DE2431313A1 - Supply cct. for incandescent lamps in battery-driven vehicle - has astable multivibrator reducing supply to power low-rated lamps - Google Patents

Abstract

The supply circuit for incandescent lamps in a battery-driven vehicles has the lamp (13) supplied from an astable multivibrator (10) whose duty cycle is determined by the lamp rated voltage and the supply voltage, the latter being generally greater than the lamp rated voltage. The multivibrator consists of two complementary transistors (20, 21), whose one collector is coupled over a capacitor (27) to the other transistor base. A protection circuit (14) is connected across the lamp and blocks the astable multivibrator transistors in case of a short circuit. Using a multivibrator as voltage divider avoids providing the battery with a tapping.

Description

Switching arrangement for feeding a consumer The invention relates on a switching arrangement for feeding a consumer from a voltage source, whose no-load voltage is greater than the nominal voltage of the consumer, in particular for supplying incandescent lamps in a battery-operated, electric motor-driven one Vehicle.

The invention is based on the idea that the battery is a Electric motor driven vehicle usually has to have a higher voltage than the voltage that is necessary to operate individual additional consumers. It has been found, for example, that to operate the traction motor one Electric bike that has an output of approx.

Consumes 500 watts, a battery voltage of at least 24 volts Must be available so that the currents and the copper losses do not become too high. On the other hand, it is used, for example, to operate the lighting system of such a vehicle Nui cine voltage source of 6 volts is required, because the commercially available and standardized Incandescent lamps are designed for such a nominal voltage.

In order to avoid tapping the battery, this has already been proposed been, the additional consumers, for example, so the light bulbs over to feed an auxiliary generator driven by the traction motor. Such a system however, it has the fundamental disadvantage that the incandescent lamps only run when the drive motor is running be fed. In addition, the efficiency of this system is bad, which is special is very disadvantageous for battery-powered vehicles.

The invention is based on the task of a switching arrangement create a consumer from a voltage source of high open circuit voltage can be supplied with as little loss as possible with a lower nominal voltage.

According to the invention, this object is achieved in that the consumer is fed via an astable multivibrator, its pulse-pause ratio is matched to the power requirements of the consumer.

An advantageous development of the invention is characterized in that that the astable multivibrator has two complementary, via a feedback capacitor has coupled transistors and that the astable multivibrator has a fuse is assigned to the transistors during the duration of a short circuit of the consumer holds in locked state. The astable multivibrator is therefore absolutely short-circuit proof designed so that in the event of a short circuit of the consumer, for example when Replacing defective lamps can occur, the voltage source is loaded as little as possible is-. It is important that with an astable multivibrator with complementary Transistors are both switched to the blocked state and thus at one Short circuit none of these transistors draws current.

In a particularly preferred embodiment, it branches out the feedback path in two ways, one of which is the emitter voltage condensate in one transistor and possibly in the other way a switch is connected in series with a resistor, which is dependent on the voltage at the consumer can be controlled and in the event of a short circuit of the consumer is open. The feedback process, which switches on the transistors, is therefore in place two different ways are available, depending on the one at the consumer applied voltage. In the event of a short circuit of the consumer and an open switch the feedback pulse is sent through the feedback capacitor and one to the emitter of the one transistor of the astable Hultivibrator switched capacitor out, which is thus charged and this transistor and thus also the complementary, effectively blocks the transistor carrying the load current.

The astable multivibrator then no longer clocks and it flows through this switching arrangement only a very small current to maintain the state of charge this capacitor at the emitter of the transistor. In ndrinal operation, however, is when the switch is closed another feedback path is formed, and the Multivibrator can work in the usual way.

The invention is illustrated below with reference to the in the drawing Embodiment explained in more detail, In the drawing, lo is an astable Designated multivibrator, which is fed from a battery 11 via a switch 12 will. The astable multivibrator lo is used to feed a consumer 13, for example an incandescent lamp with a nominal voltage below the open circuit voltage of the battery 11 lies. A fuse is assigned to the astable multivibrator, the total is denoted by 14.

The astable multivibrator consists of two complementary transistors 20 and 21 and the resistors 22 to 26 and a feedback capacitor 27 built up. The circuit of this astable multivibrator is different from known designs only in that the emitter 28 is not directly connected to the ground line is connected, but that the voltage at the emitter of this transistor 21 from the Charging voltage of the capacitor 3o of the fuse 14 depends.

The ratio of resistors 22 and 23 determines the one at the base 31 of the transistor 21 applied voltage. The resistor 24 serves to limit of the base current. Through the resistors 25 and 26, the base voltage of the Load current carrying transistor 20 set. The proportions are chosen so that when the transistor 21 is conductive, the transistor 22 carrying the load current is also conductive.

A voltage divider 40 from the resistors is located parallel to the consumer 13 41 and 42, the spam drop across resistor 42 being the base-emitter voltage for the transistor 43 supplies. This transistor 43 has the function of a switch and can therefore also be replaced by a relay if necessary. The collector-emitter path this transistor 4) is in series with a resistor 44 in parallel to the capacitor 30. The parallel connection is via a further resistor 45, which is used to limit the current, to the collector 46 of the transistor carrying the load current 20 connected to which the liückkopplungskondensator 27 is connected. The voltage divider 40 connected in parallel to the consumer 13 is via a further Resistor 47 also connected to collector 46 of transistor 20.

The circuit arrangement described works as follows: After Closing the light switch 12, a charging current flows through the resistors 22 and 21S, the base-emitter junction of transistor 21 into capacitor 30. This one Briefly flowing charging current is sufficient to switch transistor 21 into the conductive state to brings, so that the last.strc) m leading iransistor 20 carries current. above the protective resistor 47 is thus positive supply voltage at the consumer 13. The ratio of the resistors 41 and 42 is now set so that with proper Operation the transistor 43 also opens. Via the collector-emitter connector of the Transistor 20, the feedback capacitor 27, the base-emitter path les transistor 21, the resistor 44 and the conductive transistor 43 can now flow a charging current, which charges the capacitor 27 and thus initiates the feedback process, so that the two transistors 20 and 21 very quickly from the blocked to the conductive State can be switched. As soon as this charging process of the capacitor 27 is completed is, both transistors block again. At the output of the astable multivibrator or at the consumer 13 there is a voltage in the form of Reckteckimpuls, wherein the pulse-pause ratio is matched to the power requirement of the consumer 13 is.

In the event of a short circuit of the consumer 13, however, the transistor 43 do not get into the conductive state, because also the voltage divider 40 is short-circuited so that the base of transistor 43 as well as the emitter practically due to Hasse. The feedback path given in normal operation The resistor 44 and the transistor 43 are thus blocked. The feedback capacitor 27 can now only via the collector-emitter path of transistor 20, the base-emitter path of the transistor 21 and the capacitor 30 are charged. Through suitable dimensioning of these capacitors 27 and 3o, however, it is ensured that on the capacitor 30 very such a voltage is applied quickly that the transistor 21 is effectively blocked. This is also due to the fact that the capacitor 30 also increases via the resistor 45 r: id the collector-emitter path of the transistor 20 is charged. So as soon as this Charging of the capacitor o completed, so no further current over the capacitor 27 can flow into the base of the transistor 21, both are transistors 21 and 20 blocked until the short circuit has been eliminated. In the event of a short circuit So the transistors do not consume any current, so that the battery only runs through the low current used to maintain the charge of the capacitor 3o the resistors 22 and 24 and the base-emitter path of the transistor 21 are loaded will.

The circuit arrangement is therefore short-circuit proof for an unlimited period of time, whereby in the event of a short circuit the transistors are relieved and also no unnecessary ones Battery load occurs when the light switch is on. The circuit arrangement has a high efficiency, because the protective resistor 47 has a value of only a few milli-oha.

For these reasons, the circuit arrangement is particularly useful in electrically powered motor vehicles, in such cases, where d5 £ open circuit voltage of the voltage source is greater than the mains voltage of a Consumer.

In addition, however, the circuit arrangement can always be advantageous be used if a short-circuit-proof pulse circuit with high efficiency is desired

Claims (5)

Claims 1.) Switching arrangement for feeding a consumer a voltage source whose open circuit voltage is greater than the nominal voltage of the Consumer, especially for supplying incandescent lamps in a battery-operated, Electrically driven vehicle, characterized in that the consumer (13) is fed via an astable multivibrator (lo), its pulse-pause ratio is matched to the power requirements of the consumer. 2. circuit; arrangement in particular according to claim 1, characterized in that that the astable multivibrator (lo) two complementary, via a feedback capacitor coupled transistors (20, 21), and that the astable multivibrator one Fuse (14) is assigned during the duration of a short circuit of the consumer keeps the transistors blocked. 3. Circuit arrangement according to claim 2, characterized in that the feedback path branches in two ways, where in the one way a capacitor which determines the emitter voltage of a transistor (21) (30) and in the other path if necessary in series with a resistor (44) Switch (43) is switched, which depends on the voltage at the consumer controllable and is open in the event of a short circuit of the consumer. 4. Circuit arrangement according to claim 3, characterized in that the switch is a transistor (43), whose base-emitter savings through the on a resistor (42) of a voltage divider falling voltage is determined, which is connected in parallel to the consumer. 5. Circuit arrangement according to claim 4, characterized in that the collector (46) of the transistor (20) carrying the load current on the one hand a capacitor (27) to the base of the other transistor (21) of the astable Multivibrators and on the other hand via a resistor (45) to limit the current the emitter of this transistor (21) is connected that in parallel with this capacitor (go) the collector-emitter path of the transistor (43) of the fuse (14) in series is connected to a resistor (44), and that to the collector (46) of the Load current carrying transistor (20) further via a resistor (47) of the voltage divider (40) is connected to which the consumer (13) is connected in parallel. L e r s e i t e