DE3111432A1 - Circuit arrangement for regulated supply of a load - Google Patents

Abstract

In a mains power supply switching apparatus for variable input voltages, a flyback converter is provided which has a transformer (29) whose primary winding (30) is connected in series with the collector-emitter junction of a transistor (16). The emitter of this transistor (16) is in this case connected to one end of the secondary winding (28) of the transformer (29). <IMAGE>

Description

The invention relates to a circuit arrangement according to the preamble

of claim 1.

In the case of electrical and electronic devices capable of transporting transport, it is it is desirable that they can be operated at different voltages or if so They have accumulators that these accumulators at different voltages are chargeable. For example, electric dry shavers are erapoarate, El ektronenbl i ting devices, portable radios or the like often taken on trips abroad and then operated with different mains voltages in the respective countries. These Mains voltages usually vary between 110 volts and 240 volts and on the other hand between 50 Hz and 60 Hz.

For adapting the small devices or batteries to different voltages a Soannunqstransformation is required, the capacitive or can be carried out inductively.

It is already a circuit arrangement according to the preamble of the claim 1 has been proposed, in which the other connection of the passageway of the controllable semiconductor switch with a tap of the secondary winding of the transformer connected (P 31 03 863.8).

However, circuit arrangements with taps of windings are in Fabrication process undesirable because it was relatively complicated to carry out.

The invention is therefore based on the object of a circuit arrangement according to the preamble of claim 1 to create a good charge current stabilization and in which fluctuations in operating conditions do not have a negative effect, without a winding tap being required for this.

This task is achieved according to the characterizing features of the patent claim 1 solved.

The advantage achieved with the invention consists in particular in that the desired effect is achieved by means of an easily connectable resistor will.

An embodiment of the invention is shown in the drawing and is described in more detail below.

1 shows a circuit arrangement according to the invention; Fig. FIG. 2 shows a variant of part of the circuit arrangement shown in FIG.

1 shows a circuit arrangement in which Darallel to the mains voltage UN a capacitor 1 is connected, which with its one terminal directly to one Point 8 of a rectifier bridge 2 and its other connection via a resistor 3 is connected to point 9 of the rectifier bridge 2. The rectifier bridge 2 has four diodes 4, 5, 6, 7 in a manner known per se. With point 10 the rectifier bridge 2 is connected to an inductor 11 while at the point 12 of the rectifier bridge 2 capacitors 13, 43 are connected to the Inductance 11 are connected. In parallel with the capacitor 13 are a resistor 14 and a Zener diode 15 connected, the cathode of the Zener diode 15 with the Base of a transistor 16 is connected. The cathode of the diode 15 is also with a capacitor 40 connected, which is connected to a parallel circuit consisting of two There are branches, the first branch having a resistor 17 and the second branch a resistor 18 and a capacitor 19 connected in series therewith. The aforementioned parallel circuit is connected to a resistor 20, which in turn is connected to the emitter of transistor 16. This emitter is also on one Resistor 21 connected, which is connected to the positive pole of a battery 22. Parallel A capacitor 23 and a motor 24 are provided for this battery 22. The connection point between resistor 21 on the one hand and battery 22, capacitor 23 and motor 24 on the other hand is connected to a resistor 25 which is connected in series to two diodes 26, 27 is.

This series circuit reads one parallel to the secondary winding 28 Upper carrier 29, whose primary winding 30 on the one hand with the collector of the transistor 16 and on the other hand to the inductance 11 is connected.

A diode 31 and one with it are parallel to the primary winding 30 Zener diode 32 connected in series. The cathode of the diode 31 and that of the Zener diode 32 are connected to one end of the primary windings 30, respectively. The base of the transistor 16 can - via a capacitor 33, a resistor 34 and a Switch 35 can be connected to the negative pole of the battery 22. This negative The pole of the battery 22 is also connected to the cathode of the diode 27 via a diode 36 connected, which is a light emitting diode.

In FIG. 2 a circuit arrangement is shown which has a partial area the circuit arrangement according to Figure 1 shows, with some changes in this sub-area are made. Instead of the two diodes 26, 27 and the resistor 25 in Fig. 1, only one light-emitting diode 41 connected upstream of the resistor 20 is provided in FIG.

The circuit arrangements shown in FIGS. 1 and 2 can be used for various functions. With switch 37 open they serve as charging circuits for the battery 22, while when the switch 37 is closed they serve as a switched-mode power supply for a consumer, which can be, for example, a direct current motor 24 of an electric shaver.

The mode of operation of the arrangement according to FIG. 1 is as follows: After the mains voltage UN, which can fluctuate within a wide range, by the Capacitor 1 has been suppressed, it is over the limiting resistor 3 dem Rectifier 2 supplied and rectified by this. The rectified voltage now reaches the actual via the inductance 11 and the capacitor 13 Switching power supply The transistor 16 is via the primary winding 30 and as an oscillation aid Serving resistor 14 is made conductive, with the kickback voltage across the primary winding 30 is limited by the diode 31 and the Zener diode 32.

The base terminal of the transistor 16 is used as a reference voltage source serving Zener diode 15 held at a certain voltage potential.

It is now essential for the invention that the emitter of the switching transistor 16 via the resistor 20 to a terminal of the secondary winding 28 and via the Resistor 21 is connected to the plusool of battery 22.

In the conducting phase of the transistor IFi arises at the connection point between resistor 20 and secondary winding 28 is proportional to the mains voltage UN Voltage rise. Since after switching through the transistor 16 via the primary winding 30 and the collector-emitter path of the transistor 16 a current through the resistor 21 flows into the battery 22, this current is reduced due to the potential rise at the connection point between resistor 20 and secondary winding 28. The Reduction of the current takes place here to such an extent that with different Operating voltages UN the secondary power output is kept constant.

The periods of time in which the voltage across the capacitor 13 is turned on by the transistor 16, are thus not only through the outer Wiring of the transistor 16 is influenced, but also by the voltage across the capacitor 13 and thus by the mains voltage UN, because part of this voltage is at the connection point between resistor 20 and secondary winding 28 is present. Affected at the same time this voltage the current flowing into the battery 22 because of the emitter of the Transistor 16 in this battery 22 can only get such a current, which the voltage difference between battery 22 and emitter or the resistance value of the resistor 21 corresponds.

The voltage regulation in the circuit arrangement according to FIG. 1 can be determined mathematically in that the current flowing through the resistor 21 is represented as a quotient in whose counter the reference voltage at the Zener diode 15 minus the base-emitter path of the transistor 16 minus the voltage of the battery -22 and in whose denominator the resistance value of the resistor 21 is.

Due to the battery 22 located in the emitter circuit of the transistor 16, which is used to supply the consumer 24, there is the advantage, then with increasing Battery voltage - if, for example, the battery 22 is still charged - also the emitter current is decreased, d. H.

the charging current flowing into the battery 20 is reduced. An increase of the secondary charging current or the decrease in the voltage tion of the battery 22 causes an increase in the secondary power output by the Upper carrier 29. The battery 22 can of course also be replaced by a larger one Capacitor, e.g. B. the capacitor 23 to be replaced.

Should a change in the battery voltage without affecting the output Secondary power, the base point of the reference voltage source 15 can be connected to the The positive terminal of the battery 22 is placed.

The secondary winding 28 also serves as a feedback winding, the controls the base of transistor 16 via network 16, 17, 18, 19.

The capacitor 23 ensures a better bridging of the switching frequency from the positive terminal of the battery 22 to ground.

With the resistor 34 and the capacitor 33, the switch 35 can be used to switch from a quick charge to a low maintenance current. The resistor 34 is used here only for decoupling. The capacitor 33 forms with the capacitor 40 at the end of the transformer discharge egg NEN capacitive voltage divider, so that the charging of the capacitor @.

about the resistance its starts from a low voltage potential. The time and voltage difference from the start of charging the capacitor is to reach the restart point of the transistor 16 (Uein = UBatt + UBE) is thereby larger.

The light-emitting diode 27 lights up in the charging phase of the battery, i. H.

when a voltage is applied to the secondary winding 28. The resistance 25 acts here as a current limiter.

In the F <ig.2 a circuit arrangement is shown in which the Light-emitting diode 4 is in series with resistor 20. Here resistance 20 takes over the function of the current limiter.

To improve the mode of operation of the circuit arrangement according to FIG. 1, a transistor and a resistor 44 of the Zener diode 15 can also be connected. In this way, the Zener voltage is specified more precisely in a known manner.

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Claims (11)

Circuit arrangement for the regulated supply of a consumer patent claims 1. Circuit arrangement for the regulated supply of a consumer from input voltage sources different voltage using a flyback converter with a transformer, the primary winding of the upper carrier with a stop of the passage a controllable semiconductor switch is connected, characterized in that the other connection of the pass-through section of the controllable semiconductor switch (16) via a resistor (20) to one end of the secondary winding (28) of the upper carrier (29) is connected. 2. Circuit arrangement according to claim 1, characterized in that the control electrode of the controllable semiconductor switch (16) with a reference voltage source (15) is connected. 3. Circuit arrangement according to claim 1, characterized in that that the other connection of the passage through a resistor (21) with the positive PQ1 of the voltage source (22) is connected. 4. Circuit arrangement according to Claims 1 and 3, characterized in that that the control electrode of the controllable Hal lead switch (16) via a capacitor (33), a resistor (34) and a switch (35) to the negative pole of a battery (22) and / or can be connected to a consumer (24). 5. Circuit arrangement according to claim 1, characterized in that. the controllable semiconductor switch is a transistor (16) whose Collector is located at one end of the primary winding (30) of the upper carrier (29). 6. Circuit arrangement according to claim 1, characterized in that the secondary winding (28) with its one end to a battery (22) and with its at the other end via a network consisting of capacitors (40, 19) and resistors is connected to the control electrode of the controllable semiconductor switch (16). 7. Circuit arrangement according to claim 6, characterized in that the network of a capacitor (40) and a parallel connected in series branch exists, this parallel branch having a resistor (17) and one for this purpose having parallel series circuit of resistor (18) and capacitor (19). 8. Circuit arrangement according to claim 1, characterized in that. the secondary winding (28) via a switch (37) to a consumer (24) is connectable. 9. Circuit arrangement according to claim 1, characterized in that a diode (36) is provided, the anode of which is connected to the negative pole of a battery (22) and with its cathode at one connection of the secondary winding (28) of the upper carrier (29) lies. 10. Circuit arrangement according to claim 1, characterized in that the secondary winding (28) with its one connection to the cathode of a light emitting diode (27) is connected, the anode of which is connected to the cathode of a diode (26) whose The anode is connected to the positive terminal of a battery (22) via a resistor (25). 11. Circuit arrangement according to claim 1, characterized in that the other connection of the transmission path of the controllable semiconductor switch (16) via a resistor (20) and a light-emitting diode (41) with one end of the secondary winding (23) of the upper carrier (29) is connected.