WO1998001994A1 - Power saving circuit for an electronic device, and process for control thereof - Google Patents

Abstract

The invention relates to a power saving circuit (1) for an electronic device (2) in the field of consumer electronics which can be controlled by common infrared remote control means (3), and can operate in normal mains-operated mode and standby mains-operated mode. A power saving mode is also used in said circuit, the electronic device (2) being separated from the mains. The power saving circuit can be connected upstream, as separate means, to the electronic device in the mains supply. Said circuit has an independent IR receiver (9) which is not part of the electronic device and is used to receive control signals from the infra-red remote control means (3), and a power measuring device for measuring mains power of the electronic device (2) with a threshold circuit for detecting standby mode on the basis of the mains power measured and a switching threshold value. Said power saving circuit is advantageous because it is very easy to use anywhere irrespective of the device used.

Description

Power saving circuit for an electronic device and method for controlling the same

The invention relates to a power-saving circuit for an electronic device in entertainment electronics or in the office, which can be controlled by a common infrared remote control and which is provided for a mains-powered normal operation, a mains-powered standby operation and a power-saving operation essentially separated from the mains , and a method for controlling the same according to claim 9.

Many modern electronic devices, in particular entertainment electronics devices such as television receivers, operate today with a mains-fed normal operation and a likewise mains-operated standby operation. During standby mode, the electronic device must be able to recognize a command sent by a remote control unit and switch the electronic device to normal operation. The standby mode therefore serves on the one hand to keep the electronic device in a ready position in order to be able to switch back to normal operation with as little delay as possible, on the other hand one naturally also wants to keep the power consumption as low as possible in this operating mode. In practice, it has been shown that operating an electronic device in a standby mode of this type - as is commonly used today in many television sets - still has a number of disadvantages.

On the one hand, the power consumption, for example of television sets, is still relatively large in standby mode, since it is in the range of approx. 10 to 40 watts, depending on the size of the device. In view of the increasingly scarce energy resources and the large number of television sets, operating worldwide, it appears as a huge waste of energy, especially since many TV sets are often left on carelessly. On the other hand, with a large number of television sets that are not completely switched off, there is a risk of fire or implosion, which is not dramatic, but is latent. Environmentally conscious circles also point out the danger of "electrosmog", namely the presence of health-damaging electrical or magnetic fields, especially when electronic devices are not completely switched off.

Solutions are known which attempt to overcome these disadvantages. For example, EP-A 0 610 700 shows a power supply for a consumer electronics device, in particular a television receiver that can be controlled by an infrared remote control, or a video device in which an energy-saving mode (a so-called “eco mode”) is provided that is essentially separate from the network . In the eco sense, the power consumption from the network should be increased during standby operation. The described power-saving circuit is fully integrated into the entertainment electronics device, which has the disadvantage that users of devices that are not equipped with this circuit - probably the vast majority of all television sets in operation - only by purchasing an (expensive) new device could benefit from the advantages mentioned. With this circuit, only the remote control receiver and the filter connected to its output are supplied with operating voltage in power-saving mode. The filter detects the receipt of a code assigned to the electronic device and then activates the microprocessor controlling the electronic device. The circuit also has the disadvantage that it cannot be easily integrated into television sets from a wide variety of manufacturers, since the filter and microprocessor control are different due to the different unit circuits. usually also have to be designed very differently individually.

The object of the invention is to provide a power-saving circuit for an electronic device of entertainment electronics or in the office area and a method for controlling the same for electronic devices of various origins that can be controlled by a common infrared remote control and for one mains-fed normal operation and a mains-powered standby operation are provided, are readily applicable. The electronic device should be completely disconnected from the mains in a power-saving mode.

This object is achieved by the features specified in the characterizing part of independent claims 1 and 9.

The solution is essentially based on the fact that the power-saving circuit can be connected upstream of the electronic device to be controlled as a separate device and that the mains-powered device

Standby operation by measuring the mains current and by comparison with a switching threshold value is detected, that when the mains-powered standby operation is recognized, after a delay time, the system automatically switches to the power-saving mode, which is essentially separated from the mains, and that control signals from the control unit are switched on or on again Infrared remote control can be received.

The main advantage of the invention is that the power-saving circuit can easily be used in connection with various electronic devices that can be operated by common infrared remote controls, but mainly with a large number of different television sets, and that neither on the television sets nor on the

Power saving circuit any changes are necessary. Another advantage of the invention lies in the simplicity of the circuit, which does not require any intervention in the often microprocessor-controlled circuit of the electronic device. In addition, the contemporary requirements for minimal energy consumption and protection against unnecessary electrosmog are largely met with the present invention.

An exemplary embodiment of the solution according to the invention is explained in more detail below with reference to drawings. Show it

Fig. 1 shows the interconnection of power-saving circuit, electronic device and infrared remote control, and

Fig. 2 is a block diagram of the power saving circuit.

1 shows the basic interconnection of a power-saving circuit 1 according to the invention, an electronic device 2 (for example a television set) and an infrared remote control 3. The power-saving circuit 1 is connected to a power socket 5 via a power cord and a power plug 4. The electronic device 2 is connected via the device's own power cord to the socket 6 for the electronic device at the power saving circuit 1. The electronic device 2 has, as usual, a power switch 7 and, since it can be remotely controlled via the infrared remote control 3, an IR receiver 8. The power-saving circuit 1 also has an IR receiver (which is independent of the electronic device) 9, which also serves to receive the signals from the infrared remote control 3. In operation, the two devices are set up in such a way that both IR receivers 8, 9 always receive the signals from the infrared remote control 3. With regard to the functional description, the designations signal path A are still used by the infrared remote Service 3 for power saving circuit 1 and signal path B from the infrared remote control 3 to the electronic device 2 introduced.

FIG. 2 shows a block diagram of the power-saving circuit 1. The mains voltage is supplied from the mains plug 4 via a current measuring device 10 and switching contacts of a mains relay 11 to the socket 6 for the electronic device 2. A network fuse 12 and / or an overvoltage protection 13 can optionally be present in this path. The current measurement essentially consists of a resistor, across which the voltage drop is measured and whose signal, which is proportional to the measured mains current I _n, is fed to evaluation electronics 14. The evaluation electronics 14 are fed by a power supply unit 15. A current threshold setting 16, which can be designed for a fixed or a variably adjustable switching threshold value, is also connected to the evaluation electronics 14. In addition, the IR receiver 9 is connected to the evaluation electronics 14 via an IR threshold circuit 17. Optionally, an additional switch 18 can be provided for the changeover to continuous operation, ie for the normal function of the electronic device without energy-saving operation. In continuous operation, the network relay 11 remains switched on. Optionally, a status display 19 for operation and a status display 20 for standby operation, both preferably in the form of light-emitting diodes, may also be present. The latter are preferably arranged behind a filter plate (not shown), behind which the IR receiver 9 is also located. In a basic configuration without the additional switch mentioned, the power-saving circuit therefore does not require any operating elements. Operating principle of the power saving circuit:

Basically, it is a matter of detecting the standby mode of the electronic device and automatically switching to the energy-saving mode after a delay time when it occurs. It is assumed that all devices that work in a standby mode have a significantly reduced power consumption compared to normal mode and thus a correspondingly reduced mains current I _n . The recording power in standby mode for TV sets, depending on the size of the model, is in the range of approx. 10 to 40 watts. It can also be assumed that in normal operation there is an additional power consumption of at least 100 watts, which of course depends on the size of the model. Thus, with a relatively large tolerance, the statement can be made that when the power consumption falls below approx. 60 - 70 watts, the electronic device was switched to standby mode. The current threshold position 16 can therefore be preset accordingly.

In addition, the condition must of course also be met that the power-saving circuit should be able to recognize a command sent by the infrared remote control and switch the device on again. Since infrared remote controls basically work according to the same functional principle, but of course with different pulse lengths and codings, but it is only a matter of detecting a valid or an evaluated IR remote control command, a relatively simple detection circuit can also be used here. This function is taken over by the IR threshold circuit 17. The IR threshold circuit can, for example, be constructed in such a way that the charge of a capacitor is changed by the incoming pulse series from the IR receiver 9 in such a way that the am

Capacitor measured voltage when falling below a - 1 -

the threshold value triggers a switching pulse in a downstream operational amplifier stage and thus signals the evaluation electronics 14 that an IR remote control command to be evaluated has arrived. By appropriately pre-setting the trigger threshold, the desired signal can be generated for almost all common infrared remote controls from various manufacturers. Currently known exceptions are only Bang & Olufson devices, whose switching pulses are extremely short.

Functional description of the power saving circuit:

It is assumed that the devices according to FIG. 1 are interconnected and the power switch 7 of the electronic device is always in the ON position. It is also assumed here that the electronic device is a television set.

a) Turn on the TV:

First, the network relay 11 is switched off. The television set is therefore disconnected from the network. If a command is sent via the infrared remote control 3, since the signal path B from the infrared remote control to the television set is not active, it is only transmitted via the signal path A from the infrared remote control to the power-saving circuit A. If the command from the infrared remote control 3 is recognized by the IR threshold circuit as a valid command or a command to be evaluated, the evaluation electronics 14 switch on the mains relay 11 and thus the television set into the standby mode. A command from the infrared remote control 3 can be a valid or evaluated command. If, for example, any channel button is then pressed, the television switches on the corresponding channel, since signal path B from the infrared remote control to the television is now also active. The evaluation electronics 14 recognizes on the basis of the measured mains current I _n that the television is now in normal operation and, with a hold circuit, causes the mains relay 11 to remain switched on. If, on the other hand, no further command is received from the infrared remote control, the evaluation electronics automatically switch from standby mode to energy saving mode after a delay of about 15 seconds, for example.

b) Turn off the TV:

First, the network relay 11 is switched off and it is assumed that the television is in normal operation. If the television set is now switched from the infrared remote control to the standby mode via the signal path B, the power-saving circuit recognizes this operating state on the basis of the measured mains current I _n . When the standby mode starts, the evaluation electronics again checks whether, within the delay time of 15 seconds, it is possible to switch back to a channel. If this is not the case, the evaluation electronics switch back to the power saving mode by switching off the mains relay 11.

The television set is therefore completely disconnected from the network by the economy circuit described. By means of the aforementioned presettings for the current threshold setting 16 and for the IR threshold circuit 17, a simple, plug-in power saving circuit can be made available which in the simplest case does not require any external control elements and which is therefore also extremely easy to use and operate st.

As already mentioned, however, it is possible to provide the device with an additional switch 18 for continuous operation. The additional switch then has a kind of bypass function because it allows normal operation of the electronic device bypassing the power saving function (the mains relay 11 remains switched on continuously).

The current threshold setting 16 can be fixed or variable. The latter can be advantageous if, for example, not only a television, but also a video or satellite system has to be switched on and off with the power-saving circuit. With additional devices to be switched, the power requirement in standby mode and of course the current threshold to be set also change.

The power-saving circuit can also be constructed such that, in addition to the IR receiver 9, there is a preferably potential-free input (not shown). This ensures that the switching on of the electronic device 2 can also take place via a button or a relay or the like.

The illustrated invention is of course not only suitable for electronic devices in the consumer electronics sector, but also for devices of the type mentioned in the office sector, for example for printers, which in principle only have to be fully operational when required.

Claims

Claims: 1. Power saving circuit 1 for an electronic device 2 of entertainment electronics or in the office area, which can be controlled by a common infrared remote control 3 and which is provided for a mains-powered normal operation, a mains-powered standby mode and a power-saving mode essentially separated from the network that the power-saving circuit 1 can be connected upstream of the electronic device 2 in the power supply as a separate device, has an independent IR receiver 9, which does not belong to the electronic device 2, for receiving control signals from the infrared remote control 3 and via a current measuring device 10 for measurement of the mains current of the electronic device and a threshold circuit for detecting the standby mode based on the measured mains current and a switching threshold value. 2. Power-saving circuit according to claim 1, characterized in that the threshold circuit is designed for a fixed switching threshold. 3. Power-saving circuit according to claim 1, characterized in that the threshold circuit is designed for a variably adjustable switching threshold. . Power-saving circuit according to claim 1, characterized in that an additional switch 18 is provided with which the electronic device 2 can be switched on continuously 5. Power-saving circuit according to claim 1, characterized in that a status display 20 of the standby Operation is present. 6. Power saving circuit according to claim 1, characterized in that a status display 19 of the operation is present. 7. Power-saving circuit according to claim 1, characterized in that a mains fuse 12 and / or an overvoltage contactor 13 is present. Power-saving circuit according to claim 1, characterized in that in addition to the IR receiver 9 there is a potential-free input. 9. A method for controlling a power saving circuit 1 according to claim 1 for an electronic device 2 of entertainment electronics or in the office area, which can be controlled by a common infrared remote control 3 and for a mains-fed normal operation, a mains-powered standby mode and essentially Electricity-saving operation separate from the mains is provided, with the system switching from the mains-powered standby operation to an essentially separate power-saving operation in order to save energy, characterized in that the mains-powered standby operation by measuring the mains current and by comparison with a switching threshold value it is detected that upon detection of the mains-powered standby mode, after a delay time, the system automatically switches over to the power-saving mode, which is essentially separated from the network, and that control signals are received by the infrared remote control for switching the electronic device on or on again rden.