KR101927874B1 - Adaptive High Power Limiter with activating level of limiter driving demanded by system - Google Patents

Abstract

The embodiment includes an RF input signal unit for applying an input signal of RF (Radio Frequency) communication, a limiter diode for attenuating the input signal applied by the RF input signal unit when the value of the input signal is a saturation threshold value, A detector for converting the detected RF signal into a DC signal, a DC power supply for supplying a reference voltage value to a threshold of the system request limiter operating region, a DC voltage value converted by the detector, DC power supply, and outputs a damping drive signal when the DC voltage value converted by the detector is equal to or greater than the reference voltage value by the DC power supply, A DC comparator for outputting an attenuation stop signal when the DC comparator is below a reference voltage value by the power supply, A relay for disconnecting the path to ground by turning off the DC comparator when a damping stop signal is input to the DC comparator, an RF choke for operating the relay-on limiter diode, And a DC block for blocking the DC signal. The present invention relates to an active adjustable high power limiter device having a system demand limiter operation level. In contrast to the conventional technology, the limiter operation level is adjusted as desired, And adjusts the limiter operation actively in accordance with the requirements of the communication system in which high signal power is input.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an active adjustable high power limiter,

The present invention relates to a limiter device for preventing a signal from being inputted at a level higher than a predetermined level in order to prevent equipment damage when a receiving path of a high-output power amplifier providing a transmission / reception path in RF (Radio Frequency) communication is provided.

Unless otherwise indicated herein, the contents set forth in this section are not prior art to the claims of this application and are not to be construed as prior art to be included in this section.

In the case of a high-power amplifier that provides a transmission / reception path, a limiter circuit or a limiter device is generally applied to prevent a signal from reaching a predetermined level or more in order to prevent damage to the equipment when a receiving path is provided. An RF limiter consisting of these diodes is used to protect the receiver by passing a small signal and attenuating the signal above a certain threshold.

A typical circuit configuration of this limiter device is a circuit using a commercially available pin or a limiter diode. By using an RF choke or a two or three stage pin diode, The desired signal level is set. At this time, the signal level that can be suppressed according to the frequency characteristic of the diode is determined.

In the case of such a limiter circuit, the threshold value for attenuating the input signal is determined according to the frequency characteristics and performance of the diode.

In general, in the case of a limiter circuit in which a peripheral communication environment is applied to a comfortable system, since the input signal power level is not high, the saturation region of the limiter diode is not formed and does not affect the reception sensitivity.

However, in the case of a system receiving a high-power interference signal, a saturation region of the limiter diode is unintentionally formed, which greatly affects the reception sensitivity. Therefore, the commercial commercial limiter diode may not be applied depending on the system environment.

 Particularly, in the case of the low frequency band, since the threshold value of the saturation region of the general limiter diode is lowered, it is difficult to select the limiter diode further. That is, as shown in FIG. 1, the input signal of the RF communication input from the oscillator (RF input signal unit) 101 is determined by a limiter operation level according to the characteristics of an RF limiter diode (105). In particular, since most of the limiter diode saturation thresholds are low in a low frequency band (HF to VHF), it is difficult to actively configure a desired limiter operation level in a communication environment in which high power flows.

Therefore, considering this problem, we will study the method of actively controlling the operation level of the limiter diode in the system according to the system operation.

The disclosed disclosure relates to a system requirement limiter that can actively adjust a limiter operation level to a system requirement performance in order to prevent equipment damage due to a high power interference signal that is not an original signal due to the surrounding environment in RF communication Power limiter device with an active level of operation level.

An active adjustable high power limiter device of a system demand limiter operation level according to an embodiment includes:

The threshold value of the limiter operation range required by the system is calculated as a voltage value, the reference voltage value is supplied through the DC power supply, the RF signal of the input signal is detected during the RF communication, DC signal, and compares the DC voltage value by the detector with the reference voltage value supplied through the DC power supply. When the DC voltage value by the detector is equal to or higher than the reference voltage value supplied through the DC power supply That is, when the input signal becomes the saturation threshold value, the limiter diode is operated by RF choke to attenuate the input signal.

According to the embodiments, unlike the prior art, the limiter operation level is adjusted as desired, and the limiter operation is actively adjusted in accordance with the requirement of the communication system in which the high signal power is inputted.

In addition, if two channels are simultaneously operated (for example, A channel transmission and B channel reception) in a variety of communication environments, if the antenna isolation degree is not sufficiently secured, interference signals of high power are transmitted through the transmitted signal to the received signal path, The nonlinear characteristic of the limiter diode occurs. At this time, when the noise power level is saturated and the received signal can not be detected, a desired limiter operation level can be set using the method proposed in one embodiment, It is used variously in communication environment.

1 is a view showing the configuration of a conventional limiter device
2 is a diagram illustrating a configuration of an active adjustable high power limiter device at a system demand limiter operation level according to one embodiment
FIG. 3 is a sequence diagram illustrating the operation of an active adjustable high power limiter device of a system demand limiter operation level according to one embodiment

2 is a diagram illustrating a configuration of an active adjustable high power limiter device of a system request limiter operation level according to an embodiment.

2, the active adjustable high power limiter of the system request limiter operation level according to an exemplary embodiment includes an RF input signal unit 201 for applying an input signal of RF (Radio Frequency) communication, A limiting resistor (203) for detecting an RF signal of the input signal, a limiting resistor (203) for reducing the detected RF signal to a DC signal A DC power supply 207 for supplying a reference voltage value for a threshold value of the system request limiter operating region, a DC voltage source 207 for converting the DC voltage value converted by the detector 206 and the DC voltage value And outputs a damping drive signal when the DC voltage value converted by the detector is equal to or greater than a reference voltage value by the DC power supply, A DC comparator 208 for outputting an attenuation stop signal when the DC comparator 208 is less than a reference voltage value by the DC power supply, An RF choke 210 for operating the limiter diode 211 of the relay 209 when the attenuation stop signal is input, and an RF choke 210 for operating the relay 209 on-state. And DC blocks (blocks 202 and 204) for blocking the DC signal.

The RF signal input unit 201 applies an input signal of RF (Radio Frequency) communication. That is, the RF signal input unit 201 applies an input signal of RF communication according to a reception path of a high power amplifier that provides a transmission / reception path.

The limiter diode 211 attenuates the input signal of the RF communication when the input signal value of the RF signal input by the RF input signal unit 201, that is, the input signal value of the RF communication, is a saturation threshold value.

The coupling resistor 203 detects the RF signal of the input signal and is provided between the RF signal input unit 201 and the detector 206. The RF signal input unit 201 receives the input signal of the RF communication, And outputs the RF signal to the detector 206.

The detector 206 converts the detected RF signal into a DC signal. That is, the detector 206 converts the RF signal detected for the RF communication input signal into a DC signal.

DC power supply 207 supplies a reference voltage value for a threshold value of the system request limiter operating region. That is, the DC power supply 207 supplies a reference voltage value for a threshold value of the system request limiter operation region when calculating a threshold value of a limiter operation region required by the system as a voltage value.

The DC comparator 208 compares the DC voltage value converted by the detector 206 with the reference voltage value by the DC power supply 207 so that the DC voltage value converted by the detector 206 is converted into the DC And outputs an attenuation driving signal when the DC voltage value by the detector 206 is lower than the reference voltage value by the DC power supply 207 will be.

The relay 209 turns on when the attenuation driving signal of the DC comparator 208 is input and connects a path to the ground GND. When the attenuation stop signal of the DC comparator 208 is input, ) To block the path to ground.

The RF choke 210 operates the limiter diode 211 on the relay 209. That is, the RF choke 210 is electrically connected between the relay 209 and the limiter diode 211, and when the relay 209 is turned on, the path is connected to the ground (GND) .

The DC blocks 202 and 204 are placed in the input / output and block DC signals to other equipment.

FIG. 3 is a diagram sequentially illustrating the operation of the active-regulated high-power limiter device of the system demand limiter operation level according to one embodiment (see FIG. 1).

As shown in FIG. 3, in the active adjustable high power limiter of the system request limiter operation level according to an embodiment, the RF signal input unit applies an input signal of RF (Radio Frequency) communication (S301).

That is, the RF signal input unit applies the input signal of the RF communication according to the reception path of the high output power amplifier providing the transmission / reception path.

Then, the coupling resistor detects the RF signal of the input signal (S302).

Specifically, the coupling resistor detects an RF signal with respect to an input signal of RF communication input from the RF signal input unit provided between the RF signal input unit and the detector.

Next, the detector converts the detected RF signal into a DC signal (S303).

That is, the detector converts the RF signal detected for the RF communication input signal into a DC signal.

Then, the DC power supply supplies a reference voltage value for a threshold value of the system request limiter operating region (S304).

That is, the DC power supply supplies a reference voltage value for a threshold value of the system demand limiter operation region when calculating a threshold value of a limiter operation region required by the system as a voltage value.

The DC comparator then compares the DC voltage value converted by the detector with the reference voltage value by the DC power supply.

And outputs an attenuation driving signal when the DC voltage value converted by the detector is equal to or greater than the reference voltage value by the DC power supply.

On the other hand, as a result of the comparison, when the DC voltage value by the detector is less than the reference voltage value by the DC power supply, an attenuation stop signal is output.

The relay is turned on when the attenuation driving signal of the DC comparator is inputted, and connects the path to the ground (GND).

On the other hand, when the damping stop signal of the DC comparator is input, the relay turns off to the ground.

The RF chock then operates the relay-on limiter diode.

More specifically, the RF choke electrically connected between the relay and the limiter diode is connected to the ground (GND) when the relay is turned on, thereby operating the limiter diode.

Then, the limiter diode attenuates the input signal of the RF communication, that is, the input signal of the RF communication having the saturation threshold value (S305).

Specifically, the limiter diode attenuates the input signal of RF communication when the input signal value of the input signal applied by the RF input signal unit, that is, the RF communication, is a saturation threshold value.

At this time, the DC block is placed in the input / output and blocks the DC signal to other equipment.

Thus, the limiter operation level is adjusted as desired to actively adjust the limiter operation in accordance with the requirements of the communication system in which high signal power is introduced.

As described above, one embodiment calculates a threshold value of a limiter operation region required by the system as a voltage value, supplies a reference voltage value through a DC power supply, detects an RF signal of an input signal during RF communication, A DC voltage value by the detector is compared with a reference voltage value supplied through the DC power supply to convert the DC voltage value by the detector into the DC power supply The limiter operation level is adjusted as desired by operating the limiter diode by using RF choke to attenuate the input signal when the input signal is equal to or higher than the reference voltage value supplied through the RF choke, And adjusts the limiter operation actively in accordance with the requirements of the communication system in which high signal power is input.

Description of the Related Art [0002]
201: RF input signal unit 202, 204: DC block
203: Coupling resistor 205: Attenuator
206: Detector 207: DC power supply
208: comparator 209: relay
210: RF choke 211: Limiter diode
212: Output resistance

Claims (2)

An RF input signal unit for applying an input signal of RF communication;
A limiter diode for attenuating the value of the applied input signal at a saturation threshold value;
A coupling resistor for detecting an RF signal of the input signal;
A detector for converting the detected RF signal into a DC signal;
A DC power supply for supplying a reference voltage value for a threshold value of the system request limiter operating region;
The DC voltage value converted by the detector is compared with the reference voltage value by the DC power supply, and when the DC voltage value converted by the detector is equal to or higher than the reference voltage value by the DC power supply, A DC comparator for outputting a decay stop signal when the DC voltage value by the detector is less than the reference voltage value by the DC power supply;
A relay which is turned on when an attenuation driving signal of the DC comparator is input and is turned off when an attenuation stop signal of the DC comparator is inputted;
An RF choke for operating the relay-on limiter diode; And
A DC block located at the input / output and blocking the DC signal to other equipment; / RTI >

The DC power supply includes:
A saturation threshold value required by the system is actively set for the operation of the limiter in the reception path used in the RF communication system to supply a reference voltage value for the saturation threshold value required by the set system,
The DC signal of the RF signal is converted to perform a damping operation of the limiter device only when the reference voltage of the saturation threshold value is abnormally actively requested by the system in response to the operation of the limiter to thereby actively adjust the limiter operation level Wherein the system controller is operable to control the system power limiter.

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