SU555503A1 - Device for charging a chemical current source with an asymmetric current - Google Patents

Description

(54) DEVICE FOR CHARGING A CHEMICAL SOURCE OF CURRENT ASYMMETRIC CURRENT

the house of the discharge valve connected to the collector of the transistor.

The drawing shows a diagram of the proposed device.

In the device with AC source 1, the formation of ac and (alternating current is dried using a charging valve 2 and a discharge transistor 3, the emitter-base transition of which is connected parallel to the charging diode through a resistor 4, and the emitter-collector junction shunts the charging The current source 5, One source electrode 5 (for example, negative) is connected to the source terminal 1 directly, and a current-limiting capacitor 6 is connected between the positive electrode and the second terminal of the charging source 1. Parallel However, the Zener diode 7 is connected to the circuit of the charged source and the valve 2, which together with the capacitor 6 forms the voltage divider of the source 1. The collector 8 is connected to the collector circuit of the transistor 3, which together with the valve 9 forms the recovery circuit of the secondary current of the chemical current source 5.

The operation of the device, made according to the proposed scheme is as follows,

In the half-period of variation of the voltage of source 1, when plus is applied to its upper terminal and minus to min 5 of source 5, a chemical current source is charged through a 6-liter diode 2. The charge pulse current increases in magnitude until the voltage on the lower arm of the voltage divider (Zener diode) reaches the same voltage as the Zener diode. 13. The instantaneous value of the charge current of a chemical source remains unchanged until the instantaneous value of the voltage of source 1 is comparable to the voltage of the zener diode. This current will stop at that point in time when the instantaneous value of the voltage of source 1 is comparable to the voltage of source 5.

During the charging pulse, the transistor 3 is locked due to the positive (blocking) voltage of the charging valve 2 being connected to its emitter base transition. After the charging pulse ends, the blocking voltage into the emitter of the supply circuit of the transistor 3 disappears and its base through the source 1, capacitor b and resistor 4 are applied to a negative voltage, which opens the transistor. This transistor connects the chemical source 5 to the recuperative capacitor 8, as a result of which the source 5 is energized

to capacitor 8 (at this time the polarity of source voltage 1 changes).

In the half-period, when the lower voltage of the source 1 terminal is positive, the chemical source of the current source to the capacitor 8 continues. The current of the source flows through two circuits: through the Zener diode 7 the current-limiting capacitor 6 is recharged, and through the recovery valve 9 and the capacitor 6, a discharge current of the recovery capacitor 8 is conducted.

Thus, the energy of the secondary pulses of the chemical source 5 returns to the charging source 1. When the polarity of the charging source changes, when the instantaneous value of the voltage on the Zener diode 7 exceeds the voltage of the charged source 5, the next charging pulse will begin. This process is then repeated. Zener diode 7 prevents the chemical source 5 from being recharged for any increase in the voltage of the source.

Claims (1)

Invention Formula A device for charging a chemical current source with an asymmetric current, for example, for regenerating manganese-zinc cells, containing a single-phase sinusoidal voltage source, one of the terminals of which is connected directly to the negative terminal of the battery, to the positive terminal of which is connected the cathode of the charging valve and the emitter of the transistor the base of the transistor and the base of the transistor through the current limiting resistor is connected to the anode of the charging valve, which, in order to improve the performance When a battery is charged from a source with a voltage much higher than the battery voltage, it is additionally equipped with two capacitors, a zener diode and a discharge valve, the anode of the zener diode with a negative battery terminal, the cathode with one face of the first capacitor, and the charging and anode electrode the cathode of the discharge valves, the second cover of this capacitor is connected to the second terminal of the sinusoidal voltage source, and the second capacitor is connected between the negative terminal of the battery and the anode of the discharge vector atil connected to the collector of the transistor.