KR20120019782A - Standby power circuit breaker system and method for driving the same - Google Patents

Abstract

PURPOSE: A standby power circuit breaker system and a driving method thereof are provided to minimize a design area by implementing an RF transmission and reception function and an MCU function through a single chip. CONSTITUTION: A power input unit(10) receives an AC signal. A protection circuit(11) stably transmits the AC signal by protecting the inputted AC signal. A current sensing unit(13) senses an amount of currents supplied to a load electronic device(21). A signal processing unit(15) compares the current outputted from the current sensing unit with a breaking current. A communication control unit(14) and the signal processing unit comprise a main control unit(16). A power interruption reset switch unit(12) interrupts AC power. An ID setting unit(18) converts AC power into DC power. An AC/DC converter(19) sends the first current power and the second current power to the signal processing unit of the main control unit. A load switch(20) is installed between the current sensing unit and the load electronic device.

Description

Standby Power Circuit Breaker System and method for driving the same}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a standby power cutoff, and in particular, a standby power cutoff system capable of turning off the power of a standby power cutoff device as well as a load electronic device (a power consumption product such as a home appliance) and preventing current consumption. It relates to a driving method.

Recently, with the rapid development of analog and digital technology, electronic products with advanced functions are rapidly spreading in our homes and workplaces.

However, the increase of such electronic products is increasing the use of power, especially home appliances such as TVs, refrigerators, washing machines, air-conditioning appliances, etc. (for reference, home appliances are electrical appliances that consume power) Even if the power cord is not used, the standby power is consumed due to the absence of the power plug, resulting in a national loss of KRW 3.5 trillion annually.

In other words, home appliances that are widely used in homes are mainly made of remote control products that provide memory functions such as time and operation reservation, and the inconvenience of having to plug and unplug the power supply every time the user recognizes the waste of power. Therefore, most homes are left unplugged from home appliances even when not in use.

Therefore, in order to reduce the wasted standby power, there is a problem that each consumer has to take the inconvenience of unplugging the home appliance whenever the home appliance is not used.

On the contrary, in the plugged-in state in order to respond to the remote control reception signal, there is a problem that a constant standby power (standby power consumed for each electric appliance is different and is usually in the range of 4 to 10 W / h) continues to be consumed.

Thus, in the related art, a standby power blocking device may be used to cut off standby power when the home appliance is not used. However, in this case, since power for continuously driving the standby power cut-off device itself is consumed additionally, there is a problem that its effectiveness is inferior.

The present invention has been proposed to solve the problems according to the prior art, and provides a standby power cut-off system and a driving method thereof capable of preventing current consumption by turning off the power of the standby power cut-off system itself during standby. Its purpose is to.

Standby power cut off system of the present invention for achieving the above object is a power input unit to which an AC signal is input; A protection circuit for stably transferring the signal input from the power input unit; A current sensing unit for sensing and outputting an amount of current to be transmitted to the load electronics; A signal processing unit which receives a current amount output from the current sensing unit and outputs a control signal by comparing with a blocking current; A communication controller constituting a main controller together with the signal processor, the communication controller implementing RF transmission / reception functions while exchanging signals with the signal processor; A power interruption reset switch unit having a function of interrupting or energizing main power by receiving a control signal of the signal processor; An AC / DC converter for converting AC power into DC power and outputting first and second DC power to the ID setting unit and the signal processing unit, respectively; And a load switch provided between the current sensing unit and the load electronic device so that opening and closing is controlled by receiving a remote control signal of the signal processing unit.

In the method of driving the standby power cut-off system having the above configuration, when it is determined that the RF signal is not received when the power is turned on, the signal processing unit determines whether the initialization is completed, and when the initialization is completed, Determining whether the cutoff current is detected by the signal processor for more than a predetermined time, and driving the device control mode to cut off the main power by receiving a control signal of the signal processor when the cutoff current is detected for more than a predetermined time; And when it is determined that the RF signal is received, when the power is on, setting the cutoff current or controlling the load switch according to the RF signal, and when the load switch is on Determining whether the signal processing unit detects whether the initialization has been completed; if determining that the initialization has been completed, determining whether the blocking current is detected for more than a predetermined time, and if the blocking current is detected for more than the predetermined time, Receiving a control signal of a signal processor and driving the remote control mode to block the load switch.

The standby power cut-off system and its driving method according to the present invention described above has the following effects.

First, when the home appliance does not operate in the device control mode, it is possible to cut off the power of the standby power cut-off system itself to prevent current consumption.

Second, since a communication control unit that implements RF transmission and reception functions and MCU functions in a single chip is provided, the design area can be minimized.

Third, it can be applied as a central management system that centrally controls / controls the load electronic devices in the remote control mode. In addition, there is an effect that it can be conveniently operated with a remote control when recognizing the blocking current to the load electronics.

1 is a block diagram of a standby power cut-off system according to the present invention.
2 is a conceptual diagram schematically showing an operation mode of a standby power cut-off system according to the present invention.
3 is a flowchart illustrating the operation of the standby power cut-off system according to the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the technical idea of the present invention.

First, a configuration of a standby power cutoff system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a standby power cut-off system according to the present invention.

The present invention not only prevents the standby power of the load electronic device from being consumed through the standby power blocking system, but also controls the power consumption of the standby power blocking system itself.

Standby power interruption system according to the present invention for achieving the above object, as shown in Figure 1, the power input unit 10, the protection circuit 11, the power off reset switch unit 12, the current sensing unit ( 13), a main control unit 16 composed of a communication control unit 14 and a signal processing unit 15, a user input switch 17, an ID setting unit 18, an AC / DC conversion unit 19, and a load switch 20. And a load electronic device 21.

When the standby power cut-off system of the present invention configured as described above in more detail, the power input unit 10, the AC signal is input, and the protection circuit 11 for protecting and stably transmitting the input AC signal And a current sensing unit 13 for sensing and outputting an amount of current to be transmitted to the load electronic device 21, and a signal processing unit for receiving an amount of current output from the current sensing unit 13 and comparing it with a blocking current. (15) and the main control unit 16 together with the signal processing unit 15, and receives a signal output from the signal processing unit 15 to implement a RF transmission and reception function and a MCU function at the same time ( 14), a power-off reset switch unit 12 having a function of interrupting or energizing AC power as a main power by receiving the control signal of the signal processor 15, and converting AC power to DC power. ID setup by Receives a remote control signal from the AC / DC converter 19 and the signal processor 15 to send the first and second DC power to the signal processor 15 of the main controller 18 and the main controller 16, respectively. It is composed of a load switch 20 provided between the current sensing unit 13 and the load electronic device 21 to control the opening and closing.

Among the above components, the protection circuit 11 is composed of protection means such as a surge protector and a noise filter. Among them, the surge protector includes an overvoltage, overcurrent, lightning, noise, and the like, which are severely changed in a short time through an AC input power source. It is a device that prevents surge voltage from flowing into electronic equipment. Surge voltages come in a variety of forms, including switching surges, switching surges, nuclear electromagnetic pulses, and lightning surges.

In addition, the power cutoff reset switch unit 12 serves to cut off the energized state or energize the cutoff state according to the main power control signal of the signal processor 15. It is composed of a blocking contact and a reset switch, the blocking contact and the reset switch are configured to have a parallel structure, the blocking contact is composed of a latching relay, the reset switch is an automatic return type and is composed of a self-holding circuit.

In addition, the current sensing unit 13 is configured to sense the amount of current delivered to the load electronic device 21 using the current sensing IC, and detects the amount of current delivered to the load electronic device 21 to the signal processor 15. It is to convey.

In addition, the main controller 16 is composed of a communication control unit 14 and a signal processing unit 15, the communication control unit 14 functions to block standby power while sending and receiving signals with the signal processing unit 15, In particular, it implements the RF transmission and reception function.

The signal processor 15 A function of comparing the sensing current and the breaking current, wherein the sensing current is the amount of current delivered to the load electronics 21, and the breaking current is to operate in the standby mode when the load electronics 21 is switched off. It means the minimum amount of current to be a reference for. At this time, the breaking current can be easily recognized by the load electronic device 21 by using a transmission function through a switch operation of the remote controller.

As such, the signal processing unit 15 compares the sensing current received from the current sensing unit 13 with the breaking current to determine whether the sensing current flows for a predetermined time less than the breaking current. A function of outputting a cutoff signal to the cutoff reset switch unit 12 or the load switch 20 which is a load power source.

At this time, the communication control unit 14 for the RF transmission and reception function and the signal processing unit 16 for the MCU (Micro Control Unit) function is implemented in a single chip.

In addition, the user input switch 17 is configured as a touch-type reset switch for manually returning the power-off state of the AC / DC converter 19, and the ID setting unit 18 is configured to remove itself from the plurality of standby power cut-off modules. It serves to distinguish.

The AC / DC conversion unit 16 supplies power to the signal processing unit 15 of the ID setting unit 18 and the main control unit 16. The AC / DC conversion unit 16 supplies power from the power cutoff reset switch unit 12. The signal is applied.

The load switch 20 is a switch provided between the current sensing unit 13 and the load electronic device 21.

The standby power cut-off system of the present invention having the above configuration is configured to recognize a state in which the home appliance, that is, the load electronic device 21 is not operating, and to cut unnecessary power to reduce unnecessary power waste. The main feature is to turn off the switch unit 12 to cut off the power consumed by the standby power cut-off system itself.

Hereinafter, a driving method of a standby power cutoff system according to the present invention having the above configuration will be described with reference to the accompanying drawings.

2 is a conceptual diagram schematically showing an operation mode of the standby power cut-off system according to the present invention, Figure 3 is a flow chart showing the operation of the standby power cut-off system according to the present invention.

The present invention is configured to operate in two modes of operation in order to control the power consumption of the standby power cut-off system itself, there are a device control mode and a remote control mode.

In the device control mode, when the power is turned on by the cut-off current measured by the device itself, the current consumption is '0' by cutting off the power of the load and the power of the device itself. The control mode is to cut off the power of all the control devices and the load except for the power of the RF transmission / reception module when controlling wirelessly like a remote controller.

That is, as shown in Figure 2, when the power is turned on (On) automatically enters the device control mode, in the device control mode automatically detects the standby current and performs the off (Off) control of the main power.

When the RF signal is received while the power is turned on, the controller enters the remote control mode. If the cutoff current is not detected for a predetermined time and the RF signal is not received, the controller enters the device control mode. In the remote control mode as described above, control by the RF signal is performed to turn on / off the load electronic device.

First, the operation flow when driving in the device control mode is as follows.

As shown in FIGS. 1, 2, and 3, when power on is input through the power input unit 10 or the power reset reset switch unit 12 is manually reset, the device enters into the device control mode and is driven. do.

First, when power is input through the power input unit 10, the communication control unit 14 It is determined whether an RF control signal is received (S300).

As a result of the determination, if it is determined that the RF control signal is not received, the signal processing unit 15 determines whether the initialization is completed (S310).

The initialization completion state determination is equivalent to determining whether the first designated time has passed after the power is input to the load electronic device 21. At this time, the first time specified after the power input can be set arbitrarily by the user, the time that the load electronic device 21 can start the operation sufficiently smooth, will be described an example in which 10 minutes is set below.

When the power is input in the above, the power is delivered to the load electronic device 21 through the protection circuit 11 and the current sensing unit 13, at this time, the current sensing unit 13 is transmitted to the load electronic device 21 The amount of current to be transmitted is transmitted to the signal processor 15, and the signal processor 15 compares the sensed current with the cutoff current and transmits the control signal to the communication controller 14.

Subsequently, if it is determined that the initialization is completed after the power input (that is, 10 minutes have elapsed after the power input), the signal processing unit 15 compares the sensing current and the blocking current to determine whether the blocking current is detected for a predetermined time or more. S320)

At this time, it is determined by the timer (not shown) of the signal processor 15 that the blocking current is detected for a predetermined time or more. The predetermined time for determining whether the blocking current is detected may be arbitrarily set by the user. Hereinafter, the example set to 5 minutes will be described.

Subsequently, when it is determined that the cutoff current has elapsed for a predetermined time (for example, 5 minutes) or more, the signal processing unit 15 outputs a cutoff signal to the power cutoff reset switch part 12 to completely cut off the main power. (S330)

When the main power is cut off in this way, it can be restarted only by manual reset of the power cut reset switch 12 in the future operation.

In the above-described step S310 and S320, if the initialization is not completed after the power input (for example, 10 minutes have not elapsed), and if the blocking current is not detected for a predetermined time (for example, 5 minutes or more) RF control signal Re-entry the control operation to determine whether or not the reception.

Next, the flow when operating in the remote control mode is as follows.

1, 2 and 3, first, when power is input to the power input unit 10, it is determined whether the communication control unit 14 receives the RF control signal (S300).

As a result of the determination, if it is determined that the RF control signal is being received, the controller enters the remote control mode and starts operation. When the RF control signal is received as described above, the on / off of the load electronic device 21 can be controlled remotely.

When it is determined that the RF control signal is received as described above, first, it is determined whether the received RF control signal is a signal for turning on the load switch 20 (S400).

If it is determined that the RF signal is a signal for turning on the load switch 20, it is then determined whether the load switch 20 is turned on (S410).

As a result of the determination, if the load switch 20 is not On, the operation of turning on the load switch proceeds (S420). If the load switch 20 is On, the signal processing unit In step 15, it is determined whether the initialization is completed (S430).

At this time, determining whether or not the initialization is completed means determining whether the first designated time has elapsed after the power is input to the load electronic device 21. At this time, the first time specified after the power input can be set arbitrarily by the user, the time that the load electronic device 21 can start the operation smoothly, will be described for the example set to a time of 10 minutes below. .

As a result of the determination, if it is determined that the initialization is not completed, it is determined whether the RF signal is being received (S440), and if the RF signal is being received, turn on the load switch 20, for example, which signal the RF signal is. The process returns to step S400, and if no RF signal is received, the process returns to step S430 to determine whether the initialization is completed.

On the other hand, if it is determined that the initialization is completed, that is, the first 10 minutes after the power input, the signal processing unit 15 compares the detection current and the blocking current to determine whether the blocking current is detected for a predetermined time or more. S450)

At this time, it is determined by the signal processor 15 that the blocking current is detected for a predetermined time or more, and a predetermined time for determining whether the blocking current is detected may be arbitrarily set by the user. Hereinafter, the example set to 5 minutes will be described.

If it is determined that the blocking current has elapsed for a predetermined time or more (for example, 5 minutes or more), the signal processing unit 15 outputs a blocking signal to the load switch 20 to cut off the load switch 20 (S460). )

If it is determined that the blocking current has not been detected for a predetermined time or longer, the process first re-enters the step S300 of determining whether an RF signal is received.

Even after the load switch 20 is blocked in the first step (S300) to determine whether the RF signal is received, if it is determined that the RF signal is received, the remote control operation is performed again.

In operation of the remote control mode, if it is determined that the RF signal is not a signal for turning on the load switch 20, the operation for determining whether the signal for turning off the load switch 20 is performed. (S500)

At this time, if it is determined that the RF signal is a signal to turn off the load switch 20, it is determined whether the load switch is off (S510), and if it is not off, the load switch 20 is turned off (S520). If the load switch 20 is off, the process re-enters the first step S300 of determining whether an RF signal is received.

Next, in the operation of the remote control mode, if the RF signal is not a signal for turning off the load switch 20, it is determined whether the RF signal is a signal for setting the breaking current (S600).

As a result of the determination, if it is a signal to set the cutoff current, the operation of setting the cutoff current is performed (S610), and then it is re-entered to determine whether the first RF signal is received (S300). If it is determined that the signal is not a signal for setting the interruption current, the process returns to step S300 to determine whether the first RF signal is received.

When the cutoff current is recognized by the load electronic device 21 as described above, the switch current of the remote controller can be remotely recognized, so that it is not necessary to go to the load electronic device and operate the switch.

In summary, when the power is applied, the device control mode automatically enters the device control mode, waits for a predetermined time (for example: 10 minutes) after power is applied, and then cuts off the current for more than a predetermined time (for example, If more than 5 minutes are detected, the main power is shut off completely and only reset by a switch attached to the standby power disconnect system or by an extension switch connected by wire.

In addition, the remote control mode can be entered only in the power-on state. When the RF signal is received in the power-on state, the remote control mode enters the remote control mode and performs on / off control according to the RF reception signal. It is. After the power is turned on, for a predetermined time (for example, 10 minutes), the controller waits with an initialization time that does not detect the breaking current. If a current is detected, the load switch is shut off. In this case, even when the load switch is blocked, if the RF signal is received, the remote control mode operation may be performed again.

For reference, although not shown in the drawing, in the remote control mode, when the power is OFF, the main power unit 16 does not perform the interruption current sensing activity, and the standby power cut-off system in the minimum power operation mode sleep ( sleep) mode.

Although the technical idea of the present invention has been described in detail according to the above-described preferred embodiment, the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention. Accordingly, the scope of the invention should be defined by the claims rather than by the examples described.

* Explanation of symbols for the main parts of the drawings
10: power input 11: protection circuit
12: power off reset switch unit 13: current sensing unit
14: communication control unit 15: signal processing unit
16: main controller 17: user input switch
18: ID setting unit 19: AC / DC converter
20: load switch 21: load electronics

Claims (10)

A power input unit to which an AC signal is input;
A protection circuit for stably transferring the signal input from the power input unit;
A current sensing unit for sensing and outputting an amount of current to be transmitted to the load electronics;
A signal processing unit which receives a current amount output from the current sensing unit and outputs a control signal by comparing with a blocking current;
A communication controller constituting a main controller together with the signal processor, the communication controller implementing RF transmission / reception functions while exchanging signals with the signal processor;
A power interruption reset switch unit having a function of interrupting or energizing main power by receiving a control signal of the signal processor;
An AC / DC converter for converting AC power into DC power and outputting first and second DC power to the ID setting unit and the signal processing unit, respectively;
And a load switch provided between the current sensing unit and the load electronic device so that opening and closing is controlled by receiving a remote control signal of the signal processing unit. The method of claim 1,
The power cutoff reset switch unit is composed of a blocking contact and a reset switch having a parallel structure, the blocking contact is composed of a latching relay, the reset switch is a self-returning type and has a self-holding function in a circuit system. The method of claim 1,
The communication control unit and the signal processing unit standby power blocking system, characterized in that implemented on a single chip. When it is determined that the RF signal is not received when the power is turned on, the signal processing unit determines whether the initialization is completed, and if it is determined that the initialization is completed, whether the cutoff current is detected for more than the time set by the signal processing unit. Determining, and receiving a control signal of the signal processor to cut the main power when the blocking current is detected for a predetermined time; And
When the power is turned on, if it is determined that an RF signal is received, controlling the load switch on / off or setting the cutoff current according to the RF signal, and when the load switch is on Determining whether the signal processing unit detects whether the initialization is completed or not, and if it is determined that the initialization has been completed, determining whether the blocking current is detected for more than a predetermined time, and if the blocking current is detected for more than a predetermined time, the signal is determined. Receiving a control signal of a processor and driving the remote control mode to shut off the load switch. The method of claim 4, wherein
In the device control mode and the remote control mode driving, the initialization completion state determination operation is to determine whether the first predetermined time set by the user has elapsed after inputting power to the load electronics. Way. The method of claim 4, wherein
In the device control mode and the remote control mode driving, when determining whether the cut-off current is detected more than a predetermined time, the setting time can be set arbitrarily by the user. The method of claim 4, wherein
When driving in the device control mode, if it is determined that the initialization is not the completion state or if the cut-off current is not detected for more than a set time, the standby power cut-off characterized in that the step of re-entering the step of determining whether the RF signal is received. How to drive the system. The method of claim 4, wherein
When it is determined that the initialization is not in the initialization completion state when driving in the remote control mode, it is determined whether an RF signal is being received, and if the RF signal is being received, the on / off control of the load switch or the cutoff current is set. Reenter the stage,
And if the RF signal is not being received, reentering the process to determine whether the initialization is completed. The method of claim 4, wherein
In the remote control mode driving, if it is determined that the cutoff current has not been detected for a predetermined time, re-entry the step of determining whether the first RF signal is received. The method of claim 4, wherein
In the remote control mode driving, if the RF signal is received by determining whether the RF signal is received even after the load switch is cut off, if the RF signal is received, standby power cutoff is characterized in that the operation again. How to drive the system.

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