DE2441154C3 - Circuit arrangement for rapid charging of an accumulator - Google Patents

Description

The invention relates to a circuit arrangement for rapid charging of an accumulator with pulsating Electricity, with an electronic switch arranged between a rectifier and the accumulator and one, the voltage of the accumulator in the current flow pauses detecting discriminator for Controlling the switch, which has a control thyristor whose anode is connected to the control electrode of the electronic switch and its control electrode with the divider tap of a battery connected in parallel first voltage divider is connected.

In a known circuit arrangement of this type (DE-AS 17 63 162), the cathode of the thyristor is with Connected to zero potential and the anode of the thyristor also to the positive pole of the accumulator connected. In order to detect the battery voltage only during the current flow pauses, is in series with the voltage divider that detects the battery voltage, a PNP transistor is connected, the base of which is connected to the rectifier output This transistor controls through, so that the potential at Gletchrichter output below the potential of the positive Pole of the accumulator drops The voltage divider is designed so that at the intended end-of-charge voltage of the accumulator at the voltage divider

ίο such? Voltage drop occurs that the thyristor ignites, whereby the control electrode of the electronic switch is at zero potential and the electronic The switch is blocked in its open position Once the thyristor has ignited, the anode flows through it

is this thyristor with the positive pole of the accumulator connecting resistance a current that is sufficient for the To keep the thyristor conductive at all times. The rapid charging process is now complete. An additional charging circuit provides for the further slow charging or for the

2u Compensation for possible low charge losses in the accumulator.

A disadvantage of this circuit arrangement is that that the thyristor remains conductive after the initial ignition and thus the electronic switch This means that fast charging is locked once and for all, even if the battery is charged If the threshold voltage drops below the threshold voltage at which rapid charging is switched off, this rapid charging is set not back on. It can only be through complete

*> Disconnection of the charging circuit from the mains and again Connect the charging circuit to the mains again.

With accumulators it is desired in certain applications that the charging process of the

^{} Γ} · Accumulator is automatically initiated when the set target voltage of the accumulator is undershot due to self-discharge or a consumer connected to the accumulator. Such an automatic recharging of the accumulator is

^{4 (1} not possible with this known circuit arrangement.

The invention is therefore based on the object of providing a circuit arrangement of the type mentioned at the beginning To create rapid charging of batteries, in which the charging process of the battery when a certain value of the battery voltage is terminated and in which after the battery voltage has dropped the charging process of the accumulator is restarted to a predetermined value.

w This object is according to the present invention solved in a circuit arrangement of the type mentioned in that the cathode of the control thyristor at the divider tap of a second connected between the rectifier output and zero potential

"Voltage divider is connected and that one over the Rectifier chargeable capacitor is provided, which is connected to the rectifier output standing plate over an adjustable resistor with the anode of the thyristor immediately or below

^w) inclusion of a further resistor is connected.

With this circuit arrangement, an additional charge retention circuit or recharging circuit can be accessed to compensate for slight idling

<> "'Voltage loss of the accumulator or too sooner Shutdown of the accumulator due to the prevailing temperature conditions, as they are with the known Fast charging devices are common, can be dispensed with.

Due to the lack of this charge retention circuit or reload circuit results in the further advantage that the connected to the fast charger The accumulator can remain connected to the power supply network for an unlimited period of time, without the accumulator being destroyed by overcharging.

According to embodiments of the invention, the capacitor can both between the rectifier output and zero potential as well as between the rectifier output and the positive pole of the accumulator be arranged.

According to a further embodiment of the invention it is provided that the adjustable resistor is arranged between the rectifier output and the capacitor and the further resistor between the Anode of the thyristor and the rectifier output is connected. This results in a simple one Circuit arrangement that can be implemented with relatively few components. Is the electronic one Switch designed as a thyristor, this circuit arrangement assumes, however, that the thyristor has a relatively high holding current

In a further embodiment of the invention there is a rectifier output and a capacitor Arranged diode This makes it possible to use electronic switches designed as thyristors, To use thyristors with a relatively small holding current.

A preferred embodiment of the invention provides that the control electrode and anode of the electronic switch are connected to each other via the further resistor. This allows a simple control of the electronic switch at the beginning of each half-wave of the transformed AC voltage can be achieved without the need for additional components.

In the drawing, exemplary embodiments of the subject matter of the invention are shown. It shows

1 shows the circuit arrangement according to the invention with one between the rectifier output and the positive one Pole of the accumulator connected series connection of capacitor and adjustable resistor,

2 shows the circuit arrangement according to the invention with the series connection of capacitor connected between the rectifier output and zero potential and adjustable resistance,

3 and 4 the circuit arrangement in which a diode is arranged between the rectifier output and the capacitor, FIG. 3 the series connection of diode and capacitor between the rectifier output and the positive pole of the accumulator and in Fig. 4 is connected between the rectifier output and zero potential,

5 shows the power supply unit for the circuit arrangement according to FIG. 1 to 4 with one-way rectification and

6 shows the power supply unit for the circuit arrangement according to FIG. 1 to 4 with full-wave rectification.

In Fig. 5 and 6, 1 denotes a transformer, the primary winding of which is connected to an AC voltage network of for example 220 V is connected and its secondary winding with a one-way rectification 5 is connected to a diode 3 and the zero potential of the circuit arrangement and in full-wave rectification according to FIG. 6 with the inputs of a full-wave rectifier bridge circuit 4 is connected. Both the output of the diode in FIG. 5 as well as the output of the rectifier bridge circuit 4 in Fig.S is with a connection point 5 connected, on each of which one of the circuit arrangements according to FIGS. 1 to 4 connected is

In all circuits according to FIG. 1 to 4 is between point 5 and the positive pole of an accumulator 6 Thyristor 7 turned on as an electronic switch. The control electrode of thyristor 7 is via a Resistor 8 connected to a control thyristor 9. The anode of the thyristor 9 is connected to a resistor 1 with the connection point 5 and the cathode of the thyristor 9 with the divider tap of one of the Resistors 10 and 11 existing voltage divider between connection point 5 and zero potential arranged is connected. The control electrode of the thyristor 9 is connected to the divider tap of one of the Resistors 12 and 13 existing second voltage divider connected in parallel to the Accumulator 6 is connected The resistor 13 of the voltage divider is adjustable for display the subsequent charging of the accumulator is between the anode of the thyristor 9 and the The series circuit of a Zener diode 14 and a light emitting diode 15 is connected to zero potential.

The so far in all F i g. 1 to 4 matching circuitry is shown in FIG. 1 through a series connection from an adjustable resistor 17 and a capacitor 18 supplements the between the Connection point 5 and the positive pole of the accumulator 6 is connected

In Fig. 2 is this series connection of adjustable resistor 17 and capacitor 18 between the Connection point 5 and the zero potential connected.

In Fig. 3, the capacitor 18 is again between Connection point 5 and the positive pole of the accumulator 6 connected, but between the connection point 5 and the capacitor, a series resistor 19 and a diode 20 are switched on. The adjustable one Resistor 17 is on the connected to the connection point 5 plate of the capacitor 18, so on the Connection point between the cathode of the diode 20 and capacitor 18, and the anode of the thyristor 9 connected.

In Fig. 4 is in contrast to FIG. 3 the series connection from series resistor 19, diode 20 and capacitor 18 between connection point 5 and zero potential arranged

As in FIG. 3 is the plate of the capacitor 18 connected to the cathode of the diode here too the adjustable resistor 17 is connected to the anode of the thyristor 9.

While the exemplary embodiments of the circuit arrangement according to FIG. 1 and 2 assume that the Thyristor 7 has a relatively large holding current, needs in the exemplary embodiments of the circuit arrangement according to FIG. 3 and 4 do not meet this requirement to be hit. Thyristors 7 with very small holding currents can be used here.

The mode of operation of the switching arrangement according to the invention according to the exemplary embodiments F i g. 1 to 4 in connection with F i g. 6 is as follows:

At the output of the rectifier bridge circuit 4 there are two in each period of the mains alternating voltage positive half-waves of the transformed alternating voltage at. As a result of the unavoidable voltage drops in the forward direction of the DC bridge circuit there are brief voltage-free phases between the individual half-waves. At the beginning everyone

Halbweüe as soon as the instantaneous value of the transformed Mains voltage exceeds the voltage of the accumulator, the thyristor 7 is ignited because over the Resistors 8 and 16 have a positive potential relative to the cathode at its control electrode. At the same time, the half-wave voltage is reduced in the divider ratio of the resistors 10 and 11 Cathode of the thyristor 9 on. So that the cathode potential of this thyristor increases accordingly Half-wave voltage, and by setting the voltage divider it is ensured that the thyristor 9 can only ignite in the phases in which the thyristor 7 is blocked - that is, no current flows - and only when the partial voltage of the battery voltage applied to its control electrode is around the ignition voltage higher than its cathode potential.

In each half cycle the thyristor 7 blocks whenever the voltage difference between the instantaneous value the half-wave voltage and the charging voltage of the battery 6 is no longer sufficient, the to allow the required holding current to flow through the thyristor 7. After blocking the thyristor 7 takes the Voltage between the control electrode of the thyristor 9 and its cathode increases and is greatest when the Half-wave voltage at the output of rectifier 3 has reached the value »0«. It is now exclusive on the size of the battery voltage or a part of the adjustable at the voltage divider 12,13 Battery voltage dependent. In the case of a value that can be set by means of the variable resistor 13 Accumulator voltage, which corresponds to the end-of-charge voltage applied to the accumulator Finally, the voltage difference between the control electrode and the cathode of the thyristor 9 is greater than that Ignition voltage of this thyristor, and the thyristor 9 ignites through. The control electrode of the Thyristor 7 connected to zero potential via resistors 8 and 11, and thyristor 7 can despite increasing voltage at the output of the rectifier can no longer be ignited. The loading process of the Accumulator is terminated as long as the accumulator voltage 6 does not fall below its open-circuit charge voltage sinks.

When the thyristor 9 is ignited, it discharges the charged with each half cycle of the transformed mains voltage capacitor 18 via the adjustable Resistor 17 and the thyristor 9. The discharge time of the capacitor 18 is determined so that in the am Output of the rectifier briefly occurring dead phases at the anode of the thyristor 9 a slight positive voltage is applied, the

i «is sufficient for a current to flow through the thyristor 9 let, which is slightly larger than the holding current of this thyristor, as long as the battery voltage is greater than the open circuit voltage of the accumulator and a corresponding control voltage above the Voltage divider 12, 13 on the control electrode de: thyristor 9 is located

As soon as the voltage of the accumulator falls below its open circuit voltage, the control is sufficient: Thyristor 9 via the voltage divider 12,13 not zui

2! I Maintaining the flowing through the thyristor 9 Holding current off, so that it blocks and thus the blocking of the control electrode of the thyristor 7 will be annulled. As soon as the instantaneous value of the transformed mains voltage is now the voltage of the accumulator 6 exceeds the thyristor / becomes conductive again, and the one described above The charging process is repeated until the end-of-charge voltage of the accumulator 6 is reached and the thyristor 9 switches through

JO The light-emitting diode 15 to display the charging process

of the accumulator lights up only during the charging phase of the accumulator and is de-conductive when it becomes conductive;

Thyristor 9 switched off Instead of the full-wave rectification in Fig. 6 kanr

the circuit arrangement according to the invention in the same way via a half-wave rectifier according to Fig. £ operate. In this case the mains voltage is applied to deir connection point 5 in every half cycle only a positive half-wave voltage. the

-to the mode of operation of the circuit arrangement is different as described above.

For this purpose 2 sheets of drawings

Claims (6)

1 claims: 1. Circuit arrangement for rapid charging of a battery with pulsating current, with a arranged between a rectifier and the accumulator and an electronic switch the voltage of the accumulator in the current flow pauses detecting discriminator for controlling the Switch, which has a control thyristor, whose anode with the control electrode of the electronic Switch and its control electrode with the divider tap of a battery connected in parallel first voltage divider is connected, characterized in that the cathode of the control thyristor (9) to the divider tap between the rectifier output (5) and zero potential connected second voltage divider (10, 11) is connected and that an upper the Rectifier (3, 4) chargeable capacitor (18) is provided, whose with the rectifier output (5) related plate over one adjustable resistor (17) with the anode of the thyristor (9) directly or with inclusion another resistor (16) is connected 2. Circuit arrangement according to claim 1, characterized in that the capacitor (18) between Rectifier output (S) and zero potential is arranged 3. Circuit arrangement according to claim 1, characterized in that the capacitor (18) between Rectifier output (5) and the positive pole of the accumulator (6) is arranged. 4. Circuit arrangement according to one of the preceding Claims, characterized in that the adjustable resistor (17) between the rectifier output (5) and capacitor (18) and the further resistor (16) between the anode of the Thyristor (9) and rectifier output (5) is connected. 5. Circuit arrangement according to one of claims 1 to 3, characterized in that between Rectifier output (5) and capacitor (18) a diode (20) is arranged. 6. Circuit arrangement according to one of claims 1 to 5, characterized in that the control electrode and anode of the electronic switch (thyristor 7) via the further resistor (16) are connected to each other.