KR20180107488A - Air conditioner and method for controlling the same - Google Patents

Abstract

The indoor unit includes a communication unit connected to the outdoor unit for transmitting and receiving data, and a control unit for controlling data transmission and reception of the communication unit. The air conditioner communicates with the outdoor unit through an outdoor unit, Wherein the control unit includes a first communication line for transmitting a selection signal for selecting a data communication mode of the communication unit, a second communication line for transmitting data to the communication unit, and a third communication line for receiving data from the communication unit, The first, second, and third communication lines of the communication unit may be electrically connected to the communication unit, respectively.

Description

[0001] The present invention relates to an air conditioner and a control method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner for performing communication in a non-insulated manner and a control method thereof.

Generally, an air conditioner is mainly used in a cooling device for discharging cold air generated through heat exchange with ambient air due to evaporation of a refrigerant into a room by using a fan by compressing, evaporating, and condensing a predetermined refrigerant.

In recent years, hot air generated by heat exchange between a refrigerant and ambient air due to the condensation of refrigerant is discharged to the room by using a compression, evaporation, and condensation cycle of the refrigerant in reverse, With the spread of the air conditioner, the air conditioner is being used as a device for controlling the indoor temperature of the house throughout the season.

The air conditioner is composed of an indoor unit installed for air conditioning and an outdoor unit controlling the indoor unit. The outdoor unit and the indoor unit can perform the cooling and heating function by performing data communication with each other.

Generally, in order to perform data communication between an outdoor unit and an indoor unit, a data protocol used for communication and a communication protocol defining a transmission / reception method are required.

Conventionally, a general-purpose serial interface such as RS232C is mainly used as a communication method. However, this method has a limitation and a drawback in that a transmission speed is slow, a transmission distance is short, a noise is weak and a power supply of 12V is necessary.

In order to overcome this problem, RS485 communication method has been applied. However, it has a microcomputer that controls transmission and reception of RS485 communication, a main power supply unit for supplying power to the microcomputer and other devices, and an insulated power supply unit Device, an RS485 communication module that transmits / receives data by RS485 communication method, and an optocoupler that isolates and transmits signals between the microcomputer and the RS485 communication module in an insulated RS485 communication.

However, an existing communication method having such a configuration requires not only an insulation communication circuit for electrical insulation between the RS485 communication module and the microcomputer but also a transformer for supplying a separate electric power to the RS485 communication module, There is a problem that the configuration is complicated and the circuit design cost increases.

Therefore, it is required to develop an air conditioner that can simplify the communication circuit configuration and minimize the cost by changing the communication circuit designing method used in the air conditioner from the insulating method to the non-insulating method.

The present invention is directed to solving the above-mentioned problems and other problems. It is still another object of the present invention to provide a communication system comprising a first communication line for transmitting a selection signal for selecting a data communication mode of a communication unit, a second communication line for transmitting data to a communication unit, The present invention provides an air conditioner and a control method thereof that can simplify the design of the communication circuit by minimizing the cost by electrically connecting the communication line directly.

The air conditioner according to an embodiment of the present invention includes an outdoor unit and an indoor unit communicably connected to each other. The indoor unit includes a communication unit connected to the outdoor unit for transmitting and receiving data, and a control unit for controlling data transmission and reception of the communication unit. A second communication line for data transmission to the communication unit, and a third communication line for receiving data from the communication unit, wherein the first, second, third, And the third communication line may be electrically connected directly to the communication unit.

Here, in order to select the data communication mode of the communication unit as the external data reception mode, the control unit transmits a high signal of the selection signal to the communication unit through the first communication line, and sets the data communication mode of the communication unit as the internal data transmission mode It is possible to transmit a low signal of the selection signal to the communication unit through the first communication line.

A filter unit for filtering the noise of the external data signal received from the communication unit may be disposed between the control unit and the communication unit, and the filter unit may be connected to the third communication line of the control unit.

The filter unit may include a resistor having one side connected to the third communication line of the control unit and the other side connected to the communication unit and a capacitor having one side connected to the node between the third communication line and the resistor of the control unit and the other side grounded .

In addition, the control unit may include a fourth communication line for transmitting an inverted signal to the communication unit.

Here, the transistor circuit portion may be disposed between the control portion and the communication portion, and the transistor circuit portion may be connected to the fourth communication line.

The communication unit includes a selection signal input terminal connected to the first communication line of the control unit for receiving the selection signal of the control unit, an internal data input terminal connected to the second communication line of the control unit for receiving the internal data of the control unit, An external data output terminal connected to the communication line to output external data of the outdoor unit to the control unit, a data input / output terminal connected to the outdoor unit to receive external data from the outdoor unit or to transmit internal data to the outdoor unit.

Here, the selection signal input terminal of the communication unit is directly connected to the control unit by the first communication line, the internal data input terminal of the communication unit is directly connected to the control unit by the second communication line, and the external data output terminal of the communication unit is connected to the third communication And can be directly connected to the control unit by the line.

The communication unit may further include a power input terminal to which power is input, and the power input terminal may be directly connected to the power supply unit.

A control method for an air conditioner according to an embodiment of the present invention includes the steps of: a control unit of an indoor unit transmitting a first selection signal to a communication unit of an indoor unit through a first communication line; The method comprising: switching the data communication mode to an external data receiving mode; receiving external data of the outdoor unit through the communication unit of the indoor unit and transmitting the received external data to the control unit of the indoor unit through the third communication line; The method includes the steps of: processing the data; checking whether the control unit of the indoor unit requests the internal data of the indoor unit; if the control unit of the indoor unit requests the internal data of the indoor unit, To the communication unit of the indoor unit, the control unit of the indoor unit transmits data to the communication unit of the indoor unit via the first communication line A step of switching a data communication mode to an internal data transmission mode in accordance with a second selection signal by the communication unit of the indoor unit, a step of transmitting the internal data of the indoor unit to the outdoor unit .

The effects of the air conditioner and the control method according to the present invention are as follows.

According to at least one of the embodiments of the present invention, a first communication line for transmitting a selection signal for selecting a data communication mode of the communication unit, a second communication line for data transmission to the communication unit, The third communication line for data reception can be electrically connected directly, thereby simplifying the design of the communication circuit in a non-insulated manner and minimizing the cost.

Further scope of applicability of the present invention will become apparent from the following detailed description. It should be understood, however, that the detailed description and specific examples, such as the preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art.

1 is a schematic view of an air conditioner according to the present invention.
2 is a block diagram showing an air conditioner according to the present invention.
3 and 4 are block diagrams showing an indoor unit according to the first embodiment of the present invention.
5 is a signal waveform diagram for explaining a data transmission / reception process of the control unit and the communication unit of the indoor unit.
6 and 7 are block diagrams showing an indoor unit according to a second embodiment of the present invention.
Fig. 8 is a circuit diagram of Fig. 7. Fig.
9 is a flowchart illustrating a data transmission process of the air conditioner according to the present invention.
10 is a block diagram illustrating a noise process of a communication signal of the air conditioner according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate identical or similar elements, and redundant description thereof will be omitted. The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role. In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be blurred. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. , ≪ / RTI > equivalents, and alternatives.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

1 is a schematic view of an air conditioner according to the present invention.

1, the air conditioner according to the present invention may include at least one outdoor unit 100, and at least one indoor unit 200 connected to the outdoor unit 100 through a refrigerant pipe to perform air conditioning have.

Here, the indoor unit 200 may include an indoor heat exchanger for exchanging indoor air and refrigerant, an indoor fan for blowing heat-exchanged indoor air, and a heater for heating indoor air to be blown.

The outdoor unit 100 may include an outdoor heat exchanger for exchanging heat between the outdoor air and the refrigerant, an outdoor fan for blowing heat-exchanged outdoor air, and a compressor for compressing the refrigerant.

Also, the outdoor unit 100 and the indoor unit 200 can communicate with each other and transmit / receive data.

Here, the indoor unit 200 may include a communication unit connected to the outdoor unit 100 to transmit / receive data, and a control unit for controlling data transmission / reception of the communication unit.

The control unit of the indoor unit 200 includes a first communication line for transmitting a selection signal for selecting a data communication mode of the communication unit, a second communication line for transmitting data to the communication unit, and a third communication line for receiving data from the communication unit The first, second, and third communication lines of the control unit may be electrically connected to the communication unit, respectively.

In addition, the air conditioner may further include a wireless controller 300 that receives a user's operation command and transmits the received operation command to the controller.

For example, the radio controller 300 may be installed in a room, and may be connected to the indoor unit 200 through a wireless communication system such as Infra-Red Ray Communication (IR) or Radio Frequency Communication (RF) Wireless remote controls are common.

In some cases, the wireless controller 300 may be a terminal of either a computer, a mobile phone, a smart phone, or a PDA.

2 is a block diagram showing an air conditioner according to the present invention.

As shown in FIG. 2, the air conditioner of the present invention may include an outdoor unit 100 and an indoor unit 200 connected to the outdoor unit 100 to perform air conditioning.

Here, the outdoor unit 100 and the indoor unit 200 can communicate with each other and transmit / receive data.

The indoor unit 200 is connected to the outdoor unit 100 and includes a communication unit 210 for transmitting and receiving data, a control unit 220 for controlling data transmission and reception of the communication unit 210, And a power supply unit 230 for supplying power.

Here, a plurality of communication lines may be connected between the communication unit 210 and the control unit 220.

For example, a plurality of communication lines may include a first communication line for transmitting a selection signal for selecting a data communication mode of the communication unit 210, a second communication line for transmitting data from the control unit 220 to the communication unit 210, And a third communication line for transmitting data from the control unit 210 to the control unit 220.

Here, the first, second, and third communication lines may be electrically connected to the communication unit 210 and the control unit 220, respectively.

The reason why the first, second, and third communication lines are electrically connected directly to the communication unit 210 and the control unit 220 is that the communication circuit is simply designed in a non-insulated manner to minimize the cost .

That is, according to the present invention, by designing a communication circuit between a communication unit and a control unit in a non-insulated manner rather than electrically insulated, components such as a pulse transformer and a photocoupler according to non-insulation are removed to optimize a circuit design, Can be minimized.

The indoor unit 200 may include a power supply unit 230 for supplying power to the communication unit 210 and the control unit 220.

Here, the power supply unit 230 may directly input the same voltage to the communication unit 210 and the control unit 220.

For example, the power supply unit 230 may simultaneously input the voltage of about 5 V to the communication unit 210 and the control unit 220.

At this time, the communication unit 210 and the control unit 220 may be connected in parallel to the power supply unit 230.

The power supply unit 230 may transmit the voltage to the communication unit 210 and the control unit 220 through the noise stabilization circuit to remove the noise of the applied voltage when the voltage is applied to the communication unit 210 and the control unit 220. [ .

Here, the noise stabilization circuit can transmit and receive data stably by the communication unit 210 by removing the high-frequency noise and applying the voltage to the communication unit 210 and the control unit 220.

3 and 4 are block diagrams showing an indoor unit according to the first embodiment of the present invention.

3 and 4, the indoor unit 200 may include a communication unit 210, a control unit 220, and a power supply unit 230.

Here, the communication unit 210 may receive external data from the outdoor unit or may transmit the internal data of the indoor unit to the outdoor unit.

For example, the communication unit 210 may use an RS485 communication module, but the present invention is not limited thereto.

The control unit 220 may include a plurality of communication lines to control data transmission / reception of the communication unit 210.

For example, a plurality of communication lines may include a first communication line 222 for transmitting a selection signal for selecting a data communication mode of the communication unit 210, a second communication line 222 for transferring data from the control unit 220 to the communication unit 210, And a third communication line 226 for transmitting data from the communication unit 210 to the control unit 220. [

Here, the first, second, and third communication lines 222, 224, and 226 of the controller 220 may be electrically connected to the communication unit 210, respectively.

That is, the first, second, and third communication lines 222, 224, and 226 of the control unit 220 may be directly connected to the input terminal of the communication unit 210 in a non-insulated manner without passing through an isolation circuit.

The reason why the first, second, and third communication lines 222, 224, and 226 are electrically connected to the communication unit 210 and the control unit 220 directly is as follows. It is designed simply to minimize the cost.

That is, according to the present invention, by designing a communication circuit between a communication unit and a control unit in a non-insulated manner rather than electrically insulated, components such as a pulse transformer and a photocoupler according to non-insulation are removed to optimize a circuit design, Can be minimized.

Next, the power supply unit 230 may supply power to the communication unit 210 and the control unit 220.

Here, the power supply unit 230 may directly input the same voltage to the communication unit 210 and the control unit 220.

For example, the power supply unit 230 may simultaneously input the voltage of about 5 V to the communication unit 210 and the control unit 220.

At this time, the communication unit 210 and the control unit 220 may be connected in parallel to the power supply unit 230.

The power supply unit 230 may transmit the voltage to the communication unit 210 and the control unit 220 through the noise stabilization circuit to remove the noise of the applied voltage when the voltage is applied to the communication unit 210 and the control unit 220. [ .

Here, the noise stabilization circuit can transmit and receive data stably by the communication unit 210 by removing the high-frequency noise and applying the voltage to the communication unit 210 and the control unit 220.

4, the first communication line 222 of the control unit 220 may be directly connected to the selection signal input terminal DE of the communication unit 210. [

In order to select the data communication mode of the communication unit 210 as the external data receiving mode, the control unit 220 transmits a high signal of the selection signal SEL to the communication unit 210 through the first communication line 222 Lt; / RTI >

The controller 220 controls the communication unit 210 to transmit a low signal of the selection signal SEL through the first communication line 222 to select the data communication mode of the communication unit 210 as the internal data transmission mode. Lt; / RTI >

The control unit 220 controls the first communication line 222 to select the data communication mode of the communication unit 210 as the external data receiving mode and transmits a low signal of the selection signal SEL to the communication unit 210 The control unit 220 may transmit the high signal of the selection signal SEL to the communication unit 210 through the first communication line 222 in order to select the data communication mode of the communication unit 210 as the internal data transmission mode It is possible.

Next, the second communication line 224 of the control unit 220 may be directly connected to the internal data input terminal D of the communication unit 210.

The control unit 220 may transmit the internal data signal Tx to the communication unit 210 through the second communication line 224 when the communication unit 210 is in the internal data transmission mode.

The third communication line 226 of the control unit 220 may be directly connected to the external data output terminal R of the communication unit 210.

The control unit 220 can receive the external data signal Rx from the communication unit 210 through the third communication line 226 when the communication unit 210 is in the external data receiving mode.

For example, if the external data received from the communication unit 210 is a data transmission request from the outdoor unit, the control unit 220 transmits the internal data corresponding to the data transmission request of the outdoor unit to the communication unit 210 ).

In addition, the control unit 220 may include a fourth communication line 228 for transmitting the inverted signal INV to the communication unit 210.

The transistor circuit portion 240 may be connected to the fourth communication line 228. The transistor circuit portion 240 may be connected to the fourth communication line 228. [

The fourth communication line 228 of the control unit 220 may be connected to the inverted signal input terminal INV of the communication unit 210 via the transistor circuit unit 240. [

Meanwhile, the communication unit 210 may include a selection signal input terminal DE, an internal data input terminal D, an external data output terminal R, an inverted signal input terminal INV, and a data input / output terminal A-B.

Here, the selection signal input terminal DE is connected to the first communication line 222 of the control unit 220 and can receive the selection signal SEL of the control unit.

The internal data input terminal D may be connected to the second communication line 224 of the control unit 220 to receive the internal data signal Tx of the control unit 220.

Next, the external data output terminal R is connected to the third communication line 226 of the control unit 220, and can output the external data signal Rx of the outdoor unit to the control unit 220.

The inverted signal input terminal INV is connected to the fourth communication line 228 of the control unit 220 and can receive the inverted signal INV of the control unit 220.

The data input / output terminal A-B may be connected to the outdoor unit to receive external data from the outdoor unit or to transmit the internal data of the indoor unit to the outdoor unit.

The selection signal input terminal DE of the communication unit 210 is directly connected to the control unit 220 by the first communication line 222 and the internal data input terminal Tx of the communication unit 210 is connected to the second communication line 224, And the external data output terminal Rx of the communication unit 210 may be directly connected to the control unit 220 by the third communication line 226. [

5 is a signal waveform diagram for explaining a data transmission / reception process of the control unit and the communication unit of the indoor unit.

5, when the selection signal SEL of the control unit is input to the selection signal input terminal DE of the communication unit as a high signal, the communication unit switches the data communication mode to the external data reception mode, Data can be received.

The communication unit can transmit the received external data signal Rx to the control unit via the external data output terminal R. [

Next, when the selection signal SEL of the control unit is inputted to the selection signal input terminal DE of the communication unit as a low signal, the communication unit switches the data communication mode to the internal data transmission mode and receives the internal data signal Tx of the control unit via the internal data input terminal D can do.

Then, the communication unit can transmit the internal data received from the control unit to the outdoor unit through the data input / output terminal A-B.

6 and 7 are block diagrams showing an indoor unit according to a second embodiment of the present invention.

6 and 7, the indoor unit 200 may include a communication unit 210, a control unit 220, and a power supply unit 230.

Here, the communication unit 210 may receive external data from the outdoor unit or may transmit the internal data of the indoor unit to the outdoor unit.

For example, the communication unit 210 may use an RS485 communication module, but the present invention is not limited thereto.

The control unit 220 may include a plurality of communication lines to control data transmission / reception of the communication unit 210.

For example, a plurality of communication lines may include a first communication line 222 for transmitting a selection signal for selecting a data communication mode of the communication unit 210, a second communication line 222 for transferring data from the control unit 220 to the communication unit 210, A third communication line 226 for transmitting data from the communication unit 210 to the control unit 220 and a fourth communication line 228 for transmitting an inverted signal from the control unit 220 to the communication unit 210. [ . ≪ / RTI >

The first and second communication lines 222 and 224 of the control unit 220 may be electrically connected to the communication unit 210 directly.

That is, the first and second communication lines 222 and 224 of the control unit 220 can be directly connected to the input terminal of the communication unit 210 in a non-insulated manner without passing through an isolation circuit.

In addition, the third and fourth communication lines 226 and 228 of the control unit 220 may not be directly connected to the communication unit 210.

For example, a filter unit 250 may be disposed between the control unit 220 and the communication unit 210 to filter noise of an external data signal received from the communication unit 210. The filter unit 250 may include a controller 220, The third communication line 226 of FIG.

Here, the filter unit 250 may be a low-pass filter for removing noise of a specific high frequency, but is not limited thereto.

The third communication line 226 of the control unit 220 may be connected to the external data output terminal R of the communication unit 210 via the filter unit 250. [

The transistor circuit portion 240 may be connected to the fourth communication line 228. The transistor circuit portion 240 may be connected to the fourth communication line 228. [

The fourth communication line 228 of the control unit 220 may be connected to the inverted signal input terminal INV of the communication unit 210 via the transistor circuit unit 240. [

The reason why the first and second communication lines 222 and 224 are electrically connected to the communication unit 210 and the control unit 220 directly is that the communication circuit configuration is simply designed in a non- .

That is, according to the present invention, by designing a communication circuit between a communication unit and a control unit in a non-insulated manner rather than electrically insulated, components such as a pulse transformer and a photocoupler according to non-insulation are removed to optimize a circuit design, Can be minimized.

Next, the power supply unit 230 may supply power to the communication unit 210 and the control unit 220.

Here, the power supply unit 230 may directly input the same voltage to the communication unit 210 and the control unit 220.

For example, the power supply unit 230 may simultaneously input the voltage of about 5 V to the communication unit 210 and the control unit 220.

At this time, the communication unit 210 and the control unit 220 may be connected in parallel to the power supply unit 230.

The power supply unit 230 may transmit the voltage to the communication unit 210 and the control unit 220 through the noise stabilization circuit to remove the noise of the applied voltage when the voltage is applied to the communication unit 210 and the control unit 220. [ .

Here, the noise stabilization circuit can transmit and receive data stably by the communication unit 210 by removing the high-frequency noise and applying the voltage to the communication unit 210 and the control unit 220.

7, the filter unit 250 may be disposed between the external data output terminal of the communication unit 210 and the control unit 220, and the communication unit 210 may be provided between the external data output terminal of the communication unit 210 and the control unit 220, May be connected to the filter unit 250 by the third communication line 226. [

Here, the filter unit 250 may be a low-pass filter that removes noise of a specific high frequency.

The filter unit 250 may include a resistor R having one end connected to the third communication line 226 of the control unit 220 and the other end connected to the communication unit 210 and a resistor R connected to the third communication line 226 And a capacitor C having one side connected to a node between the resistors and the ground and the other side grounded.

The specific frequency removed from the filter unit 250 can be calculated by f = 1/2? RC (where f is a specific frequency, R is the resistance value of the resistor, and C is the capacitance value of the capacitor).

The inverted signal input terminal of the communication unit 210 is connected to the inverted signal input terminal of the communication unit 210 and the control unit 220 by the fourth communication line 228, (240).

Also, the communication unit 210 may include a power input terminal Vcc to which power is input, and the power input terminal Vcc may be directly connected to the power supply unit.

A noise stabilization circuit 260 may be disposed between the power input terminal Vcc and the power supply unit to remove high frequency noise of an input power source. The power input terminal Vcc may be connected to the noise stabilization circuit 260.

For example, the noise stabilization circuit 260 includes a bead whose one end is connected to the power supply unit and whose other end is connected to the power input terminal Vcc of the communication unit 210, and a bead whose bead is connected to the power input terminal Vcc of the communication unit 210 And may include a capacitor having one end connected to the node and the other end grounded.

Next, an EMI filter (Electromagnetic Interference Filter) 270 for removing electromagnetic waves may be disposed between the communication unit 210 and the outdoor unit 100.

An ESD (Electrostatic Discharge) protection circuit unit 280 for preventing static electricity may be disposed between the EMI filter 270 and the communication unit 210.

In this way, the communication unit 210 can switch the data communication mode to the external data reception mode or the internal data transmission mode according to the selection signal SEL received from the first communication line 222 of the control unit 220. [

When the data communication mode is the external data receiving mode, the communication unit 210 transmits the external data received from the outdoor unit 100 to the control unit 220. When the data communication mode is the internal data transmission mode, the control unit 220 To the outdoor unit 100. [0050]

Fig. 8 is a circuit diagram of Fig. 7. Fig.

As shown in FIG. 8, the indoor unit 200 may include a communication unit 210 and a control unit 220.

Here, the communication unit 210 may receive external data from the outdoor unit 100 or may transmit internal data of the indoor unit to the outdoor unit.

For example, the communication unit 210 may use an RS485 communication module, but the present invention is not limited thereto.

The control unit 220 may include a plurality of communication lines to control data transmission / reception of the communication unit 210.

The communication unit 210 may include a selection signal input terminal DE, an internal data input terminal D, an external data output terminal R, an inverted signal input terminal INV, a power input terminal Vcc, and a data input / output terminal A-B.

Here, the selection signal input terminal DE may be connected to the first communication line 222 of the control unit 220 to receive the selection signal SEL of the control unit 220.

The internal data input terminal D may be connected to the second communication line 224 of the control unit 220 to receive the internal data signal Tx of the control unit 220.

Next, the external data output terminal R is connected to the third communication line 226 of the control unit 220, and can output the external data signal Rx of the outdoor unit to the control unit 220.

The inverted signal input terminal INV is connected to the fourth communication line 228 of the control unit 220 and can receive the inverted signal INV of the control unit 220.

The data input / output terminal A-B may be connected to the outdoor unit to receive external data from the outdoor unit or to transmit the internal data of the indoor unit to the outdoor unit.

For example, the selection signal input terminal DE of the communication unit 210 is directly connected to the control unit 220 by the first communication line, and the internal data input terminal Tx of the communication unit 210 is connected to the control unit 220 by the second communication line. Lt; / RTI >

The filter unit 250 may be disposed between the external data output terminal R of the communication unit 210 and the control unit 220. The external data output terminal R of the communication unit 210 may be connected to the filter unit 250).

Here, the filter unit 250 may be a low-pass filter that removes noise of a specific high frequency.

The filter unit 250 includes a resistor 252 having one end connected to the third communication line of the controller 220 and the other end connected to the communication unit 210 and a resistor 252 connected to the third communication line of the controller 220, 252, and a capacitor 254 having one side connected to the node and the other side grounded.

At this time, the specific frequency removed from the filter unit 250 may be calculated by f = 1/2? RC (where f is a specific frequency, R is a resistance value of the resistor, and C is a capacitance value of the capacitor).

A transistor circuit part may be disposed between the inverting signal input terminal INV of the communication part 210 and the control part 220 and an inverted signal input terminal INV of the communication part 210 may be connected to the transistor circuit part by the fourth communication line .

Also, the communication unit 210 may include a power input terminal Vcc to which power is input, and the power input terminal Vcc may be directly connected to the power supply unit.

A noise stabilization circuit 260 may be disposed between the power input terminal Vcc and the power supply unit to remove high frequency noise of an input power source. The power input terminal Vcc may be connected to the noise stabilization circuit 260.

The noise stabilization circuit 260 includes a bead 262 having one side connected to the power supply unit and the other side connected to the power input terminal Vcc of the communication unit 210 and a bead 262 connected to the bead 262 and the communication unit 210 And a capacitor 264 having one side connected to a node between the power input terminal Vcc and the other side grounded.

As described above, according to the present invention, since the communication circuit is designed in a non-insulated manner, noise may be generated in the input signal.

The filter unit 250 is disposed between the external data output terminal R of the communication unit 210 and the control unit 220 and the power input terminal Vcc of the communication unit 210 is connected to the power The noise stabilization circuit 260 can be disposed between the supply portions.

Here, the filter unit 250 removes a specific high-frequency noise signal and can stably provide only a low-frequency data signal to the control unit 220. [

At this time, the specific frequency removed from the filter unit 250 may be calculated by f = 1/2? RC (where f is a specific frequency, R is a resistance value of the resistor, and C is a capacitance value of the capacitor).

Then, the noise stabilization circuit 260 can remove the high frequency noise of the input power source.

Therefore, the noise stabilization circuit 260 can stably supply the noise-removed voltage to the communication unit 210. [

As described above, according to the present invention, there is provided a power supply apparatus comprising: a filter unit 250 disposed between an external data output terminal R of a communication unit 210 and a control unit 220; The stabilization circuit 260 can eliminate noise problems that may occur in a non-isolated communication design scheme.

9 is a flowchart illustrating a data transmission process of the air conditioner according to the present invention.

9, the outdoor unit 100 generates external data and transmits the generated external data to the communication unit 210 of the indoor unit 200. In operation S10,

The control unit 220 of the indoor unit 200 generates a first selection signal for selecting a data communication mode of the communication unit 210 and transmits the generated first selection signal to the indoor unit 200 through the first communication line. And transmits it to the communication unit 210. (S20)

Here, the first selection signal may be a high signal for switching the data communication mode of the communication unit 210 to the external data reception mode.

Next, the communication unit 210 of the indoor unit 200 switches the data communication mode to the external data reception mode in accordance with the first selection signal (S30). [

The communication unit 210 of the indoor unit 200 receives external data of the outdoor unit 100. (S40)

The communication unit 210 of the indoor unit 200 transmits the received external data to the control unit 220 of the indoor unit 200 through the third communication line.

Here, when the external data is transmitted to the control unit 220 of the indoor unit 200, the noise of the external data may be filtered through the filter unit, and the filtered external data may be transmitted to the control unit 220 of the indoor unit 200 have.

Next, the control unit 220 of the indoor unit 200 processes the external data (S50)

The control unit 220 of the indoor unit 200 confirms whether the external data is an internal data request of the indoor unit 200. In operation S60,

Here, if the internal data request of the indoor unit 200 is not received, the data communication performing operation can be terminated.

The control unit 220 of the indoor unit 200 generates the requested internal data and transmits the generated internal data to the indoor unit 200 through the second communication line, And transmits it to the communication unit 210. (S70)

Next, the control unit 220 of the indoor unit 200 generates a second selection signal for selecting the data communication mode of the communication unit 210, and transmits the generated second selection signal to the indoor unit 200 through the first communication line. And transmits it to the communication unit 210. (S80)

Here, the second selection signal may be a low signal for switching the data communication mode of the communication unit 210 to the internal data transmission mode.

Then, the communication unit 210 of the indoor unit 200 switches the data communication mode to the internal data transmission mode in accordance with the second selection signal (S90)

The communication unit 210 of the indoor unit 200 transmits the internal data of the indoor unit 200 to the outdoor unit 100.

Next, the outdoor unit 100 can receive the internal data of the indoor unit 200 (S100)

As described above, the present invention is characterized in that, between the control unit of the indoor unit and the communication unit, a first communication line for transmitting a selection signal for selecting a data communication mode of the communication unit, a second communication line for transmitting data to the communication unit, 3 communication line is electrically connected directly, it is possible to minimize the cost by simply designing the communication circuit configuration in a non-insulation manner.

10 is a block diagram illustrating a noise process of a communication signal of the air conditioner according to the present invention.

10, the indoor unit 200 may include a power supply unit 230 for supplying power to the communication unit 210 and the control unit 220.

The power supply unit 230 may supply a voltage of about 5 V to the communication unit 210 and the control unit 220.

Here, the power supply unit 230 may be transmitted to the communication unit 210 via the noise stabilization circuit 260 in order to remove the noise of the applied voltage when the voltage is applied to the communication unit 210.

The noise stabilization circuit 260 removes high frequency noise and applies a voltage to the communication unit 210 and the control unit 220 so that the communication unit 210 can transmit and receive data stably.

In addition, the communication unit 210 may receive external data and transmit the received external data to the control unit 220.

Here, when transmitting external data, the communication unit 210 may transmit the external data to the controller 220 via the filter unit 250 to remove noise from the external data.

The filter unit 250 is a low-pass filter that removes noise of a specific high frequency. The specific frequency removed from the filter unit 250 is f = 1/2? RC where f is a specific frequency, R is a resistance value , And C is a capacitance value of the capacitor).

As described above, according to the present invention, since the communication circuit is designed in a non-insulated manner, noise may be generated in the input signal.

A filter unit 250 is disposed between the communication unit 210 and the control unit 220 and a noise stabilization circuit 260 is provided between the communication unit 210 and the power supply unit 230. [ ) Can be disposed.

Here, the filter unit 250 removes a specific high-frequency noise signal and can stably provide only a low-frequency data signal to the control unit 220. [

Then, the noise stabilization circuit 260 can remove the high frequency noise of the input power source.

Here, the noise stabilization circuit 260 can stably supply the noise-removed voltage to the communication unit 210. [

As described above, according to the present invention, by the filter unit 250 disposed between the communication unit 210 and the control unit 220 and the noise stabilization circuit 260 disposed between the communication unit 210 and the power supply unit, Noise problems that can occur in the design method can be eliminated.

The features, structures, effects and the like described in the embodiments are included in at least one embodiment of the present invention and are not necessarily limited to only one embodiment. Furthermore, the features, structures, effects and the like illustrated in the embodiments can be combined and modified by other persons skilled in the art to which the embodiments belong. Therefore, it should be understood that the present invention is not limited to these combinations and modifications.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It can be seen that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

100: outdoor unit
200: indoor unit
210:
220:
230: Power supply

Claims (14)

1. An air conditioner comprising an outdoor unit and an indoor unit communicated with each other,
The indoor unit includes:
A communication unit connected to the outdoor unit to transmit and receive data; And,
And a control unit for controlling data transmission / reception of the communication unit,
Wherein,
A first communication line for transmitting a selection signal for selecting a data communication mode of the communication unit, a second communication line for transmitting data to the communication unit, and a third communication line for receiving data from the communication unit,
The first, second, and third communication lines of the control unit may include:
And the air conditioner is electrically connected to the communication unit. The method according to claim 1,
Further comprising a power supply unit for supplying power to the communication unit and the control unit,
The power supply unit,
Wherein the control unit inputs the same voltage to the communication unit and the control unit. 2. The apparatus of claim 1, wherein the first communication line of the control unit comprises:
Wherein the air conditioner is directly connected to a selection signal input terminal of the communication unit. The apparatus of claim 3,
A high signal of the selection signal is transmitted to the communication unit through the first communication line to select the data communication mode of the communication unit as the external data reception mode,
And transmits a low signal of the selection signal to the communication unit through the first communication line to select a data communication mode of the communication unit as an internal data transmission mode. 2. The apparatus of claim 1, wherein the second communication line of the control unit comprises:
Wherein the air conditioner is directly connected to an internal data input terminal of the communication unit. 6. The apparatus of claim 5,
And transmits the internal data to the communication unit via the second communication line when the communication unit is in the internal data transmission mode. 2. The apparatus of claim 1, wherein the third communication line of the control unit comprises:
And is directly connected to an external data output terminal of the communication unit. 8. The apparatus of claim 7,
And the external data is received from the communication unit via the third communication line when the communication unit is in the external data reception mode. 9. The apparatus according to claim 8,
And transmits the internal data corresponding to the data transmission request of the outdoor unit from the communication unit through the second communication line if the external data received from the communication unit is a data transmission request of the outdoor unit. The information processing apparatus according to claim 1, wherein, between the control section and the communication section,
A filter unit for filtering noise of an external data signal received from the communication unit,
The filter unit includes:
And is connected to the third communication line of the control unit. The apparatus of claim 1,
And a fourth communication line for transmitting an inverted signal to the communication unit. The communication apparatus according to claim 1,
And switches the data communication mode to an external data reception mode or an internal data transmission mode according to a selection signal received from a first communication line of the control unit. The communication apparatus according to claim 1,
And transmits the external data received from the outdoor unit to the control unit when the data communication mode is the external data receiving mode,
And transmits the internal data received from the control unit to the outdoor unit when the data communication mode is the internal data transmission mode. And a control unit connected to the communication unit through the first, second, and third communication lines, the method comprising:
The control unit of the indoor unit transmits a first selection signal to the communication unit of the indoor unit through the first communication line;
The communication unit of the indoor unit switching the data communication mode to the external data receiving mode according to the first selection signal;
The communication unit of the indoor unit receiving the external data of the outdoor unit and transmitting the received external data to the control unit of the indoor unit through the third communication line;
The control unit of the indoor unit processes the external data;
Wherein the control unit of the indoor unit confirms whether the external data is an internal data request of the indoor unit;
Transmitting the requested internal data to the communication unit of the indoor unit through the second communication line when the controller of the indoor unit requests internal data of the indoor unit as a result of the checking;
The control unit of the indoor unit transmits a second selection signal for selecting a data communication mode to the communication unit of the indoor unit through the first communication line;
The communication unit of the indoor unit switching the data communication mode to the internal data transmission mode according to the second selection signal; And,
And the communication unit of the indoor unit transmits the internal data of the indoor unit to the outdoor unit.

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