JPH0680982B2 - Power supply circuit for FM modulator - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a power supply circuit for an FM (Frequency Modulation) modulator, and particularly to a power supply circuit for an FM modulator using a solid-state oscillating element used in the microwave and millimeter wave bands. It is about.

(B) Conventional Technology and Problems FIG. 1 shows an example of an FM modulator and a conventional FM modulator power supply circuit.

As shown in the figure, the oscillating section OSC is an oscillating section that uses a solid-state oscillating element that uses the negative resistance of the impat diode. Has been.
The oscillation frequency of the oscillation section OSC is equal to the resonance frequency of the induction band resonator RE coupled to the transmission line L.

On the other hand, since the capacitance value of the varactor diode VA changes depending on the magnitude of the applied voltage, the modulation voltage supplied from the terminal 2 is superimposed on the DC bias voltage supplied from the terminal 5 via the choke coil CH2. Add to this varactor diode VA. Therefore, the capacitance value of the varactor diode VA changes around the capacitance value corresponding to the bias voltage by a capacitance value proportional to the applied modulation voltage. This changing capacitance value is transmitted to the dielectric resonator RE via the transmission line L _2.
Since it is coupled to the dielectric resonator, it corresponds to the modulation voltage.
The resonance frequency of RE changes. Therefore, the oscillation frequency of the above-mentioned in-put diode also changes accordingly, and the FM modulated wave is taken out from the terminal 3.

On the other hand, in order to operate this modulator section MOD, the input voltage applied to the input terminal 1 is converted into voltage converters COMNV-1 and COM.
The voltage is converted into an appropriate DC voltage by NV-2 and supplied to the varactor diode as it is via the terminal 5 and to the inpat diode via the current stabilizing circuit STB and the terminal 4.

In such a modulator unit, if a voltage is applied to the impat diode, which is a component of the oscillator OSC, to oscillate, and the bias voltage of the varactor diode VA is cut off when the oscillation output becomes large, the impat diode is damaged Sometimes.

This is because the load impedance viewed from the in-put diode in operation fluctuates greatly, which causes abnormal oscillation of the in-put diode, which destroys the in-put diode itself.

Such a state is a phenomenon that occurs when the power is turned off. That is, since the internal time constants of the voltage converters connected to the impatt diode side and the varactor diode side are different, even if the voltage on the varactor diode side becomes 0 when the power is cut off. , The voltage on the side of the impat diode is not 0, and the impat diode is operating. This corresponds to disconnecting the voltage of the varactor diode during operation of the impat diode, which causes damage to the impat diode. However, there is a problem in that the impatt diode must be prevented from being damaged even if such a state is caused by mistake.

(C) Object of the Invention The present invention has been made in view of the above problems of the prior art, and an object of the present invention is to provide a power supply circuit for an FM modulator in which the input diode is not destroyed even when the power supply is cut off. Is.

(D) Configuration of the Invention According to the present invention, the above object is an FM including a solid-state oscillating element that constitutes an oscillating section and a varactor diode that changes a capacitance value based on a modulation voltage to change an oscillation frequency of the solid-state oscillating element. In the modulator section, the solid-state oscillator and the varactor diode are supplied with power for DC bias current through separate voltage converters, and when the voltage to the varactor diode becomes 0 when the power is cut off. A power supply circuit for an FM modulator, characterized in that a destruction prevention circuit is provided in a power supply circuit between the voltage converter and the varactor diode as a means for delaying the voltage from the time when the voltage to the solid-state oscillator becomes 0. Achieved by

(E) Embodiment of the invention Fig. 2 is a block diagram showing an embodiment of the present invention. MOD is a modulator section composed of the inpat diode and varactor diode of Fig. 1, STB is a current stabilizing circuit, and CONV- 1 and C
ONV-2 is a voltage converter, PC is a destruction prevention circuit as a means for delaying the time when the voltage to the varactor diode becomes 0 when the power source is cut off in the present invention, and 1, 4 and 5 respectively represent terminals. . The input terminal of the voltage converter CONV-2 is connected to the input terminal 1 and the output terminal thereof is connected to the input 4 of the modulator section MOD via the current stabilizing circuit STB.

On the other hand, the output terminal of the voltage converter CONV-1 connected to the input terminal 1 is connected to the input terminal 5 of the modulator section MOD via the destruction prevention circuit PC.

The same reference numerals as those in FIG. 1 denote the same parts.

The operation of the destruction prevention circuit according to the present invention will be described below with reference to FIG.

In this circuit, the positive side of the diode D is connected to the output terminal of the voltage converter CONV-1, and the negative side is connected to the earth through a variable resistor Rv and a capacitor C connected in parallel. The sliding portion of is connected to the terminal 5 via the resistor R ₁ .

Therefore, when AC100V or DC voltage is applied to the terminal 1, the specified DC voltage is taken out from the output terminals of the voltage converters CONV-1 and CONV-2 connected to this terminal.
The output voltage obtained at CONV-2 is stabilized by the current stabilization circuit STB, and the stabilized current is supplied to the impatt diode of the oscillation unit OSC in the modulator unit MOD through the terminal 4.

On the other hand, the output voltage obtained by the voltage converter CONV-1 supplies a DC voltage from the terminal 5 to the varactor diode VA through the diode D, the conversion resistor Rv and the resistor R ₁ and charges the capacitor C.

In this case, since the DC voltage is applied to the terminals 4 and 5 almost at the same time, the DC voltage is applied simultaneously to the impat diode and the varactor diode VA included in the oscillator OCS.

Next, when the input voltage applied to the terminal 1 is cut off, the DC voltage applied to the terminal 4 becomes 0 at approximately the same time as the input voltage. However, even if the DC voltage applied to the terminal 5 becomes 0, the electric charge stored in the capacitor part of the varactor diode VA and the capacitor C remains in the resistance Rv.
When the output side of the diode D is directly connected to the resistor R ₁ without providing the resistor Rv, the high reverse resistance of the diode D and the voltage converter CONV
Since it is gradually discharged through the -1 circuit, it gradually drops correspondingly.

Note that the current stabilizing circuit STB may not be necessary depending on the type of solid-state element used in the oscillator OSC, but the operation is the same in such a case.

(F) Effect of the Invention As described above, according to the present invention, the bias voltage for the varactor diode is supplied to the varactor diode through the destruction prevention circuit, so that the voltage is applied to the impatt diode constituting the oscillation unit. At this time, since the voltage is always applied to the varactor diode, it is possible to prevent damage to the impat diode and other solid-state elements.

[Brief description of drawings]

FIG. 1 is a block diagram of a conventional power supply circuit for FM modulator, and FIG.
The drawings respectively show block diagrams of the power supply circuit for the FM modulator of the present invention. In the figure, MOD is a modulator section, PC is a destruction prevention circuit, CONV-1 and CONV-2 are voltage converters, STC is a current stabilization circuit, 1, 4 and 5 are terminals, R ₁ is a resistor, Rv is A variable resistor, C is a capacitor, and D is a diode.

Claims (1)

[Claims] 1. An FM comprising a solid-state oscillating element constituting an oscillating portion and a varactor diode for changing a capacitance value based on a modulation voltage to change an oscillation frequency of the solid-state oscillating element
In the modulator section, the solid-state oscillator and the varactor diode are supplied with power for DC bias current through separate voltage converters, and when the voltage to the varactor diode becomes 0 when the power is cut off. A power supply circuit for an FM modulator, characterized in that a destruction prevention circuit is provided in a power supply circuit between the voltage converter and the varactor diode as a means for delaying the voltage from the time when the voltage to the solid-state oscillator becomes 0. .