KR0120181B1 - Signal transforming apparatus for dedicated line communication - Google Patents

Abstract

An apparatus for converting a coded transmission signal used in a private line is disclosed. The apparatus comprises an input signal interface unit(301) for interfacing 12V, 0V, EPD signals; a signal oscillator(302) for modulating a TTL level of the pulse input signal to a FSK type of signal; an output level and a distortion factor controlling unit(303) for controlling a transmitting output level and a transmitting output frequency and controlling a distortion factor; and an output matching unit(304) for matching the impedance of the transmitting output signal from the oscillator(302). Thereby, a prior art of a power supply is not necessary so that the productivity is increased.

Description

Coded transmission signal converter for dedicated line

1 is a conventional block diagram.

2 is a concrete circuit diagram of FIG.

3 is a block diagram according to the present invention.

4 is a detailed circuit diagram of FIG. 3 in accordance with the present invention.

5 is an exemplary view to which the present invention is applied.

According to the present invention, a code-class transmission signal conversion device for leased lines is provided, and in particular, a signal-level transmission signal conversion device for leased lines improves signal distortion and provides a countermeasure against communication failure due to noise or lightning introduced into a dedicated line. The present invention relates to a code-class transmission signal conversion circuit for leased lines.

In general, code-class transmission signal converters for leased lines should be prepared for noise and lightning strikes. Since the noise and lightning cause communication failure, circuit damage, etc., there should be improved reliability measures and parts characteristics to prevent this.

The technique disclosed in FIGS. 1 and 2 as a conventional technique inputs the pulse output signal of the communication device to the lines L1 and L2 to supply power to the electrostatic source unit 20, and to the lines L1 and L2. When the pulse information is input to the signal oscillator 30 through the input signal interface unit 10, FSK (Fre

A transmission signal is converted into an analog signal using a quency shift key) and then transmitted through an output matching unit 50.

The electrostatic source unit 20 rectifies the pulse signal of ± 48V at the bridge diode (BD) to be used as a supply power in the system.

The pulse signal of ± 48V in the input signal interface unit 10 is converted into an analog signal by the photocoupler U2. When the input signal is + 48V by the output of the input signal interface unit 10, the H signal of the TTL level is applied. Is changed to L signal at -48V and used as an input signal of the FSK IN of the signal oscillator 30, and an input of 1270 Hz for H and 1070 Hz for L is transmitted.

However, the configuration as shown in FIG. 2 has the fact that it is filed by Patent No. 94-29687 by the same applicant, and in this case, a separate power circuit can be used to generate the operating voltage. Is high, and may cause a reception error of the transmission signal according to the distortion rate of the signal generated by the signal oscillation unit 30, and the communication failure and the circuit damage are generated due to the noise or lightning introduced through the lines L1 and L2. The reliability of the system is lowered.

In addition, since the voltage of the internal output signal is used, there is a problem that the operation of the signal is interrupted when the overload is stopped according to the current limit of the supplied voltage.

Accordingly, an object of the present invention is to improve the signal distortion of a dedicated class code transmission signal conversion apparatus that can be connected to a multiplex transmission device (PCM repeater, optical repeater) for high-speed transmission and due to noise or lightning flowing into the dedicated line. It is to provide a circuit to improve the reliability by preparing a countermeasure against communication failure and lightning generated.

According to an aspect of the present invention, an input signal interface unit for interfacing an input signal, a signal oscillator for modulating a pulsed input signal having a TTL level using the FSK method, and a transmission output level and a frequency for a signal output from the signal oscillator And an output level for adjusting the distortion of the output signal and an output frequency distortion adjusting unit, and an output matching unit for matching impedance of the transmission output signal output from the signal oscillator.

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

3 is a block diagram according to an embodiment of the present invention, in which an input signal interface unit 301 for receiving and interfacing 12V, 0V, and EPD signals and a TTL level pulse input signal at an output of the input signal interface unit 301 are used in an FSK method. A signal oscillator 302 for modulating and outputting a signal, an output level and a distortion factor adjusting unit 303 for adjusting a transmission output level and a transmission output frequency output from the signal oscillator 302 and adjusting a distortion of an output signal, and the signal An output matching section 304 that impedance-matches the transmission output signal of the oscillator 302 is configured.

Since FIG. 3 is illustrated in FIG. 4 in detail, the present invention operates with a 12V power supply and an EPD (sensor data output) signal of a controller (not shown). In addition, it is a device that converts and transmits the Perl information, which is input into the module unit without the electrostatic power source circuit, into an analog signal by the FSK (Frequency Shift Key) method.

In the input signal interface circuit 301, the circuit is operated using the DC12V and EPD signals of the pins P82. The input signal operates the photocoupler PC301 to transmit an H signal having a TTL level when the input signal is 12 V and an EPD signal L to the FSK IN of the FSK modulation circuit U301 of the signal oscillator 302.

The signal oscillator 302 is a circuit which receives an output signal of the input interface unit 301 and converts it into an analog signal and supplies it to the output matching unit 304. At this time, the H or L signal of the TTL level inputted to the FSK modulation circuit U301 of the signal oscillator 302 is modulated into an analog signal of 1070 Hz or 1270 Hz by the frequency shift key (FSK) method, and thus the FSK modulation circuit (U301). Output to pin 2.

The output oscillation frequency can be controlled at 1070 Hz or 1270 Hz by adjusting the output levels connected to pins 7 and 8 of the FSK modulation circuit U301 and the variable resistors VR301 and VR302 of the distortion factor adjusting unit 303. This allows the oscillation frequency to be controlled so that the standard frequency can be selected as needed.

Pin 2 output signal of the FSK modulation circuit (U301) is output to the output matching unit 304, pin 3 of the FSK modulation circuit (U301) is connected to the output level and distortion control unit (303).

The output level and distortion rate adjusting section 303 is a circuit for adjusting the output level of the output analog signal of the signal oscillating section 302, and the output level is 0dbm or-by selection of the switch S301 of the distortion level adjusting section 303. It is possible to adjust the reception level with respect to the transport equipment by adjusting 10dbm to increase the communication efficiency.

The output level can be adjusted by adjusting the variable resistance VR304 of the output level and the distortion factor adjusting unit 303. However, by adjusting the variable resistance VR303, the distortion of the IC characteristic can be compensated. It can be improved.

The output matcher 304 drives the analog output signal of the signal oscillator 303 to reduce the impedance of the output to 600. This circuit is a one-to-one impedance matching with the circuit in accordance with the standard.The noise component is added to the coils DF301 and DF302 to remove the noise caused by the noise or lightning through the conventional lines L1 and L2. And the arrester (AS301) and varistor (Z303) can be added to prevent burnout due to lightning. The matched signal is transmitted to the terminal and transmitted to the host computer by modulating the digital signal of LOW at 1270HZ and HIGH at 1070Hz. In the configuration of FIG. 3 described above, the configuration of FIG. 5 can be easily used.

As described above, the present invention eliminates the power circuit of the conventional dedicated line code level transmission signal conversion device and increases productivity to reduce the failure rate, thereby improving durability and quality, and taking countermeasures and measures against lightning for each noise source. It is a big advantage to add reliability improvement, and to perform stable signal transmission of the transmission output according to the receiver, and to improve the reliability of the safety system regardless of IC characteristics.

Claims (3)

In the code-class transmission signal converting apparatus, an input signal interface unit 301 for receiving and interfacing 12V, 0V, and EPD signals, and a pulse input signal having a TTL level of the output of the input signal interface unit 301 are modulated by the FSK method. The signal oscillator 302 and the output level and distortion controller 303 and the signal oscillator 302 which adjust the transmission output level and the transmission output frequency output from the signal oscillator 302 and adjust the distortion of the output signal. Code-type transmission signal conversion apparatus for a dedicated line, characterized in that it is composed of an output matching unit (304) for impedance matching the transmission output signal. The apparatus of claim 1, wherein the input interface unit (301) uses a driving power source (12V), a center data output signal, and a ground signal (0) of the control unit. The method of claim 1, wherein the output matching unit 304 converts from the output of the signal oscillation unit 302 in the matching transformer T301 and the coils DF301 and 302 from the transformer T301. And a varistor (301, 302) between the coil (DF301, 302) and the PS (PS301, PS302) in series.