KR0168024B1 - Circuit for controlling rf signal level in a wireless relay system - Google Patents

Abstract

The present invention relates to a circuit for adjusting the level of a radio frequency (RF) signal received by a wireless relay system, and in particular, by attenuating the level of the RF signal generated by upfading. The present invention relates to an RF signal level adjusting circuit in a wireless relay system to remove a noise level.

That is, the present invention pins when the RF signal faded in the band of 6GHz or higher is higher than the reference in order to prevent signal distortion that occurs when the mixer is operated in the saturation region due to the fading phenomenon of the RF signal which is often generated in a wireless relay system. It is an object of the present invention to provide an apparatus for bypassing an RF signal by reducing a series resistance value of a diode.

Accordingly, when signal distortion occurs due to fading of the RF signal received by the wireless relay system, the signal level may be finely adjusted by automatic gain control, thereby effectively compensating the signal.

Description

RF Signal Level Control Circuit in Wireless Relay System

1 is a circuit diagram of an RF signal level adjusting circuit in a general wireless relay system.

FIG. 2 (a) is the correlation between the current flowing through the pin diode in FIG.

FIG. 2 (b) is a correlation with bit error rate according to the signal level input to the mixer in FIG.

3 is a circuit diagram of an RF signal level adjusting circuit according to the present invention.

FIG. 4 is an exemplary embodiment of the output voltage state of the third inverting amplifier with respect to the output voltage of the second inverting amplifier in FIG.

* Explanation of symbols for main parts of the drawings

1: low noise amplifier 2: mixer

3: local oscillator 4,10: automatic gain control circuit

C1 ~ C8, C11: Capacitor U1 ~ U3: Low Noise Amplifier

U11: Amplifier R1 ~ R4, R11 ~ R21: Resistance

D1 ~ D3: Pin Diode D11: Switching Diode

OP1 ~ OP3: Inverting Amplifier

The present invention relates to a circuit for adjusting the level of a radio frequency (RF) signal received by a wireless relay system, and in particular, by attenuating the level of the RF signal generated by upfading. The present invention relates to an RF signal level adjusting circuit in a wireless relay system to remove a noise level.

In a general wireless relay system, the RF signal level adjusting circuit is configured as shown in FIG.

That is, after the noise is removed through the low noise amplifier 1, the RF signal input through the antenna is mixed with the reference frequency of the local oscillator 3 in the mixer 2 and converted into an IF (Intermediate Frequency) signal.

In this case, the RF signal may be fading due to high acid or sea level during wireless transmission.

Here, the fading phenomenon refers to a case where a normal signal level gradually increases or decreases gradually due to a change in medium of a signal transmission path.

When the faded RF signal is received by the wireless relay system, the mixer 2 is mixed with the reference frequency of the local oscillator 3 to cause the level to be higher. As such, the noise level due to nonlinear distortion generated as the mixer 2 operates in the saturation region has a great influence on the bit error rate (BER).

That is, since the correlation between the signal input level to the mixer 2 and the bit error rate is shown in the second (b) diagram, the attenuation of the signal input level to the mixer 2 is necessary.

In order to prevent the signal distortion from occurring due to such a fading phenomenon, a circuit for measuring the RF signal level and changing it to a normal signal level is required, which is the automatic gain control circuit 4.

After detecting the voltage level at the IF stage after the mixer 2, if the voltage is higher than the predetermined voltage, the two capacitors C2 and C3 connected between each of the low noise amplifiers U1 to U3 of the low noise amplifier 1 (C4, C5) (C6, C7) a lot of current flows to each pin diode (D1) (D2) (D3) by giving a large current to each resistor (R1) (R2) (R3) connected in parallel To do that.

Accordingly, since the resistance Rs generated in the pin diodes D1, D2, and D3 is reduced as shown in the correlation graph of FIG. 2 (a), the RF signal input to the low noise amplifier 1 A portion of the voltage is bypassed to each pin diode D1 (D2) D3.

As a result, the signal level input to the mixer 2 gradually decreases, and when the level of the IF signal reaches the normal level, no signal distortion occurs and a normal sound is output, and thus the automatic gain control circuit 4 does not operate. .

However, the above-described RF signal level adjusting circuit supplies a high current to the pin diode when the voltage output from the mixer's next stage is higher than a predetermined voltage, which is effective only for fading in the band of about 1 to 2 GHz. In the above band, the gap of the current supply for signal compensation is large and is not effective.

Accordingly, the present invention, when the RF signal faded in the band of 6GHz or higher is higher than the reference in order to prevent the signal distortion that occurs when the mixer is operating in the saturation region due to the fading of the RF signal which is often generated in a wireless relay system. It is an object of the present invention to provide a device for bypassing an RF signal by reducing the series resistance value of the pin diode.

In the wireless relay system of the present invention for achieving the above object, the RF signal level adjusting circuit includes a low noise amplifier that inputs an RF signal through an antenna and amplifies it to eliminate low noise, and the level of the input RF signal is high. A low noise amplifier including a pin diode to bypass a portion of the signal to lower the voltage; A mixer for mixing the output of the low noise amplifier with a reference frequency of a local oscillator and converting the IF signal into an IF signal; In the RF signal level adjusting circuit in a wireless relay system including an automatic gain control circuit for measuring the level of the IF signal output from the mixer and higher than the reference to increase the amount of current to the pin diode of the low noise amplifier,

The automatic gain control circuit includes an amplifier for amplifying the IF signal output from the mixer; An integrator for integrating the output of the amplifier and outputting it at a DC level; A first inverting amplifier which does not operate when the output of the integrator is a positive value and inverts the DC amplification by a gain determined by a ratio of the first input resistance and the first feedback resistor when the output of the integrator is negative; A DC amplifying and inverting by a gain determined by a ratio of the second input resistance and the second feedback resistor of the first inverting amplifier, and adjusting the DC level by the voltage input together with the output value of the second input resistance. Two inverting amplifiers; A third amplifying and inverting the DC by a gain determined according to a ratio of the third input resistor and the third feedback resistor of the second inverting amplifier, and outputting the third amplifier to each resistor for supplying current to the pin diode of the low noise amplifier. And an inverting amplifier.

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

3 is a configuration diagram of an RF signal level adjusting circuit in the wireless relay system of the present invention.

That is, the configuration includes a low noise amplifier 1, a mixer 2, a local oscillator 3, and an automatic gain control circuit 10, wherein the automatic gain control circuit 10 is connected to an amplifier U11. And several inverting amplifiers OP1 to OP3, an integrator, several resistors R1 to R21, and a diode D11.

The operation thereof is as follows.

The present invention is a circuit for supplementing the nonlinear characteristics of the mixer 1, and the automatic gain control circuit 10 operates when the output level is too high after the signal entering the antenna passes through the low noise amplifier 1.

The operating principle is that the RF signal is passed through each of the low noise amplifiers U1 to U3 of the low noise amplifier 1 in the up-faded state, and then the signal detected through the fourth resistor R4 at the IF stage is applied to the amplifier U11. First amplification through

Thereafter, it is input to the first inverting amplifier OP1 through an integrator.

Accordingly, in the first inverting amplifier OP1, the gain is determined by adjusting the ratio between the first input resistor R11 and the first feedback resistors R13 and R14.

In this case, the switching diode D11 connected to the first feedback resistors R13 and R14 performs DC amplification only when the input of the first inverting amplifier OP1 is negative. Determine the reference value of the amplification operation for the signal level. In addition, the resistor R12 connected to the non-inverting input terminal (+) is used to compensate for an offset value of the first inverting amplifier OP1.

Thereafter, the output of the first inverting amplifier OP1 is input to the second inverting amplifier OP2, and the output signal of the second inverting amplifier OP2 is transferred to the second input resistor R15 and the second feedback resistor R18. DC amplification by the ratio of

Here, the second inverting amplifier OP2 is input voltage V _T through the resistor R17 which is supplied to the inverting input terminal (-) of the second inverting amplifier OP2 together with the output value of the second input resistor R15. To adjust the DC level. In addition, the resistor R16 connected to the non-inverting input terminal (+) of the second inverting amplifier OP2 is also used to compensate for the offset value of the second inverting amplifier OP2 as in the first inverting amplifier OP1. will be.

The third inverting amplifier OP3 adjusts the ratio of the third input resistor R19 and the third feedback resistor R21 to determine the DC amplification degree.

Therefore, even if the voltage of the DC level input to the third inverting amplifier OP3 enters a negative value such as -Vcc, the output voltage always maintains a positive value such as + Vcc.

In addition, when the input voltage of the third inverting amplifier OP3 starts to change to a positive value, the rate of change of the output voltage relative to the rate of change of the input voltage is relatively small, and thus fine adjustment is possible. This is as shown in FIG.

In this way, if the IF signal level after the mixer 2 is higher than the reference value, the magnitude of the voltage is determined by each of the inverting amplifiers OP1 to OP3 and fed back to the low noise amplifier 1 so as to feed the pin diodes D1 to D3. The resistance (Rs) applied is reduced to lower the level of the input RF signal.

This complements the nonlinear nature of the mixer.

As described above, according to the present invention, when signal distortion occurs due to fading of the RF signal received by the wireless relay system, the signal level can be finely adjusted by automatic gain control, thereby effectively compensating the signal. .

Claims (1)

Low noise amplifier that inputs an RF signal through an antenna and amplifies it to eliminate low noise, and a low noise amplifier including a pin diode that bypasses a part of the signal to lower this level when the level of the input RF signal is high. Wow; A mixer for mixing the output of the low noise amplifier with a reference frequency of a local oscillator and converting the IF signal into an IF signal; In the RF signal level adjustment circuit in a wireless repeater system comprising an automatic gain control circuit for measuring the level of the IF signal output from the mixer and higher than the reference to increase the amount of current to the pin diode of the low noise amplification unit, the automatic gain control The circuit includes an amplifier for amplifying the IF signal output from the mixer; An integrator for integrating the output of the amplifier and outputting it at a DC level; A first inverting amplifier which does not operate when the output of the integrator is a positive value and inverts the DC amplification by a gain determined by a ratio of the first input resistance and the first feedback resistor when the output of the integrator is negative; A DC amplifying and inverting by a gain determined by a ratio of the second input resistance and the second feedback resistor of the first inverting amplifier, and adjusting the DC level by the voltage input together with the output value of the second input resistance. Two inverting amplifiers; A third amplifying and inverting the DC by a gain determined according to a ratio of the third input resistor and the third feedback resistor of the second inverting amplifier, and outputting the third amplifier to each resistor for supplying current to the pin diode of the low noise amplifier. RF signal level control circuit in a wireless relay system comprising an inverting amplifier.