SU964906A1 - Voltage converter - Google Patents

Description

(54) VOLTAGE CONVERTER

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FIELD OF THE INVENTION The invention relates to a medical inspection, namely to secondary sources of surgery.

Single-ended converters of an autotransformer type are known, the content of magnetic accumulative spruce (reactor, / fospep), controlled by a power switch, is an ignition diode 1.

The disadvantage of the known schemes is that either the transfer or the energy consumption from the source is caused by the ICS Kretno. With the discrete nature of the current (consumed or transferred to the load) the energy losses increase, so that for a given average value of this 15 current the amplitude value is higher, i.e. energy losses are

the quadato of the amplitude value, and the liepe of the energy given is proportional to; medium-: its current value, M

A push-pull voltage converter is known, in which the continuity of the process of energy and SZ consumption is ensured.

The disadvantage of the known device is complexity, since two power switches, a control circuit, and a three-winding transformer are used.

Closest to the invention is a voltage converter, which contains a choke connected to the iiepeoMy output terminal, followed by a coil of the transformer and a xalmutating daod connected to the output cable, and the controlled power switch through the jussel socket and the hands of the wrench and the wrench. input and second you-: Khbdaoy conclusions combined L3j.

 The disadvantage of a scoop device is complicated, since two smart rules are used; key and, of course, a two-channel control unit providing alternate switching of power switches. In addition, the use of a push-pull mode to overturn the transformer may cause a voltage to be unbalanced.

its core and, as Gneacf & ae, to overload one of the power keys that are increased above 1% energy loss.

The purpose of the invention is to simplify the device and expand its functionality by adjusting the output voltage.

The goal is achieved by introducing a transformer secondary winding and a full-wave transformer into the voltage converter, the transformer being made on a core with a linear magnetic characteristic, and the secondary winding of the transformer is connected between one of the input and the first output terminals between the two transformers.

The drawing shows an electrical voltage converter circuit.

The voltage converter is connected to the power source through the first 1 and second 2 input pins, and the first 3 and second 4 output pins are connected to a load made, for example, in the form of a parallel R.C-circuit or kch Phase unregulated inverter (power source and. load not shown). The second input 2 and output 4 pins are combined, between the first input output 1 and the first output terminal 3 includes a series-connected winding of the choke's 5, the primary winding 6 of a transformer 7 having a secondary winding 8, and a switching diode 9. Between the first terminals 1 and 3 ,. In addition, a half-wave rectifier 10 is connected through the secondary winding 8 of the transformer. Between the first 1 and the second 2 inputs through the winding of the driver. A power control switch 11 is switched on.

Transformer 7 is performed on a core with a linear magnetic characteristic. In addition, the secondary winding of the transformer can be made single-phase, and the expander can be made using a bridge circuit.

The proposed device futasdionirue as follows ..

In choke 5 and in front of the transformer 7, the energy of the magnetic field is stored, which is expressed in the flow of current through the winding of the throttle 5, and the primary winding 6 of the linear transformer 7, during the open state of the controlled key.

When the power controlled key 11 is closed, the switching diode 9 is locked, and as a result of the power failure in the core of the linear transformer

7 on its secondary winding 8 an EMF of electromagnetic induction occurs, through the rectifier 10 the current of the secondary winding 8 enters the load. At the same time, the energy stored in the transformer 7 is partially dissipated, which corresponds to a decrease in the current transferred to the load through rectifier 10.

. The power winding key 11 flows through the winding of the throttle 5, and in the throttle you accumulate the magnet magnet on the floor, 4ej4y corresponds to the growth of the winding current of the generator.

When the power controlled switch 11 is transferred to the locked state, the winding of the throttle again begins to flow through the winding 6 and the switching diode 9. At the same time, the energy from the throttles is not transferred partially to the load, but partially accumulates in the core of the transformer 7. the load circuit receives a differential current, which is equal to the difference in the secondary winding 8 of the current difference between the winding of the throttle corresponding to the energy accumulated in the inductor, and the current of the winding 6 corresponding to the energy accumulated in the linear core transformer.

By changing the ratio between the time of accumulation of energy in the core of the throttle and the time of its output, it is possible to regulate the output voltage.

If the winding 8 through the rectifier 10 is switched on between the first terminals 1 and 3, it is possible to ensure, with an appropriate selection of the transformation ratio of the winding 8, the shape of the current with small pulsations in the load circuit with a stepped form of the consumed current.

If winding 8 through rectifier 10 is turned on between pins 2 and 3 (shown as a dotted line), then the current consumption farm with maltmi pulsations is provided AND a jump-like change of the current transmitted to the load.

; Thus, this device is simpler because it contains one controllable key, and consumes less energy, since the losses in the control circuits are reduced. It is possible to change the control characteristic of the first 1m by switching the output of the series circuit formed by the elements

8 and 10, from the first output 1 of the device to the second 2 n back, which expands the functionality of the circuit. Formula and 3 bp eta Converter transducer, containing a choke connected to the first input pin choke, consistent with which is connected the primary winding of the transformer and the switching diode connected to the first output circuit, and the control diode connected to the first output circuit, and the control cable, which is connected to the first output circuit, and the control cable, which is connected to the first diode, connected to the first output circuit, and the control cable, the power diode connected to the first output circuit, and the control cable, the control diode connected to the first output circuit, and the control power cable, the control diode connected to the first output circuit, and the control cable, the power diode connected to the first output circuit, and the control diode connected to the first transformer and a switching diode connected to the first output circuit, and the control cable connected to the primary transformer and the switching diode connected to the first output circuit input terminals, weopoiR input and second output pins are combined with the fact that, in order to simplify and expand the functions,) real-world capabilities, regulate the output voltage, the second winding on the transformer and two rectifier half-cycle, and 9 to 66 vscholnen transformer core with a linear magnetic characteristic and the secondary winding through a full-wave transformers vshr DC converter is connected between one of the input and pershit | 1M output terminals. Sources of information technology, i taken into account during the examination 1. Moin V.S., Laptev N.N. Stabilized grass-based transformers. M., Energie, 1972, p. 182-183, (Fig. 6, I 2. USSR certificate hfe 192913, CPG C O2 M 7 / S37, 1967. 3. Moin V.S. Laptev N.N. Stabilization of transducers. Transducers. M., Energie, 1972 , pp. 206, fig. 7-4 d.

Claims (1)

A voltage converter of contents connected to the first input terminal is a choke, in series with which the primary winding of the transformer and the switching diode are connected, sub-. connected to the first output terminal, and the controlled power switch through the inductor winding is connected in parallel with the input terminals, and the second input and second output terminals are a combination that differs in that, in order to simplify and expand functionality by regulating the output voltage, a secondary winding is introduced transformer and two-period rectifier, and in the transformer is made on a core with a linear magnet characteristic, and the secondary winding of the transformer through a two-period rectifier is connected between one of the input and the first output terminals.