JPS63202106A - Negative voltage generation circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a negative voltage generation method for an amplifier that requires a negative voltage, and in particular, it is possible to downsize the amplifier without interfering with the signal to be amplified. This invention relates to a negative voltage generation method.

[Conventional technology]

Gallium arsenide Schottky field effect transistor 11
Power amplifiers using (GaAs MESFETs) have high power conversion efficiency and are expected to be used in portable wireless devices that require small size and light weight. However, the Ga, As MESFET used is normal/
and requires a negative power supply as the gate voltage. Therefore, a portable radio device equipped with a power amplifier using GaAsME8FET must be equipped with a dedicated negative battery or
As stated in 1985 Shinzenkai 42345, it is necessary to create a negative voltage from a positive power source using a DC-L)C converter.

[Problem that the invention seeks to solve]

Among the above conventional techniques, the method of providing a negative battery is as follows.

It is unsuitable for portable radio devices that require small size and light weight. When using a DC-DC converter, an oscillator with a frequency of several tens of KHz to several hundred KHz is required for switching. Therefore, there is a drawback that one oscillation wave is more likely to wrap around the power amplifier and generate unnecessary interference waves than in a switching oscillator. However, it is extremely difficult to modularize a power amplifier that also includes a built-in negative voltage generator because it is easy to interfere with the waves being amplified by the power amplifier.

It is an object of the present invention to provide a negative voltage generating means which does not require an oscillator and therefore does not interfere with the waves being amplified by the amplifier, and which can be integrated into an amplifier module.

[Means for solving problems]

The above object is achieved by extracting and using a part of the alternating current wave that is amplified by the amplifier.

[Effect]

Traditionally, to create a negative power supply voltage, a separate

Whereas an oscillator was used, a part of the AC wave output that is amplified by an amplifier is used, so there is no need for a special oscillator to generate the negative voltage.

Therefore, does it interfere with the AC wave being amplified by the amplifier? It can also be built into the amplifier module.

〔Example〕

Embodiments of the present invention will be described below using the transmitting section of the portable radio shown in FIG.

First, the overall configuration will be explained. 1 is a voltage controlled oscillator, 2 is a buffer amplifier, 3 is a driver 7yp, 4 is a band pass filter, 5 is a power amplifier that requires a negative voltage, 6 is a circulator, and 7 is a device that generates a negative voltage according to the present invention. This is a circuit that does this.

Next, details of the negative voltage generating circuit 7 will be explained. 7-
1 is a coupler that takes out a part of the signal to be amplified; 7-
2 is a detection circuit for detecting the extracted AC signal, and 7-3 is a smoothing circuit for smoothing the pulsating flow of the detection signal. 7-4 is an output terminal from which a negative voltage is output.

The coupler (or something that replaces it) for taking out the signal does not necessarily have to be in the position shown in the figure;
The rectifier circuit 7-2 also includes other means such as a voltage doubler rectifier circuit.

According to the above explanation, according to the present invention, there is no need to use a DC-DC converter, and therefore, there is no need for an oscillator used in the DC-DC converter, and no unnecessary interference is caused to signal waves. Furthermore, since no oscillator is used, it can be made smaller and can be integrated into an amplifier module.

Moreover, FIG. 2 shows another embodiment. This example is.

This is a case of application to normally-on type QaAs-fl'E'l' which requires a negative voltage as a gate voltage.

In the figure, 2-1 is a normally-on type GaAs-F
ET, 2-2 is a diode, 2-3 is a resistor, and 2-4 is a capacitor. When a high frequency signal is input, the resistor 2-3 and the capacitor 2-4 The gate bias is biased in the negative direction with a determined time constant. Also in this embodiment, since no oscillator is used, there is no interference with the signal wave, and it is possible to incorporate it into an amplifier module.

〔Effect of the invention〕

According to the present invention, the oscillator used in the DC-DC converter is not required, and therefore no unnecessary interference is caused to the signal wave to be amplified. Therefore, it is possible to incorporate it into an amplifier module.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram of an embodiment in which the negative voltage generating circuit according to the present invention is applied to a portable radio device, and FIG. 2 is a circuit diagram of another embodiment of the negative voltage generating circuit according to the present invention. 1... Voltage controlled oscillator, 2... Buffer amplifier,
3... Driver amplifier, 4... Band pass filter,
5...Power amplifier, 6...Circulator, 7...
・Negative voltage generation circuit, 7-1...Coupler %7-2・
...Detection circuit. 7-3... Smoothing circuit, 7-4... Negative voltage, 7-4.
... Negative voltage output terminal, 2-1... Normally-on type Ga
AS-FET, 2-2...diode, 2-3...
resistance. 2-4...Capacity.

Claims (1)

[Claims] 1. In an amplifier that requires a negative power supply voltage, a negative voltage generation circuit that extracts a part of the AC signal amplified by the amplifier to obtain a negative voltage from the negative power supply voltage.