KR20020063634A - Communication protocol for remote controlled air conditioner - Google Patents

Abstract

PURPOSE: A communication protocol for a remote control air conditioner is provided to judge whether a receiver is normally operated while the receiver and a processor transmit and receive a periodical signal and be applied to an automatic control system irrespective of a transmission medium. CONSTITUTION: A data format transmitted from a receiver to a processor is composed as a command frame for controlling various operations of an air conditioner and a life information frame for providing various life information such as stock price information, weather information, and a news flash. The command frame is composed as one byte, and are composed as 'start', 'command', 'temperature setting', 'off time', 'duration time', 'checksum', and 'stop frames'. The command frame is transmitted at about 30 second interval. One information frame is composed as total 44 bytes in the life information frame, and each item is composed as one byte and one message is composed as 5 information frames. A transmission idle time between frames is set as 2 seconds, and a transmission idle time between messages is set as 3 minutes in case that one or more messages are successively transmitted.

Description

Communication protocol for remote controlled air conditioner

The present invention relates to a communication protocol for a remote control air conditioner, and in particular, a protocol used for data communication between a receiver and a remote control air conditioner, and includes ON / OFF, periodic control (ON / OFF is repeated periodically), and temperature control (batch temperature). , + N ℃ control), periodic signal (unauthorized separation prevention function), life information providing function and so on, the user can use the air conditioner in a more comfortable and comfortable environment, the receiver and processor send and receive periodic signals The present invention relates to a communication protocol of a remote control air conditioner, which can determine whether a receiver operates normally and can be applied to an automatic control system regardless of a transmission medium.

Existing communication protocols used in remote control air conditioners had no function except ON / OFF control, and they were limited in application of technology because they were considered only when the receiver was built externally.

In addition, the existing air conditioner protocol has no countermeasure against unauthorized removal of the receiver, so that when the receiver is dismantled, the air conditioner has the same function as a general air conditioner.

In Korea, the system without the concept of communication protocol was used for a limited time from 1994 to 1997, but it was not effective. In addition, most technologies have not established communication protocols and tend to be biased in circuit configuration.

Therefore, the present invention for solving the above problems is a protocol used for data communication between the processor and the processor of the remote control air conditioner ON / OFF, periodic control (ON / OFF is repeated periodically), temperature control (batch temperature, + N ℃ control), periodic signal (unauthorized separation prevention function), life information providing function, etc. by adding various functions to the user to use the air conditioner in a more comfortable and comfortable environment, the receiver and processor send and receive periodic signals while the receiver It is an object of the present invention to provide a communication protocol of a remote control air conditioner that can determine whether it is operating normally and which can be applied to an automatic control system regardless of a transmission medium.

The present invention for achieving the above object,

In the communication protocol between the remote control processor and the receiver,

The data form transmitted from the receiver to the processor of the air conditioner is composed of a command frame for controlling various operations of the air conditioner, and a life information frame for providing various life information such as stock price information, weather information, and breaking news.

The command frame is composed of one byte each of start, command, temperature setting, off time, duration, checksum, and stop frames to be transmitted.

The life information frame comprises one information frame composed of a total of 44 bytes, each item consists of one byte, one message consists of five information frames of instructions 10 to 14, and the transmission pause time between frames is 2 Although set to seconds, when sending more than one message in a row characterized in that the transmission pause between the messages to be 3 minutes.

When the air conditioner off command is transmitted by the command frame transmitted from the receiver, the air conditioner stops only the compressor, not the entire power supply.

In addition, when the air conditioner receives a command frame transmitted from the receiver, the air conditioner transmits a response frame including information on communication success, communication error, information request, etc. upon receiving the command frame, and 5 seconds after the command frame is transmitted from the receiver to the air conditioner. If the receiver does not receive the response frame within the re-transmission of the command frame of the same content to the air conditioner, it is characterized in that the operation is repeated twice and then terminated.

If the air conditioner receives a periodic signal or a control signal from the receiver at least once for 10 minutes, the air conditioner determines that the receiver is in a normal state, and if it does not receive the periodic signal or the control signal for 10 minutes, it displays an error message. The air conditioner is stopped after storing the current state, and after the operation is stopped, the controller returns to the normal state when receiving a periodic signal or a control signal from the receiver.

1 is a view showing a command frame structure devised by the present invention.

2 is a view showing a detailed structure of the command frame according to the present invention.

3 is a view showing a life information service frame applied to the present invention.

4 is a view showing a response frame between a receiver and an air conditioner.

5 is a diagram illustrating a communication flow when receiving an OFF command.

Fig. 6 is a diagram showing a communication flow chart at the time of a batch temperature control command.

7 is a diagram illustrating a communication flow when a + N ° C. temperature control command is received.

8 is a diagram illustrating a communication flow diagram when a periodic control command is received.

9 is a diagram illustrating a communication flow when a normal return command is received.

10 is a diagram illustrating a periodic signal communication flow diagram.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 10.

Conventional air conditioner OFF control has the purpose to stop all the functions of the air conditioner (power OFF), but in the present invention, when receiving an OFF command in consideration of the consumption of about 98% of the power consumption of the air conditioner (Compressor) The compressor was designed to shut down and maintain the rest of the air conditioner.

Therefore, only the compressor is turned off and the blower function is maintained. Therefore, the empirical test shows that consumers do not know most of the operation of the air conditioner.

In order to simplify the structure of the frame, the data size is fixed to 8 bytes so that the decoding on the CPU is quick and the checksum is provided for error correction.

The temperature control was subdivided into the batch temperature control for changing the desired set temperature collectively and the + N ℃ temperature control added by N ℃ to the desired set temperature in consideration of consumer convenience. In addition, it is designed to automatically repeat the ON / OFF operation by adding a cycle control function in case of repeatedly performing ON / OFF.

Since the remote control air conditioner receives a signal from the central control unit at the receiver and transmits the signal to the air conditioning CPU, the receiver and the remote control air conditioner should always be connected. However, it was true that there was no countermeasure when removing the receiver arbitrarily.

The air conditioner receives the periodic signal from the receiver once every 30 seconds and checks the state of the receiver. If the periodic signal is not received 20 times at 30 second intervals, that is, 10 minutes, the receiver determines that the receiver is disconnected and stops the air conditioner.

In addition to these control functions, the stock price information, weather information, breaking news, etc. to provide some effort to solve the inconvenience of using the remote control air conditioning.

The data format of the physical signal is used for the commonly used UART (Universal Asynchronous Receiver / Transmitter) asynchronous serial data. A total of 11 bits including 8 bits of data bits are used. The transmission rate is fixed at 1,200bps and the output level is 5V TTL.

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

Figure 1 shows the overall command frame structure and function of the present protocol. All kinds of command frames consist of 8 bytes in total, and each item is 1 byte. Checksum 1 byte adds command, temperature setting, OFF time, ON time, duration and excludes Carry.

Commands, TT, XX, and YY are sent to the BCD (00 to 99), and ZZ is transmitted to the hexadecimal value (00h to FFh).

The periodic signal is transmitted every 30 seconds, and when the command frame is transmitted in a state of less than 30 seconds, the periodic signal is transmitted every 30 seconds when the command frame is transmitted.

2 shows a detailed structure of a command for repeating 20 minutes OFF and 10 minutes normal operation for 120 minutes.

After receiving the command frame as shown in FIG. 2, the air conditioner normally operates for 10 minutes according to the command, waits for 20 minutes in an off state, and then operates for another 10 minutes, and the total operation time does not exceed 120 minutes.

The life information service frame is shown in Fig. 3, and one information frame is composed of 44 bytes in total, each item is 1 byte, and one message is composed of five information frames of commands 10 to 14. Is 2 seconds.

If more than one message is sent continuously, the transmission pause time between messages is 3 minutes, and the order of sending the message is to send the recently received message first and to send it in the reverse order.

When a new message is received while sending a message, all the messages currently being sent are completed, and resending is started from the new received message. Checksum 1 byte (##) is the sum of 41 bytes from SC, information 1 to information 40, and excludes carry. Command has BCD 10 ~ 14 value and each value means order of frame transmission.

4 shows a response frame transmitted from the air conditioner to the receiver.

When a command is sent from the receiver to the air conditioner, a response frame must be transmitted from the air conditioner to the receiver. If the response frame is not received within 5 seconds, the receiver retransmits the same command frame to the air conditioner (it ends after 2 repetitions).

When the receiver receives the information request frame, the receiver transmits recently stored data in units transmitted from the mobile communication system.

If the information request frame is continuously received in the state of not receiving new data from the mobile communication network, the latest information is sequentially transmitted from unit to unit.

When the receiver receives a communication error, it retransmits the command frame after 500ms. The response frame shall use the same UART standard as the command frame.

5 shows a communication flow when the remote control air conditioner receives the OFF control.

Upon receiving the OFF control command, display the remote control indication so that the consumer can recognize it until the control ends. Ignore the TT, YY and ZZ values and return to normal after XX minutes OFF.

The air conditioner OFF signifies that the compressor is stopped, and it should be possible to switch to another operation mode that is not related to the compressor operation by the user's operation.

If XX of the received frame is '00', communication error processing, retransmission request once, and if XX is '00' even after retransmission, the default value is set to 10 minutes.

Fig. 6 shows a communication flow chart when receiving a batch temperature control command. Receives the batch temperature control command and displays the remote control operation indication when the control condition is satisfied.

If the control conditions are not met, the remote control display is not displayed.

Also, the set temperature value is not displayed and the XX and YY values are ignored. If the customer's desired temperature is lower than the TT value, operate at the TT temperature. When the desired temperature is greater than or equal to the TT value, the temperature is driven to the desired temperature. During the temperature control, the consumer can change the desired temperature, but the actual operation is operated above the TT value, and when the temperature control is terminated, the consumer returns to the desired temperature finally changed.

When the received control temperature value is lower than the currently set desired temperature, the control temperature TT value is stored, and even when the consumer lowers the desired temperature below the control temperature value, the controller does not operate below the control temperature.

If the TT of the received frame is '0', communication error processing (once retransmission request). If the ZZ of the received frame is '0', communication error processing (one retransmission request), and if '0' even after retransmission, the default value is set to 10 minutes.

7 is a communication flowchart when a + N ° C. temperature control command is received. Receives + N ° C temperature control command and displays the remote control operation indication when the control conditions are met.

If the control conditions are not met, the remote control display is not displayed. Also, the set temperature value is not displayed and the XX and YY values are ignored. The consumer can change the desired temperature and the air conditioner displays this value.

The TT value is stored in addition to the customer's desired temperature at the beginning of the + N ° C temperature control (TT '). If the customer's desired temperature is lower than the TT 'value, operate at the TT' temperature. If the customer's desired temperature is equal to or greater than the TT 'value, it operates at the customer's desired temperature. During the + N ℃ temperature control, the consumer can change the desired temperature, but the actual operation operates above the TT 'value, and when the + N ℃ temperature control is terminated, the consumer returns to the desired temperature changed last time. If T of the received frame is '0', communication error processing (once retransmission request).

If Z of the received frame is '0', communication error is processed (one retransmission request). If Z is '0' even after retransmission, the default value is set to 10 minutes.

8 shows the communication flow of the periodic control function. If the TT value is ignored and any one of XX, YY, and ZZ is '00', a communication error is processed (one retransmission request). If any one is '00' after retransmission, the command is ignored and XX minutes OFF and YY minutes ON are repeated for ZZ minutes. After ZZ minutes, it returns to normal regardless of the current state.) During the YY minutes when the ON command is executed, the remote control is not displayed on the air conditioner.

9 is a flowchart of the normal return function. If a normal return command is received, it should return to normal under any circumstances. Here, the normal return means the operating state of the air conditioner before the control command.

10 is a communication flow diagram for a periodic signal. This command is used to prevent unauthorized disconnection of the receiver.

The air conditioner operates normally when it receives a periodic signal or a control signal once for 10 minutes. If no periodic signal or control command is received for 10 minutes, an error message is displayed, the current state is saved, and the air conditioner is stopped. If the operation is stopped, it waits. When receiving a periodic signal or control signal, the error message is cleared and it returns to the state before the stop.

According to the present invention as described above, through the presentation of the command structure and communication flow for the remote control air conditioner, the implementation method that remained only in theory has been realized, and more scientific design can be achieved. Implementation of various functions can be optimally controlled according to the situation.

With the addition of a command to turn off the compressor only while the air conditioner's blowing function and other functions are operating normally, consumers can enjoy a more pleasant environment from the discomfort of being controlled.

Unauthorized separation of receivers has been a hindrance to the spread of remote control air conditioners, but this can be solved through unauthorized separation prevention techniques (periodical signal transmission) to speed up the spread of remote control air conditioners.

In addition, by implementing a function and method for providing living information services (news breaking news, weather information, stock price information, economic information, etc.) to the air conditioner has the advantage that you can receive real-time data through the air conditioner.

In addition, it is possible to suppress summer peak load by activating the air conditioner spread according to the communication protocol and various functions of the remote control air conditioner. It is expected to contribute to the national economy by avoiding investment cost, energy saving, and environment-friendly system due to the delay of construction of power plant.

Claims (4)

In the communication protocol between the remote control processor and the receiver, The data form transmitted from the receiver to the processor of the air conditioner is composed of a command frame for controlling various operations of the air conditioner, and a life information frame for providing various life information such as stock price information, weather information, and news breaking. The command frame is composed of start, command, temperature setting, off time, duration, checksum, and stop frames, each of which is configured as 1 byte, to be transmitted at intervals of about 30 seconds. The life information frame comprises one information frame composed of a total of 44 bytes, each item consists of one byte, one message consists of five information frames of instructions 10 to 14, and the transmission pause time between frames is 2 The communication protocol for remote control air conditioners, which is set to seconds but the transmission pause time between messages is 3 minutes when one or more messages are sent continuously. The communication protocol for a remote control air conditioner according to claim 1, wherein when the air conditioner off command is transmitted by the command frame transmitted from the receiver, the air conditioner stops only the compressor and not the entire power supply. The air conditioner of claim 1, wherein, when the command frame transmitted from the receiver is received, the air conditioner transmits a response frame containing information such as communication success, communication error, information request, and the like, upon receiving the command frame from the receiver to the air conditioner. If the receiver does not receive a response frame within 5 seconds after the retransmission, the command frame having the same content is retransmitted to the air conditioner, and repeats the operation twice, characterized in that the remote control air conditioning communication protocol. The air conditioner according to claim 1, wherein the air conditioner determines that the receiver is in a normal state when the air conditioner receives the periodic signal or the control signal from the receiver for 10 minutes at all, and does not receive the periodic signal or the control signal even once for 10 minutes. If not, display the error message, save the current state, stop the air conditioner, wait for a certain period of time after the operation stop, and then receive a periodic signal or control signal from the receiver to return to the normal state again remote control Communication protocol for air conditioners.