KR100782772B1 - Apparatus of driving piezoelectric actuator - Google Patents

Abstract

An apparatus of driving a piezoelectric actuator is provided to prevent an operation efficiency of the piezoelectric actuator from being reduced by a driving signal inputted to the other input channel by grounding an unavailable input channel of the piezoelectric actuator. An apparatus(10) of driving a piezoelectric actuator(20) includes a driving signal generating unit(11), plural output terminals(OUT1,OUT2), a switch unit(12), and a switching control unit(13). The driving signal generating unit generates plural driving signals. The plural output terminals output the plural driving signals and are electrically connected to plural input channels(CH1,CH2). The switching unit is constituted of plural switches(SW1,SW2) connected between the driving signal generating unit and the plural output terminals. The switching control unit transfers the driving signal generated from the driving signal generating unit to the output terminal for outputting the driving signal used in the current operation of the piezoelectric actuator and controls the switches of the switch unit so that other output terminals are opened.

Description

Piezoelectric Actuator Driving Device {APPARATUS OF DRIVING PIEZOELECTRIC ACTUATOR}

1 is a block diagram showing a conventional piezoelectric actuator driving device.

2 is a block diagram illustrating a piezoelectric actuator driving device according to an embodiment of the present invention.

3 is a block diagram illustrating an example of a digital camera to which a piezoelectric actuator driving device according to an embodiment of the present invention is applied.

* Description of the symbols for the main parts of the drawings *

10: piezoelectric actuator drive device 11: drive signal generator

12: switch unit 13: switching control unit

OUT1, OUT2: Output stage 20: Piezo actuator

CH1, CH2: Input Channel

The present invention relates to a driving apparatus for driving a piezoelectric actuator, and more particularly, connected to an input channel of a piezoelectric actuator which is not currently used for the operation of a piezoelectric actuator among a plurality of output stages for outputting a plurality of driving signals to the piezoelectric actuator. The present invention relates to a driving apparatus of a piezoelectric actuator that makes the output stage electrically open to improve the efficiency of the piezoelectric actuator and to utilize a feedback voltage output from the piezoelectric actuator.

In general, a piezoelectric actuator is a transducer device that converts electrical energy into mechanical displacement or stress using a piezoelectric method, and is an ultrasonic motor used to move a lens for zoom or focus in a digital camera module such as a mobile phone. Is being applied to.

In particular, the piezoelectric actuator applied to the ultrasonic motor used to shift the position of the lens in the digital camera module has two input channels that receive different driving signals for forward rotation and reverse rotation of the ultrasonic motor. There is a need for a drive device for providing drive signals to piezoelectric actuators. 1 shows a conventional piezoelectric actuator driving device capable of providing two drive signals to a piezoelectric actuator.

As shown in FIG. 1, the piezoelectric actuator 120 includes a first input channel CH1 for receiving a driving signal used for forward rotation of an ultrasonic motor and a driving signal for receiving a driving signal used for reverse rotation of an ultrasonic motor. 2 input channels CH2 are provided separately from each other. In addition, the first input channel CH1 is electrically connected to the first output terminal OUT1 of the piezoelectric actuator driving device 110, and the second input channel CH2 is the first input channel CH1 of the piezoelectric actuator driving device 110. 2 is electrically connected to the output terminal (OUT2).

The conventional piezoelectric actuator driving device 110 generates two drive signals for forward and reverse rotation of the ultrasonic motor in the drive signal generator 111. In addition, when the signal generated by the drive signal generator 111 is a drive signal used for forward rotation, the output selector 112 transmits a drive signal to the first output terminal OUT1 and transmits the second output terminal OUT2. On the contrary, when the signal generated by the driving signal generator 111 is a driving signal used for reverse rotation, the driving signal is transmitted to the second output terminal OUT2 and the first output terminal OUT1 is grounded. That is, the conventional piezoelectric actuator drive device 110 operates to ground the output stage which is not used for the present operation. This is because a feedback voltage is typically output in an unused input channel of the piezoelectric actuator 120, and thus, when the feedback voltage is input to the piezoelectric actuator driving device, it may adversely affect a circuit in the driving device.

However, when an unused input channel is grounded, it may affect the efficiency of operation of the piezoelectric actuator due to a drive signal input to the input channel being used. For example, when the second input channel is grounded, the displacement of the driving signal input to the first input channel may be reduced, which may cause a problem in that the piezoelectric actuator operation efficiency is lowered.

In addition, in some cases, it is necessary to monitor the frequency of the current input drive signal by analyzing the feedback voltage, but there is a problem in that the feedback voltage cannot be utilized at all when the input channel to which the feedback voltage is output is grounded.

SUMMARY OF THE INVENTION The present invention has been proposed to solve the above-mentioned problems of the prior art, and an object thereof is to control an output terminal electrically connected to an input channel which is not used for the current operation of the piezoelectric actuator to electrically open the piezoelectric actuator. It is to provide a driving device of a piezoelectric actuator to improve the efficiency and to utilize the feedback voltage.

The present invention as a technical configuration for achieving the above object,

In the piezoelectric actuator driving device for providing the drive signal to a piezoelectric actuator having a plurality of input channels for receiving a plurality of different drive signals,

A drive signal generator configured to generate the plurality of drive signals;

A plurality of output stages respectively outputting the plurality of driving signals and electrically connected to a plurality of input channels of a piezoelectric actuator;

A switch unit comprising a plurality of switches connected between the driving signal generator and the plurality of output terminals, respectively; And

Switching control unit for controlling the switch of the switch unit to transfer the drive signal generated from the drive signal generator to the output terminal for outputting the drive signal used in the current operation of the piezoelectric actuator, the remaining output terminal

It provides a piezoelectric actuator drive device comprising a.

In a preferred embodiment of the invention, the piezoelectric actuator has a first and a second input channel, the output terminal has a first and a second output terminal electrically connected to the first and second input channel, respectively, the switching control unit The controller controls the switch to transmit the driving signal to the first output terminal when the first input channel is used, and to open the second output terminal, and when the second input channel is used, to the second output terminal. The switch may be controlled to transmit the driving signal and open the first output terminal.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiment of this invention is provided in order to demonstrate this invention more completely to the person skilled in the art to which this invention belongs. In addition, in the description of the present invention, terms defined are defined in consideration of functions in the present invention, which may vary according to the intention or convention of those skilled in the art, and thus limit the technical components of the present invention. It should not be understood as meaning.

2 is a block diagram illustrating a piezoelectric actuator driving device according to an embodiment of the present invention.

Referring to FIG. 2, the drive device 10 of the piezoelectric actuator according to the embodiment of the present invention includes a drive signal generator 11, output terminals OUT1 and OUT2, a switch unit 12, and a switching controller 13. It is configured to include.

The piezoelectric actuator 20 applied to the present invention includes a plurality of input channels CH1 and CH2 for receiving different driving signals according to the vibration direction of the piezoelectric body. For example, in the present embodiment, the piezoelectric actuator 20 may be a piezoelectric actuator 20 employed in an ultrasonic motor for shifting the position of the lens for auto focus such as a digital camera. In this case, the piezoelectric actuator 20 receives a first input channel CH1 for receiving a first driving signal for forward rotation of the ultrasonic motor and a second input channel for receiving a second driving signal for reversely rotating the ultrasonic motor. Piezoelectric actuator 20 having a CH2.

Hereinafter, with reference to the embodiment shown in Figure 2 will be described the configuration and operation for driving the piezoelectric actuator having two input channels. However, the present invention is not limited thereto, and the present invention may be applied to piezoelectric actuators having a plurality of input channels.

The drive signal generator 11 generates a plurality of drive signals for driving the piezoelectric actuator 20. In the present embodiment, the driving signal generator 11 may generate two driving signals for driving the piezoelectric actuator 20. For example, the drive signal generator 11 may generate a first drive signal for forward rotation of the ultrasonic motor to which the piezoelectric actuator 20 is applied and a second drive signal for reverse rotation of the ultrasonic motor. . In addition, the drive signal generator 11 may generate a pulse signal having a predetermined frequency and duty ratio as the drive signal. For this purpose, the drive signal generator 11 may include a pulse width modulation (PWM) circuit. It may include.

The output terminals OUT1 and OUT2 may transmit the plurality of driving signals generated from the driving signal generator 11 to the input channels CH1 and CH2 of the piezoelectric actuator 20, respectively. ) Is electrically connected. For example, the output terminal may include a first output terminal OUT1 and a second output terminal OUT2, and the first output terminal OUT1 may be configured to forward-rotate the ultrasonic motor to which the piezoelectric actuator 20 is applied. One driving signal is transmitted to the first input channel CH1 of the piezoelectric actuator 20, and the second output terminal OUT2 transmits a second driving signal for reversely rotating the ultrasonic motor of the piezoelectric actuator 20. It may be transmitted to the second input channel CH2.

The switch unit 12 may be provided in a signal path through which a drive signal output from the drive signal generator 11 is transmitted to the output terminals OUT1 and OUT2. For example, a first switch SW1 may be provided in a path through which the first driving signal for forward rotation of the ultrasonic motor to which the piezoelectric actuator 20 is applied is transmitted to the first output terminal OUT1. The second switch SW2 may be provided in a path through which the second driving signal for rotating the ultrasonic motor to the reverse direction is transmitted to the second output terminal OUT2. The switches SW1 and SW2 in the switch unit 12 may be turned on / off under the control of the switching control unit 13 according to the current operating state of the piezoelectric actuator, and the output terminals which are not used are electrically open. do.

The switching control unit 13 controls the on / off states of the switches SW1 and SW2 in the switch unit 12. For example, when the ultrasonic motor is rotated forward by the piezoelectric actuator 20, the switching controller 13 turns on the first switch so that the first driving signal generated by the driving signal generator 11 is first. The output unit OUT1 is output, and the second switch SW2 is turned off to control the switch unit 12 so that the second output terminal OUT2 is electrically opened. Similarly, when the ultrasonic motor is reversely rotated by the piezoelectric actuator 20, the switching controller 13 turns on the second switch so that the second drive signal generated by the drive signal generator 11 is generated. 2 outputs to the output terminal OUT2, and controls the switch unit 12 to turn off the first switch SW1 so that the first output terminal OUT2 is electrically open.

By the operation of the switch unit 12 and the switching control unit 13 as described above, the present invention is to make the output terminal electrically connected to the input channel which is not used for the current operation of the piezoelectric actuator to be in the electrically open state of the piezoelectric actuator This reduces the efficiency of piezoelectric actuators caused by grounding unused input channels. In addition, by allowing the output terminal electrically connected to the input channel not used for the current operation of the piezoelectric actuator to be in an electrically open state, it is possible to utilize the feedback voltage output from the unused input channel.

3 is a block diagram showing an example of a digital camera to which the piezoelectric actuator driving device according to the embodiment of the present invention shown in FIG. 2 is applied. In particular, the piezoelectric actuator driving device of the present invention can be applied to the driving of a piezoelectric actuator applied to an ultrasonic motor used to shift the position of a lens for autofocus of a digital camera.

An operation of the piezoelectric actuator driving device according to an embodiment of the present invention will be described with reference to FIG. 3.

First, the image passing through the lens 31 and formed on the image sensor 32 is detected by the auto focus unit (AF unit) 33 and transmitted to the ISP 34.

Subsequently, the ISP 34 transmits a lens position adjustment signal Ss for adjusting the position of the lens 31 according to the sharpness detected by the auto focus unit 33, according to an embodiment of the present invention. To 10. For example, when the position of the lens 31 needs to be further away from the image sensor 32, the ISP 34 may generate and transmit a lens position adjustment signal Ss for forward rotation of the ultrasonic motor. On the contrary, when the position of the lens 31 needs to be close to the image sensor 32, the ISP 34 may generate and transmit a range adjustment signal Ss for reversely rotating the ultrasonic motor.

When the lens position adjustment signal Ss for forward rotation of the ultrasonic motor is transmitted to the piezoelectric actuator drive device 10, the drive signal generator 11 in the piezoelectric actuator drive device 10 may forward rotate the ultrasonic motor. A first drive signal is generated. In addition, the switching controller 13 in the piezoelectric actuator driving device 10 may output the first driving signal to the first output terminal OUT1 connected to the first input channel CH1 of the piezoelectric actuator 20. The first switch SW1 of the unit 12 is turned on and the second switch SW2 is turned off at the same time. Accordingly, the first driving signal is transmitted to the first input channel CH1 of the piezoelectric actuator 20 so that the ultrasonic motor 40 having the piezoelectric actuator 20 rotates forward to move the lens 31 away from the image sensor 32. Direction, the second output terminal OUT2 of the piezoelectric actuator drive device 10 is in an open state.

On the contrary, when the lens position adjustment signal Ss for reversely rotating the ultrasonic motor is transmitted to the piezoelectric actuator drive device 10, the drive signal generator 11 in the piezoelectric actuator drive device 10 reversely rotates the ultrasonic motor. To generate a second driving signal. In addition, the switching controller 13 in the piezoelectric actuator driving device 10 may switch the second driving signal to the second output terminal OUT2 connected to the second input channel CH2 of the piezoelectric actuator 20. The second switch SW2 of the unit 12 is turned on and the first switch SW1 is turned off at the same time. As a result, the second driving signal is transmitted to the second input channel CH1 of the piezoelectric actuator 20 so that the ultrasonic motor 40 having the piezoelectric actuator 20 rotates in reverse to move the lens 31 to the image sensor 32. The first output terminal OUT2 of the piezoelectric actuator drive device 10 is in an open state.

As described above, the present invention controls the output terminal electrically connected to an input channel which is not used for the current operation of the piezoelectric actuator to be in an electrically open state so that the unused input channel of the piezoelectric actuator is grounded to be input to another input channel. The piezoelectric actuator operated by the signal can solve the problem that the efficiency of the operation is reduced.

In addition, the present invention is to electrically open the output terminal electrically connected to the input channel that is not used for the current operation of the piezoelectric actuator, so that the feedback voltage output from the unused input channel can be utilized for the piezoelectric actuator drive control. can do.

As described above, according to the present invention, by controlling the output terminal electrically connected to the input channel that is not used for the current operation of the piezoelectric actuator to be in the open state, the other input by grounding the unused input channel of the piezoelectric actuator The efficiency of the piezoelectric actuator operation due to the drive signal input to the channel can be prevented from being reduced.

In addition, according to the present invention, the output terminal electrically connected to an input channel which is not used for the current operation of the piezoelectric actuator is electrically open, so that the feedback voltage output from the unused input channel can be utilized for the piezoelectric actuator driving control. It has an effect.

Claims (2)

In the piezoelectric actuator driving device for providing the drive signal to a piezoelectric actuator having a plurality of input channels for receiving a plurality of different drive signals, A drive signal generator configured to generate the plurality of drive signals; A plurality of output stages respectively outputting the plurality of driving signals and electrically connected to a plurality of input channels of a piezoelectric actuator; A switch unit comprising a plurality of switches connected between the driving signal generator and the plurality of output terminals, respectively; And Switching control unit for controlling the switch of the switch unit to transfer the drive signal generated from the drive signal generator to an output terminal for outputting the drive signal used in the current operation of the piezoelectric actuator, the other output terminal is open Piezoelectric actuator driving device comprising a. The method of claim 1, The piezoelectric actuator has a first and a second input channel, the output terminal has a first and a second output terminal electrically connected to the first and second input channel, respectively, The switching controller controls the switch to transmit the driving signal to the first output terminal and to open the second output terminal when the first input channel is used, and when the second input channel is used, 2. The piezoelectric actuator driving device of claim 2, wherein the switch is controlled to transmit the driving signal to an output terminal and to open the first output terminal.

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