SU1095124A1 - Device for charging recharging battery - Google Patents

Abstract

A device for charging an AKKU MULTER that contains a voltage source, an input connected to the input terminals of a device connected in series with terminals for connecting a battery, a limiting resistor and an adjusting transistor, the base of which is connected to the main output of a voltage source, characterized in that extending the functionality and increasing battery life, the limiting resistor and the terminals for connecting the actuator are included in the emitter circuit transistor conductive, and further introduced N chains, each of which consists of a series connected transistor .i resistor, the emitter of transistor. The store is connected to one output of the resistor, and the other lead of the first string resistor is connected to the emitter of the control transistor, the other lead of the resistor of each subsequent chain is connected to the emitter of the previous chain transistor, L bases of the transistors transistors are connected to the input § output.

Description

"1 The invention relates to an electronic device and can be used to charge batteries. A device for charging batteries is known, which contains a three-phase transformer, the secondary windings of which are connected in a star, a bridge rectifier on thyristors, connected to the battery through a smoothing choke and a unit for generating discharge current pulses, and the smoothing choke is equipped with a tap connected to one of (bridge bridge rectifier, and the zero point of the secondary winding of the transformer is connected to the free end through an additional thyristor Cl. This device has a complex circuit that causes not Some inconveniences during operation. The practical scheme of such a device contains a system for controlling thyristors and an additional power source. The disadvantage is that it is not easy to determine 80-90% battery charge and requires additional means to solve it. It is not economically feasible to use such devices for charging battery batteries with small charging currents. It is also known a device for charging a battery containing an alternating current source with VUM output terminals induktivnoemkostnuyu current-limiting cell, a capacitor coupled to one of the source terminal through the semiconductor element and the positive terminal of the battery and choke them one communication terminal is coupled to the second source terminal. As the specified floor of the conductor element, a transistor is used, the base of which is through a resistor, and the emitter is connected to the second terminal of the said source through a valve, the battery terminal is negative to the second terminal of the throttle. The device is equipped with an additional valve connected between the first terminal of the source and the positive terminal of the battery, and has two modes of operation - forced charge with high current and charge current 2. However, it is not always possible to carry out the required charge mode by such a device power source When used as a power source for a given charging device of an industrial network (the most common case), which has significant voltage fluctuations, there are cases of overcharging or incomplete charging of batteries due to the fact that the first stage of charging is disconnected in the event that when the battery voltage is equal to the amplitude value of the source (network) voltage. Therefore, at the maximum voltage of the network, the forced charge may continue to exceed the permissible value. Such a charge of hermetic batteries leads to a decrease in the life of the batteries or to their premature failure. The closest to the invention in its technical essence is a device for charging a battery, containing a voltage source, an input connected to the input terminals of the device, connected in series with the terminals for connecting a battery, a limiting resistor and a control transistor, the base of which is connected to the first output the reference voltage C 31. In the known device, the stability of the charging current is small and depends on the change in the input voltage. The charging current of the device will not stop when the required battery voltage is reached, if an increase in the input voltage occurs. This may cause the battery to overcharge and out of order. The chain of the invention is to extend the functionality and increase battery life. This goal is achieved by the fact that in a device containing a voltage source, an input connected to device input terminals, connected in series with terminals for connecting a battery, a limiting resistor and a control transistor whose base is connected to the main output of the voltage source, the limiting resistor and the terminals for connecting the battery are included in the emitter circuit of the regulating transistor, and an additional N chains are introduced, each of which consists of connected to the transistor and resistor, while the emitter of the transistor is connected to one output of the resistor, and the other output of the resistor of the first chain is connected to the emitter of the regulating transistor, the other resistor of each subsequent chain is connected to the emitter of the previous chain transistor, the corresponding additional terminals of the reference transistor voltage, and transistor collectors are connected to the input terminal. The drawing shows the principal on the device diagram. The device contains a source of 1 voltage, the input connected to the input terminals of the device, and output 2 connected to the base of the regulating transistor 3, the emitter of which is connected to the resistor 4, the other horse of which is connected to one output of the battery 5 connected to the common input of the device. A chain of series-connected resistors 6 and transistor 7, the bases of which are connected to an additional output 8 of the reference voltage source, is connected to the emitter-collector circuit of the regulating transistor, and a chain of series-connected resistors 9 and transistor 10 is connected to the emitter-collector circuit of transistor 7 The base of which is connected to the additional output 11 of the voltage source. The device works as follows. 24 When the input voltage is connected, forced charging of the battery 5 with a current of a given magnitude occurs. In the process of charging, the EMF of the battery (E) increases, and the charge current somewhat decreases. The voltage drop across resistor 4 () also decreases slightly. When the total battery emf and the voltage drop across resistor 4 are equal to the reference voltage U (jnj, i.e. E + and R / (. -Vop2, the arrester 3 closes and the forced charge stage is turned off.) switches to another charge level with smaller currents, performing charge d. As the emf increases, the charge current will also decrease. When condition E + and PJ are fulfilled, the charge will stop, transistor 7 will be closed. battery (E) corresponds to the nominal capacity. The third battery charge level is used to control the rated battery capacity. The device performs a continuous charge of the battery with a stabilized current, the value of which is equal to the self-discharge current. In this mode of operation, the battery's EMF does not change and the charge current does not change. You can choose any number of charge stages. The proposed device is convenient to use, since after a partial battery discharge the circuit automatically selects the required charge mode depending on the value of its emf.

Claims (1)

A DEVICE FOR CHARGING A BATTERY, which contains a reference voltage source, connected to the input terminals of the device by an input, and a limiting resistor and a control transistor connected in series with the terminals for connecting the battery, the base of which is connected to: the main output of the reference voltage source, characterized in that, in order to expand the functionality and to increase the battery life, a limiting resistor and terminals for connecting the battery are included in the emitter circuit of the control circuit ican and additional N introduced chains, each of which consists of a series connected transistor .i resistor, the emitter of transistor. the stator is connected to one terminal of the resistor, and the other terminal of the resistor of the first circuit is connected to the emitter of the control transistor, the other terminal of the resistor of each subsequent chain is connected to the emitter of the transistor of the previous chain, the base of the transistors of the chains are connected to the corresponding additional terminals of the reference voltage source, and the collectors of transistors connected to the input pin.