KR102065188B1 - Module for providing time information and method of providing time information using the same - Google Patents

Abstract

The present invention relates to a time information providing module and a time information providing method using the same, capable of reducing an actual error. The time information providing module of the present invention comprises: a network communication unit; a time information providing unit for providing a current time; a temperature sensor for measuring a temperature; a control unit; a time offset setting unit for setting an offset in time information on the time information providing unit; a memory; and a battery for supplying power.

Description

Module for providing visual information and method for providing visual information using the same {MODULE FOR PROVIDING TIME INFORMATION AND METHOD OF PROVIDING TIME INFORMATION USING THE SAME}

The present invention relates to a time information providing module and a method of providing time information using the same. More particularly, the present invention provides a standard time received from a network time server while providing a time information providing unit (RTC: Real Time Clock). Synchronize the time information and measure the temperature at this time to generate and store the actual clock drift value of the RTC according to the temperature in the form of a data table to compensate for the clock drift value corresponding to the temperature in the event of network failure to improve the error of the RTC It relates to a visual information providing module and a visual information providing method using the same.

As technology advances, the necessity and demand for accurate time are increasing day by day in various fields such as finance, transportation, power, automation, e-commerce, security and security systems.

Electronic devices used in these fields have a real time clock (RTC) embedded therein, which provides time information by counting a clock signal supplied from a crystal oscillator. .

However, the crystal oscillator is sensitive to temperature and has a characteristic of changing the frequency of the clock signal according to the temperature change, which causes a time error of several minutes every few seconds every month.

Therefore, products that maintain the oscillation frequency relatively accurately by controlling or compensating temperature such as OCXO (Oven Controlled Crystal Oscillator) and TCXO (Temperature Compensated Crystal Oscillator) have come out, but the product is expensive and the circuit is complicated.

Therefore, it is necessary to provide accurate time by compensating for the frequency change output from the crystal oscillator according to the ambient temperature change without using the expensive crystal oscillator such as OCXO or TCXO.

On the other hand, there is a "mobile communication terminal having a RTC frequency compensation circuit" of Publication No. 10-2007-0071671 (published on July 04, 2007) as a prior document related to the present invention to be described later.

However, the technique of the above-mentioned "mobile communication terminal having an RTC frequency compensation circuit" of the prior document does not determine whether an error occurs according to temperature, but uses a difference in count value generated by counting a low frequency clock signal at a high frequency. Determine whether an error occurs.

Therefore, the above-mentioned prior document is different from the present invention described later.

The present invention was created to solve the above problems, while providing the standard time received from the network time server to synchronize the time information of the RTC and to measure the temperature at this time to the actual clock drift value of the RTC according to the temperature data The purpose of the present invention is to provide a visual information providing module and a method of providing visual information using the same, which can reduce the error of the RTC by compensating the clock drift value corresponding to temperature even in the event of a network failure by generating and storing in a table form.

The visual information providing module of the present invention for achieving the above object,

A network communication unit which receives a standard time from a network time server;

A visual information providing unit providing a current time;

A temperature sensor for measuring a temperature;

A control unit for receiving a standard time of the network time server through the network communication unit, receiving a current time from the time information providing unit, and comparing and controlling the standard time and the current time;

Receive the comparison control information of the standard time and the current time from the control unit to set an offset to the time information of the time information providing unit, or receive the actual clock drift value of the time information providing unit according to the temperature from the control unit to provide the time information A time offset setting unit for setting an offset in negative time information;

A memory for storing an actual clock drift value of the time information providing unit according to a temperature and providing the clock drift value to the controller;

And a battery for supplying power to the network communication unit, the time information providing unit, the control unit, the time offset setting unit, the temperature sensor, and the memory.

The control unit,

When receiving the standard time from the network communication unit, a clock drift value is obtained by comparing the standard time with the current time of the time information providing unit,

In this case, the actual clock drift value of the time information providing unit for each temperature together with the temperature measured by the temperature sensor is stored in the memory in the form of a data table.

In the present invention, when the control unit outputs the current time of the time information providing unit when the standard time is not received from the network communication unit, the clock drift value corresponding to the temperature measured by the temperature sensor in the memory. Receive and compensate to reduce the current time error of the time information providing unit.

The visual information providing method using the visual information providing module for achieving the above object,

(a) checking a connection state of the network communication unit;

(b) checking whether the network setting of the network communication unit is normal;

(c) receiving the current temperature measured by the temperature sensor of the time information providing module from the controller of the time information providing module when the network setting is not normal in step (b);

(d) in the control unit, reading a current time offset value according to a temperature of the time information providing unit of the time information providing module from the memory of the time information providing module;

(e) applying, by the controller, the current time offset value to the time information providing unit;

(f) receiving a current time in the control unit from the time information providing unit;

(g) outputting the current time from the control unit.

In the present invention, (h) in the step (b), if the network setting is normal, receiving a standard time of a network time server from the controller; (i) determining whether the standard time received in step (h) is normal; (j) in step (i), if the reception of the standard time is normal, applying the current time offset value to the time information providing unit by the control unit; (k) receiving a current time in the control unit from the time information providing unit; (l) comparing the standard time with the current time by synchronizing with the controller; (m) determining whether there is a difference between the compared standard time and the current time; (n) in step (m), if there is a difference in the comparison time, measuring a current temperature at the temperature sensor; (o) calculating an actual clock drift of the time information providing unit according to the measured temperature; (p) generating and storing a current temperature and an actual clock drift value of the time information providing unit in the form of a data table in the memory; setting a current time offset value of the time information providing unit in the time offset setting unit of the time information providing module; (r) correcting a current time of the time information providing unit; (s) outputting the standard time.

In the present invention, in step (i), when the reception of the standard time is normal, the step (c) or less is performed, and in step (m), if there is no difference in the comparison time, the step ( perform s).

According to an embodiment of the present invention, when the standard time is normally received from the network time server, the standard time is expressed, and the actual clock drift value of the RTC is calculated according to the temperature, and the data is stored in the memory in the form of a data table (clock drift value for each temperature). When generating and storing and outputting the current time of the RTC due to network failure, the error of the RTC can be reduced by correcting the time (time) by reading the clock drift value corresponding to the temperature measured by the temperature sensor from the data table of the memory. .

In addition, by incorporating a battery, even when the external power is not applied, it is possible to generate and maintain visual information for a long time by itself, and when the external power is applied again, the current time and date may be immediately displayed without additional setting.

Therefore, it is possible to provide accurate current time or standard time.

1 is a block diagram showing the configuration of a visual information providing module according to the present invention.
2 is a flowchart illustrating a method of providing time information using the time information providing module according to the present invention in sequence.
3 is a graph illustrating a clock signal frequency change according to a temperature change of a time information providing unit applied to a time information providing module and a method of providing time information using the same according to the present invention.

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

1 is a block diagram showing the configuration of a visual information providing module according to the present invention.

Referring to FIG. 1, the time information providing module according to the present invention includes a network communication unit 11 that receives a standard time from a network time server, which is a NTP (Network Time Protocol) server, and a time providing a current time. The standard time of the network time server is received through the information providing unit 13, the temperature sensor 15 measuring the temperature, and the network communication unit 11, and the current time is received from the time information providing unit 13. And a control unit 14 for comparing and controlling the standard time and the current time.

The visual information providing unit 13 is made of an RTC chip (IC).

In addition, the time information providing module according to the present invention receives the comparison control information of the standard time and the current time from the control unit 14 to set an offset to the time information of the time information providing unit 13 or to the temperature. A time offset setting unit 16 for receiving an actual clock drift value of the time information providing unit 13 from the control unit 14 and setting an offset to the time information of the time information providing unit 13; A real clock drift value of the time information providing unit 13 according to the memory 17 and providing the clock drift value to the control unit 14, the network communication unit 11, and the time information providing unit 13. ), A control unit 14, a time offset setting unit 16, a temperature sensor 15, and a battery (charge circuit) 12 for supplying power to the memory 17.

When the standard time is received from the network communication unit 11, the controller 14 compares the standard time with the current time of the time information providing unit 13 to obtain a clock drift value.

At this time, the actual clock drift value of the time information providing unit 13 for each temperature together with the temperature measured by the temperature sensor 15 is stored in the memory 17 in the form of a data table.

In addition, when the control unit 14 outputs the current time of the time information providing unit 13 when the standard time is not received from the network communication unit 11, the temperature is stored in the memory 17. The clock drift value corresponding to the temperature measured by the sensor 15 is received and compensated to reduce the current time error of the time information providing unit 13.

Therefore, even in the event of a failure in network communication, a more accurate time can be provided to the time information providing module according to the present invention.

On the other hand, the time information providing module according to the present invention can be mounted on all devices that need to provide accurate time, such as digital clock, street light, security lamp or CCTV.

The visual information providing method using the visual information providing module having the configuration as described above is as follows.

2 is a flowchart illustrating a method of providing visual information using the visual information providing module according to the present invention in sequence.

1 and 2, in the method for providing time information using the time information providing module according to the present invention, first, a connection state of the network communication unit 11 is checked.

Then, it is checked whether the network setting of the network communication unit 11 is normal (step 120).

When the network setting is not normal in step 120, the controller 14 of the time information providing module receives the current temperature measured by the temperature sensor 15 of the time information providing module (step 130).

In addition, the controller 14 retrieves the current time offset value according to the temperature of the time information providing unit 13 of the time information providing module from the memory 17 of the time information providing module (step 140).

Subsequently, the control unit 14 applies the current time offset value to the time information providing unit 13 (step 150).

Then, the controller 14 receives the current time from the time information providing unit 13 (step 160).

In addition, the controller 14 outputs the current time (step 170).

In step 120, if the network setting is normal, the controller 14 receives the standard time of the network time server.

Then, it is determined whether the standard time received in step 180 is normal.

In step 190, when the reception of the standard time is normal, the controller 14 applies the current time offset value to the time information providing unit 13 (step 210).

In addition, the controller 14 receives the current time from the time information providing unit 13 (step 220).

Subsequently, the controller 14 compares the standard time with the current time (step 230).

Then, it is determined whether there is a difference between the compared standard time and the current time (step 240).

In step 240, if there is a difference in the compared time, the temperature sensor 15 measures the external current temperature (step 250).

In addition, the actual clock drift of the measured time information providing unit 13 is calculated.

Subsequently, the controller 14 generates and stores a current temperature and an actual clock drift value of the time information providing unit 13 in the form of a data table in the memory 17 (step 270).

Then, the time offset setting unit 16 of the time information providing module sets the current time offset value of the time information providing unit 13 (step 280).

In addition, the current time of the time information providing unit 13 is corrected (step 290).

Then, the standard time is output (step 310).

On the other hand, in step 190, when the reception of the standard time is normal, the step 130 or less is performed.

In step 240, if there is no difference in the compared time, step 310 is performed.

As described above, according to the present invention, the time information providing module and the time information providing method using the same provide a standard time when the standard time is normally received from the network time server. The actual clock drift value of 13) is calculated and generated and stored in the memory 17 in the form of a data table (real clock drift value for each temperature).

When a network failure occurs and the current time of the time information providing unit (RTC) 13 is output, the clock drift value corresponding to the temperature measured by the temperature sensor 15 is read from the data table of the memory 17 and the time ( By correcting the time, the error of the RTC can be reduced.

3 is a graph illustrating a change in clock signal frequency according to temperature change of the time information providing unit (RTC) 13.

Referring to the graph of FIG. 3, the frequency change of the clock signal according to the temperature change in the three sample tests shows a similar tendency as the polynomial fit of AVE curve, but in reality, each time information providing unit (RTC) is different from each other. It can be seen that. As such, since the frequency of the clock signal of the time information providing part (RTC) 13 varies according to temperature and is different from each other, the external temperature is measured by the temperature sensor 15, and the time information providing part according to the measured temperature is provided. The individual actual clock drift values of the (RTC) 13 are made into a data table and stored in the memory 17 for use.

On the other hand, conventionally, standard time information could not be received from an NPT server when a network failure occurred.

In addition, the visual information providing module according to the present invention has a built-in battery 12, it is possible to generate and maintain the visual information itself for a long time even when the external power is not applied, if the external power is applied again The current time and date can be displayed immediately without setting.

Therefore, it is possible to provide accurate current time or standard time.

In the present invention, the network communication unit for receiving the standard time from the network time server for receiving the standard time in the time providing module of the present invention, the source (source) of the standard time (Global Positioning System (GPS), long wave The network communication unit which receives the standard time from the network time server may also be replaced by the standard time information receiver that receives the standard time from GPS, longwave, and radio time signals.

As described above, the present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and various modifications and equivalent embodiments may be made by those skilled in the art. Will understand.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

11. Network Communication Department
12. Battery
13. Visual information provider
14. Control
15. Temperature sensor
16. Time offset setting part
17. Memory

Claims (6)

A network communication unit which receives a standard time from a network time server;
A visual information providing unit providing a current time;
A temperature sensor for measuring a temperature;
A control unit for receiving a standard time of the network time server through the network communication unit, receiving a current time from the time information providing unit, and comparing and controlling the standard time and the current time;
Receive the comparison control information of the standard time and the current time from the control unit to set an offset to the time information of the time information providing unit, or receive the actual clock drift value of the time information providing unit according to the temperature from the control unit to provide the time information A time offset setting unit for setting an offset in negative time information;
A memory for storing an actual clock drift value of the time information providing unit according to a temperature and providing the clock drift value to the controller;
And a battery for supplying power to the network communication unit, the time information providing unit, the control unit, the time offset setting unit, the temperature sensor, and the memory.
The control unit,
When receiving the standard time from the network communication unit, a clock drift value is obtained by comparing the standard time with the current time of the time information providing unit,
At this time, the actual clock drift value of the time information providing unit for each temperature along with the temperature measured by the temperature sensor is stored in the memory in the form of data table,
The control unit,
When the standard time is not received from the network communication unit, when the current time of the time information providing unit is output, the clock drift value corresponding to the temperature measured by the temperature sensor is received from the memory and compensated. Visual information providing module, characterized in that to reduce the current time error. delete (a) checking a connection state of the network communication unit;
(b) checking whether the network setting of the network communication unit is normal;
(c) receiving the current temperature measured by the temperature sensor of the time information providing module from the controller of the time information providing module when the network setting is not normal in step (b);
(d) in the control unit, reading a current time offset value according to a temperature of the time information providing unit of the time information providing module from the memory of the time information providing module;
(e) applying, by the controller, the current time offset value to the time information providing unit;
(f) receiving a current time in the control unit from the time information providing unit;
(g) outputting the current time from the controller;
(h) in step (b), if the network setting is normal, receiving a standard time of a network time server from the controller;
(i) determining whether the standard time received in step (h) is normal;
(j) in step (i), if the reception of the standard time is normal, applying the current time offset value to the time information providing unit by the control unit;
(k) receiving a current time in the control unit from the time information providing unit;
(l) comparing the standard time with the current time by synchronizing with the controller;
(m) determining whether there is a difference between the compared standard time and the current time;
(n) in step (m), measuring a current temperature at the temperature sensor when there is a difference between the compared standard time and the current time;
(o) calculating an actual clock drift of the time information providing unit according to the measured temperature;
(p) generating and storing a current temperature and an actual clock drift value of the time information providing unit in the form of a data table in the memory;
setting a current time offset value of the time information providing unit in the time offset setting unit of the time information providing module;
(r) correcting a current time of the time information providing unit;
(s) outputting the standard time; visual information providing method using a visual information providing module, characterized in that it comprises a. delete The method of claim 3,
In the step (i), when the reception of the standard time is normal, the time information providing method using the time information providing module, characterized in that performing the step (c) or less. The method of claim 3,
In the step (m), if there is no difference in the comparison time, the time information providing method using the time information providing module, characterized in that performing the step (s).

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