KR101262724B1 - System and method for measuring temperature and humidity with multi-channel - Google Patents

Abstract

The present invention relates to a multi-channel temperature and humidity measurement system and a method thereof, and an object of the present invention is to accurately correct a counting value of a counter part by detecting it in real time when a clock delay (or faster) to a transmission interval delay occurs in a temperature and humidity device. The present invention provides a multi-channel temperature-humidity measurement system and method for ensuring transmission and reception of temperature-humidity information at an accurate cycle at all times.
Multi-channel temperature and humidity measuring system according to the present invention, a plurality of temperature and humidity device; And a monitoring device in data communication with the plurality of temperature and humidity devices, the temperature and humidity device comprising: a temperature and humidity sensor for detecting temperature or humidity; A counter unit for counting a temperature and humidity information transmission cycle; And a microcontroller for controlling the temperature and humidity information to be transmitted to the monitoring apparatus every transmission period based on the counting of the counter. The monitoring apparatus includes a temperature and humidity information transmission time specified by the temperature and humidity apparatus. A time difference calculation function for calculating whether or not the temperature humidity information has been transmitted at a time corresponding to the " specified time " And a memory in which a program for generating a correction signal for generating a correction signal for reflecting the calculation result to the counter unit of the temperature and humidity device and transmitting the result to the temperature and humidity device is realized.

Description

Multi-channel temperature-humidity measuring system and its method {SYSTEM AND METHOD FOR MEASURING TEMPERATURE AND HUMIDITY WITH MULTI-CHANNEL}

The present invention relates to a multi-channel temperature and humidity measurement system and method for periodically measuring the temperature and humidity of a plurality of points at regular time intervals, and more particularly, to calculate temperature difference information and generate a correction signal based on the temperature and humidity at an accurate cycle at all times. A multi-channel temperature and humidity measurement system capable of transmitting and receiving information, and a method thereof.

In general, in a process using precise manufacturing equipment, such as a semiconductor process or an LCD manufacturing process, the manufacturing environment changes when the temperature at which the equipment is installed changes, which affects product quality and yield. In such a process line, it is necessary to constantly measure the temperature and humidity of a plurality of points at regular time intervals. Such temperature measurement may be obtained by multi-measuring temperature and humidity information of multiple points using a multi-channel temperature and humidity measuring apparatus.

Conventional multi-channel temperature and humidity measuring apparatus comprises a plurality of temperature and humidity device having a temperature and humidity sensor for detecting temperature or humidity, and a counter unit for providing the clock information for counting the temperature and humidity information transmission cycle; And a monitoring device for data communication with the plurality of temperature and humidity devices, wherein each temperature and humidity device transmits temperature and humidity information of a corresponding point every cycle with a predetermined transmission interval therebetween.

Referring to the conventional multi-channel temperature and humidity measuring device, the operator manually turns on the power switches of the plurality of temperature and humidity devices at regular time intervals, and the temperature and humidity device monitors the corresponding temperature and humidity information at regular intervals from the point of time to the monitoring device. It works to transmit.

However, the above-described conventional multichannel temperature and humidity measuring apparatus has some limitations and problems. The first problem is that it is difficult for an operator to operate a plurality of temperature and humidity devices in sequence at precise intervals. It is difficult for workers to turn on multiple temperature and humidity devices at precise intervals because the worker searches for several temperature and humidity devices and proceeds by hand to turn on the temperature at regular intervals with a timer. The next problem is that even if the clocks of the counters provided for each temperature / humidity device are different, and the temperature / humidity devices are “on” at regular intervals, the transmission time is collided between neighboring temperature-humidity devices after a considerable time.

There is a counter that generates a transmission cycle based on the time when the power switch of the temperature and humidity device is turned on. Even if a counter clock is produced by the same manufacturer, the clock cycles are not exactly the same and there are variations. Therefore, when the temperature and humidity device is operated for a considerable time, the temperature and humidity information is simultaneously transmitted from neighboring temperature and humidity devices according to the length of the clock cycle provided in the counter. In this case, an error due to a data collision occurs. There was this.

In addition, the conventional multi-channel temperature-humidity measuring device transmits an ACK signal to the corresponding temperature-humidity device when the monitoring device normally receives temperature-humidity information from a specific temperature-humidity device, even if the temperature-humidity device transmits temperature-humidity information, and responds to the ACK signal. If not received, the operation of retransmitting the corresponding temperature and humidity information is executed.

However, the process of retransmitting the temperature and humidity information takes time of several hundred msec. When the time required for retransmission accumulates, the temperature and humidity device # 1 performing the retransmission and the temperature and humidity device # 1 transmits the temperature and humidity information in turn. The delay of the transmission interval occurs between the two, causing the same problem as the above-mentioned problem.

The present invention has been made to solve the above problems, the object of the present invention is to always correct the counting value of the counter part of the temperature and humidity device by detecting this in real time when the temperature and humidity of the temperature and humidity information is sent from the temperature and humidity device is always correct The present invention provides a multi-channel temperature and humidity measurement system and method for ensuring transmission and reception of temperature and humidity information at an accurate period.

Multi-channel temperature and humidity measuring system according to the present invention for achieving the above object, a plurality of temperature and humidity device; And a monitoring device in data communication with the plurality of temperature and humidity devices, the temperature and humidity device comprising: a temperature and humidity sensor for detecting temperature or humidity; A counter unit for counting a temperature and humidity information transmission cycle; And a microcontroller for controlling the temperature and humidity information to be transmitted to the monitoring apparatus every transmission period based on the counting of the counter. The monitoring apparatus includes a temperature and humidity information transmission time specified by the temperature and humidity apparatus. A time difference calculation function for calculating whether or not the temperature humidity information has been transmitted at a time corresponding to the " specified time " And a memory in which a program for generating a correction signal for generating a correction signal for reflecting the calculation result to the counter unit of the temperature and humidity device and transmitting the result to the temperature and humidity device is realized.

According to the multi-channel temperature-humidity measurement system and method thereof of the present invention, unlike the conventional temperature-humidity apparatus, counting of the temperature-humidity information transmission period when the start command is received from the monitoring device other than the time when the power switch is turned on (that is, the counter unit) Timer operation) and generates a correction signal based on the time difference information calculated using the time received by the monitoring device and reflects it in the transmission cycle in real time so that It was able to send and receive. Therefore, there is a remarkable effect that two or more temperature and humidity devices can fundamentally eliminate the data collision problem caused by transmitting the temperature and humidity information at the same time.

1 is a system configuration diagram showing the overall configuration of a multi-channel temperature-humidity measurement system according to the present invention.
Figure 2 is a block diagram of a temperature and humidity device according to the present invention.
Figure 3 is a block functional diagram showing various functions of the monitoring apparatus according to the present invention.
Figure 4 is a flow chart of the operation between the temperature and humidity device and the monitoring device of the multi-channel temperature and humidity measurement system according to the present invention.

In the present invention, when constructing a multi-channel temperature-humidity measurement system for periodically measuring the temperature-humidity of a plurality of points at regular time intervals, the temperature-humidity information is calculated using time received by the monitoring device and is reflected in a transmission cycle in real time. The technical feature of guaranteeing that the temperature and humidity information can be transmitted and received at an accurate cycle is always disclosed.

In the following, preferred embodiments, advantages and features of the present invention will be described in detail with reference to the accompanying drawings.

1 is a system configuration diagram showing the overall configuration of a multi-channel temperature and humidity measurement system according to the present invention.

Referring to Figure 1, the multi-channel temperature and humidity measurement system of the present invention is characterized in that it is configured to include a temperature and humidity device 10, a wireless transmitter and receiver 30, and a monitoring device 20.

The temperature and humidity device 10 is installed at a point where temperature or humidity is to be grasped, and is a component for periodically measuring the temperature and humidity of the corresponding point. The temperature and humidity device 10 is connected to the monitoring device 20 to be capable of data communication. have.

In particular, the multi-channel temperature-humidity measuring system of the present invention is provided with a plurality of temperature and humidity device 10 so as to periodically grasp the temperature and humidity of a plurality of points, the plurality of temperature and humidity device 10 is installed separately at the point where you want to measure the temperature and humidity All are connected to the specific monitoring device 20 and the data communication. Therefore, the temperature and humidity information of the corresponding point detected by each temperature and humidity device 10 is periodically transmitted to the specific monitoring device 20.

In addition, the temperature and humidity device 10 is characterized in that it is configured to transmit the temperature and humidity information at an accurate period at all times by receiving the correction signal from the monitoring device 20 and reflecting it in real time in the transmission period.

The monitoring device 20 is a component that collectively receives temperature and humidity information of a corresponding point from a temperature and humidity device installed at various points and expresses it to the outside. The monitoring device 20 communicates data with the temperature and humidity device 10. It is connected as possible.

In addition, the monitoring device 20 calculates the time difference information using the time received by the temperature and humidity information to the monitoring device 20, generates a correction signal based on the time difference information and transmits it to the corresponding temperature and humidity device 10. It is characterized in that configured to.

Wireless transmitter and receiver 30 is a component for relaying the wireless data transmission and reception between the temperature and humidity device 10 and the monitoring device 20, the wireless transmitter and receiver 30 according to the preferred embodiment of Figure 1 is a wireless communication with the temperature and humidity device 10 It is connected to transmit and receive predetermined data (ie, temperature and humidity information and correction signal), and is configured to transmit and receive predetermined data (ie, temperature and humidity information and correction signal) in the serial communication connection with the monitoring device 20 do.

The radio transceiver 30 is preferably configured to enable wireless communication using the temperature and humidity device 10 and RF (Radio Frequency). The wireless transmitter / receiver 30 also includes a reception frequency (Rx, Receive Frequensy) for receiving temperature and humidity information from the temperature and humidity device 10, and a correction signal transmitted from the monitoring device 20 to the temperature and humidity device 10. The transmission frequency (Tx, Transmit Frequency) can be set separately so that data can be transmitted and received simultaneously.

2 is a block diagram of a temperature and humidity device according to the present invention. Referring to FIG. 2, the temperature and humidity device 10 of the present invention includes a display window 11, a power switch 12, a temperature and humidity sensor 13, a counter 14, an RF module 15, a power supply 16, and It is configured to include a microcontroller 17.

The display window 11 may be configured such as on / off state of the temperature and humidity device 10, measured temperature and humidity values, power remaining amount, device number (eg, ID to unique number uniquely assigned to the device, etc.). As a component for displaying the status and operation information to the outside, it is preferably composed of a display unit employing an LCD or LED.

The power switch 12 refers to an on / off switch for controlling supply and interruption of power supplied to the temperature and humidity device 10. Conventional temperature and humidity device is configured to start counting the temperature and humidity information transmission cycle at the same time when the power switch on (On), the temperature and humidity device 10 of the present invention, unlike the conventional temperature and humidity device is turned on the power switch 12 ( It is characterized in that it is configured to start the counting (that is, the timer operation of the counter unit) of the temperature and humidity information transmission cycle at the time when receiving the start command from the monitoring device 20, not the time when the On. This is because the monitoring device 20 detects time difference information and generates a correction signal based on the time difference information, and thus transmits and receives temperature and humidity information at an accurate period at all times, which will be described later.

The temperature and humidity sensor 13 is a component for detecting temperature and / or humidity at a point where the temperature and humidity device 10 is installed, and the temperature and humidity sensor 13 may adopt various known forms. Description of the description will be omitted.

The counter unit corresponds to a component that implements a timer function based on the clock information. Specifically, the clock information refers to an elapsed time of hours, minutes, and seconds, and the timer function is an interrupt signal indicating that a predetermined time has elapsed by counting it based on clock information. Interval Timer function.

The temperature and humidity device 10 determines the elapse of the transmission period through the timer function realized by the counter unit 14 based on the clock information, and the temperature and humidity information detected by the temperature and humidity sensor 13 at every transmission period thus determined. It will be transmitted to the monitoring device 20.

On the other hand, among the clock information of the counter unit 14, the unit of seconds (sec) is subdivided up to several hundred msec units, and the clock information is preferably configured to be able to add or decrease corrections of several hundred msec units. Even when the transmission interval delay and the clock delay (or faster) occur at a minute level, it detects it and reflects it in the transmission cycle in real time to ensure that the temperature and humidity information can be transmitted and received at an accurate cycle at all times.

The power supply unit 16 is a component supplying power for the operation of the temperature and humidity device 10, and may be configured to be connected to an external power source through a power line, as well as a battery and a secondary battery.

The RF module 15 is a component for transmitting the temperature and humidity information to the monitoring device 20 through wireless communication. The temperature and humidity device 10 monitors the corresponding temperature and humidity information at every transmission cycle through the relay of the wireless transmitter and receiver 30. To the device 20. That is, when the temperature and humidity device 10 transmits the temperature and humidity information to the wireless transmitter and receiver by RF communication using the RF module 15, the wireless transmitter and receiver 30 receives this and provides it to the monitoring device 20.

The microcontroller is a component corresponding to the controller, and functions to control the temperature and humidity information to be transmitted to the monitoring device 20 by an interrupt signal generated from the counter 14. That is, the microcontroller 17 recognizes an interrupt signal indicating that a predetermined time (i.e., temperature and humidity information transmission cycle) has elapsed through the interval timer function of the counter unit 14, and recognizes when the elapsed event occurs. Correspondingly, a processing operation for transmitting a data signal containing a temperature and humidity value at that time to the monitoring device 20 through the RF module 15 is performed.

In addition, the microcontroller 17 functions to initialize the temperature and humidity device 10 upon receiving a start command from the monitoring device 20 and to control the temperature and humidity device 10 to start various operations. The "initialization of the temperature / humidity device" includes, in particular, the reset of the timer function of the counter unit 14, and may further include the initialization of the temperature-humidity sensor 13 and the display window 11. In addition, the "start of the general operation of the temperature and humidity apparatus" includes, in particular, the start of the timer operation for the transmission cycle counting, and further includes the start of the temperature and humidity measurement by the temperature and humidity sensor 13 and the transmission of the temperature and humidity information.

In addition, the microcontroller 17 realizes a function of correcting the counter 14 by using the correction signal received from the monitoring device 20, so that the microcontroller 17 can correct the error in the temperature and humidity information transmission cycle in real time. The "counter part correction" refers to a correction that adds or subtracts a current difference value of the counter unit 14 by a time difference value calculated by the monitoring device 20, and the "error of the transmission period" refers to a plurality of temperature and humidity levels. A delay of a transmission interval set between devices to a clock delay (or faster) of clock information. A more detailed description thereof will be described later.

3 is a block functional diagram showing various functions of the monitoring apparatus according to the present invention. The monitoring device 20 of the present invention refers to a conventional computer device having at least a central processing unit (CPU), a memory and a wired / wireless communication module. For reference, the term "memory" used in the present invention refers to a storage device of a comprehensive meaning as a means for recording and storing data, programs, and the like, and includes, for example, both a hard disk, an external memory, and an internal memory.

Referring to FIG. 3, the monitoring apparatus 20 includes an ID registration function 21, a start command function 22, an ACK signal transmission function 23, a time difference calculation function 24, a correction signal generation function 25, and a correction. A memory in which a program for realizing the signal transmission function 26 is recorded is provided.

The ID registration function 21 receives and stores an ID or a unique number (hereinafter referred to as "ID") uniquely assigned to each of the plurality of temperature and humidity devices 10 constituting the multi-channel temperature and humidity measurement system. it means. Therefore, the monitoring device 20 can identify each temperature and humidity device 10 through each ID stored in the storage device collectively, and also identify which temperature and humidity device has an error in the transmission cycle. It is possible to transmit the correction signal to the temperature and humidity device (10).

The start command function 22 sequentially transmits a start message to the plurality of temperature and humidity devices 10 connected to the monitoring device 20 by using each ID registered and stored in the monitoring device 20. Means a function of instructing execution of various operations of the apparatus 10. The " execution of the general operation of the temperature / humidity device " includes the operation of a timer for counting transmission cycles, time-lapse of clock information, measurement of temperature-humidity, transmission of temperature-humidity information, and the like.

Meanwhile, the monitoring device 20 of the present invention transmits the start message at a predetermined time interval (for example, two second intervals) in order to sequentially transmit the start message to the plurality of temperature and humidity devices 10. Temperature and humidity apparatus 10 transmits the temperature and humidity information sequentially with a predetermined transmission interval.

The ACK signal transmission function 23 means a function of transmitting an acknowledgment message for the temperature and humidity device 10 when the monitoring device 20 normally receives temperature and humidity information from a temperature and humidity device.

Meanwhile, if the temperature and humidity device 10 does not receive the ACK signal from the monitoring device 20 after transmitting the temperature and humidity information, the temperature and humidity information is retransmitted correspondingly.

The time difference calculating function 24 calculates the time difference information by calculating whether the temperature and humidity device 10 transmits the temperature and humidity information at a time corresponding to the temperature and humidity information transmission time (hereinafter referred to as "specified time") specified in the temperature and humidity device 10. Means the ability to extract.

The "specified time" is a temperature and humidity information transmission time of each temperature-humidity device 10 which is determined at regular time intervals according to the order of IDs stored in the monitoring device 20. Specifically, the monitoring device 20 starts according to the ID order. It means the time to return every transmission period from the time when the signal is transmitted (or the time when the monitoring device first receives the temperature and humidity information).

On the other hand, the "order of ID" may be arbitrarily determined by the monitoring device (or operator), or the order may be set in various ways such as ascending to descending order.

For example, the temperature and humidity information transmission cycle set in the temperature and humidity device A, the temperature and humidity device B, and the temperature and humidity device C is 1 minute, and the monitoring device 20 sequentially issues a start command to the temperature and humidity device A, the temperature and humidity device B, and the temperature and humidity device C at intervals of 2 seconds. Suppose you sent it. In this case, the temperature-humidity device A is designated as the designated time of the temperature-humidity device A by adding one minute from the time when the temperature-humidity information is first transmitted, and the temperature-humidity device B is delayed by 2 seconds (ie, 2 seconds The transmission interval) may be designated as the designated time of the temperature and humidity device A, and the temperature and humidity device C may be designated as the designated time of the temperature and humidity device C by a delay of 2 seconds from the designated time of the temperature and humidity device B.

Based on the above specified time, the monitoring device 20 of the present invention performs the time difference calculation function 24. That is, the time difference calculation function 24 uses the time when the temperature and humidity information is received by the monitoring device 20 (hereinafter referred to as a "receive time") and the designated time of each of the above-described temperature and humidity device 10, and compared with the designated time. The time difference information (ie, time difference value) is calculated by calculating the difference with the reception time.

The correction signal generation function 25 and the transmission function 26 generate a correction signal for reflecting the time difference information calculated by the time difference calculation function 24 to the counter unit 14 of the corresponding temperature and humidity device 10, and then the corresponding temperature and humidity device. Means the function to send to 10.

Meanwhile, the correction signal transmission function 26 transmits a correction signal through the wired / wireless communication module of the monitoring device 20, and the correction signal transmitted in this manner is included in the aforementioned ACK signal and transmitted together or separately in a message form. Can be configured to

More specifically, the correction signal generation and transmission function generates a correction signal indicating a time difference value of "0" as the time difference value is expressed as "0" when the reception time and the predetermined time match as a result of the above operation. When the reception time is slower than the designated time, the correction signal indicating a time difference value of "positive" is generated and transmitted to the temperature and humidity device 10, and the reception time is If it is earlier than the designated time, a correction signal representing a time difference value of "negative (-)" is generated and transmitted to the corresponding temperature and humidity device 10.

On the other hand, when the temperature and humidity device 10 receives a predetermined correction signal from the monitoring device 20, the temperature difference value indicated by the received correction signal is reflected to the counter unit 14 so that the temperature and humidity in the transmission period in which the time difference value is reflected Allows you to transmit information.

The method of reflecting the time difference value to the counter unit is configured to perform correction by adding or subtracting the time difference value received by the temperature and humidity device 10 to the current counting value of the corresponding temperature and humidity device counter unit 14. It is preferable to correct the transmission interval delay or the delay (or faster) of the clock information itself according to the failure to transmit the temperature and humidity information in real time, so that the temperature and humidity information can be transmitted and received at an accurate cycle at all times.

For reference, the counter unit 14 of the present invention includes a register. When the timer function of the counter unit 14 is activated, the current counting value is stored every time in the register. The "correction by which the temperature difference value received by the temperature-humidity device is added to or subtracted from the current counting value of the corresponding temperature-humidity device counter part 14" is the time counted to the current counting value stored in the register of the counter part 14 as described above. It means to add or subtract the difference.

4 is a flowchart illustrating a work flow between a temperature and humidity device and a monitoring device of a multi-channel temperature and humidity measurement system according to the present invention.

Hereinafter, the technical flow between the temperature and humidity device and the monitoring device for the multi-channel temperature and humidity measurement method of the present invention will be described with reference to FIG. 4.

First, all the power switches 12 of the plurality of temperature and humidity devices 10 are turned on (S10), and the IDs uniquely assigned to the plurality of temperature and humidity devices 10 are registered and stored in the monitoring device 20. (S20)

When all ID registration is completed, the start message is sequentially started at a predetermined time interval to a plurality of temperature and humidity devices 10 connected to the monitoring device 20 by using each ID stored in the monitoring device 20. ) Is transmitted (S30). On the other hand, when the sequential transmission step of the start message (Start Command) is executed, the above-described designated time is determined in each temperature and humidity device 10.

Next, each temperature and humidity device 10 sequentially receiving the start message (Start Command) starts the overall operation of the temperature and humidity device 10 including a timer operation for counting the transmission period (S40), every transmission period Every time the temperature and humidity information of the point is detected and transmitted to the monitoring device 20 (S50).

Next, the monitoring device 20 uses the time when the temperature and humidity information is received by the monitoring device 20 (hereinafter referred to as "receipt time") and the designated time of the corresponding temperature and humidity device 10, and the reception time compared with the designated time. The time difference information (that is, the time difference value) is calculated by calculating the difference value of (S60).

Next, in order to reflect the calculated time difference information to the counter unit 14 of the temperature and humidity device 10, the monitoring device 20 generates a correction signal indicating the time difference value and transmits it to the temperature and humidity device 10. (S70).

Next, the temperature-humidity device 10 that has received the correction signal indicating the predetermined time difference value corrects the counter 14 by adding or subtracting the corresponding time difference value to the current counting value of the counter 14. By correcting the transmission interval delay due to the transmission failure or the delay (or faster) of the clock information itself, the temperature and humidity information can be transmitted and received at an accurate cycle at all times.

As described above, the multi-channel temperature-humidity measurement system of the present invention calculates time difference information using the time when the temperature-humidity information is received by the monitoring device 20, generates a correction signal based on this, and reflects it in a transmission cycle in real time. By doing this, the temperature and humidity information can be transmitted and received at an accurate cycle all the time, and there is an excellent effect of preventing the occurrence of errors due to data collision.

While the preferred embodiments of the present invention have been described and illustrated above using specific terms, such terms are used only for the purpose of clarifying the invention, and it is to be understood that the embodiment It will be obvious that various changes and modifications can be made without departing from the spirit and scope of the invention. Such modified embodiments should not be understood individually from the spirit and scope of the present invention, but should be regarded as being within the scope of the claims of the present invention.

10: temperature and humidity device 11: display window
12: power switch 13: temperature and humidity sensor
14: counter 15: RF module
16: power supply 17: microcontroller
20: monitoring device 30: wireless transceiver

Claims (10)

delete A plurality of temperature and humidity devices; And a monitoring device in data communication with the plurality of temperature and humidity devices.
The temperature and humidity device includes a temperature and humidity sensor for detecting temperature or humidity; A counter unit for counting a temperature and humidity information transmission cycle; And a microcontroller controlling to transmit temperature and humidity information to the monitoring apparatus every transmission period based on the counting of the counter unit.
The monitoring device may further include: a time difference calculation function for calculating whether the temperature and humidity device has transmitted temperature humidity information at a time corresponding to the temperature and humidity information transmission time (hereinafter referred to as "specified time") designated for the temperature and humidity device; And a memory in which a program for realizing a correction signal generation and transmission function for generating a correction signal for reflecting the operation result to the counter unit of the temperature and humidity device and transmitting the correction signal to the temperature and humidity device is provided.
The time difference calculation function uses a time (hereinafter, referred to as a "reception time") when the temperature and humidity information is received by the monitoring device, and a difference value from the reception time to the designated time (hereinafter, referred to as a "time difference value"). Multi-channel temperature and humidity measurement system, characterized in that to realize the function to calculate the.
The method of claim 2,
The correction signal generation and transmission function may generate a negative time difference value, a positive time difference value, or a zero time difference value based on the time difference value calculated through the time difference calculation function. It generates a correction signal indicating and transmits to the temperature and humidity device,
The temperature and humidity device which receives any one of the negative time difference value, the positive time difference value, and the zero time difference value includes a transmission period in which the received time difference value is reflected. Multi-channel temperature and humidity measurement system, characterized in that for transmitting the temperature and humidity information to the monitoring device.
The method of claim 3,
The temperature / humidity device transmits the temperature / humidity information to the monitoring device in a transmission period in which the time difference value is reflected by correcting by adding or subtracting the received time difference value to the current counting value of the counter unit. Measuring system.
The method of claim 2,
And the temperature and humidity device starts counting the temperature and humidity information transmission period when receiving the start command from the monitoring device.
The method of claim 2,
The memory provided in the monitoring device further includes a program for realizing an ID registration function for registering and storing IDs or unique numbers (hereinafter, collectively referred to as "IDs") uniquely assigned to the plurality of temperature and humidity devices. Become,
The predetermined time periods respectively assigned to the plurality of temperature and humidity devices are determined at regular time intervals according to the order of the respective IDs stored in the monitoring device.
The method of claim 2,
The multi-channel temperature and humidity measurement system further includes a wireless transceiver for relaying data transmission and reception between the temperature and humidity device and the monitoring device,
The temperature and humidity device further includes an RF module to transmit and receive the temperature and humidity information and the correction signal through the RF communication with the wireless transceiver,
The monitoring device is a multi-channel temperature and humidity measurement system characterized in that the serial communication is connected to the wireless transmitter and configured to transmit and receive the correction signal and temperature and humidity information.
delete A plurality of temperature and humidity devices including a temperature and humidity sensor for detecting temperature or humidity and a counter for counting a temperature and humidity information transmission cycle; And a multi-channel temperature and humidity measurement method based on a monitoring device in data communication with the plurality of temperature and humidity devices.
An ID registration step of the monitoring device registering and storing IDs or unique numbers (hereinafter, collectively referred to as "IDs") uniquely assigned to the plurality of temperature and humidity devices;
A start command transmitting step of transmitting, by the monitoring apparatus, a start command at a predetermined time interval according to the order of the respective IDs stored in the monitoring apparatus;
A temperature and humidity device operation start step in which each temperature and humidity device sequentially receiving the start message starts an operation including counting of temperature and humidity information transmission cycles;
A temperature and humidity information transmission step of transmitting, by the temperature and humidity device, the temperature and humidity information of the corresponding point in each transmission period to the monitoring device;
The monitoring device uses the time when the temperature and humidity information is received by the monitoring device (hereinafter referred to as "receive time") and the temperature and humidity information transmission time designated by the corresponding temperature and humidity device (hereinafter referred to as "specified time"). Calculating a time difference value by calculating a difference value with a contrast reception time;
Generating and transmitting, by the monitoring apparatus, a correction signal for generating a correction signal representing the calculated time difference value and transmitting the correction signal to the temperature and humidity device; And
A counter part correcting step of correcting, by the temperature and humidity device, a counter part of the temperature and humidity device by using a time difference value indicated by the correction signal,
The counter unit correction step is a multi-channel temperature and humidity measurement method, characterized in that the correction by adding or subtracting the time difference value represented by the correction signal to the current counting value of the counter unit.
10. The method of claim 9,
The predetermined time is multi-channel temperature and humidity measurement method characterized in that the predetermined time interval is determined according to the order of each ID stored in the monitoring device.

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