SU1415367A1 - Stabilizing d.c. voltage converter - Google Patents

Abstract

The invention relates to electrical engineering, namely to secondary power sources. The purpose of the invention is to improve the accuracy of stabilization of the output voltage over a wide range of load current. The converter contains two one-stroke inverters 3, 4, a control unit 29 containing a master oscillator 30 and a sawtooth voltage generator 34, a feedback amplifier 32, the first voltage comparator 37, the first pulse distributor 39. Into the control unit integrator 33, second pulse distributor 40, differential amplifier 36, amplitude detector 35, second voltage comparator 38. Achieving the goal is achieved by eliminating the effect of output voltage ripples on the transfer characteristic by highlighting the average value of the error signal. 2 Il. i С /)

Description

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The invention relates to converter technology and can be used in stabilizing secondary power sources when a constant voltage with a low level of ripple is required when the load current varies from zero to minimum and minimum weight-size indices.

The purpose of the invention is to improve the accuracy of stabilizing the output voltage of the converter over a wide range of load current.

Figure 1 shows a functional voltage transformer circuit; 2 shows timing diagrams explaining the operation of the converter.

The stabilizing voltage converter contains (FIG. 1) DC input terminals 1 and 2, two single-ended inverters 3 and 4 containing transformers 5 and 6 with primary windings 7 and 8 and connected counter-secondary windings 9 and 10 Primary windings 7 and 8 They are made with taps and consist of sections 11, 12 and 13, 14, respectively. Inverters 3 and 4 also contain the first 15 and 16 and the second 17 and 18 main control keys, respectively. The keys 15-18 are connected to the extreme outlets of the primary windings 7 and 8 and the input terminals 1 and 2, and the keys 16 and 18 are loop-diodes 19 and 20. Additional controllable keys 21 and 22 are connected to the tapes of the primary windings 9 and 10 respectively and the second terminal 2 DC. In addition, the inverters contain regenerative diodes 23-26, the output rectifier 27, the output filter 28, the output of which converts the output of the converter.

The control unit 29 contains a master oscillator 30 of vapor-phase pulses with a clock output 31, a feedback amplifier 32, whose inputs form the control input of the converter, the output is connected to the first input of the integrator 33, and the second input of the integrator 33 is connected to the clock output of the rear generator 30, the input The sawtooth voltage generator 34 is also connected to the clock output of the master oscillator 30, and the output 35 is connected to the second through the amplitudes np. with differential input

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36 and the second inputs of the first 37 and second 38 voltage comparators. The first input of the comparator 37 is directly, and the comparator 38 is connected through the differential amplifier 36 to the output of the integrator 33. The third inputs of the first 39 and second 40 pulse distributors are connected to the output of the voltage comparator 37 and the output of the differential amplifier 36, respectively, and the first and second inputs are with antiphase outputs of the master oscillator 30.

In the diagrams (figure 2) indicated: 41 - clock pulses of the master oscillator 30; 42 and 43 - paraphase pulses at the output of the generator 30; 44 — pulses at the output of the saw-tooth generator 34; 45 is the output voltage to the integrator 33; 46 is the voltage at the output of the differential amplifier 36; 47 — pulses at the output of the voltage comparator 37; 48 and 49 - pulses at the output of the first distributor 39 pulses; 50 — pulses at the output of the second voltage comparator 38; 51 and 52 — pulses at the output of the second distributor 40 pulses; 53 and 54 - anti-phase voltages on the windings of transformers 5 and 6; 55 is the voltage at the output of the gauge 27.

The Converter operates as follows.

At a nominal load current, the pulses 41 from the clock output of the master oscillator 30 are fed to the inputs of the sawtooth generator 34 and the integrator 33, operating at the clock frequency. At the inputs of the feedback amplifier 32, a reference voltage and a feedback voltage are supplied from the output of the converter. From the output of the voltage amplifier 32, proportional to the difference of the indicated voltages, is supplied to the integrator 33, where the indicated voltage is integrated during a clock, and the voltage of the integrator 33 is formed equal to the average value of the error signal for the period of the clock frequency, which is supplied to the inputs of the differential amplifier 36 and comparator 37.

From the output of the comparator 37 pulses with a duration proportional to the average value of the error signal.

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The inputs of the distributor 39 pulses and then to the control inputs of the keys 21 and 22. From the output of the differential amplifier 36, the voltage 46, shifted relative to the voltage 45 to a level equal to the amplitude of the sawtooth voltage 44, is supplied to the input of the comparator 38 at the output of which the voltage level is logical 1, therefore the duration from signals 51 and 52 is equal to the duration of the antiphase signals 42 and 43 and the keys 15, 16 and 17, 18 work alternately in counter-action with a constant duration.

When the load current decreases, the voltage of the error signal increases, the voltage 45 at the output of the integrator 33 turns out to be above the amplitude of the sawtooth voltage 44, therefore the output of the comparator 37 and the pulse distributor 39 are voltage with a logic level O, while the keys 21 and 22 do not close. At the same time, the voltage at the output of the differential amplifier 36 is at the level of the sawtooth voltage 44 and from the output of the comparator 38 pulses 50 with a duration proportional to the average error signal are fed through the distributor 40 pulses to the control inputs of the main switches 15-18.

Consider the work of the transducer on the time diagrams At the rated current at time t, the keys 15 and 16 close and the primary winding 7 of the transformer 5 is connected to the input terminals, on whose windings a voltage is generated

53. At time t, defined by voltage 45 (dashed line), and therefore, the voltage at terminals 1 and 2, a pulse 47 appears at the output of the comparator 37, through which the switch 21 is closed. transforming transformer 5, the output voltage is stabilized when the voltage at terminals 1 and 2 changes. At time t, switches 15, 16 and 21 open (after changing the state of the master oscillator) and inverter 4 comes into operation, the work is similar. When the load current decreases, i.e. increasing its resistance, the time constant of the link output filter

the load increases, while the voltage at the output of the converter increases, causing an increase in the error signal, and therefore the voltage

45 at the output of the integrator 33. At a time when the voltage 45 is equal to the amplitude of the sawtooth voltage 44, the voltage 46 at the output of the differential amplifier 36 is equal to the minimum value of the voltage 44. With a further decrease in the load current, the voltage 45 (line voltage) becomes higher than the amplitude voltage 44 and voltage

46 (solid line) sbmie minimum voltage 44, Modulir TOTS pulses 51 and 52, controlling the main switches 15-18, stabilized the output voltage. At the same time, although the stabilization takes place with a full modulation depth, due to an increase in the time constant of the link, the output filter load ripple level does not increase. Chart 55 shows the voltage at the output of the rectifier 27.

Thus, the converter allows to stabilize the output voltage with a low level of ripple when the load current changes from idle to nominal by using an additional mode

full pulse width modulation of the inverters. In addition, the influence of the output voltage ripple factor on the transfer characteristic of the converter is excluded by extracting the average value of the error signal.

Claims (1)

Invention Formula A DC voltage stabilizing converter containing a master oscillator, the paraphase outputs of which are connected to the inputs of the first pulse distributor, the third input connected to the output of the first comparator, the first input of which is connected to the output of the sawtooth generator, and the input to the clock output of the master oscillator, as well as a feedback amplifier and two single-ended inverters, each of which contains an output transformer, one of the extreme outputs t, tt 5 Compiled by I.Nikitin Editor N.Tupitsa Tehred L.Oliynyk Proofreader M. Vasilyeva Order 3881/52 Circulation 665 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Subscription