JP2002280853A - Apc circuit for high frequency power amplifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an APC(automatic power control) circuit for a high frequency power amplifier(PA) that can adopt a low power supply voltage so as to attain compensation of an operation of the circuit when a battery voltage drops and simplicity in the APC circuit design. SOLUTION: The APC circuit provided with a detection circuit 3 including a directional coupler 5 and a Schottky diode 6 and generating a detection voltage by detecting an output of the high frequency PA 1 to monitor an output level of the high frequency PA 1 and with a comparator 4 that compares a detection voltage obtained from the detection circuit 3 with a reference signal supplied from a control system and generates a control signal to optimally control the gain of the high frequency PA 1, is provided with a noninverting amplifier 7 that is placed at an output of the detection circuit 3 and converts a level of the detection voltage by switching a voltage gain.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a portable telephone, a PH
The present invention relates to an automatic power control circuit (hereinafter, referred to as an “APC circuit”) of a high-frequency power amplifier used in various wireless communication devices including an S telephone (simplified mobile phone) and a portable information terminal having a communication function.

In particular, the present invention relates to an APC circuit of a high-frequency power amplifier for finely adjusting the gain of a high-frequency power amplifier in an RF circuit section of the wireless communication device and varying the intensity of radio waves radiated from an antenna. It is.

[0003]

2. Description of the Related Art A conventional example will be described below.

(1): Definition of terms The definitions of terms used in this specification are as follows.

[0005] GSM (The Global System For Mobi)
les) is the name of the European standard digital cellular telephone system. GSM uses TDMA / TDD which multiplexes eight channels. GSM also has
Using the frequency 900MH _Z "GSM900", it uses the frequency 1.8GH _Z "GSM1800", frequency 1.9
Using the GH _Z there is a "GSM1900".

[0006] DCS (Digital Cellular System)
Is a type of communication system used for automobiles, mobile phone systems, and the like.

[0007] PA (Power Amplifier) is a power amplifier (power amplifier).

APC (Auto Power Control) circuit is an auto power control circuit.

[0009] The wireless communication device is a portable telephone, a PHS
A device including a telephone, a portable information terminal having a communication function, and the like.

[0010] RF (Radio Frequency) is a high frequency, and "RF circuit unit" is a high frequency circuit unit.

[0011] Operational Amplifier
) Is an operational amplifier.

(2) Description of Conventional APC Circuit FIG. 2 is an explanatory diagram of a conventional APC circuit. Hereinafter, a conventional example of a mobile phone will be described with reference to FIG.

Conventionally, the intensity of a radio wave radiated from an antenna AT of a portable telephone is defined by a standard, and the intensity of a radiated radio wave is defined by a communication system. Antenna AT
The intensity of the radiated radio wave depends almost entirely on the output level of an amplifier called a high-frequency PA. By varying the gain of the high-frequency PA, the radio wave is always radiated within the radio field intensity specified by the standard for communication.

A circuit intended to vary the gain of the PA (high-frequency power amplifier) 1 is an APC circuit 2, which generally comprises a directional coupler 5 and a Schottky diode 6. By comparing the detected detection circuit 3 and the detection voltage (voltage for monitoring the output level of PA1) obtained by the detection circuit 3 with a certain reference voltage supplied from a control system, the gain of PA1 is increased. It comprises a comparator 4 (for example, composed of an OP amplifier) for producing a control signal (voltage) for optimal control.

[0015]

The above-mentioned prior art has the following problems.

(1): When the APC circuit 2 is used, P
The voltage range of the control signal for varying the gain of A1 differs depending on the type of PA1. In addition, when the range of the radio wave intensity radiated from the antenna AT is wide, the detection signal obtained by the detection circuit 3 also becomes wide, and the detection for realizing the optimum gain control voltage range of the PA1 to be used is performed. The balance between the voltage range and the power supply voltage range of the OP amplifier used for the comparator 4 is complicated.

For example, in the case where the radio wave intensity range is wide, when the detection level of the detection circuit 3 is designed when the output level of the PA1 is high, when the output level of the PA1 is low, the detection voltage becomes small. It does not fall within the dynamic range of the device 4. That is, it is necessary to widen the dynamic range of the comparator 4.

(2): For example, in a mobile phone of a communication system called GSM / DCS, the output level from the antenna AT is various, and the radiation level is divided into 15 levels according to the standard of class 4 (class 4). The level difference is as wide as about 30 dB, and the detection voltage range is also wide.

In this case, in order to realize the optimum PA1 gain control range, the reference voltage range is widened, and the dynamic range of the OP amplifier used for the comparator 4 needs to be widened, that is, the power supply voltage range needs to be widened. Occurs. In general, the battery of a mobile phone is +3.6 V, and thus the power supply voltage of the OP amplifier often uses a single power supply of 0 to +3.6 V or less. In this case, there is a restriction that the detection voltage and the reference voltage range must be within 0 to +3.6 V, and the design becomes complicated.

The present invention solves such a conventional problem, enables a reduction in power supply voltage in an APC circuit of a high-frequency power amplifier, and simplifies operation compensation and APC circuit design when the battery voltage drops. The goal is to achieve

[0021]

In order to achieve the above object, the present invention has a directional coupler and a Schottky diode, detects the output of a high-frequency power amplifier, and detects the output of the high-frequency power amplifier. A detection circuit for generating a detection voltage for monitoring a level, and a detection circuit for comparing the detection voltage obtained by the detection circuit with a reference signal supplied from a control system to optimally control the gain of the high-frequency power amplifier. A high-frequency power amplifier with a comparator that produces a control signal
In the PC circuit, a non-inverting amplifier for performing a level conversion of the detection voltage by switching a voltage gain is provided on an output side of the detection circuit.

The APC of the high-frequency power amplifier
In the circuit, the non-inverting amplifier is connected between an output terminal of the Schottky diode and an inverting input terminal of a comparator, a plurality of resistors are connected to the inverting input terminal of the non-inverting amplifier, and gain switching from a control system is performed. An analog switch for switching the connection state of the resistor according to a control signal is provided, and the switching of the analog switch changes the input voltage level of the inverting input terminal of the non-inverting amplifier to switch the voltage gain, thereby converting the level of the detection voltage. Is performed.

(Operation) As described above, since the non-inverting amplifier capable of switching the voltage gain is provided on the output side of the detection circuit for detecting the output of the PA to generate the detection voltage, the detection level is low. When the voltage is in the range, the voltage gain of the non-inverting amplifier circuit is switched so that the detection voltage input to the comparator can be set to the optimum operation range of the comparator. That is, the fluctuation range of the detection voltage can be narrowed, and the dynamic range of the comparator can be narrowed, and the power supply can be operated at a low voltage.

[0024]

Embodiments of the present invention will be described below in detail with reference to the drawings.

§1: Description of APC circuit section FIG. 1 is an explanatory diagram of the APC circuit section. FIG. 1 shows an APC circuit 2 for varying the gain of a high-frequency PA1.
Is illustrated. The APC circuit 2 includes a detection circuit 3,
The comparator 4 includes an OP amplifier. The detection circuit 3 includes a directional coupler 5, a Schottky diode 6, a non-inverting amplifier 7, resistors R1 and R2, and an analog switch 8.

The comparator 4 detects the detection voltage (voltage for monitoring the output level of PA1) obtained by the detection circuit 3.
Is compared with a reference voltage supplied from a control system to generate a control signal (voltage) for optimally controlling the gain of PA1.

The analog switch 8 is an on / off switch which is switched by a gain switching control signal from a control system. When the analog switch 8 is on, a resistor R
1 is connected to GND, and when it is off, the resistor R1 is connected to GND.
D. In this case, resistors R1 and R2 are connected to the inverting input terminal of the non-inverting amplifier 7, and one end of the resistor R1 is connected to the analog switch 8. Note that the output (detection voltage) of the Schottky diode 6 is a detection signal 1 and the output of the non-inverting amplifier 7 is a detection signal 2.

That is, a non-operational amplifier constituted by an OP amplifier is connected between the output terminal of the detection circuit 3 (output terminal of the Schottky diode 6) and the inverting input terminal (-input terminal) of the comparator 4 in the conventional APC circuit. An analog switch 8 provided with an inverting amplifier 7 and which can be turned on / off by a gain switching control signal from a control system between one end of a resistor R1 for determining the voltage gain of the non-inverting amplifier 7 and GND.
Is provided. The non-inverting amplifier 7 is connected to the detection circuit 3
However, the present invention can also be implemented by providing the detection circuit outside the detection circuit 3 (it may be inside the APC circuit 2).

As described above, in the APC circuit 2 of the high-frequency PA 1, the non-inverting amplifier 7 is connected between the output terminal of the Schottky diode 6 and the inverting input terminal (−input terminal) of the comparator 4. 7 is connected to a plurality of resistors R1 and R2, and an analog switch 8 for switching the connection state of the resistors R1 and R2 by a gain switching control signal from a control system is provided.
By changing the input voltage level of the inverting input terminal of the non-inverting amplifier 7 by switching the voltage gain, the level of the detection voltage is converted, and the level-converted detection voltage (detection signal 2) is compared with the comparator 4. Input terminal (−
Input terminal).

§2: Description of operation The operation of the APC circuit shown in FIG. 1 is as follows. That is, when the analog switch 8 is turned off, the gain of the non-inverting amplifier 7 of the detection signal 1 output from the Schottky diode 6 is 1, so that the detection voltage is within the dynamic range of the non-inverting amplifier 7. As long as it is not amplified, it becomes the detection signal 2 with the same size and becomes the comparator 4
, And a gain control signal of PA1 is generated by operation amplification with the reference signal.

Conversely, when the analog switch 8 is on,
The voltage gain of the non-inverting amplifier 7 is determined by the resistors R1 and R2 and is {1+ (R2 / R1)} times, and the value of the detection signal 2 is (detection signal 1) × {1+ (R2 / R1)}. .

Using the circuit operation, the maximum value of the detection level is designed in advance to be within the power supply voltage of the target circuit, and when the detection level is low, the analog switch 8 is turned on to disable the detection. The gain of the inverting amplifier 7 is increased, and the constant values of the resistors R1 and R2 are determined so as to be within the dynamic range of the comparator 4.

In this way, even if the output level of PA1 is wide, the range of the detection signal and reference signal input to comparator 4 can be narrowed, and the dynamic range of comparator 4 is narrowed. be able to. That is, the power supply voltage can be reduced. Also, the resolution is improved by reducing the range of the reference signal, and the resolution of the gain control voltage of the PA1 is also improved. Therefore, the output level of the PA1 can be finely adjusted, so that a margin with respect to the standard can be maintained. Is possible.

Although the above-described example is an example applied to a portable telephone, the present invention is not limited to such an example, and other similar wireless communication devices (PHS telephones, portable information terminals having communication functions, etc.) Applicable to

[0035]

As described above, the present invention has the following effects.

(1) Since a non-inverting amplifier capable of switching the voltage gain is provided on the output side of the detection circuit for detecting the output of the PA to generate a detection voltage, when the detection level is within a certain range, By switching the voltage gain of the non-inverting amplifier circuit, the level-converted detection voltage input to the comparator can be set to the optimum operation range of the comparator.

That is, the fluctuation range of the detection voltage can be narrowed, so that the dynamic range of the comparator can be narrowed and the power supply can be operated at a low voltage.

(2): In the case of the conventional example, the range of the detection level becomes wide according to the range of the output level of the PA.
The dynamic range of the comparator had to be wide. That is, it was necessary to widen the power supply voltage range (the range of +-).

On the other hand, in the present invention, since the limitation of the detection level due to the PA output level range and the limitation of the dynamic range of the comparator are also eased, the power supply voltage can be reduced, the design can be simplified, and the design can be simplified. Operation is possible even when the battery voltage is reduced due to the voltage operation.

Further, the relaxation of the dynamic range of the comparator also reduces the dynamic range of the reference signal, and the resolution is increased, so that the accuracy of the gain control voltage of the PA obtained from the APC circuit is increased, and the radiation from the antenna AT is increased. The accuracy of the received radio wave intensity is also improved.

(3): For example, when the range of the output level of the PA needs to be varied over a wide range and the power supply voltage of the comparator is driven at 0 to 3.6 V, the detection voltage range in the detection circuit The reference signal range also needs to be within the range of 0 to 3.6 V. However, the level conversion of the detection voltage according to the present invention makes it possible to narrow the dynamic range of the detection voltage, and accordingly, the reference signal from the control system. Since the range is narrowed and the dynamic range required for the comparator can be narrowed, the power supply voltage can be set to 0 to +2.8 V. As a result, even if the battery voltage drops, A
The PC circuit can be operated more stably than the operation of the conventional circuit.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of an APC circuit unit according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Power amplifier (PA) 2 APC circuit 3 Detection circuit 4 Comparator 5 Directional coupler 6 Schottky diode 7 Non-inverting amplifier 8 Analog switch AT antenna

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Masaki Hara 1-1-13 Nihonbashi, Chuo-ku, Tokyo Inside TDK Corporation (72) Inventor Kunio Gosho 1-13-1 Nihonbashi, Chuo-ku, Tokyo F-term in TDK Corporation (reference) 5J100 JA01 KA05 LA09 LA10 QA01 SA01 5K060 CC04 CC11 CC12 DD04 HH03 HH06 HH39 JJ06 JJ16 JJ23 KK01 LL01 LL24

Claims (2)

[Claims] 1. A detection circuit having a directional coupler and a Schottky diode, detecting an output of a high-frequency power amplifier and generating a detection voltage for monitoring an output level of the high-frequency power amplifier; APC of a high-frequency power amplifier having a comparator for comparing a detection voltage obtained by a detection circuit with a reference signal supplied from a control system to generate a control signal for optimally controlling the gain of the high-frequency power amplifier An APC circuit for a high-frequency power amplifier, wherein a non-inverting amplifier for performing level conversion of the detection voltage by switching a voltage gain is provided on an output side of the detection circuit. 2. The non-inverting amplifier is connected between an output terminal of the Schottky diode and an inverting input terminal of a comparator. A plurality of resistors are connected to the inverting input terminal of the non-inverting amplifier. An analog switch that switches a connection state of the resistor according to a gain switching control signal is provided. By switching the analog switch, a voltage gain is changed by changing an input voltage level of an inverting input terminal of the non-inverting amplifier. 2. The high-frequency power amplifier according to claim 1, wherein level conversion is performed.
PC circuit.