JPH07297640A - Frequency switching type oscillator - Google Patents

Abstract

PURPOSE:To provide a frequency switching type oscillator which can reduce its system cost as well as its size by decreasing the number of its components. CONSTITUTION:This oscillator consists of the electrical machine resonators (piezoelectric vibrators) 7 and 8 which have different resonance frequencies, an oscillation circuit 5 which oscillates by the resonance frequency of the resonator 7 or 8 that is selected and connected between the input and output terminals, and a switching control circuit 6 which contains plural current source circuits and the switching elements that are turned on and off by the current source circuits, selects one of these current source circuits based on an external frequency switching control signal to actuate the switching elements, and connects the resonator 7 or 8 between the input and output terminals of an oscillation circuit 5. Then both circuits 5 and 6 consist of a single integrated circuit 9 so that the number of components can be decreased. Thus the system cost is reduced for a frequency switching type oscillator.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a frequency switching oscillator composed of a semiconductor integrated circuit (hereinafter abbreviated as IC) and an electromechanical resonance element, and a field of video technology for handling a signal having a relatively high frequency. It is suitable for.

[0002]

2. Description of the Related Art An example of a conventional frequency switching oscillator is shown in FIG.
Shown in. In FIG. 2, reference numeral 1 denotes an oscillator circuit that outputs a normal rotation with respect to an input, which is incorporated in the IC 2 and its output is taken out from an output terminal (a). This output terminal (a) is connected to a first bias circuit including a resistor R1, a diode D1 and a resistor R2 via a capacitor C1, and a second bias circuit including a resistor R4, a diode D2 and a resistor R5 via a capacitor C2. Connected to the bias circuit.

On the other hand, the output end of the diode D1 is connected to the base of the transistor Q1 and the output end of the diode D2 is connected to the base of the transistor Q2. The output of each transistor Q1, Q2 is taken from its emitter,
The respective outputs are made common and led to the input terminal (b) of the oscillation circuit 1 via a plurality of electromechanical resonance elements having different resonance frequencies, for example, the piezoelectric vibrators 3 and 4.

Switching (change) of the oscillation frequency is controlled by a switch SW which is controlled based on a frequency switching control signal which is set separately.
1 by switching the power supply terminals B1 and B2 of the first bias circuit and the second bias circuit to the main power supply terminal + B.

Now, assuming that the switch SW1 is connected to the side of the power supply terminal B2, the circuit of the transistor Q2 connected thereto operates, and the piezoelectric vibrator 4 causes the oscillation circuit 1 to operate.
Is connected between the input and the output of the piezoelectric vibrator 4, and this circuit oscillates based on the resonance frequency of the piezoelectric vibrator 4. When the switch SW1 is connected to the power supply terminal B1 side, the circuit of the transistor Q1 operates according to the same principle, and the piezoelectric vibrator 3 is connected between the input and output of the oscillation circuit 1. Oscillates based on the resonance frequency of the piezoelectric vibrator 3.

[0006]

As described above, in the conventional frequency switching type oscillator, only the oscillator which outputs the normal rotation to the input is built in the IC2 and the input / output has two terminals. In order to switch the frequency, for example, a switching circuit using a transistor and a plurality of bias circuits composed of external components such as resistors and diodes are required. The problem here is that the DC voltage of the output terminal (a) of the oscillation circuit 1 inside the IC2, the DC voltage of the input terminal of the first bias circuit (the connection point of the diode D1 and the resistor R2), and the second voltage This is the matching of the DC voltage with the input terminal (connection point of the diode D2 and the resistor R5) of the bias circuit. Generally, it is difficult to match the DC voltage generated inside the IC with the DC voltage generated outside the IC, and therefore the output terminal (a) of the oscillation circuit 1 and the first bias circuit and the second The connection with the bias circuit requires the coupling by the capacitors C1 and C2 shown in FIG. 2, resulting in a further increase in the number of external components.

In view of this, it is an object of the present invention to provide a frequency switching oscillator which can pursue the reduction of the number of external parts, the system cost associated therewith, and the miniaturization of equipment. .

[0008]

In order to achieve the above object, the present invention provides a plurality of electromechanical resonance elements having different resonance frequencies, and one of the electromechanical resonance elements is selected to perform input / output operation. By connecting to, the oscillating circuit that oscillates at the resonance frequency of the selected electromechanical resonance element, a plurality of current source circuits and a switching element that is turned on and off by the current source circuits, respectively, One of the current source circuits is selected by a frequency switching control signal to operate the switching element, and one of the electromechanical resonance elements is selected.
And a switching control circuit connected between the input and output terminals of the oscillation circuit, wherein the oscillation circuit and the switching control circuit are integrated into an integrated circuit.

[0009]

According to the above structure, by transmitting a control signal for setting a desired oscillation frequency from the outside to the switching control circuit, the switching control circuit can select a desired resonance frequency among a plurality of electromechanical resonance elements having different resonance frequencies. Of course, the switching control circuit employs a switching method by a current source, so that it does not require a coupling capacitor, which is required in conventional circuits. As a result, the oscillation circuit and the switching control circuit can be easily configured as an integrated circuit, and the number of external parts can be significantly reduced.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. FIG. 1 is a configuration diagram of a frequency switching oscillator according to an embodiment of the present invention. In FIG. 1, reference numeral 5 denotes a frequency switching type oscillating circuit that outputs a normal rotation with respect to an input, and its output end is connected to the cathodes of the diodes D3 and D4 which are the input parts of the switching control circuit 6. The anode of the diode D3 is connected to the current source (I ₁ ) connected to the power supply V _CC and the current source (I ₂ ) for switching the base of the transistor Q3 which is the output buffer circuit. This current source (I ₂ )
The other electrode of is connected to the C terminal of the switch SW2 that is switched by the frequency switching control signal, and the D terminal of the switch SW2 is grounded.

The collector of the transistor Q3 is connected to the power supply V _CC , its emitter is grounded by the resistor R7, and the signal output is taken out to the terminal (d). On the other hand, the anode of the diode D4 is connected to the current source (I ₃ ) connected to the power supply V _CC and the current source (I ₄ ) for switching the base of the transistor Q4 which is the output buffer circuit. The other electrode of the current source (I ₄ ) is connected to the E terminal of the switch SW2 which is switched by the frequency switching control signal.

The collector of the transistor Q4 is connected to the power supply V _CC , the emitter thereof is grounded by the resistor R8, and the signal output is taken out to the terminal (e).

This terminal (d) is connected to one electrode of an electromechanical resonance element, for example, a piezoelectric vibrator (quartz vibrator or the like) 7, and similarly, the terminal (e) is connected to one electrode of the piezoelectric vibrator 8. Terminals connected to the input terminal of the oscillation circuit 5 after being connected and the other electrodes of these piezoelectric vibrators 7 and 8 are commonly connected
It is connected to (c). The mutual relation of the current capacity values of the current sources must satisfy the conditions of I ₁ <I ₂ and I ₃ <I ₄ .

Here, the oscillation circuit 5 and the switching control circuit 6 are integrated as an integrated circuit (IC) 9, and terminals (c),
It is a four-terminal circuit including (d), (e), and (f). Next, the operation of this embodiment will be described with reference to FIG. When the switch SW2 switched by the frequency switching control signal from the terminal (f) is switched to the terminal E side, the current source
Since all the current of (I ₃ ) flows to the current source (I ₄ ) which is switch-connected between the base GND (ground) of the transistor Q4 and flows to the GND via the terminal D, the diode D4 and the transistor Q4 are turned off. Become.

Therefore, since the output signal of the oscillation circuit 5 is in the off state from the cathode of the diode D4, the signal transmission to the terminal (e) is cut off. At this time, since the current source (I ₂ ) is also off, the current of the current source (I ₁ ) is supplied to the anode of the diode D3 and the base of the transistor Q3, respectively. Turns on. Therefore, the output signal of the oscillation circuit 5 is transmitted to the base of the transistor Q3 via the diode D3, and is taken out from the emitter of the transistor Q3 to the terminal (d). This signal is transmitted to the external piezoelectric vibrator 7 and is input to the terminal (c) through the piezoelectric vibrator 7 and then becomes an input signal of the oscillation circuit 5 and the entire circuit operates as a resonant element oscillator at a predetermined frequency. do. At this time, since the signal transmission to the other piezoelectric vibrators 8 is cut off as described above, it goes without saying that the operation of the piezoelectric vibrators 8 is stopped.

Next, when the switch SW2 is switched to the C side by the frequency switching control signal from the terminal (f),
The operation is the same as when switched to the E side, and is as follows. That is, in this case the current source
All the current of (I ₁ ) flows to the current source (I ₂ ) which is switch-connected between the bases GND of the transistor Q3 and flows to the GND via the terminal D, so that the diode D3 and the transistor Q3 are turned off. Therefore, the output signal of the oscillating circuit 5 is in the cut-off state because the circuit beyond the cathode of the diode D3 is in the off state. At this time, since the current source (I ₄ ) is also off, the current of the current source (I ₃ ) is supplied to the anode of the diode D4 and the base of the transistor Q4, respectively. Turns on. Therefore, the output signal of the oscillation circuit 5 is transmitted to the base of the transistor Q4 via the diode D4 and is taken out from the emitter of the transistor Q4 to the terminal (e). This signal is transmitted to the external piezoelectric vibrator 8 and further input to the terminal (c) via the piezoelectric vibrator 8 and then becomes an input signal of the oscillation circuit 5, and the entire circuit functions as a resonance element oscillator. It oscillates at a predetermined frequency. At this time, since the signal transmission to the other piezoelectric vibrators 7 is blocked as described above,
It goes without saying that the operation of the piezoelectric vibrator 7 is stopped.

[0017]

As described above, according to the present invention,
As the switching control circuit in the frequency switching oscillator uses the switching method by the current source, the coupling capacitor etc. required in the conventional circuit are no longer needed, and as a result, the switching control circuit and the oscillation circuit are The integrated circuit can be easily configured, the number of external parts can be significantly reduced, and the system cost of the set can be greatly reduced.

[Brief description of drawings]

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

FIG. 2 is a circuit diagram of a conventional frequency switching oscillator.

[Explanation of symbols]

5 ... Oscillation circuit, 6 ... Switching control circuit, 7, 8 ... Piezoelectric vibrator, 9 ... IC.

Claims (1)

[Claims] 1. A plurality of electromechanical resonance elements having different resonance frequencies, and one of the electromechanical resonance elements is selected and connected between an input and an output, whereby the selected electromechanical resonance element An oscillation circuit that oscillates at a resonance frequency, a plurality of current source circuits, and a switching element that is turned on / off by each of the current source circuits are provided, and one of the current source circuits is selected by an external frequency switching control signal. One of the electromechanical resonance elements is operated by operating the switching element.
And a switching control circuit connected between the input and output terminals of the oscillation circuit, wherein the oscillation circuit and the switching control circuit are integrated into an integrated circuit.