KR101385157B1 - Class-E Power Amplifier with high frequency having resonance booster - Google Patents

Abstract

The present invention relates to an E-class high-frequency power amplifier system for increasing the voltage amplification degree, the E-class high-frequency power amplifier system of the present invention, the oscillator for generating and outputting a high-frequency signal, the high-frequency signal output from the oscillator for current amplification and output A resonator booster and a MOSFET are provided with a preamplifier and an inductor (L) and voltage amplified through the inductor to output the current amplified high frequency signal from the preamplifier. And a main amplifier for amplifying and outputting the voltage-amplified high frequency signal output from the resonance booster through a MOSFET, a load consuming power of the high frequency signal output from the main amplifier, and between the main amplifier and the load. Impedance matching reduces signal loss through impedance matching between amplifiers Through this configuration, the pre-amplifier, which was previously composed of two stages, was reduced to one stage and a resonance booster was added instead. Thus, the inductor of the resonance booster and the internal capacitance of the MOSFET of the main amplifier resonated to increase the voltage. It is effective to let.

Description

Class-E Power Amplifier with high frequency having resonance booster

The present invention relates to a high frequency power amplifier system, and more particularly, to increase the voltage amplification degree in advance by increasing the voltage applied to the MOSFET (Metal Oxide Semiconductor Field Effect Transistor) in the high frequency power amplifier used for wireless power transmission It relates to a (E) high frequency power amplifier system with a booster.

In general, the E-class high-frequency power amplifier system is mainly used in wireless power transmission.

1 is a detailed block diagram illustrating an example of a conventional class E high frequency power amplifier system.

The conventional E-class high frequency power amplifier system uses a frequency of 50KHz or more, and the power amplifier employs a multi-stage preamplifier.

The conventional E-class high frequency power amplifier system shown in the drawing shows an example in which two-stage preamps 2 and 3 are applied.

The function of each component is as follows.

The oscillator 1 generates a high frequency of 50 KHz or more mainly used in wireless power transmission and outputs it to the first stage preamplifier 2.

The first stage preamplifier 2 current-amplifies the high frequency signal output from the oscillator 10 and outputs it to the two stage preamplifier 3.

The second stage preamplifier 3 amplifies a voltage with respect to the current amplified high frequency signal output from the first stage preamplifier 2 and outputs the voltage to a MOSFET (Metal Oxide Semiconductor Field Effect Transistor) of the main amplifier 4.

The MOSFET of the main amplifier 4 has a function of amplifying a high frequency signal by a switching method and outputting it to the load 5 with respect to the voltage amplified high frequency signal output from the two stage preamplifier 3.

Such a conventional class E high frequency power amplifier system has two preamps 2,3. That is, the high frequency signal generated by the oscillator 1 is amplified step by step through the first stage preamplifier 2 and the second stage preamplifier 3, and is utilized as an input signal of the MOSFET.

However, such a conventional E class high frequency power amplifier system uses two preamps 2 and 3, resulting in a complicated circuit structure and a high production cost of the product.

An object of the present invention for solving the above problems is to improve the voltage amplification efficiency for the input high frequency signal, and the E-class high frequency power amplifier system having a resonance booster that can simply configure the overall circuit structure of the product To provide.

Another object of the present invention is to provide an E-class high frequency power amplifier system having a resonance booster capable of increasing the voltage amplification efficiency for the input high frequency signal and finally lowering the manufacturing cost of the product.

E class high frequency power amplifier system having a resonance booster according to an embodiment of the present invention for achieving the above object,

A preamplifier for amplifying and outputting an input high frequency signal;

A resonance booster having an inductor (L), the voltage amplifying the current-amplified high frequency signal output from the preamplifier through the inductor; And

A MOSFET (Metal Oxide Semiconductor Field Effect Transistor) is provided, and the internal capacitor of the MOSFET and the inductor of the resonance booster are resonated, and the voltage-amplified high frequency signal output from the resonance booster is amplified and output through the MOSFET. It is configured to include a main amplifier.

E-class high-frequency power amplifier system of the present invention may further include an oscillator provided in the front end of the preamplifier to generate the high-frequency signal to output to the preamplifier.

In the class E high frequency power amplifier system of the present invention, the oscillator generates the high frequency signal of 50KHz or more used in wireless power transmission.

The class E high frequency power amplifier system of the present invention may further include a load for consuming power of a high frequency signal output from the main amplifier.

E-class high-frequency power amplifier system of the present invention is provided between the main amplifier and the load, the impedance matching unit for reducing the signal loss through impedance matching between the load and the main amplifier; may further comprise a.

According to the present invention, the E-class high frequency power amplifier system provided with a resonance booster reduces the preamplifier composed of two stages to one stage, and instead of adding a resonance booster, the resonance booster is composed of an inductor. There is an effect of raising the voltage by resonating with the internal capacitance of the MOSFET of the main amplifier.

In addition, the E class high frequency power amplifier system provided with the resonance booster of the present invention can apply a sufficient input voltage to the MOSFET, thereby increasing the signal amplification efficiency.

In addition, the E-class high-frequency power amplifier system equipped with the resonance booster of the present invention, the circuit structure is simpler than the existing high-frequency power amplifier system, the number of parts can be reduced and the price of the product can be lowered.

1 is a block diagram showing in detail a configuration example of a conventional E-class high-frequency power amplifier system.
Figure 2 is a block diagram showing a class E high frequency power amplifier system with a resonance booster according to a preferred embodiment of the present invention.
Figure 3 is a circuit diagram showing an example of the actual circuit configuration of the class E high-frequency power amplifier system with a resonance booster of Figure 2 according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

The present invention uses a frequency of 50KHz or more, and uses a single preamplifier instead of a multi-stage preamplifier, and instead adds a resonant booster circuit between the preamplifier and the main amplifier to increase the driving voltage of the main amplifier to generate a high frequency signal. We propose an E-class high-frequency power amplifier system used for wireless power transmission to increase the amplification efficiency of the system.

2 is a block diagram illustrating a class E high frequency power amplifier system having a resonance booster according to a preferred embodiment of the present invention.

As shown, the E-class high frequency power amplifier system of the present invention, the oscillator 110, the preamplifier 120, the resonance booster 130, the main amplifier 140, the impedance matching unit 150, and the load 160 It is configured to include).

A characteristic of the present invention is that only one preamplifier 120 is used in the E-class high frequency power amplifier system, and a resonance booster 130 is provided between the preamplifier 120 and the main amplifier 140.

The oscillator 110 generates a high frequency of 50KHz or more, which is mainly used in wireless power transmission, and outputs the high frequency to the preamplifier 120.

The preamplifier 120 current amplifies the high frequency signal output from the oscillator 110 and outputs it to the resonance booster 130.

The resonance booster 130 is composed of an inductor L, which induces an effect of amplifying a voltage by resonating with an internal capacitor of a MOSFET in the main amplifier 140. The resonance booster 130 voltage-amplifies the current-amplified high frequency signal output from the preamplifier 120 and outputs the voltage to the MOSFET of the main amplifier 140.

As such, the resonance booster 130 amplifies and provides a sufficient voltage for the MOSFET of the main amplifier 140 to operate, thereby bringing an effect of increasing the signal amplification degree of the main amplifier 140. It increases the overall amplification efficiency of more than 10% in high frequency power amplifier system.

The MOSFET of the main amplifier 140 amplifies the high frequency signal by a switching method with respect to the voltage amplified high frequency signal output from the resonance booster 130 and outputs the high frequency signal to the impedance matching unit 150.

The impedance matching unit 150 is provided between the main amplifier 140 and the load 160 and has a function of minimizing signal loss between the load 11 and the main amplifier 9. The load 160 consumes a signal output from the impedance matching unit 150.

Therefore, the E-class high-frequency power amplifier system used in the wireless power transmission according to the present invention reduces the pre-amplifier composed of two stages to one stage, and instead, the resonance booster 130 is added to configure the resonance booster ( 130 is composed of an inductor, which has an effect of increasing the voltage by resonating with the internal capacitance of the MOSFET of the main amplifier 140.

As a result, a sufficient input voltage can be applied to the MOSFET, thereby increasing the signal amplification efficiency. In addition, the E-class high-frequency power amplifier system used in the wireless power transmission of the present invention is simpler than the existing high-frequency power amplifier system, the circuit structure can be reduced, the number of parts can be reduced, the product price can be reduced.

3 is a circuit diagram illustrating an example of an actual circuit configuration of a class E high frequency power amplifier system having the resonance booster of FIG. 2 according to an exemplary embodiment of the present invention.

As shown, the preamplifier 120 uses a current amplifier of the Totem pole technique.

In addition, a resonance booster 130 is inserted between the preamplifier 120 and the main amplifier 140 to increase the voltage amplification efficiency.

The resonance booster 130 uses an inductor, and the inductor resonates with an internal capacitor of the MOSFET of the preamplifier 120, which causes an effect of greatly amplifying the voltage.

It is possible to achieve the effect of power amplification by using a single preamplifier instead of using a multi-stage preamplifier. In the figure, the load 160 uses 50 ohms [Ω], and an impedance matching network is used to adjust the output of the main amplifier 140 to the load 50 ohms.

As described above, the E-class high frequency power amplifier system equipped with the resonance booster reduces the pre-amplifier composed of two stages to one stage, and instead adds the resonance booster, so that the resonance booster is composed of an inductor. The voltage rises by resonating with the internal capacitance of the MOSFET of the main amplifier.

In addition, the E class high frequency power amplifier system provided with the resonance booster of the present invention can apply a sufficient input voltage to the MOSFET, thereby increasing the signal amplification efficiency.

In addition, the E-class high-frequency power amplifier system with a resonance booster of the present invention, the circuit structure is simpler than the existing high-frequency power amplifier system, the number of parts can be reduced, resulting in the effect of lowering the product price.

In the foregoing, certain preferred embodiments of the present invention have been shown and described. However, the present invention is not limited to the above-described embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications and equivalents without departing from the gist of the present invention attached to the claims. Other implementations may be possible. Accordingly, the true scope of the present invention should be determined only by the appended claims.

Claims (4)

A preamplifier for amplifying and outputting an input high frequency signal;
A resonance booster having an inductor (L), the voltage amplifying the current-amplified high frequency signal output from the preamplifier through the inductor; And
A MOSFET (Metal Oxide Semiconductor Field Effect Transistor) is provided, and the internal capacitor of the MOSFET and the inductor of the resonance booster are resonated, and the voltage-amplified high frequency signal output from the resonance booster is amplified and output through the MOSFET. E-class high-frequency power amplifier system, characterized in that it comprises a main amplifier.
The method of claim 1,
E-frequency high-frequency power amplifier system, characterized in that it further comprises; an oscillator which is provided in front of the preamplifier to generate the high-frequency signal to output to the preamplifier.
3. The method of claim 2,
The oscillator E-class high-frequency power amplifier system, characterized in that for generating the high-frequency signal of 50KHz or more used in wireless power transmission.
3. The method of claim 2,
Load; And an impedance matching unit,
The load consumes a signal output from the impedance matching unit,
The impedance matching unit is provided between the main amplifier and the load, E-class high-frequency power amplifier system, characterized in that for reducing the signal loss through impedance matching between the load and the main amplifier.

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