DE1040658B - Battery charger - Google Patents

Description

Battery charger The invention relates to a preferably Battery charger designed for lead-acid batteries.

The charging voltage is important for the service life of the battery when charging up to a maximum value of z_. B. to limit 2.4V per cell. On the one hand you avoid the harmful gases from the battery, on the other hand you can do this the call charge ahead of you sufficiently quickly at this charge voltage. After Call charge is sufficient to maintain the state of charge a lower voltage of z. B. 2.18 V per cell, while the constant maintenance of the higher voltage before. 2, -1 V per cell would lead to overcharging and damage to the battery. That The battery charger should monitor the state of charge of the battery accordingly and automatically adjust the charging voltage to the respective setpoint.

Eb is a magnetically regulated rectifier used to charge the battery known, where the transformer feeding the rectifier has two regulating chokes is due to the mains voltage, one of which is mainly due to the charging current, the other is essentially controlled by the charging voltage. Through suitable In this way, dimensioning can regulate certain charging characteristics. However, can with this device not achieve that the charging voltage over a larger The range of the charging current remains constant because the working windings of the two chokes are in series in the primary circuit of the transformer, which is fed by the mains voltage and accordingly are not independent of one another.

In contrast, a battery charger is created by the invention, which the charging voltage independent of fluctuations in the charging current on a holds a substantially constant maximum value (e.g. 2.4 V per cell) automatically.

For this purpose, a battery charger is used with both of the actual value as well as a regulating throttle controlled by the setpoint of the battery voltage and one of a constant bias current and the charging current controlled throttle, which the setpoint the regulating throttle influences so that the charging voltage at a high charging current to a high voltage value (charging voltage) and with a low charging current to a lower one Voltage value (maintenance voltage) is regulated according to the invention in the manner designed that the throttle controlled by the charging current as one of the voltage-controlled Transductor independent transductor is formed, so <leave the charging voltage is kept constant regardless of the size of the charging current.

The arrangement is expediently made so that the charging current controlled transducer works in the area of excessive feedback, so that the The control current causing the closure is considerably smaller than the control current causing the opening Control current.

An embodiment of the invention is explained with reference to the drawing.

According to Figure 1, HTU is a transducer that can be controlled directly or via a pre-stage transducer. In order to simplify the explanation, a direct control is used as a basis in the following description. The working part of the transducer is indicated schematically, namely after the basic circuit with saturation angle control, as described for example in VDE-Fachberichte, 1951, Fachbericht »Transduktor« by W. Schilling, p. 143 to 147 Rectifier G1 to the terminals of the battery to be monitored B, which is preceded by a resistor NR, and optionally to the terminals for connecting a consumer. Furthermore, the transducer HTL ″ is equipped with three control windings S1, S2, S ;, of which the winding S1 receives a constant direct current 1k in the opening direction from the terminals 3, 4 of any type of control device SK fed from the alternating current network.

The winding S3 receives a direct current 1u in the opposite sense, which depends on the respective battery terminal voltage and by a variable resistor SR is set so that the transducer HTU is blocked when the battery voltage has reached its setpoint.

This nominal value is influenced by the further winding SZ, which is fed from the working circuit of the Trausductor STU via the rectifier G2. This transductor STU is similar to the transductor HTL 'according to the basic circuit with saturation angle adjustment and equipped with two control windings S4, S'. of which the first is fed from terminals 5, 6 of the device SK with a constant direct current 1, iia closing sense. The control winding .S, 5 is fed in the opposite sense with a t @leiclistrom 1, from the terminals 7. 8 of the resistor> _ \ "R through which the lacquer current from the battery flows. A feedback of the transductor STl 'is thereby achieved through appropriate adjustment The working characteristic is designed as shown in Figure 2, which shows the alternating working current I, t as a function of the control current. As can be seen, the transductor STU is blocked by the constant forcing current I ". However, as soon as the control current IS flowing in the winding.S, corresponding to the battery charging current, reaches the value IS ", the transducer is opened and a current I" is sent via the rectifier G into the winding S2 of the transductor HTL-, which the in the winding S1 supports the constant forcing current 1k flowing. Then the transducer HTL 'is only blocked by the current I "flowing in the winding S3. When the terminal voltage of the battery B reaches the upper value provided for the charging voltage (e.g. 2.4 V per cell) As the charging current decreases, the control current flowing in the winding .S5 will also decrease, and the transductor .ST ('will be blocked again as the current IS6, which is significantly smaller than IS ". Vicklung S , flowing current IQ disappear and the transductor HTL 'is blocked even at a lower battery voltage (e.g. 2.18 V per cell).

The arrangement described thus ensures that the battery is charged with a high charging voltage if the Charging current when recharging is relatively high. and that after Maintain the lower value of the float voltage (e.g. 13.218 V per cell) when charging remain. It should also be mentioned that the current-controlled transducer STU the voltage-controlled transducer HTU can also act in other ways. Man can e.g. B. the control winding SZ on third, transductor HTL. "And Matt whose in -Ieii the battery B with the control winding .S3 @ -erliii! @ clearing circuit turn on a resistor. ; in its terminals the @ u @ gaugskreis emitting the current I " of the Traitsdulztors ST ("is connected with such polarity that at this \\ 'resistance creates a voltage drop that counteracts the battery voltage will. to the battery voltage, "which causes the closure of the transductor HTL", atii to increase the desired value (e.g. 2.4 V per cell).

Claims (2)

PATE: \ T`.`; SYEt'c '£ tI': 1. Battery charger with a regulating throttle controlled by both the actual value and the setpoint of the battery voltage and a throttle controlled by a constant forcing current and the charging current, «- which is the setpoint of the The control throttle is influenced in such a way that the charging voltage is regulated to a high voltage value (charging voltage) when the charging current is high and to a lower voltage value (maintenance voltage) when the charging current is low. characterized. that the throttle controlled by the charging current is designed as a transducer (ST L ' ) independent of the voltage-controlled transductor (HT U), so that the charging voltage is kept constant regardless of the magnitude of the charging current. 2. Apparatus according to claim 1, characterized in that the transductor (.ST L ") controlled by the charging current works in the area of excessive feedback, so that the control current causing the closing is considerably smaller than the control current causing the opening. German Patent Nos. 860 084, 672 011: USA.-Patent No. 2,431,312.