KR20070025037A - Mobile communication terminal with sensor - Google Patents

Abstract

A mobile terminal having sensors is provided to lengthen a standby time of a battery and to improve the efficiency of a mobile terminal by reducing power consumption of a sensor controller by controlling multiple sensors by using the sensor controller. A sensor unit(10) includes an acceleration sensor(11), a gyro sensor(12) and a terrestrial magnetic sensor(13). A sensor controller(20) applies a drive signal to one of the sensors(10-12) of the sensor unit(10) and processes measurement data sensed by the sensor of the sensor unit(10). A controller(30) controls the operation of a mobile terminal according to the measurement data of the sensor inputted through the sensor controller(20). The sensor controller(20) is independently operated from the controller(30).

Description

      Mobile communication terminal with sensor

1 is a signal flow diagram of a mobile communication terminal according to the prior art,

2 is a block diagram showing the configuration of a mobile communication terminal equipped with a sensor according to the present invention;

3 is a diagram illustrating a signal flow of a mobile communication terminal equipped with a sensor according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: sensor unit 20: sensor control unit

30: control unit

The present invention relates to a mobile communication terminal provided with a sensor, comprising a sensor control unit for controlling a plurality of sensors and processing the measurement data input from the sensor to reduce the power consumption by sending a batch of measurement data request It relates to a mobile communication terminal is provided.

In general, the mobile communication terminal is equipped with a sensor is used for the user's health and other convenience.

For example, a mobile communication terminal that implements a pedometer function applies an acceleration sensor to a user to measure and display the number of steps for a predetermined time or period.

1 is a diagram illustrating a signal flow of a mobile communication terminal according to the related art.

As shown in FIG. 1, the mobile communication terminal requests and receives measurement data sensed from a sensor.

The mobile communication terminal includes a controller for controlling a plurality of sensors, correcting and calculating input measurement data to control the operation of the mobile communication terminal.

In this case, the controller applies a measurement start wait signal for requesting measurement data to a plurality of sensors to the sensor.

Each sensor receiving the request signal from the controller applies a measurement ready signal to the controller (S2).

For example, when the sensor is an acceleration sensor, the controller sequentially applies a signal for the measurement data to the sensor, where the X-axis measurement data request signal is applied (S3), the X-axis measurement data response signal from the sensor Is input (S4), if the Y-axis measurement data request signal is applied (S5), the Y-axis measurement data response signal is input from the sensor (S6), if the Z-axis measurement data request signal is applied (S7), the sensor In response to the Z-axis measurement data response signal for the request signal is received (S8).

In this case, the response to the measurement data requested by the control unit is one-time measurement data, and the control unit continues to request measurement data by repeating the above process, and the sensor transmits the measurement data to the control unit according to the request signal. do.

A mobile communication terminal that implements the pedometer function described above is also used with such a signal flow, and a request / response signal for measurement data is always transmitted between the control unit and the sensor to operate.

Since the sensor used in the mobile communication terminal configured as described above always transmits a signal between the controller and the bilateral controller, current of several mA for driving the sensor and current consumption of several tens of mA consumed by the controller are generated. .

Accordingly, the mobile communication terminal has a problem of significantly shortening the battery standby time when using the sensor for a long time.

The present invention has been made to solve the above-mentioned problems of the prior art, and is provided with a sensor control unit for operating a plurality of sensors independently operated, so as to reduce the current consumption of the controller even if the sensor is used for a long time, An object of the present invention is to provide a mobile communication terminal having a sensor that extends the waiting time and improves the efficiency of the mobile communication terminal.

Mobile communication terminal equipped with a sensor according to the present invention for solving the above problems is a sensor unit provided with a plurality of sensors, applying a drive signal to the plurality of sensors, and measuring data detected from the plurality of sensors And a control unit for controlling the terminal operation according to the sensor control unit for processing and the measurement data of the sensor input through the sensor control unit.

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

2 is a block diagram showing the configuration of a mobile communication terminal equipped with a sensor according to the present invention.

As shown in FIG. 2A, a mobile communication terminal having a sensor according to the present invention includes a sensor unit 10 including a plurality of sensors, a sensor controller 20 for driving the sensor and processing measurement data; It is composed of a control unit 30 receives the measurement data through the sensor control unit 20.

The sensor unit 10 operates by receiving an initial operation clock and power from the control unit 30, and applies the measured measurement data to the sensor control unit 20.

At this time, the sensor is an acceleration sensor 11 for measuring the magnitude of the acceleration applied in one direction, geomagnetic sensor 12 for measuring the magnitude of the earth magnetic penetrating the measurement direction of the sensor, the rotation angle of one axis direction A gyro sensor 13 or the like for measuring the size may be used, and the sensor continuously applies the measurement data through the corresponding peripheral parts.

The sensor control unit 20 operates independently when a measurement data measurement command signal is received from the control unit 30. The sensor control unit 20 applies an operation clock signal to the sensor to drive the sensor to receive measurement data.

The sensor controller 20 corrects and computes measurement data transmitted by each sensor, and temporarily stores the measurement data in a memory (not shown) provided separately.

In addition, when the sensor controller 20 receives the measurement data request signal from the controller 30, the sensor controller 20 collectively applies the measured data calculated and calculated from the sensor to the controller 30.

The control unit 30 applies an initial operation signal for driving the sensor unit 10 to the sensor control unit 20, receives measurement data collectively from the sensor control unit 20, and according to the measurement data. Control the operation of the mobile communication terminal.

That is, the control unit 30 applies the measurement data request signal to the sensor control unit 20 only when the measurement data of the sensor is required, and the sensor control unit 20 according to the request signal of the control unit 30. The sensor is driven to receive measurement data.

Accordingly, the controller 30 switches to the standby mode for the operation of the sensor until the measurement data is requested and the measurement data is received. Accordingly, the sensor controller 20 is driven independently of the controller 30. do.

At this time, as shown in Figure 2b, the sensor unit 10 and the sensor control unit 20 is connected and packaged in a circuit can be used as a single component, the sensor is embedded in the sensor control unit 20 (microprocessor) Even a single chip can be implemented.

Looking at the operation of the present invention configured as described above are as follows.

3A and 3B illustrate signal flows of a mobile communication terminal equipped with a sensor according to the present invention.

As shown in FIG. 3A, when the control unit 30 operates, the mobile communication terminal needs measurement data according to the operation of the mobile communication terminal, and the initial operation of the sensor from the sensor control unit 20 is performed. Pass the signal.

At this time, the control unit 30 sends a measurement standby command signal for the sensor requesting the measurement data to the sensor control unit 20. (S10)

The sensor controller 20 starts operation according to the operation clock input from the controller 30.

The sensor control unit 20 receives a measurement wait command signal from the control unit 30 that measurement data is required, and transmits a measurement wait signal to the sensor unit 10 according to the measurement wait command signal.

In this case, the sensor unit 10 prepares the sensor to measure the measurement standby signal of the sensor control unit 20, and applies a ready signal to the sensor control unit 30 (S12).

The sensor controller 20 transmits a measurement ready signal to the controller 30 with respect to the ready signal received from the sensor unit 10 (S13).

When the controller 30 receives the measurement ready signal from the sensor controller 20 (S13), the controller 30 transmits a measurement start command signal to the sensor controller 20 (S14).

The sensor unit 10 operates the sensor according to a start command signal input from the sensor control unit 20 to apply measurement data to the sensor control unit 20, and the sensor control unit 20 controls the control unit ( Until the request signal of the measurement data of 30) is applied, the measurement data is transmitted and received independently of the sensor unit, and the control unit 30 changes to the standby mode to stop the control operation for the sensor.

That is, the sensor control unit 20 applies the X-axis measurement data request signal for requesting measurement data for the X-axis to the sensor unit 10 by the applied signal of the control unit 30 (S15). The sensor unit 10 operates the sensor according to the applied X-axis measurement data request signal, and applies the X-axis measurement data response signal to the sensor control unit 20 (S16).

The sensor control unit 20 applies a Y-axis measurement data request signal for requesting measurement data for the Y-axis to the sensor unit 10 (S17), and the sensor unit 10 applies the applied Y-axis measurement data request. The sensor operates according to the signal, and applies a Y-axis measurement data response signal to the sensor controller 20 (S18).

The sensor control unit 20 applies a Z-axis measurement data request signal for requesting measurement data on the Z-axis to the sensor unit 10 (S19), and the sensor unit 10 applies the applied Z-axis measurement data request. The sensor operates according to the signal, and applies a Z-axis measurement data response signal to the sensor controller 20 (S20).

The sensor controller 20 corrects and calculates the applied measurement data of the X-axis, the Y-axis, and the Z-axis and stores the measured data in a separate memory.

When the measurement data is required, the control unit 30 applies the measurement data request signal of the X-axis, the Y-axis, and the Z-axis to the sensor control unit 20 (S21), and the sensor control unit 20 controls the control unit 30. Collectively apply the measured data response signals on the X-axis, Y-axis and Z-axis (S22).

At this time, the control unit 30 controls the operation of the mobile communication terminal by using the response signal of the measurement data of the X-axis, Y-axis and Z-axis applied (S22).

In particular, the sensor and the sensor controller 20 may be packaged as a sensor with a built-in microprocessor and used as a single component, and the operation thereof is as follows.

As shown in FIG. 3B, when the measurement wait command signal is applied from the controller 30 to the microprocessor-embedded sensor (S30), the microprocessor-integrated sensor applies the measurement preparation signal to the controller.

The control unit 30 sends a measurement start command to the microprocessor built-in sensor according to the preparation of the microprocessor built-in sensor, and the microprocessor built-in sensor performs data measurement according to the request (S32).

When the measurement data is required, the control unit 30 applies the measurement data request signal of the X-axis, the Y-axis, and the Z-axis to the microprocessor-embedded sensor (S33).

Accordingly, the microprocessor-embedded sensor applies measurement data response signals on the X-axis, the Y-axis, and the Z-axis (S34).

Therefore, even if the controller 30 stops the operation of the sensor and changes to the standby mode, the mobile communication terminal measures the measurement data by operating the sensor by the sensor controller 20, so that the sensor is used for a long time. The current consumption of the controller 30 is reduced, and the standby time of the battery is increased.

As described above, the mobile communication terminal equipped with the sensor according to the present invention has been described with reference to the illustrated drawings. However, the present invention is not limited by the embodiments and drawings disclosed herein, and is applied within the scope of the technical idea. Can be.

The mobile communication terminal provided with the sensor according to the present invention configured as described above controls the sensor through a sensor control unit that operates independently from the control unit, and the sensor and the sensor control unit are packaged to be used as a single component, and the microprocessor is built in each other. By being implemented as a chip with a sensor, the standby time of the battery is increased as the current consumption by the controller is reduced, so that the product competitiveness and efficiency of the mobile communication terminal can be improved even if the sensor is used for a long time.

Claims (6)

A sensor unit having one or more sensors; A sensor controller which applies a driving signal to the sensor and processes measurement data sensed by the sensor; It comprises a control unit for controlling the operation of the terminal according to the measurement data of the sensor input through the sensor control unit, The sensor control unit is provided with a mobile sensor, characterized in that the operation is operated independently from the control unit. The method of claim 1, The sensor control unit is provided with an operating sensor that is operated independently from the control unit when the initial operation signal is input from the control unit. The method of claim 1, The control unit is a mobile communication terminal having a sensor, characterized in that after the initial operation signal applied to the sensor control unit, the sensor is switched to the standby state until the required data. The method of claim 1, The sensor unit and the sensor controller is a mobile communication terminal provided with a sensor, characterized in that the packaged single component. The method of claim 1, The sensor control unit is provided with a sensor, characterized in that for correcting and calculating the measurement data continuously input from the at least one sensor. The method of claim 1, The sensor control unit is provided with a sensor, characterized in that for providing the measurement data by the sensor to the control unit at the request of the control unit.

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