EP2097574A1 - Generation of an idle mode signal for an electrical control device - Google Patents

Abstract

The invention relates to a method for generating an idle mode signal an electrical control device, particularly a controller of a washer. In said method, a first power supply unit (1) is put in an active mode or idle mode by means of an activation/deactivation input (E) by connecting or disconnecting the same to or from a low-voltage switching signal (S). The low-voltage switching signal (S) at the output end is generated by an additional power supply unit (3), at least in the idle mode of the first power supply unit (1), and the low-voltage signal (S) is connected to or disconnected from the activation/deactivation input (E) of the power supply unit (1) by means of a low-voltage switch (5, 5'). The invention further relates to a low-voltage power supply circuit (3, 5) of an electrical control device for carrying out such a method.

Description

 GENERATION OF A REST MODULE SIGNAL FOR AN ELECTRICAL CONTROL DEVICE

The invention relates to a method for generating a low-voltage supply of an electrical control device and a low-voltage supply circuit of an electrical control device for carrying out such a method.

Such methods and supply circuits are used, for example, in domestic appliance technology, in particular for generating the low-voltage supply of an electrical control device of washing machines, dishwashers, etc., application.

The electrical control device is nowadays usually in the form of control electronics, for example as a microprocessor.

To reduce energy consumption, modern washing machines often have a sleep mode or a so-called standby mode to turn off the power consumers and recognize a reconnection. For this purpose, the microprocessor or the electrical control device must also be connected to the power supply in standby mode.

Disadvantageously, even in such a washing machine, the energy consumption in standby mode, especially in today's demands for energy savings, relatively high.

The present invention is therefore based on the object to provide a method for generating a low-voltage supply of an electrical control device and a low-voltage supply circuit of an electrical control device for performing such a method, which further reduce energy consumption and yet meet the high standards of functionality and ease of use suffice.

This object is achieved according to the invention by a method for generating a low-voltage supply of an electrical control device with the features of Claim 1 and by a low-voltage supply circuit of an electrical control device with the features of claim 3 solved.

By using a first power supply, in particular a switched-mode power supply with an activation / deactivation input or a so-called enable / disable input, the first power supply can be deactivated, for example by switching off the clocking, so that the quiescent power requirement is very high in such a standby mode low or near zero. According to the invention for this purpose the activation / deactivation input is connected by means of a low-voltage switch with a low-voltage switching signal leading low-voltage output of another (standby) power supply or disconnected from this. This ensures that the first power supply goes into a sleep mode with reduced power consumption when needed and can be activated by an operator in a normal (active) working mode, without the ease of use or functionality suffers.

In a preferred embodiment of the invention, the further power supply is designed as a capacitor power supply, so that the energy consumption in standby mode can be further reduced by its lower power consumption.

In a further embodiment of the invention, the low-voltage switch, which is preferably operated manually by an operator, designed as a position, in particular rotational selection position, a program selector or integrated into this. Such a program selector is also already available to control other functions in many devices. For example, it is conceivable to realize the low-voltage switch in the form of a contact bridge in a specific selection position of a carbon-pressure selector.

Further advantageous embodiments of the invention will become apparent from the dependent claims.

The invention will be explained in more detail with reference to an embodiment shown in the drawing. In the drawing show:

Fig. 1 is a schematic diagram of a low-voltage supply circuit of an electrical control device according to the invention and

Fig. 2 is a schematic representation of a program rotary selector with a low-voltage switch in the form of a contact bridge.

As can be seen from FIG. 1, the low-voltage supply circuit according to the invention has a power supply unit, in particular a switched-mode power supply 1, which is connected on the primary side to a conventional power grid with phase L and neutral conductor N. On the output side, this switching power supply 1 is used to supply an electrical control device, not shown, for example, a microprocessor or microcontroller, an electrical consumption, such as a household appliance such as a washing machine, a dishwasher, a tumble dryer, etc. To a non-active, ie outside the normal working mode In the circuit according to the invention, the switched-mode power supply 1 has an activating / deactivating input E or an enable / disable input, which has a low-voltage switch 5 with a further one Power supply, in particular a capacitor power supply 3 is connected. This capacitor power supply generates at its output A, a low-voltage switching signal S, which thus applied at the closed position of the switch 5 at the input E of the switching power supply 1. Due to the concern of the switching signal S at the input E, the switching power supply 1 can be switched to an active mode, ie normal working mode or by disconnecting the switching signal from the input E in an inactive mode. The activation or deactivation of the switched-mode power supply 1 is in this case achieved, for example, by activating or deactivating the clocking customary for such a switched-mode power supply 1, so that when the clocking or other device of the switched-mode power supply 1 is deactivated, a very low quiescent current demand of almost zero is made possible. If now the switching power supply 1 are activated, it is sufficient to close the switch 5, so that the switching signal S, which is generated by the further low-energy power supply 3, applied to the input E of the switching power supply 1. Since no high power is required for the switching signal S can be used as power supply 3 with low energy consumption in particular a capacitor power supply, which has a very low power consumption and thus increases the total energy demand of the circuit in the active mode of the power supply 1 only imperceptibly or negligible. In contrast, the saving in standby mode or idle mode operation over conventional circuits, such as washing machine control circuits, considerably, since now there is a quiescent demand of almost zero. In contrast, conventional standby circuits have a considerably higher quiescent demand, since for example for a washing machine control in standby mode usually the control electronics, such as a microprocessor, for (disconnection) of isolation relay or high power consumers and / or to detect a reconnection continue is powered.

Of course, it is also conceivable to activate the further power supply 3 only for the time in which a switching signal S should be available.

In addition, it is conceivable that the input E is inverted, that is to say that when a switching signal is applied, the switched-mode power supply is deactivated and the switching power supply is activated by disconnecting the switching signal S from the input E.

2, the low-voltage switch 5 according to FIG. 1 can be designed as a contact bridge 5 'of a program rotary selector 6, the contact bridge 5' being conductively bridged in a certain position of the program rotary selector knob about its axis of rotation D perpendicular to the plane of the drawing or is closed. Furthermore, in Fig. 2 further contact bridges between lying on an inner race contact surfaces 7 and lying on a thereto outer web contact surfaces 9 are shown, which can be adjusted depending on the rotational position about the axis D of a program rotary dial by an operator and thus closed or operated.

In this case, it is conceivable to realize the contact bridge 5 'in addition to an already existing position or at least one further contact bridge or as an additional individual position. Furthermore, it is conceivable that the switch 5 or the contact bridge 5 'only to one short-term supply of the input E to use with the switching signal S and after activation to open the contact 5 'and the switch 5 again. For this purpose, the input E with a self-locking circuit, such as be connected by means of a flip-flop, wherein a shutdown can be realized by re-closing the contact and / or connecting the switching signal to another input of the switching power supply 1 and an upstream input circuit ,

By the above-described circuit or the method realized thereby, it is advantageously possible to realize a low standby consumption, without this, as usual, a special microcontroller is necessary. As shown by the example of the circuit according to the invention, the method according to the invention can also be implemented inexpensively, so that the advantage of reducing consumption costs outweighs a relatively small increase in production costs.

Bezugszeichenhste

1 switching power supply

3 capacitor power supply

5 low voltage switches

5 'contact bridge

6 program selector

7 contact surfaces

9 contact surfaces

L phase

N neutral

V low voltage (positive pole)

0 ground (negative pole)

A output

D rotation axis

E entrance

S low voltage switch signal

Claims

claims

A method for generating a low voltage supply to an electrical control device, in particular a washing machine control, wherein a first power supply (1) by means of an activation / deactivation input (E) by connecting to or disconnecting from a low-voltage switching signal (S) in an active mode or sleep mode wherein the low-voltage switching signal (S) is generated on the output side at least in the sleep mode of the first power supply unit (1) by a further power supply unit (3), and the low-voltage signal (S) is connected to the activation unit by means of a low-voltage switch (5, 5 '). Deactivation input (E) of the power supply (1) is connected or disconnected.

2. A circuit according to claim 1, characterized in that the low-voltage switching signal (S) by a capacitor power supply (3) is generated.

3. Low-voltage supply circuit of an electrical control device, in particular a washing machine control, for carrying out a method according to claim 1 or 2, with a first power supply (1) which by means of an activation / deactivation input (E) by connecting to or disconnecting from a low-voltage switching signal (S) can be put into an active mode or sleep mode, wherein the supply circuit for generating the low-voltage switching signal (S) has a further power supply (3) which generates a low-voltage signal (S) at least in the sleep mode of the first power supply (1) and the supply circuit a low-voltage switch ( 5, 5 ') which connects or disconnects a low-voltage output (A) of the further power supply unit (3) with the activation / deactivation input (E) of the first power supply unit (1).

4. A circuit according to claim 3, characterized in that the further power supply (3) is designed as a capacitor power supply.

5. A circuit according to claim 3 or 4, characterized in that the low-voltage switch (5) as a position, in particular rotary selection position (5 '), a program selector (6) is formed.

6. A circuit according to claim 5, characterized in that the program selector (6) is designed as a carbon-pressure selector.