DE19844492C2 - Electronically controlled circuit arrangement - Google Patents

Description

The invention relates to an electronically controlled circuit arrangement.

It is known from DE 44 44 259 C1 and DE 195 06 054 C1, AC consumers, switch selectively defined light sources in particular. With this circuit arrangement Consumer switched on by the switching pulses of a light switch. The parallel operation of an electrical consumer who constantly needs electrical energy is with them Circuit arrangement not provided.

The invention has for its object to provide a circuit arrangement which paral lelen operation of a consumer to be switched and a consumer who is constantly electrical Energy needed to enable. The use of battery-operated consumers (e.g. Smoke detectors in apartments) can be avoided.

Furthermore, new cabling is to be omitted.

This object is achieved by the features listed in claim 1.

The only one shows an exemplary structure of a circuit arrangement according to the invention Figure.

A supply line L connected by a button T which interrupts the circuit wired to the circuit arrangement at the connection points X1, X3, this connection points can be a focal point (room lighting) on a ceiling. The consumption cher H is at connection point X2 with the switched AC voltage output of electronic load relay K and connected to neutral N at connection point X4. The Consumer M is constantly connected to the supply voltage L, N by means of the connections X1, X3, X4. Through the capacitor C1, the rectifier B and the resistor R1, the supplier voltage L, N obtained a DC voltage Ub1, which ge through the capacitor C2 is smoothed. The resistor R2 and the Zener diode ZD limit the DC voltage Ub1. The The task of the resistor R3 is, after the supply voltage L, N has been interrupted ensure rapid discharge of capacitor C2. Using the diode D1 and the Kon capacitor C3, the buffered operating voltage Ub2 is generated for the integrated circuit U. In this example, the integrated circuit U is a decimal counter. An equivalent function can also be done by using a dynamically controllable flip-flop, a binary counter or programmable one-chip computers can be achieved. The output (1) of the counter overrides the current limiting resistor R4 to the electronic load relay K.  

If the button T is now actuated, the DC voltage Ub1 breaks due to the discharge R3 got together very quickly. The supply voltage Ub2 for the counter U is through the capacitor C3 and the diode D1 buffered, and since the input (C1) of the counter U Counter trigger behavior, counter U registers a switching pulse. The switching pulse has As a result, output 1 of the counter switches to operating voltage and thus the controls electronic load relay K, with the result that the consumer H is put into operation becomes. The consumer M is only from its ver during the opening time of the button T supply voltage L, N separately.

A further actuation of the button T has the result that the output 2 of the counter U on Be drive voltage goes and since the output is connected to the reset input Res of the counter U. output 0 goes to operating voltage and since this output is not connected, the Consumer H not in operation. The control of additional consumers through the outputs 2, 3, 4 is possible. In this example, for the sake of simplicity, only one was activated switched consumer shown.

Further actuations of the button T have the consumer H switched on or off Episode.

Should be parallel to a switchable consumer z. B. a ceiling lamp operated by a consumer be who needs a constant supply voltage, e.g. B. smoke detectors, motion detectors for room monitoring or a gas warning device, this is when using the circuit an organization possible without re-wiring.

A subsequent use of such useful warning devices is with the scarf according to the invention arrangement possible without batteries or accumulators. Battery consumption and accumulators that pollute the environment as hazardous waste can be avoided.

Claims (2)

1. Electronic circuit arrangement with

• a first electrical consumer (M) which is constantly connected to the supply voltage via the normally closed contact of a button (T) when the button (T) is not actuated,
• a second electrical consumer (H), which is also connected to the supply voltage via the normally closed contact of the button (T) and additionally via an electrically controllable command switch (K) connected in series with it,
• - A parallel to the first electrical consumer (M) lying series connection of a capacitor (C1), a rectifier (B) and a resistor (R1), the supply voltage (L, N) generates a DC voltage (Ub1), which by a smoothing capacitor (C2) is smoothed,
• a series resistor (R2) and a Zener diode (ZD) which generates a limited voltage from the DC voltage (Ub1),
• - A series circuit of a diode (D1) and a buffer capacitor (C3), which is parallel to the Zener diode (ZD) and a buffered operating voltage (Ub2) generated for a decimal counter (U) with multiple outputs and a control input (C1), the the DC voltage (Ub1) is supplied,
• - A resistor (R3), which is connected in parallel to the smoothing capacitor (C2), wherein
• - A brief interruption of the supply voltage (L, N) by the button (T) ensures that the smoothing capacitor (C2) is quickly discharged, so that each time the button (T) is pressed briefly, one of the outputs of the decimal counter (U) changes its output level ,
• - One of the outputs of the decimal counter (U) controls the electrically controllable command switch (K), so that the command switch (K) changes its switching state with each key pulse of the key (T) and switches the second electrical consumer (H) on or off ,
• - The first output (0) of the decimal counter remains unconnected.

2. Electronic circuit arrangement according to claim 1, characterized in that that further electrical consumers (H) with associated electrically controllable command switches (K) are provided, each via one of the outputs of the decimal counter (U) are switchable.