DE1210343B - Monitoring device for an electronically controlled flashing light signal system for indicating the direction of travel in motor vehicles - Google Patents

Description

Monitoring device for an electronically controlled flashing light signal system for indicating the direction of travel in motor vehicles The invention relates to a Monitoring device for an electronically controlled flashing light signal system for indicating the direction of travel in motor vehicles with at least two: simultaneously flashing signal lamps on each side of the vehicle, optionally by means of Hand switches can be switched on, and with one of an astable multivibrator and a power transistor controlled by a transistor of the multivibrator existing flasher unit: In the known flasher light signal systems of this type A relay is usually used as a monitoring device for the function of the system, that is in the flashing lamp circuit and the failure of a lightbulb due to continuous light the indicator lamp shows.

In contrast, the invention aims at a contactless monitoring device, in the case of the failure of a lightbulb due to faster flashing of the still intact one Light bulbs and the indicator light is displayed. To this end, between the Collector of the power transistor and the base of the multivibrator transistor controlling it a diode with forward direction from the power transistor to the multivibrator transistor arranged.

The invention is based on the known property of a diode which consists in having an electric current as a function of the applied polarity blocks and conducts. Is positive at the cathode of the diode and negative potential at its anode, it blocks the passage of current. When reversing on the other hand, polarity becomes conductive.

The invention will be explained in more detail using the circuit diagram.

The astable multivibrator consists of the transistors T, and T2 and the associated switching elements R1, R2, R3, R4, C, and C2. In a familiar way one of the two transistors of the multivibrator circuit is blocked while the other is in charge. For example, suppose that at the beginning of the contemplation the transistor T, is conductive, the capacitor C, via the resistor R4 and the small resistance of the emitter-base path of the transistor T, charged. The negative pole of the (charged) capacitor C2 is over the conducting transistor T connected to the emitter of transistor T2. The base of the transistor TZ is thus positive with respect to its emitter, and the transistor T2 is therefore blocked.

The capacitor C2 discharges through the resistor R2 and the transistor T i. If the capacitor C2 is discharged so far that the base of the transistor T2 receives a slight negative potential with respect to its emitter, the transistor T2 becomes conductive. The transistor T is thus blocked via the capacitor Cl, which has been charged in the meantime, because the emitter of the transistor T is conductively connected to the negative pole of the capacitor Cl via the transistor T2. Now the capacitor C2 is charged via the transistor T2 and the resistor R3 and the capacitor C ,, is discharged via the resistor R, until the discharge or charge reversal of the capacitor C is so advanced that the base of the transistor T, becomes negative to its emitter. Now the transistor T is again conductive and the transistor T2 is blocked. The game repeats itself. The clock frequency is determined by the time constants T, = R, - Cl and T2 = R2 - C2.

The power transistor T3 is connected to the transistor T2 of the multivibrator controlled. If the transistor T2 is conductive, the transistor T3 is also activated and is conductive. The indicator lamp groups are therefore periodically via the transistor T3 L or L2 poured through with electricity. By pressing the direction switch S can optionally the left or right indicator group can be switched on.

According to the invention, the diode D is switched on between the points A and B of the flasher circuit. When operating with the prescribed number of lamps, i.e. two incandescent lamps in the present example, the voltage potential at point A at the base of transistor T2 is roughly the same as the potential from the sum of the voltage drop at the collector-emitter path of transistor T3 (at point B) and the threshold voltage of the diode D ,. Because of the approximate equipotentiality, practically no or only a very low current flows through the diode D i. If a lamp fails, the voltage potential at point B becomes more positive compared to the previous state and thus positive compared to point A. The diode D, _ becomes conductive or more conductive. A current can flow through the diode D, as a result of which the potential at point A, i.e. at the base of transistor T2, is changed. The base of the transistor TZ is at a slightly higher potential than in the case of operation with the total number of flashing lamps in a flashing lamp group. Therefore, the base current of this transistor becomes smaller, and the transistor T2 is no longer fully controlled. This has the consequence that a noticeable voltage drop occurs at the emitter-collector path of the transistor T2. During operation with two incandescent lamps, practically the entire operating voltage at resistor R4 drops (e.g. about 5.7 of 6 volts) and only a very small voltage drop can be measured at the emitter-collector path of transistor T2, if it fails an incandescent lamp, the battery voltage is about half at the resistor R4 and half at the emitter-collector path of the transistor T2. The capacitor Cl therefore only discharges by a lower voltage across the resistor R1. You get. therefore a faster zero crossing at the base of the transistor T ,, and thus a faster switching through of this transistor. In the shorter time, the capacitor C2 is also only charged to a lower voltage value, so that its discharge time is subsequently also shortened, specifically with each cycle of the multivibrator. The frequency of the multivibrator circuit is thus increased. The failure of a flashing lamp is thus prevented by faster flashing of the remaining lightbulb and the control lamp K, which are in series with the flashing lamp group L, which is not switched on. and is parallel to the switched-on flashing lamp group L2.

Claims (1)

Claim: Monitoring device for an electronically controlled Flashing light system to indicate the direction of travel in motor vehicles with at least two signal lamps flashing at the same time on each side of the vehicle, the can optionally be switched on by means of a hand switch, and with one of one astable multivibrator and one through a transistor of the multivibrator controlled power transistor existing flasher, characterized in that between the collector of the power transistor (T3) and the base of the one controlling it Multivibrator transistor (T2) a diode with forward direction from the power transistor is arranged to the multivibrator transistor.