JPH05177833A - Piezoelectric driver circuit - Google Patents

Abstract

PURPOSE:To facilitate the adjustment to the irregularity of the characteristics of individual piezoelectric vibrators by applying the voltage proportional to the difference with reference voltage to each of the piezoelectric vibrators and feeding back the output of a driver circuit to an operational amplifier circuit through a condenser. CONSTITUTION:An ON/OFF control signal 21 for vibrating a piezoelectric vibrator 1 is inputted to a resistor module 4 wherein many resistors R1-RN are connected in parallel and one resistor is selected from many resistors R1-RN of the resistor module 4 in an analogue switch circuit 6 by a selection signal 27. The signal passed through the selected resistor is compared with reference voltage 24 in an operational amplifier circuit 3 and the voltage proportional to the difference between them is applied to the piezoelectric vibrator 1 through a driver circuit 2 and the output of the driver circuit 2 is fed back to the operational amplifier circuit 3 through the condenser 5. By this constitution, the irregularity of the characteristics of individual piezoelectric vibrators can be easily adjusted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a piezo drive circuit for driving a piezo oscillator, and is particularly used in an ink jet printer or the like so that a drive voltage of the piezo oscillator for giving deformation energy to a bimorph structure plate can be arbitrarily selected. The present invention relates to a piezo drive circuit.

[0002]

2. Description of the Related Art FIG. 3 is a circuit diagram showing an example of a conventional piezo drive circuit, and FIG. 4 is a waveform diagram showing the operation of the example of FIG.

A conventional piezo drive circuit used in an ink jet printer or the like for applying a deformation energy to a bimorph structure plate to drive the piezo vibrator applies an electric signal to the piezo vibrator 11 as shown in FIG. Driver circuit 12, piezo oscillator 11, and driver circuit 12
And a level conversion circuit 19 for converting an on / off control signal for driving the piezoelectric vibrator 11 into a drive voltage signal.

The piezo drive circuit configured as described above is
As shown in FIG. 4, when the piezoelectric vibrator 11 is not normally driven, the piezoelectric drive voltage (VD) 43 and the drive voltage (VOUT) 42 are both 0 volt. The piezo drive current (ID) is 0 ampere. When the on / off control signal (VIN) 41 is changed from the high level to the low level in this state, the driver circuit 12 which receives the on / off control signal (VIN) 41 via the level conversion circuit 19 causes the drive voltage (VOUT) 4
Change 2 from 0 volts to VH volts in steps. Drive voltage (VOUT) 42 via resistor 17
The piezo oscillator 11 for inputting is driven by this.

When the on / off control signal (VIN) 41 is changed from low level to high level, the driver circuit 12
Drive voltage (VOUT) 42 from VH volt to 0
Change the bolt into steps.

The piezo drive circuit has an on / off control signal (V
(IN) 41, the above-described operation is repeated to drive the piezoelectric vibrator 11.

Adjustments to variations in the characteristics of each piezo-vibrator 11 and changes in the amount of deformation energy of the piezo-vibrator 11 are made by changing the resistance value of the resistor 17 connected in series to the piezo-vibrator 11. Is going.

[0008]

As described above, the conventional piezo drive circuit allows the piezo vibrator to perform adjustment for variations in the characteristics of each piezo vibrator 11 and change the size of the deformation energy of the piezo vibrator. Since this is achieved by changing the resistance value of the resistors connected in series, there is a drawback in that the load resistance must be changed every time the piezoelectric vibrator is replaced.

[0009]

A piezo drive circuit according to the present invention includes a driver circuit for applying an electric signal to a piezo oscillator, and a driver circuit connected in series to the driver circuit to detect a difference between a reference voltage and an input voltage. An operational amplifier circuit that generates a proportional drive voltage signal, a resistance module that connects a plurality of resistors in parallel to transmit an on / off control signal for driving the piezo oscillator, and an input of the operational amplifier circuit An analog switch circuit connected between a voltage terminal and the resistance module to select one resistance specified by a selection signal from a plurality of resistances of the resistance module; and an input voltage terminal of the operational amplifier circuit. And a capacitor connected to the output terminal of the driver circuit and transmitting a negative feedback signal.

[0010]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIG. 2 is a waveform diagram showing the operation of the embodiment of FIG.

In FIG. 1, the piezoelectric vibrator 1 has electrodes applied in the thickness direction, and when a voltage is applied between the electrodes, mechanical strain is generated. One electrode is grounded and the other electrode is connected to the driver circuit 2. The driver circuit 2 is a push-pull type driver circuit, and amplifies the drive voltage 26 input from the operational amplifier circuit 3 and applies it to the piezoelectric vibrator 1.

The operational amplifier circuit 3 has a reference voltage (VREF).
Drive voltage 26 proportional to the difference between 24 and input voltage 25
To occur.

The resistance module 4 includes a plurality of resistors R1 to R1.
RNs are connected in parallel, and the on / off control signal (VIN) 21 is transmitted to the operational amplifier circuit 3 as the input voltage 25 via the analog switch circuit 6.

The analog switch circuit 6 is connected in series between the input voltage terminal of the operational amplifier circuit 3 and the resistance module 4, and a selection signal (SEL) 27 is selected from the plurality of resistances R1 to RN of the resistance module 4. Select and connect one resistor specified by.

The capacitor (CF) 5 is the operational amplifier circuit 3
Is connected between the input voltage terminal of and the output terminal of the driver circuit 2 and transmits a negative feedback signal.

Next, the operation of the embodiment shown in FIG. 1 will be described with reference to FIG.

In a normal time when the piezoelectric vibrator 1 is not driven,
The piezo drive voltage (VD) 22 is 0 as shown in FIG.
It's a bolt. At this time, the on / off control signal (V
IN) 21 is at a high level. That is, (V
IN> VREF).

The on / off control signal (VIN) 21 is changed from a high level to a low level (that is, VIN <V
When changed to REF), the drive voltage (VD) 22 corresponds to the reference voltage (VREF) 24 and the resistance designated by the selection signal (SEL) 27 from the plurality of resistances R1 to RN of the resistance module 4. The input voltage 25 and the capacitor (CF) 5 that transmits the negative feedback signal are determined within the range of 0 volt to VH volt as follows.

Piezo drive voltage (VD) = (VREF-V
IN) / CF · (R1 to RN) × t.

Further, the on / off control signal (VIN) 21 is changed from low level to high level (that is, VI).
N> VREF), similarly, the piezo drive voltage (VD) = VH− (VIN−VREF)
× RF / (R1 to RN) × t.

That is, the waveform of the piezo drive voltage (VD) is (VREF-VIN) / when the on / off control signal (VIN) 21 changes from high level to low level.
When the on / off control signal (VIN) 21 changes from a low level to a high level by changing from 0 volt to VH volt with the inclination of CF · (R1 to RN), − (VIN−
VREF) / CF. (R1 to RN) changes from VH volt to 0 volt.

As described above, the magnitude of the slope of the piezo drive voltage (VD) 22 depends on the value of one of the resistors R1 to RN of the resistance module 4 selected by the analog switch circuit 6 by the selection signal (SEL) 27. Is determined.
Reference numerals 22-1, 22-2, 22-3 to 22- of FIG.
The piezo drive voltage (VD) indicated by N indicates the voltage value when the resistors R1, R2, R3 to RN of the resistance module 4 are selected.

[0024]

As described above, in the piezo drive circuit of the present invention, the on / off control signal for driving the piezo oscillator is input to the resistance module in which a plurality of resistors are connected in parallel, and the analog signal is selected by the selection signal. In the switch circuit, one resistor is selected from the plurality of resistors of the resistance module, the signal passing through the selected resistor is compared with the reference voltage in the operational amplifier circuit, and the voltage proportional to the difference is set in the driver circuit. The output of the driver circuit is fed back to the operational amplifier circuit via the capacitor via the capacitor, and adjustments for variations in the characteristics of individual piezoelectric vibrators can be easily performed. Has the effect of becoming.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

FIG. 2 is a waveform chart showing the operation of the embodiment of FIG.

FIG. 3 is a circuit diagram showing an example of a conventional piezo drive circuit.

FIG. 4 is a waveform diagram showing the operation of the example of FIG.

[Explanation of symbols]

 1 Piezoelectric Oscillator 2 Driver Circuit 3 Operational Amplifier Circuit 4 Resistance Module 5 Capacitor 6 Analog Switch Circuit 11 Piezoelectric Oscillator 12 Driver Circuit 17 Resistance 19 Level Conversion Circuit 21 On / Off Control Signal (VIN) 22 Piezo Drive Voltage (VD) 24 Reference Voltage (VREF) 25 Input voltage voltage 26 Drive voltage 27 Selection signal (SEL) 41 On-off control signal (VIN) 42 Drive voltage (VOUT) 43 Piezo drive voltage (VD)

Claims (1)

[Claims] 1. A driver circuit for applying an electric signal to a piezo oscillator, and an operational amplifier circuit connected in series with the driver circuit for generating a drive voltage signal proportional to a difference between a reference voltage and an input voltage. A resistor module for connecting a plurality of resistors in parallel and transmitting an on / off control signal for driving the piezo oscillator; and a resistor module connected between an input voltage terminal of the operational amplifier circuit and the resistor module. Connected between an analog switch circuit that selects one resistance specified by a selection signal from a plurality of resistances of the resistance module, and an input voltage terminal of the operational amplifier circuit and an output terminal of the driver circuit. And a capacitor that transmits a negative feedback signal.