DE1159545B - Arrangement for controlling a relay by an intermittent audio frequency signal - Google Patents

Description

Arrangement for controlling a relay by an intermittent audio frequency signal In the remote transmission of commands or measured values, z. B. in remote control of model vehicles, there is often the need to send multiple signals at the same time = transferred. You can use the drawn commands e.g. B. in the form of various Modulate low frequencies to a subcarrier at the same time or else the Transmit signals cyclically one after the other. The latter method has the advantage that changes in the degree of modulation or nonlinear distortion, e.g. B. signal limitation, do not interfere with the simultaneous transmission in the amplifier. On the receiving side sets However, this requires arrangements that result from the intermittent incoming signal make steady output. This can e.g. B. done by a relay, which remains energized even during the signal pauses and switches on a local power source. Such arrangements for decay delay of. Relays are known. Here can it is also known as: apply, in front of the relay, an amplifier element, e.g. B. a Transistor to switch (German Auslegeschrift 1061443).

The purpose of the invention is to achieve both a separation of the low frequencies and the drop-out delay of the relay in the same switching stage. The mode of operation of the arrangement according to the claims can be described as follows: The controlling low frequency is applied to the base of the switching transistor Tz via a resonance transformer Tr (see drawing), the primary side of which is designed as a series resonance circuit. The control signal makes the transistor T2 conductive, so that the relay Rel is excited by the local power source U in the circuit of the transistor. The capacitor C1 is completely discharged because the conductive transistor and the diode short-circuit any residual voltage that may be present. If the controlling signal is now interrupted for a short time, the transistor is no longer controlled and point 1 of the circuit assumes a negative potential compared to the + pole of the voltage source. The capacitor C1 located at these two points via the diode and the base-emitter path of T2 must therefore be charged. However, the charging current can only flow via the base-emitter path of the transistor T., because the diode D is blocked for this current direction. The charging current acts as a control current for the transistor, so that it deviates only slightly from its conductive state, precisely by the amount that is necessary as a voltage to enable the charging current through the transistor; however, this is only a few tenths of a volt. The relay Rel is thus further excited by the voltage source U. The task of making an intermittent signal for the output side appear again continuously has thus been solved. The complexity is low, and in particular the value of the delay capacitor C1 can be very small for long delay times. Compared to a delay capacitor placed directly over the relay, a value for Cl that is smaller by the amount of the transistor current gain can be used for the same delay times: This is very important for long delay times. The circuit arrangement also has the advantage that it does not cause any pull-in delay. In the task in hand has also been demanded that a separation of the sound frequencies to be conducted in the same shift stage. This is done with the help of the resonance transformer Tr. The use of a series resonance on the primary side prevents possible self-excitation of the circuit, because the delay capacitor in the case of a high impedance in the base-emitter circuit of the transistor T2 can cause feedback and thus self-excitation, which is the case with Series resonance is excluded. An expedient development of the invention provides a resistor R parallel to the diode D for temperature stabilization.

Claims (3)

PATENT CLAIMS 1. Arrangement for controlling a relay via a resonance transformer, which is located between the first and second transistor stage, by means of a temporarily interrupted control current, characterized in that between the one terminal of the secondary winding of the resonance transformer Tr and the emitter of the second transistor (T2) a diode (D) polarized in the reverse direction to the local DC control voltage (U) is provided, and that one pole of a delay capacitor (Ci) is at the same end of the secondary winding as the diode (D). the other pole, however, together with the collector (T2) on the relay to be controlled. 2. Arrangement according to claim 1, characterized in that the input resonance circuit in the resonance transformer through a series resonance (L1, C.) is formed. 3. Arrangement according to claims 1 and 2, characterized in that the diode (D) a temperature compensation resistor (R) is connected in parallel. Considered publications: German Auslegeschriften No. 1099 046, L 20916 VIIIb / 21d2 (announced on March 29, 1956).