CS256040B1 - Electronic fuse for accumulators' chargers - Google Patents

Abstract

Electronic fuse ensures safe charging rechargeable batteries fuses or current protectors or circuit breakers in the charger output circuits. It reaches this by connecting a series of resistors and diodes between charger output terminals when the diode anode is associated with a negative a source terminal and a transistor base cathode npn. His emitter is connected to a negative one power supply terminal, collector pres resistor and positive terminal and over others base resistor pnp. His the emitter is connected to the positive terminal of the source, the collector to the positive terminal of the charger. Other variations are possible. Use it in the electronics industry battery charger manufacturers and others users.

Description

(54)

Electronic fuse for battery chargers

The electronic fuse ensures safe charging of batteries without fuses or current protections or circuit breakers in the charger output circuits.

This is accomplished by connecting a series of resistor and diode between the output terminals of the charger when the anode of the diode is connected to the negative terminal of the source and the cathode to the base of the transistor npn. Its emitter is connected to the negative terminal of the source, the collector both through the resistor and the positive terminal and through another resistor with the base of the pnp transistor. Its emitter is connected to the positive terminal of the power supply, the collector to the positive terminal of the charger. Other variants are possible. It is expected to be used in the electronics industry for battery charger manufacturers and other users.

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BACKGROUND OF THE INVENTION The present invention relates to an electronic fuse for battery chargers and for battery chargers protecting against short circuits and polarity reversal.

In practice, the output circuits of battery chargers are protected by fuses, circuit breakers, or current protections that disconnect the output terminals of the charger from the power supply in the event of a short circuit at the output or when the rechargeable battery is incorrectly connected. In this case, a short-circuit current pulse is generated before the current protection 4 is applied, which can result in damage to a semiconductor element in electronically controlled chargers.

For chargers equipped with a fuse, the fuse must then be replaced: · Since the batteries are connected to the charger via movable connections, the likelihood of a short circuit at the charger output as well as the possibility of connecting a battery with opposite polarity is considerable. This requires extra care when handling the charger and when connecting the battery to the charger.

These drawbacks are substantially mitigated by the electronic fuse for the battery chargers of the invention, consisting of resistors, transistors and a diode. Its essence is that a series combination of a third resistor and a diode is connected between the positive terminal of the charger and the negative terminal of the charger. Its anode is connected to the negative terminal of the DC power supply and the cathode jg of the base of transistor npn. Its emitter is connected to the negative terminal of the DC power supply and the collector through the first resistor with the positive terminal of the DC power supply and through the second resistor to the base of the pnp transistor. Its emitter is connected to the positive terminal of the DC power supply and the collector to the positive terminal of the charger. The collector of the pnp transistor can be connected to a thyristor control electrode, the cathode of which is also connected to the positive terminal of the charger. The thyristor anode is connected to the positive terminal of the DC source. Thyristor control circuit terminal; is connected to emitter <. '·? transistor pnp. A fourth resistor may be connected in parallel with the third resistor and the diode between the positive charger terminal and the negative charger terminal.

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The advantages of the electronic fuse for a battery charger of the invention that the charger may be equipped with fuses or circuit breakers _r current OUTPUT PROTECTION. There is no need to change the fuses, switch the circuit breaker or current protection on again, and be careful when handling the charger leads. This greatly simplifies the operation of the charger. A short circuit at the charger output or battery reversal will not cause a short circuit current at all, thus eliminating the possibility of damaging both the battery charger circuit elements and the battery being charged. If the output is shorted or the battery is connected with the opposite polarity, the short-circuit current does not occur at all. The charger only supplies power to the correctly connected battery.

An example of an electronic fuse for battery chargers is shown in the circuit diagrams in the attached drawings. Fig. 1 shows the basic circuit, Fig. 2 shows the circuit with thyristor.

The output of the single pulse or double pulse rectifier is connected by a positive pole to the emitter of transistor β pnp and by a negative pole to the output negative terminal 11 of the charger. The collector of transistor Pnp is connected to the positive output terminal 10 of the charger. A fourth resistor 8 is connected between the positive and negative terminals 110 of the charger and a series combination of the third resistor} and the diode, whose anode is on the negative rectifier terminal, in parallel.

The base of transistor 6, npn, which is

In the emitter connected to the negative terminal ΐ1 of the rectifier. The collector of the transistor of npn is connected via the first resistor JL to the emitter of the transistor β pnp and through the second resistor 2 to the base of the transistor 2. pnp. The charged battery 8 is connected between the positive and negative terminals 10, 11 of the charger. The thyristor 8 is healed so that the positive rectifier pole is connected to its anode, the cathode is connected to the positive terminal 10 of the charger. Through the control circuit terminal 12 of the thyristor 8, these control circuits are connected between the negative rectifier terminal 11 and the emitter of transistor 8pnp.

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The electronic fuse circuit operates such that when there is zero or opposite polarity voltage at the charger output, the transistor pnpn remains closed and the emitter and base of the transistor pnp are zero voltage. This also closes the transistor pnp, which blocks the voltage for the control electrode of the thyristor 8. In connection, the transistor pnp disconnects the positive output terminal 10 of the charger from the positive rectifier. When a sorption polarity voltage is applied to the positive and negative terminals 10, 11 of the charger, the transistor 8npn opens and the voltage drop across the first resistor 6 also causes the transistor 8pnp to open. This unlocks the control electrode of the thyristor 8 and generates current at the charger output. In a wiring without a thyristor Q>, the output current flows through the transistor Pnp. The connection of the fourth resistor 6 provides a zero voltage at the output even when the output terminals are idle. The magnitude of the voltage applied to the output terminals at which the transistor 6 npn begins to open is given by the value of the third resistor 6. The diode 6 has the function of protecting the emitter-base transistor 8npn ®

Circuit in basic wiring can also be used in circuits with DC smoothed voltage. If the circuit is connected to a DC smoothing voltage source, i.e., a transistor emitter pnp to the positive pole of the source, there will initially be zero voltage at the positive terminal 10 and at the negative terminal 11 of the charger. By applying a positive voltage pulse to the positive terminal 10 of the charger, optionally based on the transistor nnpn, the transistor npn and thus the transistor 5pnp are opened and the voltage remains constant at the positive terminal 10 and the negative terminal 11 of the charger. By shorting these terminals 60, 60 or diodes 2λ, both transistors 6 close and the positive and negative terminals 10, 11 of the charger return to zero voltage. The circuit acts again as a short circuit and polarity reversal fuse as well as an electronic switch. With suitable selection of the third resistor 6, it can be achieved that the transistor 8npn closes even at a small voltage drop at the positive and negative terminals of the charger. Then the circuit can also be used as a fuse against current overload while using the voltage drop on the internal resistance of the source

258 040 circuit to connect a resistor for sensing the magnitude of the current.

The use of the invention is possible in the electronic field at manufacturers of battery chargers and rechargeable batteries and at their users.

Claims (3)

OBJECT OF THE INVENTION An electronic fuse for battery chargers consisting of resistors, transistors and diodes, characterized in that a series combination of a third resistor (3) and a diode (7) is connected between the positive terminal (10) of the charger and the negative terminal (11) of the charger. the anode is connected to the negative terminal of the DC power supply and the cathode to the base of the transistor / 6 / npn, whose emitter is connected to the negative terminal of the DC power supply and the collector through the first resistor / 1 / transistor / 5 / pnp, whose emitter is connected to the positive terminal of the DC power supply and the collector to the positive terminal (10) of the charger. Electronic fuse according to claim 1, characterized in that the collector of the transistor (5) pnp is connected to the thyristor control electrode (8), the cathode of which is connected to the positive terminal (10) of the charger and the thyristor anode (8) is connected to. a positive terminal of the DC power supply, the terminal (12) of the thyristor control circuits (8) being connected to the thyristor emitter (5) pnp. Electronic fuse according to Claims 1 and 2, characterized in that a fourth resistor (4) is connected in parallel with the third resistor (3) and the diode (7) between the positive terminal (10) of the charger and the negative terminal (1) of the charger. .