KR102028341B1 - communication system power consumption control apparatus using clock control and method therefor - Google Patents

Abstract

The present invention relates to an apparatus and a method for controlling power consumption of a communication system using a clock control for a device for managing power consumption of a communication module in a situation in which a communication failure occurs due to frequency interference. Including a digital modulation and demodulation unit, a service system power control unit, and a system clock control unit, in a sensor communication system using an independent power source such as a battery, frequency interference occurs by another communication system using the same frequency band, thereby degrading service quality. It is an object of the present invention to provide a communication system power consumption control apparatus and a method using a clock control to control the operating state of the main parts of the communication system to increase the operating time of the entire sensor communication system.

Description

Communication system power consumption control apparatus using clock control and method thereof {communication system power consumption control apparatus using clock control and method therefor}

The present invention relates to an apparatus and method for controlling power consumption of a wireless communication system, and more particularly, to a communication system using a clock control for an apparatus for managing power consumption of a communication module in a situation where a communication failure occurs due to frequency interference. The present invention relates to a power consumption control device and a method thereof.

In general, power consumption of a wireless communication device using an independent power source such as a battery is directly related to the operating life of the communication device.

Therefore, the service life of the battery becomes a very important factor in the maintenance of the wireless communication system, and a large part of the power consumption in the wireless system is consumed by the communication system composed of the digital modulation and demodulation unit and the analog RF unit.

 In particular, power consumption by the analog RF unit is relatively large, and in general, the analog RF unit transmits and receives functions in a time division manner.

In particular, communication systems such as ZigBee, Bluetooth, or Wireless LAN (LAN) used in the ISM band may use frequency bands similar to each other, which may cause frequency interference problems. Damage is difficult to recover, causing a decrease in communication performance.

Accordingly, in a frequency interference situation, only a power of a wireless communication system is consumed without a communication service, and thus a method for preventing this is needed.

The present invention relates to the main parts of the wireless communication system when frequency interference is caused by other communication systems using the same or adjacent frequency bands in a wireless communication system using an independent power source such as a battery, thereby reducing the quality of service. SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus and method for controlling power consumption of a wireless communication system using clock control to control an operating state to increase an operating time of an entire sensor communication system.

According to an embodiment of the present invention, a communication system power consumption control apparatus using a clock control detects an external physical energy signal and converts the detected energy signal into a digital value to generate data having a digital IQ data format. A data generator; A wireless communication unit for transmitting and receiving a wireless RF signal having a digital IQ data format; A digital modulator demodulating the information generated inside the system into digital IQ data or demodulating the wireless RF signal into a service message; A service system power controller configured to generate a system clock control message capable of controlling a clock signal such that power consumption of the communication system is reduced by using the received signal strength value included in the service message; And a system clock controller for activating or deactivating a clock signal supplied according to the system clock control message.

According to an embodiment of the present invention, the system clock control unit may activate or deactivate a clock signal supplied to the transmission data generation unit, the wireless communication unit, and the digital demodulation unit according to the system clock control message.

According to an embodiment of the present disclosure, the transmission data generator may detect an external physical energy signal including at least one of heat, vibration, and pressure.

According to an embodiment of the present disclosure, the service system power control unit may include: a threshold exceeding determination unit determining whether a strength value of the received signal exceeds a preset threshold; A sleep mode holding time calculator configured to determine that frequency interference has occurred when the strength value of the received signal exceeds a preset threshold value, and calculate a sleep mode holding time of a system clock according to the excess level; When the sleep mode elapsed time is longer than the sleep mode holding time, the system clock is switched to the inactive state, and when the sleep mode elapsed time is shorter than the sleep mode holding time, the system clock keeps the sleep mode of the system clock enabled. A sleep mode determiner; And a system clock control message generator configured to generate a system clock control message including activation or deactivation information of the system clock and a sleep mode holding time of the system clock according to the determined system clock sleep mode.

According to an embodiment of the present invention, the system clock control unit may include: a sleep mode activation determination unit activating a sleep mode of a system clock according to the system clock control message; A sleep mode elapsed time measuring unit configured to measure a sleep mode elapsed time that is a time at which the sleep mode of the system clock is activated; And comparing the sleep mode elapsed time with a preset sleep mode holding time, and deactivating a sleep mode when the sleep mode elapsed time exceeds the sleep mode holding time, and the sleep mode elapsed time sets the sleep mode holding time. If it is not exceeded may include a sleep mode maintenance determination unit for maintaining the activation of the sleep mode.

According to an embodiment of the present invention, a method for controlling power consumption of a communication system using clock control may detect digital data generated internally in a system or an external physical energy signal, and convert the detected energy signal into a digital value to convert digital IQ data. Generating transmission data having a format; Transmitting and receiving a wireless RF signal having a digital IQ data format; Modulating the information generated inside the system into digital IQ data or demodulating the received sensing information or the wireless RF signal into a service message; Generating a system clock control message capable of controlling a clock signal such that power consumption of the communication system is reduced by using the received signal strength value included in the service message; And activating or deactivating a clock signal supplied according to the system clock control message.

According to an embodiment of the present disclosure, the activating or deactivating of the clock signal may activate or deactivate a clock signal supplied to each component of the system according to the system clock control message.

According to an embodiment of the present disclosure, the generating of the sensing information may detect an external physical energy signal including at least one of heat, vibration, and pressure.

According to an embodiment of the present disclosure, the generating of the system clock control message may include: determining whether an intensity value of the received signal exceeds a preset threshold value; Determining that frequency interference has occurred when the strength value of the received signal exceeds a preset threshold value, and calculating a sleep mode holding time of a system clock according to the exceeded degree; Comparing the sleep mode holding time with the synchronization acquisition time after powering the wireless communication unit of the system; Determining a sleep mode of a system to be inactive when the sleep mode holding time is longer than a synchronous acquisition time, and determining a sleep mode of a system clock to be activated when the sleep mode holding time is shorter than a synchronous acquisition time; And generating a system clock control message including activation or deactivation information of a system clock and a sleep mode holding time of the system clock according to the determined system clock sleep mode.

According to an embodiment of the present disclosure, activating or deactivating the clock signal may include: activating a sleep mode of a system clock according to the system clock control message; Measuring a sleep mode elapsed time that is a time at which a sleep mode of the system clock is activated; And comparing the sleep mode elapsed time with a preset sleep mode holding time, and deactivating a sleep mode when the sleep mode elapsed time exceeds the sleep mode holding time, and the sleep mode elapsed time sets the sleep mode holding time. If not exceeded may include maintaining the sleep mode activation.

According to the present invention, in a wireless communication system providing a communication service using an independent power supply, when a frequency interference situation in which a communication service is difficult occurs, a frequency interference situation is detected to supply a clock supplied to each component constituting the wireless communication system. In this way, the operation time of the wireless communication system is increased by preventing the waste of power consumption that can be unnecessarily consumed in the radio interference situation.

1 is a block diagram of a communication system power consumption control apparatus using a clock control according to an embodiment of the present invention.
FIG. 2 is a detailed configuration diagram of the service system power control unit shown in FIG. 1.
FIG. 3 is a detailed configuration diagram of the system clock controller shown in FIG. 1.
4 is a diagram illustrating a system clock control message according to an embodiment of the present invention.
5 is a flowchart illustrating a communication system power consumption control method using clock control according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, except to exclude other components unless specifically stated otherwise.

Hereinafter, an apparatus and method for controlling power consumption of a communication system using clock control according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a communication system power consumption control apparatus using a clock control according to an embodiment of the present invention.

Referring to FIG. 1, an apparatus for controlling power consumption of a communication system using clock control includes a transmission data generator 100, a wireless communication unit 200, a digital modulation and demodulation unit 300, a service system power control unit 400, and a system clock control unit 500. ) May be included.

The transmission data generation unit 100 may generate various types of service data to be used for transmission.

According to an embodiment of the present invention, the transmission data generator 100 detects an external physical energy signal including at least one of heat, vibration, and pressure, and converts the detected energy signal into a digital value to convert digital IQ data. The sensing information having a format may be generated.

The wireless communication unit 200 may transmit / receive a wireless RF signal suitable for wireless transmission of service data through interworking with the digital modulation / demodulation unit. In addition, the wireless communication unit 200 measures the intensity of the received signal input through the antenna, and converts the measured value into a predetermined digital value and transmits it to the system power control unit 400.

According to an embodiment of the present invention, the wireless communication unit 200 may be implemented as an RF communication device capable of inputting and outputting a wireless signal through an antenna.

The digital modulation and demodulation unit 300 modulates service data or sensing information generated in the system into data suitable for wireless transmission and then transmits the data to the wireless communication unit 200 or processes and transmits the symbol information received from the wireless communication unit 200. Restore the data. In addition, the magnitude of the interference signal is calculated using the information received from the wireless communication unit 200 and the calculated result is transmitted to the service system power control unit 400.

According to an embodiment of the present invention, the information generated inside the system may have a service message format.

According to an embodiment of the present invention, the digital modulation and demodulation unit 300 modulates the information of the service message format generated by the system into digital IQ data and transmits it to the wireless communication unit 200 or the digital I received by the wireless communication unit 200. Q data can be processed in various ways to demodulate radio signals to restore service data. In addition, the magnitude of the interference signal is calculated using the digital I, Q signal value or RSSI value received from the wireless communication unit 200, and the result is configured in the form of a service message and transmitted to the service system power control unit 400.

The service system power control unit 400 may generate a system clock control message capable of controlling a clock signal to reduce power consumption of the communication system using the received signal strength value included in the service message.

According to an embodiment of the present invention, the service system power control unit 400 uses each component of the communication system by using a received signal strength indicator (RSSI), which is a strength value of a received signal included in a service message received from the digital modulation / demodulation unit 300. It is possible to determine whether to control the clock signal supplied to the element.

According to an embodiment of the present invention, the larger the bits constituting the index, the more accurate RSSI value can be obtained.

According to an embodiment of the present invention, the RSSI value may be obtained as a root value of the sum of the square of the component I value of the signal input from the wireless communication unit 200 and the square of the signal component Q value.

According to the above embodiment, the RSSI value is a value directly measured by the wireless communication unit 200 and transmitted to the digital demodulation unit 300 to be used as it is in the digital modulation / demodulation unit 300 or a digital IQ value provided by the wireless communication unit 200. This can be obtained by calculating.

The service system power control unit 400 will be described in more detail with reference to FIG. 2.

The system clock controller 500 may activate or deactivate a clock signal supplied according to a system clock control message.

According to an embodiment of the present invention, the system clock controller 500 may control a clock signal supplied to the transmission data generator 100, the wireless communication unit 200, and the digital demodulation unit 300 according to the system clock control message. have.

According to an embodiment of the present invention, the clock signal supplied to the transmission data generation unit 100, the wireless communication unit 200, and the digital modulation / demodulation unit 300 according to a system clock control message provided by the service system power control unit 400. It can be activated or deactivated.

The system clock controller 500 will be described in more detail with reference to FIG. 3.

FIG. 2 is a detailed configuration diagram of the service system power control unit 400 shown in FIG. 1.

Referring to FIG. 2, the service system power control unit 400 includes a threshold exceeding determination unit 410, a sleep mode holding time calculator 420, a system clock sleep mode maintaining unit 430, and a system clock control message generating unit 440. ) May be further included.

The threshold exceeding determination unit 410 may determine whether the intensity value of the received signal exceeds a preset threshold.

According to an embodiment of the present invention, the threshold value is a reference value for determining whether frequency interference occurs and may be a value of a constant signal.

The sleep mode holding time calculator 420 may determine that frequency interference has occurred when the intensity value of the received signal exceeds a preset threshold value, and calculate a sleep mode holding time of the system clock according to the interference signal size.

According to an embodiment of the present invention, when the strength of the sleep mode holding time calculator 420 signal exceeds a threshold value, it may be determined that frequency interference has occurred between other communication devices.

According to the above embodiment, when it is determined that frequency interference has occurred, the sleep mode holding time of the clock indicating how long to stop the operation of the system clock in order to reduce generation of unnecessary power consumption due to frequency interference may be calculated. The sleep mode holding time is determined according to the measured signal strength value. The system predivides the magnitude of the signal strength into several steps. The sleep mode holding time is determined according to the divided steps. For example, in the 2.4 GH band, the strength of the measurement signal is 0 ?? The signal is divided into seven stages, and it is determined that the interference of the signal occurs from the stage where the measured signal intensity is four or more. When the intensity of the measured signal is 5, it is determined as an interference signal by a low power communication system sharing the same 2.4 GHz band. For example, signal interference by another Zigbee system occurs. In this case, the sleep mode holding time is determined as an integer multiple of the length of the Zigbee frame. As another example, when the strength of the measurement signal is 7, it is determined that the interference caused by the Wi-Fi signal using the 2.4 GHz band is determined, and the sleep mode holding time is determined to be an integer multiple of the Wi-Fi frame length.

According to an embodiment of the present invention, when the elapsed time in the sleep mode exceeds the previously determined sleep mode holding time, the system clock sleep mode maintaining unit 430 system clock of the RF communication device constituting the wireless communication unit 200. The sleep mode can be switched off.

On the other hand, when the sleep mode holding time is shorter than the previously determined sleep mode holding time, the system clock sleep mode of the RF communication device constituting the wireless communication unit 200 may be maintained in an active state.

According to the above embodiment, when the activation or deactivation state of the system clock sleep mode of the wireless communication unit 200 is determined, the activation or deactivation state of the system clock sleep mode of the digital modulator 300 may be determined.

After determining whether the system clock sleep mode of the digital modulation and demodulator 300 is activated or deactivated, the system clock sleep mode of the transmission data generator 100 may be activated or deactivated.

The system clock control message generator 440 may generate a system clock control message including activation or deactivation information of the system clock and a sleep mode holding time of the system clock according to the determined system clock sleep mode.

According to an embodiment of the present invention, the system clock control message generator 440 may generate and generate a system clock control message including the determined active or inactive state information of the system clock sleep mode and a sleep holding time of the system clock. The system clock control message may be transmitted to the system clock controller 500.

3 is a detailed block diagram of the system clock controller 500 shown in FIG. 1.

Referring to FIG. 3, the system clock controller 500 may further include a sleep mode activation determination unit 510, a sleep mode elapsed time measurement unit 520, and a sleep mode maintenance determination unit 530.

The sleep mode activation determiner 510 may activate the sleep mode of the system clock according to the system clock control message.

According to an embodiment of the present invention, the sleep mode activation determination unit 510 confirms that the input message is a system clock control message, and if it is confirmed as a system clock control message, the sleep mode activation determination unit 510 is configured to activate the system clock sleep mode of the wireless communication unit 200. You can check the control information.

If the system clock sleep mode of the wireless communication unit 200 is determined to be activated, the system clock sleep mode of the wireless communication unit 200 may be activated.

On the contrary, if the system clock sleep mode of the wireless communication unit 200 is determined to be inactive, the system clock sleep mode of the wireless communication unit 200 may be deactivated.

The sleep mode elapsed time measuring unit 520 may measure a sleep mode elapsed time that is a time at which the sleep mode of the system clock is activated.

According to an embodiment of the present invention, the sleep mode elapsed time measuring unit 520 may activate the system clock sleep mode of the digital modulation / demodulation unit 300.

Thereafter, the system clock sleep mode of the transmission data generator 100 may be activated.

According to an embodiment of the present disclosure, the sleep mode elapsed time measuring unit 520 may measure the elapsed time when the system clock sleep mode is activated when the system clock sleep mode is completed.

According to an embodiment of the present invention, in order to activate the system clock sleep mode, a method of fixing the value of the system clock that periodically repeats the values of '0' and '1' to '0' or '1' may be used. .

According to the above embodiment, the operation of the corresponding component may be stopped by stopping the supply of the system clock for operating the system and the sleep mode may be maintained.

In addition, the device is stopped during the sleep mode, so power consumption is not generated.

The sleep mode maintenance determiner 530 compares a sleep mode elapsed time with a preset sleep mode holding time to deactivate the sleep mode when the sleep mode elapsed time exceeds the sleep mode holding time, and the sleep mode elapsed time. If the sleep mode holding time is not exceeded, activation of the sleep mode can be maintained.

According to an embodiment of the present disclosure, after the system clock sleep mode elapsed time measurement starts, the sleep mode maintenance determiner 530 may determine whether the sleep mode maintenance time is exceeded at a predetermined interval.

If the sleep mode sleep time is not exceeded, the active system clock sleep mode can be maintained.

On the other hand, when the sleep mode mode holding time is exceeded, the system clock can be supplied normally by deactivating the activated system clock sleep mode.

4 is a diagram illustrating a system clock control message according to an embodiment of the present invention.

Referring to FIG. 4, the system clock control message may include a message identifier, system clock activity control information of a wireless communication unit, system clock activity control information of a digital demodulator, system clock activity control information of a sensing information generator, and system clock sleep maintenance time information. have.

The message identifier may mean an identifier capable of identifying that the message is a system clock control message.

The system clock activity control information of the wireless communication unit may mean information on whether the system clock of the wireless communication unit 200 is activated or inactivated.

The digital modulator demodulator system clock activity control information may mean information on whether the system clock of the digital modulator demodulator 300 is activated or deactivated.

The transmission data generator system clock activity control information may mean information on whether the system clock of the transmission data generator 100 is activated or inactivated.

The system clock sleep maintenance time information may mean information about a time for maintaining the sleep mode of the system clock.

5 is a flowchart illustrating a communication system power consumption control method using clock control according to an embodiment of the present invention.

The sensing information is generated (510).

According to an embodiment of the present invention, sensing information having a digital IQ data format may be generated by sensing an external physical energy signal and converting the detected energy signal into a digital value.

According to an embodiment of the present invention to detect the external physical energy signal including at least one of heat, vibration, pressure, and converts the detected energy signal into a digital value to generate the sensing information having a digital IQ data format Can be.

Receive a wireless RF signal (520).

According to an embodiment of the present invention, a wireless RF signal having a digital IQ data format may be received.

In operation 530, the sensing information or the wireless RF signal is demodulated into a service message.

According to an embodiment of the present invention, the information generated inside the system may be modulated into digital IQ data or the received sensing information or the wireless RF signal may be demodulated into a service message.

According to an embodiment of the present invention, the information generated inside the system may have a service message format.

According to an embodiment of the present invention, the service message format generated by the system may be modulated and transmitted into digital IQ data, or the service message may be restored by demodulating the digital IQ signal received by the wireless communication unit 200.

A system clock control message is generated using the service message (540).

According to an embodiment of the present invention, a system clock control message capable of controlling a clock signal to reduce power consumption of a communication system may be generated using a received signal strength value included in a service message.

According to an embodiment of the present invention, it is possible to determine whether to control a clock signal supplied to each component of a communication system by using a received signal strength indicator (RSSI), which is a strength value of a received signal included in a received service message.

According to an embodiment of the present invention, the larger the bits constituting the index, the more accurate RSSI value can be obtained.

According to an embodiment of the present invention, the RSSI value may be obtained as a root value for the sum of the square of the component I value of the input signal and the square of the signal component Q value.

According to an embodiment of the present invention, it may be determined whether the strength value of the received signal exceeds a preset threshold value.

According to an embodiment of the present invention, the threshold value is a reference value for determining whether frequency interference occurs and may be a value of a constant signal.

According to an embodiment of the present invention, when the strength value of the received signal exceeds a preset threshold, it may be determined that frequency interference has occurred, and the sleep mode holding time of the system clock may be calculated according to the exceeded degree.

According to an embodiment of the present invention, when the strength of a received signal exceeds a threshold, it may be determined that frequency interference has occurred between other communication devices.

According to the above embodiment, when it is determined that frequency interference has occurred, the sleep mode holding time of the clock indicating how long to stop the operation of the system clock in order to reduce generation of unnecessary power consumption due to frequency interference may be calculated.

According to an embodiment of the present invention, when the elapsed time in the sleep mode is longer than the sleep mode holding time, the sleep mode of the system may be switched to an inactive state, otherwise the sleep mode of the system clock may be kept in an active state.

According to an embodiment of the present disclosure, when the elapsed time after the sleep mode is started is shorter than the sleep mode holding time, the system clock sleep mode of the RF communication device may be maintained in an active state. Otherwise, the wireless communication unit 200 may be configured. The system clock sleep mode of an existing RF communication device can be switched to an inactive state.

According to the above embodiment, when the active or deactivated state of the system clock sleep mode of the RF communication device is determined, the activated or deactivated state of the system clock sleep mode of the digital demodulation device may be determined.

After determining whether the system clock sleep mode of the digital modulation and demodulation device is activated or deactivated, the activated or deactivated state of the system clock sleep mode of the sensing information generator may be determined.

According to an embodiment of the present invention, a system clock control message including activation or deactivation information of the system clock and a sleep mode holding time of the system clock may be generated according to the determined system clock sleep mode.

According to an embodiment of the present invention, a system clock control message including active or inactive state information of the determined system clock sleep mode and a sleep holding time of the system clock may be generated, and the generated system clock control message may be transmitted. .

The clock signal supplied according to the system clock control message is activated or deactivated (550).

According to an embodiment of the present invention, a clock signal supplied according to a system clock control message may be activated or deactivated.

According to an embodiment of the present invention, the clock signal supplied to each component of the system may be activated or deactivated according to the system clock control message.

According to an embodiment of the present invention, the sleep mode of the system clock may be activated according to the system clock control message.

According to an embodiment of the present invention, it may be confirmed that the input message is a system clock control message, and if it is confirmed as a system clock control message, control information for activating the system clock sleep mode of the RF communication apparatus may be checked.

If the system clock sleep mode of the RF communication device is determined to be activated, the system clock sleep mode of the RF communication device may be activated.

On the other hand, if the system clock sleep mode of the RF communication device is determined to be inactive, the system clock sleep mode of the RF communication device may be deactivated.

According to an embodiment of the present invention, the sleep mode elapsed time, which is the time when the sleep mode of the system clock is activated, may be measured.

According to an embodiment of the present invention, the system clock sleep mode of the digital modulation and demodulation device may be activated.

Thereafter, the system clock sleep mode of the sensing information generating device may be activated.

According to an embodiment of the present invention, when the activation of the system clock sleep mode is completed, the elapsed time when the system clock sleep mode is activated may be measured.

According to an embodiment of the present invention, in order to activate the system clock sleep mode, a method of fixing the value of the system clock that periodically repeats the values of '0' and '1' to '0' or '1' may be used. .

According to the above embodiment, the operation of the corresponding component may be stopped by stopping the supply of the system clock for operating the system and the sleep mode may be maintained.

In addition, the device is stopped during the sleep mode, so power consumption is not generated.

According to an embodiment of the present invention, a sleep mode elapsed time is compared with a preset sleep mode holding time, and when the sleep mode elapsed time exceeds the sleep mode holding time, the sleep mode is deactivated, and the sleep mode elapsed time is the above. If the sleep mode holding time is not exceeded, the sleep mode activation can be maintained.

According to an embodiment of the present disclosure, after the measurement of the system clock sleep mode elapsed time starts, it may be determined whether the sleep mode mode holding time is exceeded at a predetermined interval.

If the sleep mode sleep time is not exceeded, the active system clock sleep mode can be maintained.

On the other hand, when the sleep mode mode holding time is exceeded, the system clock can be supplied normally by deactivating the activated system clock sleep mode.

Embodiments of the present invention are not implemented only through the above-described apparatus and / or method, but the embodiments of the present invention have been described in detail above, but the scope of the present invention is not limited thereto, and the following claims are made. Various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the scope of the present invention.

100: transmission data generation unit 200: wireless communication unit
300: digital modulation and demodulation unit 400: service system power control unit
500: system clock control

Claims (10)

A transmission data generator for sensing an external physical energy signal and converting the detected energy signal into a digital value to generate data having a digital IQ data format;
A wireless communication unit for transmitting and receiving a wireless RF signal having a digital IQ data format;
A digital modulator demodulating the information generated inside the system into digital IQ data or demodulating the wireless RF signal into a service message;
A service system power controller configured to generate a system clock control message for controlling whether the system clock is in a sleep mode when a received signal strength value included in the service message exceeds a preset threshold value; And
A system clock controller configured to determine whether to activate a clock signal according to the system clock control message;
The system clock control message includes information about a sleep mode holding time, which is a time when the system clock maintains a sleep mode.
And the information on the sleep mode holding time is calculated based on a degree in which the received signal strength value exceeds the preset threshold value. The system clock control unit of claim 1,
And a clock signal supplied to the transmission data generation unit, the wireless communication unit, and the digital demodulation unit according to the system clock control message. The method of claim 1, wherein the transmission data generating unit,
Communication system power consumption control device using a clock control, characterized in that for sensing an external physical energy signal including at least one of heat, vibration, pressure. The method of claim 1, wherein the service system power control unit,
A threshold value exceeding determination unit that determines whether the intensity value of the received signal exceeds a preset threshold value;
A sleep mode holding time calculator configured to determine that frequency interference has occurred when the strength value of the received signal exceeds a preset threshold value, and calculate a sleep mode holding time of a system clock according to the excess level;
When the sleep mode elapsed time is longer than the sleep mode holding time, the system clock is switched to the disabled state. A sleep mode determiner; And
And a system clock control message generator for generating a system clock control message according to the determined system clock sleep mode. The system clock control unit of claim 1,
A sleep mode activation determiner for activating a sleep mode of a system clock according to the system clock control message;
A sleep mode elapsed time measuring unit configured to measure a sleep mode elapsed time that is a time at which the sleep mode of the system clock is activated; And
The sleep mode elapsed time is compared with a preset sleep mode holding time to deactivate the sleep mode when the sleep mode elapsed time exceeds the sleep mode holding time, and the sleep mode elapsed time exceeds the sleep mode holding time. If not, the communication system power consumption control device using a clock control, characterized in that it comprises a sleep mode maintenance determination unit for maintaining the activation of the sleep mode. Sensing a digital data generated internally in the system or an external physical energy signal, and converting the detected energy signal into a digital value to generate a wireless RF signal having a digital IQ data format;
Transmitting and receiving the wireless RF signal having a digital IQ data format;
Modulating the internally generated information into digital IQ data or demodulating the wireless RF signal into a service message;
Generating a system clock control message capable of controlling whether a sleep mode of a system clock is operated when a received signal strength value included in the service message exceeds a preset threshold value; And
Determining whether to activate a clock signal according to the system clock control message;
The system clock control message further includes information regarding a sleep mode holding time, which is a time when the system clock maintains a sleep mode.
And the information on the sleep mode holding time is calculated based on a degree in which the received signal strength value exceeds the preset threshold value. The method of claim 6, wherein determining whether to activate the clock signal comprises:
And activating or deactivating a clock signal supplied to each component of the system according to the system clock control message. The method of claim 6, wherein generating the wireless RF signal comprises:
A communication system power consumption control method using a clock control, characterized in that for sensing an external physical energy signal including at least one of heat, vibration, pressure. The method of claim 6, wherein generating the system clock control message comprises:
Determining whether an intensity value of the received signal exceeds a preset threshold value;
Calculating the sleep mode holding time when the strength value of the received signal exceeds a preset threshold value;
Comparing the sleep mode holding time with the synchronization acquiring time after supplying power to the wireless communication unit of the system;
Determining a sleep mode of a system to be inactive when the sleep mode holding time is longer than a synchronous acquisition time, and determining a sleep mode of a system clock to be activated when the sleep mode holding time is shorter than a synchronous acquisition time; And
And generating a system clock control message according to the determined system clock sleep mode. The method of claim 6, wherein determining whether to activate the clock signal comprises:
Activating a sleep mode of the system clock according to the system clock control message;
Measuring a sleep mode elapsed time that is a time at which a sleep mode of the system clock is activated; And
The sleep mode elapsed time is compared with a preset sleep mode holding time to deactivate the sleep mode when the sleep mode elapsed time exceeds the sleep mode holding time, and the sleep mode elapsed time exceeds the sleep mode holding time. If not, the communication system power consumption control method using a clock control comprising the step of maintaining the activation of the sleep mode.

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