KR102633956B1 - communication module of wireless communication terminal and method of generating control message thereof - Google Patents

Abstract

The present invention relates to a communication module of a wireless communication terminal and a method of generating a control message thereof. A communication module according to an embodiment of the present invention includes a power supply unit; a receiving unit that receives power from the power supply unit, changes the standby state and active state every first predetermined cycle, and receives data; a transmitting unit that receives power from the power supply unit and transmits data; A current measurement unit that goes from a standby state to an active state every second predetermined period and calculates the amount of current used by accumulating power supplied from the power supply unit; and receives power from the power supply unit, goes from a standby state to an active state every third predetermined cycle, processes data received from the receiver, activates the transmitter to transmit data, and transmits data from the current measurement unit. a control unit that generates a control message to control the operating state of the communication module when the calculated current usage exceeds a predetermined maximum current amount; may include.

Description

Communication module of wireless communication terminal and method of generating control message thereof}

The present invention relates to a communication module of a wireless communication terminal and a method of generating a control message therefor.

A wireless communication terminal may be connected to a network through a nearby access point (AP) or base station. For example, a Wi-Fi terminal can access the Internet by connecting to a Wi-Fi AP, and a long term evolution (LTE) terminal can access the Internet by connecting to a telecommunication company base station.

Wireless communication terminals often operate with an independent battery for portability, and cannot remain active indefinitely due to the limited capacity of the battery. Therefore, it operates in a way to reduce battery consumption by periodically or artificially switching to a standby state. In particular, the communication modem included in the wireless communication terminal may be periodically awakened from the standby state to the active state to enter a reception standby mode.

In a wireless communication terminal, the maximum duration may be determined depending on the power capacity of the battery. By periodically changing the standby state and active state as above, battery discharge can be slowed and usable time can be increased. However, due to increased power consumption due to weak electric fields, movement between bands, handover between heterogeneous networks, changes in service status, etc., there is a problem in which the battery is often discharged faster than a predetermined time.

Korean Patent Publication No. 2015-0110248

The technical problem to be solved by the present invention is communication of a wireless communication terminal that cumulatively calculates the amount of current used in the communication module at each predetermined period and changes the operating state of the communication module when the accumulated current used exceeds the predetermined maximum current amount. It provides modules.

Another technical problem that the present invention aims to solve is to cumulatively calculate the amount of current used in the communication module at each predetermined period and generate a control message that changes the operating state of the communication module when the accumulated current amount exceeds the predetermined maximum current amount. It provides a way to do it.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below.

A communication module according to an embodiment of the present invention for achieving the above technical problem includes a power supply unit; a receiving unit that receives power from the power supply unit, changes the standby state and active state every first predetermined cycle, and receives data; a transmitting unit that receives power from the power supply unit and transmits data; A current measurement unit that goes from a standby state to an active state every second predetermined period and calculates the amount of current used by accumulating power supplied from the power supply unit; and receives power from the power supply unit, goes from a standby state to an active state every third predetermined cycle, processes data received from the receiver, activates the transmitter to transmit data, and transmits data from the current measurement unit. a control unit that generates a control message to control the operating state of the communication module when the calculated current usage exceeds a predetermined maximum current amount; may include.

A control message generation method according to an embodiment of the present invention for achieving the above technical problem includes supplying power to any one of a receiving unit, a transmitting unit, and a control unit; calculating the amount of current used by accumulating current according to the supplied power at predetermined periods; Comparing whether the calculated amount of current used exceeds a predetermined maximum current amount; and if the comparison result exceeds the limit, generating a control message to control the operating state of any one of the communication module, the receiver, and the control unit. may include.

According to the present invention as described above, battery consumption can be reduced by cumulatively calculating the amount of current used in the communication module at each predetermined period and changing the operating state of the communication module when the accumulated current used exceeds the predetermined maximum current amount. It has the effect of increasing the operating time of wireless communication terminals.

Figure 1 is a block diagram showing the configuration of a mobile communication terminal according to an embodiment of the present invention.
Figure 2 is a block diagram showing the configuration of a communication module according to an embodiment of the present invention.
Figure 3 is a diagram illustrating an example of periodically updating the amount of current used and changing the operating state accordingly, according to an embodiment of the present invention.
Figure 4 is a flowchart for generating a control message according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely intended to ensure that the disclosure of the present invention is complete and to provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains. Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless clearly specifically defined.

1 is a block diagram showing the configuration of a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 1, a mobile communication terminal 10 according to an embodiment of the present invention may include a communication module 100 and a main controller 200.

The communication module 100 can enable the mobile communication terminal 10 to connect to the network by communicating with a remote AP or base station. The main controller 200 can control the communication module 100 and the mobile communication terminal 10. The main controller 200 and the communication module 100 may be connected wired or wirelessly.

Although not shown in FIG. 1, the mobile communication terminal 10 may additionally include a display device, a user input device, and a storage device.

Figure 2 is a block diagram showing the configuration of a communication module according to an embodiment of the present invention. With reference to FIG. 2, the configuration of the communication module 100 according to an embodiment of the present invention will be described in detail.

The communication module 100 may include a control unit 110, a transmitter 120, a receiver 130, a power supply unit 140, and a current measurement unit 150.

The power supply unit 140 may supply power to the control unit 110, the transmitter 120, and the receiver 130. The power supply unit 140 may be a battery. Alternatively, the power supply unit 140 may receive power from outside the communication module 100 and supply power to the control unit 110, the transmitter 120, and the receiver 130.

The receiving unit 130 receives power from the power supply unit 140 and can receive data from the outside. The receiving unit 130 may provide the received data to the control unit 110. The receiver 130 may change from standby mode to activated mode according to a predetermined first cycle. The receiver 130 does not receive the data in the standby state during the first upper limb period, and can receive the data when it is in the active state. The receiver 130 may consume less power in the standby state than in the active state.

The transmitter 120 receives power from the power supply unit 140 and can transmit data to the outside. The transmitter 120 usually maintains a standby state and can be activated only when there is data to be transmitted by the control unit 110. When in the active state, the transmitter 120 can transmit data received from the control unit 110.

The current measurement unit 150 may calculate the amount of current used by accumulating the amount of current of power supplied from the power supply unit 140. Each time power is supplied from the power supply unit 140 to the control unit 110, the transmitter 120, and the receiver 130, the current measurement unit 150 accumulates the amount of current of the supplied power and calculates it as the amount of current used. . Whenever a new amount of current is calculated, the current measurement unit 150 may provide the calculated amount of current to the control unit 110 .

According to one embodiment of the present invention, the current amount measuring unit 150 may calculate a new amount of used current by accumulating the amount of current of power supplied during a predetermined second period to the amount of used current.

According to another embodiment of the present invention, the current amount measuring unit 150 may accumulate the average amount of current of power supplied during a predetermined second period to the used current amount to calculate a new used current amount.

The second period may be 1 [s], but this is only an example and is not limited thereto.

The control unit 110 receives power from the power supply unit 140 and can be activated from the standby state every third predetermined period. When the control unit 110 is in an active state, the receiving unit 130 can process the received data. If there is data to transmit, the control unit 110 can change the transmitter 120 to the active state and generate a control message to transmit the data.

When the communication module 100 starts operating, the control unit 110 may generate a control message to initialize the amount of current used in the current amount measurement unit 150. The control unit 110 may be activated when the current amount measurement unit 150 provides the amount of current used, and when the received amount of used current exceeds a predetermined maximum current amount, the communication module 100 operates. Control messages can be created to control the state.

For example, when the amount of current used exceeds the maximum amount of current, the control unit 110 sends a control message that switches the receiver 130 to the standby state even if the first cycle does not expire when the receiver 130 is in an active state. can be created.

For another example, when the amount of current used exceeds the maximum amount of current, the control unit 110 turns off the communication module 100 or controls the entire communication module 100 to enter a standby state. You can create a message.

The maximum current amount may be determined based on the average current consumption and maximum standby time. For example, if the average current consumption is 2 [mA] and the maximum standby time is 96 [hour], the maximum current amount may be 2 [mA] x 96 [hour] = 192 [mAh]. Since the control unit 110 operates to prevent unexpected power consumption by changing the operation of the communication module 100 to a standby or turn-off state when the accumulated current usage exceeds the pre-planned current amount, the mobile communication terminal 10 It has the effect of preventing shortening of operation time due to unexpected power consumption.

For example, when the operation time of the receiver 130 and the transmitter 120 increases due to a weak electric field, movement between bands, handover between mobile networks, change in service status, etc., the control unit 110 determines the amount of current consumption according to the operation time. can be calculated cumulatively. If the cumulative calculated value exceeds a predetermined value, the control unit 110 may generate a control message even before the maximum waiting time elapses. The control message may be a control message for increasing the first cycle of the receiver 130, a control message for increasing the duration of the entire standby state of the communication module 100, or a control message for terminating the communication module 100 early. It can be.

The control message generated by the control unit 110 may be transmitted to the main controller 200. The main controller 200 may transmit a control command to the communication module 100 according to the control message. Alternatively, the control unit 110 may directly provide the generated control message to the receiving unit 130 or the current measuring unit 150 to change the state of the receiving unit 130 or the current measuring unit 150.

According to an embodiment of the present invention, the current amount measuring unit 150 is directly connected to the power supply unit 140 to accumulate and calculate the amount of current supplied to each component of the communication module 100 for each second period. Regardless of events that occur in the configuration, the amount of current used is always calculated, and because it is calculated every second cycle, there is an effect of being able to respond immediately if the maximum current amount is exceeded.

Figure 3 is a diagram illustrating an example of periodically updating the amount of current used and changing the operating state accordingly, according to an embodiment of the present invention. By way of example, with reference to FIG. 3, the amount of current used is calculated and the response according to the maximum amount of current is explained in detail.

The receiving unit 130 is in an active state (Rx On) during the first period (Tsched) and is capable of receiving data. The current measurement unit 150 wakes up every second period (td) and calculates a new amount of current by accumulating the amount of current used during the second period (td) to the amount of current used. The current measurement unit 150 provides the newly calculated amount of current used to the control unit 110. The control unit 110 may generate a control message that switches the state of the receiver 130 to a standby state when the amount of current used exceeds the maximum current amount. The receiver 130 that has received the control message may be in a standby state (Rx Off) even before the first period (Tsched) expires (eg, Rx Off scheduled time).

Figure 4 is a flowchart for generating a control message according to an embodiment of the present invention. Referring to FIG. 4, a method for generating a control message according to an embodiment of the present invention will be described in detail.

The control unit 110 receives a current measurement start signal (S100). The control unit 110 may receive a current measurement start signal from the main controller 200 when the communication module 100 is turned on. Alternatively, the current measurement start signal may be a turn-on signal of the communication module 100. In this case, the control unit 110 may automatically receive the current measurement start signal when the communication module 100 is turned on.

The control unit 110 performs initialization to measure the amount of current (S110). The control unit 110 may generate a control message that causes the current measurement unit 150 to initialize the amount of current used, and the control message may be provided to the current measurement unit 150.

The current measurement unit 150 checks whether the monitoring time has elapsed (S120). The monitoring time is the time for the current measurement unit 150 to newly calculate the amount of current used. According to an embodiment of the present invention, the monitoring time may be a value of a predetermined first cycle. For example, the first period may be 1 [s].

The current measurement unit 150 calculates a new current usage amount by accumulating the amount of current supplied from the power supply unit 140 during the monitoring time to the current usage value (S130).

The control unit 110 determines whether it is within the schedule time (S140). The schedule time may be the expected time for the receiver 130 to end its active state or the expected time for the communication module 100 to end its active state. If it is not within the schedule time, the control unit 110 generates a control message that changes the reception unit 130 to a standby state or the communication module 100 to a turn-off state according to the schedule time (S170).

If it is within the schedule time, the control unit 110 determines whether the amount of current used exceeds the predetermined maximum current amount (S150). If the maximum current amount is not exceeded, return to step S120 and repeat the previous step.

If it is determined that the maximum current amount is exceeded, the control unit 110 generates a control message for limiting the function of turning off the communication module 100 or changing the active state of the receiving unit 130 to a standby state (S160). .

Although embodiments of the present invention have been described above with reference to the attached drawings, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. You will be able to understand it. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

10: mobile communication terminal 100: communication module 200: main controller

Claims (10)

In the communication module of a wireless communication terminal,
power supply;
a receiving unit that receives power from the power supply unit, changes the standby state and active state every first predetermined cycle, and receives data;
a transmitting unit that receives power from the power supply unit and transmits data;
A current measurement unit that goes from a standby state to an active state every second predetermined period and calculates the amount of current used by accumulating power supplied from the power supply unit; and
It receives power from the power supply unit, goes from a standby state to an active state every third predetermined period, processes data received from the receiver, activates the transmitter to transmit data, and calculates the current amount from the measuring unit. a control unit that generates a control message to control the operating state of the communication module when the amount of current used exceeds a predetermined maximum current amount; Including,
When the communication module starts operating, the control unit generates a control message to initialize the amount of current used in the current amount measuring unit,
The first period is longer than the second period,
The maximum current amount is the product of the average current consumption and the maximum standby time.
Communication module. According to paragraph 1,
The current amount measuring unit,
During the second period, the average value of the current supplied from the power supply is accumulated to the previously calculated current usage amount to calculate a new usage current amount,
Communication module. According to paragraph 1,
The current amount measuring unit,
Calculating the amount of current used every second cycle and providing the calculated amount of current used to the control unit,
Communication module. delete According to paragraph 1,
The control unit,
When the amount of current used exceeds the maximum amount of current, generating a control message that switches the receiver to a standby state even if the receiver is active and the first period has not expired,
Communication module. According to paragraph 1,
The control unit,
Generating a control message to turn off the communication module when the used current amount exceeds the maximum current amount,
Communication module. In the method of generating a control message of a communication module,
Supplying power to one of the receiving unit, transmitting unit, and control unit;
calculating the amount of current used by accumulating current according to the supplied power at predetermined periods;
Comparing whether the calculated amount of current used exceeds a predetermined maximum current amount;
If the comparison result exceeds the limit, generating a control message to control the operating state of any one of the communication module, the receiver, and the control unit; and
When the communication module starts operating, generating a control message initializing the amount of current used; Including,
The maximum current amount is the product of the average current consumption and the maximum standby time.
How to generate control messages. In clause 7,
The step of calculating the amount of current used is,
Comprising a step of accumulating and calculating an average of the current value of the supplied power during the period,
How to generate control messages. In clause 7,
The step in which the control message is generated is,
If the comparison result exceeds, a control message is generated to switch the receiver to a standby state,
How to generate control messages. In clause 7,
The step in which the control message is generated is,
If the comparison result exceeds, a control message is generated to turn off the communication module.
How to generate control messages.

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