SU1598045A1 - Load power supply device - Google Patents

Abstract

The invention relates to electrical engineering and can be used to power loads that require a guaranteed source of buffer power, in particular, computer operating memory. The aim of the invention is to improve the reliability of the device by providing monitoring of the state of the battery. The device for supplying the load contains a power source from which the charge current regulator is powered, a light indicator, a charge control system, a switching element with a battery connected to the load, a resistor-bounded drive containing diodes designed to eliminate the effect of the charge stabilizer capacitor discharge and battery discharge through the resistor with the power supply disconnected. 1 il.

Description

The invention relates to electrical engineering and can be used to power loads that require a guaranteed source of buffer power, in particular, computer operating memory.

The purpose of the invention is to increase the reliability of the device by monitoring the status of the battery. v

The drawing shows a diagram of the device for feeding the charge.

The device contains a power supply 1, the voltage from which the charge current regulator 2 is powered, the light indicator 3, the charge control system 4, the switching element 5 with the battery 6, made, for example, of four batteries and connected through the switching element 5 with load 7, drive 8, containing diode 9,

designed to eliminate the influence of charge-current regulator 2 on the discharge of capacitor 10, resistor 11 and diode 12, designed to eliminate the discharge of battery 6 through resistor 11 with the power supply I disconnected.

The device works as follows.

If the voltage on the battery 6 is less than the reference voltage installed in the charge control system 4, the output of the latter is set to a logical "0, which causes the indicator light to turn on, indicating that the battery 6 is not enough Zary wife, and. The charge current regulator 2 through the capacitive drive 8 and the switching element 5 start charging the battery 6.

When charging the battery 6 to a predetermined voltage, the control system

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neither does the charge switch and at its output appears logical "1. The indicator light 3 goes off, which indicates that the battery b is charged, and the charge current regulator 2 is turned off, no longer conducting current. This avoids overcharging the battery 6 above the maximum allowable voltage, which increases the battery life and allows the charge to be produced in automatic mode. After the battery is charged, a full supply of the load 7 is guaranteed (for example, information is guaranteed for the computer RAM) when the power supply 1, for example, is disconnected.

During long interruptions in the operation of the device, for example, storage, transportation, repair, when the load 7 does not need to be powered by the battery b, to prevent deep irreversible discharge, the battery is disconnected by the switching element 5 from the load 7 and the charge control system 4. In addition, the battery can be disconnected (as a result of contact oxidation, breakage, battery failure, etc.) In these cases, the normal power supply to the load is not possible and the device operates as follows.

When the power supply 1 is turned on, the voltage on the capacitor 10 of the capacitive storage device 8 is zero, therefore, when the battery is turned off, the input voltage of the charge control system 4 is also zero, and it generates a signal to turn on the light indicator 3 and the stabilizer 2 charge current. The charge of the capacitor 10 starts, the charge time until the voltage is equal to the nominal voltage of the battery b, the magnitude of the different charge current and the capacity of the capacitor 10 is determined, after which the charge control system 4 switches, the indicator light 3 goes out and charge regulator 2 is turned off. The discharge of the capacitor 10 through the resistor I, which determines the charging time, and the input of the charge control system 4 begins. The device goes into self-oscillation mode. The blinking of the light indicator 3 informs about the break of the charge circuit of the battery and, therefore, about the device not being ready to power the load 7 after turning on the power supply 1.

The presence and parameters of the elements of the capacitive accumulator 8 determine the blinking frequency of the light indicator 3. Thus, for example, in the absence or low capacitance of the capacitor 10, the blinking frequency is so high that the light indicator 3 is visually

is perceived as luminous, therefore at a charge current of 50 mA, the value of the capacitor 10 is 2000 µF, the value of resistor 11 is 510. Ohms.

Thus, the proposed device provides reliable power to the load for

0 account of the possibility of monitoring the state of the battery.

Claims (1)

Invention Formula A device for supplying a load containing a voltage source, a charge current regulator, the current input of which is connected to a power source, a light indicator, the first output of which is connected to a power source, a control system 0, the switching element and the battery, characterized by the fact, cp, in order to increase the reliability of the device by monitoring the condition of the battery, it is equipped with a capacitive storage device whose input is connected to the output of the charge stabilizer and the output to the input of the charge control system and through the switching element to the battery and to the terminals for connecting the load, the output of the charge control system is connected to the control input of the charge regulator and to light output indicator. s g five