DE2602035A1 - START-UP CIRCUIT FOR A TV RECEIVER WITH RECEIVER CIRCUITS SEPARATED FROM THE NETWORK POTENTIAL - Google Patents

Abstract

The output transformer (8) of the horizontal deflection generator carries the effective power necessary to supply the receiver circuits. The horizontal deflection generator is controlled by a horizontal oscillator (14) at line frequency. When the device is switched on, the voltage for the horizontal oscillator (14) is supplied by an output transformer (21) of a free-running (i.e. it cannot be synchronised) oscillator (18). The voltage at the output transformer (21) of the free-running oscillator (18) is rectified before it is supplied to the horizontal oscillator (14). Perturbing phase jumps when the device is switched on are avoided because only the horizontal oscillator is synchronised. <IMAGE>

Description

Start-up circuit for a television receiver with from

Receiver circuits isolated from mains potential The invention relates to a start-up circuit for a television receiver with separated from the mains potential Receiver circuits with a horizontal deflection generator, the over one of one Ilhorizontal oscillator line-frequency controlled driver stage can be triggered via its output transformer, preferably the line transformer, the active power for the energy supply of the receiver channels, in particular the control stage of the horizontal deflection generator, which orizontal deflection generator triggered by a free-running oscillator when the device is switched on, which is galvanically separated from the horizontal deflection generator.

The power supply of the receiver circuits in modern receiving devices is known to be ensured via the flyback transformer, which makes essential Advantages are given. On the one hand, the device can be used without complex additional circuits be galvanically separated from the alternating current network, on the other hand for the low voltage generation no larger network transformers necessary. Appropriately are the from the horizontal deflection generator generated current oscillations in their frequency and Amplitude dimensioned such that, on the one hand, the generation of the magnetic field Reactive power required in the deflection coil and, on the other hand, also sufficient Active power are present. For implementation it is provided that the rectifier circuit of Power supply is connected to the horizontal deflection generator, which can only commute when the line oscillator is working. For this must to the line oscillator, which operates during normal operation of the circuit receives its operating voltage from the flyback transformer, a starting voltage is applied will.

In other known device circuits isolated from the mains with a 'Thyri stor-ro rizontal.abl enkgenerator from a return and a return switches connected to one another via a series inductance and a storage capacitor are connected and have a flyback transformer on the output side, the Mains disconnection made via the series inductance.

In some cases, the storage inductance required on the input side is also used Auxiliary voltages tapped from an additional secondary winding. 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 at the line rate will.

From the DT-AS 2 339 583 is a start-up circuit with a switch known with wiper contact, which during the actuation of the pushbutton switch after Closing the network contacts briefly closes and closes for a defined period of time an operating voltage for starting the control circuit of the horizontal deflection generator switches through, with or before termination of the actuation of the wiping contact again opens, so that the power supply of the control circuit of the horizontal deflection generator exclusively via the flyback transformer or another voltage source can. It goes without saying that the voltage required for starting is provided by a power supply unit must be tapped.

This solution can be considered satisfactory when assumed is that the operator always needs the same switch-on time. In certain The function is also ensured within tolerance ranges, at very fast speeds However, it is no longer switched on, as the voltage required for start-up is stored first must become. grill one can be independent of the operating time of the operator, so the switch must have a rather complex mechanism that has a time delay the connection independent of the push of a button, or an electronic one Delay element be built in. To avoid these disadvantages, an electronicc Schalt has been developed in which the horizontal deflection generator initially from a free-running oscillator is controlled via a transformer, which is responsible for the control Necessary control pulses generated and the horizontal oscillator via a driver stage feeds. At the output transformer of the horizontal deflection generator is then used for Power supply of the synchronized horizontal oscillator necessary operating voltage removed. The control pulses on the output side of the horizontal oscillator are used as synchronization pulses for the free-running, synchronizing oscillator fed. Phase jumps usually occur, which are visible on the screen step into what is perceived as disturbing. Besides this disadvantage there is another from a structural point of view, as both the synchronizing, free-running The oscillator and the horizontal oscillator are designed as synchronous oscillators must be.

The invention is based on the object of providing a control circuit so to conceive that a phase jump is always excluded and one special simple overall circuit is achieved.

The object is achieved in accordance with what is specified in the sign of claim i Teach.

Advantageous further developments of the invention are set out in the subclaims reproduced.

The invention assumes that to control the horizontal deflection generator due to the synchronized horizontal oscillator there is always only one control pulse, so that phase jumps are avoided from the outset. It is also ready to start necessary, free-running oscillator not designed as a synchronous oscillator.

The invention is illustrated below with reference to the in the drawing Figures described.

In the drawing: FIG. 1 shows a known circuit arrangement for Control of a thyristor horizontal deflection generator from a trace and a Return flow switch, which are connected to one another in a known manner, and the generator form, and FIG. 2 shows a circuit designed according to the invention for controlling a Thyristor horizontal deflection circuit.

Both in the known and in the embodiment according to the invention a thyristor horizontal deflection generator is chosen, although the invention also applies other deflection generators, e.g., transistor deflection circuits, is applicable.

The known circuit according to claim 1 shows a deflection generator from a forward switch i and a J? ücklauf switch 2, which consists of a commutation thyristor 3 and an anti-parallel diode 4, which switches i and 2 via a series inductance 5 and a storage capacitor 6 are connected to one another. Other components that are normally present are not shown for the sake of simplicity.

The deflection generator is fed by a voltage source UB1 a storage inductance 7. The output side is the deflection generator with a flyback transformer 8 connected, a tangent correction capacitor in series with its primary winding 9 OK is switched. The illustrated secondary windings 11 and 12 form e.g. High voltage winding and a supply voltage winding. The primary winding 9 is also verblmdenfi with a rectifier 13 for rectifying the supply voltage for the horizontal oscillator 10 is used, which via a synchronous input 15 of line-frequency pulses can be synchronized. The rectified voltage becomes smoothed by means of a capacitor 16. The horizontal oscillator 14 is on the output side connected to a transformer 17, via which the synchronized control pulses transferred during normal operation. When the device is switched on, i.e. when there is an issue the voltage UB1 and the second supply voltage UB2 on a free-running, however, synchronizable oscillator 18 is connected to both the deflection generator as well the operating voltage is switched through to the free-running oscillator 18. This is done for the free-running oscillator 18 via the resistor 19. Derfreilaufende Oscillator 18 connected to a feedback winding 20 of a transformer 21 is, oscillates automatically.

The pulses on the output side are generated by means of the primary winding 22 of the transformer 21 is transferred to the secondary winding 23, which is via a capacitor 24 is connected to the control electrode of the commutation thyristor and via which the thyristor is controlled by the free-running oscillator 18.

A start-up therefore takes place regardless of whether the line oscillator works or not regardless of whether the generator is line synchronized or not. When the deflection generator starts up, the circuit is isolated from the mains the supply voltage for the horizontal oscillator 14 built so that this begins to vibrate. Its synchronized output pulses are used for synchronization of the free-running oscillator 18 and are this via a Smchronisiereingang fed. As a rule, a phase jump occurs during the initial synchronization, which can be so large that the deflection generator switches off when the deviation between Line and oscillator frequency is very high. In any case, the phase jumps visible on the screen in the form of annoying image distortions. To avoid a circuit according to FIG. 2 is proposed according to the invention.

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 capacity 6 and a run-out switch 1 and a flyback transformer 8 with a primary winding 9, one connected in series Tangent correction capacitor 10, which flyback transformer 8 on the output side e.g. has a high-voltage winding 11 and one or more secondary windings 12, about the the Power supply of the device circuits made will. When the device is switched on, the supply voltages UBI and UB2 to the unit, namely to UBI to the deflection generator and UB2 via a Resistor 10 to a free-running, but not synchronizable, free-swinging one Oscillator 18, which is designed, for example, as a simple blocking oscillator. The free-swinging one The oscillator has a feedback winding 20. The ones on the output side Pulses are transmitted through the transmitter 21 and by means of a downstream Diode 25 rectified and stored in a capacitor 26.

The DC voltage obtained in this way serves as the operating voltage for the synchronizable Horizontal oscillator 14, which synchronizes line pulses via synchronous input 15 will. This oscillator 14 controls via a driver stage, which in this case is integrated is, 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 oscillator begins to oscillate Horizontal oscillator 14 - the horizontal variable generator already synchronized with the line frequency rings. In order to ensure a particularly low energy transfer via the transformer 21, it is provided that only a minimum operating voltage for the horizontal oscillator is generated via the control circuit. During the operation of the television set can in a further embodiment according to the dashed connection shown the operating voltage supply of the horizontal oscillator from the flyback transformer are made from, in such a way that from a secondary winding 12 an operating voltage that is tapped after Rectification through a diode 27 as Overtaking voltage of the operating voltage applied by the free-running oscillator 18 is superimposed and fed to the horizontal oscillator 14. Of course you can the operating voltage supply exclusively for the horizontal oscillator 14 take place via the free-running generator 18.

Claims (4)

Claims 9 start-up circuit for a television set with mains potential separate receiver circuits with a horizontal deflection generator, which has a Line-frequency controlled driver stage can be triggered by a horizontal oscillator is, via its output transformer, preferably the flyback transformer, the Active power for the energy supply of the receiver circuits, in particular the Control stage of the horizontal generator, which horizontal deflection generator is transmitted triggered by a free-running oscillator when the device is switched on, which is galvanically separated from the horizontal deflection generator, d a d u r c h given that the output transformer of the free-running Oscillator tapped voltage rectified and used as a supply voltage to the line-synchronized driving the driver stage of the horizontal deflection generator Horizontal oscillator is supplied. 2. A circuit according to claim i, d a d u r c h g e k e n nz e i c h n e t that from the output transformer of the horizontal deflection generator a voltage is tapped, after rectification as the overtaking voltage according to claim i generated voltage superimposed and as a supply voltage to the horizontal oscillator is fed. 3. Circuit according to one of the preceding claims, d a d u r c h g e k e n fl z e i c h n e t that a blocking oscillator is used as a free-running oscillator is used. 4. A circuit according to claim 2, d a d u r c h g e k e n nz e i c h n e t- that the overrun voltage for the power supply of the horizontal oscillator from a winding of an inductive component of the deflection generator that is separated from the mains potential is tapped.