KR200295550Y1 - Radio Frequency Amplification Circuit - Google Patents

Abstract

The present invention amplifies the RF signal input through the FM tuner when receiving the FM multicast, and shaping the amplified signal with a filter strong against noise to obtain a high quality signal It is about.

The RF amplification circuit according to the present invention is a radio receiver, an NPN transistor connected to an output terminal of an FM tuner and amplifying a weak RF signal input through an FM tuner, and an amplified RF signal coming out of a collector stage of the NPN transistor. RF amplification unit is made of a high-frequency ceramic filter for shaping (shaping) to the required frequency band.

Description

RF Frequency Amplification Circuit

The present invention relates to an RF (Radio Frequency) amplification circuit used in a car audio (DA) and DARC (DAta Radio Channel) terminal, and more specifically, RF input through an FM tuner (Tuner) when receiving FM multicast The present invention relates to an RF amplifying circuit that can obtain a good signal by amplifying a signal.

In general, a car radio receives a broadcast signal transmitted from a broadcasting station through an antenna installed in a vehicle body, and when tuned to a tuner, the signal received through the antenna is tuned to a corresponding broadcast frequency and provided to a signal processor. In addition, the signal processor demodulates the original audio signal from the RF signal, which is tuned through a tuner, and outputs the original audio signal to the speaker so that the driver can tune to a desired broadcast signal.

For reference, DARC (DAta Radio Channel) is a kind of FM supplementary broadcasting service. It carries digital data on the spare part of FM frequency and simultaneously broadcasts news, stocks, weather, traffic information and DGPS (Differential Global Positioning). It is a system that provides various additional services such as System).

Referring to FIG. 1, the configuration of the conventional radio receiver is as follows.

Receives an RF signal of a broadcasting station through a receiving antenna (ANT), tunes the received RF signal to a selected broadcasting channel, and provides the signal processing unit 2 to an FM tuner 1 and through the FM tuner 1. And a signal processor (2) for processing the input RF signal and classifying it into a voice signal and digital information and providing it to the microprocessor (3). It consists of a microprocessor (3) for controlling to be output to the speaker (SP1) (SP2) through the codec (4).

The radio receiver having the above-described configuration classifies and processes the RF signal received through the FM tuner 1 into a voice signal and digital information in the signal processing unit 2 and provides the same to the microprocessor 3. The driver can listen to the broadcast signal by controlling the voice signal input in (3) to be output to the speaker SP1 or SP2 via the audio codec 4.

However, in the conventional radio receiver as described above, the RF signal received through the FM tuner is weak, and the signal-to-noise ratio of the received RF signal is relatively large, about 45 dB, so that the sound quality due to noise is distorted. There is a problem that causes discomfort.

Accordingly, an object of the present invention is to amplify an RF signal input through an FM tuner when receiving an FM multiple broadcast, and to obtain a good signal by shaping the amplified signal with a filter resistant to noise. An RF amplifier circuit is provided.

In order to achieve the above object, the RF amplification circuit according to the present invention is a radio receiver, connected to an output terminal of the FM tuner NPN transistor for amplifying a weak RF signal input through the FM tuner, and the NPN transistor An RF amplification unit including a high frequency ceramic filter for shaping the amplified RF signal from the collector stage according to a required frequency band is provided.

1 is a block diagram showing the configuration of a conventional radio receiver.

Figure 2 is a block diagram showing the configuration of a radio receiver including an RF amplifier circuit according to the present invention.

3 is a detailed circuit diagram of the RF amplifier of FIG.

Explanation of symbols on the main parts of the drawings

10: FM tuner 20: RF amplifier

21 NPN transistor 22 Ceramic filter for high frequency

30: signal processor 40: microprocessor

50: audio codec

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

2 is a block diagram showing the configuration of a radio receiver including an RF amplifying circuit according to the present invention, Figure 3 is a detailed circuit diagram of the RF amplifier of FIG.

Referring to these drawings, the radio receiver according to the present invention selects a broadcast signal of a broadcasting station received through a reception antenna ANT according to a frequency as shown in FIG. RF amplification unit 20, which is connected to the output of the FM tuner 10, amplifying and filtering the RF signal input from the FM tuner 10, and outputs the RF tuner 10, and RF The signal processing unit 30 processes the amplified and filtered signal through the amplifier 20, classifies the audio signal into digital information, and outputs the audio signal. It is composed of a microprocessor 40 for controlling to be output to the speaker (SP1) (SP2) through the Audio Codec (50).

The FM tuner 10 receives an RF signal of a broadcasting station through a receiving antenna ANT, converts the received RF signal into a broadcasting channel selected by a driver, and provides a frequency conversion to the RF amplifier 20.

As shown in FIG. 3, the RF amplifier 20 is connected to an output terminal of the FM tuner 10 and an NPN transistor 21 for amplifying a weak RF signal input through the FM tuner 10 and the NPN. A high frequency ceramic filter 22 shaping the amplified RF signal from the collector stage of the transistor 21 according to the required frequency band.

The frequency-converted RF signal input to the RF amplifier 20 is amplified by the NPN transistor 21 connected to the output terminal of the FM tuner 10, and then the ceramic filter 22 connected to the collector terminal of the NPN transistor 21. By passing through), a signal suitable for the required frequency band is input to the signal processing unit 30.

The signal processor 30 processes the amplified and filtered signal through the RF amplifier 20 to classify the signal into voice signals and digital information and output them to the microprocessor 40.

The microprocessor 40 controls the RF signals, which are classified into voice signals and digital information, respectively, to be output to the speakers SP1 and SP2 through the audio codec 50.

Referring to the accompanying drawings, the effects of the RF amplifier circuit having the above configuration will be described.

First, when a broadcast signal transmitted from a broadcasting station through the reception antenna ANT is received through the FM tuner 10, the FM tuner 10 converts the frequency of the received signal into a broadcast channel selected by the driver. Output to RF amplifier 20.

The RF amplifier 20 receiving the signal output from the FM tuner 10 amplifies the weak RF signal input through the FM tuner 10 using the NPN transistor 21, and amplifies the amplified signal at a high frequency. Shaping is performed according to the required frequency band using the ceramic filter 22 for the output to the signal processor 30.

The signal processor 30 receiving the signal amplified and filtered through the RF amplifier 20 processes the input signal, classifies it into voice signals and digital information, and outputs the same to the microprocessor 40.

The microprocessor 40 outputs an RF signal, which is classified into a voice signal and digital information, respectively, by the signal processor 30 through the audio codec 50 to the speaker SP1 and SP2.

Therefore, the RF amplification circuit according to the present invention by connecting the RF amplifier 20 for amplifying and filtering the weak RF signal input through the FM tuner 10 between the FM tuner 10 and the signal processor 30. A good signal with a signal-to-noise ratio of 15 dB or less can be obtained.

What has been described above is just one embodiment of the RF amplification circuit according to the present invention, anyone of ordinary skill in the art belongs to the technical spirit of the present invention to the extent that various changes can be carried out Will be said.

As described above, the RF amplification circuit according to the present invention amplifies the RF signal input through the FM tuner when receiving the FM multicast, and shaping the amplified signal with a filter resistant to noise causes the driver There is an effect that allows you to listen to a good signal without.

Claims (1)

In a radio receiver, NPN transistor connected to the output of the FM tuner to amplify the weak RF signal input through the FM tuner, and a high frequency ceramic for shaping the amplified RF signal from the collector of the NPN transistor in accordance with the required frequency band RF amplification circuit characterized in that the filter provided with an RF amplifier.