RU126877U1 - CURRENT CONVERSION CIRCUIT FOR BATTERY CHARGING - Google Patents

Abstract

1. A current conversion circuit for recharging a battery, including a high frequency generator, a diode, characterized in that the high frequency generator is connected to a controller, a distribution device, a choke, and the controller is also connected to a distribution device, in addition, the distribution device is also connected to a choke and a diode, and the inductor is also connected to the diode. 2. The current conversion circuit for recharging the battery according to claim 1, characterized in that the distribution device is made in the form of a field effect transistor.

Description

The utility model relates to electrical engineering and can be used to charge batteries.

A device for charging a battery containing a thyristor AC regulator, a transformer, the primary winding of which is connected to the output of the thyristor regulator, and a secondary to a rectifier, the output of which is connected to the terminals for connecting the battery or load, and a threshold device, with an optocoupler introduced into it and two LEDs, on one of which the output of the threshold device is loaded, and the second is connected in series with the input part of the optocoupler, the output part of which is parallel to the the lehr is connected to the power supply circuit of the thyristor phase-pulse control unit, the second LED and the input part of the optocoupler are connected in parallel with the first LED and the threshold device, and the capacitor is connected to one of the rectifier diodes through the switch with a positive output to the cathode, and negative to the anode, while the thyristor regulator output loaded on a transformer is equipped with an additional output for connecting an external load of an active or inductive nature (RF patent for the invention No. 2088017, IPC: H02J 7/10, published Ovano: 08.20.1997)

The closest in technical essence and the achieved effect is a device for charging a vehicle’s battery with a generator, containing a voltage regulator, a controlled key, shunting one of the resistors of the voltage regulator measuring circuit connected to the on-board network, a trigger and a timer, and a frequency comparator is introduced into it and logic element 2I, while the timer output is connected to the trigger reset input, the first output of the frequency comparator is connected to the timer reset input and to the input high-level settings of the trigger, the output of which is connected to the first input of the logic element 2I and the input of the switching period of the count period of the frequency comparator, the second output of which is connected to the second input of the logic element 2I, the output of which is connected to the timer start input, the voltage regulator is equipped with two additional outputs, the first of which is connected with the first counting input and the control input of the frequency comparator, and the second is connected with the second counting input of the frequency comparator, (RF patent for utility model No. 29415, MP K: H02J 7/14; published: 05/10/2003).

The disadvantage of technical solutions is that when using these schemes, it is necessary to use relatively powerful sources of energy, and charging takes a long time.

The task this utility model is aimed at is to create a conversion circuit that can be used in mobile devices that do not require a powerful energy source, and that provide the ability to quickly recharge the battery to the level required for one or two engine starts with a starter.

The technical result consists in the ability to quickly partially discharged recharging batteries.

The technical result is achieved in that the current conversion circuit for recharging the battery, including a high-frequency generator, a diode, contains a high-frequency generator connected to a controller, a distribution device, a choke, and the controller is also connected to a distribution device, in addition, the distribution device is also connected with a choke and a diode, and the choke is also connected to a diode. The distribution device can be made in the form of a field effect transistor.

The design of the proposed technical solution is shown in the diagram.

The claimed technical solution can be implemented in the design of a current conversion circuit for recharging a battery containing a high frequency generator 1, controller 2, distribution device 3, inductor 4, diode 5.

According to a utility model, the device current conversion circuit for recharging the battery is arranged and operates as follows.

The high-frequency generator 1 provides frequencies of the supplied current from 30 to 100 kHz. The high-frequency generator 1 is connected to the controller 2, providing interruption of the current supply with a frequency of 10 to 1000 Hz. The high-frequency generator 1 is also connected to the inductor 4 and the distribution device 3, which can be performed, for example, in the form of a field-effect transistor. The controller 2 is connected to a distribution device 3, which is also connected to the inductor 4 and the diode 5, and the inductor 4 is also connected to the diode 5. The distribution device 3 can be made in the form of a field effect transistor.

In this case, the circuit is connected to a current source, for example, a battery (battery1), as well as to the battery that needs to be charged - battery2. After recharging the battery2, you can recharge the battery1 from a working vehicle by connecting battery1 to battery2, and battery2 to battery1.

Thus, the application of the utility model allows to increase the operational characteristics of the claimed device due to the use of two elements providing interruption of the current supply, as well as a high frequency of the supplied current in the intervals between interruptions.

Claims (2)

1. A current conversion circuit for recharging a battery, including a high frequency generator, a diode, characterized in that the high frequency generator is connected to a controller, a distribution device, a choke, and the controller is also connected to a distribution device, in addition, the distribution device is also connected to a choke and a diode, and the inductor is also connected to the diode. 2. The current conversion circuit for charging the battery according to claim 1, characterized in that the distribution device is made in the form of a field effect transistor.

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