SU1197008A1 - Device for supplying d.c.to load - Google Patents

Abstract

A DIRECT CURRENT POWER SUPPLY DEVICE, containing a DC generator, two batteries and a diode, which has been added so that, in order to improve reliability, two Zener diodes, a dynistor and a capacitor are added to it, The first pole of the first battery is connected to the negative pole of the generator, the load and the anode of the first zener diode, the first pole of the first battery is connected to the cathode of the first diode and the diode anode, the negative pole of the second battery is connected to the cathode the dynistor, the first capacitor plate and the anode of the second diode, the cathode of the first Zener diode connected to the cathode, the positive pole of the second battery connected to the load and the cathode of the third diode, the anode of the second pole of the capacitor and the cathode of the second Zener diode, anode of the first anode of the first diode diode. 00

Description

The invention relates to electrical engineering and can be used in buffer systems for powering various electronic devices. The purpose of the invention is to increase reliability. The drawing shows an electrical schematic diagram of the device. The device comprises a DC generator 1, batteries 2 and 3, zener diodes 4 and 5, diodes .6-8 dioNistor 9, capacitor 10 and load II. The device works as follows. In the operating mode, the load 11 is supplied from the generator 1 through the diode 8, at the same time charging of the battery 2 through the zener diode 4, the diode 6 and the battery 3 through diodes 7 and 8 and the stabilizer liter 5. The voltage stabilizing the hundred or trones 4 and 5 and Uj. are chosen so that the voltage Ugg and Ujjj on batteries 2 and 3 correspond to the voltage of their charge (i.e., would be 10-30% higher from the typical voltage). In this mode, the direct voltage on the dynistor front 08. will be much less than the voltage of its switching on, and the dynistor will be closed. in emergency mode when the generator I fails, the total voltage of the batteries 2 and 3 through the load 11 is connected in series with the dynistor 9, i.e. A voltage higher than the voltage of its unlocking will be applied to the dynistor 9, it opens and the load is powered by the series-connected batteries 2 and 3 with a total discharge voltage equal to the voltage of the generator 1. Diodes 6-8 serve as Dp of battery circuits tori 2 and 3 between each other, from generator 1 and for thermal compensation. When the generator 1 is reconnected, the dynistor 9 is closed by reducing the direct current through it by a counter current of the charge of the batteries 2 and 3 and a counter charge 1 1L) 1M current of the capacitor 10. The use of the proposed device improves the reliability and power stability of high-speed electronic equipment operating in real time (for example, a computer).

Claims (1)

DEVICE FOR POWER LOADING WITH A DC, containing a DC generator, two batteries and diodes, with the exception of the fact that, in order to increase the reliability, two additional zener diodes are introduced into it, a negative the pole of the first battery is connected to the negative pole of the generator, the load and the anode of the first zener diode, the positive pole of the first battery is connected to the cathode of the first diode and the anode of the dinistor "the negative pole of the second battery is connected to the cathode of the dinistor, the first lining of the condenser at the anode and the anode of the second diode, the cathode connected to the cathode of the first zener diode, the positive pole of the second battery is connected to the load and the cathode of the third diode, the anode connected to the positive pole of the generator, the second capacitor plate and the cathode of the second zener diode, the anode connected to the anode of the first will be much less than its voltage inclusion, and the dinistor will be closed. In emergency mode, when generator 5 fails, the accumulator voltage of accumulators 2 and 3 through load 11 turns out to be connected in series to dinistor 9, i.e. voltage will be applied to the dinistor 9, exceeding the voltage of its unlocking, it will open and the load will be powered by batteries 2 and 3 connected in series with a total discharge voltage equal to the voltage of generator 1. Diodes 6-8 serve to decouple the battery circuits 2 and 3 from each other , from generator 1 and for temperature compensation. When reconnecting the generator 20, the dynistor 9 closes due to a decrease in the direct current through it by the counter current of the recharge of batteries 2 and 3 and the counter charging current of the capacitor 10. The application of the proposed device can improve the reliability and stability of the power supply of high-speed electronic equipment operating in real time (for example, computers).