SU1089561A1 - Redundant power source - Google Patents

Abstract

A RESERVATIVE SOURCE POWER SUPPLY, consisting of a master and a ve. Home pulsed stabilizers, each of which contains a power part consisting of a regulating element and |, a CO filter, a control unit whose input is connected to the terminals for connecting the total load, input The conclusions of these stabilizers are connected to the corresponding sources of constant voltage, which are designed so that, in order to increase the efficiency, the leading impulse stabilizer is designed as a down-type stabilizer, and the slave stabilizer recuperators angles floor-inverting type, and their output terminals are connected to terminals for connecting the common load in vedo1 "1st node synchronization stabilizer introduced | 1 whose output is connected to the input power part, and its two inputs connected respectively to the. the outputs of the stabilizer control units, the output of the master stabilizer control unit also connected to the input of its own power unit. 4 00 0 SP O)

Description

Fig. 1 1 The invention relates to electrical engineering and can be used to power automation devices and computing. A redundant source of jitter j is known in which the redundancy is made by parallel connection of two stabilizers operating on a common load, moreover, to avoid interconnection, the outputs of the stabilizers are connected to the common load via decoupling diodes Ct3. Closest to the proposed is a redundant power source consisting of a master and slave stabilizers, each of which contains a power section, a control unit, the input of which is connected to the output of the total load, and the output is connected to the input of the power section, with the second output of the control unit the master stabilizer is connected to the second input of the slave stabilizer control unit, the input voltages of the stabilizers are connected to sources of constant voltage, and the output terminals of the stabilizers are connected to the total load es decoupling diodes C2D. A disadvantage of well-known devices is low efficiency due to large power losses in the power supply diodes, especially under sufficiently powerful loads and low output voltages.

The purpose of the invention is to increase the efficiency of a redundant power source.

The goal is achieved by the fact that in a redundant power source consisting of a master and slave-pulse stabilizers, each of which contains a power part consisting of a regulating element and an LCD filter, the control unit, whose input is connected to the terminals for connecting loads, the input pins of these stabilizers are connected to the corresponding sources of direct voltage, the leading impulse stabilizer is made in the form of a down-type stabilizer, and the slave is in the form of a polarizer stabilizer -inverting type, with the infrared output pins connected to the pins for connecting the total load, a synchronization node is inserted into the slave stabilizer, the output of which is connected to the power input

pulses from the output of block 7 of stabilizer 1, and in contrast to source 3, source 4 is connected to power section 6 by another polarity. In the power section 6, the polarity of the applied voltage changes sign and the voltage 8 is applied to the load from both stabilizers with the same polarity. The synchronization device 9 provides simultaneous switching on and off of the regulating elements of the power units 5 and 6.

With such switching on (in the absence of powering diodes) there is no equalizing currents, which can be seen from the simplified concept of the power parts of the stabilizers (Fig. 2), from which it can be seen that when the control elements are simultaneously turned on, the current from the voltage source of the power part 5 flows into the load through the key element and the throttle, and in the power section there are 6 61 parts, and its two inputs are connected respectively to the outputs of the control units of the stabilizers, and the output of the control unit of the master stabilizer is connected En also with the entrance of its own power unit. FIG. Figure 1 shows the structural scheme of the device proposed (Fig. 2 is a schematic diagram of the power units of the pulse stabilizers. The redundant power source contains two pulse stabilizers 1 (master) and 2 (slave), in which, respectively, sources 3 and 4 are constant sources. power units 5 and 6 (regulating element and filter), block 7 controlling the regulating element of the power section, load 8, synchronization unit 9. The voltage of the source 3 of the constant voltage of the stabilizer 1 is converted in the power section 5 into a The voltage by the control unit 7 of the control unit of the power unit, representing the feedback system of the pulse stabilizer. The constant voltage of the source 4 is also stabilized at the output of the pulse stabilizer 2 by the power unit 6 and the control unit 7 of the control unit of the power unit which is connected to the control input of the power unit 6 through the synchronization unit 9, the second input of which receives the output

the current from the voltage source only flows through the choke, and it cannot flow through the reverse-connected diode. When regulating elements are opened, the current flows to the load due to the energy stored in the DRS, and the currents through the previously closed diodes will flow through the polarity of the ELO self-induction of chokes caused by the opening of the regulating elements.

In the event of an accident in one of the stabilizers, lizators, the other stabilizer provides uninterrupted power to the load, since the control units of the regulating elements are independent of them, except that in normal mode, stabilizer 1 (driving | f1) sets the stabilizer 2 (slave) open duration the state of the regulating element of the power unit through the synchronization unit 9.

Thus, the implementation of stabilizers in the form of down-type stabilizers and polar-invertiruptsy type. Synchronized with each other, eliminates the need for razlizyvayuschih diodes, which leads to an increase in the efficiency of the device.

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Claims (1)

RESERVE POWER SUPPLY, consisting of a leading and a slave pulse stabilizers, each of which contains a power part, consisting of a regulating element and a tCD filter, a control unit, the input of which is connected to the terminals for connecting the common load, the input terminals of these stabilizers are connected to the corresponding DC voltage sources, characterized in that, in order to increase the efficiency, the leading switching stabilizer is made in the form of a step-down type stabilizer, and the driven one is in the polar stabilizer water o-inverting type, and their output terminals connected to common terminals for connecting the load, the stabilizer introduced in vedoshy synchronization node, whose output is connected to the input power part, and its two inputs with respectively soe.dineny. the outputs of the control units of the stabilizers, and the output of the control unit of the leading stabilizer is also connected to the input of its own power unit. 00 s © SP to figure 1