21, it is provided that only a minimal starting voltage for the horizontal oscillator is generated via the control circuit. During operation of the television set, the operating voltage supply of the horizontal oscillator can be carried out from the flyback transformer in a further embodiment according to the dashed connection shown, in such a way that an operating voltage is tapped from a secondary winding 12 which, after rectification by a diode 27, is superimposed on the lower starting voltage and the Horizontal oscillator 14 is supplied. Diodes 25 and 27 are like this

switched so that they decouple the two voltage sources from each other. Of course, the Operating voltage supply also exclusively for the Honzontal oscillator 14 via the free-running Generator 18 take place.

1 sheet of drawings

Claims (4)

Patent claims: 1. Start-up circuit for a television set with receiver circuits separated from the mains potential with a Horizontalablenkgenerator, the line frequency of a horizontal oscillator over a Driver circuit is controlled and connected to a flyback transformer through which the Active power for the energy supply of the receiver circuits, including the control circuits of the Horizontalablenkgenerators, which Horizontalablenkgencrator at Switching on the device is triggered by a free-running oscillator, which is galvanically triggered by the Horizontal deflection generator is separated by an output transformer, characterized in that that the tapped from the output transformer (2i) of the free-running oscillator (18) Voltage rectified and used as the start-up supply voltage for the driver stage of the horizontal deflection generator controlling horizontal oscillator (14) synchronized with the received sync pulses. 2. A circuit according to claim 1, characterized in that the flyback transformer (8) is a Voltage is tapped and rectified, which is slightly greater than the start-up supply voltage and this is superimposed and applied as operating voltage to the horizontal oscillator, the two Voltage sources are decoupled from one another via decoupling diodes (25, 27). 3. Circuit according to one of the preceding claims, characterized in that as a free-running A blocking oscillator is used. 4. A circuit according to claim 2, characterized in that the operating voltage for the power supply of the horizontal oscillator after starting the deflection generator from an inductive winding that is separated from the mains potential Component (5, 7) of the deflection generator is tapped.