NL1006196C2 - Switching arrangement for energy supply of the control electronics of a two-conductor power controller. - Google Patents

Description

Switching arrangement for energy supply of the control electronics of a two-conductor power controller

The invention relates to a switching arrangement of the type indicated in the preamble of claim 1.

Continuously higher demands on the comfort of installation devices make the associated switch structures increasingly complex, which in turn results in control circuits also requiring more current. In this connection, installation devices can be mentioned, such as, for example, dimmers with additional functions such as IR remote control or power controllers with a heat radiation receiver unit for motion-dependent switching of exposures. Control devices, which are built up in two-conductor technology, are powered via a load connected thereto. If the amount of energy required to feed the steering device is too large, this can lead to a disadvantage of the load. Typical examples of this are arrangements of dimmer circuits or pedaling machines. With two-conductor power controllers such as dimmers or switches, this disadvantage appears to be particularly apparent in the case of loads on switching network components for low-voltage halogen lamps. Although the two-conductor power controller switches the load to the OFF state, the connected switching network parts are ignited, which in the worst case is expressed as the flickering or weak glow of the lighting. The low-voltage halogen lamps are unnecessarily energized by the described ignition operations, which leads to a shortening of their lifespan. Staircase machines are controlled as standard via keys. If these keys are to be replaced by two-conductor technology control devices, such as pulse generators with additional functions such as PIR motion detectors or IR receiver units, they must be supplied via the control input of the pedal switch. If the current 35 taken via the control input becomes too large for supplying the control devices, an undesired switching operation occurs in the stepping machine.

According to the state of the art, for the 1006196 2 energy supply of control circuits in two-conductor power controllers, an ohmic resistor or capacitive resistor, a transistor in longitudinal-control circuit or a branched switch are used. Although these switching arrangements fulfill the task of supplying power to the control circuit, they have the disadvantage that the quiescent current due to the load becomes too large for more complex control circuits, and the effects of the load described at the outset can arise. With such switch arrangements, the quiescent current absorbed by the load, apart from loss capacities, is equal to the current consumption of the control circuit. In order to be able to operate power regulators with a greater current requirement of the control electronics according to the state of the art, it is necessary to refer to three-wire technology, since the energy requirement is taken directly from the 230 V network and is not supplied via a load connected to it. .

The invention therefore has for its object to develop a switching arrangement for the energy supply of the control circuit of a two-conductor power regulator which absorbs such a low quiescent current that the loads connected thereto remain unaffected and that it is nevertheless able to handle more complex control circuits. provide a larger amount of energy required. The circuit arrangement to be developed must be able to be used as universally as possible in two-conductor power controllers, such as, for example, dimmers, switches and control circuits for staircase lighters.

This objective is achieved by a switching arrangement with the 30 measures of claim 1. Further favorable aspects of the switching arrangement according to the invention are further implemented in the measures of the subclaims.

Based on a block circuit diagram, the circuit arrangement according to the invention for a two-conductor power controller I is explained below. The 230 V mains voltage Unet is supplied via a consumer L to a power switch 1 in the power controller I. Parallel to the power switch 1 is a switching circuit 2 for pre-stabilization, which makes a DC voltage Uo 1006196 3 available on the output side, which is a multiple higher than the required DC operating voltage UB of control electronics 4. The DC voltage Uo can be produced in conventional manner with an ohm resistor or capacitive resistor, a transistor in a longitudinal controller circuit or a branched electronic switch in 2.

An electronic switch S is connected to the control circuit R after the direct voltage U the switch S, controlled by the branch control 3 in the control circuit R, the throttling part L1 away from the direct voltage Uo. Due to the storage action of the throttling part L1, a current flows for a certain period of time over the freewheel diode D, the storage capacitor C and back to the throttling part L1. Thus, current is also supplied to control electronics 4 when no voltage is taken from the network. If the operating voltage falls below its desired value, the switch S controlled by the branch control 3 closes and the above-described process starts again. A conventional fixed-frequency principle is not suitable for this application, because in order to be able to keep the geometric dimensions of the throttling part L1 small, a high switching frequency must be produced. This production of the switching frequency requires an additional current consumption. The arrangement according to the invention, on the other hand, has only a negligibly small amount of current to take up and additionally has the advantage of a lower switching work. This makes it possible to reduce the current flow through the load by a fraction with a meaningful dimensioning of the direct voltage Uo.

- claims - 1006196

Claims (3)

1. Switching arrangement for energy supply of the control electronics of a two-conductor power controller, which comprises either a phase-cut or phase-cut electronics as a power switch for brightness control or for switching various loads such as incandescent lamps, high-voltage halogen lamps and switching network parts for low-voltage halogen lamps or an impulse production for has the control of step light time switches, characterized in that a control circuit (R) is switched between a switching circuit (2) for pre-stabilization and the control electronics (4) of the two-conductor power controller (I), the control circuit ( R) has a self-regulating control (3) as well as an electronic switch 15 (S), a diode (D), a choke (L1) and a storage capacitor (C), with which the control circuit (R) supplies the relevant energy required for the control electronics (4). Switch arrangement according to claim 1, characterized in that the self-regulating control (3) obtains its control value for the switch (S) from the operating direct voltage (UB). 3. Switching arrangement as claimed in claims 1 and 2, characterized in that the branch control (3) has a negligible own required power requirement with respect to the total amount of current required, the total current serving to pre-stabilize a direct voltage (Uo) , for feeding the control electronics (4), as well as the branch control (3). 30 ----- 1006196