JP2008060840A - Two-wave switching type piezoelectric oscillator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a two-wave switching type piezoelectric oscillator capable of reducing the number of components and simplifying a circuit configuration, thereby achieving a small size and low cost. <P>SOLUTION: The two-wave switching type piezoelectric oscillator comprises: a capacitor C4 provided on the line of a power supply voltage; a load resistor R4 for bias-supplying the power supply voltage; a switch SW1 for selecting the bias-supplied voltage and also selecting the output of the piezoelectric oscillator; a capacitor C2 provided on an output terminal; resistors R1 and R2 for dividing the power supply voltage; piezoelectric vibrators X1 and X2; and transistors Q1 and Q2 whose collectors are connected to one/the other selection terminal of the switch SW1 and connected to one terminal of the piezoelectric vibrators X1 and X2, whose emitters are grounded, and whose bases are connected to other-side ends of the piezoelectric vibrators X1 and X2, connected to capacitors C1 and C3 and also connected to resistors R3 and R5 for supplying the divided voltages. Two pierce type piezoelectric oscillators and one switch are used and the components are made common. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a piezoelectric oscillator typified by a crystal oscillator, and more particularly to a two-wave switching type piezoelectric oscillator that is used by selecting one of two frequencies.

Piezoelectric oscillators are used as high-purity oscillators in optical communication apparatuses that are responsible for increasing the speed and capacity of network lines as communication capacity increases.
Some piezoelectric oscillators use, for example, 155 MHz or 622 MHz as a fundamental frequency.

  In the above optical communication device, a basic frequency, for example, 155 MHz, and a frequency that is several percent higher than the basic frequency, for example, 167 MHz, may be used in order to perform error correction caused by the influence of the communication distance, etc. There is a demand to use these two frequencies separately.

In addition, in the standard SONNET, the fundamental frequency 155 MHz and the frequency used for 10 bE (10 gigabit Ether), for example, 161 MHz may be used in the same device. Furthermore, in the next generation 40 Gigabit Ether, a frequency of 622 MHz and a fundamental frequency are used in the same device.
That is, there is an increasing demand for a two-wave switching type piezoelectric oscillator that can select two frequencies and output only one of them, such as 155 MHz and 167 MHz, 155 MHz and 161 MHz, or 155 MHz and 622 MHz.

A conventional two-wave switching type piezoelectric oscillator will be described.
One example (conventional example 1) of a conventional two-wave switching type piezoelectric oscillator is shown in FIG. FIG. 5 is a circuit diagram of the conventional two-wave switching type piezoelectric oscillator.
In the conventional example 1, as shown in FIG. 5, the first piezoelectric oscillator and the second piezoelectric oscillator are constituted by the most common Colpitts type, and one of the output signals is selected by the switch SW1. ing.
In the figure, VCC is a power supply voltage, SEL is a selection signal, OUT is an output, X is a piezoelectric vibrator, R is a resistor, C is a capacitor, and Q is a transistor.

FIG. 6 shows another example (conventional example 2) of the conventional two-wave switching type piezoelectric oscillator. FIG. 6 is a circuit diagram of the two-wave switching type piezoelectric oscillator of the second conventional example.
In the conventional example 2, as shown in FIG. 6, the power supply voltage VCC supplied to the first piezoelectric oscillator and the second piezoelectric oscillator is selected by the switch SW1, and the output signal from the selected piezoelectric oscillator is selected by the switch SW2. Select and output (OUT).

  Related prior art includes Japanese Patent Application Laid-Open No. 2004-187012 (Patent Document 1), Japanese Patent Application Laid-Open No. 2004-187013 (Patent Document 2), and Japanese Patent Application Laid-Open No. 2006-5697 (Patent Document 3).

Patent Document 1 shows a structure in which two piezoelectric oscillators are switched and driven to share a bandpass filter in a two-wave switching type piezoelectric oscillator.
Patent Document 2 shows a structure in which a two-wave switching type piezoelectric oscillator switches and drives two piezoelectric oscillators to share inductance supplied to each circuit.
Patent Document 3 discloses a structure in which two piezoelectric oscillators are switched and driven to share an output resistor supplied to each transistor in a two-wave switching type piezoelectric oscillator.

Japanese Patent Laid-Open No. 2004-187012 Japanese Patent Laid-Open No. 2004-187013 JP 2006-005697 A

  However, the two-wave switching type piezoelectric oscillator of Conventional Example 1 is equipped with two piezoelectric oscillators that output the respective frequencies, and both the first piezoelectric oscillator and the second piezoelectric oscillator are in operation. Even when one output signal is selected by SW1, there is a problem that the other output signal leaks and is output, and furthermore, since the two piezoelectric oscillators are operated independently, There has been a problem that the number of parts increases and the circuit scale increases, making it impossible to reduce the size and cost.

  In the conventional two-wave switching type piezoelectric oscillator, only one of the first piezoelectric oscillator and the second piezoelectric oscillator is operated, so that one output is not influenced by the other output. Compared to 1, the number of parts is further increased, the circuit scale is increased, and there is a problem that the size and cost cannot be reduced.

Further, in Patent Document 1, as in Conventional Example 1, two crystal oscillators are operated independently, and there are the same problems as in Conventional Example 1.
In Patent Document 2, the inductors L3 and L13 are used to supply the power supply voltage. However, with this configuration, there is a possibility that the output from the oscillator may wrap around the power supply voltage.
In Patent Document 3, in order to cope with different frequencies, it is necessary to adjust the variable capacitance diode CV3 with the selection signal in the LC variable circuit, and the configuration is complicated.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a two-wave switching type piezoelectric oscillator that has a simple circuit configuration by reducing the number of parts and realizes miniaturization and low cost.

  The present invention for solving the problems of the above-described conventional example is a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies. A load resistor for biasing the power supply voltage, a switch for selecting the voltage to be biased and selecting the output of the piezoelectric oscillator, and a second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded A first resistor for dividing the power supply voltage, a second resistor, a first piezoelectric vibrator having a first resonance frequency, a collector connected to one selection terminal of the switch, and a first piezoelectric vibration Connected to one terminal of the child, the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, the other end is connected to a third capacitor that is grounded, and a divided voltage is supplied. Connected to a third resistor for A first transistor, a second piezoelectric vibrator having a second resonance frequency, a collector connected to the other selection terminal of the switch and to one terminal of the second piezoelectric vibrator, an emitter Is grounded, the base is connected to the other end of the second piezoelectric vibrator, the other end is connected to the grounded fourth capacitor, and the fourth resistor is connected to the fourth resistor for supplying the divided voltage. 2 transistors.

  The present invention relates to a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied, a load resistor for biasing the power supply voltage, A switch for selecting a voltage to be supplied with a bias and selecting an output of the piezoelectric oscillator, a second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded, and a first having a first resonance frequency The piezoelectric vibrator and the collector are connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, and the base is connected to the other end of the first piezoelectric vibrator. A first transistor connected to a first capacitor connected to a third capacitor grounded at the other end and connected to a first resistor for supplying a voltage from one selection terminal of the switch, and has a second resonance frequency Second The piezoelectric vibrator and collector are connected to the other selection terminal of the switch and connected to one terminal of the second piezoelectric vibrator, the emitter is grounded, and the base is connected to the other end of the second piezoelectric vibrator. And having a second transistor connected to a fourth capacitor grounded at the other end and connected to a second resistor for supplying a voltage from the other selection terminal of the switch.

  The present invention relates to a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied, a load resistor for biasing the power supply voltage, A switch for selecting a voltage to be supplied with a bias and selecting an output of the piezoelectric oscillator, a second capacitor connected to one selection terminal of the switch and grounded at the other end, and a first capacitor having a first resonance frequency The piezoelectric vibrator and collector are connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, and the base is connected to the other end of the first piezoelectric vibrator. The other end of the switch is connected to a grounded third capacitor and the first transistor is connected to a first resistor for supplying a voltage from one selection terminal of the switch, and the other selection terminal of the switch is connected. , The fourth capacitor whose end is grounded, the second piezoelectric vibrator having the second resonance frequency, the collector is connected to the other selection terminal of the switch, and is connected to one terminal of the second piezoelectric vibrator. , The emitter is grounded, the base is connected to the other end of the second piezoelectric vibrator, the other end is connected to the fifth capacitor that is grounded, and the second for supplying the voltage from the other selection terminal of the switch And a second transistor connected to the resistor.

  The present invention relates to a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied, a load resistor for biasing the power supply voltage, A switch for selecting a voltage to be supplied with a bias and selecting an output of the piezoelectric oscillator, a second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded, and a first resistor for dividing the power supply voltage And a second resistor, a first piezoelectric vibrator having a first resonance frequency, a collector connected to one selection terminal of the switch and to one terminal of the first piezoelectric vibrator, and an emitter The first is connected to the third resistor for supplying a divided voltage, and the base is connected to the other end of the first piezoelectric vibrator, the other end is connected to the third capacitor that is grounded. And the second transistor A second piezoelectric vibrator having a frequency, a collector is connected to the other selection terminal of the switch and is connected to one terminal of the second piezoelectric vibrator, an emitter is grounded, and a base is the second piezoelectric vibrator A second transistor connected to a fourth capacitor connected to the other end of the first resistor, connected to a fourth capacitor grounded at the other end, and connected to a fourth resistor for supplying a divided voltage; and A first diode provided at the other end and having the other end as a cathode, a fifth resistor having one end connected to the anode side of the first diode and the other end grounded, and a cathode of the first diode A second diode having one end connected to the side and the other end connected to a terminal to which a control voltage is applied and a second diode provided at the other end of the second piezoelectric vibrator and having the other end side as a cathode And one end connected to the anode side of the second diode, Seventh and resistor having one end grounded, one end of the cathode side of the second diode is connected, and having an eighth resistor and the other terminal is connected to the terminal for applying a control voltage.

  According to the present invention, in the two-wave switching type piezoelectric oscillator, a first diode is provided at the other end of the first piezoelectric vibrator, and the other end side is a cathode, and one end is on the anode side of the first diode. A third resistor connected to the other end, grounded at one end, a fourth resistor connected at one end to the cathode side of the first diode, and connected at the other end to a terminal to which a control voltage is applied, and a second piezoelectric vibration A second diode provided at the other end of the child and having the other end as a cathode; a fifth resistor having one end connected to the anode side of the second diode and the other end grounded; and a second diode One end is connected to the cathode side, and the other end has a sixth resistor connected to a terminal to which a control voltage is applied.

  The present invention is characterized in that, in the two-wave switching type piezoelectric oscillator, the load resistance is an inductance corresponding to an output frequency.

  According to the present invention, in a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied and a load resistor for biasing the power supply voltage A switch that selects a voltage to be supplied with a bias and selects an output of the piezoelectric oscillator, a second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded, and a first that divides the power supply voltage The first and second resistors, the first piezoelectric vibrator having the first resonance frequency, and the collector connected to one selection terminal of the switch and to one terminal of the first piezoelectric vibrator, The emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, the other end is connected to a third capacitor that is grounded, and is connected to a third resistor for supplying a divided voltage. A first transistor and a first transistor And a collector connected to the other selection terminal of the switch and to one terminal of the second piezoelectric vibrator, an emitter grounded, and a base connected to the second selection terminal of the switch. A second transistor connected to the other end of the piezoelectric vibrator, connected to a fourth capacitor grounded at the other end, and connected to a fourth resistor for supplying a divided voltage; By using two Pierce-type piezoelectric oscillators and one switch, and sharing the first capacitor, load resistance, voltage dividing first resistor and second resistor, the number of parts is reduced and the size is reduced. There is an effect that can be realized and cost can be reduced.

  According to the present invention, in a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied and a load resistor for biasing the power supply voltage A switch for selecting a voltage supplied to the bias and selecting an output of the piezoelectric oscillator, a second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded, and a first resonance frequency The first piezoelectric vibrator and the collector are connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, and the base is the other one of the first piezoelectric vibrator. A first transistor connected to one end, connected to a third capacitor grounded at the other end, and connected to a first resistor for supplying a voltage from one selection terminal of the switch; and a second resonance frequency Have The second piezoelectric vibrator and the collector are connected to the other selection terminal of the switch and connected to one terminal of the second piezoelectric vibrator, the emitter is grounded, and the base is the other end of the second piezoelectric vibrator. And a second transistor connected to a second resistor connected to a fourth capacitor grounded at the other end and connected to a second resistor for supplying a voltage from the other selection terminal of the switch. Using two type piezoelectric oscillators and one switch and sharing the first capacitor and load resistance has the effect of reducing the number of parts, reducing the size and cost.

  According to the present invention, in a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied and a load resistor for biasing the power supply voltage A switch for selecting a voltage to be supplied with a bias and selecting an output of the piezoelectric oscillator, a second capacitor connected to one selection terminal of the switch, and having the other end grounded, and a first capacitor having a first resonance frequency One piezoelectric vibrator and a collector are connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, an emitter is grounded, and a base is connected to the other end of the first piezoelectric vibrator. A first transistor connected to a first capacitor connected to a third capacitor grounded at the other end and connected to a first resistor for supplying a voltage from one selection terminal of the switch; and to the other selection terminal of the switch Contact A second capacitor grounded at the other end, a second piezoelectric vibrator having a second resonance frequency, a collector connected to the other selection terminal of the switch, and one terminal of the second piezoelectric vibrator , The emitter is grounded, the base is connected to the other end of the second piezoelectric vibrator, the other end is connected to the fifth capacitor that is grounded, and the voltage from the other selection terminal of the switch is supplied. And a second transistor connected to the second resistor, using two Pierce-type piezoelectric oscillators and one switch, and by sharing the load resistance, the number of components can be reduced and the size can be reduced. The cost can be reduced and the cost can be reduced. Further, by adjusting the fourth and fifth capacities, it is possible to cope with two oscillation frequencies which are different from each other.

  According to the present invention, in a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, a first capacitor provided in a power supply voltage line to be supplied and a load resistor for biasing the power supply voltage A switch that selects a voltage to be supplied with a bias and selects an output of the piezoelectric oscillator, a second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded, and a first that divides the power supply voltage The first and second resistors, the first piezoelectric vibrator having the first resonance frequency, and the collector connected to one selection terminal of the switch and to one terminal of the first piezoelectric vibrator, The emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, the other end is connected to a third capacitor that is grounded, and is connected to a third resistor for supplying a divided voltage. A first transistor and a first transistor And a collector connected to the other selection terminal of the switch and to one terminal of the second piezoelectric vibrator, an emitter is grounded, and a base is the second piezoelectric vibrator. A second transistor connected to the other end of the vibrator, connected to a fourth capacitor grounded at the other end and connected to a fourth resistor for supplying a divided voltage; and a first piezoelectric vibration A first diode provided at the other end of the child and having the other end as a cathode; a fifth resistor having one end connected to the anode side of the first diode and the other end grounded; and a first diode A second resistor having one end connected to the cathode side and the other end connected to a terminal to which a control voltage is applied, and the other end of the second piezoelectric vibrator. One end is connected to the anode side of the second diode and the second diode And a seventh resistor whose other end is grounded, and an eighth resistor whose one end is connected to the cathode side of the second diode and whose other end is connected to a terminal to which the control voltage is applied. By using two types of piezoelectric oscillators and one switch, and sharing the first capacitor, load resistance, voltage dividing first resistor and second resistor, the number of parts can be reduced, and the size can be reduced. The cost can be reduced, and the frequency of the first and second piezoelectric oscillators can be varied by applying a control voltage.

Embodiments of the present invention will be described with reference to the drawings.
A first two-wave switching type piezoelectric oscillator according to an embodiment of the present invention is a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, and is provided on a supply voltage line to be supplied. A first capacitor (C4), a load resistor (R4) for biasing the power supply voltage, a switch (SW1) for selecting the bias-supplied voltage and the output of the piezoelectric oscillator, and an output terminal of the piezoelectric oscillator A second capacitor (C2) having one end connected and the other end grounded, a first resistor (R1) and a second resistor (R2) for dividing the power supply voltage, and a first capacitor having a first resonance frequency The piezoelectric vibrator (X1) and the collector are connected to one selection terminal of the switch (SW1) and connected to one terminal of the first piezoelectric vibrator (X1), the emitter is grounded, and the base is the first. Connected to the other end of the piezoelectric vibrator (X1) A first transistor (Q1) connected to a third capacitor (C1) whose end is grounded and connected to a third resistor (R3) for supplying a divided voltage, and a second resonance frequency A second piezoelectric vibrator (X2) having a collector connected to the other selection terminal of the switch (SW1) and one terminal of the second piezoelectric vibrator (X2), an emitter grounded, and a base Is connected to the other end of the second piezoelectric vibrator (X2), the other end is connected to a fourth capacitor (C3) grounded, and a fourth resistor (R5) for supplying a divided voltage is provided. A second transistor (Q2) connected to the capacitor, and using two Pierce-type piezoelectric oscillators and one switch, a first capacitor, a load resistor, a first resistor for voltage division, and a second resistor By using the same resistance, the number of parts can be reduced, and the size and cost can be reduced. It can be planned.

  A second two-wave switching type piezoelectric oscillator according to an embodiment of the present invention is a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, and is provided on a line of a power supply voltage to be supplied. A first capacitor (C4), a load resistor (R4) for biasing the power supply voltage, a switch (SW1) for selecting the bias-supplied voltage and the output of the piezoelectric oscillator, and an output terminal of the piezoelectric oscillator A second capacitor (C2) having one end connected and the other end grounded, a first piezoelectric vibrator (X1) having a first resonance frequency, and a collector connected to one selection terminal of the switch (SW1) The third piezoelectric element (X1) is connected to one terminal, the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator (X1), and the other end is grounded. Connect to the capacitor (C1) and switch (S 1) a first transistor (Q1) connected to a first resistor (R3) for supplying a voltage from one selection terminal, and a second piezoelectric vibrator (X2) having a second resonance frequency. The collector is connected to the other selection terminal of the switch (SW1) and is connected to one terminal of the second piezoelectric vibrator (X2), the emitter is grounded, and the base is the second piezoelectric vibrator (X2). The other end of the switch is connected to a fourth capacitor (C3) grounded and connected to a second resistor (R5) for supplying a voltage from the other selection terminal of the switch (SW1). It has a second transistor (Q2), uses two Pierce-type piezoelectric oscillators and one switch, shares the first capacitor and load resistance, reduces the number of parts, and is compact And cost can be reduced.

  A third two-wave switching type piezoelectric oscillator according to an embodiment of the present invention is a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, and is provided on a line of a power supply voltage to be supplied. One of the first capacitor (C4), a load resistor (R4) for supplying a bias to the power supply voltage, a switch (SW1) for selecting the voltage supplied to the bias and selecting the output of the piezoelectric oscillator, and one of the switches (SW1) A second capacitor (C21) having the other end grounded, a first piezoelectric vibrator (X1) having a first resonance frequency, and a collector serving as one selection terminal of a switch (SW1). Are connected to one terminal of the first piezoelectric vibrator (X1), the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator (X1), and the other end is grounded. 3 capacitor (C1) and switch The first transistor (Q1) connected to the first resistor (R3) for supplying a voltage from one selection terminal of the switch (SW1), the other selection terminal of the switch (SW1), and the other The fourth capacitor (C22) whose end is grounded, the second piezoelectric vibrator (X2) having the second resonance frequency, the collector is connected to the other selection terminal of the switch (SW1) and the second piezoelectric element Connected to one terminal of the vibrator (X2), emitter connected to ground, base connected to the other end of the second piezoelectric vibrator (X2), and the other end connected to a fifth capacitor (C3) grounded. And a second transistor (Q2) connected to a second resistor (R5) for supplying a voltage from the other selection terminal of the switch (SW1). Use a single switch and share the load resistance To reduce the number of parts, miniaturization and can reduce the cost, but also can correspond to two oscillating frequency deviates by each adjusting the further fourth and fifth capacitance.

  A fourth two-wave switching type piezoelectric oscillator according to an embodiment of the present invention is a two-wave switching type piezoelectric oscillator that selectively outputs one of two oscillation frequencies, and is provided on a power supply voltage line to be supplied. A first capacitor (C4), a load resistor (R4) for biasing the power supply voltage, a switch (SW1) for selecting the bias-supplied voltage and the output of the piezoelectric oscillator, and an output terminal of the piezoelectric oscillator A second capacitor (C2) having one end connected and the other end grounded, a first resistor (R1) and a second resistor (R2) for dividing the power supply voltage, and a first capacitor having a first resonance frequency The piezoelectric vibrator (X1) and the collector are connected to one selection terminal of the switch (SW1) and connected to one terminal of the first piezoelectric vibrator (X1), the emitter is grounded, and the base is the first. Connected to the other end of the piezoelectric vibrator (X1) A first transistor (Q1) connected to a third capacitor (C1) whose end is grounded and connected to a third resistor (R3) for supplying a divided voltage, and a second resonance frequency A second piezoelectric vibrator (X2) having a collector connected to the other selection terminal of the switch (SW1) and one terminal of the second piezoelectric vibrator (X2), an emitter grounded, and a base Is connected to the other end of the second piezoelectric vibrator (X2), the other end is connected to a fourth capacitor (C3) grounded, and a fourth resistor (R5) for supplying a divided voltage is provided. A second transistor (Q2) connected to the first piezoelectric vibrator (X1), a first diode (D1) having the other end side as a cathode, and a first diode ( A fifth resistor (R6) having one end connected to the anode side of D1) and the other end grounded A first resistor (R1) having one end connected to the cathode side of the first diode (D1) and the other end connected to a terminal to which a control voltage is applied, and the other end of the second piezoelectric vibrator (X2) A second diode (D2) having the other end as a cathode, and a seventh resistor (R8) having one end connected to the anode side of the second diode (D2) and the other end grounded The second diode (D2) has one end connected to the cathode side and the other end connected to a terminal to which the control voltage is applied, and an eighth resistor (R9). One switch is used, and the first capacitor, load resistance, voltage dividing first resistor and second resistor are shared, so that the number of parts can be reduced, and the size and cost can be reduced. Furthermore, the frequency of the first and second piezoelectric oscillators can be made variable by applying a control voltage. It is intended.

A first two-wave switching piezoelectric oscillator according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a circuit diagram of a first two-wave switching piezoelectric oscillator according to an embodiment of the present invention.
As shown in FIG. 1, a first two-wave switching type piezoelectric oscillator (first circuit) according to an embodiment of the present invention includes a power supply terminal for applying a power supply voltage VCC, an output terminal for obtaining an output OUT, A selection signal input terminal for inputting a selection signal SEL, a ground terminal connected to the ground level GND, a switch SW1, a first piezoelectric vibrator X1, a second piezoelectric vibrator X2, and a first transistor Q1 The second transistor Q2, resistors R1 to R5, and capacitors (capacitors) C1 to C5 are basically provided.

The power supply terminal is connected to the capacitor C4 and grounded, and is connected to the switch SW1 through the resistor R4. Further, the resistor R1 and the resistor R2 are connected in series and grounded.
A capacitor C2 is connected to the line connecting the resistor R4 and the switch SW1, and the capacitor C5 is connected in series and connected to the output terminal.

The collector C of the transistor Q1 is connected to one terminal of the switch SW1, the emitter E is grounded, and the base B is connected between the resistors R1 and R2 via the resistor R3.
The collector C of the transistor Q2 is connected to the other terminal of the switch SW1, the emitter E is grounded, and the base B is connected between the resistors R1 and R2 via the resistor R5.

The piezoelectric vibrator X1 has one terminal connected to the collector of the transistor Q1, the other terminal connected to the base, and further grounded via the capacitor C1.
The piezoelectric vibrator X2 has one terminal connected to the collector of the transistor Q2, the other terminal connected to the base, and is further grounded via the capacitor C3.
The first and second piezoelectric oscillators are both Pierce type.

In the first circuit, the first piezoelectric oscillator includes a transistor Q1, a piezoelectric vibrator X1 constituting an oscillation loop, capacitors C1 and C2, and resistors R1, R2, and R3 for supplying a bias to the transistor Q1. , And load resistance R4.
The second piezoelectric oscillator includes a transistor Q2, a piezoelectric vibrator X2 constituting an oscillation loop, capacitors C3 and C2, resistors R1, R2 and R5 for supplying a bias to the transistor Q2, and a load resistor R4. It consists of and.

That is, the first and second piezoelectric oscillators share the resistors R1 and R2 for supplying bias, the load resistor R4, and the capacitor C2.
The load resistor R4 serves as a collector resistor for the transistor, and may be an inductance corresponding to the output frequency.

  Here, in the first circuit, since one frequency and the other frequency are assumed to have a difference of several percent, capacitances at both ends of the piezoelectric oscillator forming the oscillation loop (capacitance in the first piezoelectric oscillator). Since C1 and the capacitance C2, and in the second piezoelectric oscillator, the capacitance C2 and the capacitance C3) can be used with substantially the same value, one capacitance C2 is used in common.

Since the load resistor R4 is shared, the DC bias supplied to the transistors Q1 and Q2 is controlled by the switch SW1 through this, so that the operations of the first and second piezoelectric oscillators and the selection of the output signal can be performed simultaneously. Is going.
Thereby, in the first circuit, there is an effect that the number of components such as a resistor, a capacitor, and a switch can be reduced, and the size and cost can be reduced while being a two-wave switching type piezoelectric oscillator.

Next, a second two-wave switching piezoelectric oscillator according to an embodiment of the present invention will be described with reference to FIG. FIG. 2 is a circuit diagram of a second two-wave switching piezoelectric oscillator according to the embodiment of the present invention.
As shown in FIG. 2, the second two-wave switching type piezoelectric oscillator (second circuit) according to the embodiment of the present invention includes a power supply terminal for applying a power supply voltage VCC, an output terminal for obtaining an output OUT, A selection signal input terminal for inputting a selection signal SEL, a ground terminal connected to the ground level GND, a switch SW1, a first piezoelectric vibrator X1, a second piezoelectric vibrator X2, and a first transistor Q1 The second transistor Q2 basically includes resistors R3 to R5 and capacitors (capacitors) C1 to C5.

A capacitor C4 is connected to the power supply terminal and grounded, and is connected to the switch SW1 via a resistor R4.
A capacitor C2 is connected to the line connecting the resistor R4 and the switch SW1, and the capacitor C5 is connected in series and connected to the output terminal.

The collector C of the transistor Q1 is connected to one terminal of the switch SW1, the emitter E is grounded, the base B is connected to one terminal of the switch SW1 via the resistor R3, and the base is connected via the capacitor C1. Grounded.
The collector C of the transistor Q2 is connected to the other terminal of the switch SW1, the emitter E is grounded, the base B is connected to the other terminal of the switch SW1 via the resistor R5, and the base is connected via the capacitor C3. Grounded.

The piezoelectric vibrator X1 has one terminal connected to the collector of the transistor Q1 and the other terminal connected to the base.
The piezoelectric vibrator X2 has one terminal connected to the collector of the transistor Q2 and the other terminal connected to the base.

In the second circuit, the first piezoelectric oscillator includes a transistor Q1, a piezoelectric vibrator X1 constituting an oscillation loop, capacitors C1 and C2, a resistor R3 for supplying a bias to the transistor Q1, and a load resistor R4. It consists of and.
The second piezoelectric oscillator includes a transistor Q2, a piezoelectric vibrator X2 constituting an oscillation loop, capacitors C3 and C2, a resistor R5 for supplying a bias to the transistor Q2, and a load resistor R4. ing.

That is, the first piezoelectric oscillator and the second piezoelectric oscillator share the load resistor R4 for supplying a bias and the capacitor C2.
The load resistor R4 serves as a collector resistor for the transistor, and may be an inductance corresponding to the output frequency.

  Here, in the second circuit, since one frequency and the other frequency are assumed to have a difference of several percent, capacitances at both ends of the piezoelectric oscillator forming the oscillation loop (capacitance in the first piezoelectric oscillator). Since C1 and the capacitance C2, and in the second piezoelectric oscillator, the capacitance C2 and the capacitance C3) can be used with substantially the same value, one capacitance C2 is used in common.

Since the load resistor R4 is shared, the DC bias supplied to the transistors Q1 and Q2 is controlled by the switch SW1 through this, so that the operations of the first and second piezoelectric oscillators and the selection of the output signal can be performed simultaneously. Is going.
Thereby, in the second circuit, the number of components such as a resistor, a capacitor, and a switch can be reduced, and there is an effect that the two-wave switching type piezoelectric oscillator can be reduced in size and cost.

Next, a third two-wave switching piezoelectric oscillator according to an embodiment of the present invention will be described with reference to FIG. FIG. 3 is a circuit diagram of a third two-wave switching type piezoelectric oscillator according to the embodiment of the present invention.
As shown in FIG. 3, a third two-wave switching type piezoelectric oscillator (third circuit) according to the embodiment of the present invention includes a power supply terminal for applying a power supply voltage VCC, an output terminal for obtaining an output OUT, A selection signal input terminal for inputting a selection signal SEL, a ground terminal connected to the ground level GND, a switch SW1, a first piezoelectric vibrator X1, a second piezoelectric vibrator X2, and a first transistor Q1 The second transistor Q2 basically includes resistors R3 to R5 and capacitors (capacitors) C1, C3 to C5, C21 and C22.

  The third circuit differs from the second circuit in that the capacitor C2 is deleted, and instead, the capacitor C21 is connected to one terminal side of the switch SW1 and grounded, and the other terminal side of the switch SW1 is connected to the other circuit side. This is the point where the capacitor C22 is connected and grounded.

The first piezoelectric oscillator and the second piezoelectric oscillator share a load resistor R4 for supplying a bias.
The load resistor R4 serves as a collector resistor for the transistor, and may be an inductance corresponding to the output frequency.

Since the load resistor R4 is shared, the DC bias supplied to the transistors Q1 and Q2 is controlled by the switch SW1 through this, so that the operations of the first and second piezoelectric oscillators and the selection of the output signal can be performed simultaneously. Is going.
Thereby, in the third circuit, there is an effect that the number of components such as a resistor, a capacitor, and a switch can be reduced, and the size and cost can be reduced while being a two-wave switching type piezoelectric oscillator.

In the third circuit, the capacitances at both ends of the piezoelectric oscillator forming the oscillation loop (capacitance C1 and capacitance C21 in the first piezoelectric oscillator, and capacitance C22 and capacitance C3 in the second piezoelectric oscillator) can be used with substantially the same value. In addition, since different values can be used, not only two frequencies different by several% can be dealt with, but also two different frequencies can be dealt with.
In this case, the transistors Q1 and Q2 and the resistors R3 and R5 must be appropriately selected and optimized (adjusted to a band where an oscillation gain can be obtained at a desired frequency).

Next, a fourth two-wave switching piezoelectric oscillator according to an embodiment of the present invention will be described with reference to FIG. FIG. 4 is a circuit diagram of a fourth two-wave switching piezoelectric oscillator according to the embodiment of the present invention.
As shown in FIG. 4, a fourth two-wave switching type piezoelectric oscillator (fourth circuit) according to the embodiment of the present invention includes a power supply terminal for applying a power supply voltage VCC, an output terminal for obtaining an output OUT, A selection signal input terminal for inputting the selection signal SEL, a ground terminal connected to the ground level GND, an input terminal for the control voltage VCONT, a switch SW1, a first piezoelectric vibrator X1, and a second piezoelectric vibrator X2. And a first transistor Q1, a second transistor Q2, resistors R1 to R9, capacitors (capacitors) C1 to C5, and diodes D1 and D2.

The fourth circuit is based on the first circuit and has a configuration in which the frequency of the piezoelectric oscillator is changed by the control voltage VCONT.
The difference from FIG. 1 is that in the first piezoelectric oscillator, a first diode D1 is provided at a terminal connected to the resistor R3 and the capacitor C1. The first diode D1 has a cathode side connected to the first piezoelectric vibrator X1, and an anode side connected to the resistor R3 and the capacitor C1.
Further, the anode side of the first diode D1 is grounded via a resistor R6, and the cathode side is connected to the input terminal of the control voltage VCONT via a resistor R7.

Similarly, in the second piezoelectric oscillator, a second diode D2 is provided at a terminal connected to the resistor R5 and the capacitor C3. The second diode D2 has a cathode side connected to the second piezoelectric vibrator X2, and an anode side connected to the resistor R5 and the capacitor C3.
Further, the anode side of the second diode D2 is grounded via a resistor R8, and the cathode side is connected to the input terminal of the control voltage VCONT via a resistor R9.

  In the fourth circuit, the control voltage is applied from the input terminal of the control voltage VCONT to change the potential to the terminals of the first and second piezoelectric vibrators X1 and X2, thereby changing the frequency from the oscillator, It is possible to obtain two desired frequencies.

  Since the two-wave switching type oscillators such as 155 MHz and 167 MHz are used for PLL (Phase Locked Loop), there are many demands for a voltage controlled piezoelectric oscillator, for example, VCXO (Voltage Controlled Crystal Oscillator). In this case as well, there is an effect that a reduction in size and cost can be realized.

  The fourth circuit is based on the first circuit. However, the second and third circuits have a configuration in which the frequencies of the first and second piezoelectric oscillators are made variable by a control voltage that is a characteristic part of the fourth circuit. You may make it apply to.

  INDUSTRIAL APPLICABILITY The present invention is suitable for a two-wave switching type piezoelectric oscillator that has a simple circuit configuration with a reduced number of parts and realizes downsizing and low cost.

1 is a circuit diagram of a first two-wave switching type piezoelectric oscillator according to an embodiment of the present invention. FIG. It is a circuit diagram of the 2nd 2 wave change type piezoelectric oscillator concerning an embodiment of the invention. It is a circuit diagram of the 3rd 2 wave change type piezoelectric oscillator concerning an embodiment of the invention. It is a circuit diagram of the 4th 2 wave change type piezoelectric oscillator concerning an embodiment of the invention. 6 is a circuit diagram of a two-wave switching type piezoelectric oscillator of Conventional Example 1. FIG. 6 is a circuit diagram of a two-wave switching type piezoelectric oscillator of Conventional Example 2. FIG.

Explanation of symbols

  C: Capacitance, D: Diode, Q: Transistor, R: Resistance, SW ... Switch, X ... Piezoelectric vibrator, VCC ... Power supply voltage, OUT ... Output, SEL ... Selection signal, GND ... Ground level, VCOUNT ... Control voltage

Claims (6)

In a two-wave switching type piezoelectric oscillator that outputs one of two oscillation frequencies by selection,
A first capacitor provided in a power supply voltage line to be supplied;
A load resistor that biases the supply voltage; and
A switch for selecting the voltage supplied to the bias and selecting the output of the piezoelectric oscillator;
A second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded;
A first resistor and a second resistor for dividing the power supply voltage;
A first piezoelectric vibrator having a first resonance frequency;
The collector is connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, and the other A first transistor connected to a third capacitor having an end connected to ground and connected to a third resistor for supplying the divided voltage;
A second piezoelectric vibrator having a second resonance frequency;
The collector is connected to the other selection terminal of the switch and connected to one terminal of the second piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the second piezoelectric vibrator, and the other A two-wave switching type piezoelectric oscillator comprising: a second transistor having an end connected to a fourth capacitor grounded and connected to a fourth resistor for supplying the divided voltage. In a two-wave switching type piezoelectric oscillator that outputs one of two oscillation frequencies by selection,
A first capacitor provided in a power supply voltage line to be supplied;
A load resistor that biases the supply voltage; and
A switch for selecting the voltage supplied to the bias and selecting the output of the piezoelectric oscillator;
A second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded;
A first piezoelectric vibrator having a first resonance frequency;
The collector is connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, and the other A first transistor having an end connected to a third capacitor that is grounded and connected to a first resistor for supplying a voltage from one selection terminal of the switch;
A second piezoelectric vibrator having a second resonance frequency;
The collector is connected to the other selection terminal of the switch and connected to one terminal of the second piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the second piezoelectric vibrator, and the other And a second transistor connected to a second resistor for supplying a voltage from the other selection terminal of the switch, and having a terminal connected to a fourth capacitor grounded Piezoelectric oscillator. In a two-wave switching type piezoelectric oscillator that outputs one of two oscillation frequencies by selection,
A first capacitor provided in a power supply voltage line to be supplied;
A load resistor that biases the supply voltage; and
A switch for selecting the voltage supplied to the bias and selecting the output of the piezoelectric oscillator;
A second capacitor connected to one selection terminal of the switch and grounded at the other end;
A first piezoelectric vibrator having a first resonance frequency;
The collector is connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, and the other A first transistor having an end connected to a third capacitor that is grounded and connected to a first resistor for supplying a voltage from one selection terminal of the switch;
A fourth capacitor connected to the other selection terminal of the switch and grounded at the other end;
A second piezoelectric vibrator having a second resonance frequency;
The collector is connected to the other selection terminal of the switch and connected to one terminal of the second piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the second piezoelectric vibrator, and the other And a second transistor connected to a second resistor for supplying a voltage from the other selection terminal of the switch and having a terminal connected to a fifth capacitor grounded Piezoelectric oscillator. In a two-wave switching type piezoelectric oscillator that outputs one of two oscillation frequencies by selection,
A first capacitor provided in a power supply voltage line to be supplied;
A load resistor that biases the supply voltage; and
A switch for selecting the voltage supplied to the bias and selecting the output of the piezoelectric oscillator;
A second capacitor having one end connected to the output terminal of the piezoelectric oscillator and the other end grounded;
A first resistor and a second resistor for dividing the power supply voltage;
A first piezoelectric vibrator having a first resonance frequency;
The collector is connected to one selection terminal of the switch and connected to one terminal of the first piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the first piezoelectric vibrator, and the other A first transistor connected to a third capacitor having an end connected to ground and connected to a third resistor for supplying the divided voltage;
A second piezoelectric vibrator having a second resonance frequency;
The collector is connected to the other selection terminal of the switch and connected to one terminal of the second piezoelectric vibrator, the emitter is grounded, the base is connected to the other end of the second piezoelectric vibrator, and the other A second transistor having an end connected to a fourth capacitor connected to ground and connected to a fourth resistor for supplying the divided voltage;
A first diode provided at the other end of the first piezoelectric vibrator and having the other end as a cathode;
A fifth resistor having one end connected to the anode side of the first diode and the other end grounded;
A sixth resistor having one end connected to the cathode side of the first diode and the other end connected to a terminal to which a control voltage is applied;
A second diode provided at the other end of the second piezoelectric vibrator and having the other end as a cathode;
A seventh resistor having one end connected to the anode side of the second diode and the other end grounded;
A two-wave switching type piezoelectric oscillator having one end connected to the cathode side of the second diode and the other end connected to a terminal to which a control voltage is applied. A first diode provided at the other end of the first piezoelectric vibrator and having the other end as a cathode;
A third resistor having one end connected to the anode side of the first diode and the other end grounded;
A fourth resistor having one end connected to the cathode side of the first diode and the other end connected to a terminal to which a control voltage is applied;
A second diode provided at the other end of the second piezoelectric vibrator and having the other end as a cathode;
A fifth resistor having one end connected to the anode side of the second diode and the other end grounded;
4. The two-wave switching piezoelectric device according to claim 2, further comprising: a sixth resistor connected at one end to the cathode side of the second diode and connected at the other end to a terminal to which a control voltage is applied. Oscillator.   6. The two-wave switching type piezoelectric oscillator according to claim 1, wherein the load resistance is an inductance corresponding to an output frequency.

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