DE4444259C1 - Electronic circuit for operation of number of electrical loads - Google Patents

Abstract

An electronic circuit is used, together with a single optical switch, to provide selective operation of a number of 230 V, i.e. mains, electrical loads, such as lights (H1, H2) and a motor (M), e.g. for ventilator. The circuit has a decimal counter stage that responds to pulses generated each time the switch is operated. The output of the counter is used with logic stages to provide activation of each of the units in sequence.

Description

It is known to AC consumers through a "ring Counter "(ring counter) with associated wiring selective to control (US 48 99 089). Here is the selective control continuously automatic, and only by an additional control line would be a start-stop function possible.

It is also known to alternate current consumers through diode to control the coupling independently of each other GB 21 28 043 A). However, the number of ver needs limited to two, and an electric motor needs one DC motor with a maximum power consumption of 50 watts.

The object of the invention is to achieve this the basis for subsequent installation of 230 V AC power users who are to be switched selectively, avoid expensive post-installations.

This task is by the electronic listed in the claim Circuit solved.

Fig. 1 shows the wiring of the electronic circuit for ceiling mounting.

The structure of the electronic circuit according to the invention is shown in FIG. 2 of the drawings:

A 230 V AC voltage L switched with the switch S1 becomes to the electronic circuit and to the AC voltage gears of the electronic load relays K1, K2, K3 with zero voltage switch set. The neutral conductor N is not switched. By the AC voltage capacitor C1, the bridge rectifier D1 and the resistor R1 generates a DC voltage which limited to 10 V by the resistor R2 and the Zener diode ZD1 and is smoothed by the electrolytic capacitor C2. The Operating voltage for the non-inverting comparator Op.Am. and the decimal counter U1 is through the diode D3, the counter stood R8 and the electrolytic capacitor C4 buffered.  

The diode D2, operated in the flow direction, generates the operating voltage for the logic gates U2a, U2b, which is approximately equal to the buffered operating voltage for the non-inverting comparator Op.Am. and the decimal counter is U1, and ensures that the logic gates U2a, U2b can supply sufficient control current for the electronic load relays K1, K2, K3 with zero voltage switch. The non-inverting comparator Op.Am. it holds its reference voltage for the inverting input (-) through a voltage divider, formed by the resistors R5 and R6. The increase in the voltage, which leads to the non-inverting input (+) of the comparator Op.Am. arrives, is delayed by the resistor R3 and the electrolytic capacitor C3. When the reference voltage is reached, the comparator Op.Am. from 0 volts to operating voltage. The so through the non-inverting comparator Op.Am. The generated pulse arrives at the clock input (CLK) of the decimal counter U1, the output ( 1 ) of which goes to the operating voltage, and by means of the logic gates U2a, U2b, the electronic load relay K2 is activated, which puts the lamp H2 into operation. The resistor R4 ensures that the electrolytic capacitor C3 is discharged after the 230 V AC voltage has been switched off.

The next time switch S1 is pressed, switch position "off" breaks the smoothed DC voltage, generated through the AC capacitor C1, the bridge level judge D1, resistor R1 and the electrolytic capacitor C2, together. Because the operating voltage for the not invert comparator Op.Am. and the decimal counter U1 the diode D3, the resistor R8 and the electrolyte Capacitor C4 is buffered, it sinks only slowly, so that the decimal counter U1 is in its operating state for approx. 1 minute maintains.

The next time the switch S1 is actuated in the switch position "on", the operating voltage is again at the non-inverting comparator Op.Am. and the decimal counter U1. However, the voltage for the non-inverting input (+) of the comparator rises with a delay, due to the resistor R3 and the electrolytic capacitor C3, and only when the reference voltage, which is formed by a voltage divider from the resistors R5, R6, does the switch Output of the non-inverting comparator Op.Am. to operating voltage and thus generates a pulse that brings output ( 2 ) of decimal counter U1 to operating voltage, and by linking logic gates U2a, U2b, electronic load relays K1, K2 are controlled with zero voltage switches and put lamps H1, H2 into operation.

The next actuation of switch S1 "off" and again "on" causes the same function in the electronic circuit procedure as described above, but it will be the Lamp H1 put into operation.

Pressing switch S1 again "off" and "on" again switches output ( 4 ) of decimal counter U1 to operating voltage, and since this output ( 4 ) is connected to the reset input (RST) of decimal counter U1, it is reset, and it goes output ( 0 ) to operating voltage, which puts the motor M into operation by the logic gates U2a, U2b and the electronic load relay K3 with zero voltage switch.

Further "off-on" operations of switch S1 have one Functional sequence as described in the text above. Only an interruption of the 230 V AC voltage of more than one minute causes the electronic to restart Circuit with the commissioning of the lamp H2.

The advantages achieved with the invention are:

When retrofitting 230 V AC consumers, which is to be selectively switched selectively does not apply Post-wiring of additional switching cables and switches. The switchable power for the 230 V AC consumers is only through the line fuse, typically 16 amps, and the maximum switching current of the electronic load relay z. B. 16 amps, limited.

Claims (1)

Electronic circuit for defined selective commissioning Setting or control of 230 V AC consumers by a switch to be switched with the light switch (S1) line, the circuit the selectively controlled Ver users (H1, H2, M) and a decimal counter (U1) contains, in which the control signal generation as a switching pulse of Light switch (S1) takes place at which the signal detection by a non-inverting comparator (Op.Am.) with buffered Operating voltage takes place at which the control signal processing through the decimal counter (U1) with buffered operating voltage which occurs through each switching pulse of the light switch (S1) controls the next output, with circuitry logical combinations of the outputs (U2a, U2b) are possible, and in which the Switching on the consumer (H1, H2, M) by electronic Load relay (K1, K2, K3) with zero voltage switch.