DE2234892A1 - FLASHING LIGHT SWITCH - Google Patents

Description

_v PATENT LAWYERS

DipUng. WERNER COHAUSZ Dipl.-Ing. WILHELM FLORACK-DIP ₉ -RUDOLF KNAUF

4 Düsseldorf, Schumannstrasse 97

S lit

C.A.V. Limited July 14, 1972

Well Street
Birmingham / England

Flashing light circuit

The invention relates to a flashing light circuit a capacitor that when switched on from a DC power source is charged, and a switching device that causes the lights to light up when the voltage of the capacitor reaches a predetermined value.

The object of the invention is to provide a simple and practical circuit that can be used in the event of a failure of the lamp or, if there are several luminaires, one luminaire indicates the failure.

According to the invention, this object is achieved in a flashing light circuit of the type mentioned above achieved in that the switching device contains a relay, the switching winding of which is energized when the voltage of the capacitor reaches the predetermined value, and that a StromfUhler / to control the passage of current through the

26 "278

U / Be - 2 -

209884/0317

2234832

Light or lights is provided that the relay switching winding in the event of failure of one or more lights while operating the circuit keeps it under power.

Two examples of flashlight circuits according to the invention are illustrated with reference to FIGS. 1 and 2 of the accompanying drawings Wiring diagrams described.

In Pig. 1, two terminals 10 and 11 are provided for connection to the positive and negative terminal of a direct current source, respectively. Furthermore, a pnp transistor T1 is provided, the emitter connection of which is connected to terminal 10 via the resistor R1 and whose collector connection is connected to terminal 11 via the switching winding 12 of a relay. The base connection of the transistor Tl is connected via a resistor R3 to a point between a capacitor C and a resistor R ¹ I-. The other end of the resistor R4 is connected to an intermediate line 13 and the other plate of the capacitor C is connected to the terminal 10 via the diode D1, the cathode of the diode being connected to the terminal 10. Furthermore, the emitter connection of the transistor Tl is connected to the intermediate line 13 via the resistor R2.

The relay is provided with a pair of normally open contacts 14, one of which is connected to the intermediate line 13 and the other connected to terminal 10 via resistor R5 is. This contact is also connected to the emitter connection of a pnp transistor T2, the collector connection of which is connected to the collector terminal of the transistor Tl via the resistor R8. The base connection of the

209884/0317

sistörs T2 is connected to terminal 11 via resistor R9 as well as through the resistor Ro and the diode D2, which in Are connected in series, connected to terminal 10, the anode of the diode being connected to terminal 10. A diode Dj5 is also provided: the cathode of which is connected to., the anode of the diode Dl and its anode is connected to the collector of the transistor T2.

The flashing lights operated by the circuit are shown at 15. In the circuit of these lights, a manually operated switch 16 is provided between the intermediate line 1J> and the terminal 11, and a warning lamp 17 is arranged between the terminal 10 and the intermediate line 13.

If the switch 16 is closed during operation, the warning lamp 17 lights up immediately and the capacitor C is charged via the diode DJ. As soon as the voltage of the capacitor reaches a predetermined value, the transistor Tl begins to conduct, whereby the relay winding is energized and the contacts Ik- close. When the contacts 14 are closed, the lamps I5 light up at full strength, apart of course from the voltage drop across the resistor R5. At the same time, the warning lamp 17 goes out. When the contacts 14 are closed, the capacitor discharges through the diode Dl and the resistors Rj5 and R4. When the capacitor is discharged, the transistor Tl stops conducting, and the process is repeated as long as the switch 16 remains in the closed position.

Under normal conditions, the transistor T2, the

209884/0317

immediately after the switch 16 is closed, to conduct on shortly after the contacts 14 have been closed. This happens because the lamp current flowing through the resistor R5 makes the potential of the emitter of the transistor T2 more negative than that of the base. In this connection it should be pointed out that the current flowing through the transistor T2 when the switch 16 is closed is not sufficient to allow a current of sufficient strength to flow through the relay winding so that the contacts 14 are closed. If one of the lamps is defective, the total lamp current does not reach the necessary strength to switch off the transistor T2, so that if the transistor Tl does not conduct, the current flowing through the transistor T2 and thus through the relay winding is sufficient, the contacts 14 to keep closed and thereby indicate a fault in the circuit in such a way that the warning lamp YJ remains off and the lamps 15 remain lit.

The diodes Dl and D3 are intended to ensure that the circuit in the event that the transistor T2 fails and the circuit is open, not in the correct Way world-worked. In this case the capacitor C would not be charged when the switch 16 is closed is, and in practice the transistor Tl would be switched on and off at high frequency and thereby the failure of the Show transistor T2 or associated circuit elements.

Fig. 2 shows an alternative arrangement in which, as far as possible, the same reference numerals as in the circuit of Fig. 1 are used. In the case of the one shown in FIG

~ 3 -

209884/0317

The circuit is the transistor Tl of the circuit of FIG. 1 replaced by a pair of transistors T3, called the Darlington pair are interconnected. The collectors of the transistors are connected to one end of the relay winding, and between the junction of resistors R1 and R2 and the emitter of the second transistor of the pair arranged a diode D4. Furthermore, the base of the .first Transistor of the pair with a digit between one Pair of resistors RIO and RIl connected. The other end of the resistor RIO is connected to terminal 10 while the other end of the resistor RIl is connected to the cathode of a Zener diode ZDl, the anode with the terminal 11 is connected.

A pnp transistor T4 replaces the transistor T2 and is with its collector connected to one end of the resistor R8 and also to the anode of a diode D5, its cathode communicates with the intermediate line 1J5. The emitter of transistor T4 is also connected to the intermediate line Ij5 connected, and the base, of transistor T4 is across the resistor R12 is connected to a point between the contact 14 and the resistor R5 via a diode D6. In of this circuit is the resistor R5 with the line 13 connected »The base of transistor Τ4 is also connected to the Resistor Rl ^ connected to terminal 11. aside from that is the base via a diode D7 to one end of a resistor Rl4 connected. The other end of the resistance Rl4 is connected to the terminal via a resistor RI5 11 and via a diode D8 to the intermediate line 13 connected. Furthermore, the anode of the Zener diode ZD2 is with

2098B4 / 0317

the junction of the resistors Rl4 and RI5 and the The cathode of the Zener diode ZD2 is connected to the connection terminal 10. In addition, line I3 contains a resistor Rio, which is between the cathode of diode D5 and the resistor R4b is arranged. The line 13 is via the Resistor RI5 and diode D8 from the negative terminal fed, and the Zener diode ZD2 applies the potential of the line 13 opposite the positive terminal 10 fixed.

When switch 16 is closed, the chain will RI6, R2 and Rl put into operation, the Zener diode ZD2 maintaining the potential at the resistors Rl and R2. This chain activates the emitter of the first transistor of the Darlington pair TJ. The condenser charges itself through resistor R4 until the potential at the resistor RIO is sufficient to turn on the transistor TJ. The relay contacts then close and the lamps light up. The capacitor then discharges through the parallel paths RIO / RJ and R4 until transistor TJ switches off, whereupon the process repeats itself.

When the transistor T4 is in the ON period of the lights 15 turns on, he keeps the relay closed and the warning light dark. In doing so, the base of the transistor receives T4 by the chain RI3, R12 and Γ6 a bias. If the voltage at the V / resistor R5 drops to a sufficiently low value, the transistor T4 turned on. The voltage across the resistor R5 becomes sufficiently low when a lamp fails and the current

2098 84/0317

- ι -

decreases through R5. The voltage at the base of the transistor T4 is also partially derived from the voltage at the Zener diode ZD2 via the resistor Rl4. this means that the voltage at the base of the transistor T4 does not fluctuate linearly with the supply voltage. Through this Fluctuations in the luminaire current are compensated for in the event of fluctuations in the supply voltage.

The Zener diode ZDl and the resistor RIl serve to switch on the transistor TJ in the event of high voltage peaks and thus prevent the transistor T ^ from breaking down. The diode D4 protects the transistor T3 against voltage reversals. The diode D6 compensates for fluctuations in the base-emitter voltage of the transistor T4 with the temperature. The diode P5 protects the transistor T4 against voltage reversals. The diode D7 protects the transistor Τ4 against a reversal of the base-emitter voltage when the contacts are open.

The resistor R8 ensures that the voltage generated by the transistor T4 on the relay winding only sufficient to keep the relay closed. The diode connected in parallel to the relay winding absorbs voltage peaks when switching off the relay winding.

2 0 9884/0317

Claims (1)

Expectations 1.1 Flashing light circuit with a capacitor that is used in - 'Power on charged from a DC power source , is, and a switching device that causes the lights to light up when the voltage of the capacitor reaches a predetermined value, characterized in that the switching device is a relay contains, the switching winding (12) is energized when the voltage of the capacitor (C) the reached a predetermined value, and that a current sensor (T2, Τ4, R5) for Peststell the passage of current through the lamp or lamps (15) is provided, the relay switching winding (12) in the event of a failure or more lights (15) when operating the. Keeps circuit under current. 2. A circuit according to claim 1, characterized in that the switching winding (12) of the relay with the emitter-collector path a first transistor (Tl, Tj5) is connected in series, which is connected to the voltage of the capacitor (c) reacted. 5. Circuit according to claim 1 or 2, characterized in that that the current sensor consists of a resistor (R5) * through which the current to the lamp or lamps (15) flows, and a second transistor (T2, T4) consists of the voltage across the resistor (R5) responds, which in the event of failure of one or more lights (15) the holding current flow to the relay (12) maintains. 26 278 - 2 - U / Be 2098Ö4 / 0317 4- circuit according to claim 3 j characterized in that the relay is assigned a pair of normally open contacts (14) connected to the resistor (R5) in Are connected in series. 5. Circuit according to claim 4, characterized in that that a warning lamp (17) is arranged in a circuit parallel to the relay contacts (14). 6. Circuit according to one or more of claims 1 to 5, characterized in that the charging current for the capacitor through the lamp or lights (I5) flows. 2098 84/03 17 AO Blank page