KR101889058B1 - Driving apparatus for voice coil motor and driving method therefor - Google Patents

Abstract

A motor driving device for driving a motor having a driving coil and a position detecting coil comprises: an adder adding a driving signal for driving the motor and a position detecting signal; an amplifier amplifying an output of the adder; and a current controller generating a current control signal for controlling current of a final driving terminal of the amplifier. According to the present invention, the motor is driven by an electromagnetic induction method without having a hole sensor, and accurate position information of a camera module for auto focus can be obtained.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a voice coil motor driving apparatus,

The present invention relates to a voice coil motor driving apparatus and a driving method thereof.

In the case of a motor used for autofocusing of a camera module mounted on a smart phone or the like, a voice coil motor is used. In this case, displacement of the lens module is generally measured using a hall sensor. However, mounting the Hall sensor on the lens module is not efficient from a cost point of view, and it is also difficult to supply power signals of three Hall sensors for driving a three-phase motor in terms of design.

Korean Patent Laid-Open Publication No. 10-2015-0097998 (camera module and its autofocus method) discloses a camera module which does not include a hall sensor but employs an electromagnetic induction method. However, Japanese Patent Application Laid-Open No. 10-2015-0097998 does not disclose a specific motor driving apparatus suitable for electromagnetic induction.

An object of the present invention is to solve the technical problems as described above, and it is an object of the present invention to provide a method of driving a motor by electromagnetic induction without a Hall sensor, An object of the present invention is to provide a coil motor driving apparatus and a driving method thereof.

An apparatus for driving a motor having a driving coil and a position detecting coil according to a preferred embodiment of the present invention includes an adder for combining a driving signal for driving the motor and a position detecting signal; An amplifier for amplifying the output of the adder; And a current controller for generating a current control signal for controlling the current of the final driving stage of the amplifier.

Specifically, the current controller generates the current control signal using timing information in which the position detection signal is activated.

Preferably, the current controller further includes a second time point that is set by a first time point that is earlier than a start time point of activation of the position detection signal by a first time that is preset and a second time that is set before the activation start time point of the position detection signal, And the current control signal for causing the current of the final driving stage of the amplifier to increase between the time points.

Preferably, the frequency of the position detection signal is at least 10 times faster than the frequency of the drive signal, and the pulse width at which the position detection signal is activated is less than 50% of the period of the position detection signal. The magnitude of the voltage by the position detection signal appearing at the output of the amplifier is less than 50% of the magnitude of the voltage by the drive signal appearing at the output of the amplifier.

The apparatus of the present invention further includes: a drive controller for generating a digital drive signal using the current value of the position detection coil; And a digital-to-analog converter for converting the digital driving signal output from the driving controller into an analog driving signal.

A method of driving a motor including a driving coil and a position detecting coil according to a preferred embodiment of the present invention includes: an adding step of combining a driving signal for driving the motor and a position detecting signal; An amplifying step of amplifying the output of the adding step; And a current control signal generating step for controlling a current of a final driving stage of the amplifier used in the amplifying step.

Specifically, the current control signal generation step generates the current control signal using timing information in which the position detection signal is activated.

Preferably, the current control signal generation step includes: a current control signal generation step of generating a current control signal based on a first time point, which is earlier than a start time point of activation of the position detection signal by a first time, The current control signal for causing the current of the final driving stage of the amplifier to increase between the second time point of the current control signal and the second time point of the current control signal.

Preferably, the frequency of the position detection signal is at least 10 times faster than the frequency of the drive signal, and the pulse width at which the position detection signal is activated is less than 50% of the period of the position detection signal. The magnitude of the voltage by the position detection signal appearing at the output of the amplifier is less than 50% of the magnitude of the voltage by the drive signal appearing at the output of the amplifier.

Preferably, the method of the present invention further comprises: generating a digital driving signal by using the current value of the position detecting coil; And converting the digital driving signal into an analog driving signal.

According to the voice coil motor driving apparatus and the driving method therefor of the present invention, the position information of the camera module for autofocus can be obtained while driving the motor by the electromagnetic induction method without the hall sensor.

1 is a simplified cross-sectional view of a camera module to which a motor driven by a motor driving device of the present invention is applied.
2 is a configuration diagram of a voice coil motor driving apparatus according to a preferred embodiment of the present invention;
3 is an explanatory diagram of a drive signal and a position detection signal;
4 is a graph showing the relationship of position data values according to driving currents.
5 is an explanatory diagram of a method of applying a current by the motor driving apparatus of the present invention.

Hereinafter, a voice coil motor driving apparatus and a driving method thereof according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims.

1 is a simplified cross-sectional view of a camera module to which a motor driven by the motor driving apparatus 1000 of the present invention is applied.

As can be seen from Fig. 1, the motor to which the present invention is applied is not provided with a Hall sensor, and the electromagnetic induction phenomenon between the driving coil Coil_1 and the position detecting coil Coil_2 is used to drive the driving coil The distance between the driving coil Coil_1 and the coil for position detection Coil_2 is measured and fed back by detecting the intensity of the current in the coil Coil_1 or Coil_2 for position detection to enable the autofocus of the camera module . The image sensor IS serves to acquire an image, and the distance between the image sensor IS and the lens L becomes the focus distance.

The driving coil Coil_1 is a moving coil which moves together with the lens L according to the focus position, and the position detecting coil Coil_2 is a fixed coil. In addition, detection of the current intensity for position detection is possible by connecting a resistor to both ends of the coil (Coil_2) for position detection, which is a fixed coil, and amplifying it.

FIG. 2 shows a block diagram of a voice coil motor driving apparatus 1000 according to a preferred embodiment of the present invention.

2, the motor driving apparatus 1000 of the present invention combines a driving signal for driving the driving coil Coil_1 with a position detecting signal for the position detecting coil Coil_2, And a detection unit 200 for detecting a current value of the driving unit 100 and the position detection coil Coil_2 and outputting the detected current value as a digital signal.

In addition, the driving unit 100 includes a driving controller 110, a digital-to-analog converter 120, a signal generator 130, an adder 140, an amplifier 150, and a current controller (not shown). The detector 200 also includes a current detector 210 and an analog-to-digital converter 220.

The driving controller 110 preferably uses a PID (Proportional Integral Derivative) control scheme. The drive controller 110 generates a digital drive signal using the current value of the position detection coil Coil_2. That is, the drive controller 110 receives the current value of the position detection coil Coil_2 detected by the current detector 210 converted into the digital signal by the analog-to-digital converter 220, Output. In addition, in order to apply a voltage to both ends of the coil Coil_1, it is preferable that the driving signal is a differential signal.

The digital-to-analog converter 120 converts the digital driving signal output from the driving controller 110 into an analog driving signal. The output of the digital-to-analog converter 120 is also a differential signal.

The signal generator 130 serves to generate a position detection signal. The signal generator 130 can generate a position detection signal by generating a narrow digital pulse waveform and then amplifying it. The position detection signal generated by the signal generator 130 is also a differential signal. That is, the position detection signal is a signal for measuring the intensity of the electromagnetic induction phenomenon of the drive coil Coil_1 and the position detection coil Coil_2.

The adder 140 serves to combine the drive signal for driving the drive coil Coil_1 with the position detection signal. The output signal of the adder 140 is also a differential signal.

The driving signal and the position detection signal combined by the adder 140 are amplified by the amplifier 150 and output in the form of a differential signal to be applied to both ends of the driving coil Coil_1 to drive the motor.

The current controller serves to generate a current control signal for controlling the current of the final driving stage of the amplifier 150. [

The current detector 210 detects the current value of the detected position detection coil Coil_2. In addition, the analog-to-digital converter 220 converts the current value of the analog signal detected by the current detector 210 into a digital signal.

The operation characteristics of the motor driving apparatus 1000 of the present invention will now be described in more detail.

3 is an explanatory diagram of a drive signal and a position detection signal.

It is preferable that the frequency of the position detection signal is 10 times faster than the frequency of the drive signal and the pulse width at which the position detection signal is activated is less than 50% of the cycle of the position detection signal. The magnitude of the voltage by the position detection signal appearing at the output of the amplifier 150 is less than 50% of the magnitude of the voltage by the drive signal appearing at the output of the amplifier 150. [

For example, the frequency of the drive signal appearing at the output of the amplifier 150 is about 100 Hz, and the frequency of the position detection signal can be set to 25 kHz. At this time, the activated pulse width of the position detection signal is set to 1us. When the voltage by the drive signal appearing at the output of the amplifier 150 is 100V, the pulse width of the position detection signal by the position detection signal appearing at the output of the amplifier 150 The voltage can be set to about 40V.

That is, it is preferable that the position detection signal relative to the drive signal has a narrow pulse width and a high frequency pulse wave, and the intensity thereof is also weak. The detection of the position by the narrow high frequency pulse wave affects the electromagnetic induction phenomenon between the driving coil Coil_1 and the position detecting coil Coil_2 without affecting the actual motor driving, The autofocusing of the camera module is enabled by measuring the distance between the driving coil Coil_1 and the position detecting coil Coil_2.

In order to obtain accurate position data, the current value measured according to the magnitude of | A1 | + | A2 |, which is the magnitude of the position detection signal appearing at both ends of the final driving coil Coil_1, must maintain linearity.

에 비례하게 된다. 여기서, Rcoil은 구동용 코일(Coil_1)의 저항값이고, Rz는 증폭기(150)의 출력 저항값을 의미한다.The magnitude of the position detection signal transmitted to the driving coil (Coil_1)

. Here, Rcoil is the resistance value of the driving coil (Coil_1), and Rz is the output resistance value of the amplifier (150).

에 비례한다. 즉, 단위 이득 증폭기(150)의 출력 저항(Rz)은, 최종 구동단의 출력 저항(Rout)에 따라 달라진다. 아울러, 최종 구동단의 출력 저항(Rout)은 구동용 코일(Coil_1)에 흐르는 전류값에 따라 변한다. 즉, 구동 신호에 따라, 위치 검출용 신호의 크기가 달라지게 된다.The output resistance (Rz) of the unit gain amplifier (150)

. That is, the output resistance Rz of the unit gain amplifier 150 depends on the output resistance Rout of the final driving stage. In addition, the output resistance Rout of the final driving stage changes in accordance with the value of the current flowing through the driving coil Coil_1. That is, the magnitude of the position detection signal varies depending on the drive signal.

In other words, depending on the driving current, the output resistance Rout of the final driving stage fluctuates, resulting in a difference in magnitude of the position detection signal. Thus, the linearity of the entire system deteriorates.

4 is a graph showing a relationship of position data values according to driving currents. From Fig. 4, it can be seen that the linearity with the position data is deteriorated when the driving current value is low.

In order to improve the non-linearity as described above, the motor driving apparatus 1000 of the present invention is characterized in that a large current is supplied to the final driving stage of the amplifier 150. [

However, if a large amount of current is continuously supplied, the consumption current increases. Therefore, in the present invention, the increase of current consumption is improved by increasing the current of the final driving stage only in a certain period.

5 is an explanatory diagram of a current application method by the motor driving apparatus 1000 of the present invention.

The current controller generates the current control signal using the timing information at which the position detection signal is activated. Specifically, the current controller, between the first point of time, which is earlier than the activation start point of the position detection signal by the first time set in advance, and the second point of time after the activation point of time of the position detection signal, And generates a current control signal for causing the current of the final driving stage of the amplifier 150 to increase. That is, the current controller generates the current control signal so as to increase the bias current of the amplifier 150 in the interval between the first and second points of time.

The first time is a time required for the current to increase and stabilize, and the second time is a time required for a response after activation of the position detection signal is started.

Hereinafter, a method of driving a voice coil motor according to a preferred embodiment of the present invention will be described.

Since the voice coil motor driving method according to the preferred embodiment of the present invention uses the above-described motor driving apparatus 1000 of the present invention, it includes all the features of the motor driving apparatus 1000 Of course.

A method of driving a voice coil motor according to a preferred embodiment of the present invention includes: (S10) outputting a digital driving signal using a feedback input signal; Converting the digital driving signal into an analog driving signal (S20); A position detection signal generation step (S30) of generating a position detection signal; An adding step (S40) of combining a driving signal for driving the driving coil (Coil_1) in step S20 and a position detecting signal in step S30; And an amplifying step (S50) of amplifying the output of the adding step (S40); And a current control signal generation step (S60) for controlling the current of the final driving stage of the amplifier 150 used in the amplification step (S50).

In addition, the motor driving method of the present invention includes: a step (S70) of generating a digital signal by using a current value of a position detection coil Coil_2; And converting the digital signal of step S70 into an analog signal (step S80).

The current control signal generation step (S60) is characterized by generating the current control signal using the timing information at which the position detection signal is activated.

Specifically, the current control signal generation step S60 is a step of generating a current control signal S60 by a first time point that is earlier than the activation timing of the position detection signal by the first time, It is preferable to generate a current control signal for increasing the current of the final driving stage of the amplifier 150 between the two timings.

Further, the frequency of the position detection signal is 10 times faster than the frequency of the drive signal, and the pulse width at which the position detection signal is activated is less than 50% of the cycle of the position detection signal. Further, the magnitude of the voltage by the position detection signal appearing at the output of the amplifier 150 is less than 50% of the magnitude of the voltage by the drive signal appearing at the output of the amplifier 150.

As described above, according to the voice coil motor driving apparatus 1000 and the driving method of the present invention, the motor is driven by the electromagnetic induction method without the hall sensor, and the position information of the accurate camera module for autofocus is obtained It can be seen that

1000: Motor drive device
100: Driving unit 200:
110: drive controller 120: digital-to-analog converter
130: Signal generator 140:
150: Amplifier
210: current detector 220: analog-to-digital converter
Coil_1: Coil for driving Coil_2: Position detecting coil
L: Lens IS: Image sensor

Claims (14)

An apparatus for driving a motor having a driving coil and a position detecting coil,
An adder for combining a drive signal for driving the motor and a position detection signal;
An amplifier for amplifying the output of the adder; And
And a current controller for generating a current control signal for controlling a current of a final driving stage of the amplifier,
Wherein the current controller comprises:
And generates the current control signal by using timing information in which the position detection signal is activated. delete The method according to claim 1,
Wherein the current controller comprises:
Between a first point of time preceding the activation start point of the position detection signal by a first time set in advance and a second point of time later than a start point of activation of the position detection signal by a second time, And the current control signal to cause the current of the step to increase. The method according to claim 1 or 3,
Wherein the frequency of the position detection signal
Wherein the frequency of the drive signal is ten times faster than the frequency of the drive signal. 5. The method of claim 4,
The pulse width at which the position detection signal is activated,
Is less than 50% of the period of the position detection signal. 6. The method of claim 5,
Wherein the magnitude of the voltage by the position detection signal, which appears at the output of the amplifier,
Wherein the voltage is less than 50% of the magnitude of the voltage by the drive signal appearing at the output of the amplifier. The method according to claim 1,
The apparatus comprises:
A drive controller for generating a digital drive signal using the current value of the position detection coil; And
And a digital-to-analog converter for converting the digital driving signal output from the driving controller into an analog driving signal. A method for driving a motor having a driving coil and a position detecting coil,
An addition step of combining a drive signal for driving the motor and a position detection signal;
An amplifying step of amplifying the output of the adding step; And
And a current control signal generating step for controlling a current of a final driving stage of the amplifier used in the amplifying step,
The current control signal generation step includes:
Wherein the current control signal is generated using timing information in which the position detection signal is activated. delete 9. The method of claim 8,
The current control signal generation step includes:
Between a first point of time preceding the activation start point of the position detection signal by a first time set in advance and a second point of time later than a start point of activation of the position detection signal by a second time, Wherein the current control signal is generated to cause the current of the step to increase. 11. The method according to claim 8 or 10,
Wherein the frequency of the position detection signal
Wherein the frequency of the drive signal is at least ten times faster than the frequency of the drive signal. 12. The method of claim 11,
The pulse width at which the position detection signal is activated,
Of the period of the position detection signal is less than 50% of the period of the position detection signal. 13. The method of claim 12,
Wherein the magnitude of the voltage by the position detection signal, which appears at the output of the amplifier,
Characterized in that it is less than 50% of the magnitude of the voltage by the drive signal appearing at the output of the amplifier. 9. The method of claim 8,
The method comprises:
Generating a digital driving signal by using the current value of the position detecting coil; And
And converting the digital driving signal to an analog driving signal.

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