SE442802B - Battery charging apparatus - Google Patents

Abstract

This battery charging apparatus consists partly of a charging unit (2) adjustable according to the charge, partly of a device (3) to control the above charge, and partly of at least two batteries (4, 5), which can receive the charge. The charge from the charging unit (2) is controlled (8) by the device (3) for maximum or near maximum effect for the whole of the intended duration of the charging period. Initially the charging unit (2) is controlled (18, 22, 29) via the device (3) by the measured (15, 16) high charge value in the batteries (4, 5) up to an operationally suitable charging value, or a charging value suitable for the final charge.<IMAGE>

Description

8402657-4 this is discharged so there is another battery fully charged to start one explosion engine, so that to this connected charger (generator) can be used to fully or partially charge the discharged battery.

THE EARLY POSITION OF TECHNOLOGY It is thus in itself previously known to use a battery charger device, which partly comprises one with respect to a rechargeable power controllable charging unit, partly a rechargeable unit of said charging unit power control device and at least two different the rechargeable power receiving batteries. Thus, it can be mentioned that a charging unit in the form of ' a generator driven by an explosion engine with controllable charging power is previously known and is driven by explosion motors such as a DC generator or an alternator with associated diodes and where it emitted rechargeable power is regulated by regulating currents to the excitation winding It is a prominent wish, in the above application, to primarily keep a first battery fully charged, namely the battery for operation of starter motor for starting an explosion engine, and in others hand hold a second battery fully charged, namely the battery for provision of other power-intensive appliances.

When starting the controllable charging unit or generator shall thus, the rechargeable power is first transferred to the first the battery and when fully charged, the rechargeable power transferred to the other battery and recharge it.

To achieve this distribution of the rechargeable power between the first and the second battery, the different diode connectors previously known and various control circuits.

Common to previously known control circuits and also previously known diode- ^ couplings in combination with the charging unit of the previously known charging unit only power controllers are that these have not succeeded to maximum utilization the rechargeable power until both batteries are fully charged. Normally 8402657-4 there is a reduction of the rechargeable effect due to increasing degree of charge of the batteries.

This has also been considered natural since the pole voltage of the battery gets one tendency to increase at full charge and this variation is allowed to directly control the rechargeable effect.

DESCRIPTION OF THE CURRENT INVENTION TECHNICAL PRO§L§ fl Taking into account the previous state of the art, as expression by the previously known coupling arrangements described above, probably few are considered to be a qualified technical problem to be able to create such conditions that the rechargeable power is output from it the adjustable charging unit is constantly at a maximum or in each almost maximum, regardless of the charge level of one or both batteries in combination with the first battery being in the first place added charging power while the other battery should be in the second hand added charging power.

It must also be considered a qualified technical problem that be able to create such conditions that the maximum effect can be output from the charging unit until both batteries are fully charged, each after the rechargeable power of the charging unit is to be reduced to a ' for maintenance charge adapted power value or to one for completed charge adjusted power value.

It must also be considered a qualified technical problem be able to create conditions for a differentiated charge to the different ones batteries and to do this using simple components.

It must also be considered a qualified technical problem be able to create such a differentiated charge to full charge effect supplied to the various batteries and that at full charge of it the first battery switches the full charge to the second the battery for a certain time and then switch to full again charging power to the first battery and leave the time too full 8402657-4 charging power to a first battery decrease in favor of charging the operating time of the other battery.

It must also be considered a qualified technical problem that be able to create such conditions that the pole voltage, behavior over the first battery, can be determined in a first pole voltage sensor circuit and is used to determine the current instantaneous pole voltage and that a similar second pole voltage sensing circuit is used to sense the current and instantaneous pole voltage across the other battery and to make use of these momentarily occurring poles by simple means. voltages to control the maximum rechargeable power of the charging unit to the first battery and / or to the second battery.

It must also be considered a qualified technical problem that create a delivered rechargeable power control device so designed, that this constantly controls the charging unit to maximum output power, however that the said effect on the device for maximum effect must be able to be inhibited when the second pole voltage sensing circuit senses a pole voltage which exceeds a predetermined value.

It must also be considered a qualified technical problem to be involved using simple and inexpensive components to be able to create one firstly the battery voltage sensing circuit of the battery intended circuit buffer and one for the polarity voltage sensing circuit of the second battery is intended as a buffer circuit O and to let these be connected to separate comparator units, controlled by an adjustable reference voltage and to charge the first comparator unit control a first transistor circuit to couple the rechargeable power either to the first battery or to the second battery and allowing the second comparator circuit to control a second transistor circuit such as inhibit a signal output from one control circuit so that the other drying circuit can be caused to control the charging unit to a maintenance charge adapted power value or to a charge for completed charging appropriate power value. ' 8402657-4 LUSNINGEN The present invention now provides a battery charging device which includes, on the one hand, a chargeable controllable charge on the one hand, the rechargeable power of said charging unit and at least two rechargeable batteries receiving power.

According to the invention, it is indicated that the rechargeable effect of The control unit is controlled via the device for maximum or at least almost maximum power during the entire duration of charge intended for charging and that only when a high amount of charge is found in the batteries is controlled via the charging unit to a power charge adapted for maintenance charging value or to a power value adapted to the end of charging.

The invention further provides that a first supply line for charging bar power to a first battery shall have a resistance value that exceeds the resistance value of a second rechargeable supply line power to a second battery. The resistance value difference can be unfortunately formed by one or more diodes.

Furthermore, the invention indicates that a first pole voltage sensing circuit shall be arranged to sense the pole voltage occurring over a first poles of the first battery and a second pole voltage sensing circuit are used arranged to sense the pole voltage occurring across a second battery poles.

The controlling device shall comprise a circuit arranged to control constantly the charging unit to maximum or high power and to said circuit impact on the device is inhibited when sensed pole voltages exceed predetermined values for the two batteries with the charging unit switched on for maintenance charging or disconnected.

The invention provides a first transistor circuit to be able to control it rechargeable power to the first or second battery.

Finally, the invention provides that the first pole voltage sensing the circuit shall be connected to a first via a first buffer circuit comparator unit. The second pole voltage sensing circuit is via one 8402657-4 second buffer circuit connected to a second comparator unit. The first the comparator unit and the other comparator unit are both affected by a reference voltage, preferably adjustable one. The first comparison the control unit is arranged to control a first transistor circuit for add the rechargeable maximum power either to the first or the second battery while the second comparator unit is arranged to inhibit a signal fed from a control circuit for maximum charging power and control a reduction of the rechargeable power to a minimum.

BENEFITS The benefits that can primarily be obtained are considered to be associated with a battery charge. device in accordance with the present invention is to thereby conditions have been created to be able to maximize use the adjustable charging unit for the duration of time recharging the batteries should take place, but as soon as the batteries are fully charged charged, there is a momentary disconnection of the rechargeable power to a power value adapted for maintenance charging or to a power value for stopped charging adjusted power value. In addition, it has the advantage that the rechargeable power of the now assigned charging unit controls the device can be manufactured using simple standard components in combination with a simple wiring diagram, which gives the controlling device a price cheap production.

What can mainly be obtained is considered to be characteristic of a battery charge device in accordance with the present invention is hereinafter referred to as The characterizing part of claim 1.

BRIEF DESCRIPTION OF FIGURES A currently proposed embodiment. showing those for the present significant characteristics of the present invention, shall be further elucidated with reference to the accompanying drawing therein; 8402657-4 Figure 1 shows a strongly schematic connection of a battery charger device comprising partly one with respect to rechargeable power adjustable charging unit partly one said rechargeable power of said charging unit and at least two the rechargeable effect receiving batteries. Figure 2 shows in block diagram form a currently proposed one embodiment of the rechargeable of the charging unit power control device and figure 3 shows in more detail those for the block diagram according to figure 2 the appropriate components and their interconnection ling.

DESCRIPTION OF NOW FURESLAGEN EXECUTION FORM With reference to Figure 1, it is thus shown in a strong schematic representation Battery Charging Device 1. This device includes a med with respect to its rechargeable power controllable charging unit 2, e.g. for example, a direct current generator driven by an explosion engine or an alternating power generator with associated rectifier, as via a first connection 6 is connected to earth and via a second connection 7 (also called B +) is connected to a line 7 'for supplying a plus voltage and a rechargeable power. Via a connection 8 and a cable connected thereto 8 ', (also denoted D +) it is possible to via a rule (not shown) circuit control the excitation winding in the generator 2 and thereby create an adjustable rechargeable power via the connection 7 and the line 7 '.

By means of a line 7 'and a line 8', the charging unit 2 is connected with a charging unit's rechargeable power controlling device 3, as via a line 9 is connected to ground potential. Although the line 8 'could be connected directly to the excitation winding, the following description shall be based on the 8 'is connected to a control circuit (not shown), which in turn drives the excitation winding in the generator. 8402657-4 -g_ Via a line 10, the device 3 is connected to a first battery 4 and via a line 11 said device 3 communicates with a second battery 5.

According to the conditions of the present invention, the device 3 should be so arranged that full rechargeable power is primarily applied to it first battery 4, via line 10, and secondly supplied full rechargeable power the second battery 5, via line 11, and so as soon as the battery 4 is fully charged, all rechargeable power from the charging unit 2 is allowed to pass via line 11 to the second battery reed 5.

Both batteries 4 and 5 are connected via a line 12 to the earth tial.

Referring to Figure 2, there is shown in block diagram form one according to the invention. constructed said rechargeable power of said charging unit 2 The conductor 7 'is shown here to be connected to a diode or a diode set 13 before said line is connected to line 10 to the first battery 4. Using a first transistor circuit 14 can said line 7 'be connected to the line 11 for supplying the charge power to the second battery 5.

Reference numeral 15 illustrates a first buffer circuit connected to and arranged to sense the moments pole voltage occurring on it first battery 4. A second buffer circuit 16 is similarly arranged to be able to sense instantaneous pole voltage occurring on the other the battery 5. The first buffer circuit 15 is connected to a first the comparator unit 17 while the second buffer circuit 16 is connected a second comparator unit 18.

Both the comparator unit 17 and the comparator unit 18 are connected via a line 19 in connection with an generated reference voltage in a circuit 20. This reference voltage can advantageously be adjustable. The reference voltage is further connected to a control circuit 21. 8402657-4 _ g _ The first comparator unit 15 is arranged to control a first transistor drying circuit 14 while the second comparator circuit 18 is arranged to via one line 22 controls a second transistor circuit 29.

Via the reference voltage generating circuit 20 and the control circuit 21 are controlled the second transistor circuit 29: so that on line 8 'a voltage causing full current to the excitation circuit via the control circuit winding, which means that full charge occurs on line 7 ' bar effect. As soon as a signal appears at the output of the comparator circuit 18 via line 22, the output signal from control circuit 21 and is inhibited the transistor circuit 29 becomes fully conductive, thereby leaving a voltage on line 8 'which is perceived by the control circuit as too high a pole voltage battery, so the control circuit restricts the power supply to the winding winding, which means that the rechargeable effect on the 7 'decreases drastically to one maintained for maintenance charging power value or to a power value adapted to the end of charging.

With reference to Figure 3, the proposed coupling components for performing the function according to the block diagram shown in figure 2. It can thus be mentioned that the diode 13 consists of four diode units connected in pairs in series and in pairs in parallel and creates a voltage drop there that the first supply line 10 for rechargeable power to one first battery 4 has a resistance value that exceeds the resistance the value of a second supply line 11 for conducting rechargeable power to a second battery 5. This resistance discrepancy serves the purpose of be able to control a transistor 14a included in the first transistor circuit 14.

The transistor circuit 14 consists of two transistors 14a and 14b, one of which the transistor 14b is arranged to control the serving transistor 14a the direct purpose of connecting the rechargeable power to the other the battery 5.

A first, first pole 4 battery voltage instantaneous determination, pole voltage sensing circuit 15 includes a first buffer circuit 15a.

The pole voltage of the battery 4 is applied to the input of an operational amplifier. passages, the output of which via an RC link 25 is connected to a first 8402657-4 _10- comparator unit 17, comprising an operational amplifier 17a. Comparative the output of the drying circuit 17a controls a transistor connection 26, through which it voltage level from the comparator unit when switching is to take place can be set and there said transistor coupling, in turn controls the transistors 14b and 14a.

A second. momentarily determining the pole voltage of the second battery 5, pole voltage sensing circuit 16 includes a second buffer circuit 16a.

The pole voltage of the battery 5 is applied to the input of an operational amplifier. aisles, the output of which via an RC link 27 is connected to a second comparator tower unit 18, comprising an operational amplifier 18a.

The output of the comparator circuit 18a controls a transistor connection 23, which is control transistor to a transistor connection 29 through which the the current to the generator via line 8 'and the control circuit can be regulated.

Via a line 19 a controllable reference voltage is supplied both to the comparator one of the outputs of the controller circuits 17, 18 as to one input of a circuit comprising an operational amplifier Zla.

The output of the comparator circuit 18a and the output of the control circuit 21a are both connected to control a transistor circuit 23, which in turn controls one transistor circuit 29 for regulating the excitation of the excitation current the winding via the control circuit not shown.

In the case where the output of the control circuit Zla controls the transistors 23, 29, one occurs current supply via transistor 29 and line 8 'via control circuit to the generator's excitation winding, which means that fully rechargeable power is supplied via line 7 '. The control circuit senses a voltage which is perceived as if far too low pole voltage is at hand. As soon as one signal appears on line 22 from comparator circuit 18a leads 29 completely mentioned current via line 8 ', which is perceived by the control circuit as if high pole voltage is at hand and the rechargeable effect on line 7 'is reduced to a maintenance-adjusted low power value or to a low power adapted to the completed charge value. 8402657-4 _11- Assuming that the first battery 4 is almost fully charged while it second battery 5 is discharged will the rechargeable full power to be controlled over to the first battery 4. The buffer circuit 15 indicates for the comparator circuit 17 when the voltage across the 4 poles of the battery consumes a pre-determined value for full charge, say 14.2 V.

The transistor circuit 14 then begins to conduct current to the second battery 5, whereby the pole voltage of the first battery 4 drops, which buffer the circuit 15 and the comparator circuit 17 sense, the transistor circuit 14 gtrypes.

This means that when the first battery 4 has reached 14.2 V ' pole voltage, the charge is switched over to the second battery 5 and here a pulse-like charge occurs.

When the second battery 5 has a pole voltage of 14.2 V, which sensed by the second buffer circuit 16 and the second comparator circuit 18, the transistor circuits 23 and 29 begin to conduct, which results in that the control circuit perceives the pole voltage to be too high and then switches it off the magnetization to the generator.

When the comparator circuit 18 does not control the transistors 23 and 29, the control circuit is adapted to control the transistor circuits 23 and 29, so that a voltage of 13.5 V is kept constant on line 8 '. This causes the controller to react as if the battery voltage is too low and provides full excitation the generator.

The stated voltage values are not critical, but here it is a question of that form a potential that the control circuit may perceive as a too low pol- voltage or too high a pole voltage, where low pole voltage is to cause cause full rechargeable power and that high pole voltage should cause low power.

The pole voltage is measured directly on the batteries and thus all voltages are '' voltage drop in the line and contacts compensated as well as voltage cases in earth connections. 8402657-4 _12_ The invention is of course not limited to the above as an example specified exemplary embodiments but may undergo modifications within the scope of the appended claim in the illustrative inventive concept.

Claims (7)

\ 5 8402657-4 LATENT REQUIREMENTS Battery-charging device comprising on the one hand a charging unit controllable with respect to rechargeable power, on the other hand a rechargeable power controlling device of said charging unit and on the other hand at least two batteries receiving rechargeable power, characterized in that the rechargeable power from the charging unit is controlled for maximum or at least almost maximum power during the entire duration intended for charging in time and that only when a high amount of charge is found in the batteries is controlled via the device the charging unit to a power value adapted for maintenance charging or to one too terminated. charge adjusted power value. 2. A battery charging device according to claim 1, characterized in that a first charge line for rechargeable power to a first battery has a resistance value exceeding the resistance value of a second supply line for rechargeable power to a second battery. 3. A battery charging device according to claim 2, characterized in that the resistance value difference is formed by one or more diodes and is used in a switching circuit. 4. A battery charging device according to claim 1 or 4, characterized in that a first pole voltage sensing circuit is arranged to sense the pole voltage occurring over a poles of a first battery and a second pole voltage sensing circuit is arranged to sense the pole voltage occurring over a pole. second battery terminals. Battery charging device according to claim 1 or 4, characterized in that the controlling device comprises a circuit arranged to continuously control charging units to maximum or high power and that said influence of said circuit on the device is inhibited when sensed pole voltages exceed predetermined values, whereby the charging unit is switched for maintenance charging or disconnection. 34Û2657-4 gg 6. A battery charging device according to claim 1, characterized in that a first transistor circuit is arranged for controlling the rechargeable power of the first or the second battery. 7. A battery charging device according to claim 1, characterized in that the first pole voltage sensing circuit, comprising a first buffer circuit, is connected to a first comparator unit, that the second pole voltage sensing circuit is connected via a second buffer circuit to a second comparator unit, to which a reference voltage is connected to the first and the second comparator unit, preferably adjustable such that the first comparator unit is arranged to control a first transistor circuit, in order to connect the rechargeable maximum power to either the first or the second battery, and that the second comparator unit is arranged to inhibit a signal supplied from a control circuit for maximum charging power and to bring a reduction of the rechargeable power to a minimum.