KR960012499B1 - Agc circuit of rf amp for catv tuner - Google Patents

Abstract

an AGC drive(20) for outputting a gain adjusting data with the AGC voltage which is inputted to the tuner output terminal; and an AGC amplifier(10) for generating a RF output signals with an adjusted signal gain depending on the AGC dirve output to keep an constant output signal level though an input signal level which is quite irregular.

Description

RF amplifier AGC circuit of CATV tuner

1 is an AGC circuit diagram of a conventional RF amplifier.

2 is an AGC circuit diagram of an RF amplifier according to the present invention.

(A), (b), and (c) of FIG. 3 are operational waveform diagrams of FIG.

* Explanation of symbols for main parts of the drawings

10: RF AGC amplifier 20: AGC drive

Q0: FETQ1: RF amplification transistor

D1, D2: pin diode R1 to R2: resistor

Q2: AGC voltage transistors C1 to C7: capacitors

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an AGC (Automatic Gain Control) circuit of a radio frequency (RF) amplifier of a CATV (Community Antenna Television) tuner. In particular, the present invention relates to a cable broadcasting receiving an irregular signal level by up / down the RF output level. It relates to the AGC circuit of an RF amplifier in a CATV tuner that allows the signal output to be maintained at a constant level at all times.

The AGC circuit of the RF amplifier of the conventional CATV tuner inputs an intermediate frequency signal to the first gate G1 of the FET Q0 and applies the AGC voltage to the second gate G2 as shown in FIG. (D) The gain of the FET Q0 is adjusted by varying the current. However, the conventional AGC circuit uses a FET Q0 to tune and output only a limited band, which is a wide band (about 50 MHz to 550 MHz). Amplification of the signal is very difficult, and the signal of CATV is not always transmitted / received at a constant level, and there is no AGC function at the input side of the tuner when the signal is input at a strong level because the level change is severe in each region. Signal distortion occurs.

In addition, when the input signal of the tuner is small, there is no noise figure (NF) enhancement function, so that the NF is reduced.

As described above, the general CATV tuner using the AGC circuit as shown in FIG. 1 cannot prevent NF degradation and signal distortion.

The present invention has been made to solve the conventional problems as described above, the object of which is, when the level of the RF signal input to the RF is large, by reducing the RF output level by minimizing the distortion of the signal S / N (Signal-to- The noise ratio is improved, and when the RF signal input level is small, the RF output level is increased to improve the NF characteristic, so that the signal output is always maintained at a constant level when receiving the irregular cable signal.

In order to achieve the above object, the present invention, the AGC drive to drive the AGC voltage input from the output of the tuner to output the gain control data, and the RF signal is generated by adjusting the amplification degree of the RF signal differently according to the output of the AGC drive It is characterized by the configuration of the RF AGC amplifier.

The present invention will be described in detail with reference to the accompanying drawings as follows.

FIG. 2 is an AGC circuit diagram of a CATV tuner RF amplifier according to the present invention. As shown in FIG. 2, an AGC drive 20 which drives AGC voltage input from a tuner output stage and outputs gain control data, and the AGC The RF AGC amplification unit 10 generates an RF output by differently adjusting the amplification degree of the RF signal according to the output of the drive.

The AGC drive 20 receives the AGC voltage of the tuner output terminal and is composed of an AGC voltage transistor Q2, resistors R10, R11, R12, and bypass capacitor C7, and the RF AGC. The amplifier 10 includes an RF amplifying transistor Q1 for amplifying a level of a signal input through RF, a bias resistor R1, R2, R4, ... R7 for supplying a bias to the transistor Q1, and a bypass. It consists of a capacitor (C2 ... C6), a pin diode (D1), (D2) and a voltage divider (R9), (R10), the RF AGC amplification unit 10 has a resistor (R3), capacitor (C1), inverter The feedback circuit is formed by serial connection of (L12).

In the present invention configured as described above, AGC drive 20 is first applied to the AGC voltage of the tuner output stage to adjust the amplification value of the RF AGC amplifier 10, RF AGC amplifier 10 is a RF signal and AGC drive ( 20) receives the output and adjusts the amplification degree according to the level of the input signal to output.

That is, the RF AGC amplifier 10 controls the amplification degree of the RF amplifying transistor Q1 according to the magnitude of the signal level input by the pin diodes D1 and D2.

That is, the operation and effect of the present invention will be described in detail based on the operation characteristic diagram of FIG. 3.

First, (a) of FIG. 3 shows a characteristic of a waveform in which an RF input signal is applied to the transistor Q1 base of the RF AGC amplifier 10 through the filter A. In general, the CATV channel array has two channels. Since the frequency is 55M to 60MHz, a high pass signal as shown in FIG. 3A which removes a signal band of 50 MHz or less from the filter A is input to the base of the RF amplifying transistor Q1.

At this time, when the AGC voltage input of the AGC drive 20 is maximum, the voltage B + / 2 is set on the anode side of the pin diode D1, and the AGC maximum voltage is applied to the cathode side of the pin diode D1. Where the AGC maximum voltage is lower than the B + power supply and higher than B + / 2.

Therefore, since the pin diode D1 is in the reverse potential state and its resistance value is almost infinity, the circuit connecting the capacitor C2 to the diode D1 to the capacitor C4 is cut off. Therefore, the RF input signal is input to the transistor Q1 and amplified.

On the other hand, since the forward voltage is applied to the pin diode D2, the resistance value becomes 0 (Zero), and the emitter side of the transistor Q1 is connected to ground through the capacitor C3-> pin diode D2-> capacitor C5. In this case, the RF amplifying transistor Q1 acts as an amplifier.

Therefore, the RF output at point B, that is, the collector side, is amplified by 10 dB or more as shown in FIG. Point A is the RF input side level.

When the AGC voltage is set to 0 V, the output of the AGC driver 20 becomes 0 V and the pin diode D1 becomes the forward voltage, so that the resistance value is almost zero (zero). Therefore, the RF input signal at this time flows to ground through the capacitor (C2)-> pin diode (D1)-> capacitor (C4), and the RF signal input to the base of the transistor (Q1) becomes low potential and the pin diode (D2) is reversed. In turn, transistor Q1 is operated by capacitor C3 and voltage divider R6, R7, and R8.

At this time, the total resistance of the voltage divider resistor As shown in (c) of FIG. 3, the RF power of about 30 dB is reduced, resulting in a decrease in amplification.

As described above, when the RF input is large, the AGC voltage is increased and the RF output is down. When the RF input is small, the AGC voltage is increased and the RF output is increased. Therefore, when the input RF signal is weak, it has an amplification effect that can sufficiently satisfy the NF specification, so that the signal output is always maintained at a constant level when receiving the irregular cable signal level.

As described above, according to the present invention, when the level of the RF signal input to the tuner output terminal is large, the RF output level is reduced to minimize the distortion of the signal to improve the S / N ratio, and when the RF signal input level is small, By improving the NF characteristic by increasing the output level, there is an effect of maintaining the signal output at a constant level at the time of receiving a cable broadcasting having an irregular signal level.

Claims (3)

And an AGC drive for outputting gain control data by driving an AGC voltage input to the tuner output stage, and an RF AGC amplifier for generating an RF output by adjusting an amplification degree of the RF signal differently according to the output of the AGC drive. AGC circuit of the RF amplifier of the CATV tuner. 2. The AGC of an RF amplifier of a CATV tuner according to claim 1, wherein the RF AGC amplifying unit includes variable resistance means for changing resistance values according to an applied voltage between the base and the emitter of the amplifying transistor Q1. Circuit. 3. The AGC circuit of the RF amplifier of the CATV tuner according to claim 2, wherein the variable resistance means is made of a pin diode.