DE2440151C3 - Circuit arrangement for the controlled supply of a load from an alternating current network - Google Patents

Description

The invention relates to a Schaltungsanord voltage for the controlled supply of a load from a AC power system according to the preamble of claim 1. Such a circuit arrangement is the subject matter of the main patent 24 29 763.0.

The invention lies in a further development of the main patent the object of an immediate input and output in a circuit arrangement of the type mentioned above To enable the load to be switched off without adjusting the set lead angle.

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

The inventive possibility of short-circuiting the drain-source path of the field effect transistor the load can optionally be switched on or off without the setpoint of the Rms current through the load, which is given analog and continuously in Torrn of a capacitor charge, changed or drive through the entire adjustment range in one of its two directions, as required must become.

From FR-PS 21 53 991 (in particular FIG. 3) is a circuit arrangement for the controlled supply a load from an alternating current network through in each

ίο Half-wave phase control with a triac in the load circuit and a /? C network lying parallel to the triac with a fixed resistor and a capacitor connected to the one diac with the control electrode of the triac, to which a transistor as an electronically controllable resistor via a two-way rectifier circuit is connected in parallel, known. There the transistor is a bipolar transistor that is controlled by a DC control voltage. The setting of the bevel angle is not intended to be saved. For example, in the case of a motor as the load, the DC control voltage is derived or generated from the armature voltage or from a tachometer generator.

From GB-PS 11 20 637 (in particular Fig.4) is a circuit arrangement for the controlled supply of a load from an alternating current network through in each Half-wave phase control known with a triac in the load circuit and with a parallel to the triac /? C element in series

jo circuit, its connection point between capacitor and resistor is connected to the gate of the triac via a diac. The setting of the bevel angle takes place by adjusting the resistance value of the resistance of the WC element. For immediate exit

H switch the load is the capacitor of the /? C element can be short-circuited by means of a diode bridge located parallel to it and containing a transistor by the Transistor is controlled conductive.

In the embodiment according to claim 2, the logical combination of the flip-flop with the two Actuating plates with their simultaneous actuation created the possibility of the load while maintaining the to switch the aforementioned advantages on or off immediately.

4-, In the embodiment according to claim 3, the input of the flip-flop can also have an existing one Installation lines can be connected in cross or changeover circuits to extensions, each can be actuated by just one actuation plate and as on

v> known touch or proximity switches are formed. The auxiliary units are designed in such a way that the setpoint specification can only be changed by selectively actuating one of the two actuation plates of the main unit, but that the switching process can be triggered by the main unit and each auxiliary unit.

An exemplary embodiment of the invention is shown schematically in the drawing.
On the network, the neutral conductor are equipped with N and its phase with Pbezeichnet, is a load L, z. B. incandescent lamp, in series with a triac Tr, to which a toilet network consisting of the resistor R] and the ignition capacitor Ci is connected in parallel. The connection point between Jem resistor R] and ignition capacitor C \ this

μ series circuit is connected to the control electrode of the triac via a diac Di. A field effect transistor Ti is connected to the series circuit of a capacitor C ₂ with two diodes D], Di.

10

Ignition capacitor d coupled A storage capacitor C ₃ is located parallel to the gate-drain path of this transistor . The gate of transistor Tj is connected via a commercially available glow lamp L \ to oppositely directed diodes D ₃ , D ₄ , each of which is in series with a resistor R ₃ or R ₂ and a sensor surface in the form of an actuating plate B ₁ or B ₂ . The glow lamp L \ acts here as a very high-resistance separator between the storage capacitor C ₃ and actuating plates B ₁ or B ₂ .

The connection points of the resistor R ₂ with the diode D ₄ and the resistor R ₃ with the diode D ₁ are each connected via a resistor Zf ₄ or Rs to one of the two inputs of an AND gate 10, which is connected upstream of a flip-flop 6, whose output ' ^{5 is} at the connection point between the drain of the transistor Γι and the diode D ₂ . The flip-flop input is also connected via a resistor R ₁ to a terminal 1, which is used in the manner already mentioned to connect auxiliary units (not shown) to the main unit

The charging of the control capacitor C ₃ and thus the blocking of the field effect transistor Γι takes place by touching the actuating plate B \, the charging current from the network phase P through the storage capacitor C ₃ , the diode Dj. the protective resistor R ₃ , through which the current values are reduced to harmless values for the person touching it, and the contact resistance of the person in contact with the actuating plate B \ flows to earth. The discharge of the storage capacitor C ₃ and thus through-control of the field effect transistor Γι with its consequences, for. B. with regard to the brightness control of an incandescent lamp, takes place by touching the actuating plate B ₂ .

By simultaneously actuating both actuating plates, the AND gate 10 is controlled and the flip-flop 6 is switched, the field effect transistor T \ being bridged or the bridging removed and the load L being switched off or on.

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit arrangement for the controlled supply of a load from an alternating current network by phase control taking place in each half-wave, with a triac in the load circuit and an RC network lying parallel to the triac with a fixed resistor and a capacitor connected to the control electrode of the triac via a diac a transistor is connected in parallel as an electronically controllable resistor via a full-wave rectifier circuit, the transistor being a field-effect transistor, a storage capacitor being located between the gate and drain of the field-effect transistor and the gate of the field-effect transistor being at least one as high-resistance Isolating switch acting glow lamp and is connected via two resistors to two actuating plates, by touching the angle of the bevel is adjustable in both directions, and wherein in the current path between each actuating plate and the storage capacitor a rectifier arrangement in each case it is provided that the storage capacitor is supplied with a rectified current in one charging direction when one actuation plate is touched and a rectified current in the opposite charging direction when the other actuation plate is touched, according to main patent 24 29 763.0, characterized in that parallel to the drain Source path of the field effect transistor (T ₁ ) the output of a flip-flop (6) is connected, through which the drain-source path of the field effect transistor (Ti) can be short-circuited. 2. Circuit arrangement according to claim 1, in which the gate of the field-effect transistor is connected via a single glow lamp effective as a disconnector with two oppositely directed diodes, each of which is in series with one of the two resistors and the associated actuator plate, characterized in that the Actuating plates (B], B ₂ ) are each connected to one of the inputs of an AND gate (10), the output of which is connected to the input of the flip-flop (6). 3. Circuit arrangement according to claim 1, characterized in that the input of the flip-flop (6) on Auxiliaries is connected, each of which can be actuated by an actuator plate.