KR20060117400A - Apparatus for vibration motor linear control in the mobile communication terminal - Google Patents

Abstract

An apparatus for vibrating motor linear control in a mobile communication terminal is provided to control driving voltage by using I2C signals without using an on/off control mode, thereby controlling vibration strength and a vibration period according to the need of a user and surrounding circumstances and enabling users to correctly recognize the reception of a call or a text message in any situation. A terminal control unit(20) outputs I2C(Intelligent Image Control) signals including vibration strength and a vibration period information for linearly controlling driving of a vibrating motor(30). An interface and logic circuit unit(21) converts the I2C signals outputted from the terminal control unit(20) into series data. A D/A(Digital Analog) converter(22) the series data converted by the interface and logic circuit unit(21) into a DC(Direct Current) voltage and outputs the DC voltage. An operation amplifying unit(23) receives the DC voltage outputted in the D/A converter(22) and outputs a transistor control voltage corresponding to the DC voltage. A transistor(24) is connected to the vibrating motor(30) and linearly controls a driving voltage of the vibration motor(30) according to the control voltage outputted in the operation amplifying unit(23).

Description

Apparatus For Vibration Motor Linear Control In The Mobile Communication Terminal}

1 is a block diagram schematically showing a vibration motor control apparatus of a conventional mobile communication terminal.

2 is an operation timing diagram for explaining a vibration motor drive control operation of a conventional mobile communication terminal.

3 is a view showing a vibration motor linear control device of a mobile communication terminal according to the present invention.

4 is an operation timing diagram for explaining the vibration motor linear control operation of the mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

20: terminal control unit 21: interface and logic circuit unit

22: D / A converter 23: operational amplifier

24 transistor 30 vibration motor

The present invention relates to a vibration motor control of a mobile communication terminal, and more particularly, a movement in which a vibration amount, i.e., vibration intensity and vibration period, of a vibration motor used when announcing a call or a message is linearly adjusted to various vibration amounts. A vibration motor linear control device for a communication terminal.

Recently, with the rapid development of mobile communication technology, most people have used mobile communication terminals such as PCS phones, cellular phones, PDAs, etc., which are a method for notifying the user of a call or a message. A method of outputting a predetermined ring tone (melody, etc.) and a method using a vibration motor are used.

By the way, in the case of the method for outputting the ringing tone in the above-described mobile communication terminal, the type of ringing tone can be changed in various ways if the terminal user wants, and the intensity of the ringing tone can be changed according to the surrounding situation. In this case, there was no way to adjust the vibration intensity or vibration period.

That is, in the conventional mobile communication terminal, as shown in (a) and (b) of FIG. 1, the transistor 13-1 or the switch provided at the front end of the vibration motor 12 in the terminal controller 11. The vibration motor 12 is driven while controlling (13-2) and supplying a predetermined driving power to the vibration motor 12. The vibration motor drive control operation is shown in FIG. ) Is controlled by only the on-off signal (motor enable and disable signal), so that it is constantly supplied to the vibration motor 12 when the enable signal is applied to the transistor 13-1 or the switch 13-2. Since only the number of rotations (RPM) (for example, 100,000 RPM) suitable for the power source is vibrated, the vibration is performed only at a constant vibration intensity and vibration period.

Therefore, in the related art, since the vibration intensity and the period of the vibration of the vibration motor cannot be adjusted in the mobile communication terminal, when the terminal user rarely moves in a quiet place such as a library or an office, excessively strong vibrations are alarmed and, conversely, the terminal user In a situation where there is a lot of movement, such as using a means of transportation or fast walking or running, there is a problem that the terminal does not feel vibration.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to adjust the vibration intensity and the period of vibration, which are the vibration amount of the vibration motor used in the mobile communication terminal, without using a simple on / off control method. By enabling driving voltage control using an (Intelligent Image Control) signal, the vibration motor can be controlled by various vibration amounts that can be adjusted linearly, rather than a fixed vibration amount.

Another object of the present invention, by allowing the drive voltage of the vibration motor can be freely controlled to adjust the vibration intensity and the vibration period according to the needs of the user of the terminal or the surrounding situation, through which a lot of movement of the terminal user It is to make it possible to know exactly whether a call or a text is received in any situation such as when there is little movement.

Still another object of the present invention is to increase the vibration motor rotation speed due to the vibration joint in the case of increasing the vibration motor rotation speed, which becomes the vibration strength of the vibration motor, but the actual vibration motor rotation by controlling the vibration period shortly The effect of increasing the number is to prevent the vibration joint.

A feature of the present invention for solving the object as described above, in the mobile communication terminal having a vibration motor used to inform the reception of the call or message, vibration intensity for linearly controlling the driving of the vibration motor And a terminal controller for outputting an I2C (Intelligent Image Control) signal including vibration period information. An interface and logic circuit unit for converting an I2C signal output from the terminal controller into serial data; A D / A converter converting the serial data converted by the interface and logic circuit into a DC voltage and outputting the converted DC voltage; An operational amplifier receiving the DC voltage output from the D / A converter and outputting a transistor control voltage corresponding thereto; A vibration motor linear control apparatus of a mobile communication terminal is connected to the vibration motor and includes a transistor for linearly controlling a driving voltage of the vibration motor according to a control voltage output from the operational amplifier.

Here, the terminal controller outputs data including linear vibration intensity and vibration period information to control driving of the vibration motor to an interface and a logic circuit through a data line, and outputs the interface and logic when outputting the vibration control data. It is characterized in that the clock is kept synchronized with the circuit part and outputs an enable signal for driving the circuit.

The interface and logic circuits are connected to the terminal controller via an I2C bus, and when the enable signal is input from the terminal controller, data including linear vibration intensity and vibration period information according to clock synchronization with the terminal controller. It receives the input and converts it to n-bit serial data and delivers it to the D / A converter.

The operational amplifier may receive a DC voltage output from the D / A converter through a nonlinear input terminal, and output a transistor control voltage corresponding thereto while the bias voltage is linearly controlled according to the DC voltage. It features.

Further, when the transistor is implemented as a bipolar junction transistor, the base terminal is an output terminal of the operational amplifier, the collector terminal is a vibration motor, and the emitter terminal is connected to ground through an inverting input terminal and a resistor of the operational amplifier, respectively. The base terminal is controlled by the transistor control voltage output from the operational amplifier in this state, and in this state, the driving voltage of the vibration motor connected to the collector terminal is linearly controlled. When implemented as field-effect transistors, the gate terminal is connected to the output terminal of the operational amplifier, the drain terminal is a vibration motor, and the source terminal is connected to the ground through the inverting input terminal and the resistor of the operational amplifier. A transistor output from the operational amplifier in As the voltage is controlled by the gate terminal it characterized in that it serves to control the driving voltage of the vibration motor is connected to the drain terminal linearly.

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

In the present invention, it is possible to linearly control the driving of the vibration motor provided in the mobile communication terminal to adjust the vibration strength and period of the terminal as needed. same.

That is, the vibration motor linear control device of the mobile communication terminal according to the present invention, as shown in Figure 3, the terminal control unit 20 for outputting the I2C signal for linearly controlling the drive of the vibration motor 30 and And an interface and logic circuit unit 21 for converting an I2C (Intelligent Image Control) signal outputted from the terminal control unit 20 into serial data, and the interface and logic circuit unit 21. Digital analog converter 22 for converting the serial data into DC voltage and outputting the same, and outputting a transistor control voltage corresponding to the DC voltage output from the D / A converter. The transistor 24 connected to the operational amplifier 23 and the vibration motor 30 and linearly controlling the driving voltage of the vibration motor 30 according to the control voltage output from the operational amplifier 23 is provided. It is made.

Here, the terminal controller 20 outputs an I2C signal including vibration intensity and vibration period information for linearly controlling the driving of the vibration motor 30, but linearly to control the driving of the vibration motor 30. It outputs data including the general vibration intensity and vibration period information through the data line, and maintains clock synchronization with the interface and logic circuit 21 when outputting the data, and also outputs an enable signal necessary for driving the circuit.

The interface and logic circuit unit 21 is connected to the terminal control unit 20 via an I2C bus, and when an enable signal is input from the terminal control unit 20, linear vibration intensity and vibration are generated according to clock synchronization with the terminal control unit 20. The data including the period information is input and converted into n-bit serial data (where n is a natural number) and transmitted to the D / A converter 22.

The D / A converter 22 converts n-bit serial data transmitted from the interface and logic circuit 21 into a DC voltage and outputs the DC voltage to the nonlinear input terminal of the operational amplifier 23. The operational amplifier 23 The bias voltage is linearly controlled according to the DC voltage input from the D / A converter 22 through the nonlinear input terminal and outputs a transistor control voltage corresponding thereto.

The transistor 24 is a bipolar junction transistor or a field-effect transistor, and when implemented as a bipolar transistor, the base terminal is an output terminal of the operational amplifier 23, and the collector terminal is a vibration motor 30. And the emitter terminal are respectively connected to the ground through the inverting input terminal of the operational amplifier 23 and the resistor R1, and the base terminal is connected by the transistor control voltage output from the operational amplifier 23 in this state. As controlled, the drive voltage of the vibration motor 30 connected to the collector terminal is linearly controlled. In the case where the field effect transistor is implemented, the gate terminal is the output terminal of the operational amplifier 23, the drain terminal is the vibration motor 30, and the source terminal is the inverting input terminal and the resistor R1 of the operational amplifier 23. Respectively connected to the ground through the gate terminal is controlled by the transistor control voltage output from the operational amplifier 23 in this state to linearly control the driving voltage of the vibration motor 30 connected to the drain terminal Play a role.

The vibration motor linear control operation of the mobile communication terminal according to the present invention having such a configuration will be described with reference to FIG. 4 as follows.

First, when the mobile communication terminal needs to drive the vibration motor 30 for notifying a call or message reception or for other reasons, the terminal control unit 20 detects the surrounding situation or the terminal detected by a sensing sensor provided by the terminal itself. It checks the surrounding situation set by the user and vibrates according to the confirmed surrounding situation (for example, when it is located in a quiet place or there is little movement of the terminal user, or when it is located in a noisy place or there is a lot of movement of the terminal user). The vibration intensity and vibration period of the motor 30 are linearly controlled. For this purpose, after the data including the linear vibration intensity and vibration period information corresponding to the current surroundings are extracted from the internal memory, FIG. Enable signal to interface and logic circuitry 21 as A call is output, and the vibration control data extracted previously is output to the interface and logic circuit unit 21 as an I2C signal in accordance with clock synchronization.

Then, the interface and logic circuit 21 receives the vibration control data output from the terminal control unit 20 as an I2C signal according to the clock synchronization with the terminal control unit 20, that is, data including linear vibration intensity and vibration period information. After receiving the input, it is converted into n bits, for example, 8 bits of serial data, and transferred to the input terminal of the D / A converter 22.

In addition, the D / A converter 22 that receives the n-bit serial data from the interface and logic circuit unit 21 converts the serial data into a DC voltage and outputs the serial data to the operational amplifier 23. Since the n-bit serial data input from the logic circuit unit 21 is serial vibration control data for linear vibration intensity and vibration period control, the DC voltage that is linearly changed as shown in (b) of FIG. 4 when converted to DC voltage. Is converted to and outputted to the nonlinear input terminal of the operational amplifier 23.

Subsequently, in the operational amplifier 23, the bias voltage is linearly controlled according to the DC voltage input from the D / A converter 22 through the nonlinear input terminal, and a corresponding voltage, that is, a transistor connected to the next stage ( A control voltage for controlling 24 is output, and the output control voltage controls the base terminal (for bipolar transistor) or the gate terminal (for field effect transistor) of the transistor 24, Accordingly, while the driving voltage of the vibration motor 30 connected to the collector terminal (in the case of a bipolar transistor) or the drain terminal (in the case of a field effect transistor) of the transistor 24 is linearly controlled, the vibration motor 30 of FIG. As shown in (c), that is, the vibration operation is performed while changing the vibration intensity and the vibration period according to the surrounding situation.

For example, in the related art, when operating a vibration motor in a mobile communication terminal, as shown in FIG. 2, when a fixed driving voltage (3V) is applied, when operating at 100,000 RPM, 'off (enable signal OFF state) -on ( 100,000 RPM drive) -off-on (100,000 RPM drive) -off ', but vibrates in a simple manner, in the present invention by using the characteristics of the I2C signal to linearly control the drive voltage of the drive motor of FIG. As illustrated in (c) or (d), various methods such as 'off-on (50,000 RPM drive) -on (80,000 RPM drive) -on (100,000 RPM drive) -on (120,000 RPM drive)' Therefore, by driving the vibration motor rotational speed as necessary time it is possible to linearly control the driving of the vibration motor (30). At this time, if the vibration motor rotation speed is more than a predetermined RPM by reducing the vibration time it will be able to effectively reduce the vibration joint problem that the vibration continues to occur.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention, in adjusting the vibration intensity and the vibration period which is the vibration amount of the vibration motor used in the mobile communication terminal, driving using I2C (Intelligent Image Control) signal without using a simple on / off control method By performing the voltage control, the vibration motor can be controlled by various vibration amounts that can be linearly adjusted, rather than a fixed vibration amount.

In addition, the present invention can freely control the driving voltage of the vibration motor to be able to adjust the vibration intensity and the vibration period according to the needs of the user of the terminal or the surrounding situation, according to which there is a lot of movement or movement of the terminal user Under no circumstances, you will know exactly whether you are receiving a call or text.

Furthermore, the present invention has a limitation in increasing the vibration motor rotation speed due to the vibration joint in the prior art when increasing the vibration motor rotation speed that becomes the vibration strength of the vibration motor, but by controlling the vibration period shorter to increase the actual vibration motor rotation speed Vibration noise can be prevented while watching the effect. Accordingly, when playing a game using a mobile communication terminal, the vibration motor rotation can be linearly controlled according to the contents of the game to maximize the effect of the terminal user. Will be.

Claims (6)

In a mobile communication terminal having a vibration motor used to notify the reception of a call or message, A terminal controller for outputting an I2C (Intelligent Image Control) signal including vibration intensity and vibration period information for linearly controlling driving of the vibration motor; An interface and logic circuit unit for converting an I2C signal output from the terminal controller into serial data; A D / A converter converting the serial data converted by the interface and logic circuit into a DC voltage and outputting the converted DC voltage; An operational amplifier receiving the DC voltage output from the D / A converter and outputting a transistor control voltage corresponding thereto; And a transistor connected to the vibration motor to linearly control the driving voltage of the vibration motor according to the control voltage output from the operational amplifier. The method of claim 1, The terminal controller outputs data including linear vibration force and vibration period information to control driving of a vibration motor to an interface and a logic circuit through a data line, and outputs the interface and logic circuit to the vibration control data. Vibration motor linear control device of a mobile communication terminal, characterized in that to keep the clock synchronization and output the enable signal for driving the circuit. The method of claim 1, The interface and logic circuit unit is connected to the terminal control unit via an I2C bus, and when an enable signal is input from the terminal control unit, inputs data including linear vibration intensity and vibration period information according to clock synchronization with the terminal control unit. Receiving and converting it into n-bit serial data and transmitting the same to the D / A conversion unit. The method of claim 1, The operational amplifier may receive a DC voltage output from the D / A converter through a nonlinear input terminal, and output a transistor control voltage corresponding thereto while the bias voltage is linearly controlled according to the DC voltage. Vibration motor linear control device of the mobile communication terminal. The method of claim 1, When the transistor is implemented as a bipolar junction transistor, the base terminal is connected to the ground through an output terminal of the operational amplifier, a collector terminal is a vibration motor, and an emitter terminal is inverted input terminal and a resistor of the operational amplifier. In this state, as the base terminal is controlled by the transistor control voltage output from the operational amplifier, the mobile terminal of the mobile communication terminal, characterized in that it serves to control the drive voltage of the vibration motor connected to the collector terminal linearly. Vibration motor linear control device. The method of claim 1, When the transistor is implemented as field-effect transistors, the gate terminal is connected to the ground through the output terminal of the operational amplifier, the drain terminal is a vibration motor, and the source terminal is connected to the ground through an inverting input terminal and a resistor of the operational amplifier. In this state, as the gate terminal is controlled by the transistor control voltage output from the operational amplifier, the mobile communication terminal serves to linearly control the driving voltage of the vibration motor connected to the drain terminal. Vibration motor linear control device.

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