KR0181384B1 - Regenerative apparatus of cw signal - Google Patents

Abstract

The present invention is to provide a CW signal reproducing apparatus which allows the present signal to be listened to at the original frequency at the time of recording, regardless of the change of the reproducing speed. By connecting a balance modulator that is a carrier signal, the final output of the recorder is a modulated signal so that one side wave that can restore the original frequency signal at the time of recording is obtained regardless of the playback speed of the CW signal. Is modulated into a carrier signal of the variable frequency.

Description

Regeneration device of CW signal

1 is a circuit diagram of a CW signal reproducing apparatus according to the present invention.

2A to 2C are waveform diagrams showing signal changes when a predetermined modulation signal is modulated into a carrier signal in the playback apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

D _{1 to} D ₄ : diodes T ₁ and T ₂ : transformer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for reproducing a CW signal (morse signal), and more particularly, to an apparatus for reproducing a CW signal for reproducing at the original frequency at the time of recording, regardless of a change in the reproduction speed.

Commonly used wired / wireless communication methods include a method of directly amplitude-modulating or frequency-modulating a signal such as voice, and encoding a signal such as voice and performing straight modulation, frequency, or phase modulation of the encoded signal. And a CW signal (Morse code communication), which communicates by modulating and combining radio signals on a radio frequency and intermittently intercepting frequencies according to the encoded signal.

Among these communication methods, the CW signal communication method is still widely used for wireless communication due to the simple configuration of the equipment used and the high efficiency of using the frequency.

In addition, in order to use the CW signal communication method, the operator's skilled function is required, and in order to acquire the skilled function, the CW signal recorded in the recorder is reproduced while changing randomly from a low speed to a high speed. You have to practice listening repeatedly.

At this time, when the playback speed is slowed down, the original recorded frequency is changed and outputted at a lower frequency in proportion to the slowed down speed, and when the playback speed is increased, it is also changed at a high frequency in proportion to the speed and outputted.

For example, if the CW signal is recorded at 100 baud rate and listened to at 25 baud, the 1000 Hz frequency interruption will be heard at 250 Hz frequency interruption. It becomes awkward and difficult to identify.

Similarly, when the recorded contents are reproduced and listened at 400 baud rate, the intermittent frequency is changed to 4000 Hz to be reproduced, and thus the listening and discriminating powers are also reduced. There was a problem that the listening and discernment is lowered significantly lower or higher.

Accordingly, the present invention has been invented in view of such a conventional problem, and it is an object of the present invention to provide a CW signal reproducing apparatus capable of reconstructing and listening to an originally recorded frequency regardless of a change in reproduction speed.

In order to achieve the object of the present invention, a CW signal reproducing apparatus connects a balanced modulator having a variable frequency as a carrier signal between a final output terminal of a conventional reproducing apparatus and a speaker, so that the CW signal is reproduced regardless of the reproduction speed of the CW signal. The final output of the recorder is to be a modulated signal and modulated to the carrier signal having the variable frequency so that the final output of the recorder can obtain a sideband to recover the signal having the original frequency of have.

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

Having a bridge of four diodes (D ₁ ~D ₄₎ input and the output transformer (T _1, T ₂₎ being connected respectively to the input side and the output side of the bridge circuit formed by the connection, as shown in FIG. 1, and output terminals (C, D) of the input transformer (T ₁₎ is connected to the recorder speaker, wherein the input transformer (T ₁₎ and the output transformer, each intermediate tap of the _{(T 2) (M, N} ) has a frequency which varies The carrier signal is configured to be connected.

If necessary, a filter (not shown) is connected to the output side of the output transformer T ₂ so as to filter and output only one side wave having a frequency of a required band.

In addition, the one side band wave is configured to set the signal of the carrier wave corresponding to the output signal of the final recorder to be input, so as to have a frequency of 1000 Hz.

The operation of the present invention configured as described above will be described.

First, a modulated signal ASinω _n t, which is a signal reproduced by a recorder inputted through the input terminals A and B of the ring modulator shown in FIG. 1, receives a carrier signal inputted through the intermediate tap terminals E and F. Assume that BSinω _c t.

When only the modulated signal is input to the ring modulator through the input terminals (A, B), among the diodes in the bridge connection, when D ₁ to D ₄ are open and short circuits D _{2 to} D ₃ are open and in reverse, On the contrary, the input modulation signal does not appear on the secondary output sides C and D.

In addition, when only a carrier signal is input through the intermediate tap terminals M and N, that is, when the carrier signal is applied with the polarity of the terminal E at + and the terminal F at-, the current as indicated by the solid arrow in FIG. When the carrier signal is applied with the opposite polarity, current flows as indicated by the dotted arrow. In either case, the voltage induced on the secondary side of T ₂ has the same magnitude and the opposite phase to the middle tap. Since it flows through terminal N, no voltage appears at terminals C and D.

However, when the modulation signal ASinω _n t and the carrier signal BSinω _c t are applied to terminals A, B, E, and F at the same time, a predetermined voltage appears between terminals 1-> N and 2-> N, and this voltage is diode D ₁ , D _2. The voltage V ₀ induced to the secondary side of the output transformer T ₂ by the rectifying action is as follows.

Therefore, when the CW signal formed by intermittent operation at a frequency of 1000 Hz is reproduced at a speed of 25 baud and a signal recorded at 100 baud, the frequency ω _c of the modulated wave becomes 250 Hz as shown in FIG. In this case, when the frequency ω _c of the carrier is set to be 750 Hz (or 1250 Hz) as shown in FIG. 2 (b), at least one sideband of the signals output through the terminals C and D is shown in FIG. As shown in c), it is 1000 Hz, and the remaining sidebands have a frequency of 500 Hz (or 1500 Hz).

Therefore, although the 1000Hz frequency signal and the 500Hz frequency signal are simultaneously input to the speaker through the output terminals C and D, the listening sensitivity is mixed with the more sensitive 1000Hz, so that it is hardly difficult to identify the original recorded signal 1000Hz.

In order to further increase the discriminating power, a 1000Kz band filter (not shown) may be provided on the output terminals C and D of the output transformer T ₂ .

On the other hand, when the reproduction speed is 400 baud, the modulated wave frequency ω _n has a frequency of 4000 Hz. When the carrier frequency is 3000 Hz (or 5000 Hz), the output terminals C and D of the output transformer T ₂ are used. At least one sideband of the signal output through the frequency of 1000Hz, the other frequency of the other sideband is 7000Hz (or 9000Hz), which is also a sideband 7000Hz (or 9000Hz) that is different from the 1000Hz signal sensitive sensitivity Although it is mixed and listened to, it is hardly disturbed to identify only the original recorded signal of 1000 Hz, and if necessary, the above-described band filter for 1000 Hz can be further improved.

In the above embodiment, a ring modulator is used as an example, but a general balance modulator may be used that generates only two side waves.

In the present embodiment, the case of the recorder has been exemplified, but the present invention is not limited thereto.

In addition, the present invention can naturally process the entire function in a digital manner.

In other words, if the input signal is converted into digital data by using an AD converter, and then the polarity is inverted in the forward or reverse direction at the same period as the signal frequency to be modulated, the same effect as that of the flat modulator can be obtained. In particular, when this signal is slowly converted at an integer multiple of the speed, it is possible to obtain a good effect by repeatedly dividing the signal itself by an appropriate period without changing the polarity of the data itself.

As described above, according to the present invention, even if the CW signal is reproduced by increasing or decreasing the arbitrary speed, if the carrier frequency is changed accordingly, the original frequency at the time of recording, which is a frequency of 1000 Hz, where the sensitivity of listening is sensitive, can be restored, so that the playback speed can be restored. The change of the effect of being able to prevent the fall of discrimination and listening power.

Claims (3)

A balance modulator having a bridge type diode and an input transformer and an output transformer, wherein the input terminal of the input transformer is connected to an audio output terminal, and the output terminal of the output transformer is connected to an audio speaker. And a carrier signal having a variable frequency is connected to each intermediate tap of the CW signal reproducing apparatus. The CW signal reproducing apparatus according to claim 1, wherein a filter for passing only one side wave to be listened to is connected to the balance modulator output side. The apparatus of claim 1, wherein the predetermined frequency is 1000 Hz.