KR100995013B1 - Lower consumption standby power circuit apparatus for electric apparatus and method for controlling the same - Google Patents

Abstract

A low power standby power circuit device for an electric machine and a control method thereof are disclosed. The low power standby power circuit device of the disclosed electrical equipment, the low power standby power circuit device of the electrical equipment, comprising: a standby power supply stage provided in the electrical equipment to convert the AC power into DC power; A sub micom provided to receive power from the standby power supply terminal; A relay driver controlled by the sub-microcom and provided to receive power from the standby power supply terminal; A main power supply terminal provided to supply power to the system of the electric device through a power switch of the relay driver; A main microcomputer provided to receive power from the main power supply terminal; An infrared light receiving unit mounted to the electric device to receive a signal of a remote controller for wirelessly controlling the operation of the electric device; A power on / off key mounted on the electric device to control the power of the main micom; wherein the main signal is not directly supplied to the main micom from standby power, but is controlled by the control signal of the sub micom. Characterized in that the power is provided to control the microcomputer.

Electric equipment, low power consumption standby power, sub microcomputer

Description

LOWER CONSUMPTION STANDBY POWER CIRCUIT APPARATUS FOR ELECTRIC APPARATUS AND METHOD FOR CONTROLLING THE SAME

The present invention relates to a low power standby power circuit device and a control method of the electrical device, and more particularly to a low power standby power circuit device and an control method of the improved electrical device to reduce the power consumption of the electronic device.

For example, electric devices such as TVs, VTRs, and audios are mainly controlled by remote control systems using a remote controller that enables the remote devices to be controlled remotely without directly controlling the electric devices.

In the remote control system using the remote control, power is continuously applied to some components of the system that receive a signal transmitted from the remote control to receive a signal from the remote control even when the main power of the system is turned off. .

As described above, a state in which power is continuously supplied to some components of a system that receives a signal of the remote controller while the main power is turned off is called a standby mode.

In addition, the remote control system using the remote control as described above, the main power supply for supplying power to the entire system in the system power-on (ON) to reduce power consumption, and the part that requires power supply in the standby mode, that is, the remote control There is an auxiliary power supply that selectively supplies power only to the part receiving the signal, and the power supply is operated differently according to the power status.

In the related art, power is always applied to the microcomputer of the system regardless of the system power ON state and the standby mode state.

On the other hand, in the standby mode of the electric equipment, the main microcomputer, which consumes a relatively large amount of power, consumes power in the operating state in order to recognize an operation state in which the main microcomputer controlling the overall operation of the electric device is turned on. It is a state to do.

In addition, when converting the primary power from the standby power supplying power to the standby circuit using the linear power supply (Linear Power Supply) to the secondary standby power supply to the main microcomputer that consumes a lot of power, the voltage converter The current consumption by the leakage current irrespective of the current supplied to the power supply terminal is relatively excessive.

On the other hand, in the technique disclosed in Korean Patent Laid-Open Publication No. 2007-0006324 (January 11, 2007), it is possible to quickly restart the system when the first standby mode is selected.

However, when the first standby mode is selected, a system power is connected to the main microcomputer, so that low power standby power cannot be expected.

The present invention was created to solve the above problems, the power consumption of the current consumption of the main microcomputer according to the operation of the main microcomputer and the power consumption by the leakage current in the voltage converter (transformer) for supplying power to the main microcomputer. It is an object of the present invention to provide a low-consumption standby power circuit device and a control method thereof for reducing electrical equipment.

The low power standby power circuit device of the electrical equipment of the present invention for achieving the above object, in the low power standby power circuit device of the electrical equipment, the standby power supply is provided in the electrical equipment to convert the AC power into a DC power supply Sweets; A sub micom provided to receive power from the standby power supply terminal; A relay driver controlled by the sub-microcom and provided to receive power from the standby power supply terminal; A main power supply terminal provided to supply power to the system of the electric device through a power switch of the relay driver; A main microcomputer provided to receive power from the main power supply terminal; An infrared light receiving unit mounted to the electric device to receive a signal of a remote controller for wirelessly controlling the operation of the electric device; A power on / off key mounted on the electric device to control the power of the main micom; wherein the main signal is not directly applied to the main micom from standby power, but is controlled by the control signal of the sub micom. It is provided to control the power of the microcomputer,
In addition, the sub micom is characterized in that the memory is provided to receive the information of the state controlled by the main micom to store the information when the power off (OFF).

A low power standby power circuit control method for an electric device of the present invention for achieving the above object, in the low power standby power circuit control method of the electric device, (a) determining whether the power supply state of the electric device is in the standby mode Steps; (b) when the power state of the electric device is in the standby mode in step (a), storing the final system information of the main micom of the electric device in a memory of the sub micom of the electric device; (c) turning off a power switch of the relay driving unit provided in the electric device and controlled from the sub micom; (d) switching the sub micom to a stop mode; (e) determining whether the power of the electric device is turned on; (f) turning on a power switch of the relay driving unit in the sub-microcomm when the power of the electric device is turned on in the step (e); (g) transmitting the final system information of the sub micom to the main micom;
In the step (d), the sub-microcom transition to the stop mode is performed by allocating an input terminal of an infrared light receiving unit and a power on / off key of the electric device to the interrupt port of the sub-microcom in a standby state. It features.

According to an embodiment of the present invention, the power supply ON / OFF function only in the sub-microcom, so that the current consumed by the main micro-com for operating the main micro-com and the standby power supply stage for supplying power to the micro-com (transformer Minimize standby power of the auxiliary power supply by supplying only the minimum current required for the sub-microcom, infrared receiver, and relay driver using burst mode control of Switching Mode Power Supply (SMPS) Let's do it. Therefore, unnecessary leakage current and unnecessary overcurrent for driving the main microcomputer can be prevented to minimize power in the standby state.

In addition, in order to maintain the operation state of the main micom by using the general port of the main micom, which controls the input of the infrared light receiving unit of the main micom and the power on / off key, a large operating current of the main micom is conventionally required. Power consumption can be minimized by using an infrared light receiving unit and a sub-microcom interrupt port that can receive a power on / off key input even when the main microcomputer is not in operation.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a configuration of a low power standby power circuit device of an electric apparatus according to the present invention.

Prior to the description, in FIG. 1, a flow of power is separated and illustrated as a control line and a power line.

Referring to the drawings, a low power consumption standby power circuit device of an electrical apparatus according to the present invention, the sub-microcom 20, the power on / off key (ON / OFF key) 40, the infrared light receiving unit 50, the main power supply ( 60), the relay driver 70 and the main microcomputer 80 is configured.

In more detail, the low power standby power circuit device of an electric machine according to the present invention is provided in an electric machine to convert a wall alternating current (AC) power source (power plug) 1 into a direct current (DC) power source. A standby power supply stage 10, a sub-microcom 20 provided to receive (standby) power from the standby power supply stage 10, and a control signal from the sub-microcom 20, and receiving the standby power supply stage; A relay driver 70 provided to receive power from 10, and a main power supply 60 provided to supply power to the system of the electronic device through a power switch of the relay driver 70. .

The low power standby power circuit of the electric machine according to the present invention is provided to receive power from the main power supply terminal 60 to control each part of the system in the electric machine according to a signal input from a user of the electric machine or a pre-stored program. In order to receive a signal from the main microcomputer 80, the remote control unit 30 to control the operation of the electrical device wirelessly, the infrared light receiving unit 50 mounted on the electrical device, and is mounted on the electrical device of the main microcomputer 80 A power on / off key 40 (ON / OFF key) for intercepting power is provided.

In this case, as shown in FIG. 1, the power of the main microcomputer 80 is controlled through the control signal of the sub-microcom 20 without directly applying power to the main microcomputer 80 from standby power.

In addition, the system power supply of the electric device is composed of a linear power transformer, the standby power supply terminal 10 is composed of a switching mode power supply (SMPS) circuit to prevent unnecessary leakage current.

In addition, the sub microcomputer 20 is provided with a memory 21 for receiving the information of the state controlled by the main microcomputer 80 to store the information when the power is off (OFF).

As described above, the low power consumption standby power circuit device of the electric device according to the present invention, the signal received from the remote controller 30 of the wireless and the signal for receiving the power ON / OFF (ON / OFF) control of the electric device It is a device to reduce the power consumption of the electrical equipment in the standby state for receiving.

To this end, the low power standby power circuit device of the electric device according to the present invention applies the standby power supply terminal 10 and the standby power supply to the sub-microcom to rectify and convert commercial AC power used for the standby power into DC current. It is configured to perform a function to control the signal control to output the power on / off (ON / OFF) control signal and the control information of the main microcomputer (80) when the power on / off (ON / OFF).

Then, when receiving the wireless signal and the power on / off key 40 for power on / off control is switched from the sub-microcom 20 to the stop mode with the power applied. It was used as an interrupt port of the sub-microcom 20 that consumes minimal current while being able to recognize a power on / off signal.

Referring to the low power consumption standby power circuit control method of the electric device according to the present invention by applying the low power standby power circuit device of the electric device having the configuration as described above are as follows.

2 is a schematic flowchart sequentially showing a method for controlling a low power standby power circuit of an electric device according to the present invention.

In the method for controlling the low power standby power circuit of the electric device according to the present invention, as shown in FIGS. 1 and 2, first, it is determined whether the power state of the electric device is in the standby mode.

In this case, when the power state of the electric device is in the standby mode in step 110, the last system information of the main micom 80 of the electric device is stored in the memory 21 of the sub micom 20 of the electric device. (Step 120)

On the other hand, if the power state of the electrical device is not in the standby mode in step 110 is performed again from the step 110.

Subsequently, power is supplied from the standby power supply terminal 10 provided in the electric device to convert from AC power to DC current, and the power switch of the relay driver 70 controlled by the sub-microcom 20 is turned OFF. To turn the power OFF. (Step 130)

The sub micom 20 is then switched to the stop mode (step 140).

In addition, it is determined whether the power of the electric device is ON (step 150).

In this case, when the power of the electric device is turned on in step 150, the power switch of the relay driver 70 is turned on in the sub-microcom 20 (step 160).

Subsequently, the final system information of the sub microcomputer 20 is transmitted to the main microcomputer 80 (step 170).

On the other hand, the switch to the stop mode of the sub micom 20 in step 140, the input terminal of the infrared light receiving unit 50 and the power on / off key 40 of the electric device in the standby state of the sub micom 20 By assigning to an interrupt port.

That is, in the standby state, the sub micom 20 is placed in the stop mode so as not to be performed in the sub micom 20 except for the interrupt signal, thereby minimizing the standby power.

On the other hand, the conventional microcomputer program has a high power consumption because the operation mode or the sleep mode (sleep mode) in the standby state.

When the interrupt operation is described, the sub micom 20 wakes up using the initial pulse among the signals of the remote controller 30 or the input pulse of the power on / off key 40 to operate the main micom 80.

If the power of the electric device is not turned on in step 150, step 150 is performed again.

As described above, the standby power supply terminal 10 using the SMPS supplies power to the sub-microcom 20, the relay driver 70, and the infrared light-receiving unit 50, and the main microcomputer 80 is a main power source that is a switching power source. The power is supplied from the supply terminal 60.

When a signal is received from the power on / off key 40 and the infrared light receiving unit 50 with the power off signal to the sub micom 20, the sub micom receives information on the state controlled by the main micom 80. Received by 20.

In addition, information is stored in the memory 21 of the sub-microcom 20, and the main power switch OFF signal is controlled through the relay driver 70.

The sub microcomputer 20 is switched to the stop mode. As a result, the system is in a standby state.

In addition, the sub micom 20 receives a power on signal from the power on / off key 40 and the infrared light receiving unit 50.

The sub microcomputer 20 controls a power on signal to the relay driver 70.

Thereafter, the stored information from the memory 21 of the sub micom 20 is transmitted to the main micom 80, and the main micom 80 controls the system in a power-on state.

As described above, according to the present invention, a power supply stage that is converted from a wall AC power source to a DC power source, that is, a standby power supply terminal 10 is configured as an SMPS circuit to minimize power consumption due to leakage current, and the sub-microcom 20 In order to detect ON / OFF adjustment of the power switch, the power of the main power supply 60 is turned on / off by receiving the input of the infrared light receiving unit 50 and the power on / off key 40. / OFF) to minimize the current consumed by the sub-microcom 20.

Then, by assigning the input of the infrared light receiving unit 50 and the power on / off key 40 to the interrupt port of the sub micom 20, the sub micom 20 switches to the stop mode to safely turn on the infrared light receiving unit 50 and the power on. By operating the input of the on / off key 40 and switching the sub micom 20 to the stop mode, the current consumed when the sub micom 20 remains in the stop mode is also minimized.

As described above, the present invention describes a low power standby power circuit device and a control method thereof in the standby mode of an auxiliary power supply unit of an electrical apparatus using a system power supply linear power transformer.

In other words, the present invention is a standby power circuit device of an electrical device that requires a relatively fast control of the system by controlling the system by operating the main microcomputer (80) when the power is turned on (ON) in the standby mode. Are distinguished.

The present invention does not apply to, for example, DVD player electrical equipment, which has to be restarted to the state it was in, for example, the moment it is turned on again after the power is turned off. The present invention describes a standby power circuit device such as a refrigerator and a washing machine, which does not require a fast control time in an audio, TV or system restart requiring system stability, and a control method thereof.

In addition, the present invention is capable of controlling a low power standby power circuit at all times without being limited to the state of the first and second standby modes as described in the above-described Korean Patent Publication No. 2007-0006324 (January 11, 2007).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. . Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a configuration diagram schematically showing a configuration of a low power standby power circuit device of an electric machine according to the present invention.

2 is a flow chart sequentially showing a method for controlling a low power standby power circuit device of an electrical apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

10. Standby power supply

20. Sub Microcom

21.Memory

30. Remote Control

40. Power on / off key

50. Infrared light receiver

60. Main power supply

70. Relay drive unit

80. Main Microcomputer

Claims (5)

In the low consumption standby power circuit device of the electrical equipment, A standby power supply terminal provided in the electric device to convert AC power into DC power; A sub micom provided to receive power from the standby power supply terminal; A relay driver controlled by the sub-microcom and provided to receive power from the standby power supply terminal; A main power supply terminal provided to supply power to the system of the electric device through a power switch of the relay driver; A main microcomputer provided to receive power from the main power supply terminal; An infrared light receiving unit mounted to the electric device to receive a signal of a remote controller for wirelessly controlling the operation of the electric device; And a power on / off key mounted to the electric device to control the power of the main microcomputer. At this time, the power of the main microcomputer is controlled through the control signal of the sub-microcom without directly applying power to the main microcomputer in standby power. And the sub-microcom is provided with a memory for receiving the information of the state controlled by the main micro-com and storing the information when the power is turned off. delete delete In the low power standby power circuit control method of an electrical device, (a) determining whether a power state of the electric device is in a standby mode; (b) when the power state of the electric device is in the standby mode in step (a), storing the final system information of the main micom of the electric device in a memory of the sub micom of the electric device; (c) turning off a power switch of the relay driving unit provided in the electric device and controlled from the sub micom; (d) switching the sub micom to a stop mode; (e) determining whether the power of the electric device is turned on; (f) turning on a power switch of the relay driving unit in the sub-microcomm when the power of the electric device is turned on in the step (e); (g) transmitting the final system information of the sub micom to the main micom; In addition, in step (d), the sub-microcom transitions to the stop mode, And assigning an input terminal of an infrared light receiving unit and a power on / off key of the electric device to the interrupt port of the sub-microcom in a standby state. delete

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