KR100301295B1 - A device of sensing pulse signal for optical signal transmitting system - Google Patents

Abstract

The present invention relates to an apparatus for generating a flag signal for detecting a signal of a dial pulse transmission method in a transmission method of a dialing number for a subscriber telephone to communicate with a counterpart telephone user in an optical signal transmission device. In a square ratio composed of a channel unit, a control unit and a coupling unit and communicating with the exchanger, an inverter having a function of receiving and inverting a dial pulse signal and outputting the dial pulse signal, and shaping the dial pulse signal received from the inverter by a first clock signal A first flip-flop, a second flip-flop that receives the output signal of the first flip-flop as a clock signal, and outputs a flag signal, and recognizes a flag signal received from the second flip-flop as a dialing signal. A control unit for simultaneously outputting a reset control signal and a second clock signal, and a reset received from the control unit. And a reset generator for applying a reset signal to the second flip-flop based on a control signal and a second clock signal. The optical signal transmission apparatus using the IDLC data communication method includes a dialing signal of a dial signal telephone. Since it can be recognized and messaged to the exchange, it is possible to continue to use the existing dial-type telephone, thereby reducing the cost of the exchange facility and improving the consumer's reliability of the system.

Description

Dial pulse signal detection device of optical signal transmission equipment {A DEVICE OF SENSING PULSE SIGNAL FOR OPTICAL SIGNAL TRANSMITTING SYSTEM}

The present invention relates to an apparatus for generating a flag signal for detecting a signal of a dial pulse transmission method in a transmission method of a dialing number for a subscriber telephone to communicate with a counterpart telephone user in an optical signal transmission device.

Although many copper (Cu) lines have been used as transmission lines between general subscriber telephones and exchanges, there are problems such as weakness of moisture, short signal transmission distances, and noise induction by signals transmitted to adjacent lines.

Optical signal transmission equipment solves the above-mentioned moisture problem, transmission distance problem, noise induction problem by adjacent line, as well as using one transmission line, based on communication line of copper line, from thousands to tens of thousands of lines or its Optical signal transmission equipment that can simultaneously transmit the communication of the abnormal capacity is used.

In the interface between the signal processing method of the optical signal transmission equipment and the signal processing method of the exchange, the present invention relates to a technology for transmitting a dial pulse signal applied from a calling party to a switch.

Hereinafter, with reference to the accompanying drawings will be described a dial pulse signal transmission device in the conventional optical signal transmission equipment (hereinafter referred to as square ratio).

1 is a functional block diagram of an optical equipment and an exchange according to an embodiment of the prior art.

Referring to the prior art with reference to the drawings as described above, the general telephone subscriber telephone 10,

It is connected to the telephone 10 through a copper line, and converts an electrical signal applied from the telephone 10 into an optical signal and applies it to an optical cable, or an optical signal applied from an optical cable A first RT (Remote Terminal) square ratio 12 which is converted into and applied to the telephone 10,

The first RT square ratio 12 and the optical cable, COT (Central Office Terminal) square ratio 14 for controlling a plurality of RT equipment,

A channel unit 22 connected to the COT square ratio 14 through an optical cable, for directly transmitting and receiving a communication signal with the telephone 10; A control unit 24 for controlling other whole functional units; A second RT square ratio 20 composed of a coupling part 26 for communicating in a UDLC (Universal Digital Loop Carrier) method,

It consists of a switch 30 of the public communication network to communicate with the second RT square ratio 20 in a UDLC manner.

Hereinafter, the operation of the dial pulse signal transmission device having the above configuration will be described in detail.

When the subscriber telephone 10 hooks-off and dials a unique number for calling the other party's telephone, the subscriber telephone 10 converts the optical cable to the optical signal at the first RT square ratio 12 and then disconnects the optical cable. The COT square ratio 14 is transmitted through the COT square ratio 14, and the COT square ratio 14 transmits the signal through an optical cable to a corresponding second RT square ratio 20 among a plurality of RT square ratios to which it belongs.

The telephone 10 used by the general subscriber may be a telephone 10 for outputting a dialing signal as a dual tone multi frequency (DTMF) signal, or may be a telephone 10 for outputting a dial pulse signal. Will be.

When the dialing signal of DTMF is applied to the channel unit 22 of the second RT optical equipment 20 that receives the dial signal from the telephone 10, the channel unit 22 is controlled by the control unit 24 to the coupling unit 26. And the combiner 26 messages and combines the signals from a plurality of subscriber telephones and combines them with a DS1E (E1) transmission line of 2.048 MHz per second or DS1 (T1) of 1.544 MHz per second. It communicates with the switchboard 30 in a UDLC communication manner via a class transmission line.

The switch 30 separates the authorized signal for each channel of the corresponding time slot, analyzes the signal of the corresponding channel, and switches the phone 10 to be connected to the called party to which the telephone 10 is dialed. To communicate.

Also, in the case of the telephone in which the telephone 10 outputs a dial pulse signal, the telephone 10 is a high and low two-bit signal through the coupling unit 26 in the same manner as above. Message and applied as a dial signal to the exchange.

However, IDLC (Integrated Digital Loop Carrier) communication method, which is a new data communication method at a square ratio that increases communication speed and simplifies system configuration, has a problem in that it cannot detect and message a dial pulse signal applied from a telephone. .

That is, in the RT square ratio for data communication in the IDLC method, the dialing signal of the DTMF telephone 10 is detected and messaged and transmitted to the switch 30, but the dialing signal of the dial pulse is not detected. There was a problem in that it could not be transmitted and could not be connected to the called party.

An object of the present invention is to provide a dial pulse signal transmission apparatus capable of detecting and applying a dial pulse signal to an exchange in an RT square ratio in data communication with an exchange in an IDLC method.

In order to achieve the above object, the present invention is composed of a channel unit, a control unit and a coupling unit, in a square ratio communicating with the exchanger, the inverter having a function of inverting and outputting a dial pulse signal and the inverter, A first flip-flop for shaping the dial pulse signal received from the first clock signal; a second flip-flop for outputting a flag signal by receiving the output signal of the first flip-flop as a clock signal; and the second flip-flop. A controller which recognizes a flag signal received from the flop as a dialing signal and simultaneously outputs a reset control signal and a second clock signal, and resets the second flip-flop by the reset control signal and the second clock signal applied from the controller. It is characterized by a dial pulse signal sensing device of an optical signal transmission device composed of a reset generator for applying a signal. .

1 is a block diagram of a connection function of an optical equipment and an exchange according to an embodiment of the prior art;

2 is a functional block diagram of an optical equipment and an exchange according to an embodiment of the present invention;

3 is a detailed functional block diagram of a square ratio channel unit according to the present invention;

4 is a signal timing diagram according to the present invention.

Explanation of symbols on the main parts of the drawings

10: telephone 12, 14, 20, 40: square ratio

22,42: channel part 24,44: control part

26,46: coupling part 30,50: exchanger

423,425 flip-flop 427: reset generator

Hereinafter, with reference to the accompanying drawings will be described a dial pulse signal detection apparatus of the optical signal transmission equipment according to the present invention.

2 is a functional block diagram of an optical equipment and a switch according to an embodiment of the present invention, FIG. 3 is a detailed functional block diagram of a square ratio channel unit according to the present invention, and FIG. 4 is a signal timing diagram according to the present invention. .

2 to 4 attached to the above, the present invention is a telephone 10 subscribed by the user,

A first remote terminal square ratio 12 for transmitting and receiving an electrical signal with the telephone 10 and being connected to an optical cable, and converting the electrical signal into an optical signal and converting the optical signal into an electrical signal;

A channel unit 42 connected to the first RT 12 through an optical cable and receiving a signal from the telephone 10 through a corresponding channel; A controller 44 for controlling the entire equipment including the channel unit and other functional units; Under the control of the control unit 44, the signal applied from the channel unit 42 is processed by an integrated digital loop carrier (IDLC) data communication method according to V5.2 and communicated with an electrical signal to the switch 50 to be described later. Second RT square ratio 40 consisting of a coupling portion 46 to be,

As a switch of a public communication network, it is comprised by the switch 50 which connects many said 2nd RT square ratios 40 as needed.

In more detail, the configuration of the channel unit 42 includes: an inverter 421 for inverting a dial pulse signal DET applied from the phone 10 to make an NDET signal and outputting the NDET signal;

A first flip-flop that receives an NDET dial pulse signal from the inverter 421 as a data signal, receives a first clock signal having a period of 2 ms, and outputs the NDET signal as a DEFT signal that is reformed. (F / F: Flip Flop) (423),

A second input terminal connecting the data input port D to a power supply Vcc terminal and receiving an output signal of the first flip-flop 423 as a clock terminal input signal and outputting it as a flag signal; Flip-flop 425,

A controller 44 which recognizes a flag signal received from the second flip-flop 425 as a dialing signal and simultaneously outputs a reset control signal CS and a second clock signal;

The reset signal is applied from the second flip-flop 425 by applying the reset signal to the second flip-flop 425 by the reset control signal CS and the second clock signal DCLK received from the controller 44. And a reset generator 427 for resetting the flag signal.

Hereinafter, with reference to the accompanying drawings of the present invention by the above configuration will be described in detail the operation.

A dial pulse signal applied from the telephone 10 is applied to the channel portion 42 of the second RT square ratio 40 via the first RT square ratio 12 to DET the inverter 421. It is applied as a signal.

The DET signal applied as described above is shown as the DET signal of FIG. 4 when the called party's unique number '3' is input as an embodiment.

In more detail, in the channel part 42, the phone 10 appears as a high state in a hook-on state, which means a disconnected state in which a communication line is not connected. At this time, if the phone 10 is hooked off by a user, the DET signal applied to the channel unit 42 is in a low state.

When the user of the telephone 10 dials '3' to generate a dial pulse signal, the hook-on and the hook-off of the communication line three times are repeated.

That is, the dial pulse signal repeats the connection and disconnection of the dialing signal inputted to the communication line continuously.

The DET signal as described above is applied to the inverter 421 to be inverted and output as an NDET signal.

The NDET signal as described above is applied to the data input terminal D of the first flip-flop 423 and at the same time by a 2 kHz clock signal applied to the clock complex CLK of the first flip-flop 423. The NDET signal with severe distortion of the signal is converted into a reformed DEFT signal and output.

The standardized output signal DEFT of the first flip-flop 423 is applied as a clock signal of the second flip-flop 425.

The data input terminal D of the second flip-flop 425 is connected to a power supply Vcc so that a signal having a high state is output as a flag signal by the DEFT signal applied as a clock signal. do.

The controller 44 receiving the flag signal recognizes that the dialing signal is applied from the telephone 10. At the same time, the controller 44 outputs a reset control signal CS to the reset generator 427. The reset generator 427 is in a state of continuously receiving the second clock signal DCLK from the controller 44.

The reset generator 427 receiving the reset control signal CS and the second clock signal DCLK generates a reset signal according to the second clock signal, and the reset signal is the second flip-flop 425. Resets the flag signal applied to the reset terminal of.

The second flip-flop 425 receives a second pulse signal of the DEFT signal applied from the first flip-flop 423, and applies a second flag signal to the controller 44.

The controller 44 recognizes the second dial signal, and again, the reset generator 427 applies a reset control signal CS, and the reset generator 427 sends a reset signal to the second flip-flop 425. By applying, the second flag signal is also reset.

The third dial signal of the DEFT signal also generates a full-lag signal through the same process as described above, and is recognized by the controller 44 as the third dial signal and reset.

Therefore, the controller 44 can recognize the dialing signal applied from the telephone 10, and if the message is applied to the coupling unit 46, the coupling unit 46 can connect the plurality of channel units 42. Combining the applied signal through the, and applied to the exchange by the IDLC data communication method using a DS1E or DS1 communication line, the exchange 50 is separated by each communication channel, and recognizes the dialing signal of the communication channel By switching, the telephone is able to communicate by connecting a desired incoming telephone with a communication line.

The present invention having the above-described configuration does not require the use of the COT square ratio 14 in the configuration of the optical communication system, and also performs data communication with the switch 50 in an IDLC manner in which the data processing speed is improved. By recognizing and transmitting the dialing signal applied from the telephone generating the signal only, the subscriber can use the existing dial telephone without replacing the subscriber, thereby reducing the cost of the new switching facility and Improved consumer confidence.

The present invention as described above, in using the IDLC data communication method for improving the configuration and data processing efficiency of the optical transmission equipment, there is an effect that can be applied to the exchange by recognizing and message the dialing signal of the dial signal-type telephone.

In addition, since the subscriber can continue to use the dial-up telephone in use, it is possible to reduce the cost of the exchange facility, there is an industrial use effect to improve the consumer's confidence in the system.

Claims (1)

In the square ratio consisting of a channel unit, a control unit and a coupling unit, An inverter having a function of inverting and receiving a dial pulse signal and outputting the same; A first flip-flop for shaping a dial pulse signal applied from the inverter by a first clock signal; A second flip-flop that receives the output signal of the first flip-flop as a clock signal and outputs a flag signal; A controller which recognizes a flag signal received from the second flip-flop as a dialing signal and simultaneously outputs a reset control signal and a second clock signal; And a reset generator configured to apply a reset signal to the second flip-flop based on a reset control signal and a second clock signal applied from the control unit.