KR100194032B1 - Antenna Error Detection Circuit of RF System - Google Patents

Abstract

The present invention relates to an antenna abnormality detection circuit of an RF system, in which an error is detected by checking a gain level of a received signal input from an antenna of an RF system, thereby detecting an abnormality.

To this end, an antenna for receiving a signal propagated to the atmosphere, a buffer for buffering the signal of the antenna, a reference gain level is set, and outputs a normal signal when the received signal gain level is higher than the reference gain level. A decibel meter, a first switch is connected to the decibel meter and the power supply voltage, a second switch is connected between the buffer and the decibel meter input terminal, and the received signal and the power supply voltage are connected to the decibel meter in response to a control signal input. It consists of means to supply.

By the above configuration, it is possible to accurately receive the signal in the RF system and to easily detect the failure.

Description

Antenna Error Detection Circuit of RF System

1 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

12 antenna 14 tuner

16: selector 18: intermediate frequency amplifier

20: image processing circuit 22: CRT

24: sound processing circuit 26: speaker

28,36: buffer 30,32: switch

38: voice amplifier 34: day meter

The present invention relates to an antenna abnormality detection apparatus of a radio frequency (RF) system, and more particularly to a circuit for detecting the presence or absence of an antenna measuring a received RF level.

A typical RF system has an antenna for receiving a signal propagated to the atmosphere, and has an AGC (Automatic Gain Controller) for compensating the gain of the received signal.

In a system such as a TV having the AGC, the gain is automatically increased when the reception signal gain level drops. However, when the reception direction of the antenna is wrong or a problem occurs in the system, accurate reception cannot be performed. In particular, if the reception is not possible due to an error in the antenna (error in the receiving direction or disconnection of the antenna connection line), the state thereof is unknown. The conventional method for detecting an abnormality of such an antenna has a method of checking for an abnormality by measuring an RF level flowing from the antenna using a decibel meter (dB checker).

However, such an antenna abnormality check method should have a decibel meter (dB checker) separately, there was a problem that the expert should check.

Accordingly, an object of the present invention is to provide an antenna abnormality detection circuit of an RF system that checks a reception RF level flowing from an antenna and alarms it when an abnormality occurs.

The present invention for achieving the above object is a normal signal when an antenna for receiving a signal propagated to the atmosphere, a buffer for buffering the signal of the antenna, a reference gain level is set and the received received signal gain level is greater than the reference gain level A decibel meter for outputting a (normal signal), a first switch is connected to the decibel meter and a power supply voltage, and a second switch is connected between the buffer and the decibel meter input terminal, and in response to a control signal input, And means for supplying a power supply voltage to the decibel meter.

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

1 is a circuit diagram according to the present invention, in which an antenna 12 for receiving a signal propagated to the atmosphere, a buffer 28 connected to the antenna 12 and buffering a received signal, and a reference gain level are set. And a decibel meter 34 for outputting a normal signal NS having a predetermined level when the gain level of the received signal is greater than or equal to the reference level, and one end is connected to the output terminal of the buffer 28, and the other end is A first switch 30 connected to the decibel meter 34, a second switch 32 connected to one end of the power supply terminal and the other end connected to the decibel meter 34, and an output of the decibel meter 34. A buffer 36 for buffering and an amplifier 38 for driving the speaker 26 by amplifying the output of the buffer 36. 14 is a tuner, 16 is a channel selector 16 for controlling the tuner, 18 is an intermediate frequency amplifier, 20 is an image processing circuit, and 24 is a sound processing circuit. 1 shows an example in which an antenna abnormality checker of the RF system according to the present invention is coupled to a TV. Hereinafter, an operation example of FIG. 1 according to the present invention will be described in detail.

When the antenna 12 now receives a standby RF signal, it is supplied to the tuner 14 and the buffer 28. As described above, when the control signal CTL is input low while the tuner 14 and the buffer 28 receive the signal propagated in the air, the first and second switches 30 and 32 are turned off. Will be. Accordingly, the output of the buffer 28 is cut off by the first switch 30 off, and the tuner 14 inputs only the frequency of the channel selected by the selector 16 to the intermediate frequency amplifier 18. At this time, the intermediate frequency amplifier 16 amplifies the input signal and inputs it to the image processing circuit 20 and the sound processing circuit 24. As already known, the image processing circuit 20 separates the color C and the luminance signal Y from the input signal and simultaneously synchronizes the image signal of the selected channel on the CTR 22. The sound processing circuit 24 extracts and processes only an audio signal from the output signal of the intermediate frequency amplifier 18 and outputs it to the speaker 26. In the operating state as described above, when a bad display screen or a bad voice signal is generated and the user inputs the switching control signal CTL to the first and second switches 30 and 32, the first and second switches may be used. Switches 30 and 32 are ounce shifted. In this case, the switching control signal CTL may be generated by a switch. As described above, when the first and second switches 30 and 32 are turned on, the power supply voltage Vcc is supplied to the decibel meter 34. Accordingly, the decibel meter 34 is operated by the input of the power supply voltage Vcc to input the output of the buffer 28 through the first switch 30. The signal of the predetermined band is output only when the gain of the received signal of the decibel meter 34 inputting the output of the buffer 28 is equal to or greater than the reference gain set therein. The buffer 36 connected to the output terminal of the decibel meter 34 outputs this to the voice amplifier 38. The voice amplifier 38 amplifies the signal output from the decibel meter 34 into a signal of a predetermined level to drive the speaker 26 to indicate that there is no abnormality in the inflow system of the antenna 12. If the amplified signal is not output from the voice amplifier 38 even though the first and second switches 30 and 32 are switched as described above, the user may have an error in the radio wave reception system of the antenna 12. Judgment should be made and the antenna 12 should be adjusted or inspected. That is, when the direction of the antenna 12 is misaligned, the gain level of the received radio wave is measured to be equal to or less than the reference gain level set in the decibel meter 34. Then, an abnormal signal is output from the decibel meter 34 and the speaker 26 produces a corresponding sound. The user may then determine that the antenna is abnormal. When the speaker 26 is driven and outputs a normal sound, it is determined that an abnormality has occurred in the RF system, and the search and repair is performed.

As described above, by adding the RF reception gain level checking function in the RF system to identify the source (antenna or system) of signal abnormality, it is possible to easily identify the failure of the system and at the same time, the user is unable to receive it by the antenna. You can easily cope.

Claims (2)

An RF signal for reproducing an RF signal by signal-processing an antenna 12 for receiving a signal propagated to the atmosphere, an output of the tuner 14 and an output of the tuner 14 for inputting a signal through the antenna 12. In an antenna abnormality detection circuit of an RF system having a regenerative output means, an input terminal is connected to the antenna 12 and is received by the antenna 12 operated by a power supply voltage (Vcc) input. It is connected between the decibel meter 34 which outputs a normal sound when the signal gain level is above a predetermined level, and the power supply voltage Vcc and the power supply voltage input terminal of the decibel meter 34, and the power supply in response to a control signal input. A switch 32 for inputting the voltage Vcc to the decibel meter 34, the decibel meter 34, and the RF signal reproducing output means are amplified and output to the reproducing output means. doing Circuit comprising the steady state signal output means (36,38). The antenna 12 of claim 1, wherein the antenna 12 is connected between the antenna 12 and the decibel meter 34, and outputs the output of the buffer 28 in response to a control signal input to the switch 32. And a switch (30) for inputting a signal input to the decibel meter (34).