KR20010058756A - Method for driving a vibration motor of a cellular phone - Google Patents

Abstract

PURPOSE: A vibration motor driving method of a mobile phone is provided to heighten users' satisfaction by allowing the user to control the strength of vibration of a vibration motor to a suitable strength to his or her taste by adding a function of controlling the strength of the vibration motor. CONSTITUTION: When a specific event occurs(S11), it is determines whether an option has been set up to drive a vibration motor(S21). If the vibration motor has not been selected, a different unit is driven(S31). If the vibration motor has been selected, M/N counter information is read from a non-volatile(NV) memory which stores information on a motor strength(S41). That is, the motor strength information set up by a user by using a user interface is stored in a non-volatile memory, and before driving the motor, the information is read to be used as information for driving a YAMN1 port. Before driving the vibration motor, an output frequency of the M/N counter is set up by using the information on the strength of the motor vibration(S51), and an M/N counter duty cycle is set up(S61). An output is outputted to the YAMN1 port to supply a current to a motor driving circuit, thereby driving the vibration motor(S71).

Description

Method for driving a vibration motor of a cellular phone}

The present invention relates to a vibration motor driving method of a mobile phone, and in particular, by configuring the motor drive unit to set the strength of the vibration of the vibration motor of the mobile phone in a number of stages, such as ring sound volume, the user adjusts the strength of the vibration to the desired intensity It relates to a vibration motor driving method of the mobile phone.

Background Art Conventionally, vibration motors have been used as one of methods of notifying a user that a specific event (for example, an event that needs to be notified to a user by a ringtone or vibration, such as when a call is received) has occurred.

In order for the user to be notified that a predetermined event has occurred through the vibrating motor, the user must select one of the various methods (the ringing sound, vibration ...) that the user can know the occurrence of the event.

Afterwards, when the event occurs, the mobile phone notifies the user of vibration only or by using another method including vibration.

However, unlike the ring tone that can adjust the volume, the vibration motor was not provided with a function for setting the strength of vibration.

In addition, in order to adjust the motor strength, the amount of current or the voltage flowing into the motor was adjusted. In order to adjust the voltage or the amount of current, the current distribution circuit or the voltage distribution circuit had to be used.

1 is a block diagram showing the configuration of a conventional mobile phone vibration motor driving circuit.

As shown in FIG. 1, the conventional mobile phone vibration motor driving circuit controls the functions of the mobile phone as a whole, and includes a mobile station modem (MSM) 10 having a general purpose input output (GPIO) port and a YAMN1 port, and the MSM 10. Motor drive unit 20 for driving the vibration motor in accordance with the control command of the control unit, the motor 30 driven by the output signal of the motor drive unit 20, the memory unit for storing the data related to the general functions and motor drive of the mobile phone (60).

Here, the memory unit 60 includes a RAM 40 and a nonvolatile memory 50 for storing data by the control signal of the MSM 10.

In order to drive a motor in the conventional mobile phone vibration motor driving circuit, one of a plurality of GPIO ports provided in the MSM 10 chip is assigned to the motor drive, and the motor is driven by setting a register connected to the port. It was.

In addition, in order to control the strength of the vibration of the motor in hardware, one or more of the GPIO ports had to be additionally allocated for driving the motor (at least two GPIO ports were required), and a current distribution circuit or a voltage distribution circuit had to be added.

2 is a flowchart illustrating an execution process of a conventional mobile phone vibration motor driving method.

As shown in FIG. 2, according to the conventional mobile phone vibration motor driving method, first, when a specific event occurs (S10), it is determined whether a motor is selected (S20). If the motor is not selected as a result of the determination in the determination step S20, another device is driven (S30). If the motor is selected as the determination result in the determination step S20, the GPIO register is set (S40). In operation S50, the motor is driven.

In the above process, if you want to stop the motor, you can reset the GPIO register bit to '0'.

As described above, the conventional mobile phone vibration motor driving method has to keep the vibration intensity of the vibration motor the same regardless of the location / state of the mobile phone or the sensitivity / preference of the user's vibration, thereby satisfactorily satisfying the user's requirements. There was a problem that can not be.

The present invention has been made to solve the above problems, an object of the present invention is to provide a vibration motor driving method of a mobile phone that can set the strength of the vibration of the vibration motor of the mobile phone in a number of stages, such as the bell sound volume.

1 is a schematic configuration diagram of a conventional mobile phone vibration motor driving circuit.

2 is a flow chart showing an execution process of a conventional mobile phone vibration motor driving method.

3 is a schematic configuration diagram of a vibration motor driving circuit of a mobile phone according to the present invention.

4 is a view showing the structure of the YAMN1 port in FIG.

5 is an output waveform diagram of the YAMN1 port in FIG. 3;

Figure 6 is a flow chart showing an execution process of a vibration motor driving method of a mobile phone according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10, 11 ... MSM 20, 21 ... motor drive

30, 31 ... motor 40, 41 ... ram

50, 51 ... NV memory 60 ... Memory section

In accordance with an aspect of the present invention, there is provided a method of driving a vibration motor of a mobile phone according to the present invention. (A) Determining whether a motor is selected according to occurrence of a specific event, (b) As a result of the determination in step (a), If not selected, driving another device; (c) if the motor is selected as a result of the determination in step (a), reading the information from a memory storing information on motor strength, (d) the Generating a motor driving signal having a frequency and a duty cycle of the pulse wave using the counter for the motor strength information, and (e) driving the motor using the motor driving signal.

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

3 is a block diagram showing the configuration of a vibration motor driving circuit of a mobile phone according to the present invention.

3, the vibration motor driving circuit of the mobile phone according to the present invention controls the function of the mobile phone as a whole, and the vibration motor in accordance with the control command of the MSM (11) and the MSM (11) having a GPIO port and YAMN1 port A motor driving unit 21 for driving 31 and a memory unit 61 for storing data related to general functions and motor driving of the mobile phone are provided. By the way, the motor driving unit 21 is characterized in that it is connected to the YAMN1 port of the MSM 11 to drive the vibration motor as shown, which is characteristically different from the conventional vibration motor driving circuit.

In addition, the YAMN1 port is a general purpose M / N counter for distributing the incoming clock to generate a pulse having a frequency and duty cycle desired by the user.

The frequency and duty cycle DUTY CYCLE of the pulse wave output from the YAMN1 port may be adjusted using YAMN1_CLK_MDIV, YAMN1_CLK_NDIV, and YAMN1_CLK_DUTY input to the general purpose M / N counter. In FIG. 3, reference numeral 41 denotes a RAM and 51 denotes a nonvolatile memory, respectively.

As shown in FIG. 4, unlike the GPIO port, the YAMN1 port has three registers, that is, 9-bit YAMN1_CLK_MDIV and 13-bit YAMN1_CLK_NDIV and YAMN1_CLK_DUTY.

5 shows an example output waveform of the YAMN1 port.

Referring to Fig. 5, the clock input to the M / N counter is divided and converted into a desired frequency (in this case, the frequency ratio of the output waveform to the frequency of the input waveform is 2: 1. In actual implementation, this value is variable. By adjusting YAMN1_CLK_DUTY, you can adjust the duty cycle of the output pulse waveform. By adjusting this duty cycle, you can control the power entering the motor.

5 (b) and 5 (c) show a duty cycle of 100% and 67%, respectively, and a difference of 33% or more of power driving the motor occurs.

In the case of FIGS. 5C and 5D, a 33% difference occurs. As such, the intensity of vibration can be adjusted by controlling the power supplied to the motor by adjusting the duty cycle.

As shown in FIG. 5, if the duty cycle is divided into three types, the intensity of vibration can be adjusted in three stages. If the duty cycle is further subdivided, the intensity of the vibration can be adjusted in more steps.

The YAMN1_CLK_MDIV, YAMN1_CLK_N DIV, and YAMN1_CLK_DUTY values, which determine the frequency and duty cycle of the output waveform, are stored in non-volatile (non-Volatile, `` NV '') memory. You must set this value on the counter.

The method of controlling the strength of vibration using the YAMN1 port is ultimately possible by converting a clock used in the system into a desired shape using an M / N counter, and driving a motor with the clock of this waveform. Unlike the voltage or current distribution circuit, the power is controlled through a counter.

6 is a flowchart illustrating an execution process of a vibration motor driving method of a mobile phone according to the present invention.

Referring to Figure 6, it will be described in detail the execution process of the vibration motor driving method of the mobile phone according to the present invention.

First, when a specific event occurs (S11), it is determined whether the option is set to drive the vibration motor by a method of notifying the user (S21).

Then, if the motor is not selected as a result of the determination in the determination step S21, another device is driven (S31), and if the motor is selected as the determination result in the determination step S21, information on the motor strength The M / N counter information is read from the NV memory storing the data (S41).

That is, the motor strength information specified by the user using a user interface (UI) is stored in the nonvolatile memory area, and this information is read before driving the motor and used as information for driving the YAMN1 port. .

Here, the user interface means a conceptual program, not an interface device.

Next, before driving the motor, the output frequency of the M / N counter is set using the information on the intensity of the motor vibration read in step S41 (S51), and the M / N counter duty cycle is set ( S61), the motor is driven by supplying a current to the motor drive circuit so that an output actually comes to the YAMN1 port. (S71)

In the process of FIG. 6, when the motor is to be stopped again, the duty cycle of the M / N counter may be set to 0%.

As described above, the vibration motor driving method of the mobile phone according to the present invention by adding a function that can adjust the strength of the vibration motor, the user can increase the strength of the vibration of the vibration motor to the strength most suitable for the current situation, or your taste. It can be adjusted to make the user more satisfied.

In particular, if the vibration strength of the vibration motor is stronger than the standard motor, the vibration strength of the vibration motor can have a wider range can be maximized the effect of this function.

Claims (1)

(a) determining whether a motor is selected according to occurrence of a specific event, (b) if the motor is not selected as a result of the determination in step (a), driving another device; (c) if the motor is selected as a result of the determination in step (a), reading the information from the memory storing the information on the motor strength, (d) generating a motor driving signal having a frequency and a duty cycle of a pulse wave using a counter on the motor strength information; and (e) driving the motor using the motor driving signal.