JPH0722912Y2 - Mobile radio equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a mobile wireless device such as a cellular car phone or a mobile phone.

(B) Conventional technology Conventionally, in a cellular type mobile phone, the output state of a power amplifier circuit that amplifies high frequency power for transmission is monitored and a command to transmit is not output in order to prevent emission of unnecessary radio waves. Nevertheless, if a high-frequency signal is output from the power amplification circuit (due to malfunction of the switching element that controls the power supply of the power amplification circuit, etc.), for example, PLL
The circuit oscillation is forcibly stopped.

As a method of monitoring the output state of the power amplifier circuit, for example, a directional coupler is provided at the output end of the power amplifier circuit as disclosed in JP-A-63-202137, and the directional coupler is provided. The high frequency obtained by the coupling is envelope-detected by the wave detector, and the output is compared with the reference voltage.

(C) Problems to be Solved by the Invention However, it is not preferable to provide the directional coupler, the detector and the like as described above in a device such as a mobile phone that requires miniaturization. In addition, since the mobile phone has a lower transmission power level than the car phone, the above method has a drawback that the signal taken out by the detector becomes minute.

(D) Means for Solving the Problems The mobile radio device of the present invention controls the oscillation state of the PLL circuit based on the input voltage of the negative power source of the power amplifier circuit using gallium arsenide as the amplifier element.

(E) Action As the characteristics of the power amplifier circuit using gallium arsenide,
If a negative bias is not applied, it will not operate even if a positive power supply is applied.If a negative bias is applied, the input signal will be attenuated with a small amount of attenuation even if a positive power supply is not applied. It is designed to output.

Therefore, in the case of the configuration according to the present invention, it is possible to reliably prevent unnecessary radiation of radio waves without using a special circuit.

(F) Embodiment An embodiment of the present invention will be described with reference to the drawings by taking a cellular type mobile phone as an example.

(1) is an antenna duplexer connected to the antenna (2), (3) is a receiving circuit connected to the antenna duplexer (1), and demodulates a high frequency signal from the antenna duplexer (1). . (4) is a data receiving circuit, which reads a control message transmitted from the radio base station from the demodulated output of the receiving circuit (3) and performs a predetermined process such as word synchronization. (5) is a transmission circuit connected to the antenna duplexer (1) and supplies a high frequency signal to the antenna duplexer (1). This transmission circuit (5) includes a PLL circuit (6) having a voltage controlled oscillation circuit, a power amplification circuit (7) using gallium arsenide as an amplification element, and positive and negative power supply terminals of this power amplification circuit (7). It is composed of transistors (8) and (8) connected to. (9)
Is a data transmission circuit, which encodes the data message in Manchester code format and transmits it to the radio base station.
It is connected to the L circuit (6). Reference numeral (10) is a voice processing circuit, which drives a speaker (not shown) based on the demodulated output from the receiving circuit (3), and gives an output of a microphone (not shown) to the PLL circuit (6). The PLL circuit (6)
Will FM-modulate the output signals of the data transmission circuit (9) and the audio processing circuit (10) with a high-frequency carrier wave and apply the result to the power amplification circuit (7). (11) is a control circuit composed of a microprocessor, which transmits and receives a data message for controlling each device in the mobile radio device through the data receiving circuit (4) and the data transmitting circuit (9), and also the power. The input voltage of the negative power supply terminal of the amplifier circuit (7) is monitored, and the oscillation state of the PLL circuit (6) is controlled based on this.

Thus, the control circuit (11) constantly monitors the input voltage of the negative power supply terminal of the power amplification circuit (7) and does not issue a transmission command, that is, each transistor (8) ( Even if the ON command is not given to 8), the oscillation of the voltage controlled oscillation circuit of the PLL circuit (6) is stopped when the bias is applied to the negative power supply terminal of the power amplification circuit (7). . This can prevent unnecessary radio waves from being radiated due to defects in the transistors (8) and (8). In addition, as characteristics of the amplifier circuit using gallium arsenide, if a negative bias is not applied, it will not be in an operating state even if a positive power supply is applied, and if a negative bias is applied,
Since the input signal is output with a small amount of attenuation even if the positive power source is not applied, it is possible to reliably prevent the emission of unnecessary radio waves by monitoring the negative bias as described above.

(G) Effect of the Invention The present invention is configured as described above, and it is possible to reliably prevent unnecessary radiation of radio waves without using a special circuit, and it is possible to downsize the device. Further, even in a mobile phone having a low output level, unnecessary radiation of radio waves can be sufficiently monitored, so that a mobile radio apparatus most suitable for this mobile phone can be provided.

[Brief description of drawings]

FIG. 1 is a block diagram of a mobile wireless device of the present invention. (5) …… Transmitting circuit, (6) …… PLL circuit, (7) ……
Power amplification circuit, (11) …… Control circuit

Claims (1)

[Scope of utility model registration request] 1. A gallium arsenide is used as an amplifying element of a power amplifying circuit for amplifying high frequency power for transmission, a PLL circuit for giving a high frequency signal to the power amplifying circuit, a positive power source of the power amplifying circuit, a minus It comprises two switching elements that control the supply of power and a control circuit that controls each of the switching elements and sets the operating state of the power amplification circuit, wherein the control circuit includes a negative power supply of the power amplification circuit. The PLL based on the input voltage
A mobile wireless device characterized by controlling an oscillation state of a circuit.