DE202008006883U1 - adapter - Google Patents

Abstract

An adapter (1) adapted for use between a power supply and a terminal, comprising:
a switching unit (2) insertable between the power supply and the terminal; and
a receiving part (3), which is coupled to the switching unit (2) and is controllable by means of a remote control of the terminal, wherein
the adapter (1) works in such a way that:
in a turned-off state of the adapter (1), in which the terminal is disconnected from the power supply, the receiving part (3) responds to a turn-on signal from the remote control of the terminal with a turning on of the power supply via the switching unit (2) to the terminal and this put into an initial state,
and
in a switched-on state of the adapter (1), in which the terminal is connected to the power supply, the receiving part (3) responds to a switch-off signal from the remote control with a disconnection of the power supply via the switching unit (2) to the terminal.

Description

TECHNICAL AREA

The The present invention relates to an adapter for use between a power supply and a terminal designed is an unnecessary standby consumption to prevent the terminal.

STATE OF THE ART

In the prior art, for example, an adapter adapted for use between a power supply and a terminal in order to prevent an unnecessary standby or standby consumption of the terminal, known under the designation "POWER SAFER ^® PS 3 .x "manufactured and sold by the company DiK POWER SAFER ^® energy saving technology GmbH.

This Adapter disconnects a power supply to one or more terminals in response to a significant decrease in energy intake the one or more terminals after a turn-off delay of a few seconds. Significantly reducing energy intake will as a change of the one or more terminals of an on state or active operation to the standby mode construed. To perform the disconnection of the power supply You may need to use a threshold on this adapter of a controller.

This Although adapter can be a power supply to one or more Terminate terminals and thus an unnecessary Prevent standby operation of this or these terminals however, the concept of disconnecting the power supply requires in response to a significant decrease in energy intake of the one or more terminals a significant self-consumption, those with <300 mW is specified. This self-consumption reduces a power-saving effect, which is the actual goal of such an adapter.

in the The prior art is further, for example, an adapter, the Use between a power supply and a terminal is designed to be an unnecessary standby consumption of the terminal known as the "TV Energy Saver IR Adapter" sold by the company Conrad Electronic SE.

This Adapter has a switching unit and one of this switching unit separate receiving part, which is coupled to the switching unit is.

The Receiving part receives a switch-on signal from a remote control and turns on a power supply in response to the turn-on signal the switching unit to the terminal through.

This Adapter separates a power supply to a terminal in response to a significant decrease in energy intake of the terminal after a switch-off delay for up to three minutes. Significantly reducing energy intake is called a change of the terminal of a switched State or active operation to the standby mode construed.

This Although adapter can be a power supply to a terminal disconnect and thus an unnecessary standby operation this Preventing terminal, however, requires the concept of disconnecting energy supply in response to a significant reduction the power consumption of the terminal a significant self-consumption, those with <500 mW is specified. This self-consumption reduces a power-saving effect, which is the actual goal of such an adapter.

One Another disadvantage of this adapter is that it after disconnecting the adapter from the power supply a learned turn-on signal Forgets and that he works with a single capacitor power supply, whereby a permanent power supply for the switching unit is provided, which is reflected in the high self-power consumption of <500 mW.

SUMMARY OF THE INVENTION

It is accordingly the object of the present invention, to provide an adapter for use between a power supply and a terminal is designed and an own power consumption reduce energy consumption.

These The object is achieved by the measures specified in claim 1 solved.

Further advantageous embodiments of the present invention are the subject the dependent claims.

According to one aspect of the present invention, there is provided an adapter adapted for use between a power supply and a terminal and having a switching unit interposable between the power supply and the terminal and a receiving part coupled to the switching unit and by means of a switching unit Remote control of the terminal is controllable. In an off state of the adapter in which the Terminal is disconnected from the power supply, the receiving part reacts to a switch-on signal from the remote control of the terminal with a switching of the power supply via the switching unit to the terminal responds and puts this in an initial state. In an on state of the adapter in which the terminal is connected to the power supply, the receiving part responds to a switch-off signal from the remote control with a disconnection of the power supply via the switching unit to the terminal.

Thereby, that the adapter to disconnect the power via the switching unit to the terminal to a switch-off signal the remote control of the terminal responds, the switching unit be designed so that in the off state no Own power consumption and only the receiving part with Energy must be supplied to the on signal of the Remote control of the terminal to be able to respond. This significantly reduces self-consumption of the whole Adapter.

Advantageous indicates the disconnection of the power supply via the switching unit to the terminal on a switch-off delay.

Advantageous is the switching on and disconnecting the power supply over the switching unit to the terminal using a Control signal performed by the receiving part as Response to receiving the turn-on and turn-off signal the remote control of the terminal is generated and to the Switching unit is transmitted.

Advantageous the switching unit has a switch.

Advantageous the switch is a relay.

Advantageous the receiver is an infrared receiver.

Advantageous the receiving part has at least one key with which at least one of switching on and disconnecting the power supply via the switching unit to the terminal manually from a user is feasible.

Advantageous the at least one key has a first key and a second key Button up and down by pressing the first one at the same time Button and the second button activates a learning mode in which the Switch-on signal and switch-off signal of the remote control of the terminal learnable from the receiving part and storable in a memory are who keeps a stored information without power supply.

Advantageous the switching unit has a first capacitor power supply, the the receiver is powered by a cable.

Advantageous the switching unit has a second capacitor power supply, the energizes the switching unit.

Advantageous the second capacitor power supply only supplies the switching unit then with energy when the power supply via the switching unit too the terminal is turned on.

BRIEF DESCRIPTION OF THE DRAWING

The The present invention will be described below with reference to an embodiment explained in more detail with reference to the accompanying drawings.

The single figure shows a schematic representation of an adapter according to an embodiment of the present invention Invention.

BEST WAY TO RUN THE INVENTION

Under Reference to the single figure, which is a schematic representation an adapter according to an embodiment of the present invention will now be the embodiment of the present invention explained in more detail.

Of the Adapter of this embodiment of the present invention is designed to be used between a power supply and a terminal to become unnecessary standby consumption to prevent the terminal.

Preferably is the power supply for example a power outlet and is that Terminal for example a TV.

As indicated in the single figure, the adapter is 1 between a power supply (not shown) and a terminal (not shown). For example, the adapter points 1 a power supply plug for connection to a socket as a power supply and a socket for connection of a power supply plug of the terminal.

This However, this is not mandatory, so the present Invention is not limited thereto and any other energy supplies and / or terminals used can be, if necessary.

In principle, the present invention can be used in conjunction with all devices from the Ho me-entertainment, such as televisions, receivers, DVD players, projectors, tuners, amplifiers, etc., which can be controlled by a remote control.

below the description of a construction of the adapter according to the Embodiment of the present invention.

As shown in the single figure, the adapter points 1 According to the embodiment of the present invention, a switching unit 2 , a reception part 3 and a cable 4 on.

The receiver has a first button 3a , a second button 3b , an IR photodiode 3c and a light emitting diode or LED 3d on.

Instead of the photodiode 3c For example, an IR receiver module including a PIN diode or photodiode, an amplifier, a low-pass filter, a demodulator, etc. may be used. In this case, some components may be present when using the photodiode 3c in the reception section 3 are included, from the receiving part 3 be omitted.

The cable 4 couples the switching unit 2 with the reception part 3 and serves on the one hand, control signals between the receiving part 3 and the switching unit 2 to transmit and on the other hand, the receiving part 3 from the switching unit 2 to provide energy. This will be described in more detail below.

Below is a description of how the adapter works 1 according to the embodiment of the present invention.

The adapter 1 avoids unnecessary power consumption by disconnecting the connected terminal from the power supply. For this purpose, the switching unit 2 a relay as a switch on. The switching unit 2 is through control signals coming through the cable 4 from the receiving part 3 be transmitted from the receiving part 3 controlled. The reception part 3 For example, an IR receiving part is for receiving a turn-on signal and turn-off signal from a remote control of the terminal through the photodiode 3c is designed. More specifically, the photodiode receives 3c of the receiving part 3 the turn-on signal and turn-off signal from the remote control of the terminal.

In an off state of the terminal, the terminal is completely disconnected from the power supply. When the remote control is operated to send the turn-on signal, the turn-on signal from the photodiode becomes 3c of the receiving part 3 receive and send the receiving part 3 a control signal via the cable 4 to the switching unit 2 which turns on the power supply via the relay to the terminal. As a result, the connected terminal is activated, that is, placed in an initial state, which may be a standby mode or a switched state or active operation. When the connected terminal is then in a standby mode, the terminal is put into an on state again by operating the remote control to send the turn-on signal to the terminal.

When the remote control is operated again to send a turn-off signal, the connected terminal changes to standby mode by receiving the turn-off signal. At the same time, the switch-off signal from the photodiode 3c of the receiving part 3 receive. The reception part 3 sends a control signal to the switching unit in response to receiving the turn-off signal from the remote control of the terminal 2 , The switching unit 2 In response to this control signal, the relay turns off with a turn-off delay of, for example, a few seconds, thereby completely disconnecting the terminal from the power supply.

The OFF delay is required to the terminal, such as a hard disk recorder or digital video recorder, safe to drive down.

If the photodiode 3c of the receiving part 3 receives a valid switch-on signal or switch-off signal from the remote control of the terminal, this acknowledges the receiving part 3 with a flashing of the LED 3d ,

The first button 3a of the receiving part 3 serves to manually disconnect the terminal from the power supply and the second button 3b of the receiving part 3 serves to manually switch the power supply to the terminal through.

This is among other things advantageous if the adapter 1 and the connected terminal are "out of sync." For example, if the receiving part 3 is arranged inconvenient, it may occur that the connected terminal has already responded to a switch-off signal from the remote control of the terminal, the adapter but not yet. Therefore, the adapter has 1 the terminal is not disconnected from the power supply. If now the first button 3a of the receiving part 3 is actuated, the adapter disconnects 1 the connected terminal manually from the power supply. The adapter 1 and the connected terminal are again "in tact" or "synchronous".

When the first button 3a of the terminal and the second button 3b of the terminal are operated simultaneously, the adapter is located 1 in a learning mode. In this learning mode, when the remote control of the terminal is operated to send the turn-on signal and the turn-off signal, the receiving section learns 3 this signal and stores corresponding information in a memory, such as a flash memory. Afterwards the adapter is ready for operation. The memory holds a stored information even without power.

The switching unit 2 of the adapter 1 has two capacitor power supplies in the switching unit 2 are integrated. These two capacitor power supplies cover the power supply of the adapter 1 from. Capacitor power supplies are extremely effective at low energy consumption, since they have, for example, no iron losses as in a transformer. A first capacitor power supply of the two capacitor power supplies is the smaller of the two capacitor power supplies and supplies the receiving part 3 over the cable 4 constantly with energy, so that the receiving part 3 can constantly receive a signal from the remote control of the terminal. A second capacitor power supply is the larger of the two capacitor power supplies and drives the relay of the switching unit 2 , The switching unit 2 is only supplied with power from the second capacitor power supply when the switching unit 2 is turned on.

The first capacitor power supply, which is the receiving part 3 constantly powered, provides a power consumption of <100 mW for the receiver 3 , This is a small self-consumption of the adapter 1 ensured.

As can be seen from the previous description, there is the adapter 1 from the switching unit 2 and the receiving part 3 which are separated from each other. This indicates the receiving part 3 a small size and can be easily on the terminal, such as a flat screen TV, arranged. The switching unit 2 that has a larger dimension than the receiving part 3 has, "disappears" at the power supply, such as a power outlet.

An essential aspect of the present invention is the reception of signals at the receiving part 3 , In order to do this, a special method is used, which will be explained in more detail below.

Many different infrared transmission protocols with different bit transmission or bit representation are known in the prior art. More information is available online at http://www.sbprojects.com/knowledge/ir/ir.htm to find. Widely used are the protocols RC-5, RECS-80 from Philipps, NEC, JVC or Nokia NRC17. In this case, infrared signals are used, which are modulated at 36 kHz and 38 kHz. However, from the adapter 1 as well as other infrared signals are received and processed.

The Differences of respective infrared signals are from the method detected. For this purpose, a respective infrared signal with a resolution sampled by 32 μs and this is therefore on the order of magnitude a modulation frequency of the infrared signal. A separating one Message from a repeat or continuous key press (Repeat) occurs due to timeout.

At the Protocol Nokia NRC17 is in a message a break from up to 22 ms. This break is bigger than a break between message and repetition of for example 18 ms at the JVC protocol. To identify the protocol Nokia NRC17 will pre-pulse (Prepulse) of 0.5 ms / 2.5 ms exactly measured on a duty cycle 1: 5 and the timeout increased to a longer break time. These Pause time is marked with a lock character.

The Protocols of Philipps are provided with a toggle bit. This means, the infrared signal is no longer unique, but ambiguous. Therefore, the turn-on signal and turn-off signal become two variations saved.

Although the present invention with reference to an embodiment It is understood that various changes have been made and embodiments of the present invention can be without the scope of the present invention as defined by the appended claims is.

In terms of Further features and advantages of the present invention will continue expressly referred to the disclosure of the drawing.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - http://www.sbprojects.com/knowledge/ir/ir.htm [0052]

Claims (11)

Adapter ( 1 ), which is designed for use between a power supply and a terminal and comprises: a switching unit ( 2 ) which can be inserted between the power supply and the terminal; and a receiver ( 3 ) connected to the switching unit ( 2 ) and is controllable by means of a remote control of the terminal, wherein the adapter ( 1 ) works such that: in an off state of the adapter ( 1 ), in which the terminal is disconnected from the power supply, the receiving part ( 3 ) to a turn-on signal from the remote control of the terminal with a switching of the power supply through the switching unit ( 2 ) reacts to the terminal and puts it in an initial state, and in an on state of the adapter ( 1 ), in which the terminal is connected to the power supply, the receiving part ( 3 ) to a switch-off signal from the remote control with a disconnection of the power supply via the switching unit ( 2 ) responds to the terminal. Adapter ( 1 ) according to claim 1, wherein the disconnection of the power supply via the switching unit ( 2 ) to the terminal has a turn-off delay. Adapter ( 1 ) according to claim 1 or 2, wherein the switching on and disconnecting the power supply via the switching unit ( 2 ) is performed to the terminal using a control signal received from the receiving part ( 3 ) is generated in response to receiving the turn-on signal and the turn-off signal of the remote control of the terminal and to the switching unit ( 2 ) is transmitted. Adapter ( 1 ) according to one of claims 1 to 3, wherein the switching unit ( 2 ) has a switch. Adapter ( 1 ) according to claim 4, wherein the switch is a relay. Adapter ( 1 ) according to one of claims 1 to 5, wherein the receiving part ( 3 ) is an infrared receiver. Adapter ( 1 ) according to one of claims 1 to 6, wherein the receiving part ( 3 ) at least one key ( 3a . 3b ), with the at least one of the switching through and disconnecting the power supply via the switching unit ( 2 ) to the terminal manually by a user is feasible. Adapter ( 1 ) according to claim 7, wherein the at least one key is a first key ( 3a ) and a second button ( 3b ) and by simultaneously pressing the first button ( 3a ) and the second button ( 3b ) a learning mode is activated, in which the turn-on signal and turn-off signal of the remote control of the terminal from the receiving part ( 3 ) can be learned and stored in a memory that holds a stored information without power supply. Adapter ( 1 ) according to one of claims 1 to 8, wherein the switching unit ( 2 ) has a first capacitor power supply that the receiving part ( 3 ) via a cable ( 4 ) supplied with energy. Adapter ( 1 ) according to one of claims 1 to 9, wherein the switching unit ( 2 ) has a second capacitor power supply that the switching unit ( 2 ) supplied with energy. Adapter ( 1 ) according to claim 10, wherein the second capacitor power supply unit comprises the switching unit ( 2 ) only supplied with energy when the power supply via the switching unit ( 2 ) is switched through to the terminal.