KR100231117B1 - Recrystallizing method of spheral pentaerythritol tetranitrate - Google Patents

Abstract

The present invention relates to a signal detection method of a modem, and when a user makes a call to the other party, a signal from the other party is already determined. Therefore, the signal detection unit 300 compares an input signal with a reference signal, and if so, another predetermined signal accordingly. When the signal is normal, it is finally connected to the other party. At this time, one of the signals transmitted from the other side is the S0 signal and the inverted signal Sb0 signal, which is a sequence of coordinate values of a signal determined by a signal space diagram on the modem protocol, and the characteristics thereof are already It is decided. For example, when the S0 signal is AB, S0 is a repetition of the ABABAB ... signal, and when the Sb0 signal is a CD, the Sb0 signal is a repetition of the CDCDCD ... signal. In this case, the ABCD signals are signals of the first, second, third, and fourth quadrants, respectively. Therefore, the S0 signal and the Sb0 signal have a characteristic in which their phases are reversed. As described above, since the S0 and Sb0 signals are reversed in phase, in the step of detecting S0 and Sb0 among signals transmitted from the counterpart, first, the signal is sampled for a predetermined time and multiplied by the previous sampling signal and the current sampling signal. If the result of multiplying the sampling signal is a positive (+) value, it is determined as a S0 signal, and if it is a negative (-) value, it is determined as a Sb0 signal. In other words, when the modem is connected, the signal transmitted from the other party is already set. Among them, the S0 and Sb0 signals have the characteristics described above, so that S0 and Sb0 do not need to be detected by the frequency measurement method. In the signal detection step, it may be determined by detecting only whether the result of multiplying the previous sampling signal and the current sampling signal is positive (+) or negative (-). As described above, when the S0 signal is detected among signals from the other party when the modem is connected, whether the result value obtained by multiplying the previous sampling signal and the current sampling signal by sampling for each predetermined time is positive (+) or negative (-). Just by judging, it is possible to detect the application of the S0 signal, thereby reducing the detection time.

Description

Signal detection method of modem

The present invention relates to a signal detection method of a modem, and in particular, when detecting S0 and Sb0 signals, multiply the previous sampling signal and the current sampling signal by using the characteristics of the opposite phases of the two signals, and according to the sign of the multiplied value. A signal detection method of a modem that can be detected.

Modem (modulator and demodulator) is a compound word of modulation means demodulation and demodulation means demodulation, and is a device for connecting a terminal device or a computer to a communication line and transmitting and receiving data.

The modem uses a telephone line laid for the purpose of transmitting voice as a communication line, so it is a modulator that converts a digital signal processed by a computer into an analog signal and a demodulator that converts an analog signal input through a telephone line into a digital signal. It is composed.

The modem must also match the data transmission on the digital connection as well as the telephone line on the analog connection.

In addition, a variety of standards are available for mechanical access and language conventions, as well as suppliers of data transmission devices and networks, as well as computer and terminal manufacturers.

Understanding EIA Standards Most modems accept data according to the RS-232C format, which specifies signal levels and pin connections. In Europe, the data input standard is CCITT V.24.

When accepting the data, the input signal is usually compared with a predetermined signal or the difference is found and the digital signal is produced continuously.

In the case of a high-speed modem using an 8-phase DPK, it receives a signal and compares it with the information stored in the modem memory, and generates a 3-bit binary number corresponding to the difference.

In this way, the modem transmits and receives a signal according to a predetermined format, and initially transmits and receives a certain signal even when the telephone is connected to the other party.

That is, when the user calls the other party, the user sends a certain signal to the other party.The user side compares the signal with a preset signal and transmits the signal accordingly.The other party compares the transmitted signal with the preset signal. If yes, the connection is established.

At this time, there are various types of signals transmitted from the other party. In the signal transmission and reception and the signal detection before the connection, conventionally, all signals from the other party used the method of frequency measurement.

As described above, in the conventional method of detecting signals before connection during modem communication, it takes a long time and increases the load of the processor because all signals transmitted from the other party use a method of frequency measurement.

An object of the present invention is to detect the S0 and Sb0 signal, which is the inverted signal among the signals sent from the other side, in order to solve the conventional problems, the signal detection method of the modem to easily detect using the phase characteristics of the signal To provide.

1 is a block diagram of a signal detection apparatus in a general modem.

2 is a signal detection operation flowchart of the modem of the present invention.

* Explanation of symbols for main parts of the drawings

100: demodulation unit 200: automatic gain control unit

300: signal detector

The signal detection method of the modem for achieving the object of the present invention comprises the steps of: first setting the first transmitted S0 signal as a reference signal, and then sampling it at a predetermined time period; A second step of multiplying a signal sampled in the first step with a previous sampling signal to determine a sign of the multiplied value; If the sign of the value multiplied by the determination result of the second step is positive (+), the sampling operation is repeatedly performed while maintaining the reference signal. If the sign is negative (-), the reference signal is inverted and set. And a third step of repeatedly performing the sampling operation.

Hereinafter, the operation and effect of the present invention will be described with reference to FIG.

In the modem, the signal detection apparatus generally includes a demodulator (100) for demodulating an input analog signal as shown in FIG. An automatic gain controller (200) for amplifying the output signal of the demodulator (100) into a signal suitable for processing; It consists of a signal detector 300 for detecting the application of the signal by comparing the output signal of the automatic gain control unit 200 with a predetermined signal, see the operation flow diagram of FIG. 2 attached to the operation process of the present invention configured as described above It will be described in detail.

First, when a user makes a call to the other party, since the signal transmitted from the first party is already determined, the signal detector 300 compares the input signal with a preset signal and transmits another predetermined signal according to the same. If this signal is normal, you can finally connect with the other party.

At this time, one of the signals transmitted from the other side is the S0 signal and the inverted signal Sb0 signal, which is a sequence of coordinate values of a signal determined by a signal space diagram on the modem protocol, and the characteristics thereof are already It is decided.

For example, when the S0 signal is AB, S0 is a repetition of the ABABAB ... signal, and when the Sb0 signal is a CD, the Sb0 signal is a repetition of the CDCDCD ... signal.

Here, the ABCD signals are signals of the first, second, third, and fourth quadrants, respectively. Therefore, the S0 signal and the Sb0 signal have a characteristic in which their phases are reversed.

As described above, the signal detection unit 300 detects whether the signals transmitted from the counterpart are S0 and Sb0 signals whose phases are opposite to each other.

First, since the first input signal is the S0 signal as specified in the modem communication protocol, the reference signal is set to the S0 signal, sampled for each predetermined time, and the previous sampling signal is multiplied by the current sampling signal.

If the result of multiplying the sampling signal is positive (+), it is determined that data is continuously transmitted with the set reference signal S0, and the sampling operation is repeatedly performed while maintaining the reference signal as the S0 signal. If the sign is negative (-), it is determined that the transmitted signal is transmitted as an inverted Sb0 signal, the reference signal is set to all inverted Sb0 signals, and the sampling operation is repeatedly performed.

If the reference signal is set to the inverted Sb0 signal and the sampled signal is multiplied by the previous signal, the reference signal is maintained as the Sb0 signal, but if the negative signal is negative, the transmitted signal is stored. After determining that the signal is S0, the reference signal is inverted to be set to the S0 signal, and the sampling operation is repeatedly performed.

As described above in detail, when the S0 signal is detected among the signals from the other party when the modem is connected, the result value obtained by multiplying the previous sampling signal and the current sampling signal by sampling for each predetermined time is positive or negative. It is possible to detect the application of the S0 signal only by determining whether the signal is negative, thereby reducing the detection time.

Claims (1)

Setting a first S0 signal to be transmitted as a reference signal, and then sampling the S0 signal at a predetermined time period; A second step of multiplying a signal sampled in the first step with a previous sampling signal to determine a sign of the multiplied value; If the sign of the value multiplied by the determination result of the second step is positive (+), the sampling operation is repeatedly performed while maintaining the reference signal, but if the sign is negative (-), the reference signal is inverted and set; A signal detection method for a modem, comprising a third step of repeating the sampling operation.

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