KR100986753B1 - The system for detecting pulse singnal and the method thereof - Google Patents

Abstract

PURPOSE: A system for detecting a pulse signal and a method thereof are provided to reduce the occupancy area of a circuit by generating a pulse signal by using a digital video signal. CONSTITUTION: A plurality of ADCs(120) changes a plurality of analog signal into a plurality of digital video signal corresponding to each channel. A plurality of comparison units(130) compares digital signals with a predetermined threshold value. A pulse signal generator(140) generates a pulse detection signal according to a comparison result.

Description

Pulse detection circuit and its method {THE SYSTEM FOR DETECTING PULSE SINGNAL AND THE METHOD THEREOF}

The present invention relates to a pulse sensing circuit and a method thereof, and more particularly, to a pulse sensing circuit and a method using digital logic.

In general, modern data transmission / reception methods are mostly performed by radio frequency (RF) signals. Communication devices such as mobile phones and walkie-talkies convert the above information into RF signals to transmit and receive desired information over a long distance, and then transmit and receive.

Therefore, the method of determining the location of a signal source that generates an RF signal at an arbitrary point in a large area includes installing several antennas capable of receiving the RF signals, and then analyzing the direction in which the RF signal is received. Estimate the position with. Recently, research on such a location tracking system has been actively conducted.

In addition, the method of detecting the direction of the RF signal source is to determine the location of the black box of the aircraft, to find a signal source using a commercially available frequency band without permission, or to drift in the event of a marine accident and The scope of application is very wide in finding submarine signal sources.

On the other hand, when the receiver receives the RF signal in order to find a signal source in this way, it generates a video signal corresponding to the RF signal, and generates a signal indicating that the signal is input from the generated video signal. At this time, the existing circuit is composed of an analog amplifier to generate a signal indicating that the signal is input. However, if the circuits are composed of analog circuits, the circuit design and fabrication is difficult, and further difficulties arise in error correction.

Thus, it is necessary to simplify the circuit.

The present invention provides a pulse sensing circuit that can be miniaturized, lightweight, and low power by designing circuits using digital logic to solve the above problems.

According to the present invention for achieving the above object, the pulse sensing circuit, ADC for converting a plurality of analog video signals corresponding to the signals of different channels into a plurality of digital video signals; A comparison unit comparing each of the plurality of digital video signals with a preset threshold value; And a pulse signal generator configured to generate a pulse detection signal when at least one of the plurality of digital video signals is greater than the predetermined threshold value.

In addition, the pulse signal generator, it is preferable that the amplitude of the pulse detection signal is the same as the size of the digital video signal having the largest of the digital video signal larger than the predetermined threshold value.

In addition, a clock signal generator for generating a clock signal; And a synchronizer configured to synchronize the pulse detection signal based on the clock signal.

The apparatus may further include a video signal generator configured to generate an analog video signal corresponding to each of the plurality of signals when the plurality of signals are input through the different channels.

On the other hand, according to the present invention for achieving the above object, a method for generating a pulse detection signal, converting a plurality of analog video signals corresponding to signals of different channels into a plurality of digital video signals; Comparing each of the plurality of digital video signals with a preset threshold; And generating a pulse detection signal when at least one of the plurality of digital video signals is greater than a preset threshold.

In the pulse detection signal generating step, it is preferable that the amplitude of the pulse detection signal is equal to the size of the digital video signal having the largest magnitude among the digital video signals larger than the predetermined threshold value.

The method may further include synchronizing the pulse detection signal based on a clock signal.

According to the present invention, since a video signal corresponding to the received RF signal is directly converted into a digital signal and a pulse detection signal is generated using only the digital video signal, the space occupied by the circuit is considerably reduced, and error correction and circuit verification are easy. Do. In addition, since the pulse sensing circuit can be composed of a single chip, it is possible to reduce the power and weight.

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

1 is a block diagram of a pulse sensing circuit according to an embodiment of the present invention.

As shown in FIG. 1, the pulse detection circuit includes a video signal generator 110, an analog-to-digital converter (ADC) 120, a comparator 130, a pulse signal generator 140, The synchronization unit 150 includes a determination unit 160 and a clock generator 170.

When the RF signal is received through the channel, the video signal generator 110 generates a video signal corresponding to the RF signal (especially microwave). In the present embodiment, an RF signal is received through the first to fourth channels, and each of the first to fourth video signal generators 112, 114, 116, and 118 is an RF signal received through the first to fourth channels. Generate the first to fourth analog video signals corresponding to. Here, the analog video signal means a pulse signal.

The ADC 120 converts the analog video signal generated by the video generator into a digital video signal. That is, each of the first to fourth ADCs 122, 124, 126, and 128 converts each of the first to fourth analog video signals into first to fourth digital video signals, and applies them to the comparator 130. Here, the digital video signal means a signal in which the pulse signal is digitized.

The comparator 130 compares the input digital video signal with a specific threshold value and applies the result to the pulse signal generator 140. In detail, each of the first to fourth comparators 132, 134, 136, and 138 receives the first to fourth digital video signals from the first to fourth ADCs 122, 124, 126, and 128, and receives a specific threshold. The result is compared with the value and applied to the pulse signal generator 140. The first to fourth comparators 132, 134, 136, and 138 output a '0' signal when the input digital video signal is smaller than the threshold, and when the input digital video signal is greater than or equal to the threshold, It is preferable to perform the same method as outputting the '1' signal.

For example, suppose that the digital video signal input to the first to third comparators 132, 134, and 136 is greater than the threshold, and the digital video signal input to the fourth comparator 138 is smaller than the threshold. The first to third comparators output the '1' signal, and the fourth comparator outputs the '0' signal.

The specific thresholds set in the first to fourth comparators 132, 134, 136, and 138 may be the same or different. Since the RF signal received from the same signal source may be received at different times depending on the position of the antenna, the specific threshold set in the first to fourth comparators may be set as a function of time. Thus, the threshold value set in the first to fourth comparators may be set to decrease in proportion to the input time of the signal input to the first to fourth comparators. In addition, the above-mentioned proportionality is preferably the same as the loss of signal due to the late reception of the RF signal to the antenna.

The pulse signal generator 140 determines that at least one of the first to fourth digital video signals is greater than or equal to a threshold value using the results output from the first to fourth comparators 132, 134, 136, and 138. When the pulse detection signal is generated, it is output. That is, the pulse signal generator converts the digital video signal back into a pulse signal.

For example, the pulse signal generator 140 may generate a pulse detection signal based on a result output from the first to third ADCs 122, 124, and 126, and the amplitude of the pulse detection signal may be the first. It is preferable that the magnitude of the signal output from the ADCs to the third ADCs 122, 124, and 126 is the same as that of the largest signal.

The synchronizer 150 synchronizes the pulse detection signal output from the pulse signal generator 140. In detail, the synchronizer 150 generates a synchronized pulse signal using the clock signal generated by the clock generator 170. In this case, the synchronization unit may be implemented as a D-type flip-flop.

The determination unit 160 determines whether the synchronized pulse detection signal output from the synchronization 150 is valid and outputs only the valid pulse detection signal. For example, the determination unit 160 determines that a signal having a predetermined width or less among the pulse detection signals is not valid and outputs only a pulse detection signal having a predetermined width.

The valid pulse detection signal is then used to detect the direction of the signal source.

2 is a flow chart provided in the process of generating a pulse detection signal according to an embodiment of the present invention.

First, when RF signals are received through a plurality of channels (S210-Y), the video signal generator 110 generates analog video signals corresponding to respective RF signals of the plurality of channels (S220).

The ADC 120 converts each of the plurality of analog video signals into a digital video signal (S230). At this time, the converted digital video signal includes signal size information and width information.

Meanwhile, the comparison unit 130 compares each of the magnitudes of the digital video signal with a preset threshold value (S240). Since the comparator 130 compares the digital video signal with a threshold, there is an advantage that the signal can be compared more easily than using an analog video signal.

If it is determined that the magnitude of the digital video signal is greater than or equal to a preset threshold (S240-Y), the pulse signal generator 140 generates a pulse detection signal (S250). When the size of at least one digital video signal of the plurality of digital video signals is greater than or equal to a threshold value, the pulse signal generator 140 generates a pulse detection signal, the amplitude of which is the largest of the digital video signals. It is desirable to match the size. Of course, the magnitude of the pulse detection signal may vary by a designer or the like.

Then, the synchronization unit 150 synchronizes the pulse detection signal to the receiver based on the clock signal (S260).

Finally, the determination unit 160 determines whether the synchronized pulse detection signal is valid (S270), and outputs only the valid pulse detection signal (S280). In this case, the validity of the pulse detection signal may be determined by the width of the pulse detection signal and other exceptional conditions. Of course, the criterion for the validity may be changed by a designer.

By converting the video signal corresponding to the received RF signal directly into a digital signal and generating a pulse detection signal using only the digital video signal, the space taken up by the circuit is considerably reduced, and error correction and circuit verification are easy. Since the circuit can be composed of a single chip, low power and light weight are possible.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is a block diagram of a pulse sensing circuit according to an embodiment of the present invention;

2 is a flow chart provided in the process of generating a pulse detection signal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: video signal generator 120: ADC

130: comparison unit 140: pulse signal generation unit

150: synchronization unit 160: determination unit

170: clock generator

Claims (8)

A plurality of ADCs for converting a plurality of analog video signals corresponding to signals of different channels into a plurality of digital video signals; A plurality of comparison units for comparing each of the plurality of digital video signals with a preset threshold value; And And a pulse signal generator configured to generate a pulse detection signal when at least one of the plurality of digital video signals is greater than the predetermined threshold value. And a predetermined threshold value set in the plurality of comparators is inversely proportional to an input time input to each of the plurality of comparators of each of the plurality of digital video signals. The method of claim 1, The pulse signal generator, And the amplitude of the pulse detection signal is equal to the size of the digital video signal having the largest magnitude among the digital video signals larger than the preset threshold. 3. The method of claim 2, A clock signal generator for generating a clock signal; And And a synchronization unit for synchronizing the pulse detection signal based on the clock signal. The method of claim 1, And a plurality of video signal generators that generate analog video signals corresponding to each of the plurality of signals when the plurality of signals are input through the different channels. delete Converting a plurality of analog video signals corresponding to signals of different channels into a plurality of digital video signals by a plurality of ADCs; Comparing each of the plurality of digital video signals with the preset threshold by a plurality of comparators for comparing the input digital video signal with a preset threshold; And Generating a pulse detection signal when at least one of the plurality of digital video signals is greater than a preset threshold; The predetermined threshold value set in the plurality of comparators is a function of time and is inversely proportional to an input time input to each of the plurality of comparators of each of the plurality of digital video signals. The method of claim 6, The pulse detection signal generation step, The amplitude of the pulse detection signal is a pulse detection signal generation method, characterized in that the same as the size of the digital video signal having the largest of the digital video signal larger than the predetermined threshold value. The method of claim 6, And synchronizing the pulse detection signal based on a clock signal.

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