DE1930474A1 - Signal lamp monitoring unit - Google Patents

Description

Signal lamp monitoring unit The invention relates to a two-channel, with the frequencies f1 and f2 working alternating voltage system for error monitoring of signal lamps switched by control conditions a or a.

In the case of traffic systems, it is necessary to ensure that the Signal lamp to be monitored effectively When monitoring, every non-conformity should be observed the control condition with the operating state belonging to the relevant control condition the signal lamp can be determined.

It is known to use the signal lamp current directly to generate an error message. Furthermore, it is known a differential transformer with two oppositely connected Use primary windings, with the signal lamp current through the one primary winding flows and through the other primary winding a current parallel to the signal lamp current. However, if this is the case a signal as the control condition If the signal lamp still carries current, this can be done with the above known arrangements Failure can not be recognized. The latter arrangement is also only at AC-powered signal lamps can be used.

The invention is based on the disadvantages of the known Eliminate arrangements and an effective signal lamp monitoring device to specify.

According to the invention, this object is achieved in that the through-connection the frequency f1 to the output A1 of the system or the frequency t to the output A2 of the System depending on a comparison of the lamp control conditions a or a with a DC voltage signal b taken from the signal lamp circuit.

An exemplary embodiment of the invention is shown in FIG.

and is described in more detail below.

Input E1 is fed with the frequency f1 and E2 with the frequency f2. Depending on the conditions at inputs 1, 2 and 3 a, a and b either the frequency f1 becomes the output A1 or the frequency f2 becomes the output A2 through connected, whereby the occurrence of f2 at output A2 means an error message. The conditions present at inputs 1 and 2 do not become one in the figure any signal lamp control circuit shown taken, which in the present Belspiel has two channels in positive logic and delivers the signal a or a. Both the signal a present at input 1 and the signal a present at input 2 Signal a means a positive DC voltage signal. Located at entrance 3 only then a positive DC voltage signal b on when the signal lamp Current leads.

If the signal lamp carries no current, then the signal b is present, the O potential means. In the case of trouble-free operation, the signals a and b are present at the same time in front of or the signals a and b. In this case, the frequency f1 is switched through to A1. The lamp thread monitoring unit implements the logical function A1 = (a # b) # (###).

If signals a and b are present at inputs 1 and 3, they have Transistors T1 and T3 Xollektorpotential and the frequency f1 reaches a Diode D1 to output A1.

The frequency f2, on the other hand, cannot be switched through to output A2 because the transistor T6 receives no collector potential and the transistor? 7 although there is collector potential, the transistor T9 is not controlled by it can be, since the collector of transistor T9 through the fully conducting transistor T10 is approximately at 0 potential. Only the positive is at output A2 DC voltage signal b, but not frequency f2, which alone signal an error would.

If signals a and b are at inputs 2 and 3, the receives Transistor T2 collector potential and frequency 9 extend over the transistor ? 4, whose collector is connected to the supply voltage tU3, and the diode D2 to the output A1. On the other hand, the frequency f2 cannot reach A2 because the transistors T7 and T8 received no collector potential, since on the one hand the signal a is not available and on the other hand the diode D3 is operated in the reverse direction. At output A2 only the DC supply voltage + UB appears.

The error case is characterized by its simultaneous presence of the signals a and b or W and a at the inputs 2 and 3 or at the inputs 1 and 3.

The implementation of the logical function A2 = (## b) # (## a) in the event of an error takes place in the same way, since the circuit is built up symmetrically.

Received when signals a and b are applied to inputs 2 and 3 the transistors T6 and T8 Eollektorpotential and the frequency f2 is about the Diode D3 connected to output A2. The. Frequency f1, on the other hand, does not become the output A1 switched through because on the one hand the path via transistor T1 is blocked and on the other hand the transistor T2 carries collector potential, the transistor T4 but has no collector potential because the transistor T5 is fully conductive. At the exit A1 is the DC voltage potential of signal b. The notification of the error, in which the signals 5 and a are present, takes place accordingly: The frequency 9 arrives via the transistors T7 and T9 and via the diode D4 to the output 4, while the Frequency f1 cannot reach output A1.

Claims (2)

P a t e n t a n 5 p r ü c h e 1. Two-channel alternating voltage system working with the frequencies f1 and 9 for error monitoring of signal lamps switched by control conditions a or a, characterized in that the switching through of the frequency f1 to the output (A1) of the System or the frequency f2 to the output (A2) of the system depending on one Compare lamp control conditions a or a with one, the signal lamp circuit taken DC voltage signal b takes place. 2. Two-channel AC voltage system according to claim 1, characterized characterized in that the frequency f1 output (A1) ensures error-free operation of the signal lamp and the frequency f2 at the output (A2) reports the incorrect operation of the signal lamp. L e r s e i t e