SU748376A1 - Dc voltage stabilizer - Google Patents

Description

(54) TOYA PERMANENT VOLTAGE STABILIZER

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The invention relates to electrical and technical engineering, and can be used in secondary power supply systems on autonomous mobile objects during their primary power supply from batteries, without recharging during operation.

Known continuous-key constant voltage stabilizer,. containing a continuous control unit, a resistor-sensor, a key element, a choke and a control unit

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The closest technical solution to this invention is a 5 dc voltage regulator, the contents of an integral regulating transistor and a storage choke connected in series to the output bus, between which the commutation diode is connected and the common bus are connected to a switching diode, and a capacitor is connected in parallel with the output terminals filter and resistor divider, the output of which is connected to the first input of the DC amplifier, the input of which is connected to the source of the reference voltage, and the output base control transistor having its collector through parallel 30

The CS chain is connected to the base of the composite transistor, and the emitter is connected to the emitter of the composite transistor, a serial RC chain, the first terminal of which is connected to the collector of the composite transistor, the first resistor connected between the collector of the control transistor and the common bus 2}.

However, in the specified stabilizer it is impossible to obtain a small level of ripple of the output voltage, and the level of induced interference is quite high even at low values of the load currents.

The purpose of the present invention is to reduce the magnitude of the output voltage ripple induced by noise in the load and to increase the efficiency at low load current levels.

Claims (2)

The goal is achieved by the fact that a load current sensor connected between a storage choke and an output terminal is connected to a constant voltage regulator 2J, and the second output of the serial RC circuit evenly connects an additionally inserted chopper controlled by a load current sensor transistor. An electrical circuit of the proposed stabilizer is shown in the drawing. The stabilizer contains control transistors 1 and 2, control transistor 3, the collector of which is connected to the base of the control transistor and, through a chain of parallel with © linear capacitor 4 and resistor 5, resistor 6 bias the control transistor, connected in series with resistor 7 and capacitor 8, interrupter 9 connected between the base of the control transistor 3 and the circuit of a series-connected capacitor and resistor, a smoothing filter connected in series with the load and consisting of a switching diode 10, cumulative droplets 11 and a capacitor, the amplifier 12 DC, the output of which is connected to the base of the control transistor 3, the reference load source 13, the load current sensor 14 connected in series with the load, the output voltage divider Consisting of resistors 15 and 16, capacitor 17 of the smoothing filter. . The operation of the device occurs. As follows. When the load current is higher than the set value, the load current sensor 14 acts on the chopper 9 in such a way that the circuit of the series-connected resistor 7 and the capacitor 8 is connected to the base of the control transistor 3, while the control transistor 1 and 2 control transistor 3 and last. The impedance circuit of resistor 7 and capacitor 8 form a non-surge-type multivibrator circuit operating in self-oscillation mode. When the control transistor 3 is open and saturated, the control transistor 1 and 2 is closed, the next half-period transistor 3 is closed, and the control transistors 1 and 2 are open and saturated. The open time of the control transistors is determined by the constant discharge time of the capacitor 8 through the DC amplifier 12, therefore, depends on the difference of the part of the output voltage received from the voltage divider on the resistors 15 and 16, and the reference voltage obtained from source 13 reference voltage. Thus, regulation wasp. There is a change in the time of the conductive state (the pulse duty cycle of the asymmetric multivibrator) of the control transistors 1 and 2, depending on the output voltage of the stabilizer. With the help of a smoothing filter consisting of a commuting diode 10, a cumulative throttle, a capacitor 17, the demodulation of a pulse train into a constant voltage of a specified value is realized. A chain of parallel connected capacitor and resistor 5 provides for one-way half-periods of the control transistors i and 2 B, the useful efficiency of the device at a current that is higher than the set level is increased, which increases the battery's energy and size are minimal. When the load current decreases to the set level, the sensor, the load current 14 acts on the chopper 9 in such a way that the circuit of the series-connected resistor 7 and the capacitor 8 is not connected to the base of the control transistor 3. The self-oscillation mode breaks down and the regulating The composite transistor 1 and 2 is in linear mode. In this case, the continuous control signal is removed from the DC amplifier 12 and is an enhanced difference in output and reference voltage. Pulsations in the output voltage are drastically reduced, and pins on the powered radio are almost absent. Thus, in accordance with the description, a voltage stabilizer is realized, in which, at a load current not exceeding a predetermined value, the ripple in the lx voltage is insignificant, the interference induced from the stabilizer into the load is practically absent, and when the current is exceeded, load1 and a given value and the possibility of its multiple increase, the efficiency increases sharply, the dimensions and masses of the device remain unchanged and less than that of existing devices of the same type assigned . In both modes of operation of the stabilizer, the output voltage does not change its value. As a current sensor, a current relay coil, a resistor, and so on can be used. The reed switches, current relay contacts, thyristor and transistor circuits can be used as a controlled breaker. Claims An DC voltage regulator comprising a series regulating transistor and an accumulative choke connected in series to an output shi, between which a switching diode is connected and a common bus, connects a switching diode, parallel to the output pins are connected a filter capacitor and a resistor divider whose output is connected to the first input of the DC amplifier, the second input of which is connected to the source of the reference voltage, and the output is the base of the control transistor, the collector of which through the parallel RCcell, connected to the base of the composite transistor, and the emitter to the emitter of the composite transistor, a series RC chain, the first terminal of which is connected to the collector of the composite transistor, the first resistor, connected between the control transistor collector and the common bus, characterized in that with. In order to reduce the magnitude of the ripple of the output voltage induced in the load, interference and increase the efficiency at low levels of the load current, a load current sensor is inserted into it that is connected between the throttle collector and the output terminal, and the second output of the serial RC circuit is through the contacts the additionally inserted chopper, controlled by the load current sensor, is connected to the base of the control transistor. Sources of information taken into account when E1 spertiz 1. Authors certificate of the USSR .542982, cl. G 05 F 1/56, 1974. 2. Semiconductor devices in the technique of electric communication, issue. 10, 1972. M., SV, p. 210, fig. five.