JPH02154524A - Synthesizer - Google Patents

Abstract

PURPOSE:To eliminate the deterioration in S/N of a synthesizer output and to prevent the rise of an output signal from being retarded by supplying an output of a stabilizing power circuit to a voltage controlled oscillator via a low pass filter. CONSTITUTION:A synthesizer section 10 is fed from a stabilizing power supply circuit 6 and active, and a low pass filter 8 is inserted between the stabilizing power supply circuit 6 and a voltage controlled oscillator 4. The base of the low pass filter 8 is made up of an emitter follower connection transistor (TR) whose base is connected to ground via a capacitor C, and whose collector and base are connected to a parallel circuit comprising a resistor R and a diode D inbetween. Thus, a power noise is blocked, the S/N of the synthesizer output is not deteriorated, and since the low pass filter 8 is of emitter follower type, the rise of the synthesizer output is not retarded.

Description

[Detailed Description of the Invention] [Overview] [Industrial Application Field] The present invention relates to a synthesizer, and particularly to a synthesizer that improves the S/N ratio against power supply noise and shortens the rise time. .

A synthesizer is used to obtain output signals of different frequencies that are synchronized with the signal of a reference oscillator, and is normally provided with a separate power supply section and is configured to operate by being supplied with power of voltage Vcc from the power supply section.

In such a synthesizer, the S/N of the generated signal is affected by the power supply ripple and power supply noise supplied from the power supply section.
It is desired that there is no deterioration of the output power, and that there is no delay in the rise of the output when the power is turned on.

[Conventional technology]

FIG. 3 shows the configuration of a conventional synthesizer, in which numeral 10 indicates a synthesizer section, reference oscillator 11 phase synchronization circuit 2. It is composed of a low-pass filter 3, a voltage controlled oscillator 4, and a frequency divider 5. 6 is a stabilized power supply circuit to which input power is supplied via a switch circuit 7;
The stabilized output power supply Vcc is supplied to the voltage controlled oscillator 4 and other parts.

In the synthesizer section 10, the phase synchronization circuit 2 compares the phases of the output signal of the frequency divider 5 and the reference frequency signal of the reference oscillator 1, and outputs an error signal. After this signal passes through a low-pass filter 3 to undergo noise removal and band limitation, it is applied to a voltage controlled oscillator 4 to control its oscillation frequency. The oscillation signal of the voltage-controlled oscillator 4 is frequency-divided via the frequency divider 5 and fed back to the phase-locked circuit 2 in a double series to form a complete loop. Generates a variable frequency output signal that is phase synchronized with the oscillation signal.

On the other hand, the Swissochi circuit 7 is turned on when the switch controller I-roll is supplied, and supplies input power to the stabilized power supply circuit 6, and the stabilized power supply circuit 6 outputs the stabilized output power V.
The synthesizer section 10 is operated by supplying cc to the voltage controlled oscillator 4 and other sections.

[Problem to be solved by the invention]

In the synthesizer shown in FIG. 3, if the ripples and noise of the power supplied from the stabilized power supply circuit 6 to the synthesizer section 10 are not sufficiently attenuated, the control voltage sensitivity of the voltage controlled oscillator 4 is high. There is a problem in that the S/N of the output signal of the synthesizer section 10 deteriorates due to these power supply ripples and power supply noise.

Therefore, it is conceivable to insert a low-pass filter between the output of the stabilized power supply circuit 6 and the voltage controlled oscillator 40 in order to attenuate the power supply noise.

However, when a low-pass filter is inserted between the output of the stabilized power supply circuit 6 and the voltage-controlled oscillator 4, especially when an emitter follower type low-pass filter is used as the low-pass filter, the switch circuit 7 is operated and the power is turned on. Or, if the output of the stabilized power supply circuit 6 is shared with the power supply of the synthesizer section and the power supply of other receivers, control sections, etc., the stabilized power supply 6 may be When there is a sudden change in the output voltage, the rise of the power supply voltage supplied from the stabilized power supply circuit 6 to the voltage controlled oscillator 4 is delayed due to the low-pass filter, which causes a delay in the rise of the output signal of the synthesizer section. cause problems.

The present invention aims to solve the problems of the prior art as described above, and is designed to eliminate the deterioration of the S/H of the synthesizer output due to power supply ripple and power supply noise, and to eliminate these power supply ripples and power supply noise. It is an object of the present invention to provide a synthesizer in which the rise of an output signal of the synthesizer is not delayed by a low-pass filter inserted into the power input of a voltage controlled oscillator.

[Means to solve the problem]

As shown in the principle configuration of FIG. 1, the present invention includes a synthesizer 10 that operates by a stabilized power supply circuit 6 and generates an output signal synchronized with a reference signal from a voltage controlled oscillator 4, and is equipped with a low-pass filter 8 to stabilize the synthesizer 10. The output of the converted power supply 6 is passed through this low-pass filter 8 to the voltage controlled oscillator 4.
It was designed to be supplied to Here, the low-pass filter 8 is composed of an emitter-follower connected transistor TR whose base is grounded through a capacitor C and a parallel circuit of a resistor R and a diode D is connected between the collector and the base.

[For production]

The synthesizer section 10 includes a reference oscillator 1, and applies its output signal and the output obtained by dividing the output signal of the voltage controlled oscillator 4 via a frequency divider 5 to a phase synchronization circuit 2 to detect a phase error, and detect the phase error of this signal. is applied as a control signal to the voltage controlled oscillator 4 through the low-pass filter 3, thereby obtaining a variable frequency output signal synchronized with the output signal of the reference oscillator 1 from the voltage controlled oscillator 4.

At this time, the synthesizer section 10 operates by being supplied with power from the stabilized power supply circuit 6, but a low-pass filter 8 is inserted between the stabilized power supply 6 and the voltage controlled oscillator 4.

The low-pass filter 8 consists of an emitter-follower connected transistor TR whose base is grounded via a capacitor C and whose collector and base are connected in parallel with a resistor R and a diode D.

Therefore, even if there is power supply ripple or power supply noise in the output of the stabilized power supply 6, it is blocked by the low-pass filter 8, and the S/N of the synthesizer output does not deteriorate.

In addition, a diode 1''D is connected in parallel to the resistor R between the collector base of the emitter-follower connected 1-randisk TR forming the low-pass filter 8.
When the power is turned on or when the load suddenly changes, the capacitor C connected to the base of the transistor TR is rapidly charged via the diode D. Therefore, even when the power is turned on or when the load suddenly changes, the low-pass filter 8 immediately enters the operating state, and since the low-pass filter 8 of the emisotropic lower type is used, there is no delay in the rise of the synthesizer output.

〔Example〕

FIG. 2 shows one embodiment of the present invention, and FIG.
The same parts as in the figure are designated by the same numbers, and their operation is similar to the conventional case shown in FIG. A low-pass filter 8 is inserted between the output of the stabilized power supply circuit 6 and the voltage controlled oscillator 4.

The low-pass filter 8 consists of an eminot mellow type, with a capacitor C inserted between the base of the transistor TR and ground, a resistor R and a diode D connected in parallel between the collector and the base, and a stabilized power supply circuit 6 connected to the collector. When supplying an output of
is configured to supply the voltage controlled oscillator 4 with the voltage controlled oscillator 4.

The low-pass filter 8 operates as a low-pass filter by passing signals with a frequency lower than the frequency determined by the time constant of the resistor R and the collector C, and blocking signals with a higher frequency. It is well known.

Therefore, by choosing the cutoff frequency of the low-pass filter 8 to be lower than the frequency of the power supply ripple and power supply noise at the output of the stabilized power supply circuit 6, these power supply ripples and power supply noise are blocked and not applied to the voltage controlled oscillator 4. S/N deterioration in the output signal of the voltage controlled oscillator 4 is prevented.

On the other hand, when the switch circuit 7 is operated and the power is turned on, if there is no diode D, it takes time to charge the capacitor C through the resistor R, so the low-pass filter 8 cannot operate normally during this time. First, the rise of the power supply voltage supplied from the stabilized power supply circuit 6 to the voltage controlled oscillator 4 via the low-pass filter 8 is delayed. The rise time δC in this case has the following relationship, where δc =
1/2πCR Inversely proportional to the cutoff frequency of the low-pass filter 8.

In order to improve this, in the present invention, a diode D is connected in parallel to the resistor R in the low-pass filter 8. By connecting the diode D in parallel with the resistor R, the output of the stabilized power supply circuit 6 causes the diode D to be connected in parallel to the resistor R.
Through capacitor c! ,: Charging is done quickly, so
This prevents a phenomenon in which the rise of the power supply voltage supplied from the stabilized power supply circuit 6 to the voltage controlled oscillator 4 is delayed due to a delay in the operation of the low-pass filter 8 caused by the capacitor C not being charged. When the power is turned on at step 7, the device can immediately enter the operating state.

Note that in the steady state, the diode 1"D is turned off, and the low-pass filter 8 performs normal filtering operation to remove power supply ripples and power supply noise.

〔Effect of the invention〕

As explained above, according to the present invention, when power is supplied to the voltage controlled oscillator of the synthesizer from the stabilized power supply circuit, a low-pass filter is inserted between the output voltage controlled oscillators of the stabilized power supply circuit. Even if the output of the stabilized power supply circuit contains power supply ripple or power supply noise, it is possible to prevent the S/N of the synthesizer output from deteriorating. Since a diode is connected in parallel to the resistor between the oscillator and the oscillator, the power supplied to the voltage controlled oscillator remains stable even when there is a sudden voltage fluctuation due to power-on of the stabilized power supply circuit or load fluctuation.
By improving the bias, it is possible to speed up the rise of the output of the synthesizer.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the basic configuration of the present invention, FIG. 2 is a diagram showing an embodiment of the present invention, and FIG. 3 is a diagram showing the configuration of a conventional synthesizer. Reference oscillator phase synchronized circuit 8-Low pass filter Voltage controlled oscillator Frequency divider Stabilized power supply circuit Earth inch circuit

Claims (1)

[Claims] Operates by a stabilized power supply circuit (6) and includes a voltage controlled oscillator (
In the synthesizer (10) that generates an output signal synchronized with the reference signal from 4), the base is grounded via a capacitor (C), and a parallel circuit of a resistor (R) and a diode (D) is connected between the collector and the base. Transistor with emitter follower connection (TR
), wherein the output of the stabilized power supply circuit (6) is supplied to the voltage controlled oscillator (4) via the low-pass filter (8).