DE2440151A1 - Phase controlled regulating circuit for an AC load - with electronically controlled flip-flop as on-off switch, uses triac together with diac - Google Patents

Abstract

The object is to enable a phase controlled circuit, for example a dimmer, employing a triac operating in conjunction with a diac and an electronic resistor analog as in 2429763 to be switched on and off without the necessity of altering the actual control setting. To achieve this result the electronically controlled flip-flop (6) which either short circuits or releases the resistor without altering its setting. The flip-flop can also be operated from remote switching positions whilst alterations in setting can only be made at the main control point.

Description

Electrical Installation Circuit The invention relates to an electrical installation Installation circuit and is an additional patent to the patent (patent application P 24 29 763.0).

The main patent ...... (patent application P 24 29 763.0) suggests one electrical installation circuit, in particular electronically controlled phase control circuit to control the current through an electrical load, e.g. B. incandescent lamp, before, at the one triac in each half cycle of the mains voltage via one to the triac connected in parallel RC network and a diac again the load switches to the supply network voltage, the resistor of the RC network is a fixed resistor and the capacitor of the RC network is an electronically controllable resistor, in particular a bipolar or field effect transistor is parallel.

In this electrical installation circuit, the ignition timing is of the triac purely electronically, d. H. dispensing with a mechanically operated Potentiometer adjustable, and the potentiometer not only by an electronic one This is equivalent to replacing an expensive component to be operated on mains voltage requires.

The present invention is based on the object of the main patent ..... (patent application P 24 29 763.0) to expand that an immediate on and off switching of the load from the main unit and if necessary also from several spatially separated locations, d. H. Extensions, feasible from is without the entire brightness range from "dark" to "light" or from "light" to "dark" must be passed through and that the installation circuit together with if necessary, remote actuation auxiliaries to be provided in exchange for mechanical installation switches can be used in one-way, two-way or cross-connections is without the existing installation wiring to do so in any way must be changed.

In the case of an electrical installation circuit, in particular electronically controlled phase switching, according to the main patent .....

(Patent application P 24 29 763.0) the invention also provides that the electronically controllable resistor can be bridged by a flip-flop.

This possibility of bridging the electronically controllable Resistance, the load can optionally be switched on or off without the Setpoint of the effective current through the load, which is analog and stepless in the form of a Capacitor charge is specified, changed or the entire brightness range must be driven through in one of its two directions, depending on requirements.

In a preferred embodiment of the object according to the invention, in which the electronically controllable resistor bridged by a flip-flop according to Another proposal according to the main patent is a field effect transistor, its Gate is connected to oppositely directed diodes, each with one Resistance and a sensor surface are in series, the sensor surfaces are advantageous each also connected to one of the inputs of an AND gate, the flip-flop is upstream.

Due to this selected logical connection of the flip-flop with the load can be reduced by pressing the two sensor surfaces at the same time Preservation of the aforementioned advantages can be done immediately or eliminated.

If desired, the input of the flip-flop can also use existing ones Installation lines connected in cross or alternating circuits to extensions be, which can be actuated by only one sensor surface and are known per se Touch or proximity switches are formed. The extensions are here in such a way that the setpoint specification can only be changed by optional actuation one of the two sensor surfaces of the main body can be carried out, but that the switching process can be triggered by the main unit and each auxiliary unit.

In the drawing is an embodiment of the subject of the invention shown schematically.

On the network, whose neutral is denoted by N and whose phase is denoted by P. is, a load L, e.g. an incandescent lamp, is in series with a triac Tr, to which one Resistance stood R1 - ignition capacitor cl series circuit is parallel.

The connection point between the resistor and the ignition capacitor of this The series circuit is connected to the control electrode of the triac via a diac. A field effect transistor T1 is connected via a series connection of a capacitor C2 coupled to the ignition capacitor C1 with two diodes Dj, D2. Parallel to the gate-drain path a storage capacitor C3 is connected to this transistor. The gate of transistor T1 is via a commercially available glow lamp L1 with oppositely directed diodes D3, D4 connected, each with a resistor R3 and

R2 and a sensor area B1 or B2 are in series. The glow lamp L acts here as a very high-resistance isolating switch between the storage capacitor C3 and the sensor areas B1 and B2.

The connection points of the resistor R2 with the diode D4 and des Resistor R3 with the diode D3 are each connected via a resistor R4 and R5 one of the two inputs of an AND gate 10 connected to a flip-flop 6 is connected upstream, the output of which is at the connection point between the drain 'of the transistor T1 and the diode D2. The flip-flop input is also via a resistor R6 connected to a terminal 1, which is used in the manner already mentioned for connection from branches, not shown, to the main unit.

The charging of the control capacitor C3 and thus the blocking of the Field effect transistor T1 takes place by touching the sensor surface B1, whereby the Charging current from network phase P through the storage capacitor C3, the diode D3, the protective resistor R3, through which the current values are reduced to harmless Values for the person in contact are reduced, and the contact resistance of the Touching sensor surface flows to earth.

The discharge of the storage capacitor C3 and thus through control of the field effect transistor T1 with its consequences, e.g. with regard to the brightness control an incandescent lamp, takes place by touching the sensor surface B 2 by simultaneous When both sensor surfaces are actuated, the AND gate 10 and the flip-flop are activated 6 switched, the field effect transistor T1 bridged and the load L either is switched on or off.

Claims (3)

Claims 1. Electrical installation circuit, especially electronically controlled Phase control circuit, for controlling the current through a load, e.g. incandescent lamp, with a triac in each half cycle of the mains voltage via one to the triac parallel connected RC network and a diac again the load to the supply network voltage switches, the resistor of the RC network is a fixed resistor and the capacitor an electronically controllable resistor is connected in parallel to the RC network, according to patent (patent application P 24 29 763.0), characterized in that the electronically controllable resistance can be bridged by a flip-flop (6). 2. Installation circuit according to claim 1, characterized in that that the electronically controllable resistor is designed as a field effect transistor (T1) is, which can be bridged by a flip-flop (6), that the gate of the field effect transistor with oppositely directed diodes (D3 or D4) connected, each with a resistor (R3 or R2) and a sensor surface (B1 or B2) are in series, and that the sensor surfaces are each connected to one of the inputs of an AND gate (10) are connected, which is connected upstream of the flip-flop. 3. Installation circuit according to claim 1, characterized in that that the input of the flip-flop (6) over existing installation lines in cross or changeover circuits are connected to extensions, each through a The sensor surface can be actuated and as a touch or proximity switch known per se are trained.