DE2546226A1 - Circuit maintaining constant picture size in TV receiver - with horizontal deflection circuit based on pumping principle and ohmic resistor between voltage stabiliser and charged capacitor - Google Patents

Abstract

Current from the mains is fed through a pumping transistor to the deflection circuit with a charge capacitor serving as a voltage source for further loads. Pumping current is stabilised. A voltage stabilising circuit is in parallel with the charge capacitors (13). It contains between a terminal (22) for stabilised voltage and reference potential a series circuit containing a Zener diode (24) and a resistor (25), and a second series circuit containing emitter-collector path of a first transistor (31) and a resistor (26). Zener diode (24) is connected through a resistor (27) to the base of a second transistor (28), complementary to the first. The second transitor (28) emitter is at reference potential, and its collector is connected through a resistor (29) to transistor (31) base.

Description

Circuit arrangement for keeping the image size constant in one

Television receiver with a horizontal deflection circuit based on the pump principle.

Pumping principle.

The invention relates to a circuit arrangement for keeping constant the picture size in a television receiver with a horizontal deflection circuit the pumping principle, according to which during the line retrace of the electron beam over a Pump transistor fed current from the network into the actual deflection circuit.

is, wherein this deflection circuit includes a charging capacitor, the serves as an energy source for other consumers, and the pump current is stabilized is.

This so-called pump circuit is in principle and with specific explanations in particular with a current pulse stabilization in the magazine "Siemens Components Report" 12 (1974) No. 3, pp. 61 to 64 and No. 4, pp. 96 to 98. With the help of Current pulse stabilization is the energy supply from network fluctuations made independent that a Z-I> iode stabilizes the amplitude of the pump pulses. The current pulse stabilized pump circuit can be used for the charging capacitor connected consumers supply a constant current; but the tension is only constant if the loads are also constant. But the burden changes since different consumers are connected, in an uncontrollable manner. I.e., that in addition to the fluctuating beam power output by around 6 to 10 watts for black-and-white television also fluctuations in the power of the consumers connected to the charging capacitor which can worsen the image constancy, which is dependent on the voltage. That are before all power fluctuations of a connected audio frequency amplifier by about 0.5 to 5 watts and power fluctuations of the connected vertical deflection circuit, which periodically load the voltage source with a 50 Hz base frequency.

In addition, the influence of the tone dynamics on the image size is not negligible.

The present invention is in view of these interfering influences the task of specifying a circuit arrangement with the help of which the image size can be kept constant with a current pulse stabilized pump circuit.

To solve this problem, in a circuit arrangement, the initially mentioned type proposed according to the invention that parallel to the charging capacitor a voltage stabilization circuit is connected, in which between a terminal for the stabilized voltage and the reference potential the series connection of one Zener diode with an ohmic resistor and the series connection of the emitter-collector path a first transistor with an ohmic resistance that the Zener diode over an ohmic resistor to the base of a second transistor that is complementary to the first leads to the fact that the emitter of the second transistor is at reference potential and that the collector via an ohmic resistor to the base of the first transistor connected is.

With the help of this circuit arrangement, power fluctuations the consumers connected to the stabilized voltage for image constancy be rendered harmless. According to an advantageous embodiment of an inventive Circuit arrangement is between the charging capacitor and the voltage stabilization circuit an ohmic resistor switched. Without this ohmic resistance, the voltage source an internal resistance of practically zero for the stabilized voltage. The charging capacitor but also serves as a voltage source for the actual horizontal deflection circuit and must therefore have a finite internal resistance so that this voltage is at yields to a large stream of images. This operating voltage U3 at the charging capacitor the horizontal deflection circuit should go along with the electron beam current load, that with high voltage fluctuations UH caused by the internal resistance of the high voltage source are conditional, the following condition is fulfilled: Ä u3 1 H - 1-UB UH The ohmic resistance at the charging capacitor is set so that the image width changes from beam current is as independent as possible.

The vertical deflection must also be used so that the image height remains stable have a certain internal resistance that causes the operating voltage for the vertical deflection also gives way under loads. To this end is after a further advantageous embodiment of a circuit arrangement according to the invention between the ohmic resistance of the first embodiment and the voltage stabilization circuit Another ohmic resistor switched at the connection point of the two ohmic ones Resistors, the operating voltage for the vertical deflection circuit is removed.

At the edge of an exemplary embodiment shown in the drawing the invention is to be explained in more detail.

1 with a flyback transformer is referred to, which is on one side carries a winding 2, over which with the help of a pump transistor 3 during the line retrace of the electron beam, current pulses are fed in. With 4 is a row end transistor referred to, which is controlled at its base via an input 5 of horizontal pulses and the component of a so-called.

Saving period is. In this saving diode circuit are parallel the collector-emitter path of the row transistor 4, a diode 6 - the so-called saving diode -, a capacitor 7, the series connection of a capacitor 8 for so-called tangent correction with a coil 9 for linearity control and with two parallel-connected horizontal deflection coils 10 and 11 and the series connection of a winding 12 of the flyback transformer 1 with a charging capacitor 13. The connection point of the winding 12 with the charging capacitor 13 is denoted by 14 and carries an operating voltage U. Another winding 15 of the flyback transformer 1 leads via a diode 16 to a terminal 17 for a High voltage UH. This terminal 17 serves as a high voltage source for the picture tube an ohmic resistor is shown in dashed lines for later consideration 18 and a capacitor 19 in series with this. The ohmic resistance 18 represents the internal resistance RH of the high voltage source and the capacitor 19 represents the picture tube capacitance CB.

The series connection leads from point 14 to the operating voltage UB two ohmic resistors 20 and 21 to a terminal 22, at which a stabilized DC voltage of for example + 22 V is available. From terminal 22 lead to the reference potential a capacitor 23, the series connection of a Zener diode 24 with an ohmic resistor 25 and the series connection of the emitter-collector path of a transistor 31 with an ohmic resistor 26. The connection point of the Zener diode 24 with ohmic resistor 25 leads via an ohmic resistor 27 to the Base of a transistor 28. The transistors 31 and 28 are complementary to each other, wherein in this embodiment the transistor 31 is of the pnp type, transistor 28 is of the npn type. The emitter of transistor 28 is at reference potential; the collector leads via an ohmic resistor 29 to the base of the transistor 31. The connection point of the two ohmic resistors 20 and 21 leads to a Terminal 30, from which a supply voltage for a vertical deflection circuit is tapped will.

The elements 23 to 31 represent the voltage stabilization circuit used according to the invention , the Zener diode 24 serving as a reference element. The capacitor 23 with a large capacitance of 470 / uF, for example, smooths the one removed from terminal 22 stabilized tension in addition. How the voltage stabilization circuit works is based on the fact that it absorbs excess power and so the voltage at the Terminal 22 holds constant. This can result in fluctuations in the power to the terminal 22 connected consumers no longer affect the voltage level. In order to are fluctuations in the operating voltage ETB for the charging capacitor 13 the line deflection circuit prevents, so that they do not have a disruptive influence on the Can exercise image size.

Even if this measure, the voltage source 22 for the connected Consumer has an internal resistance of practically zero, this is not allowed apply to horizontal deflection and vertical deflection. The operating voltage sources for these two distractions should go along "softly" according to the above formula, so that in the event of fluctuations in the high voltage, the image width and the image height are stable stay. Fulfill this purpose the two ohmic resistors 20 and 21, with the value of the ohmic resistance 20 the internal resistance of Operating voltage source UB for the horizontal deflection and with the resistance value of the ohmic resistance 21 is the internal resistance for the operating voltage source 30 can be set for vertical deflection.

The time constant is an advantage in order to avoid transient processes the two ohmic resistors 20 and 21 and the charging capacitor 13 to be selected so that it is equal to the time constant of the internal resistance RH of the high voltage source 17 and the picture tube capacitance CB, which are represented by the ohmic resistance 18 and through the capacitor 19. It should then apply (R20 + R21 = RH 'CB' 3 claims 1 figure

Claims (3)

P a t e n t a n s Q r ü c h e a t e n t a II 5 ffuc h e 0 Circuit arrangement for keeping the picture size constant in a television receiver with a horizontal deflection circuit according to the pumping principle, according to which during the line retrace of the electron beam over a pump transistor feeds current from the network into the actual deflection circuit is, this deflection circuit contains a charging capacitor as an energy source is used for other consumers, and the pump current is stabilized, d a d u r c h g e k e n n -z e i c h n e t that parallel to the charging capacitor (13) a Voltage stabilization circuit is connected, in which between a terminal (22) for the stabilized voltage and the reference potential the series connection of one Zener diode (24) with an ohmic resistor (25) and the series connection of the emitter-collector path a first transistor (31) with an ohmic resistor (26) lie that the Zener diode (24) via an ohmic resistor (27) to the base of a second to the first complementary transistor (28) leads that the emitter of the second transistor (28) is at reference potential and that the collector has an ohmic resistor (29) is connected to the base of the first transistor (31). 2. Circuit arrangement according to claim 1, d a d u r c h g e k e n n z e i c h n e t that between the charging capacitor (13) and the voltage stabilization circuit an ohmic resistor (20) is connected. 3. Circuit arrangement according to claim 2, d a d u r c h g e k e n n z e i c h n e t that between the ohmic resistor (20) and the voltage stabilization circuit Another ohmic resistor (21) is connected and at the connection point of the two ohmic resistors (20,21) the operating voltage for a vertical deflection circuit is removed.