SU1129697A1 - Charging device - Google Patents

Abstract

A CHARGER DEVICE containing a DC source, the poles of which are connected in series with a transistor switch, a charging choke, and a battery that blocks the diode connected to the positive pole of the DC source by the cathode and an anode to the connection point of the charging throttle and collector a transistor switch, a control circuit connected by its output to the input of the transistor switch, and a protective diode, about tl. And in order to increase the 1SD, the protective diode is connected by an anode to the emitter of the transistor switch, the cathode to the negative pole of the battery, and between the positive terminals of the battery and C source of direct current Included is the newly introduced current element, opening the circuit in case of overload. About QQ ×

Description

The invention relates to electrical engineering and can be used in devices designed to charge batteries using an uncontrolled rectifier as a source of charging current. A device for automatic charging of a battery is known, which contains a DC source (for example, a transformer with a rectifier), to the poles of which are connected series-connected regulating transistor, battery, protective diode, resistor - current sensor, control circuit laziness, connected by the output to the base of the control transistor Hi. The disadvantage of the known device is due to the low efficiency when charging the battery from the direct current source. It is also known that a charging device containing a DC source, to the poles of which are connected are series-connected transistor switches, a hard diode, a charging choke, and a battery that blocks the diode, the cathode connected to the positive pole of the DC source, and the anode to to the common point of connection of the anode of the protective diode with the charging choke, and the control circuit connected by the output to the input of the transistor switch 2, the disadvantage of this device is low efficiency, the purpose of the invention is to increase the efficiency This goal is achieved by the fact that in a device containing a DC source, to the poles of which are connected a series connected transistor switch, a charging choke and a battery that blocks the diode connected by a cathode to the positive pole of the DC source, and the anode - to the common connection to the melade by a charged choke and collector of a transistor switch; a control circuit connected by its output to the input of the transistor switch; and a protective diode, the latter connected by an AID to the emitter Nogo key, and the cathode - to the negative pole of the battery and between the positive pole of the secondary battery u DC source is turned on again inputted currents executive element opens the circuit in case of overload, for example, a fuse. The drawing shows the electrical circuit of the charging device. The device contains a DC source 1, to the poles of which are connected a series-connected transistor switch 2, a charging choke 3, a battery 4 and a current executive element 5. The control circuit is connected to the base of the transistor switch 2 with its output. Blocking diode 7 is connected the cathode, to the positive pole of the DC source, and the anode to the common connection between the charging choke 3 and the collector, transistor switch 2. The protective diode 8 is connected to the minus of the battery 4 by the cathode, and the anode the emitter of the transistor switch 2 apparatus operates as follows. When the device is connected to the DC source 1 and the pulse control signal is applied from the control circuit 6 to the input of the transistor chip 2, the charge circuit of the battery 4 is formed from the DC source 1 through the transistor switch 2, charge choke 3, and the current executive element 5. After locking the transistor switch 2, the accumulated energy pulse in the charging choke 3 is fully used to charge the battery 4 along the current flow circuit: the charging choke 3 blocking the diode 7, the performer A current cell 5, a battery 4. Thus, when charging an acccumulator battery 4, the charge current does not pass through the protective diode 8, since a positive potential is maintained at its cathode against the anode. When the DC source 1 is fully or partially closed, the battery 4 is discharged through a reactive current cell (for example, a fuse), a short-circuited DC source. 3 currents 1, the protective diode 8, triggers the action of the current element 5 disconnecting the emergency discharge circuit of the battery 4, 11296974 Thus, the proposed charging device, while providing protection against the emergency discharge of the battery batteries, has a higher MS than with a prototype.

Claims (1)

A CHARGING DEVICE containing a direct current source, to the poles of which are connected in series a transistor switch, a charging inductor and a battery, a blocking diode connected by a cathode to the positive pole of the direct current source, and the anode to the connection point of the charging inductor and the collector of the transistor switch, control circuit connected by its output to the input of the transistor switch, and a protective diode, characterized in that, in order to increase the efficiency, the protective diode is connected by an anode to the emitter a transistor key, the cathode - to the negative pole of the battery, and between the positive poles of the battery and the DC source included a newly introduced actuating current element, opening the circuit during overloads. SU _w > 1129697