EP2153505A1

EP2153505A1 - Electrical appliance

Info

Publication number: EP2153505A1
Application number: EP08749560A
Authority: EP
Inventors: Marc Federmann; Martin Graw; Volkmar Uebele
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2007-05-04
Filing date: 2008-04-15
Publication date: 2010-02-17
Also published as: WO2008135344A1; US20100123357A1; CN101682212A; CN101682212B; DE102007021065A1; US8531058B2

Abstract

The invention relates to an electrical appliance, especially a household appliance, comprising an activation unit, at least one power supply unit which is linked up to a power supply network and used for the secondary supply of controlled functional units of the electrical appliance and the activation unit, and a switch which separates the power supply unit of the electrical appliance, in an idle state, from the power supply network, on the primary side, and can be switched on by the activation unit, the switch being connected in parallel to a capacitor on the primary side.

Description

electrical appliance

The invention relates to an electrical appliance, in particular a household appliance, with an activation unit and at least one lying on a power supply PSU for secondary supply to be controlled functional units of the electrical device and the activation unit and with a switch, the power supply of the electrical appliance in the idle state primary side of the power supply network separates and can be switched by the activation unit.

DE 101 48 644 A1 discloses an electrical circuit for dimming the two half-waves of an AC voltage with a rectifier full bridge, which is connected with its AC inputs via an inductive load connected in series with an AC voltage source, and in the diagonal of the DC outputs, a field effect transistor is connected, in which the applied between gate and source

Control voltage is formed by a synchronously operated with the AC voltage optocouplers.

DE 195 376 00 A1 and DE 196 52 472 A1 disclose an electronic circuit for energy saving in AC voltage transformers, in which a primary-side e- lektronischer switch, z. B. a Diac, a primary-side circuit of a transformer interrupts or closes again (so-called "Horstmann circuit").

DE 19932 453 A1 and WO 01/05132 A1 show an electrical appliance with power supply, transformer power supply and control card for an electrical appliance. Apparently, this is an electrical appliance with a control unit and at least one lying on a power supply and switchable via a switch power supply for supplying functional units to be controlled and the control unit, which is connected via lines to a device external data network, via the control signals, in particular a call signal to the control unit is sent to start a data transmission from or to the electrical appliance. In order to realize the power consumption 0 in the standby mode of the electrical appliance, the switch disconnects the power supply of the electrical appliance in the idle state from the power supply network and closes the call signal with its energy the electrical switch. These documents thus show a Horstmann circuit connected by an external data line. It is the object of the present invention to provide a possibility for immediate secondary-side power supply of a self-locking in standby mode electrical appliance, in particular domestic appliance, and a corresponding control unit after a power disconnection out.

The object is achieved by an electrical appliance according to claim 1 and a power supply according to claim 7. Advantageous embodiments are in particular the dependent claims.

The electrical appliance is provided with an activation unit and at least one power supply unit for secondary supply of functional units of the electrical appliance and the activation unit to be controlled and with a switch which disconnects the power supply of the electrical appliance in the idle state ('standby') on the primary side from the power supply network and is switchable by the activation unit. The switch is connected on the primary side in parallel with a capacitor.

By this arrangement, an immediate secondary-side activation ("Power On Reset") of the electrical appliance when turning on the power supply network can be realized, for. B. via a main switch or plugging in a power plug. When the capacitor is discharged, this acts as a bridging of the switch, so that the power supply is then connected to the mains (or any other suitable supply voltage) irrespective of the switching state of the switch.

The activation unit may be any element capable of switching the switch. This is preferably to avoid additional components that control unit, which also controls the functional units of the electrical appliance, z. B. a microcontroller. For further power saving, however, the activation unit can also be a circuit provided specifically for the circuit of the switch, such as an ASIC or a printed circuit, so that the microcontroller can be switched off in standby mode. The activation unit can also itself a switch, z. B. be a push-button, which outputs a sufficient for actuation of the primärseiti- ge mains voltage switching switch sufficient voltage pulse when actuated, for. B. is located under a glass ceramic piezoelectric switch. It is then advantageous for the electrical appliance to include a 'hold-off arrangement' which uses the initially short duration of the primary-side activation to hold the switch until the switch is kept closed by a secondary-side control arrangement during normal operation. Preferably, the switch separates the primary side and the secondary side galvanically to realize a simple circuit arrangement. Preferably, the switch is an optocoupler. Alternatively, however, not electrically isolating switch can be used, for. As a transistor, in which case the circuit should then be designed so that interference between primary side and secondary side are avoided.

Advantageously, between the power supply and the activation unit, an energy storage, for. As an accumulator, capacitor or a 'gold cap', switched so as to easily achieve a 0 W standby power of the activation unit during a loaded nen state of the energy storage.

For charging the energy storage device, this is advantageously additionally coupled with an autonomous (ie not supplied by a supply network) current source, in particular a solar cell unit.

The power supply network for the electrical appliance, in particular an extractor hood, can be externally switched on and off by a user by means of a further functional unit, in particular by means of a window switch or a stove / hood combination, wherein the further functional unit in particular has a main switch upstream of the above electrical appliance Providing a main supply voltage (typically but not necessarily mains voltage) opens or closes. This embodiment is particularly suitable for the embodiment equipped with the parallel-connected capacitor for "power on reset".

The power supply, in particular an electromagnetic or electronic transformer, is equipped with an electrical switch for switching a mains voltage, wherein the switch separates the power supply in the idle state on the primary side of the power supply network. The switch is connected in parallel with a capacitor on the primary side to enable a "power on reset".

In this case, the switch advantageously separates the primary side and the secondary side of the power supply galvanically.

In the following, the invention will be described in more detail schematically with reference to an embodiment not to be understood as limiting the invention.

1 shows a sketch of a circuit arrangement for an electrical appliance. 1 shows a circuit arrangement 1 for an electrical appliance, in particular a household appliance such as an extractor hood. When the electrical appliance is in standby or hibernation mode, the switch is open in the form of an opto-coupler V4. As a result, the gate terminal G and the source terminal S of the MOS-FETs Tl are at the same potential via a resistor R2 and the MOSFET Tl blocks. The power supply 2 is then separated from the power supply network L, N on the primary side. As a result, the secondary side of the power supply unit 2 is no longer supplied with voltage by the accumulator which is connected downstream of the power supply unit as an energy store 3 and an activation unit 4 in turn in the form of a microcontroller. The activation unit 4 switches the optocoupler V4. The energy consumption of the electronics or the power supply unit is practically 0 in standby mode.

If now the electrical appliance is to be converted into the normal operating state, the switch V4 is closed by the activation unit 4. As a result, the voltage potential at gate G becomes more positive with respect to source S, and the FET T1 becomes conductive. Then the rectifier full bridge V1 with its AC inputs and the primary winding of the power supply 2, z. As an electrical or electronic transformer, connected in series. Now the power supply 2 is located on the primary side of the voltage-supplying network L, N and the normal operating state is reached.

In order for the activation unit 4 to switch the optocoupler V4 and to interrogate the operating request via a control unit (not shown), the activation unit 4 or the microcontroller of the activation unit 4 is supplied via the energy storage unit 3 in the standby state. The microcontroller 4 is operated in the power-saving mode (eg the so-called SLEEP mode) in order to consume as little energy as possible. In order for sufficient power to be available for operating the activation unit 4 and for switching the opto-coupler V4, the energy storage device 3 is charged via a solar cell 5 when the network is disconnected or the charge is obtained in standby mode. In addition, the activation unit can monitor a state of charge of the energy store 3 and upon reaching a predetermined threshold, for. B. a minimum voltage value, the switch V4 so long (and thus turn off the standby mode so long) until the energy storage 3 is sufficiently charged again. The energy storage 3 can also be charged via the power supply 2 in normal operation.

The capacitor C2, which is connected in parallel with the optocoupler V4 on the primary side, acts as a short circuit after a long mains isolation and mains return, so that when the mains are restored the low-voltage power supply immediately on the primary side of the voltage-supplying network L, N is located. The optocoupler V4 can then be controlled by the automatic control 4, and the energy storage 3 can be loaded.

Through this circuit, a standby power consumption of almost 0 W can be achieved. In addition, no external control voltage for activating or deactivating the standby state is necessary.

The function and operation of the other drawn elements will be apparent to those skilled in the art after reading the above description. Thus, a Zener diode V5 is provided to limit a voltage at the gate G of the MOSFET T1. By means of the diode V2 ensures that only a rectified control voltage is applied to the MOSFET T1. The rectifier full-bridge V1 serves to poling the MOSFET T1.

The above circuit arrangement is not limited to the illustrated embodiment or application; z. B., the basic principle can also be transferred to a Horstmann circuit. The circuit arrangement is basically also used in switching power supplies or in other electrical appliances. Furthermore, for example, the optocoupler or the switching elements associated therewith can be replaced by other electrically isolating electrical or electronic switches. Also, the activation unit can be powered by its own power supply.

LIST OF REFERENCE NUMBERS

1 circuit arrangement

2 power supply 3 energy storage

4 activation unit

5 autonomous energy source

L Power grid N Power grid R Resistor C Capacitor T1 Field effect transistor V1 Rectifier full bridge V2 Diode V3 Zener diode V4 Switch

Claims

claims

1. Electrical appliance, in particular domestic appliance, with an activation unit (4) and at least one power supply unit (2) lying on a voltage supply network (L, N) for the secondary supply of functional units to be controlled

Electric device and the activation unit (4), and with a switch (V4), the power supply (2) of the electrical device in the idle state on the primary side of the power supply network (L, N) and switchable from the activation unit (4), characterized in that the Switch (V4) is connected on the primary side in parallel with a capacitor (C2).

2. Electrical device according to claim 1, characterized in that the switch (V4), the primary side and the secondary side electrically isolated.

3. Electrical appliance according to claim 2, characterized in that the switch

(V4) is an optocoupler (V4).

4. Electrical appliance according to one of claims 1 to 3, characterized in that between the power supply (2) and the activation unit (4), an energy store (3) is connected.

5. Electrical appliance according to claim 1, characterized in that the energy store (3) for charging additionally with an autonomous power supply (5), in particular a solar cell unit, is coupled.

6. Electrical appliance according to one of the preceding claims, characterized in that the power supply network (L, N) for the electrical appliance, in particular for an extractor hood, by a user by means of another functional unit, in particular by means of a window switch and / or a cooker / Haubekombination or a remote control, optionally externally switched on and off.

7. Power supply, in particular transformer power supply (2), with an electrical switch (V4) for switching a mains voltage (L, N), wherein the switch (V4) the power supply (2) in the idle state on the primary side of the power supply network (L, N) separates, characterized in that the switch (V4), the primary side and the secondary side of the power supply (2) electrically isolated. Power supply (2) according to claim 7, characterized in that the switch (V4) is connected in parallel with a capacitor (C2) on the primary side.