SU561252A2 - Battery Charging and Discharging Device - Google Patents

Description

(54) DEVICE FOR CHARGING AND DISCHARGING BATTERY BATTERY

The anodes of the diodes of the rectifying bridge, made according to Larionov's scheme, and the negative electrode of the battery is connected to the common cathodes of the diodes of the rectifying bridge. With such switching on, the flashout bridge an total battery emf represents a small resistance.

Therefore, the current generated by the total emf of the batteries will decrease in the battery discharge circuit, which decreases as the batteries discharge.

The aim of the invention is to increase the reliability of the device for the accumulation and discharge of batteries in the discharge mode.

This is achieved by adding a key element and a delay unit to the device for charging and discharging the battery, and its output is connected to the output of the comparator device with its output and to the specified key element connected to the battery discharge circuit after rectifying the bridge

Diagram of the device shown in the drawing.

A battery charging and discharging device is a closed-loop charging current control system (discharge), which consists of a step-down transformer 1, magnetic force 2, a rectifying bridge 3, boosted according to the Larionov scheme, a unit of switching highly stable resistors 4 feedbacks, a unit of 5 switched discharge resistors, a battery in the switch, switching settings of the reference voltage 7, an amplifier 8 of direct current, a subconductor voltage regulator 9 that feeds 8 ilitel DC, creates a setpoint voltage and the comparison unit 10 creates a bias magnetic amplifier 2, control device 11 goes round, the comparison device 10, delay device

12, element-breaking device

13, the delay block 14, the element operating in the key mode 15,

The device works as follows.

When the charge-discharge circuit of the battery is closed from the three-phase AC network, current flows through the step-down transformer 1, the working windings of the magnetic amplifier 2, the rectifying bridge 3, block 4, the block of discharge resistors 5, which commute to broaden the range of the discharge currents (in charge mode, the block of 5 discharge resistors is shunted), switch 15 in the discharge mode, battery 6,

The regulation of the magnitude of the charge current is performed by means of a commu

the setpoints of the reference voltage 7, the voltage of which is fed to the input of the amplifier 8 DC. The collector load of the output stage of the amplifier 8 are the control windings of the magnetic

. Zielitel 2.

With a change in the current of the output stage of the amplifier I, the control current of the magnetic amplifier 2 changes, the magnetization of the core of the magnetic amplifier changes, which leads to a change in the inductive resistance of the working windings of the magnetic amplifier 2 and the current in the charge-discharge circuit of the battery. Stabilization of set values

charge current (discharge) is carried out using a semiconductor dc amplifier with direct connections of high gain (8), which performs the role of negative feedback in a closed system of control of charge current (discharge). The control of the battery voltage in charge (discharge) mode is carried out with the help of the monitoring device 11, which interrogates the batteries. When the batteries reach the required voltage, they are disconnected from the charge (discharge) circuit in the following order: the signal from the monitoring device 11 enters the comparison device 10, where it is compared with the set voltage. From the device comparison 1O, the signal and post

It drops on the keys located in the magnetic amplifier 2, which ensure the closure of the magnetic amplifier 2, the current in the charge-discharge circuit is reduced.

At the same time, the signal a comes through the delay device 12 to the element-by-disconnecting device 13, which disconnects the battery from the charge (discharge) circuit in the battery. At the same time, the time constant is set

The delay 12 is selected in such a way that it is equal to the sum of the constant time of the delay block 14 and the response time of the key 15. The constant time of the delay block 14 is equal to the constant time of the magnetic amplifier 2 in the key mode.

Therefore, before disconnecting the battery, the signal a from the comparator device 10 is supplied to the keys located in the magnetic amplifier 2, which