DE102008014804A1 - Controller for controlling function of household appliance i.e. induction hob, has circuit activating or deactivating supply depending on condition, and auxiliary main power supply supplying operating energy to circuit - Google Patents

Abstract

The controller (100) has an activatable/deactivatable main power supply (104) for supplying operating energy to a set of controller components (101-103). A control element e.g. capacitive scanner (105), is activated by a user for activating and/or deactivating the controller. A control element circuit (106) is attached to the control element and is coupled with the supply. The circuit determines an actuation condition of the control element, and activates or deactivates the supply depending on the condition. An auxiliary main power supply (107) supplies operating energy to the circuit.

Description

Field of application and status of the technique

The The invention relates to a control device for controlling the function of a household appliance.

Household appliances, for example Induction hobs, usually have a control unit for functional control, the various electronic control unit assemblies includes. The electronic control unit assemblies can, for example a controller for a power part in the form of a converter circuit of an induction heater and / or a controller for include a touch display. The ECU assemblies are from a Power supply supplied with operating power. The power supply is usually designed as a so-called switching power supply, the supply the control unit assemblies a galvanically isolated from the mains voltage supply voltage generated.

The domestic appliances usually have controls for operating the household appliance, For example, for Heizleistungsein position of a hob and for switching on or off the hob or hob. at more modern household appliances can to operate more complex, electronic controls provided be such as so-called touch screens and / or capacitive Sensor elements used for Their function requires a permanent power supply.

Around to minimize the energy consumption of the household appliance, it is at a use of such complex controls necessary their power consumption in a standby mode of the household appliance, during which the household appliance is not used to minimize. A complete shutdown of the power supply is not possible since a restart of the household appliance requires that the necessary Operating elements or functional units supplied with operating energy become.

Task and solution

Of the The invention has for its object the provision of a control device for the function control of a household appliance based, compared to conventional control units a has reduced power consumption in stand-by mode.

The Invention solves this object by a control device according to claim 1. Advantageous As well as preferred embodiments of the invention are the subject of further claims and will be closer in the following explained. The wording of the claims becomes by express Reference made to the content of the description.

The Control unit according to the invention for function control of a household appliance includes ECU assemblies, an activatable / deactivatable main power supply for supplying the ECU construction groups with operating power, a control provided by a user can be actuated to activate and / or deactivate the control unit, a control element associated with the control element, the with the main power supply is coupled and which is adapted to the operational state of the control element and depending on the particular Actuating state at a user desired Enable the main power supply to activate or at one by the user desired Disable disabling the main power supply, and an auxiliary power supply, wherein the control element circuit exclusively by the auxiliary power supply is supplied with operating energy. Preferably, the auxiliary power supply takes less power in operation than the main power supply. The main power supply can be realized in the form of a switching power supply, which consists of a Mains input voltage one galvanic from the mains input voltage separate supply voltage for the supply of the control unit modules generated. Because after deactivation, i. H. in a standby mode, only the auxiliary power supply for supplying the control element circuit is active, d. H. the ECU assemblies are not supplied with operating power, the power consumption be reduced in stand-by mode. A restart of the ECU or of the household appliance easily possible, because the control element circuit is powered by the auxiliary power supply and in an operation of the operating element by a user, which requests a switching on of the household appliance, an activation the main power supply and thus all functions of the controller easily possible is.

In a development of the controller includes the auxiliary power supply a bridge rectifier with a first and a second input terminal, a first Capacitor connecting between a port for connection to at least an outer conductor an AC mains and one of the input terminals of the Bridge rectifier is looped, and a second capacitor between one Connection for connecting at least one neutral conductor of the AC mains and the other of the input terminals of the bridge rectifier is.

In a development of the control device is the control element circuit coupled to the main power supply by means of at least one optocoupler. This allows a galvanically isolated control of the main power supply.

In a development of the control device is the operating element as capacitive sensor element is formed, whose capacity is in Dependence on changes its operating state.

In a development of the control device comprises the control element circuit an astable multivibrator, wherein the capacitive sensor element is part The astable multivibrator is, with an operating frequency an output signal of the astable multivibrator depending from the capacity of the capacitive sensor element changed.

In a development of the control device comprises the control element circuit a phase locked loop (PLL) having an input terminal to which the Output of the astable multivibrator is applied, a voltage-controlled oscillator that generates an oscillation signal, whose frequency depends on a control voltage, a phase detector, the one phase difference between the output of the astable Multivibrators and the oscillation signal determined and depending on the phase difference generates the control voltage, and an actuation evaluation circuit, which evaluates the control voltage for determining the actuation state. Since the control voltage depends on the frequency of the Output signal of the astable multivibrator changed, the frequency in turn from the operating state the capacitive sensor element depends, the control voltage for evaluating the operating state be used.

In a development of the control unit include the ECU assemblies a controller for an induction heater or a converter for driving an induction heating coil of the induction heater and / or a controller for a touch display.

Brief description of the drawings

advantageous embodiments The invention are shown schematically in the drawings and are described below. Hereby shows:

1 a principle block diagram of a control device for controlling the operation of a household appliance and

2 a principle block diagram of a control element circuit and an associated auxiliary power supply of the control unit of 1 ,

Detailed description the drawings

1 shows a principle block diagram of a controller 100 for functional control of a household appliance in the form of an induction hob, not shown.

The control unit 100 includes ECU assemblies 101 to 103 , an activatable / deactivatable main power supply 104 to supply the control unit modules 101 to 103 with operating power, an operating element in the form of a capacitive sensor element or capacitive button 105 whose capacity changes as a function of its actuation state and that of a user, not shown, for activating and / or deactivating the control device 100 or hob can be actuated, one the capacitive sensor element 105 associated control element circuit 106 connected to the main power supply 104 is coupled and which is adapted to the operating state of the capacitive sensor element 105 to determine and, depending on the particular operating state at a user-requested activation of the hob, the main power supply 104 to activate or, if the user desires to deactivate the cooktop, the main power supply 104 to disable, and an auxiliary power supply 107 , wherein the control element circuit 106 exclusively through the auxiliary power supply 107 is supplied with operating energy. The auxiliary power supply 107 also remains in a deactivated state or a stand-by operation of the controller 100 active, ie supplies the control element circuit 106 with operating energy.

The control unit module 101 serves for controlling an induction heating device, not shown, or an inverter for controlling an induction heating coil of the induction heating device. The control unit module 102 is used to control a touch display, not shown, and / or other capacitive sensor elements, via which or beyond the on and off switching beyond operation of the hob is possible. The control unit module 103 serves as an example for controlling further functions of the induction hob.

The main power supply 104 is designed as a switching power supply and generates one of a mains voltage UN galvanically isolated supply voltage for the ECU assemblies 101 to 103 , If the main power supply 104 through the control element circuit 106 is disabled during a stand-by operation, the main power supply generates 104 no supply voltage for the control unit modules 101 to 103 , causing the ECU assemblies 101 to 103 and the main power supply 104 substantially no power during stand-by operation. During stand-by operation, therefore, only the auxiliary power supply decreases 107 Power for supplying the control element circuit 106 on.

2 , shows a principle block diagram of the control element circuit 106 and the associated auxiliary power supply 107 of the control unit 100 from 1 , The auxiliary power supply 107 includes a bridge rectifier 108 with a first input terminal E1 and a second input terminal E2, first capacitors C1 and C2 connected between terminals A1 and A2 for connecting an outer conductor L1 and L2 of an AC network and the input terminal E1 of the bridge rectifier 108 and second capacitors C3 and C4 connected between terminals A3 and A4, respectively, for connection of a neutral conductor N1 and N2 of the AC mains and the other input terminal E2 of the input terminals E1 and E2 of the bridge rectifier 108 are looped. The auxiliary power supply 107 may comprise further, not shown assemblies, such as a voltage regulator and a smoothing capacitor for processing a generated by the bridge rectifier output voltage UV, wherein the thus regulated or stabilized voltage for supplying the control element circuit 106 serves. It is understood that out of the bridge rectifier 108 generated voltage UV even more voltages, for example, with other levels or reverse polarity, can be generated, if this in the control element circuit 106 needed.

The control element circuit 106 includes an astable multivibrator 110 , wherein the capacitive sensor element 105 Part of the astable multivibrator 110 is. An operating frequency of an output signal U1 of the astable multivibrator 110 changes depending on the capacitance of the capacitive sensor element 105 , ie dependent on Actuate supply state of the capacitive sensor element 105 , The astable multivibrator 110 further includes an inverter 115 , a feedback resistor R1, which connects the output of the inverter to its input, and a base capacitance C5, which is the capacitive sensor element 105 connected in parallel and between an input of the inverter 115 and ground is looped.

To evaluate the frequency or the frequency change of the output signal U1 of the astable multivibrator 110 includes the control element circuit 106 a phase locked loop 114 with a voltage controlled oscillator 111 , which generates an oscillation signal U2 whose frequency depends on a control voltage U3, that of a phase detector 112 is produced. The phase detector 112 determines a phase difference between the output signal U1 of the astable multivibrator 110 and the oscillation signal U2 and generates the control voltage U3 in response to the detected phase difference.

An actuation evaluation circuit 113 evaluates those by the phase detector 112 generated control voltage U3 for determining the actuation state. The actuation evaluation circuit 113 controls an optocoupler 109 whose output is connected to an activation / deactivation input (not shown) of the main power supply 104 is coupled.

The operation of the control unit will be summarized briefly below. During a stand-by operation is only the auxiliary power supply 107 active and supplies the control element circuit 106 , The main power supply 104 is deactivated, ie the ECU assemblies 101 to 103 are not supplied with operating energy.

When a user uses the capacitive sensor element 105 operated, the frequency of the signal U1 changes, whereby a voltage change of the control voltage U3 is caused. The actuation evaluation circuit 113 activates the main power supply in response to the change of the control voltage U3 104 , causing the control unit 100 or the induction hob changes from stand-by mode to normal operation.

If the user during normal operation, the capacitive sensor element 105 again actuated, disables the Betätigungsauswerteschaltung 113 in response to the change of the control voltage U3, the main power supply 104 , causing the control unit 100 or the induction hob changes from normal operation to stand-by mode. By actuation of the capacitive sensor element 105 Thus, there is a toggling or toggling between normal operation and stand-by operation.

Alternatively, it can be provided for switching from normal operation in the standby mode another, not shown control element, for example, by the control unit assembly 102 controlled and / or can be covered by this. In this case, another optocoupler, not shown, should be provided at its input through the control unit assembly 102 is driven and at its output with the control element circuit 106 is coupled or engaged in this. If, in normal operation, a shutdown of the induction hob is requested by a user, this is the operating element of the control unit assembly 102 actuated, this request is sent via the optocoupler to the control element circuit 106 transfer. The control element circuit 106 or the Betätigungsauswerteschaltung 113 then controls the optocoupler 109 such that the main power supply 104 is deactivated. Activation takes place, as already described above, by actuating the sensor element 105 , The control element is used for this case 105 only for one switch or to transfer to normal operation and the other, not shown control element is used to turn off or to transfer to stand-by mode.

The shown embodiments wise compared to conventional ECUs a reduced power consumption in standby mode, as in stand-by mode only such a circuit part of the controller by a separate power supply is supplied with operating power or voltage, to restart or transfer the controller or of the hob is necessary in a normal operation.

Claims (7)

Control unit ( 100 ) for the functional control of a household appliance with - control unit assemblies ( 101 ~ 103 ), - an activatable / deactivatable main power supply ( 104 ) for the supply of the ECU assemblies ( 101 ~ 103 ) with operating energy, - a control element ( 105 ), which is activated by a user for activating and / or deactivating the control device ( 100 ) is operable, - one of the operating element ( 105 ) associated control element circuit ( 106 ) connected to the main power supply ( 104 ) and which is adapted to the operating state of the operating element ( 105 ) and, depending on the particular operating condition, the main power supply ( 104 ) to activate or deactivate, and - an auxiliary power supply ( 107 ), wherein the control element circuit ( 106 ) exclusively by the auxiliary power supply ( 107 ) is supplied with operating power. Control device according to claim 1, characterized in that the auxiliary power supply ( 107 ) comprises: - a bridge rectifier ( 108 ) having a first input terminal (E1) and a second input terminal (E2), - a first capacitor (C1, C2) connected between a terminal (A1, A2) for connecting an external conductor (L1, L2) of an AC network and an input terminal (E2) E1) of the input terminals (E1, E2) of the bridge rectifier ( 108 ), and - a second capacitor (C3, C4) connected between one terminal (A3, A4) for connecting a neutral conductor (N1, N2) of the AC mains and the other input terminal (E2) of the input terminals (E1, E2) of the Bridge rectifier ( 108 ) is looped. Control device according to Claim 1 or 2, characterized in that the operating element circuit ( 106 ) with the main power supply ( 104 ) by means of at least one optocoupler ( 109 ) is coupled. Control device according to one of the preceding claims, characterized in that the operating element as a capacitive sensor element ( 105 ) is formed, whose capacity changes depending on its operating state. Control device according to Claim 4, characterized in that the operating element circuit comprises an astable multivibrator ( 110 ), wherein the capacitive sensor element ( 105 ) Component of the astable multivibrator ( 110 ), wherein an operating frequency of an output signal (U1) of the astable multivibrator ( 110 ) as a function of the capacitance of the capacitive sensor element ( 105 ) changed. Control device according to claim 5, characterized in that the control element circuit ( 106 ) comprises: - a phase locked loop with - a voltage controlled oscillator ( 111 ), which generates an oscillation signal (U2) whose frequency depends on a control voltage (U3), - a phase detector ( 112 ), which has a phase difference between the output signal (U1) of the astable multivibrator ( 110 ) and the oscillation signal (U2) and generates the control voltage (U3) as a function of the phase difference, and - an actuation evaluation circuit ( 113 ), which evaluates the control voltage (U3) for determining the actuation state. control unit according to one of the preceding claims, characterized that the ECU assemblies a controller for an induction heater and / or a controller for a touch display include.