JPH0737368Y2 - Piezoelectric oscillation circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention uses an inverter to oscillate a piezoelectric vibrator,
The present invention relates to a piezoelectric oscillation circuit that performs modulation with a variable capacitance diode.

[Prior Art] Piezoelectric oscillators using TTL or CMOS inverters are widely used. The crystal oscillator is most widely used as the piezoelectric oscillator. Circuits that use inverters are becoming more and more popular because of their simple structure and stable oscillation. In some cases, a variable capacitance diode is connected in series to a piezoelectric vibrator in an oscillation circuit using this inverter to perform modulation. FIG. 3 shows a conventional piezoelectric oscillator circuit in which a feedback resistor 12 and a variable capacitance diode 14 are connected in series with a crystal oscillator 13 between the input and output terminals of an inverter.
A low-frequency AC signal is input from the modulation terminal 19, the capacitance of the variable capacitance diode 14 is changed by the modulation wave, and frequency modulation is applied. In this circuit, depending on the circuit conditions, a low-frequency modulated signal flows through the capacitor 16 to the inverter 11, the modulated signal is obtained only in the ON state by the modulating wave, and the modulated wave is generated in the OFF state by the modulating wave. A phenomenon that cannot be obtained occurs. FIG. 4 (a) shows the modulated input signal, and FIG. 4 (b) shows the output waveform. In this way, the signal oscillated by the crystal by the modulated wave may not be frequency-modulated.

[Problems to be Solved by the Invention] In the present invention, the connection position of the variable capacitance diode is connected to the output side of the inverter from the crystal oscillator to prevent the modulation signal from passing through.

[Configuration of the present invention] The present invention is such that a feedback resistor is connected between an input terminal and an output terminal of an inverter, and a capacitor is connected between the inverter input / output terminal and ground, and a piezoelectric vibrator and a variable resistor are connected between the inverter input / output terminal. In a piezoelectric oscillation circuit in which a capacitance diode is connected in series and a modulation signal is input to the variable capacitance diode, the piezoelectric vibrator, the variable capacitance diode, and a DC cut capacitor are arranged in this order between the input and output terminals of the inverter. A piezoelectric oscillation circuit connected in series, a bias resistor being connected between a connection point between the variable capacitance diode and the DC cut capacitor and ground, and a modulation signal being input from a connection point between the piezoelectric vibrator and the variable capacitance diode. Is.

[Operations and Examples] FIG. 1 shows a piezoelectric oscillator circuit of the present invention. Inverter 1
The feedback resistor 2 is connected in parallel with the variable capacitance diode 4 in series with the crystal oscillator 3. The resistor 5 is for biasing the variable capacitance diode, and the capacitor 6 is for cutting the direct current of the bias. Oscillation capacitors 7 and 8 are connected to the input / output terminals of the inverter 1.

FIG. 2 (a) shows the modulation signal applied to the modulation input terminal 9, and FIG. 2 (b) shows the output waveform from the output terminal of the oscillator circuit of the present invention.

In the present invention, the crystal unit and the variable capacitance diode are connected between the input and output terminals of the inverter.By arranging the crystal unit on the input side of the inverter rather than the variable capacitance diode, the signal from the modulation terminal is Although it affects the diode, in the conventional circuit, the modulated wave might pass through to the input of the inverter through the DC cut capacitor, but in the present invention, the crystal oscillator is between the modulation terminal and the input terminal of the inverter. The waves are less likely to pass through the crystal oscillator. This is because the capacitor of the conventional circuit reduces the slew of the modulated wave, so that the capacitance is reduced. However, if the capacitance is made too small, the drive level of the crystal unit drops and oscillation becomes unstable. However, in the circuit of the present invention, the modulated wave tries to pass through the parallel capacitance of the equivalent circuit of the crystal unit, but the parallel capacitance is the interelectrode capacitance of the crystal unit and is extremely small. Therefore, the crystal unit functions as a low-cut filter. And in the circuit of the present invention, there is no problem even if a large capacity capacitor is inserted as a DC cut capacitor.

In the present invention, the crystal oscillator is taken as the piezoelectric oscillator, but lithium tantalate or piezoelectric ceramic may be used.

[Effects of the Invention] By the present invention, it is possible to obtain a stable modulated wave by preventing the existing modulation signal from passing through the oscillation circuit. In addition, the circuit is as simple as the conventional one.

[Brief description of drawings]

FIG. 1 is a piezoelectric oscillation circuit according to the present invention, FIG. 2 (a) is a modulation waveform, FIG. 2 (b) is an output waveform of the piezoelectric oscillation circuit, and FIG.
FIG. 4A shows a modulation signal, and FIG. 4B shows an output waveform of the conventional piezoelectric oscillation circuit. 1 ... Inverter, 2 ... Feedback resistance, 3 ... Piezoelectric vibrator, 4 ... Variable capacitance diode, 5 ... Resistor, 6 ... DC cut capacitor, 7,8 ... Oscillation capacitor

Claims (1)

[Scope of utility model registration request] 1. A feedback resistor is connected between an input terminal and an output terminal of an inverter, and a capacitor is connected between the input / output terminal of the inverter and ground, and a piezoelectric vibrator and a variable capacitance diode are connected in series between the input / output terminals of the inverter. In a piezoelectric oscillation circuit that is connected to input a modulation signal to the variable capacitance diode, the piezoelectric vibrator, the variable capacitance diode, and the DC cut capacitor are connected in series between the input and output terminals of the inverter in this order, A bias oscillation resistor is connected between a connection point between the variable capacitance diode and the DC cut capacitor and ground, and a modulation signal is input from a connection point between the piezoelectric vibrator and the variable capacitance diode. .