DE1917985A1 - Circuit arrangement for monitoring DC-fed consumers that can be periodically switched on and off - Google Patents

Description

Circuit arrangement for monitoring that can be switched on and off periodically DC powered consumer.

The invention relates to a circuit arrangement for periodic monitoring DC power supply that can be switched on and off by means of a breaker contact Consumer.

Such a circuit arrangement can be used, for example, to monitor the direction indicator lamps on vehicles or warning lights on sea or aircraft.

Failure of one or more lamps can endanger others Vehicles are driving and should therefore be displayed to the driver of the vehicle.

From the magazine Funkschau ", issue 9/1968, page 694, is an electronic one Direction indicator known, in which in the event of failure at least one lamp The control lamp goes out, indicating the fault.

There are also circuit arrangements known that one from the Resistance of lamps connected in parallel and a resistor connected in series voltage divider formed at its connection point in the event of a change the lamp resistance, e.g.

an increase in resistance when a filament burns through, a Voltage change relative to a fixed potential occurs in a suitable manner is shown.

The disadvantage of these known circuit arrangements is the need to amplify the voltage change occurring at the voltage divider and for a to provide additional amplifier.

This disadvantage is eliminated according to the invention in that parallel the series connection of a resistor and a capacitor to the breaker contact is placed and the resistor is dimensioned such that.

the voltage difference occurring on it when the breaker contact opens reached a maximum between normal operation and disrupted operation.

The invention is described in more detail with reference to the drawing. In this show: FIG. 1 an exemplary embodiment of the circuit arrangement according to the invention using the example of a direction change indicator of a motor vehicle and figure 2 shows an exemplary embodiment for a memory in connection with the circuit arrangement according to Fig. 1.

The two direction indicator lamps 1 and 1 'are via a direction indicator switch 2 and a lamp circuit breaker contact 3 to a power source 4 of a motor vehicle connected. Parallel to the contact 3 is the series connection a resistor 5 and a capacitor 6. If switch 2 is closed, eo receives a pulse sensor 7 of a flasher 8 a start-up signal and includes a Relay 9 the contact 3, so that a current can flow through the lamps 1 or 1 '. After a beit predetermined by the pulse generator 7, the contact 3 opens again, whereby the course closure via the resistor 5 and the capacitance 3 is canceled and itself the capacitor 6 begins to charge via the lamps 1 or 1 'and the resistor 5. At the first moment the voltage on the capacitor 6 is zero, so that the am Resistance 5 standing voltage directly from the divider ratio between the Resistance 5 and the instantaneous resistance of the lamps 1 and 1 'results. At the Resistor 5 therefore sets itself to a lower or higher voltage, depending on whether the current through both lamps or - because one is defective - only through one lamp can flow.

The emitter potential of a transistor 10 becomes through resistors 11 and 12 raised compared to the positive pole of the power source 4 eo that only then a current can flow into the base of transistor 10 when both lamps 1 and 1 'are carrying current, so only then does a collector current flow in transistor 10, which is absent due to it indicates the defect of at least one turn signal lamp at the beginning of the dark phase.

If transistor 10 became conductive at the beginning of the dark phase, the duration of the current flow is limited by the fact that with increasing capacitor voltage the voltage across the resistor 5 becomes smaller. The duration of current flow can be increased by increasing the capacity of the capacitor 6 can not be extended arbitrarily. There on the one hand a minimum dark time for the lamps is given, on the other hand. the power loss exceeds a permissible maximum value in resistor 5, then one is if the lamp control signal are available beyond the current flow duration of the transistor 1Q must, a storage of the information is required.

If the transistor 10 is supplemented by a complementary transistor 13 in such a way that each the base of one with the collector of the other Transistor is connected, so there is a bistable circuit unit. Are Both transistors blocked, they go into the conductive state at the beginning of the dark phase State over when - as described above - but a decoupling diode 14 a current flows into the base of the transistor 10. Due to the positive feedback, each one transistor for the other, both transistors remain even then still in the conductive state when the current stops flowing through the diode 14.

The conductive state of the transistors 10, 13 is retained as long as until a negative voltage is briefly applied to an erase input 15.

Patent claims:

Claims (6)

Claims: 9 circuit arrangement for monitoring periodically DC power supply that can be switched on and off by means of an interrupter contact Consumer, characterized in that parallel to the interrupter contact (3) the Series connection of a resistor (5) and a capacitor (6) is laid and the resistor is dimensioned in such a way that the resistance on it when the breaker contact opens (3) occurring voltage difference between normal operation and malfunction Operation reached a maximum. 2. Circuit arrangement according to claim 1, characterized in that; that the voltage difference occurring at the resistor (5) due to a voltage divider (1, 12) and a transistor (10) existing voltage discriminator detectable is. 3. Circuit arrangement according to claim 2, characterized in that a constant voltage source is connected in series with the voltage divider resistor (11) is. 4. Circuit arrangement according to claim 3, characterized in that the constant voltage source consists of at least one diode (16). 5. Circuit arrangement according to claim 1, characterized in that a capacitor (17) is connected in parallel to the resistor (5). 6. Circuit arrangement according to claim 2, characterized in that one of a transistor (13) complementary to the first ransietor (10) and one Decoupling diode (14) existing memory is provided. L e r s e i t e