DE19736993A1 - Power supply switching method for electrical equipment plug - Google Patents

Abstract

The method involves evaluating an infrared signal (14) which is received by an infrared receiver (6) using a microprocessor (12). The infrared signal is transmitted from an infrared remote controller (9) by actuating one of the keys and stored in a corresponding code. A following received signal is evaluated by the microprocessor and checked if the signal corresponds to the stored code. When the code corresponds to the signal a switching unit (11) is closed when open and opened when closed. The switching unit connects a plug with the mains voltage.

Description

The invention relates to a method for switching the mains voltage on and off a switch-off provided socket in which the power plug of an electri The device can be plugged in, the shutdown device being connected to the Mains voltage can be connected and the switch-off device is a switching unit for connecting the socket with the mains voltage and to disconnect the mains voltage from the socket and has an infrared receiver.

Furthermore, the invention relates to a shutdown device for an electrical device with a Mains plug for connecting to the mains voltage, a socket into which the mains plug the device can be plugged in, an infrared receiver and a switching device for ver bind the socket with the mains voltage and to disconnect the socket from the mains tension.

Such a method for switching the mains voltage on and off and such a type Switching devices are already known and are used to reduce the standby power of devices in stand-by mode, which is usually in the range of 5 to 30 watts and therefore represents a not insignificant energy consumption. The shutdown device monitors the current of the connected device. If this drops below a given one threshold (the value between the current in the active state of the device and the Stand-by current), the shutdown device opens after a certain time (e.g. 1 Minute) a switching unit and thereby separates the mains voltage from the connected Ge advises. The shutdown device also has an infrared detector. If this receives a be any infrared signal over a period of time that is longer than a preset value (e.g. 2 seconds), the switching unit is closed and the device is in turn electrical voltage supplied.

The object of the invention is, in contrast, an improved method of ge to provide named type, in which the switch-off device selectively to the IR remote control or the button on the IR remote control responds, no switching threshold values have been set with the button on the IR remote control to switch the Ge advised only for a short time and which also for devices without a stand by mode or for devices that cannot be operated remotely.

According to the invention, this is achieved in a method of the type mentioned at the outset in that received by a microprocessor of the shutdown device from the infrared receiver Infrared signal, which is from an IR remote control by pressing one of their  Keys has been sent out, is evaluated and correspond to this infrared signal the code is stored and that one is subsequently received by the infrared receiver gene infrared signal this is evaluated by the microprocessor and checked whether it corresponds to the stored code, and if so, the switching unit from the Mikropro processor is closed if it is open and opened if it is closed.

The switching unit is only opened and closed when it is already in the learning cycle button used on the IR remote control is pressed again. With other buttons this IR remote control or other types of IR remote controls no change in the switching state of the shutdown device. By the invention Process, the power loss of devices in stand-by mode is minimized and it can Furthermore, devices that cannot be remotely controlled are switched on and off remotely be switched.

A shutdown device with which the inventive method can be carried out realized by the features of claim 8.

From DE-OS 42 42 231 a remote control system with access security is already known become, in which an identification code can be stored in the remote control receiver, so that subsequently only an authorized person remotely controls the functions of the receiver can trigger. This remote control device is not generic with a shutdown Device according to the preamble of claim 1, which is a socket for the network Has plug of an electrical device and a mains plug with the mains voltage connection is connectable. Furthermore, the feed-in serves in the establishment of DE-OS 42 42 231 saved code as an identification code to check the authorization, while at Ab switching device of the invention is stored in the learning cycle of the control code itself. Only in this way can a switch-off device according to the invention be provided, where any selectable key of an existing remote control as a control can be used for the shutdown device. At the remote control device DE-OS 42 42 231, however, have special, for the remote control receiver shown there ger suitable remote control transmitters are used, which in addition to the function information also broadcast an information code, the information code being such must be recognized as such by the recipient.

Further advantages and details of the invention will become apparent in the following with the help of the enclosed ing drawing explained.  

In this shows:

Fig. 1 is an electrical device that is inserted into a shutdown device that works according to the method according to the invention and Fig. 2 is a block diagram of such a switch-off device.

As shown in Fig. 1, the power plug 1 of the electrical device 2 to be switched on and off is plugged into a socket 3 of the switch-off device 4 . The shutdown device 4 can be connected to the mains voltage via a mains plug 10 . Furthermore, the shutdown device 4 has a housing 5 in which an infrared receiver 6 and a button 7 are seen before, which are connected via a cable 8 to the other components of the shutdown device 4 . In principle, the infrared receiver 6 and the button 7 could also be installed in the housing of the shutdown device. The shutdown device 4 can in principle be controlled with any IR remote control 9 . If the device 2 to be switched can itself be operated remotely, it will be useful to use the IR remote control 9 belonging to this device 2 .

A block diagram of the shutdown device 4 is shown in FIG. 2. The voltage present on the power plug 10 is separable mains voltage supplied via a switching unit 11 of the socket 3 or from the socket. 3 The switching unit 11 can be closed or opened by a microprocessor 12 . The signals from the infrared receiver 6 and the button 7 are fed to the microprocessor 12 as input signals. To provide the supply voltage for the microprocessor 12 and for the infrared receiver 6 , a power supply 13 is provided.

The function is now the following: After plugging the power plug 10 of the shutdown device 4 into a socket that is under mains voltage, a learning cycle is carried out first. For this purpose, the user presses a desired button of the IR remote control 9 and directs the emitted infrared signal 14 onto the infrared receiver 6 . The received by the infrared receiver 6 of the infrared signal 14 is counted by the microprocessor 12 and a signal 14 corresponding to the infrared code is stored. For this purpose, on the one hand, the internal RAM memory of the microprocessor 12 can be used, on the other hand, it can be provided to use an extreme memory module (e.g. also EEPROM).

Receives the infrared receiver 6 in the sequence again an infrared signal 14 , this is evaluated by the microprocessor 12 and Chen compared with the code of the stored signal. In the case of equality, the microprocessor 12 actuates the switching unit 11 so that it, if it was previously open; is now closed, and if this was previously closed, is now opened. Switching of the switching unit 11 can also be carried out manually using the button 7 .

If a remote-controlled electrical device 2 , which has a standby mode, for example a television set, is to be switched on and off with the shutdown device 4 , it is advantageous if the standby button of the IR remote control is present in the learning cycle device 2 is used. If the switched-on device 2 is then switched off via the standby button of the IR remote control 9 , the device is completely disconnected from the power supply by the switch-off device 4 by opening the switching unit 11 . The power loss that otherwise occurs in stand-by mode, which is usually in the range 5 to 30 watts, is largely avoided since only the very energy-saving electronics of the switching device 4 remain on the network. To switch on the device, the stand-by button of the IR remote control 9 is pressed again, whereupon the device is switched to the stand-by mode by closing the switching unit 11 . All subsequently transmitted infrared signals 16 are interpreted by the electrical device 2 in the usual way.

Another function of the shutdown device 4 is that when the switch unit 11 is open, the microprocessor 12 closes it from time to time, for example every 12 hours, for a short time, for example a few tenths of a second. This prevents information stored in the RAM of the electrical device, such as certain set storage locations, from being lost.

The implementation of a new learning cycle, ie the deletion of the code stored in the switch-off device 4 , which corresponds to a specific infrared signal, and the storage of a new code can be provided in different ways. A first possibility would be that the switch-off device 4 is disconnected from the mains voltage, whereupon the information stored in the RAM is lost and a new learning cycle can be carried out after the switch-off device is reconnected to the mains voltage. Another possibility is that a switch on the shutdown device 4 is switched to "learning". The last code that is sent remains stored. Another possibility would be that any key of the IR remote control 9 is pressed for a period of time which is longer than a predetermined value, whereupon a learning cycle is carried out and a code which corresponds to the infrared signal 14 of this key is stored.

Reference list

1 power plug
2 electrical device
3 socket
4 switch-off device
5 housing
6 infrared receivers
7 buttons
8 cables
9 IR remote control
10 power plugs
1 1 switching unit
12 microprocessor
13 power supply
14 infrared signal.

Claims (10)

1.Method for switching on and off the mains voltage of a socket provided in a switch-off device, into which the mains plug of an electrical device can be inserted, the switch-off device being connectable to the mains voltage via a mains plug and the switch-off device being a switching unit for connecting the socket to the mains voltage and for disconnecting the mains voltage from the socket and an infrared receiver, characterized in that from a microprocessor ( 12 ) from the switching device from an infrared receiver ( 6 ) received infrared signal ( 14 ), which by an IR remote control ( 9 ) by actuation a is sent out from their keys, is evaluated and this infrared signal is stored (14) corresponding code and that in a subsequently received by the infrared receiver (6) infrared signal (14), this is evaluated by the microprocessor (12) and it is checked whether it the saved Co de corresponds, and if this is the case, the switching unit ( 11 ) is closed by the microprocessor ( 12 ) if it is open and is opened if it is closed. 2. The method according to claim 1, characterized in that in the open state of the switching unit ( 11 ) this is periodically closed by the microprocessor ( 12 ) for a short time. 3. The method according to any one of claims 1 and 2, characterized in that the switching unit ( 11 ) is alternatively opened or closed manually via a button ( 7 ). 4. The method according to any one of claims 1 to 3, characterized in that for switching on and off a remote-controlled electrical device ( 2 ) which has a standby mode, the standby button of the IR remote control in the learning cycle ( 9 ) of the device ( 2 ) is used. 5. The method according to any one of claims 1 to 4, characterized in that for carrying out the learning cycle, the first received infrared signal ( 14 ) after connecting the switching device ( 4 ) is used with the mains voltage. 6. The method according to any one of claims 1 to 5, characterized in that a corresponding (additional) switch on the shutdown device ( 4 ) is actuated to carry out a learning cycle. 7. The method according to any one of claims 1 to 6, characterized in that each time an infrared signal ( 14 ) is received for a period that is longer than a pregiven value, a learning cycle with this infrared signal ( 14 ) is carried out. 8.Switch-off device for an electrical device with a mains plug for connecting to the mains voltage, a socket into which the mains plug of the device can be inserted, an infrared receiver and a switch unit for connecting the socket to the mains voltage and for disconnecting the socket from the mains voltage, characterized in that a microprocessor ( 12 ) is provided for evaluating and storing a first infrared signal received by the infrared receiver ( 6 ) in a learning cycle known per se and for comparing a second infrared signal received by the infrared receiver ( 6 ) with the first stored infrared signal, wherein the switching unit ( 11 ) at the same unit of the second infrared signal with the first infrared signal from the microprocessor ( 12 ) can be opened or closed. 9. Switch-off device according to claim 8, characterized in that a button ( 7 ) for ma manual opening and closing of the switching unit ( 11 ) is provided. 10. Switch-off device according to one of claims 7 and 8, characterized in that in the open state of the switching unit ( 11 ) it is automatically closed for a short period of time.