KR20010045460A - Frequency detector in raido altimeter - Google Patents

Abstract

PURPOSE: A device for detecting a specific frequency band of a wavemeter is provided to have the function of excellent detecting even about the small signal by detecting if there is a signal in the specific frequency band or not with adjusting the reference signal about the input signal variably. CONSTITUTION: A device for detecting a specific frequency band of a wavemeter includes a band pass filter instrument(11), the first envelop detecting instrument(13), a voltage distributing instrument(12), the second envelop detecting instrument(16) and a comparing instrument(18). The band pass filter instrument(11) filters the specific frequency band about the input signal. The first envelop detecting instrument(13) carries out the envelop detecting from the output of the band pass filter instrument(11). The voltage distributing instrument(12) distributes the voltage of the input signal. The second envelop detecting instrument(16) carries out the envelop detecting from the output of the voltage distributing instrument(12). The comparing instrument(18) detects if there is a signal in the output of the first envelop detecting instrument(13) with making the output of the second envelop detecting instrument(16) the reference signal or not.

Description

Frequency detector in specific radio altimeter {Frequency detector in raido altimeter}

The present invention relates to an apparatus for detecting a specific frequency band of a radio altimeter, and more particularly, to an apparatus for detecting a specific frequency band of a radio altimeter, which is excellent in signal detection even with a small input signal, and which can detect a stable signal with respect to a noise level. It is about.

The radio altimeter, which determines the specific frequency band (20KHz ~ 30KHz) in the beat signal due to its operation characteristics, has a great influence on the main performance of the radio altimeter. However, the specific frequency band detection apparatus of the conventional radio altimeter has a problem in terms of stability against noise and low discrimination power for a small input signal.

Next, the problem will be described in detail with reference to a specific frequency band detection apparatus of a conventional radio altimeter.

1 is a block diagram showing a specific frequency band detection apparatus of a conventional radio altimeter.

Conventionally, an apparatus for detecting a specific frequency band of a radio altimeter includes a band pass filter (1) for filtering only a signal of a predetermined band to find a frequency band between 20 kHz and 30 kHz with respect to an input signal, and an output of the band pass filter (1). And a diode (3) for detecting only positive signals.

In addition, in the related art, a specific frequency band detection device of a radio altimeter has a low pass filter (2) for passing a low frequency signal so as to meet a frequency response curve of the band pass filter (1) at a frequency of 20 kHz and 30 kHz with respect to an input signal. And a diode (4) for detecting only negative signals at the output of the low pass filter (2).

The output of each of the diodes 3 and 4 is input to the positive terminal of the comparator 8 after the average value is taken by the resistors R1 and R2 and the capacitor C1. A reference signal is input to the negative terminal of the comparator 8. That is, the comparator 8 compares the input signal of the (+) terminal with respect to the reference signal, and detects the presence or absence of the signal in a specific frequency band.

Next, the operation of the specific frequency band detection apparatus of the conventional radio altimeter having the above configuration will be described in detail.

The bandpass filter 1 has a frequency response characteristic as shown in FIG. 2 in order to find only a frequency band between 20 kHz and 30 kHz in the input signal.

The low pass filter 2 is a first-pass passive filter composed of a resistor and a capacitor, and the frequency response curve of the band pass filter 1 meets at a frequency of 20 kHz and 30 kHz as shown in FIG. It has a frequency response characteristic.

The output of the bandpass filter 1 has a positive envelope detection output via the diode 3, and the output of the lowpass filter 2 is negative while passing through the diode 4. Has an envelope detection output.

As shown in the frequency response characteristic curve of FIG. 2, the outputs of the diodes 3 and 4 output an input signal having a frequency smaller than 20 kHz or greater than 30 kHz to the band pass filter 1 and the low pass filter 2. When it is input, the absolute value of the low pass filter 2 is large. When the input signal is between 20 kHz and 30 kHz, the absolute value of the band pass filter 1 becomes large.

The envelope detection output of each of the diodes 3 and 4 is calculated as an average value by the resistors R1 and R3 and the capacitor C1, and is input to the (+) terminal of the comparator 8.

Therefore, the comparator 8 outputs a positive value at a frequency between 20 kHz and 30 kHz, and a negative value at other frequencies. That is, if the reference signal of the (-) terminal of the comparator 8 is 0, the output of the comparator 8 is in a high logic state only when the input frequency is between 20 kHz and 30 kHz so that the presence or absence of signal presence in a specific frequency band It becomes possible.

That is, the specific frequency band detection apparatus of the conventional radio altimeter must set the reference signal of the comparator 8 to " 0 " in order to accurately discriminate whether the frequency band of the input signal is between 20 kHz and 30 kHz. However, when the magnitude of the input signal is a very small noise level, the outputs of the bandpass filter 1 and the lowpass filter 2 are both close to "0". At this time, the positive terminal and the negative terminal of the comparator 8 are negative. The input signals of the terminals are all "0". Therefore, the output of the comparator 8 becomes unstable. Therefore, in order to make the output of the comparator 8 with respect to the noise signal low, a constant offset value should be applied to the negative input of the comparator 8.

However, since the magnitude of the positive input signal of the comparator 8 changes as the magnitudes of the band pass filter 1 and the low pass filter 2 change according to the magnitude of the input signal, the reference signal of the comparator 8 changes. If the offset value is constant, a problem occurs in that a specific frequency band cannot be detected for an input signal corresponding to the offset value or less.

Accordingly, an object of the present invention is to provide a device for detecting a specific frequency band of an altimeter, which can detect whether a signal exists in a specific frequency band even for a small input signal.

1 is a block diagram of a specific frequency band detection apparatus of a radio altimeter according to the prior art,

2 is a frequency response characteristic diagram of a prior art;

3 is a block diagram of a device for detecting a specific frequency band of the radio altimeter according to the present invention;

4 is a detailed configuration diagram of a band pass filter;

5 is a frequency response characteristic diagram of the present invention;

6 to 10 are output waveform diagrams of respective parts of the input signal.

Explanation of symbols on the main parts of the drawings

11: band pass filter 12: input signal splitter

13,16: envelope detector 18: comparator

According to an aspect of the present invention, there is provided a device for detecting a specific frequency band of an altimeter, comprising: band pass filter means for filtering a specific frequency band with respect to an input signal; First envelope detection means for performing envelope detection from an output of said bandpass filter means; Voltage distribution means for distributing the voltage of the input signal; Second envelope detection means for performing envelope detection from an output of said voltage distribution means; And comparing means for detecting the presence or absence of a signal at the output of the first envelope detecting means, using the output of the second envelope detecting means as a reference signal.

The first and second envelope detecting means of the present invention comprises: a diode for detecting only a positive signal from an input signal; It characterized in that it comprises a smoothing circuit for converting the signal of the diode into a direct current.

The time constant of the smoothing circuit of the second envelope detecting means of the present invention is set smaller than the time constant of the smoothing circuit of the first envelope detecting means, and the second envelope detecting means reacts faster than the first envelope detecting means. It is done.

The present invention includes a discharge resistance for discharging each of the smoothing circuits at an output terminal of the first and second envelope detection means, wherein the discharge resistance value of the second envelope detection means is smaller than the discharge resistance value of the first envelope detection means. It is characterized by being largely set.

Hereinafter, an apparatus for detecting a specific frequency band of a radio altimeter according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a device for detecting a specific frequency band of the radio altimeter according to the present invention.

The apparatus for detecting a specific frequency band of the radio altimeter of the present invention includes a band pass filter 11 for filtering only a signal of a predetermined band to find a frequency band between 20 kHz and 30 kHz with respect to an input signal.

As shown in FIG. 4, the band pass filter 11 is composed of an active filter composed of an OP-AMP. The configuration includes a resistor R21 connected to an input terminal, a capacitor C21 connected to the other side of the resistor R21, a capacitor C22, and a resistor R23. The resistor R23 is connected to a ground potential, and the other side of the capacitor C22 is connected to an inverting terminal (−) of the OP-AMP 20. The non-inverting terminal (+) of the OP-AMP 20 is connected to the ground potential. The output terminal of the OP-AMP 20 is connected to the inverting terminal (−) through a resistor R22 and is also connected to the capacitor C21.

In addition, the present invention includes an envelope detector 13 that performs envelope detection of an AC signal from the output of the band pass filter 11. The envelope detector 13 is composed of a diode CR1 and a first order low pass filter composed of a resistor R13 and a capacitor C11. The output of the envelope detector 13 is input to the positive terminal of the comparator 18 through the resistor R15.

Further, the apparatus for detecting a specific frequency band of the radio altimeter of the present invention includes an input signal divider 12 composed of resistors R11 and R12 for distributing the input signal. The output of the input signal splitter 12 is input to another envelope detector 16. The envelope detector 16 is composed of a diode CR2 and a first order low pass filter composed of a resistor R14 and a capacitor C12. The output of the envelope detector 16 is input to the negative terminal of the comparator 18 through the resistor R16.

In this case, the resistor R14 sets the resistance value smaller than that of the resistor R13 so that the envelope detector 16 of the input signal divider 12 is faster than the envelope detector 13 of the bandpass filter 11. Let it react. Therefore, although the frequency of the input signal has a frequency between 20 kHz and 30 kHz, in the case of a short interval signal is considered as noise so that the signal detection is not made.

In addition, the resistance R15 sets the resistance value smaller than the resistance R16. Therefore, the time for discharging the output of the envelope detector 16 of the input signal splitter 12 is greater than the time for discharging the output of the envelope detector 13 of the bandpass filter 11, so that the noise signal is always The output of the input signal splitter 12 is made large.

Next will be described in detail the operation of the specific frequency band detection apparatus of the radio altimeter according to the present invention having the above configuration.

The band pass filter 11 filters only a frequency band between 20 kHz and 30 kHz from a signal input to the second active filter using the OP-AMP 20, and has a frequency response characteristic as shown in FIG. The output of the bandpass filter 11 is input to the envelope detector 13.

The signal input to the envelope detector 13 outputs only a positive signal while passing through the diode CR1, and this signal is converted into a DC voltage by charge / discharge operation of the resistor R13 and the capacitor C11. Is converted and output. The output of the envelope detector 13 is input to the positive terminal of the comparator 18 through a resistor R15.

On the other hand, the input signal divider 12 divides and outputs the voltage of the input signal by the voltage divider resistors R11 and R12. Frequency response characteristics of the input signal splitter 12 are shown in FIG.

The output of the input signal splitter 12 is input to an envelope detector 16, and the envelope detector 16 detects and outputs an envelope of the voltage-divided signal. The output of the envelope detector 16 is input to the negative terminal of the comparator 18 through a resistor R16.

Therefore, the comparator 18 divides the input signal and inputs the envelope detection signal detected from the voltage-divided signal as a negative terminal, and uses it as a reference signal. Accordingly, the reference signal of the comparator 18 is always adjusted and set to the input signal. That is, since the reference signal is set variably with respect to the input signal at all times, the comparator 18 can always obtain a constant result regardless of the magnitude of the input signal.

In particular, since the resistance R14 is set smaller than the resistance R13, the envelope detector 16 of the input signal divider 12 is more than the envelope detector 13 of the bandpass filter 11. Reacts quickly Therefore, although the frequency of the input signal has a frequency between 20 kHz and 30 kHz, the signal is not detected in the case of a short interval signal considering the noise.

Since the resistor R15 is set to have a smaller resistance value than the resistor R16, the time period during which the output of the envelope detector 16 of the input signal splitter 12 is discharged is increased. The output of the envelope detector 13 is larger than the time for discharging, so that the output of the input signal divider 12 is always large with respect to the noise signal, so that unnecessary signal detection is not performed.

6 shows a signal waveform diagram in which the magnitude of the input signal is 10 and the frequency is 25 kHz. When such an input signal is input to the specific frequency band detection apparatus of the radio altimeter of the present invention, the band pass filter 11 filters and outputs only signals of a predetermined band as shown in FIG. When the signal is input to the envelope detector 13, only the positive signal is detected by the diode CR1, and the signal is output as shown in FIG. 7 by the charge / discharge operation of the capacitor C11. do.

On the other hand, when the signal of FIG. 6 is input, the input signal divider 12 divides and outputs the voltage of the signal as shown in FIG. When the signal is input to the envelope detector 16, only a positive signal is detected by the diode CR2, and the signal is output as shown in FIG. 8 by the charge / discharge operation of the capacitor C12. do.

That is, the output signal of the input signal divider 12 is relatively small compared to the output signal of the band pass filter 11, and likewise of the envelope detector 16 detected from the output of the input signal divider 12. The output is relatively small compared with the output of the envelope detector 13 detected from the output of the bandpass filter 11.

FIG. 9 shows the output signal (K) of the envelope detector 13 of the bandpass filter 11 and the output signal K of the envelope detector 16 of the input signal divider 12 together. The comparison is made easy.

The output of the envelope detector 13 of the band pass filter 11 is discharged through the resistor R15 and input to the (+) terminal of the comparator 18. The output of the envelope detector 16 of the input signal splitter 12 is discharged through the resistor R16 and input to the negative terminal of the comparator 18. The comparator 18 outputs a signal for a difference component between two input signals as shown in FIG. 9, and detects a signal of a specific frequency band existing between 20 kHz and 30 kHz.

10 shows a specific frequency band detection device of the present invention as well as a small input signal (wave) having a size of 200 mV and a frequency of 25 kHz. In other words, it can be seen that the present invention works well for a small input signal.

As described above, the conventional specific frequency band detecting apparatus has an offset value in the reference signal of the comparator, and thus, when the offset is constant, there is a problem that the small input signal cannot be detected. Therefore, in order to solve this problem, the present invention allows the reference signal of the comparator to be variably adjusted according to the input signal, so that a specific frequency band can be found even for a small signal up to 200 mV. In addition, the present invention is a useful invention that can be widely used in the field of communication to find a specific frequency band because it is excellent in the stability of the signal of the noise level.

Claims (4)

Band pass filter means for filtering a specific frequency band with respect to the input signal; First envelope detection means for performing envelope detection from an output of said bandpass filter means; Voltage distribution means for distributing the voltage of the input signal; Second envelope detection means for performing envelope detection from an output of said voltage distribution means; And a comparison means for detecting the presence or absence of a signal at the output of said first envelope detection means, using the output of said second envelope detection means as a reference signal. The method of claim 1 wherein: The first and second envelope detection means, A diode for detecting only a positive signal from an input signal; Apparatus for detecting a specific frequency band of the radio altimeter comprising a smoothing circuit for converting the signal of the diode into a direct current. The method of claim 2 wherein: The time constant of the smoothing circuit of the second envelope detecting means is set smaller than the time constant of the smoothing circuit of the first envelope detecting means, and the second envelope detecting means reacts faster than the first envelope detecting means. Special frequency band detection device of altimeter. The method of claim 3 wherein: A discharge resistance for discharging each of the smoothing circuits is provided at an output terminal of the first and second envelope detection means, and a discharge resistance value of the second envelope detection means is set larger than a discharge resistance value of the first envelope detection means. Apparatus for detecting a specific frequency band of the radio wave altitude, characterized in that.