CH501285A - Circuit for monitoring the operational readiness of at least one DC-fed signal lamp and the transistor controlling it - Google Patents

Description

  

  
 



   Circuit for monitoring the operational readiness of at least one DC-fed signal lamp and the transistor controlling it
The subject of the main patent is a circuit for monitoring the operational readiness of at least one DC signal lamp and the transistor controlling it.

  This circuit is characterized by a pulse generator which sends test pulses to the control transistor, which switch the transistor to the state given by the test pulse, regardless of the existing control voltage, which test pulse is so short that a flickering of the lamp is imperceptible , and by a display circuit, if during the test pulse at the switching path of the transistor a malfunction characterizing "de voltage occurs.



   In one embodiment for lamp testing, the polarity of the pulses at the base of the control transistor is such that they block the transistor for the duration of the pulse.



   If such signal lamps are installed in the driver's cab of a locomotive, for example, it is necessary to adapt their brightness to the route, i.e. H. to shine strongly during the day and weakly at night. It is an object of the present invention to carry out this brightness setting without further material expenditure. It is known to carry out such a brightness control by changing the lamp voltage, but this requires a regulating transformer.



   A regulation with one upstream of all lamps
The rheostat is not feasible because the lamp brightness would then depend on the number of lamps switched on and this number is not constant. The circuit according to the invention has a pulse generator which emits lamp test pulses with an adjustable pulse duration / pulse pause ratio for the purpose of brightness adjustment.



   The only figure shows the circuit of the main patent, the mode of operation of which is described in this. The lamp 1 is connected in series with the switching transistor 5, which is shown here as an npn transistor. In this case, a positive voltage at the base of the transistor switches on the lamp 1, and a negative voltage switches it off. If we denote a positive voltage with 1, a negative voltage with 0, the state 1 must prevail at input E so that the lamp lights up. The positive lamp test pulses on line A block the lamp for the pulse time, which is so short that a flickering of the lamp is not noticeable to the eye.

  If the lamp is OK, then at the transistor collector a voltage which is approximately equal to the positive supply voltage, since the resistor 6 is large compared to the lamp resistance.



  Via the diode 7 and I, the corresponding diodes in the other monitoring circuits 12 etc., the control circuit, which consists of the elements 23 to 26, is signaled via the line 21 when a lamp has burned out.



   The transistor control using the pulse line B, the diode 8, the bus 31 and the switching elements 32 to 36, as well as the signal combination by the elements 37 to 39 are not important here. If you keep the pulse width of the pulses in the above arrangement, which cause a blocking of the transistor via line A, and increase their frequency so far that the ratio of pulse duration to pulse pause is no longer very small, the light intensity of the lamps is corresponding to the pulse ratio reduced. Instead of the pulse frequency with the same blocking pulse width, the pulse width can also be changed with the same frequency. The frequency must be so high that no flickering is perceptible, e.g.

  B. 50 Hz.



   It is of course also possible to get the Torein gangsimpuis, which goes on the drawing from the line A to the gates 23 and 24, from a separate output of the pulse generator and to give it a constant length, the pulse always within the Transistors blocking pulse must lie.

 

Claims (1)

PATENT CLAIM Circuit for monitoring the operational readiness of at least one DC-fed signal lamp and the transistor controlling it, according to the patent claim of the main patent, characterized in that the pulse generator emits lamp test pulses with an adjustable pulse duration / pulse pause ratio for the purpose of setting the lamp.