SU892425A1 - Stabilized converter - Google Patents

Description

(54) STABILIZED CONVERTER

The invention relates to electrical engineering, in particular to secondary sources of power for electronic equipment. A known voltage converter-stabilizer comprising a master oscillator, a two-stroke transformer power amplifier with transistors connected in a control circuit with a master oscillator through an input transformer, a pulse-width modulator operating at a dual frequency of the master oscillator, an output rectifier and a short circuiter connected on input with a PWM modulator, and output with a winding of the input transformer 1. However, such a converter-bilizator has an increase in size due to larger Amounts of bulk products. A key DC voltage regulator is known, which contains primary and secondary key elements connected to a distribution node and, in series, connected DL and DL C-filters and a current sensor connected to one side through a threshold unit, and on the other comparing element, amplifier and PWM converter, with a distribution node, to the output terminal allowing to provide a continuous current mode in the filter choke and to reduce the overall dimensions and weight of both chokes with large changes in the load current ki 2. However, for small variations of the load current x this stabilizer has the increased size due to the additional choke. In addition, the device does not provide galvanic isolation between supply and output voltages. A device for powering radio equipment is known, which contains a series regulating transistor, an output DL C filter, and an output connected to a static conversion transducer. a voltage coupler connected to the control circuit of the modulator transistor. This device provides high efficiency and allows to obtain stabilized output voltages galvanically coupled to the primary source for supplying electronic equipment 3. The operation of the device’s main transistors in the key mode allows reducing the power dissipated on them

and reduce the size, however, the presence of a constant component of the current in the choke and restrictions on the maximum possible conversion frequency, caused by a decrease in the efficiency of a static converter operating in auto-oscillator mode, prevent a decrease in the dimensions of the throttle and transformer and, as a result, microminiaturization of the entire device.

The closest to the technical essence of the invention is a two-cable stabilized converter containing a filter capacitor, an output transformer, the secondary windings of which are connected to the output terminals via rectifiers, and the middle point of the primary winding is connected to one of the input terminals. parallel connected circuits, each of which contains a series-connected throttle and a power switch shunted by a diode, the control key to Each of which is connected to a control unit that includes a comparator, one input of which is connected to the control input terminal, the other to the output of the measuring element, and connected to one of the inputs of the coincidence elements, the other inputs of which are connected respectively to the paraphase outputs trigger, and the outputs of these elements are connected to the first two outputs of the control unit. In a known device, the construction of an inverter control circuit ensures the continuity of current transfer to the load on the secondary side a transformer at a constant triangular Borm transmitted current, and by fixing the amplitude of the current drawn from the power source, the stabilization is carried out an average value of current transmitted to a load, and simultaneously avtomticheska inverter protection from overcurrent. The smooth nature of the increase in current through the power controlled keys ensures the reduction of switching losses, and the elimination of the constant biasing of the throttles makes it possible to reduce its mass-dimensional characteristics 4.

(The disadvantage of the known inverter is the increased dimensions of the transformer and the filter capacitor, as well as increased ripple of the output voltage, which in some cases requires the installation of additional filters, resulting in an additional increase in the dimensions of the inverter. The increase in the dimensions of the transformer and filter elements in a known device caused by the need to transfer to a load having a capacitive nature, a current that changes according to a triangular law, while pulsations on april on the load should be The traditional method of reducing the size of the transformer and filter throttles by increasing the operating frequency of the inverter for a known device cannot give a full positive effect, as the frequency increases and the number of types of capacitors that can be used in filters, and the distortions introduced by the transformer also increase.

The purpose of the invention is to reduce the mass-dimensional characteristics of the device.

The goal is achieved by inserting two other power transistor switches into the device, the control transitions of which are shunted by diodes are connected to the additional terminals of the control unit, and the power transitions are connected between the terminals of the beginning and end of the transformer primary winding and the midpoint of the connecting half windings through a filter capacitor with one of the input pins, and through a parallel connected input resistor and capacitor - with the cathodes of two inserted diodes, the anodes of which are under lyucheny introduced to collectors of power transistors.

The control unit can be made in the form of a master oscillator connected to the inputs of a PIM and a trigger, the direct and inverse outputs of which are connected to the bases of the first differential transistors of the first differential pair, the emitters of which through a resistor are connected to another input terminal and to the first output of the PWM , the second output of which is connected to the inputs of the coincidence elements, and the control input is connected through a resistor to one of the input terminals and directly to the collector of one of the comparator transistors made in the diff circuit A potential amplifier whose input is connected to the midpoint of a resistive divider, and an emitter, through a resistor, to the same input terminal and directly to the emitter of the second transistorJ whose input is connected through a zener diode to one of the input terminals, through a resistor with its collector resistive divider and the third the output of the unit, and directly with the base of one of the p-transistors of the second differential pair, E1 itters, through a resistor connected to one of the input terminals, the collectors are pairwise combined with the collector The frames of the transistors of the first differential pair are connected to the auxiliary outputs of the block, and the base of the second pnp transistor of the pair is connected via a diode to the base of the first pnp transistor and directly to the collector of the pnp transistor to my trigger output, and the emitter is connected via a resistor to the first output of the PIM.

FIG. 1 is an electrical schematic diagram of the device; in fig. 2 - the same, with the option of switching on the throttle; in fig. 3 - Electrical principle of the control unit.

The device contains a control unit 1, the outputs a and b of which are connected to the bases of the pnp transistors of the power switches 2 and 3, the collectors of which through diodes 4 and 5 are connected to one of the input terminals and directly to one of the ends of the half-windings of the drossel 6, others the combined ends of which are connected to the emitters of the two other transistor power pnp switches 7 and 8, one output of the filter capacitor 9, and the power output to the control unit 1, the outputs of which are connected, respectively, to the shunted diodes 10 and 11, the bases of the transistor switches 7 and 8, the collectors of which are connected via an anode cathode of diodes 12 and 13 to a parallel-connected capacitor 14 and a resistor 15, and another input terminal through the half-windings of a transformer 16, the secondary windings of which are connected to the output terminals 18 of the device through rectifiers 17.

The embodiment of the device (FIG. 2) is similar to the first one, with the difference that the terminals of the beginning and end of the throttles 6 are connected to the collectors of the first power transistor switches 2 and 3 and the collectors of the additional power switches 19 and 20 of the reverse p-n conductivity, which shunt the base-emitter junction base-emitter junctions of the second power transistor pnp keys 7 and 8.

In addition, the control unit contains a master oscillator 21 (FIG. 3) connected to the inputs of the PWM converter 22 and the trigger 23, the direct and inverse outputs of which are connected to the bases of pnp transistors 24 and 25 of the first differential pair, the emitters of which a resistor 26 is connected to the input terminal, and accordingly to the outputs a and b of the block through two elements 2I-NOT 27, the other two inputs of which are connected to the output of the PWM converter 22, the control input of which is connected through a resistor 28 to one input terminal and directly with a collector of one from ppp transistors 29 differential amplifier, which plays the role of the comparator. The base of the transistor is connected to the midpoint of the resistive divider 30, which is the measuring body, and the emitter through the current resistor 31 - to one input terminal and directly to the emitter of the second transistor 32, the base of which through the anode-cathode of the Zener diode 33, which sets the reference control voltage, connected to one input terminal, and through a resistor 34 to its collector, resistive divider 30 and power supply unit and directly to the base of one and pnp transistors 35 of the second differential pair, whose emitters are black resistor 36 is connected to one input, collectors are pairwise connected to collectors of transistors 24 and 25 and connected to the outputs of the block guide, and the base of transistor 37 is connected through the cathode of diode 38 to the base of transistor 35 and directly to the collector of pn-p transistor 39, the base which is connected to the direct output of the trigger 23, and the emitter through the resistor 40 - to another input terminal connected to the common bus PWM converter 22.

The device works as follows.

Latitude-modulated pulses, which appear alternately at the outputs a and b of control unit 1, alternately open transistor power switches 2 and 3 for the time corresponding to the pulse duration. At this 9m, the current in the corresponding half winding of the throttle increases. When the key is closed, the energy stored in the choke maintains the current flowing through the diode 4 and 5 in the same direction, the value of which decreases linearly as the energy stored in the choke . In the next half of the period of operation, the current increases in the other half-winding of the throttles when opening another power switch and decreases when the power transistor is closed. The rate of rise and fall of the current in the winding of the throttles is determined by its inductance and the voltage applied to its terminals, therefore, at a constant switching frequency of the power switches in the device, the maximum value of the current flowing through the windings of the throttle does not exceed the selected values. In this way, automatic inverter inverter sigicit is provided against overcurrent without the introduction of any additional protection circuits.

By varying the opening time of the power circuits, it is possible to regulate the maximum and average value of the current flowing through the windings of the throttles and the capacitor of the filter 9. The triangular current pulses provide the charge of the capacitor of the filter 9 to a voltage corresponding to the set value. In this case, in the control unit, the portion of the capacitor voltage of the filter 9, removed from the resistive divider 30, is compared using a differential amplifier on transistors 29 and 32 with a reference voltage on the Zener diode 33. Depending on the result of the comparison, the output current of the differential amplifier that controls The duration of the output pulse of the PWM converter 22, which with the help of the flip-flop 23 and the elements 2I-NO 27, alternately arrives at the outputs a and b of the control unit 1. The switching frequency is determined by the frequency of operation of the master oscillator 21 and the duration of the switching on PWM signal is regulated in such a way that the voltage on the capacitor of the filter 9 is automatically maintained within the specified limits

Antiphase signals from the outputs of the trigger 23 go directly to the bases of the current-generating transistors 24 and 25 of the first differential pair, and through the current switch on the transistor 39 and the resistor 40 - to the bases of the current-generating transistors 35 and 37, where they are fixed with an accuracy of the voltage falling on the diode 38 on voltage level at Zener diode 33

The signal from the trigger outputs ensures switching on one of the transistors of the first differential pair and antiphase switching on of the transistors of the second differential pair. The collector currents of the transistors of both differential pairs are selected with the help of resistors 26 and 36 equal and sufficient to fully open the second transistor power switches 7 or 8 of the device and the corresponding alternating connect to the capacitor filter 9 half of the primary winding of the transformer 16. Conclusions beginning and end of the primary winding The transformer through diodes 12 and 13 is connected to a parallel KS chain 14 and 15, the time constant of which is chosen - much shorter the switching period a, which allows eliminating voltage spikes on the collectors of the power switches 7 and 8.

The differential, current switching of the power transistors of the power amplifier minimizes their turn on and off times, reduce the power losses on the switching and obtain an almost rectangular voltage on the secondary windings of the transformer,

which provides a constant voltage at the output of the rectifier in the absence of a filter capacitor or at small values when the switching time of the transistors becomes commensurate with the switching period.

In the proposed converter, the capacitance value of the filter capacitor 9 is 2-4 times less than in the well-known one, since it is chosen from the same calculated ratios, and practically its value is inversely proportional to the constant voltage across it.

The strict equality of the half-cycles of switching the key, the power amplifier and the switching SHIP-stabilizer, transistors ensures the symmetry of the work of the latter and contributes to a more satisfactory operation of the throttle and transformer at high frequencies.

Thus, the use of the proposed invention allows reducing the volume occupied by the most overall device elements by a choke and a transformer, reducing their linear dimensions, which makes it possible to develop a device in microminiature version with improved mono-dimensional characteristics 1 / 1I.

The introduction of differential transistor pairs allows switching of high-power key and switching transistors with limited base currents, minimizing time and increasing the switching frequency, and reducing the weight and size parameters of winding products and filter capacitors.

Claims (4)

1.Stabilized converter containing a filter capacitor, an output transformer, the secondary windings of which are connected to the output terminals via rectifiers, and the middle point of the first winding is connected to one of the input terminals, and the other input terminal is connected to two parallel-connected circuits, each each of which contains a series-connected throttle and a power switch shunted by a diode, the control electrode of each of which is connected to a control unit including a comparator one input otorrhea connected to a control input terminal, the other - to the output of the measuring body, and an output coupled to one input of the coincidence element, the other inputs of which Po; coedineny respectively to the outputs of the paraphase trigger elements and outputs connected to the first two outputs of the control unit, characterized in that, in order to improve mass-size pointers, two other power transistor switches are introduced into it, the control transitions of which bypass the diodes are connected to additional terminals of the control unit, and the power transitions are connected between the outermost terminals of the transformer primary winding and the midpoint the connections of the half windings of the chokes, connected through the filter capacitor to one of the input terminals, and through the connected in parallel connected resistor and capacitor to the cathodes of the two inserted diodes, the anode which are connected to the collectors of input transistors. 2. Stabilized converter according to claim 1, characterized in that the control unit is made in the form of a master oscillator connected to the inputs of the PWM and trigger, the direct and inverse outputs of which are connected to the bases of pnp transistors of the first differential pair, the emitters of which pass through the resistor is connected to another input terminal and to the first output of the PIM, the second output of which is connected to the inputs of the coincidence elements, and the control input is connected through a resistor to one of the input terminals and directly to the collector of one of the pnp-rt sources of the comparator, made according to the scheme of the differential amplifier, whose input is connected to the midpoint of the resistive divider and emitter, through a resistor, to this input terminal and directly to the emitter of the second transistor, whose input is connected through one zener diode to one of the input pins and collector, resistive divider and the third output of the block and directly to the base of one of the pnp transistors of the second differential pair, the emitters of which through a resistor are connected to one input terminal, the collectors are pairwise connected to the collectors of the transistors of the first differential pair and connected to the additional outputs of the block, and the base of the second pnp transistor of the pair is connected via a diode to the base of the first pnp transistor of the pair, directly to the collector of the pnp transistor, the base of which is connected to the forward trigger output, and the emitter is connected through a resistor to the first PIM output. Sources of information taken into account in the examination 1. Authors certificate of the USSR 473994, cl. G 05 F 1/64, 1975. 2. USSR author's certificate number 601681, cl. G 05 F 1/56, 1978. 3. USSR author's certificate number 418844, cl. G 05 F 1/56, 1972. 4. USSR author's certificate on application 2472582 / 24-07, cl. H 02 M 3/335, 04.04.77. 12 and -pthr LcT tfeHJ U; . "..".,. ii / 3 4th S 6 . t S - ABOUT/ D5 / J figure 1 ® l Ffl ABOUT f8 iw 1b 15th 2 -Tw L -year 0U2Z