KR101088154B1 - Method and system for managing standby power of electric instruments - Google Patents

Abstract

The present invention relates to a system and method for controlling standby power of an electronic device.

Including an energy management device and a standby power drive device according to an embodiment of the present invention, the system for controlling the standby power of the home appliance in conjunction with the sensor device wirelessly converts the energy conversion signal generated in response to the detection of the entrance and exit from the sensor device Received through communication. In addition, the conversion power is generated using the energy conversion signal, and the conversion power is supplied to the signal transmission unit and the standby power driving device of the energy management device. When the conversion power is supplied to the standby power driving device, the standby power is output using the conversion power for a time set by a predetermined rule according to the state of the electronic device. When the conversion power is supplied to the signal transmission unit of the energy management device, an energy conversion signal is generated using the conversion power and transferred to the peripheral electronic device.

Electronic device, energy conversion signal, conversion power, standby power, energy management device, standby power drive device, sensor device

Description

System and method for controlling standby power of electronic equipment {METHOD AND SYSTEM FOR MANAGING STANDBY POWER OF ELECTRIC INSTRUMENTS}

The present invention relates to a system and method for controlling standby power of an electronic device, and more particularly, to standby of an electronic device by using power generated through energy conversion of a signal. A system and method for controlling power.

Recently, the issue of energy saving has become a global issue, and there is a need for a method that can minimize power consumption. In particular, in the case of electronic devices that are sensitive to power consumption, the need for technology development that can minimize power consumption in the standby state is increasing.

To this end, conventionally, the power consumption is minimized by changing the design of the electronic device to minimize the power consumed by the electronic device in the standby state or by reducing the time for the electronic device to maintain the standby state.

In order to minimize the time to maintain the standby state, the control device requests the electronic device to switch to the standby state by using wireless communication, and the electronic device switches to the standby state after receiving the conversion request signal, thereby the electronic device waits. The time to maintain state can be minimized. However, such a conventional method has a problem in that the electronic device consumes power even when the electronic device waits to receive a corresponding signal from the control device.

To minimize this, the electronic device can reduce power consumption by receiving a corresponding signal by switching from the sleep mode to the active mode at regular intervals. However, as the interval interval becomes longer, the immediate response is difficult, which may cause inconvenience to the user.

The technical problem to be achieved by the present invention is to transmit a signal of the energy conversion form to the electronic device in the sensor device that recognizes the need to drive the standby power of the electronic device, the electronic device to convert the power through the energy conversion of the signal By using the generated conversion power, the standby power can be output according to the state of the electronic device, and the standby power of the electronic device can be minimized by driving the power only to the minimum when the standby power is needed. It relates to a system and a method for controlling.

In the method for controlling the standby power of the electronic device that includes an energy management device and a standby power drive device according to a feature of the present invention for achieving the above object,

Receiving an energy conversion signal generated in response to the detection of the entrance from the sensor device via wireless communication, generating a conversion power using the energy conversion signal, the signal transmission unit of the energy management device and the standby power drive device Supplying the converted power to the standby power, and outputting standby power using the converted power for a time set by a predetermined rule according to the state of the electronic device when the converted power is supplied to the standby power driving device. And when the converted power is supplied to the signal transmission unit of the energy management device, generating the energy converted signal using the converted power and transmitting the converted power to a peripheral electronic device.

In addition, in the system for controlling the standby power of the electronic device in conjunction with the sensor device according to another aspect of the present invention,

An energy management device that receives the energy conversion signal generated according to the detection of the entrance and exit from the sensor device through wireless communication, generates conversion power using the energy conversion signal, and supplies the conversion power, and the energy management device. And a standby power driving device configured to receive the converted power from the controller and output standby power using the converted power for a time set by a predetermined rule according to the state of the electronic device.

According to an embodiment of the present invention, the sensor device that recognizes the need to drive the standby power of the electronic device transmits a signal in the form of energy conversion to the electronic device, the electronic device converts the converted power through the energy conversion of the signal By using the generated conversion power, the standby power can be output according to the state of the electronic device, so that the standby time of the electronic device can be minimized by only driving the standby power only when it is necessary.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

1 is a view schematically showing a system for controlling standby power of an electronic device according to an embodiment of the present invention.

As shown in FIG. 1, a system for controlling standby power of an electronic device according to an embodiment of the present invention includes a sensor device 100 and an electronic device 200-400. Although the embodiment of the present invention shows three electronic devices 200-400, the present invention is not limited thereto, and three or more electronic devices may be included in a system for controlling standby power of the electronic device.

The sensor device 100 includes a detection sensor 110, a power supply 120, a sensor controller 130, and a signal generator 140.

The detection sensor 110 is installed at a place such as a front door or an entrance door, and detects entry and exit using heat, electric light, sound, and the like. In addition, when the entrance sensor is detected, the detection sensor 110 generates an entrance detection signal and transmits the entrance detection signal to the sensor controller 130.

The power supply 120 is set to a wire or a battery, and supplies power for the operation of the sensor device 100.

When the entrance detection signal is transmitted from the detection sensor 110, the sensor controller 130 determines that the entrance and exit has occurred, and requests the signal generation unit 140 to generate the energy conversion signal.

When the signal generator 140 requests the generation of the energy conversion signal from the sensor controller 130, the energy management device 210-410 is switched from the sleep mode to the activation mode in the electronic device 200-400, and thus standby power. The driving devices 220-420 generate an energy conversion signal to generate converted power for outputting standby power. The signal generator 140 transmits the generated energy conversion signal to the electronic device 200-400 using wireless communication. Here, the energy conversion signal is in the form of light or RF (Radio Frequency) such that the energy conversion unit (212-412) of the energy management device (210-410) in the electronic device (200-400) to generate the conversion power Delivered. In the exemplary embodiment of the present invention, the light or RF signal is described as an energy conversion signal, but the present invention is not limited thereto, and the energy conversion signal is an energy conversion signal capable of generating conversion power using an energy collection technology. Can be set.

The electronic devices 200-400 include energy management devices 210-410 and standby power driving devices 220-420, respectively. Since the configuration of the electronic device 200-400 according to the embodiment of the present invention is the same, the energy management device and the standby power driving device using the energy management device 210 and the standby power driving device 220 of the electronic device 200 are described. It demonstrates concretely about.

The energy management device 210 receives an energy conversion signal from the sensor device 100 and generates converted power (energy) using the energy conversion signal. The energy management device 210 includes a signal receiver 211, an energy converter 212, an energy supply manager 213, an interface unit 214, and a signal transmitter 215.

The signal receiver 211 receives the energy conversion signal transmitted from the sensor device 100 and transmits the converted energy signal to the energy conversion unit 212.

The energy conversion unit 212 generates converted power by applying energy harvesting technology to the transferred energy conversion signal, and enables the energy management device 210 to switch from the sleep mode to the activation mode.

In the energy supply manager 213, the converted power generated by the energy converter 212 is supplied to the standby power driving device 220, or the signal transmitter 215 generates an energy conversion signal to the peripheral electronic devices 300-400. Supply and manage the conversion power so that it can be delivered. In addition, the energy supply manager 213 causes the energy management device 210 to switch back to the sleep mode after supplying the converted power.

The interface unit 214 transfers the converted power supplied through the energy supply management unit 213 to the standby power driving device 220.

The signal transmitter 215 converts the energy management devices 310-410 of the peripheral electronic devices 300-400 from the sleep mode to the activated mode using the converted power supplied from the energy supply manager 213. Create and pass

The standby power driving device 220 controls the standby power to be output and cut off by a predetermined rule using the converted power delivered from the energy management device 210. The standby power driving device 220 includes an energy receiver 221, a state determiner 222, and a standby power controller 223.

The energy receiver 221 receives the converted power transmitted from the interface unit 214 of the energy management device 210.

The state determination unit 222 determines whether the power of the electronic device 200 is turned on and off. In addition, the state determination unit 222 determines whether the standby power driving device 220 is maintained in the standby state and the standby power is output. The state determination unit 222 transmits a result of determining whether the power state of the electronic device 200 and the standby power driving device 220 are in a standby state to output standby power to the standby power control unit 223.

When it is determined that the power of the electronic device 200 is OFF, the standby power controller 223 outputs standby power using the converted power for a time set by a predetermined rule to maintain the standby state for a predetermined period. If it is determined to be in the standby state, it is blocked after maintaining the standby state for a predetermined period of time.

2 is a flowchart illustrating a procedure for controlling standby power of an electronic device according to an embodiment of the present invention. Since the configuration of the electronic device 200-400 according to the embodiment of the present invention is the same, the standby power of the electronic device is controlled by using the energy management device 210 and the standby power driving device 220 of the electronic device 200. The order for this will be explained in detail.

As shown in Figure 2, the sensor 110 of the sensor device 100 for controlling the standby power of the electronic device 200 according to an embodiment of the present invention is the entrance or the like is detected at the entrance or entrance In this case, the access detection signal is generated and transmitted to the sensor controller 130 (S200). Then, the sensor controller 130 determines that access has occurred when the entrance detection signal is transmitted, and requests the generation of the energy conversion signal to the signal generator 140. The signal generator 140 transmits the generated energy conversion signal to the electronic device 200 through wireless communication (S210).

In the electronic device 200, the energy conversion unit 212 of the energy management device 210 generates energy by applying energy harvesting technology to the transferred energy conversion signal, and the energy management device 210 sleeps. The mode is switched to the activation mode (S220). The energy supply management unit 213 of the energy management unit 210 is supplied with the converted power generated by the energy conversion unit 212 to the standby power driving device 220 or the signal transmission unit 215 is a peripheral electronic device (300-400) Supply and manage the conversion power to generate and transfer the energy conversion signal), and after the conversion power is supplied, the energy management device 210 is switched back to the sleep mode (S230).

The state determination unit 222 of the standby power driving device 220 that receives the converted power from the energy supply management unit 213 of the energy management device 210 is turned on and off of the electronic device 200. In step S240, the controller determines whether the standby power driving device 220 is in the standby state and outputs the standby power to the standby power control unit 223 (S240). When the power of the electronic device 200 is determined to be OFF, the standby power controller 223 of the standby power driving device 220 outputs standby power by using the converted power for a time set by a predetermined rule. After the standby state is maintained and blocked, if it is determined that the standby state, the standby state is terminated by maintaining the standby state for a predetermined time, and then shutting off (S250).

Meanwhile, the signal transmission unit 215 of the energy management device 210 generates an energy conversion signal using the converted power supplied from the energy supply management unit 213, and transfers the energy conversion signal to the peripheral electronic devices 300-400. The energy management device 310-410 of the electronic device 300-400 is converted from the sleep mode to the activation mode (S260).

As such, the electronic device 200-400 of the system for controlling standby power of the electronic device according to an embodiment of the present invention is an energy collection technology (Energy) to the energy conversion signal generated according to the entrance detection in the sensor device 100 (Energy). Harvesting) is applied to generate converted power, and the generated converted power is used to output standby power for a time set by a predetermined rule to maintain or shut down the standby state so that the standby power is driven to the minimum when necessary. Standby power of the device can be minimized.

The embodiments of the present invention described above are not implemented only through the apparatus and the method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded. Implementation may be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a view schematically showing a system for controlling standby power of an electronic device according to an embodiment of the present invention.

2 is a flowchart illustrating a procedure for controlling standby power of an electronic device according to an embodiment of the present invention.

Claims (13)

In the method for controlling the standby power of the electronic device in conjunction with the sensor device including an energy management device and a standby power drive device, Receiving, by the energy management device, a first energy conversion signal generated according to the detection of entry and exit from the sensor device through wireless communication; Generating energy by applying an energy collection technique to the first energy conversion signal in the energy management device and switching from a sleep mode to an activation mode, When the converted power is supplied to the standby power driving device, outputting standby power using the converted power according to a state of the electronic device in the standby power driving device, and Generating, by the energy management device, a second energy conversion signal using the converted power and transmitting the second energy conversion signal to a peripheral electronic device; Standby power control method comprising a. delete The method of claim 1, The step of outputting the standby power, And switching back to a sleep mode in the energy management device. The method of claim 1, The transferring to the peripheral electronics, Generating the second energy conversion signal using the converted power, and And transmitting the second energy conversion signal to the peripheral electronic device, thereby converting each energy management device of the peripheral electronic device from a sleep mode to an active mode. The method of claim 1, Outputting the standby power, If it is determined that the power of the electronic device is turned off, outputting the standby power using the converted power for a preset time, and then shutting off; and If it is determined that the electronic device is in the standby state, the standby power control method comprising the step of maintaining the standby state for a predetermined time and then blocking. The method of claim 1, The energy conversion signal is, Standby power control method characterized in that it is set to a signal capable of energy conversion to generate the conversion power by using the energy collection technology. The method of claim 6, The energy conversion signal is a standby power control method, characterized in that transmitted in the form of at least one of radio frequency and light. In the system for controlling the standby power of the electronic device in conjunction with the sensor device, The energy management device receives the energy conversion signal generated according to the detection of entrance and exit from the sensor device through wireless communication, generates the conversion power by applying an energy collection technology to the energy conversion signal, and switches from the sleep mode to the activation mode , And Standby power driving device for outputting standby power using the converted power in accordance with the state of the electronic device Standby power control system comprising a. The method of claim 8, The energy management device, A signal transmitter which generates the energy conversion signal using the converted power and transmits the energy converted signal to a peripheral electronic device; and Energy supply management unit for supplying the converted power to the standby power driving device or to the signal transmission unit Standby power control system comprising a. 10. The method of claim 9, The energy management device, The energy supply management unit supplies the converted power to the standby power driving device after the standby power control system, characterized in that to switch back to the sleep mode. The method of claim 8, The standby power driving device, An energy receiver configured to receive the converted power from the energy management device; A state determination unit determining whether power of the electronic device is turned on and off, and determining whether the standby power driving device is maintained in a standby state to output the standby power; and When it is determined that the power of the electronic device is turned off, the standby power is output after the predetermined time by using the converted power, and then shut off. Standby power control system including a standby power control unit for maintaining and blocking. The method according to any one of claims 8 to 11, The energy conversion signal is, Standby power control system characterized in that it is set to a signal capable of energy conversion to generate the conversion power using the energy collection technology. The method of claim 12, The energy conversion signal is a standby power control system, characterized in that transmitted in the form of at least one of radio frequency and light.

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