DE1219577B - Mains-operated electronically regulated constant voltage source - Google Patents

Description

Mains-operated, electronically regulated constant voltage source Mains-operated constant voltage sources have already become known which use, for example, transistors for electronic stabilization. The F i g. 1 shows in principle such a known voltage source, the output voltage of which occurring at the terminals 1, 2 can be adjusted down to zero volts by means of the mechanically coupled actuators 3, 4. A transistor or a transistor cascade circuit in an emitter follower circuit is used as the actuator 5. The transistor or the transistor cascade circuit is controlled by a transistor amplifier 6, the input of which is connected to a voltage divider 7 arranged parallel to the output 1, 2. A Zener diode 8 generates the necessary reference voltage. The Zener diode 8 is fed from a separate rectifier circuit 9. The adjusting and control transistors 5, 6 are fed from a main rectifier circuit 10 of a known type. The rectifier circuits 9, 10 are fed by a common transformer 11, one secondary winding 12 of which has taps. In order to keep the output voltage 1, 2 as independent of mains voltage fluctuations as possible, a feedforward control is provided. For this purpose, part of the voltage appearing at the resistor 13 is fed to the control amplifier 6 (interference value feed-in). A disadvantage of this known interference value injection is that when the load current changes through the connected consumer 14, a new setting of the interference value injection must be made at the resistor 13 in order to achieve optimal compensation. A certain setting on the resistor 13 therefore only results in an optimal compensation for a certain load current. This is due to the fact that the voltage across the resistor 13 is dependent on the load current.

In the case of mains voltage fluctuations, therefore, different ones occur depending on the load Amounts of the voltage fluctuations across the resistor 13. This will be the control amplifier 6 different disturbance values depending on the load. The voltage dependent The fluctuation of the output voltage 1, 2, however, is independent of the load. She will be in essentially due to the change that is dependent on the mains voltage and is independent of the load the reference voltage 8 is determined. The changes in the reference voltage source 8, 9 have a percentage effect on the output voltage 1, 2 via the voltage divider 7 the end. The amount of change in the output voltage caused by this is therefore furthermore proportional to the size of the output voltage. With the invention, the Disadvantages of the known constant voltage source avoided. The invention relates relies on a mains-operated constant voltage source with adjustable output voltage with a control circuit consisting of a series actuator connected downstream of a main rectifier and transverse amplifier and another rectifier circuit operated by the mains for the reference voltage generation and a voltage divider, which is connected in series via the switched outputs of the control circuit and reference voltage circuit arranged with adjustment of the output voltage by switching the input AC voltage and the voltage divider. The invention consists in that a load-independent, Different interference value feed-in depending on the adjustable output voltage intended to compensate for the mains voltage-dependent fluctuations in the output voltage is. The mains voltage-dependent fluctuations correspond to a further training the output voltage is compensated by a special auxiliary rectifier circuit, the one proportional to the adjustable output voltage and the change in mains voltage Delivers direct voltage for the disturbance value feed-in. The auxiliary rectifier circuit is useful fed by the switchable AC input voltage. Another training accordingly, a filter capacitor of the auxiliary rectifier circuit is used for the purpose of ripple voltage compensation connected to the output of the main rectifier circuit.

It is already an arrangement for stabilizing a DC voltage became known in which one of an electron tube and inductors existing tilting device of a television set Use is made. Certain inductances of the tilting device are used to generate high voltage Diodes used. The high voltage generated should depend on the direct current load be kept constant. For this purpose, the DC voltage superimposed by the Load-dependent ripple voltage used on a high-voltage capacitor occurs. The ripple voltage is generated via another capacitor of an amplifier tube at the anode of which the ripple voltage occurs more intensely. The ripple voltage is rectified, and the rectified voltage becomes the grid bias added to a subsequent control tube. It is also a rectifier circuit with a grid alternating voltage to regulate the grid-controlled gas discharge tubes used known. The output voltage of this arrangement is not adjustable.

The invention is illustrated with reference to FIGS. 2 explained in more detail. With the elements the F i g. 1 matching elements have the same reference numerals.

According to the invention, in the constant voltage source according to FIG. 2 to compensate for the fluctuations in the output voltage 1, 2 depending on the mains voltage, a load-independent interference value feed-in is provided, which is derived from the mains voltage. As can be seen, a special auxiliary rectifier circuit 15 is provided, which is fed by the same AC input voltage as the main rectifier 10. The auxiliary rectifier circuit 15 now feeds the resistor 13 for the interference value feed-in.

Because of the switchover of the voltage divider 7, the disturbance value must be applied output voltage dependent. The training according to the invention fulfills this condition. The AC input voltage of the main rectifier circuit 10 is an appropriate one Execution of the output voltage 1, 2 in every switch position of the voltage divider 7 proportional. The DC voltage derived from this same AC input voltage for the interference value feed-in of the auxiliary rectifier circuit 15 is therefore also the case proportional to the output voltage, proportional to the change in mains voltage and from Load current independent.

The output filter capacitor can advantageously be used for ripple voltage compensation 16 of the auxiliary rectifier circuit 15 with the output of the actuator 5 and the rectifier circuit 10 provided to the amplifier 6 can be connected. 1Vlit a single setting of the Störwertauf circuit at the resistor 13 is in the training according to the invention in a wide range of the output voltage 1st, 2nd and the load current an optimal compensation of the voltage-dependent fluctuations the output voltage reached.

Claims (4)

Claims: 1 '. Mains-operated, adjustable output voltage Constant voltage source with a control circuit connected downstream of a main rectifier consisting of a series actuator and transverse amplifier and another powered by the network Rectifier circuit for the reference voltage generation and a voltage divider, via the series-connected outputs of the control circuit and reference voltage circuit is arranged with adjustment of the output voltage by switching the input AC voltage and the voltage divider, which means that a load-independent, Different interference value feed-in depending on the adjustable output voltage intended to compensate for the mains voltage-dependent fluctuations in the output voltage is. 2. Constant voltage source according to claim 1; characterized in that the Mains voltage-dependent fluctuations in the output voltage due to a special auxiliary rectifier circuit are compensated for, one of the adjustable output voltage and the change in mains voltage outputs proportional DC voltage for the fault value feed-in. 3. Constant voltage source according to claim 1 and 2, characterized in that the auxiliary rectifier circuit is fed by the switchable AC input voltage. 4. Constant voltage source according to claim 1 to 3, characterized in that a filter capacitor (16) of the auxiliary rectifier circuit (15) is connected to the output of the main rectifier circuit (10) for the purpose of ripple voltage compensation. Considered publications: German Patent Nos. 693 477, 966 923; P itsch, "Textbook of radio reception technology" (1948), p. 712 ff. (§ 445); Journal "Advances in Radiotechnology", 12 (1951), p. 80.