DE976632C - Circuit arrangement for voltage regulation of a direct current generator - Google Patents

Description

Circuit arrangement for voltage regulation of a direct current generator The invention relates to a circuit arrangement for regulating the voltage of a DC generator between idle and a certain value of the load as well as for current control at this load. Such circuit arrangements are also referred to as devices for the execution of overtaking regulations and in particular used to charge batteries.

In a known circuit arrangement for voltage equalization with the limitation of the permissible load current, the controller is activated by a special Supplemented the response circle, which is strongly affected when its response value is exceeded Controller intervenes and enforces a current limitation. The response area includes a device for: measuring the current and converting it into a current proportional voltage, a voltage comparison circuit and a downstream Amplifier stage. This separate response circle requires a considerable one Expenditure.

Furthermore, a circuit arrangement for voltage equalization is finite Current limit for Battery chargers become known, both the regulation takes place by means of a magnetic amplifier. With this facility, a Control winding of the magnetic amplifier from the battery charging current and another control winding A current flows through it, that of two voltage sources connected in series is delivered. One of these voltage sources generates a voltage that is proportional to the charging current Current, while the other generates a current proportional to the charging voltage. These Series connection of the voltage sources means that there is always an influence of the Current component is present and that this - with regulation on constant voltage - Must be made ineffective by returning the battery charging current. Through this, that in this known arrangement, the scheme initially depending on the Voltage and from the current and the current influence by means of feedforward control be rendered ineffective. must, this is also quite time-consuming.

Next is in an older one. Arrangement for adjusting any Organs according to different, in particular two selectable functions, always the the greater of the two values determines the adjustment of the measuring or regulating element been that desired. Laws due to voltages that change with the measured value and recreate these tensions. via rectifier opposite forward direction to be connected in parallel so that the larger of the two voltages is always unadulterated delivers the measured variable. The circuit arrangement according to the invention differs from this once insofar as a rectifier is assigned to each of the two influencing variables, while here only a rectifier comes into effect. This difference represents but only a slight modification to the older arrangement. A However, there is a significant difference with regard to the extraction of the influencing variables.

The present invention is one with the disadvantages The circuit arrangement for voltage regulation that is not affected by the known arrangements of a direct current generator between idling and a certain value of the load as well as for current control at this load. According to the invention is the measuring coil of the controller is connected to the generator terminals via a resistor, with her via an asymmetrically conductive element, e.g. B. a rectifier, a resistor parallel, which is also connected to the generator terminals via the load is. This advantageously provides a simple arrangement for voltage regulation created in which the influencing variable proportional to the voltage by means of a voltage divider circuit and the quantity proportional to the current by means of resistance or, advantageously, by means of Converter is obtained.

The invention is also suitable with advantage for the control of electrical Machines or systems depending on more than two variable quantities. Instead of just one comparison resistor, several are provided, and the on The voltages they drop are, for example, on several measuring coils juxtaposed with applied voltages.

The electrical regulator used can be of any type. The only prerequisite is that the values derived from the various measured variables electrical currents in the sense of the invention in the measuring coils of the same to a complex Size can be overlaid. Otherwise it is in accordance with the circumstances the device to be controlled.

In the following, on the basis of the circuit diagrams shown in FIGS some embodiments of the invention explained. They only show the necessary ones Elements of the inventive concept. In particular, only the coils are from the controller the measuring units shown.

Fig. I shows an arrangement for voltage regulation of a not shown DC generator between idle and the load with a current I as well the current control with the same load. The measuring unit coil i of the controller is on terminals 2 and 3 of the generator to be regulated are connected, with the interconnection a resistor q .. The current supplied by the generator essentially flows through a parallel resistor 15 (5-6), which is in series with an asymmetrically conductive System 7, e.g. B. a dry rectifier K, between points 6, 8 in parallel to measuring mechanism coil i lies. The line 6-8 thus connects the end 6 of the parallel resistor each with one end of the coil i and the resistor d .. between the end 6 and the terminal 3 of the generator is also a variable load resistor RL arranged. This is parallel to the resistor q .. This results in a bridge circuit with the branches from the resistors 15 and RL on the one hand and measuring mechanism coil i and Resistance q. on the other hand, as well as the asymmetrically conductive system 7 in the diagonal branch.

If terminal 2 is positive, the current flows via 2 - 5 - 6- 3 through the parallel resistor 15 and via: 2-5-8-3 through the controller measuring circuit. The asymmetrically conductive element 7 is connected in such a way that it blocks the current in the direction 6-7-8. As long as the voltage across the circuit 5 - i - 8 is higher than the voltage across the resistor 15, no current can flow through the rectifier 7 - . The regulator coil is only exposed to the effect of the terminal voltage of the generator, and the regulator regulates this voltage to the set value.

If the load resistance RL is now reduced, the current I increases. If now the voltage drop r-I across the resistor 15 is greater than the voltage drop, r'-i at the measuring unit coil, the dry rectifier 7 is opened, and through the measuring mechanism coil i flows in proportional to the voltage drop r-I and thus I. Current. The first of a current proportional to the generator voltage flowed through When a certain value of the current I is reached, the measuring coil is now which causes the dry rectifier 7 to be controlled by one proportional to it Electricity flowing through it.

Decisive for the transition from voltage regulation to current regulation is primarily the size of the load resistance RL or the ratio of the variable resistance RL to the constant resistance R or 4 .. During namely the other resistances (15, i, q.) of the bridge arrangement are constant, RL alone is changeable. RL thus determines the polarity of the voltage between 6 and 8 and thus on the asymmetrically conductive element 7. As long as RL> R, flows therefore, by means of the coil i, one is essentially proportional to the generator voltage Current. The dry rectifier 7 blocks in this case. However, if RLGR is flowing through the coil i and the now conductive rectifier 7 a substantially current proportional to the generator current. The transition from voltage to current regulation occurs as soon as the voltage drop at R is greater than that at RL. He is therefore suddenly because 7 is an asymmetrically conductive element that suddenly becomes conductive is and from then on the end 8 of the coil i directly with the end 6 of the resistor 15 connects. Before the element 7 became conductive, however, there was the connection between 6 and 8 interrupted, d. That is, the current paths via i and 4 on the one hand and via 15 and RL, on the other hand, were completely separate.

The regulator therefore first regulates the generator voltage to a specified value Value and, as soon as a current flows through rectifier 7 in direction 8 - 7 - 6, the current to a set value. The controller can, for. B. on a resistor work in the excitation circuit of the generator.

If the controller has two measuring coils, one fixed and one moving, contains, these can instead of the coil i in the circuit of FIG. i in series lie. The rule of this arrangement is not based on the example described limited. The voltage source for U can also be separated from the current source for I. if only both have a common point in the circuit.

On the other hand you can also use several voltage sources as well as the resistor Switch between 5 and 6 parallel to the measuring coil, if all have a point in common can have. Each of these voltage sources is then each at point 8 via one asymmetrically conductive member, such as the rectifier 7, connected.

If the controller has several measuring coils, each of them can are fed separately by an arrangement according to FIG. Can also be mutable Auxiliary quantities can be introduced by other means.

It can happen that the relative value of the quantities U, r, t ', R excludes the practical implementation of the circuit according to FIG.

This is e.g. B. the case when the front generator supplied electricity becomes very significant. In such a case, the parallel resistance between 5 and 6 replaced by a DC transformer. Fig. 2 shows an example such an arrangement. The coil i of the regulator is, as before, via a resistor q. connected to the terminals of the generator. The resistance between 5 and 6 The Fig. i is replaced by an inductance g., The generator current or a Partial flow is flowed through. It lies on the central core of a throttle io, whose Both outer cores carry windings i i and 12, which are connected to a rectifier 14. and a feed transformer 13 are connected in series. Receives in a known manner the rectifier due to the saturation which fluctuates with the current in the winding g of the magnetic circuit io a fluctuating current. This is made up of a resistor 15 added, which exerts the same effect on the measuring unit coil i of the controller like the resistance between 5 and 6 of Fig. i. The transformer 13 is from a any AC power source of constant voltage. The arrangement permitted correspondingly the same variants as those listed for FIG.

As I said, the invention is not related to a specific type of controller bound. A vibrating contact regulator has proven itself best. The measuring mechanism coil can namely then - with direct current - are formed by the moving part alone, whose low power consumption facilitates the application of the invention; because this allows a considerable reduction in the voltage supplying parts, i.e. the Resistor 15 (Fig. I) and the DC transformer g-14 (Fig. 2).

Due to its special arrangement, such a controller is if the influence of the return spring is neglected when the coil is de-energized in the middle position in balance. The measuring element of such a controller can consist of two coils, a movable and a fixed coil. An attractive one arises between these or repulsive force as a function of the product of the currents flowing through each of the coils flow through. This property allows the solution of certain complex problems, like regulation on constant load as a product of current and voltage. One can So with the application of the invention the characteristics of a generator one Press regulation depending on the performance.

The circuit according to Figure 3 is intended for use in a special case. The inductance i is the movable and 23 the fixed coil of a controller, or vice versa. The branch 1-23-q. is under the effect of the terminal voltage of the generator to be regulated. It works due to the characteristics of the rectifier 7 a regulation on constant voltage up to the moment in which the voltage difference between the terminals of the to the DC transformer 9-14-i5 belonging Resistance i5 is large enough to take over the actuation of the coil i. from At this moment the current in i is a function of the current in winding 9 of the transformer, while the current in 23 becomes a function of the terminal voltage.

The controller then regulates depending on the power U-I. if then the direct current branch 9-24-25 a sufficiently high current through the resistor 25 supplies, the current in the transformer 9 is at the same time via the rectifier 26 - i4- i 5 and the terminal voltage over 2-3 for the effect of the two regulator coils i and 23 increased, both of which are under the influence of the transformer 9-24-25. However, this means that the regulation becomes a function of the current strength alone. the both transformers g -24-25 and 9-14-15 are from the same AC voltage source fed. However, separate voltage sources can also be used.

The examples described relate to the regulation of direct current generators. In the case of systems supplying alternating current, the alternating current can easily be generated by known means are rectified, so that the same arrangements can also be used for regulating alternators are to be used.

Claims (3)

PATENT CLAIMS: i. Circuit arrangement for Spamiüngsregel a DC generator between idle and a certain value of the load as well as for current regulation at this load, characterized in that the measuring mechanism coil (i) of the controller connected to the generator terminals (2, 3) via a resistor (4) is and her via an asymmetrically conductive element, z. B. a rectifier (7), a resistor (i5) is parallel, which is also connected to the load (RL) is connected to the generator terminals (Fig. i). 2. Modification of the circuit arrangement according to claim i, characterized in that the resistor (15) is parallel to the measuring mechanism coil (i) is not directly in the generator circuit, but via a rectifier bridge (i4) to a choke (9 to i3) which is pre-magnetized by the generator direct current, d. H. is connected via a DC transformer (Fig. 2). 3. Circuit arrangement according to claim i or 2 for regulation as a function of more than two variable quantities with a fixed and a movable measuring mechanism coil for the voltage, power and current-dependent regulation of a direct current generator, characterized in that the movable coil (i) is connected in series with the fixed coil (23) and a resistor (4) with the generator small arms (2, 3), that the movable coil is connected in parallel via a rectifier (7) a resistor (i5) which is connected via a rectifier, rücke (i4) is finitely connected to the direct current transformer (9 to 13) through which the generator current flows, and that a resistor (25) is connected in parallel to the fixed and movable coil via a rectifier (26), which via a rectifier bridge (24) with a second winding of the DC transformer is connected (Fig. 3). Documents considered: German Patent No. 3724i5; Siemens magazine, year 1937, pp. 52 to 55; ASEA-Journal, vol. Ig39, pp. 76 and 77. Older patents considered: German Patent No. 922 723.