JPH04130803A - Sampling phase comparator - Google Patents

Abstract

PURPOSE:To set a demodulation sensitivity to a fixed value and to uniformalize the characteristic of a phase comparator by attenuating a microwave input level inputted to a detection Schottky diode to a desired value by means of causing a forward current to flow in a pin diode. CONSTITUTION:The pin diode 1 is connected between the input port 13 of a microwave input and ground, and bias input port 2 providing the forward current to the pin diode 1 is connected with the input port 13 through an inductance for stopping off a microwave. Besides, the output of a variable resistor 3 which varies the voltage of a bias power source +Vcc is connected to the bias port 2. The microwave level inputted to the input port 13 is attenuated and controlled by the pin diode 1. That is, bias power source +Vcc is modified by the variable resistor 3, the forward current flowing in the pin diode 1 is controlled and attenuating quantity is modified. When the microwave input level is fixed beyond a certain value, the demodulation sensitivity is set to the fixed value by modifying the variable resistor 3.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a sampling phase comparator, and in particular is used in an APC circuit for stabilizing the oscillation frequency of a voltage controlled oscillator (VCO) in the microwave band. The present invention relates to a sampling phase comparator that keeps the demodulation sensitivity of the phase comparator constant.

[Conventional technology]

As shown in FIG. 2, a conventional sampling phase comparator has input ports 11 and 12 that input a VHF band reference signal.
．． It is comprised of an input port 13 for inputting microwaves, output ports 4 and 5 that are phase comparison outputs, a step recovery diode 8 that generates a VHFHF quasi-reference signal output, and Schottky diodes 9 and 10.

The sensitivity of such a conventional sampling phase comparator (hereinafter referred to as demodulation sensitivity) is determined by the Schottky diode 9 for detection.
．． It depends on the input level of the microwave input to 10. Further, it is also necessary to take into consideration variations that occur because the characteristics of the step recovery diode 8 and the Schottky diode 9.10 are not constant. In addition, when this phase comparator is used in the APC circuit of CO, the demodulation sensitivity is one of the factors that determines the APC loop band, so in order to obtain stable APC characteristics, the demodulation sensitivity must be It is necessary to keep the set value within a predetermined range. Conventionally, in order to bring this demodulation sensitivity within a predetermined range, it has been achieved by adjusting the output level of the microwave of the VC○ output.

[Problem to be solved by the invention]

The above-mentioned conventional sampling phase comparator measures the demodulation sensitivity while changing the microwave input level each time, so it has the disadvantage that it takes a lot of time to adjust the microwave output of ■C○.

Especially when ■Co is formed by MIC in another module, the microwave output level of VC○ is semi-fixed, so there is a lot of freedom in adjustment such as selecting a Schottky diode and adjusting it to a predetermined demodulation sensitivity. There was no drawback.

[Means to solve the problem]

The sampling phase comparator of the present invention has a step recovery diode that receives a reference signal in the VHF band from one input terminal and generates a multiplied output signal, and a microwave that is input from the other input terminal via a coupling capacitor. two Schottky diodes for detecting a phase difference by comparing the phases of the signal and the multiplied output signal; and an output terminal for extracting a phase difference detection signal from the cathode or anode of each of the two Schottky diodes. The sampling phase comparator has a pin diode connected between the connection line between the other input terminal and the coupling capacitor and the ground, and a bias supply circuit that causes a positive current to flow through the pin diode. .

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a circuit diagram of an embodiment of the present invention. In the embodiment shown in FIG. 1, circuits having the same reference numerals as in the conventional example shown in FIG. 2 have the same configuration and operation. That is, in this embodiment, the pin diode 1 is connected between the microwave input input port 13 and the ground, and the microwave is connected between the input port 13 and the bias input port 2 that supplies forward current to this pin and the diode 1. It is connected via a blocking inductance.

Further, the output of a variable resistor 3 that makes the voltage of the bias power supply element cc variable is connected to the bias boat 2.

Next, the operation of this embodiment will be explained. The microwave level input to the input port 13 is attenuated by the pin diode 1. That is, the bias power supply +Vcc is adjusted with the variable resistor 3, the forward current flowing through the pin diode 1 is controlled, and the amount of attenuation is adjusted. Therefore, if the macrowave input level is fixed above a certain value, the demodulation sensitivity can be adjusted and set to a constant value by adjusting the variable resistor 3.

〔Effect of the invention〕

As explained above, in the present invention, the demodulation sensitivity can be set to a constant value by attenuating the microwave input level input to the detection Schottky diode to a desired value by flowing a forward current through the pin diode. This has the effect of making the characteristics of the phase comparator uniform.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of an embodiment of the present invention, and FIG. 2 is a circuit diagram of a conventional sampling phase comparator. 1... Pin diode, 2... Bias input port, 3... Variable resistor, 4.5... Output port, 6...
...Terminal, 8...Step recovery diode, 9゜10...Schottky diode, 11, 12゜13
...Input boat.

Claims (1)

[Claims] 1. A step recovery diode that receives a VHF band reference signal from one input terminal and generates a double output signal, and a microwave that is input from the other input terminal via a coupling capacitor. two Schottky diodes for detecting a phase difference by comparing the phases of the signal and the multiplied output signal; and an output terminal for extracting a phase difference detection signal from the cathode or anode of each of the two Schottky diodes. The sampling phase comparator has a pin diode connected between the connection line between the other input terminal and the coupling capacitor and the ground, and a bias supply circuit that causes a positive current to flow through the pin diode. A sampling phase comparator characterized by: 2. A positive direction current flowing through the pin diode is controlled by a variable resistor provided in the bias supply circuit,
2. The sampling phase comparator according to claim 1, wherein the amount of attenuation of the microwave signal branched and inputted to the pin diode is made variable.