DE2402602A1 - Static converter converts AC signals voltage and frequency - using input rectifier and output DC-AC converter with saturation transformer - Google Patents

Abstract

The static converter, for converting a single-phase a.c. signal voltage and/or frequency, has an input rectifier bridge to convert the a.c. into a pulsating d.c. voltage (of twice the input frequency) which is then passed to a DC/AC converter. The DC/AC converter consists of two transistor switches and two capacitors. The transistors are controlled by a circuit consisting of a saturation transformer and two base circuits, formed by diodes, two capacitors and two resistors. The saturation transformer contains two special windings coupled in series with the converter coasting diodes.

Description

tC AC converter-The invention relates to a circuit arrangement for converting single-phase mains alternating current into single-phase alternating current of others Voltage and / or frequency with secured galvanic separation from the supply circuit.

As a rule, small electrical appliances are used in public AC power distribution network operated inductively via a power transformer, which has two galvanically separated windings for the two circuits.

Such transformers, briefly referred to as Netztra'fo by experts but have the disadvantage that they are already at relatively low levels of performance be of considerable weight. So you have to for small appliances in the consumption area between 0.1 and 1 KVA with weights between 5.2 and 18 kg for those customary in the trade You can count on mains transformers with which the mains voltage can be used in a, for example, to operate from halogen incandescent lamps terminated low voltage is to be converted.

It is clear that then the handling of portable, with such Lighting devices equipped with lamps such as photo or film lights, Headlights and the like. Is considerably more difficult. In addition, the for The accommodation of the network transformer often requires undesired space, optically unappealing housing dimensions.

The invention is now based on the object of showing a way the power supply of small electrical consumers from the public supply sun network with secured galvanic isolation of the consumer circuit, without as customary mains transformers have to be used for this this is to be achieved with a circuit arrangement of the type mentioned, for which also the demand for light weight, according to the structural conditions of the device adaptable structure, according to the smallest possible construction volume and after a Switching behavior is fulfilled, which is high both on the network and on the consumer side Avoids switching tones.

The invention is also based on the problem of the technical effort to choose the new circuit arrangement so that production at cost is possible is, with those in competition with the benefits when considering the advantages achieved conventional devices equipped with a mains transformer can be used. The gift of aurus the invention is achieved by a converting circuit arrangement. The new and The invention of this circuit arrangement is characterized by the unification a) a rectifier circuit, in which the sinusoidal AC mains current in a pulsating direct current is converted, with b) an inverter circuit, in which the pulsating direct current supplied by the rectifier circuit is used a control circuit into an equal-amplitude, higher-frequency square-wave alternating current is converted and c) an electronic control circuit with a saturation control transformer to control the switching transistors of the inverter, the control not only, as is known, through feedback of the collector or emitter current, but In addition, also by feedback of the inductive load current via a specially designed dedicated winding of the control transformer and one with this winding freewheeling diode connected in series takes place, and d) an output transformer, which the higher-frequency square-wave alternating current supplied by the controlled inverter circuit into a square-wave alternating current, galvanically separated from the mains, with one from the consumer The new circuit arrangement transforms the mains alternating current converted into a higher-frequency consumer alternating current, which is a square-wave With the sinusoidal net current curve being the envelope curve for the forms positive and negative amplitudes of the consumer alternating current. With this Converted square wave alternating current can easily resist resistive loads, however such as asynchronous motors on the line frequency are not operated and the sinusoidal course of the current curve arrives. This is done according to the invention However, this is possible if the higher-frequency Square-wave alternating current is fed to another converter, which this alternating current first converted back into a pulsating direct current which is then converted with the help of electrical valves controlled synchronously with the mains frequency, e.g. thyristors is converted into a sinusoidal line-frequency alternating current.

Further features of the circuit arrangement according to the invention and the The advantages resulting therefrom are described in the following description of the enclosed Drawing explained in more detail. 1 shows the circuit diagram of the invention Circuit arrangement Fig. 2 shows the circuit diagram of an addition to the circuit arrangement according to Fig. 1, which is the case of consumers with a mains frequency synchronous, tsine-shaped current curve is required.

The circuit arrangement shown in Fig. 1 according to the invention forms a converter U 1 for single-phase mains alternating current into a single-phase Alternating current with a different voltage and / or frequency with secured galvanic isolation from the mains circuit. This converter is intended for AC power consumption devices to take the place of the previously common mains transformer. Result from this Significant weight and space savings for these devices. So could one Device with a consumer power of 50 watts a weight saving in proportion of about 1:10 can be achieved after the power transformer required there in weight of 1.2 kp was replaced by a converter according to the invention, the weight of o, 125 kp.

The weight saving ratio for consumers is even better in the power range of 1000 watts. A commercial mains transformer of 1 KVA weighs then approx. 18 kp.

A converter according to the invention which replaces this transformer has a weight of about 0.450 kp, so there is a weight-saving ratio of 1:40 results.

With its inputs E 1 and E 2, the circuit arrangement according to FIG. 1 connected to the public AC power grid. The one taken from the network Alternating current passes through the fuse Si and that of the capacitor C 1 and the Choke Dr formed radio interference suppression to the rectifier Gr, the single-phase Mains alternating current is converted into a pulsating direct current of twice the mains frequency.

The rectifier Gr is an inverter in a half-bridge circuit downstream, essentially of the two capacitors C 2 and C 5 and the two electronic switches, namely the switching transistors Ts 1 and Ts 2 is formed.

An electronic one is used to control the two switching transistors Control circuit consisting of the saturation control transformer Tr 15 the two diodes D 7 and D 4, the two capacitors C 4 and C 5 and the two nschw-rnngwiderstden R 1 r 'B 2.

According to the invention, the control transformer contains two special windings Ic and IIc. These two windings are connected to the two freewheeling diodes D 1 and D 2 connected in series.

Depending on whether the * transistor Ts 1 or Ts 2 is current-permeable, the pulsating direct current supplied by the rectifier Gr flows through alternately the transistor Ts 1, the winding Ib of the control transformer Tr 1, the winding I of the output transformer Tr 2 and the capacitor C 5 and the capacitor C, respectively 2, the winding I of the output transformer Tr 2, the transistor Ts 2 and the winding II b of the control transformer Tr 1.

This is done by winding Ib or IIb of the control transformer Tr 1 flowing emitter current of the transistor Ts 1 or Ts 2 in the winding Ia or IIa with one of the current amplification of the transistor Ts 1 or Ts 2 required accordingly Gear ratio induced. This current flows through alternately the diode D 5 and the base-emitter path of the transistor Ts 1 and the diode D, respectively 4 and the base-emitter path of the transistor Ts 2. This causes in the base control circuit of the two transistors an approximately constant voltage drop, which also occurs the windings Ia and IIa of the control transformer Tr 1 occurs. This will depending on the magnetic dimensioning of the control transformer Saturation in a half-oscillation time determined by the desired switching frequency causes. This saturation leads, in a known manner, to the switching off of the transistors Ts 1 or Ts 2. This shutdown process is accelerated by the capacitor C 4 or C 5. After switching off, an inductive reactive current continues to flow via the freewheeling diode D 2 or D 1 of the respectively previously blocked transistor Ts 2 or Ts 1, and Uber the special windings IIc or Ic connected in series with the the control transformer according to the invention has been additionally provided '.

As a result of the above described functional sequence in the controlled The inverter circuit is the pulsating direct current supplied by the rectifier Gr converted into a higher-frequency symmetrical approximately square-wave alternating current, the amplitudes of which form an envelope curve that corresponds to the sinusoidal shape of the mains current. The switching frequency of the inverter and thus the frequency of the converted The secondary current is expediently chosen so that on the one hand it is above the hearing limit on the other hand is at the limit of the power of the transistors.

An essential feature of the invention is the new circuit arrangement in that not only the emitter or collector current of the transistors in their Basic control circuit is coupled in but also via the freewheeling diodes D 1 or D 2 flowing inductive reactive current, namely But the special windings Ic or IIc of the control transformer Tr 1. This ensures that the frequency-determining Voltage applied to winding Ia or IIa immediately after the switch-off process of the transistor Ts l or Ts 2 arises and not only when the inductive Reactive current has decreased to zero according to the phase shift and the Transistor Ts 2 or Ts 1.- its emitter current U through the winding IIb or Ib in couples the basic control circuit. This has a constant switching frequency of the inverter circuit result. It is avoided that the frequency drops into the audible range on the one hand, and on the other hand rises so high that undesired switching losses of the transistors result.

From the above-described mode of operation of the inverter circuit results inevitably that on the secondary side of the output transformer Tr 2 also a higher-frequency square-wave alternating current is delivered to the connected consumer will. As a result, however, this consumer current is in its current curve profile after the invention has an envelope curve that corresponds to the sinusoidal shape of the emergency zitrome is a prerequisite to ensure that the output from the output transformer Tr 2 Square wave alternating current without great technical effort into a sinusoidal alternating current of mains frequency can be rearranged if this is required by the consumer.

in Figure 2 is the circuit diagram of an additional serving this purpose Inverter shown.

Between the outputs A 1 and A 2 of the output transformer Tr 2 of the converter U 1 according to FIG. 1 and a line-frequency sinusoidal alternating current to be operated consumer is connected to the other converter U 2, which is from the Rectifier circuit with rectifiers Gr 2 and Gr 3 and the control circuit from the control transformer Tr 5, the thyristors Ty 1 acting as a flow valve and Ty 2 is formed.

The higher-frequency square-wave alternating current entered at inputs E 5 and E 4 is commutated in the rectifier circuit Gr 2 / Gr 5 and into a pulsating direct current reshaped from twice the line frequency. With the help of the control transformer Tr 3 synchronous to the network frequency-controlled thyristors Ty 1 and Ty 2 is this pulsating direct current converted into a sinusoidal mains frequency alternating current and fed to the consumer via the outputs A 3 and A 4.

It goes without saying that other electronic devices can be used instead of thyristors Switches e.g. transistors can be used.

One advantage of a converter is that it is neither on the network nor on the consumer side allows high inrush currents, as they occur with commercially available transformers can.

PATENT CLAIMS a

Claims (3)

Claims 1. Circuit arrangement for converting single-phase Mains alternating current in single-phase alternating current of a different voltage and / or frequency with secured galvanic separation from the supply circuit, marked by the union of a) a rectifier circuit, in which the sinusoidal mains alternating current is converted into a pulsating direct current, with b) an inverter circuit, in which the pulsating direct current supplied by the rectifier circuit is used a control circuit into an equal-amplitude, higher-frequency square-wave alternating current is converted and c) an electronic control circuit with a saturation control transformer to control the switching transistors of the inverter, the control not only, as is known, through feedback of the collector or emitter current, but in addition, by feedback of the inductive load current via a dedicated dedicated winding of the control transformer and one with this winding series-connected freewheeling diode takes place, as well as d) an output transformer, which is the higher-frequency square-wave alternating current supplied by the controlled inverter circuit into a square-wave alternating current, galvanically separated from the mains, with one from the consumer formed from a certain voltage. 2. Circuit arrangement according to claim 1) characterized in that here another converter is assigned to which the output transformer supplied higher-frequency square-wave alternating current into a sinusoidal mains frequency Forms alternating current. 3. Circuit arrangement according to claim 2) characterized in that The converter is formed by a rectifier circuit, the pulsating direct current a line frequency controlled inverter with thyristors as switching valves feeds.