DE1038113B - Device for converting pulses that occur at regular intervals into multiphase alternating voltage - Google Patents

Description

GERMAN

The invention relates to the formation of multiphase alternating voltages with conversion of pulses occurring at regular intervals. It is known per se to generate alternating voltages from a direct current source to use inverter arrangements with mechanical Breakers or electronic switches, e.g. B. transistors are equipped. The generation of AC voltages have the advantage of transforming voltage into any voltage value to be able to form.

To supply three-phase motors, it is often desirable to use multiphase alternating voltages available. The invention solves the problem of adding a transistor circuit for motor drives create, which supplies multiphase AC voltages from an existing power source, in particular a direct current source.

In order to generate multiphase alternating voltages, the invention makes use of the conversion of to pulses occurring at regular intervals. These impulses represent and determine the clock Frequency and phase position of the alternating voltages to be generated. In contrast to the known Inverters receive the impulses which are taken from a special impulse generator can or are to be fed in as external pulses from somewhere, fed to bistable multivibrators. The number of bistable multivibrators corresponds to the desired number of phases. According to the invention two gate circuits (AND gates) are provided for each flip-flop circuit, the output side with the Control elements of the flip-flop circuits and on the input side both with a pulse generator and via one control element each of the other flip-flops is brought into connection with a control potential in this way are that only with the simultaneous presence of signals at the individual gates of a gate circuit the pulse reaches the control element of the flip-flop in question and actuates it in the process, so that one circuit is closed and a second circuit is interrupted. Here can with one circuit half and with the second circuit the other half one with Center tap provided primary winding of a transformer lie on its secondary winding a phase voltage is removed in each case. This is preferably used as a transformer a so-called pulse transformer with relatively small dispersion and induction is used to in this way to achieve a curve that is as rectangular as possible. Further features of the invention are the use of fast switching dormant device

to convert to regular
Intervals occurring impulses
in polyphase alternating voltage

Applicant:

Siemens-S chuckertwerke

Aktiengesellschaft,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Dipl.-Ing. Fritz Irro, Nuremberg,

and Dr.-Ing. Georg Sichling, Erlangen,

have been named as inventors

Circuit elements, such as. B. transistors and rectifier diodes, for the flip-flops and the automatic flip-flops and amplifier inverters used for chopping direct current into pulses.

An essential feature of the invention is that the number of phases desired in each case corresponding number of bistable multivibrators with respect to their frequency with a single one automatic toggle switch - a so-called multivibrator - are controllable.

Further details of the invention are explained in more detail using an exemplary embodiment shown in the drawing.

In Fig. 1, a pulse generator JG in the form of a known automatic flip-flop circuit - a so-called multivibrator - and an inverting circuit Um serving to reverse and amplify the pulses generated in the pulse generator are provided for converting a direct voltage into a three-phase alternating voltage. At the output of the reverse circuit Um described in more detail below, pulses occur at regular intervals, the size of which can be set by the pulse generator JG , which are connected to one or the other gate of the gate circuits (pulse distributor) via a common supply line I ₁ , I _2. / Z ^ ₁₁ to JV ₃₂ are supplied by bistable multivibrators K ₁ to K _3. Each of these impulse distributors has two further inputs, which each have to be explained with the collectors

809 6MV2Ö8

of a transistor Tr ₅ , Tr _{6 of} the flip-flops K ₂ , K _{3 of} the other phases are connected. It should be noted at this point that, for the sake of simplicity, the flip-flops K ₂ and K _{3 are} not shown in detail, since they correspond exactly to the flip-flop circuit K ₁ in structure. By appropriately tilting the individual multivibrator circuits K ₁ to K ₃ , phase voltages U _R , U _s and U _T that are electrically shifted by 120 ° will occur on the secondary windings of transducers W.

For this purpose, a direct voltage is applied to the outer electrodes of the transistors Tr ₁ and Tr _{2 of} the pulse generator JG , namely the collectors are connected to a potential -U via resistors R _cl and R _C2 , the emitters to zero potential 0 and the bases on the one hand via diodes D ₁ and D _{2 are connected} to the tap of a FanO potentiometer and, on the other hand, directly to + U. To ensure that the tipping process runs automatically, the collector of one transistor is _{fed back to the base of the other transistor by means of a capacitor C ^ 1} and C ^ _2, and the connection between the collectors and these capacitors is fed to differentiating elements DG ₁ and DG _{2 of} the reversing circuit Um where the almost rectangular pulses occurring at the output 3, 4 of the pulse generator according to FIG. 2a and offset by 180 ° are converted, the positive pulse being strongly pronounced, since the opening of the transistors Tr ₁ and Tr _{2 is} known to occur much faster itself goes as closing.

For conversion into alternating voltages, only the steeper and larger positive pulses are used in the further course, while the significantly smaller negative pulses are suppressed. This is done by means of the transistors T ₃ and T _{4 of} the reversing circuit Um, whose bases and emitters are each connected to the differentiating elements DG ₁ and DG ₂ and, together with them, are connected to zero potential 0, whose collectors, on the other hand, represent the pulse outputs Z ₁ and J ₂ , at which the negative pulses I ₁ and i ₂ , mutually offset by 180 ° according to FIG. 2 c, occur. These pulses are fed to the input of one of the mentioned pulse distributors JV via lines I ₁ and I ₂ . The conversion of the pulses I ₁ and i _2, which occur at regular intervals, into a corresponding three-phase alternating voltage is _{ensured by the pulse distributors / F 11} to JV ₃₂ in such a way that the inputs of each pulse distributor except for the outputs Z ₁ and J _{2 of} the switching device Um one of the two other flip-flops K ₂ and K _{3 are} connected to the collectors of the transistors Tr ₅ and Tr ₆ , namely the first pulse distributor / F _{11 of} the flip-flop K ₁ with the output J ₂ (Tr ₅ ) of the flip-flop K ₂ and the output t _t (Tr ₆ ) of the trigger circuit K ₃ , the second pulse distributor / F ₁₂ except with the pulse output J ₂ with the output ^ ₁ (Tr ₆ ) of the trigger circuit K ₂ and t ₂ (Tr ₅ ) of the trigger circuit K. ₃ connected. For the remaining pulse distributors, the connection with each other and with the pulse outputs is made in a corresponding cyclical exchange.

The flip-flops K ₁ to K ₃ work with the presumed use of pnp transistors so that when a negative pulse occurs on the base of the transistor Tr _5, it is quickly opened and at the same time the right transistor Tr _{6 is} blocked via the i? C feedback elements will. When the negative pulse hits the base of the right transistor, the process is reversed. The position of the flip-flop is retained until an opening pulse reaches the base of the blocked transistor. By blocking and opening the transistors of the flip-flop circuit, one or the other half of the primary windings of the converter W is connected to voltage, so that an alternating voltage occurs in the secondary winding. It should apply here that a positive voltage occurs on the secondary winding of the respective converter W when the left transistor opens, and a negative voltage occurs when the right transistor opens.

In Fig. 2d, the phase voltage U _R , U ₅ , U _{T are shown} with a rectangular curve shape. In this case, the voltage U _{R should become} positive at time t ₀ , that is to say that the transistor Tr _{5 of} the flip-flop circuit K _{1 should} open, which is done by applying a corresponding pulse to its base. However, this may only be done as a function of the phase positions of the two other voltages U _s and U _T , namely when these two voltages have the phase position indicated in FIG. 2d. Then at time i ₀ the voltage C7 _{S is} negative and the voltage U _T positive, ie the transistor Tr _{5 of} the trigger circuit K ₃ and the transistor Tr _{6 of} the trigger circuit K _{2 are} open, so that the collector potentials I ₁ and S _{2 are} negative and because of the similar potential at all gates of the pulse distributor / F _11, the pulse I ₁ reaches the base of its transistor Tr ₅ . The next flip-flop is supposed to make the voltage Uf negative at time I ₁ by opening the transistor Tr _{6 of} the flip-flop K ₃ . A pulse i ₂ is available for this, which is fed to the gate of the pulse distributor / F _{32 in a corresponding manner.} The criterion for the permeability of the gate are the two potentials at the points r ₁ and s. " Which, if negative, allow the pulse i ₂ to pass to the base of the transistor Tr _{6 of} the trigger circuit K ₃ , so that the trigger circuit K _{3 is} tilted to the negative side by the pulse I ₂ at time t _t. Correspondingly, at time i _2, a pulse I _1, in accordance with the potentials at r _x and t _{2, then} toggles the flip-flop K ₂ into the positive position. These processes are repeated at regular intervals corresponding to the frequency. A shortening or lengthening of the time interval between the individual pulses I ₁ and I ₂ is possible with the aid of the potentiometer P of the automatic flip-flop circuit JG . The device according to the invention can therefore be used, for example, to change the speed of an AC motor connected to the three AC voltages U _R to U _T. No changes need to be made to the circuit of the pulse distributors.

In Fig. 3, a pulse distributor with three gates for negative pulses is shown. It consists of three inputs, each with a rectifier G, which are combined to a common output by a kind of star connection, which is connected to a negative potential - U via a resistor R ₁ and is connected to zero potential via a larger resistor R _z. If any of the three inputs has a positive potential, the output is also positive. Since negative pulses can only occur at the output if all three inputs are negative at this time, the respective connection variation of the other two inputs to the collectors of the transistors of the other two results automatically

Claims (8)

Flip-flops. When using a gate circuit according to FIG. 3, the resistors of the reversing circuit, which are located in the supply circuit of the transistors and shown in dashed lines, can be omitted. When describing the mode of operation of the new pulse converter, the correct phase position was assumed. However, this correct phase position does not necessarily have to be set automatically when the device is switched on if the circuit is connected to direct voltage. In order to ensure with certainty a necessary starting position of the individual flip-flops when the device is switched on, the bases of the corresponding transistors of the individual flip-flops are connected to positive potential via rectifiers G1 to G3 and a switch Sch, so that a corresponding flip-flop position of the individual flip-flops is forced will. The device is now switched on by opening the switch Sch, after which the tilting process controlled by the pulse generator IG runs automatically and in the correct sequence at the frequency set on the potentiometer P. Pa T Ii N T Λ X S P R C C II E: 1. Device for converting pulses that occur at regular intervals into polyphase alternating voltages, characterized in that one corresponding to the number of phases Number of bistable trigger circuits and two gate circuits (AND gates) per trigger circuit are provided, the output side with the control elements of the flip-flop circuits and the input side both with a pulse generator and via a control element of each of the other flip-flops are associated with a control potential in such a way that only at the same time Presence of signals at the individual gates of a gate circuit of the pulse on the Control member of the flip-flop in question arrives and this flips over in such a way that a circuit closed and a second circuit is interrupted. 2. Device according to claim 1, characterized in that in the one circuit the one Half and in the second circuit the other half of a center tap provided Primary winding of a transformer is located at the secondary winding of each phase voltage is removed. 3. Device according to claims 1 and 2, characterized in that as a transformer a pulse transformer with relatively small dispersion and induction is used for Achieving as rectangular a curve as possible. 4. Device according to the preceding claims, characterized in that as a gate circuit a number of star-connected units corresponding to the number of phases of the alternating voltage Rectifiers are provided, the star point of which with a control part of the trigger circuit and is connected to a control potential. 5. Device according to claim 1, characterized in that a bistable trigger circuit known transistor circuit is used, in which the base of a transistor in each case is connected to one of the outer electrodes of the other transistor via ÄC elements. 6. Device according to claim 1, characterized in that for generating the pulses from A chopper device is provided for a direct voltage, the outputs of which are sent to the gate circuits are led. 7. Device according to claim 6, characterized in that a known per se automatic Trigger circuit with transistors, whose base-emitter circuit is connected via rectifier a variable DC voltage are connected, via differentiators and optionally downstream amplifier on the inputs of all gate circuits works. 8. Device according to the preceding claims, characterized in that for securing the correct phase sequence when commissioning the device, the corresponding control elements of the individual multivibrators can be connected to a blocking potential via rectifiers, in such a way that that a flip-flop position of the individual flip-flops that ensures the correct phase sequence and position forced and the facility is put into operation. 1 sheet of drawings 80Ϊ 600/208 9.58