KR101625673B1 - Rf signal processing circuit - Google Patents

Abstract

The present invention provides an RF signal processing circuit capable of selectively using an LNA circuit. The present invention relates to an LNA circuit for amplifying an RF signal input through an antenna; A switch unit for selectively connecting an input terminal and an output terminal of the LNA circuit so as to be used as a bypass path of the RF signal; And an RF signal processing unit for processing RF signals transmitted through the LNA circuit.

RF signal, automatic gain, amplifier, LNA.

Description

[0001] RF SIGNAL PROCESSING CIRCUIT [0002]

The present invention relates to an RF signal processing circuit, and more particularly, to an RF signal processing circuit having an LNA (Low Noise Amplifier) circuit.

With the development of wireless communication technology, various wireless electronic devices have been developed and widely used. In a wireless communication system, there is a transmitting apparatus for transmitting a wireless signal, and a receiving apparatus for receiving a wireless signal. The transmitting apparatus generates and transmits a radio signal through a demodulation process of coupling a data signal with high frequency. The receiving apparatus receives a radio signal, modulates the signal, separates the desired data signal, and uses it internally.

In the case of television, a television broadcasting station generally transmits radio waves of microwave (VHF) and microwave (UHF) to viewers. In recent years, in cities, due to traffic congestion such as aircraft, automobile, high-speed railroad, train, etc., frequent noise signals generated due to an increase in high-rise buildings may not properly receive the signals provided by the broadcasting station . In order to solve this problem, recently, a wireless signal receiving apparatus in a television terminal has a function of removing and amplifying an input signal when there is a lot of noise.

It is the LNA circuit that removes and amplifies when there is a lot of noise. The LNA circuit is a circuit necessary for RF signal processing and greatly influences the operation characteristics of the entire RF signal processing circuit depending on how the RF signal processing circuit is arranged in various forms.

The present invention provides an RF signal processing circuit capable of selectively using an LNA circuit.

The present invention relates to an LNA circuit for amplifying an RF signal input through an antenna; A switch unit for selectively connecting an input terminal and an output terminal of the LNA circuit so as to be used as a bypass path of the RF signal; And an RF signal processing unit for processing RF signals transmitted through the LNA circuit.

The switch unit is characterized in that a first diode, a switch, and a second diode are connected in series between the input and output of the LNA circuit. The switch includes a transistor.

The RF signal processing circuit of the present invention further includes a filter unit for filtering the RF signal input through the antenna and transmitting the RF signal to the LNA circuit.

The RF signal processing unit includes a signal selection unit for selecting a signal of a desired band among the signals provided by the LNA, and the signal selection unit controls the switch unit.

The RF signal processing unit may include an RF amplifier for amplifying a signal provided from the LNA circuit in response to an automatic gain control signal; And a signal selector for selecting a desired band signal among the signals output from the RF amplifier and providing the automatic gain control signal.

Further, the signal selection unit controls the switch unit.

The RF signal processing unit includes a demodulator for demodulating and outputting the output of the signal selection unit. The demodulator receives the automatic gain control signal and detects the amplification degree of the RF amplifier, provides the signal to the signal selector, And the signal selection unit controls the switch unit by referring to the amplification degree of the RF amplifier provided in the demodulator.

The present invention relates to an LNA circuit for amplifying an RF signal input through an antenna; A switch unit for selectively connecting an input terminal and an output terminal of the LNA circuit so as to be used as a bypass path of the RF signal; An RF amplifier for amplifying an RF signal provided from the LNA circuit in response to an automatic gain control signal; A signal selector for selecting a signal of a desired band among the signals output from the RF amplifier and providing the automatic gain control signal; And a demodulator for demodulating and outputting the output of the signal selection unit, wherein the signal selection unit provides an RF signal processing circuit for controlling the switch unit.

Also, the demodulator detects the level of the automatic gain control signal from the signal selector and transmits the signal.

The switch unit is characterized in that a first diode, a switch, and a second diode are connected in series between the input and output of the LNA circuit. The switch includes a transistor.

In addition, the RF signal processing circuit of the present invention includes a filter unit for filtering an RF signal input through the antenna and transmitting the RF signal to the LNA circuit.

Since the LNA circuit can be selectively used according to the present invention, it can be appropriately amplified and processed in accordance with the state of the input RF signal. Therefore, it is possible to eliminate the case of unnecessarily amplifying the noise component, and it is possible to prevent degradation of the signal sensitivity, interference free, and RF signal processing characteristics in the multi-signal test when the strong-field system signal is input.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. do.

1 is a block diagram showing an RF signal processing circuit for explaining the present invention.

1, the RF signal processing circuit includes an input filter unit 10, an LNA circuit 20, a filter unit 41, an RF amplifier 42, a filter unit 43, a signal selection unit 44, .

The input filter unit 10 transmits a signal of a desired band among the RF signals inputted through the antenna. The LNA circuit 20 is a circuit for reducing noise and amplifying a signal as described above.

The LNA circuit is also called a low-noise amplifier. The signal received at the receiving end of the RF signal processing circuit has a very low power level due to the effects of attenuation and noise. Therefore, the amplification is necessarily required. Since the signal is already transmitted from the outside including a lot of noise, Amplification function is required. An LNA circuit is designed to have an operating point and a matching point with a low noise figure (NF), usually designed to have an NF value between 1.5 and 2.5. The LNA circuit uses a transistor with a low noise figure to have low noise characteristics and is designed to maximize the gain while using less thermal noise elements such as resistors.

The filter units 41 and 43 filter the RF signal provided at the front end to a desired band and transmit the filtered signal to the next stage. The RF amplifier 42 adjusts the amplification degree of the input signal in response to the automatic gain control signal AGC provided by the signal selector 44. [

The signal selection unit 44 selects and delivers an RF signal of a predetermined frequency band among the input signals. The signal selecting section 44 selects and transmits RF signals of a predetermined frequency band including a phase locked loop circuit 44A, a mixing circuit 44B and an amplifier 44C. In recent years, And the like.

As shown in the RF signal processing circuit, conventionally, an LNA circuit is included in an input part of an RF signal, and the LNA circuit is always operated irrespective of the level of the input RF signal. It is possible to amplify the RF signal that is effectively input when the electric field is weak. However, in the case of a medium-intensity or high-power system, the RF signal sensitivity sensitivity, adjoint interference characteristics, and MSG (Multi Signal Test) characteristics deteriorate. Particularly, in the case of the RF signal processing circuit of the DVB-C 256 QAM type, the receiving performance (Receiver Performace) at the time of the strong and strong is emphasized due to the amount of data which increases abruptly. In the RF signal processing circuit of FIG. 1, It can be said that it is becoming remarkable.

2 is a block diagram showing an RF signal processing circuit according to a preferred embodiment of the present invention.

2, the RF signal processing circuit according to the present embodiment includes an input filter unit 100, an LNA circuit 200, a filter unit 410, an RF amplifier 420, a filter unit 430, A selection unit 440, a demodulator 450, and a switch unit 500.

The input filter unit 100 transmits a signal of a desired band among the RF signals input through the antenna. The LNA circuit 200 amplifies and transmits a signal transmitted from the input filter unit 100. Here, the LNA circuit 200 refers to a circuit also referred to as a low-noise amplifier as described above. The filter units 410 and 430 filter and transmit the signal of the predetermined band. The RF amplifier 420 adjusts the amplification degree of the input signal in response to the automatic gain control signal AGC provided from the signal selector 44.

The signal selection unit 440 selects and delivers an RF signal of a predetermined frequency band among the input signals. The signal selector 440 selects and transmits an RF signal of a predetermined frequency band including a phase locked loop circuit 441, a mixing circuit 442 and an amplifier 443. Recently, And the like.

The modulator 450 is a block that demodulates the signal provided by the signal selector.

 The switch unit 500 includes two diodes D1 and D2 and a switch 510. [ The switch 510 may be a bipolar transistor or a MOS transistor.

In the cable set-top box, since the level of the input RF signal is inputted through the cable, the RF signal can be processed more stably in the case of the television set. However, the area where 256QAM is broadcast in the field is increasing, and the RF signal processing circuit of the Multi Signal 256QAM type due to the instability of the RF signal inputted to the RF signal processing circuit due to the aging of the cable has a problem to be.

The RF signal processing circuit according to the present embodiment can selectively use the LNA circuit 200 by using the switch unit 500 using the transistor attached at the beginning of the RF signal input. In particular, the switch unit 500 is enabled at the time of a field strong signal or at the time of a multi-signal input so that the LNA circuit 200 is not used.

Specifically, the level of the RF signal currently processed by the demodulator 450 is recognized so that the LNA circuit is not used as a software. By doing so, it is possible to maximize the performance of the RF signal processing circuit such as the multi-signal characteristic and the adjoint interference.

When the input RF signal is inputted into the middle or strong state, the voltage level of the automatic gain control signal AGC indicates 2 V or less. When the demodulator 450 receives the automatic gain control signal AGC) (Detect), and transmits the I2C signal to the signal selection unit 440 when the level is below a predetermined level.

The signal selection unit 440 outputs a control signal for activating the switch unit 500, and the switch unit 500 receives the control signal and turns on an internal switch. In this case, the signal selector 440 can output a control signal of +5 V to the switch unit 500. Since the input impedance of the switch unit 500 is lower than the input input impedance of the LNA circuit 200 when the switch unit 500 is activated, the input RF signal is input to the filter unit 410 through the switch unit 500, Lt; / RTI >

When the RF signal is input in the weak electric field state, the switch unit 500 is inactivated and amplified through the LNA circuit 200, and the signal is transmitted to the filter unit 410 at the next stage. Therefore, do.

Since the RF signal processing circuit according to the present embodiment is detoured through the switch unit 500 without passing through the LNA circuit 200 when an RF signal is inputted into the strong electric field state, The signal-sensitive tee characteristic, the interference characteristic, and the MSG characteristic performance are not deteriorated when an RF signal of a strong electric field state is input. Particularly, when the RF signal processing circuit is a cable set-top box, it is possible to effectively prevent the RF processing characteristic from being deteriorated due to unstable RF signal input to the RF signal processing circuit due to aging of the cable.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention. . Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

1 is a block diagram showing an RF signal processing circuit for explaining the present invention.

2 is a block diagram showing an RF signal processing circuit according to a preferred embodiment of the present invention.

Description of the Related Art [0002]

100: input filter unit 200: LNA circuit

410: first phase lookup path 420: RF amplifier

430; Secondary lookup path 440: Signal selector

450: Demodulator 500: Switch part

Claims (13)

delete delete delete delete delete delete delete delete A first filter unit for filtering an RF signal inputted through an antenna; An LNA circuit for amplifying an RF signal having passed through the first filter unit; A switch unit for selectively connecting an input terminal and an output terminal of the LNA circuit so as to be used as a bypass path of the RF signal; An RF amplifier for amplifying an RF signal provided from the LNA circuit in response to an automatic gain control signal; A signal selector configured to include a phase locked loop circuit, a mixing circuit, and an amplifier in one chip, selects a signal of a desired band among signals output from the RF amplifier, and provides an automatic gain control signal to the RF amplifier; And And a demodulator for demodulating and outputting the output of the signal selection unit and sensing a gain of the RF amplifier and transmitting a control signal to the signal selection unit at a predetermined level or less, Wherein the signal selection unit controls an operation of the switch unit based on a level of an automatic gain control signal transmitted from the demodulator, The switch unit includes a first diode, a switch, and a second diode connected in series between an input terminal and an output terminal of the LNA circuit. The switch is made of a transistor, and is enabled when a strong signal or a multi- RF signal processing circuit. delete delete delete 10. The method of claim 9, And a second and third filter units for filtering the RF signals to the input and output terminals of the RF amplifier.

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