DE2166041A1 - Circuit for generating operating DC voltages in a communications technology device, in particular a television receiver. Eliminated from: 2106837 - Google Patents

Description

Circuit for generating operating DC voltages in a device communications engineering, in particular a television receiver in a television receiver with electron tubes, the operating voltage for the tubes can usually be transmitted directly Rectification of the AC mains voltage can be obtained as the operating voltage is on the order of 200 to 250 volts.

For devices additionally equipped with transistors, it is necessary to further, mostly lower operating voltages in the range of 20 to 30 Volts and partly of different polarity.

For this purpose it is known to provide a mains transformer, the voltages that are correspondingly stepped down on the secondary windings for separate Rectifier circuits supplies. A transformer is a relative one expensive, heavy component causing stray fields. In many cases there is Desire to build the entire receiver without a mains transformer.

It is also known, by rectifying line retrace pulses, the additional windings of the transformer have been removed, additional operating voltages. to create. The desired amplitude of the direct voltage can also be passed through appropriate dimensioning of the winding. With this solution However, the flyback transformer and the circuit feeding it must be used for a higher Performance can be measured.

It is also known to generate low operating DC voltages (DT-AS 1 171 965), with so-called half-wave heating with one in the heating circuit lying diode to lead the half-wave heating current through a resistor and through The pulsating DC voltage occurring at the resistor is sieved into an operating DC voltage to win. However, this solution requires half-wave heating, in which for the Only half the effective value is available in the heating chain. In many cases it is so reduced voltage too low for the heating chain. It can also be used on this Way by sieving only one operating voltage of a single polarity.

The invention is based on the object, without great circuit complexity to gain both a positive and a negative operating DC voltage. This object is achieved by the invention specified in claim 1.

In the solution according to the invention, the heating chain is first the alternating current is supplied with the positive and negative half-waves and then separated passed through rectifiers of opposite polarity. To the alternating current of the heating chain these rectifiers have practically no effect in a desired manner, because of the one rectifier the positive and the other rectifier the negative half-waves of the alternating current. In the output circuit of this rectifier can but now two operating DC voltages of the required size and different Decrease polarity. The advantage here is that there is practically no reaction between the two sources supplying DC voltages of different polarity is. It has been shown that a load change in the output of a rectifier both on the alternating current flowing through the heating chain and on the output direct voltage has practically no influence on the other rectifier. It is also possible to use the Output of a rectifier completely short-circuited and only on to take an operating DC voltage from another rectifier.

The invention is illustrated below with reference to the drawing using an exemplary embodiment explained.

In the figure, a terminal 1 is a mains alternating voltage of 220 volts via a microfuse 2 and a ballast capacitor 3 to the input 5 fed to a heating chain 4. The alternating current flowing through the heating chain 4 flows through diodes 10, 11, filter capacitors 14, 15, resistors 12, 13 and consumer transistor stages 16, 17 to earth. Included the positive half-waves flow through the series connection 10, 12, 16 and negative Half-waves across the series connection 11, 13, 17. At the consumer 16 there is a positive and at the consumer 17 a negative operating DC voltage available.

The circuit above the diodes 10, 11 is essentially a constant current source for the two half-waves, because in general the Series connection of the series capacitor 3 and the heating chain 4 is high-resistance compared to the rectifier and filter circuit at the base. Therefore it is also possible to use the DC operating voltages effective at the input of the two stages 16, 17 to be dimensioned differently, without the function of the overall circuit is disturbed. For example, if the negative voltage at stage 17 is required, the anode the diode 11 must be tied directly to earth l-f-2 c-m.

Claims (2)

PATENT CLAIMS Circuit for generating operating DC voltages in a device communications engineering, in particular a television receiver, from which the tubular heating chain AC current flowing through by means of a rectifier and a filter element, characterized in that the alternating current flowing through the heating chain has two connected in parallel, polarized in opposite directions and each with a filter element (12, 14 or 13, 15) loaded rectifier (10, 11) is performed, and the first filter element (12, 14) a positive and the second filter element (13, 15) a negative operating DC voltage is taken. 2. Circuit according to claim 1, characterized in that only one The rectifier (10) is provided with a filter element and the output of the other rectifier (11) is short-circuited, in particular grounded.