DE10317300A1 - Power consumption reducing circuit, for electronic devices in standby mode, periodically receives device specific signal and automatically determines operating mode - Google Patents

Abstract

The circuit to reduce the power absorption of an electronic device (3) comprises a standby circuit (1) which periodically receives (7) and tests a device-specific input signal (8). Depending on the result the switching-off or standby operation of the device is automatically controlled.

Description

The Invention relates to a circuit arrangement for reducing the Power consumption over one a power supply mains and / or battery operated electronic equipment in or into the standby mode of the device.

at the electronic device it is primarily a consumer electronics device such as a television, Satellite receiver, CD player and other device. Most devices consumer electronics, but also devices in other areas equipped with an infrared-based remote control. Around equipment constantly To keep them ready for operation, they are permanently supplied with electricity. The constant electricity consumption, the electrosmog as well as the possibility a fire caused by a defective power supply are the unpleasant ones Side effects caused by holding the devices in standby mode.

Around to counter this problem of high power consumption in standby mode, are already devices or adapter known to reduce standby power. she consist for example of an infrared light receiver, a measuring circuit for detection the power consumption of the connected device and a power supply. The The adapter is connected between the socket and the device. To switch on of the connected device receives the infrared light receiver the remote control command, thereby switching the device to the mains. The next Remote control command then activates the device. If the device is switched on, it over the measuring circuit independent kept on the net. Only if after switching off the device with the Remote control the power consumption below a predetermined value drops it is disconnected from the network again. The disadvantage of such adapters is however, that even with these devices there is a risk of fire cannot be ruled out and this adapter consumes power, possibly even more than the connected one Device.

The The following invention has for its object a circuit arrangement to provide the genus mentioned at the outset that a possible low-current operation can be guaranteed in standby mode, whereby the circuit arrangement for both mains and battery operated devices can be used, and the additional circuitry and ultimately the manufacturing costs should be as low as possible.

This The object is achieved by a circuit arrangement according to claim 1.

According to the invention Circuit arrangement for reducing the power consumption of one over a Power supply mains and / or battery operated electronic equipment provided in or in the standby mode of the device, which a standby circuit assigned to the voltage supply of the electronic device has a device-specific at periodic intervals Receives input signal and checks the input signal for content and purpose, and dependent on The examination of the input signal automatically controls the shutdown or standby mode of the electronic devices.

On important idea of the invention is that the circuit arrangement according to the invention either from home as an integral part of a consumer device, for example a satellite receiver ("SAT receiver") or subsequently in an already manufactured consumer device can be installed. The Advantage of the circuit arrangement according to the invention consists in particular in that a standby shutdown of the consumer device one opposite previously known systems significantly higher electricity and thus cost savings of up to 90%. He inventive circuitry ensures that in a way by switching off a central power supply for the connected Device this can be switched off as soon as the circuit arrangement lacks of a device-specific Input signals detected. The invention is suitable for both network as well as battery operated devices, the specific input signal taking into account the temporal Usage behavior, necessary system reaction times, and necessary device-specific electronic processes be selected can. The circuit according to the invention essentially works in such a way that with the input signal present a periodic short-term test is carried out, at which within the test period a gradual, advanced exam the attached device-specific Input signal information by adding / switching on additional circuit components is made. The applied device-specific input signal is in a predetermined time grid according to content and destination checked, where there is no input signal information, the test within the test time is interrupted. Between the test times, the rest times only a current-minimized pulse generator / timer active. Since the exam for Not always takes place, but in time intervals, and on the other hand not the complete one Circuit arrangement of the test facility must be activated, there are electricity savings in the ratio of Rest / test time (in relation to of for example 1: 9), as well as a small number of activated Test levels within The examination.

To In the present invention, however, a total shutdown takes place the main supply of the device, although the supply for certain parts of the receiving and evaluating electronics of the circuit arrangement according to the invention is maintained.

the Following the principle of the invention, it is further provided that electronic devices over a Remote control or is controllable, and the circuit arrangement has a receiving device, which is the device-specific Received input signal from the remote control.

at An advantageous development of the invention is provided that the standby circuit is one on the power supply of the electronic device Acting switching device is assigned, which switching device when switching off or switching to the standby mode of the electronic equipment is controlled in the sense of a shutdown. This can be an advantage the standby circuit has its own, in particular battery-powered Have power supply.

Further Advantages result from the subclaims.

in the The invention is illustrated below with the aid of a drawing embodiment explained in more detail.

It shows:

1 is a schematic representation of a circuit arrangement according to a preferred embodiment of the invention.

With the in 1 circuit arrangement shown 1 can be operated via a remote control (not shown) 3 can be switched on via the remote control in standby mode.

This in 1 The illustrated embodiment of the invention comprises a circuit arrangement 1 to reduce the power consumption of a mains and / or battery operated and operated via a remote control (not shown in the figure) remote control - or controllable electronic device 3 in or into the standby mode of the device 3 , which is the actual device arrangement 42 and a power supply unit that supplies them with electrical voltage 44 includes. According to the invention is one of the voltage supply or the power pack 44 of the electronic device 3 assigned standby circuit 2 provided that periodically a device-specific input signal 8th received by the remote control and the input signal 8th checks for content and purpose, and depending on the test of the input signal 8th automatically the shutdown or standby mode of the electronic device 3 controls.

The following are details of the electronic standby circuit 2 and explains how they work.

The device-specific input signal coming from the remote control 8th reaches the input of an input stage either via an IR receiver diode (IR) or via an antenna (RF) 7 , and thus arrives at an amplifier part 6 which is the input signal 8th checks for the presence of the device-specific IR or RF input signal within a predetermined but rough bandwidth and also raises it to an evaluable level. This check is carried out periodically within a pulse generator / timer 17 predetermined time interval. The pulse generator / timer 17 is via a supply line 19 from the positive pole 27 a battery 24 fed. Via a supply line 18 the output signal of the pulse generator / timer arrives 17 to the first input of an OR gate 28 , The second input of the OR gate 28 is with the output of the flip flop 20 connected. First, assuming that the flip-flop 20 is not set, one with the input stage 7 coupled switch 30 from the exit 29 of the OR gate 28 via the supply line 29 controlled in the predetermined pulse sequence (ON / OFF), for example rectangular pulse sequence in the manner shown. About the exit 31 of the switch 30 becomes the first stage in this way 6 . 7 an operating voltage is supplied only in the illustrated ON time intervals. In contrast, becomes a possible input signal that fits into the specified grid 8th in the first stage 6 . 7 recognized within the specified test time, the flip-flop is set 20 via a supply line 21 , The output signal 23 of the flip flop 20 arrives at the second entrance 23 of the OR gate 28 and overlays the pulse generator / timer for further testing 17 coming signal 18 , so first the switch 30 from the output of the OR gate 28 via the supply line 29 controlled and the output state ON at the output 31 and thus the operating voltage of the first stage 6 . 7 regardless of the pulse generator / timer for the next test.

The output signal also arrives 23 via a supply line 33 to the control input of a second switch 33 and controls it to the ON state. This will be a second stage 9 from the battery 24 over the entrance 34 to the exit 35 supplied with operating voltage. In the second, selective stage 9 becomes the input signal 8th , if necessary via the level 6 reinforced, via a supply line 10 then coming specifically after Fre frequency, type of modulation etc. checked.

After a successful exam in the first stage 6 . 7 and in the second stage 9 becomes a third switch 39 driven. This is due to the input conditions 12 and 37 an AND gate 36 via the output to the control input 38 the third switch 39 , A third stage 14 is then also from the positive pole 27 the battery 24 from an entrance 40 via the ON controlled switch 39 through an exit 41 supplied with operating voltage. In the third stage 14 the device-specific information is checked and evaluated. In the case of a likewise positive evaluation, an output is sent 15 a disconnector 5 deactivated and thus the power supply from a main power supply 4 (Mains / battery / accumulator) coming to a power supply input 46 of the power supply 44 of the electronic device 3 guided. From the power supply 44 now takes place via the supply line 26 and a diode 25 the supply of the standby circuit 1 and recharging the battery 24 , From the power supply 44 is about the exit 45 the device arrangement 42 fed with the voltage supply necessary for operation. Device-specific operating and control functions (e.g. remote control functions) come from the third stage 14 over a line 43 to the device arrangement 42 ,

In the event of a negative evaluation, that is, in the first stage 6 If no signal matching the grid is recognized, the flip-flop is activated 20 is not set, and the check continues to be carried out periodically. The first test was positive, but the second test in the second stage 9 negative, so the flip flop 20 from the exit 13 the second stage 9 via an OR gate 47 at the reset input 22 reset, and the test continues to be carried out periodically. The first and second tests were positive, but the evaluation in the third stage 14 negative, so the flip flop 20 from the exit 16 the third stage 14 also via the OR gate 47 at the reset input 22 reset, and the test continues to be carried out periodically.

Claims (6)

Circuit arrangement for reducing the power consumption of an electronic device powered by a power supply and / or battery ( 3 ) in or into the standby mode of the device ( 3 ), characterized in that one of the voltage supply of the electronic device ( 3 ) assigned standby circuit ( 1 ) which provides a device-specific input signal at periodic intervals ( 8th ) receives and the input signal ( 8th ) checks for content and purpose, and depending on the test of the input signal ( 8th ) the automatic shutdown or standby mode of the electronic device ( 3 ) controls. Circuit arrangement according to claim 1, characterized in that the electronic device ( 3 ) can be operated or controlled via a remote control, and the circuit arrangement includes a receiving device ( 7 ) which shows the device-specific input signal ( 8th ) received by the remote control. Circuit arrangement according to claim 1 or 2, characterized in that the standby circuit ( 1 ) one on the power supply of the electronic device ( 3 ) acting switching device ( 5 ) is assigned which switching device ( 5 ) when switching off or switching to the standby mode of the electronic device ( 3 ) is controlled in the sense of a shutdown. Circuit arrangement according to claim 3, characterized in that the standby circuit ( 1 ) its own, in particular battery-powered power supply ( 24 ) has. Circuit arrangement according to one of the preceding claims, characterized in that the standby circuit ( 1 ) a test circuit consisting of several circuit components ( 6 . 9 . 14 ) for testing the input signal ( 8th ) and a test circuit that controls the timing of the test of the input signal ( 6 . 9 . 14 ) assigned pulse generator / timer circuit ( 17 ) is provided. Circuit arrangement according to claim 5, characterized in that in the absence of device-specific information of the input signal to be checked ( 8th ) the power supply ( 24 ) of the test circuit ( 6 . 9 . 14 ) or of individual circuit components of the test circuit, and only that of the test circuit ( 6 . 9 . 14 ) assigned pulse generator / timer circuit ( 17 ) is supplied with voltage.