KR20160036381A - Automatic level compensating circuit with adjustable output change - Google Patents

Abstract

The present invention relates to an automatic level compensating circuit capable of adjusting an output change, which comprises: an input coupler (1) for extracting an input signal; an attenuating unit (2) for changing an attenuation degree of a radio frequency (RF) or a microwave signal with error voltage or current outputted in a comparison unit (8); an amplifying unit (3) for amplifying the input signal; an output coupler (4) for extracting the amplified signal from the amplifying unit (3); an input detecting unit (6) for detecting the signal of the input coupler (1); an output detecting unit (5) for converting the signal outputted from the output coupler (4) into voltage; a control unit (7) for providing reference voltage on an output level of the RF; and the comparison unit (8) for comparing the voltage detected by the output of the amplifying unit (3) with the reference voltage on the output level of the RF, and providing control voltage to the attenuating unit (2). Therefore, the present invention can adjust an output level without outputting a specific output when outputting a signal, and increases efficiency on usage by releasing inconvenience of the existing complex structure with a simple structure.

Description

[0001] The present invention relates to an automatic level compensating circuit,

The present invention relates to an automatic level compensation circuit capable of adjusting an output change, which simplifies the configuration of a circuit, and outputs an output at various levels rather than a specific output.

The role of a radio frequency (RF) unit in wireless communication is to convert a transmission signal generated at the baseband stage into a high-frequency signal in the transmission side and amplify it to a predetermined level of power according to the system setting And transmits the signals without interference to other signals.

In addition, the RF unit filters and receives only a desired frequency band among various noise and other signals on the air from the receiving side, generates a usable signal by amplifying a weak signal while minimizing noise, To recover the actual signal.

Generally, an RF transmitter in a wireless communication system transmits a high frequency (RF) signal through an antenna using a high power amplifier (HPA).

The output characteristics of the high power amplifier are characterized by changes in ambient temperature and temperature characteristics due to heating of semiconductor elements in the amplifier.

In most real-world environments, the output power is lowered as the power amplifier temperature increases, and the output power is increased as the ambient temperature is lowered.

As a result, the output power fluctuates with time depending on the ambient temperature or its own temperature change depending on the use condition. In addition, apart from the temperature, even if the product is manufactured by the same process, uneven parameters are generated due to the unbalance that can not be controlled in the semiconductor process. As a result, the power amplifier has various output power characteristics even for the same product.

Considering these problems, there is a need for the RF transmitter to be able to compensate the RF output power to a certain level as much as possible under all operating conditions.

In particular, the decrease in the output power of the power amplifier due to process and temperature changes tends to sharply decrease the call quality as the distance increases.

On the other hand, a sudden increase in the output power may cause interference to other devices.

In consideration of these problems, an automatic level control loop has been generally used as a means for detecting a change in output power of a power amplifier according to a process and a temperature change in a transmitter and controlling an output power of the power amplifier.

However, the automatic level control loop directly controls the high-power amplifier operating at the RF frequency, so that the range of power amplifier output changes as the process and temperature change

In order to compensate, there was a complicated circuit implementation.

Conventionally, the amplifier must have a constant output or have a constant gain for input signal, temperature change and voltage fluctuation.

  That is, the variable attenuator is adjusted so that the output is kept constant regardless of the change in the input size, so that the automatic level control circuit for controlling the gain of the entire circuit is implemented to keep the output value constant.

An example of a circuit using an automatic level controller is an AM / FM receiver or a Low Noise Amplifier (LAN) used in the front or rear of a TV.

The output signal is detected and the variable attenuator located at the input of the amplifier is adjusted to maintain the output level constant.

The signal from the coupler also compares the measured voltage at the detector with the reference voltage (Vref) at OP-AMP and adjusts the voltage of the attenuator to the output voltage (Vc).

In order to determine the magnitude of the input signal, the signal extracted from the input coupling is input to the RF1 of the detection circuit. To determine the size of the output signal, the signal extracted from the output coupler is equal to the gain of the amplifier Is attenuated and input to RF2 of the detection circuit.

The RF1 and RF2 input to the detection circuit are input according to the selection of the RF S / W, and the input signal is applied to the frequency mixer through the band-pass filter.

The signal applied to the frequency mixer oscillates according to the frequency information given in the PLL to IF signal and is applied to the frequency mixer.

In the frequency mixer, the mixed IF frequency is applied to the LOG-AMP via a narrow bandpass filter.

  The voltage value of RSSI from LOG-AMP is amplified by OP-AMP and transmitted to the micro-controller.

In order to implement the above-described circuit, there is a disadvantage that the controller must be complicatedly implemented, and temperature information and voltage information must be given in advance in order to implement the temperature change and the voltage variation.

The conventional automatic level compensation circuit includes a combiner for extracting an input signal; An attenuator for adjusting the size of the signal; An amplifier for amplifying the signal; A coupler for extracting the amplified signal from the output side; And a gain comparator capable of comparing the signal RF1 of the input side coupler and the signal RF2 of the output side coupler, and Korean Patent Laid-Open Publication No. 10-1997-0081467 discloses an apparatus and method capable of automatic gain control and automatic level control However, there is a problem that it is inconvenient to use with a complicated configuration.

KR 10-1997-0081467 A KR 10-2005-0000564 A KR 10-1994-035756 B1 KR 10-2006-0112515 B1

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems of the prior art.

The input coupler 1, the attenuator 2, the amplifier 3, the output coupler 4, the output detector 5, the input detector 6, The control unit 7 and the comparator 8 are provided so as to be able to perform the automatic level compensation capable of adjusting the output change rather than the specific output.

In an automatic level compensation circuit capable of adjusting an output change, as shown in FIG. 1, the conventional problem is solved by adjusting the reference according to input and gain changes.

In order to solve the above-mentioned conventional problems, a detailed configuration includes an input combiner 1 for extracting an input signal; An attenuation unit (2) for changing the degree of attenuation of the RF and microwave signals with the error voltage or current outputted from the comparator (8); An amplification unit (3) for amplifying an input signal; An output coupler 4 for extracting an amplified signal from the amplifying unit 3; An input detector (6) for detecting a signal of the input combiner (1); An output detector 5 for converting a signal extracted from the output combiner 4 into a voltage; A control unit (7) for providing a reference voltage for an RF output intensity; And a comparing unit 8 comparing the reference voltage with respect to the RF output intensity and the voltage detected by the output of the amplifying unit 3 to provide a control voltage to the attenuating unit 2. [

The attenuation unit 2 is composed of an integrated circuit (IC) 10 or a PIN diode 11. The amplification unit 3 amplifies a high frequency (TRANSISTOR) 9 or a system S having a gain of a large high frequency (RF) signal and the output coupler 4 comprises a microstrip 12 or a strip line 13, Or a ferrite core (17).

The output detector 5 may be a LOG AMPLIFER or a SHOTTY DIODE 15 or an IC 10. The controller 7 may be configured to detect an RF output intensity To the comparator 8 using a digital-to-analog converter (D / A converter) 16 of a microprocessor, and the comparator 8 comprises an amplifier A1, And resistors R1 and R2 of capacitors C1 and C2, and capacitors C1 and C2.

The present invention relates to an automatic level compensation circuit capable of adjusting the output change, and in particular, it is possible to adjust the level output without making a specific output in the signal output.

In addition, there is an effect that the efficiency of utilization can be improved with a simple structure, which is inconvenience of the conventional complicated structure.

1 is an overall block diagram of an automatic level compensation circuit capable of adjusting an output change according to the present invention.
2 is an integrator circuit diagram constituting a comparison unit according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

In the automatic level compensation circuit capable of adjusting the output according to the present invention, detailed description will be given below in order to simplify the configuration of the circuit and diversify the level output.

1, the input coupler 1 according to the present invention extracts an input signal and transmits the signal to the attenuator 2 and the input detector 6, (IC) 10 that integrates complicated electronic circuits including resistors, capacitors, and inductors of an integrated circuit by varying the degree of attenuation of RF and microwave signals with the error voltage or current output from the integrated circuit (8) The attenuator 2 is constituted by using a pin diode (PIN DIODE) 11 whose resistance is controlled by the amount of current and the output signal is transmitted to the amplifying unit 3 or the system S.

The amplification unit 3 or the system S may also be configured to amplify the gain of one or more multi-stage TRANSISTOR 9 or large high frequency (RF) signals to amplify the input signal and obtain a gain of a large high frequency (RF) And transmits the output signal to the output combiner 4. The output S /

The output combiner 4 extracts the amplified signal from the amplification unit 3 or the system S and outputs the amplified signal to the microstrip 12 or the stripline 13 or the ferrite core 13, ) 17, and the output signal is used as a level output, and the signal is fed back to the output detector 5 to adjust the attenuation amount.

The output detector 5 converts a signal extracted from the output coupler 4 into a voltage and obtains an output voltage proportional to the logarithm of the input voltage. The output detector 5 includes a logarithmic amplifier (LOG AMPLIFIER) 14, (SHOTTYY DIODE) 15 or an integrated circuit (IC) 10, and transmits the signal to the comparator 8.

The input detector 6 detects the signal of the input combiner 1 and transmits the signal to the controller 7. The controller 7 provides a reference voltage for the RF output intensity, The control unit 7 converts the voltage of the digital electric signal encoded using the D / A converter 16 of the microprocessor into an analog electric signal and supplies the analog electric signal to the comparator 8 Provide,

2, the comparator 8 compares the reference voltage for the RF output intensity with the voltage detected by the output of the amplifier 3 to provide a control voltage to the attenuator 2, The principle of the comparator 8 operates on the principle of the integrator circuit including the amplifier A1, the resistors R1 and R2 of the integrator circuit, and the capacitors C1 and C2.

Therefore, the circuit can be configured with the above-described configuration, and the structure can be simplified, and various levels as well as a specific level can be obtained, thereby increasing the efficiency.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Input coupler: (1)
Attenuation section: (2)
Amplification section: (3)
Output coupler: (4)
Output Detector: (5)
Input Detector: (6)
Control section: (7)
Comparative section: (8)
TRANSISTOR: (9, not shown)
Integrated Circuit (IC): (10, not shown)
PIN DIODE: (11, not shown)
MICROSTRIP: (12, not shown)
STRIP LINE: (13, not shown)
Logarithmic amplifier (LOG AMPLIFIER): (14, not shown)
SHOTTY DIODE: (15, not shown)
Digital-to-Analog Converter (D / A CONVERTOR): (16, not shown)
Ferrite Core: (17, not shown)
Amplifier: (A1)
Resistance of the integrator circuit: (R1, R2)
Capacitor: (C1, C2)
System: (S)

Claims (8)

An output level change adjustable automatic level compensation circuit comprising:
An input coupler (1) for extracting an input signal;
An attenuation unit (2) for changing the degree of attenuation of the RF and microwave signals with the error voltage or current outputted from the comparator (8);
An amplification unit (3) for amplifying an input signal;
An output coupler 4 for extracting an amplified signal from the amplifying unit 3;
An input detector (6) for detecting a signal of the input combiner (1);
An output detector 5 for converting a signal extracted from the output combiner 4 into a voltage;
A control unit (7) for providing a reference voltage for an RF output intensity;
And a comparator (8) for comparing the reference voltage for the RF output intensity with the voltage detected by the output of the amplifier (3) and providing a control voltage to the attenuator (2) Circuit. The method according to claim 1,
Characterized in that the attenuation section (2) comprises an integrated circuit (IC) (10) (not shown) or a pin diode (PIN DIODE) (11). The method according to claim 1,
Wherein the amplifying unit (3) comprises a multi-stage transistor (9) (not shown). The method according to claim 1,
Characterized in that the amplifier (3) is replaced by a system (S, not shown) having a gain of a large high frequency (RF) signal. The method according to claim 1,
The output coupler 4 is composed of a microstrip 12 (not shown) or a strip line 13 (not shown) or a ferrite core 17 (not shown) Wherein the output level of the output level adjustment circuit is adjustable. The method according to claim 1,
The output detector 5 may be implemented in the form of a logarithmic amplifier 14 (not shown) or a Schottky diode 15 (not shown) or integrated circuit (IC) 10 (not shown) Wherein the output level adjustment circuit comprises: The method according to claim 1,
The control unit 7 provides a voltage to the comparator 8 using a digital-to-analog converter (D / A converter) 16 (not shown) of a microprocessor according to the RF output intensity Output level changeable automatic level compensation circuit. The method according to claim 1,
Characterized in that the comparator (8) comprises an integrator circuit including an amplifier (A1), resistors (R1, R2) and capacitors (C1, C2).

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