SU802949A1 - Switch-type dc voltage stabilizer - Google Patents

Description

(54) KEY CONSTANT VOLTAGE STABILIZER

t

The invention relates to electrical engineering and can be used to power the equipment of communication devices, automation and computing.

The key voltage regulator pJ is known.

The known stabilizer contains a key and an LC filter choke connected in series to one of the supply lines, the filter capacitor is connected to the output of the stabilizer, the discharge diode is connected between the point of connection of the key and the 4 Alter drossel and the second wire of the main circuit.

The second output of the discharge diode in such a circuit can be connected both to the common wire of the stabilizer and to a tap from the source of supply voltage.

This scheme, which is widely used, does not allow switching the key with a high frequency due to significant energy loss at each key closure.

Also known is a stabilizer which contains a key element connected in series to one of the supply lines and an LC filter choke, the capacitor of which is connected to the output terminals, in parallel with which the control unit is connected, the output of which is connected to the control input of the key element, the first discharge diode connected one of the conclusions to the common point of connection of the key element and filter throttles, the second discharge diode and additional. Ny choke.

o

However, for this stabilizer, the inlet and the outlet do not have a common point - in it the second input terminal is connected to the unipolar output terminal through an additional choke. it

5 makes it impossible to connect several such stabilizers to a common power source (in cases where their output circuits have a common point) and, in addition, makes it difficult to build

0 bipolar stabilized voltage source.

The aim of the invention is to obtain in the scheme of a known stabilizer a common entry and exit point for

5 expanding the scope of its application while maintaining high efficiency when operating at high switching frequencies.

Claims (3)

This is achieved due to the fact that an additional choke with a parallel resistor is connected between the connection point of the key element, the LC filter throttles and the output of the second discharge diode, while the other terminals of the first and second discharge diodes are connected to the corresponding input terminals voltage of unequal magnitude. A terminal for connecting a constant voltage source connected to the output of the first discharge diode is connected to a different power line. If the use of an additional source is difficult, then a terminal for connecting a constant voltage source connected to the first discharge diode is connected to the second supply bus through a parallel connected capacitor and a resistor, and a terminal for connecting a constant voltage source connected to the second The discharge diode is also connected to another bus directly. FIG. Figure 1 shows the scheme of the proposed stabilizer with power supply from two voltage sources, Fig. 2 -. the same with the power supply from a single voltage source. The stabilizer contains a serial key element 1 connected to an LC filter with a throttle 2 and a capacitor 3, and a control input connected to a comparison unit 4 connected in parallel with the output terminals. One of the conclusions is connected to the common point of element 1 and filter 2 throttles by the first discharge diode 5. Between the said output of this diode and the output of the second discharge diode of the same name with it, an additional choke 7 is included, to quench the residual energy of the throttles 7 after closing the diode b) both outputs of this droplets are shunted by a resistor 8. The inductance of the chokes 7 is chosen such that before the end of the pause (before closing of the key element 1) diode 5 is able to completely close. The second terminals of diodes 5, b are applied to unequal voltages: the voltage applied to diode 6 must be greater than the voltage applied to diode 5 (but less than the output voltage of the stabilizer). This is achieved either by connecting the diode b to an additional voltage source (specified value), while the free output of diode 5 is connected to the second power supply of the main voltage source (Fig. 1) or by connecting the second output of diode 6 directly and the second output diode 5 through a parallel-connected capacitor 9 and a resistor 10 to the second power bus (Fig. 2). The scheme works as follows. When element 1 is closed, a current flows through this switch, choke 2, through the load and the common bus of the stabilizer. Diodes 5 and 6 are closed. When element 1 is opened, only diode 5 is opened at the first moment (a small current flowing through diode b at this moment is determined by the resistance of resistor 8). However, a voltage equal to the additional supply voltage is applied to the choke 7 with the key being opened, and the current through it, and therefore through diode 6, begins to increase. In this case, since the current of the throttles 2 is approximately constant, the current of the diode 5 decreases accordingly, and by the end of the pause when the key 1 is closed, the diode 5 is completely closed. Current throttle 7 at the end of a pause is, therefore, the current throttle 2. At the next closure of key 1, reverse voltage is applied to diode 5, however, this diode is already completely closed, the difference between higher and lower supply voltages is applied to choke 7, and its current begins to fall. When this current decreases to zero, the diode b closes, which, as we see, is not accompanied by a surge of large current. The circuit shown in FIG. 2 works in the same way as described. When current flows through diode 5 on resistor 10 and capacitor 9, some voltage is created, which further closes diode 5 when diode b is fully opened. The proposed circuit has a common point of entry and exit, which makes it convenient and simple to use it cases where the use of a known stabilizer is difficult or not at all applicable (parallel operation of several stabilizers from one rectifier, stabilization of the voltage of a two-pole source, etc.). At the same time, the stabilizer retains the possibility of using a high switching frequency of the key without decreasing the efficiency, which also makes it possible to reduce the dimensions of the stabilizer filter and the ripple of its output voltage. Claim 1. Key regulator of direct voltage, containing a key element and an LC filter choke connected in series to one of the supply rails, the capacitor of which is connected to the output terminals, in parallel to which the control unit is connected, the output of which is connected to the control element of the key element The first bit diode connected by one of the leads to the common connection point of the key element and the filter throttles, the second bit diode and the additional choke characterized by the fact that expansion of functionality, an additional choke with an inserted parallel resistor is connected between the connection point of the key element, the choke of the LC filter and the output of the second discharge diode, while other outputs of the first and second discharge diodes are connected to the corresponding input terminals for connecting unequal size. 2. A stabilizer according to claim 1, characterized in that a terminal for connecting a constant voltage source connected to the output of the first discharge diode is connected to a different power line. 3. The stabilizer according to claim 1, wherein the terminal for connecting a DC voltage source, connected to the first discharge diode, is connected to the second supply bus through a parallel connected relay and a resistor, a terminal for connecting a constant voltage source connected to the discharge diode is also connected to another power supply O tire directly. Sources of information taken into account in the examination 1. Alexander F.I., Sivakov A.R. 5 Pulse transducers and stabilizers, L., Energie, 1970.2. USSR author's certificate No. 5361.53, cl. G 05 F 1/56, 1977. Jw -0-12 f g / j -about and you Wlf "n