JP2016521479A - A system that provides the Internet and a general telephone at the same time - Google Patents

Abstract

The system for simultaneously providing the Internet and a general telephone according to the present invention interfaces with a general telephone and a data terminal, multiplexes general telephone packets and data packets with E-PON signals, Hybrid optical modem (30, 40) to be demultiplexed into telephone packet and data packet; E-multiplexed by the hybrid optical modem (30, 40) in conjunction with the hybrid optical modem (30, 40) A hybrid gateway that separates a data packet and a general telephone packet from the PON signal, multiplexes the data packet and the general telephone packet into an E-PON signal, and transmits the E-PON signal to the hybrid optical modem (30, 40) ( 100); in conjunction with a local switch (70) or a BcN switch (80), and further, a packet for a general telephone received from the hybrid gateway (100) is transferred to the local switch ( 70) or a hybrid management system (200) for transmission to a BcN exchanger (80). The present invention allows a subscriber to use a general telephone service by multiplying existing general telephones while using the Internet, and does not require a copper wire for the general telephone service and does not need to have an Internet telephone. There is an effect of providing a general telephone service with an existing general telephone. [Selection] Figure 1

Description

  The present invention relates to a system that can provide the Internet and a general telephone (PSTN) at the same time, and more particularly, to a system that can simultaneously provide the above-mentioned services through one connection line.

  As a device that provides the Internet and a general telephone at the same time, there is a DSLAM device that provides an ADSL or VDSL service. DSLAM equipment is a form of service that uses a copper wire to connect to a local telecommunication office on a one-to-one basis.DMT (Discrete Multi-Tone) method is also applied to modulation and demodulation methods for voice and data It is a technology that sends and separates and connects through a splitter, and was able to simultaneously service a general telephone and the Internet using copper wires embedded in the past where high-speed data exchange was not required. However, DSLAM equipment that provides ADSL or VDSL service has a problem that there is a limit to increase speed when trying to apply to high speed data packet service by using copper wire, and When using a copper wire, the connection distance is limited, and it is possible to connect only to a certain area when attempting a long distance connection. The longer the distance, the lower the transmission speed according to the modulation / demodulation method. In addition, there is a problem that the existing copper wire becomes obsolete by using the existing copper wire, and the maintenance management cost is increased.

  On the other hand, when the optical internet service is provided at home, the optical internet service cannot be connected to the ordinary telephone service, and the internet telephone is newly developed to provide a function similar to the ordinary telephone on the internet. . Internet telephones compress PCM voice signals using a voice codec (codec) and change them into packets, which are switched by an internet service device to provide an internet voice telephone service. By the way, there is a problem that a conventional telephone cannot be connected to a pot for connecting an Internet telephone, and a large number of Internet telephones cannot be connected to one pot.

  The recognition of the problems and problems of the prior art described above is not obvious to those having ordinary knowledge in the technical field of the present invention, so the prior art based on such recognition is compared with the present invention. Do not judge the inventive step of the present invention.

  The present invention has been devised in order to solve the problems of the background art or in consideration of the situation handled by the background art, and has the following objects.

  One object of the present invention is to use an optical interface to simultaneously provide the Internet and general telephone service by overcoming the limitations of the modulation / demodulation system of copper wire.

  Another object of the present invention is to simultaneously provide Internet and general telephone services at an equal speed regardless of distance.

  Another object of the present invention is to provide a general telephone and the Internet simultaneously using a single optical cable without using a copper wire for a general telephone and an optical cable for the Internet separately. Its purpose is to reduce maintenance costs.

  Another object of the present invention is to make it possible to use an existing ordinary telephone without change without the need to purchase a new internet telephone, and to use the same even if multiple ordinary telephones are connected. The purpose is to do.

  The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned are those having ordinary knowledge in the technical field to which the present invention belongs from the following description. Can be clearly understood.

  A system for simultaneously providing the Internet and a general telephone according to an aspect of the present invention is to interface a general telephone and a data terminal, and multiplex the general telephone packet and data packet with an E-PON signal. A hybrid optical modem (modem) that demultiplexes E-PON signals into general telephone packets and data packets; from E-PON signals multiplexed by the hybrid optical modem in conjunction with the hybrid optical modem Hybrid gateway that separates data packet and general telephone packet and multiplexes the data packet and general telephone packet with E-PON signal and transmits to the hybrid optical modem; local exchange In conjunction with the switch or BcN switch, the local telephone packets received from the hybrid gateway are To comprising the hybrid management system (hybrid management system) to be transmitted to the exchanger or BcN exchanger.

  Further, the packet for general telephones transmitted / received between the hybrid optical modem and the hybrid management system includes a telephone number, a hook signal, a ring signal, and an error signal indicated by a caller. A control signal head is included, and the control signal head is used to interlock with the general telephone.

  The present invention does not use the DMT modulation / demodulation technology used in ADSL or VDSL, but converts the voice signal from a conventional telephone to PCM and then packetizes it to connect a general telephone and the Internet to a single optical interface to provide services Thus, there is an effect of providing a high-speed Internet regardless of the connected distance.

  The present invention can provide a general telephone and the Internet through an optical interface at the same time, and when constructing a new collective building, it is not necessary to newly construct a copper wire for the general telephone, and the general telephone and the Internet are simultaneously serviced. This is effective in reducing network maintenance (repair and maintenance) costs because the operator network is composed only of optical interfaces.

  According to the present invention, a subscriber can use a general telephone service by multiplying existing general telephones while using the Internet, and does not need a copper wire for the general telephone service, and does not need to have an Internet telephone. There is an effect of providing a general telephone service with an existing general telephone.

FIG. 1 is an overall configuration diagram of a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention. FIG. 2 is a schematic internal configuration diagram of a hybrid gateway 100 in a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention. FIG. 3 is a schematic internal configuration diagram of the hybrid management system 200, which is a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention. FIG. 4 is a schematic internal configuration diagram of a single-pot hybrid optical modem (40) of a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention. FIG. 5 is a schematic internal configuration diagram of an optical modem 50 on a pillar in a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention.

  The embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the embodiments of the present invention. However, the present invention can be embodied in various different forms and is not limited to the embodiments described herein. In order to clearly describe the present invention, portions not related to the description are omitted in the drawings, and similar names and drawing symbols are used for similar portions throughout the specification.

  FIG. 1 is an overall configuration diagram of a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention.

  A system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention includes a hybrid optical modem (30, 40), an optical modem on a pillar (50), a hybrid gateway (100), and a hybrid management system (200). Consists of.

  Hybrid optical modems (30, 40) interface with ordinary telephones (20) and data terminals (10) to multiplex ordinary telephone packets and data packets into E-PON signals and use E-PON signals for ordinary telephones. It is a device that demultiplexes packets and data packets. Hybrid optical modems (30, 40) include SLIC to provide ordinary telephones, convert voice signals into digital packets through SLIC, and use ordinary telephones (20) through control signals such as hook signals, ring signals, error signals, etc. ) Is controlled. The hybrid optical modem (30, 40) is a multi-port hybrid optical modem (30) that can be installed for collective housing, and a single-pot hybrid optical modem (30) that can be installed for general homes. 40).

  The hybrid optical modem includes a single-pot hybrid optical modem (40) for interfacing with a single subscriber's general telephone and data terminal, and a multi-pot hybrid optical modem (for interfacing with a plurality of subscriber's general telephone and data terminal). Including 30).

  The hybrid optical modem (30, 40) is connected to the hybrid gateway (100) through an E-PON optical interface. Packets for general telephones transmitted and received between the hybrid optical modem (30, 40) and the hybrid management system (200) include a control signal head including a telephone number, a hook signal, a ring signal, and an error signal indicated by the caller. Thus, the control signal head is used to interlock with the general telephone (20).

  The optical modem (50) on the pillar is always supplied with power from a remote location, and interfaces with a plurality of general telephones (20) to provide general telephone service, and immediately to the hybrid management system (200) through the optical interface. Connected. Optical modem on pole (50) includes SLIC to provide general telephone service for each pot, converts voice signals into digital packets through SLIC, and controls packets such as hook signals, ring signals, error signals, etc. The general telephone (20) is controlled through this.

  The hybrid gateway (100) accommodates the hybrid optical modems (30, 40) in a multiplexed manner, and from the E-PON signal multiplexed by the hybrid optical modem (30, 40), for data packets and general telephones. Separated into packets, the data packets are linked to an Internet network (61) such as KORNET via a router (60). The hybrid gateway (100) sends the general telephone packet separated from the E-PON signal to the hybrid management system (200) through the optical interface for transmission on the existing PSTN telephone network (71). The hybrid gateway (100) is a packet for general telephones received from the hybrid management system (200) and a data packet received via the router (60) from the Internet network (61) such as KORNET. Is transmitted to the hybrid optical modem (30, 40) at each destination.

  The hybrid management system (200) is a system for connecting the hybrid gateway (100) and the optical modem (50) on a pillar using an optical interface. The hybrid management system (200) is installed in an exchange building, and is connected to a network by using different exchanges (70, 80) in the exchange building with different interfaces of the hybrid management system (200). The existing exchange office has a local exchange (70) linked to the PSTN network (71), or a BcN exchange (80) such as a media gateway that provides voice telephone service through the BcN network (81). Is installed.

  The hybrid management system (200) is a SLIC that handles general telephone services of the hybrid optical modem (30, 40) connected via the hybrid gateway (100) and the optical modem (50) on the pillar to be connected immediately. The hybrid management system (200) manages the telephone number, MAC address and switch connection pot of the connected person, mapped to one-to-one and connected to the pot recognized by the switch (70, 80). . The hybrid management system (200) separates and processes voice signals and control signals coming from the exchange (70, 80), digitally converts the voice signals, processes the control signals at the head, and processes packets for general telephones. Form. The packet for general telephones generated by the hybrid management system (200) is transmitted to the hybrid gateway (100) through the optical interface or immediately to the optical modem (50) on the pillar.

  FIG. 2 is a schematic internal configuration diagram of a hybrid gateway 100 in a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention.

  The hybrid gateway (100) divides the E-PON signal received from the hybrid optical modem (30, 40) into general telephone packets and data packets, and then transmits the data packets to the router (60) for general The telephone packet processes the function transmitted to the hybrid management system (200).

  The hybrid gateway (100) has a system control processor (110), internal L2 / L3 switch (120), and many other devices for E-PON signal processing and general telephone packet processing and data packet processing. E-PON card (130), Internet uplink (140), and digital voice signal uplink (150).

  The system control processor (110) of the hybrid gateway (100) processes basic functions such as system configuration / operation / management like a normal gateway system. The E-PON card (130) of the hybrid gateway (100) performs photoelectric conversion and E-PON signal processing to generate L2 packets, and internally creates an optical transceiver (132) and an E-PON device (131). E-PON equipment that performs E-PON signal processing with electrical signals, including an optical transceiver (132) for photoelectric conversion processing corresponding to the photoelectric conversion processing of the hybrid optical modem (30, 40) ( 131) exists.

  The internal L2 / L3 switch (120) of the hybrid gateway (100) transfers general telephone packets and data packets transmitted from the E-PON card (130) to the external Internet uplink (140) and digital voice signal uplink ( 150), and switches the packets received from the Internet uplink (140) and the digital voice signal uplink (150) to be transmitted to each E-PON card (130) based on the MAC address. The L2 / L3 switch (120) manages the MAC address using the internal protocol processor (121), and according to the destination MAC address of the received packet, a number of E-PON cards (130), Internet The function of selecting and transmitting the uplink (140) and the digital voice signal uplink (150) is processed.

  The Internet uplink (140) of the hybrid gateway (100) transmits data packets received from the E-PON device to the Internet router (60) that must be connected to the Internet through the internal L2 / L3 switch (120). Data packet received from the Internet router (60) and sent to the target E-PON card (130) among many E-PON cards (130) It is a link to do.

  The digital voice signal uplink (150) of the hybrid gateway (100) transmits the packet for general telephones received from the E-PON card to the hybrid management system (200) through the internal L2 / L3 switch (120), so that the hybrid This is a link for processing the general telephone packet so that the general telephone packet received from the management system (200) is sent to the target E-PON card (130) among the many E-PON cards (130).

  FIG. 3 is a schematic internal configuration diagram of the hybrid management system 200, which is a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention.

  The hybrid management system (200) converts the ordinary telephone packet received from the hybrid gateway (100) and the ordinary telephone packet received from the optical modem (50) on the pole back into a voice signal, and converts the packet again. The voice signal received from the local exchange (70) in the switching center is converted into a packet for ordinary telephones, and then the hybrid gateway (100) and the optical modem on the pole ( 50) Transmission processing.

  The hybrid management system (200) is linked with the hybrid gateway (100) and the optical modem (50) on the pole, and the local exchange (70) and BcN switch (80) in the switching station are linked. The optical interface (210), BCMU (220), BcN interface (230), and ELCU card (240) are included.

  The optical interface (210) of the hybrid management system (200) consists of a rack interface (211), a transmission controller (212), a hybrid gateway interface (213), and an optical modem interface (214) on the pillar. Has been.

  The optical interface (210) of the hybrid management system (200) has a rack interface (211) for exchanging packets between racks, and the rack interface (211) of the optical interface (210) is an optical interface. General telephone packets received from the transmission controller (212) of the interface (210) are sent to the rack interface (221) of the BCMU (220) and received from the rack interface (221) of the BCMU (220). It handles the function of transferring packets to the transmission controller (212) of the optical interface (210).

  The transmission controller (211) of the optical interface (210) is connected to the hybrid gateway interface (213) of the optical interface (210) for general telephone packets received by the rack interface (211) of the optical interface (210). Control which device to transmit between the hybrid gateway (100) and the optical modem (50) on the pillar connected to the optical modem interface (214) on the pillar of the optical interface (210). In addition, the general telephone packet received from the hybrid gateway interface (213) of the optical interface (210) and the optical modem interface (214) on the pillar of the optical interface (210) is transmitted to the BCMU (220). To handle the control function.

  The hybrid gateway interface (213) of the optical interface (210) is an ordinary telephone received from the hybrid optical modem (30, 40) as an interface for connecting to the hybrid gateway (100) and exchanging packets for ordinary telephones. Packets are transmitted to the transmission controller (212) of the optical interface (210), and packets for general telephones received from the transmission controller (212) of the optical interface (201) are transmitted to the hybrid optical modem (30, 40). It is an interface for.

  The optical modem interface (214) on the pillar of the optical interface (210) receives from the optical modem (50) on the pillar as an interface that can be connected to the optical modem (50) on the pillar installed in a residential area. The general telephone packet is transmitted by the transmission controller (212) of the optical interface (210), and the general telephone packet received from the transmission controller (212) of the optical interface (210) is transmitted to the optical modem (50). ).

  BCMU (220) of hybrid management system (200) is composed of rack interface (221), transmission controller (222), ELCU interface (223), and has mapping information between subscriber information and ELCU card, Select the ELCU card according to the subscriber information.

  The rack interface (221) of the BCMU (220) is connected to the rack interface (211) of the optical interface (210), and is an interface for exchanging general telephone packets between the racks.

  The transmission controller (222) of the BCMU (220) determines the corresponding ELCU interface of the telephone subscriber by mapping between the telephone subscriber information held by the BCMU (220), the MAC information of the subscriber and the ELCU card (240). 223) to process the function of transmitting the general telephone packet, and the BCMU (220) rack interface (220) to transmit the general telephone packet received from the ELCU interface (223) to the optical interface (210). 221). Further, the transmission controller (222) of the BCMU (220) sends a general telephone packet through the BcN interface (230) when the central office switch is connected to a BcN switch (80) such as a media gateway. In Fig. 3, the ELCU interface (223), ELCU card (240), and BcN interface (230) are all equipped in the same hybrid management system (200). It can be implemented by providing only the ELCU interface (223) and the ELCU card (240) or by providing only the BcN interface (230).

  The ELCU interface (223) of the BCMU (220) processes the functions controlled in conjunction with the ELCU cards (230) mounted in the rack in multiple ways, and receives digital audio signals received from the ELCU card (240) and The control signal is packetized and, in the reverse direction, the digital voice signal and the control signal are separated from the general telephone packet and provided to the ELCU card (240).

  The BcN interface (230) of the hybrid management system (200) sends a general telephone packet to a BcN switch (80) such as a media gateway and receives a general telephone packet received from the BcN switch (80). It is an interface that processes and transmits it to the transmission controller (222) of the BCMU (220).

  The ELCU card (240) of the hybrid management system (200) emulates the ordinary telephone packet received from the hybrid optical modem like a general telephone by interfacing with the local exchange. The ELCU card (240) is a card that is installed in the rack in multiples and is connected to the general telephone pot of the local exchange (70) one-to-one, and includes a DAA controller (241) and a DAA voice interface (242) It is. The DAA voice interface (242) is connected to the voice telephone pot of the local exchange on a one-to-one basis to interface the voice telephone by the V5.2 protocol.

  The DAA controller (241) sends a ring from the local switch (70) so that the BCMU (220) generates a packet by reflecting information such as the ring signal, error signal, and caller's phone number in the control header. Providing BCMU (220) with control signals related to signals, error signals, caller phone numbers, etc., and generating hook signals etc. to control the pots in the switching center based on information provided from BCMU (220) . The ELCU card (240) corresponds to the hybrid optical modem SLIC (43) or the optical modem SLIC (51) on the pole on a one-to-one basis for each subscriber.

  FIG. 4 is a schematic internal configuration diagram of a single-pot hybrid optical modem (40) of a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention.

  In a single-pot hybrid optical modem (40), the subscriber's data terminal (10) is connected to the ethernet signal processing module (41), and the general telephone (20) is connected to the SLIC (43). Thus, the data packet of the data terminal (10) and the voice signal of the general telephone (20) are generated by the general telephone packet, E-PON multiplexed, and sent to the hybrid gateway (100). The multi-pot hybrid optical modem (30) is a multi-pot connection device that allows multiple subscribers to be accommodated by the single-pot hybrid optical modem (40). In the multi-pot hybrid optical modem (30), 1st, 2nd, 3rd and 6th are used to connect the data terminals (10) connected by Ethernet among the 8 UTP lines. , 4 and 5 are used to connect the common telephone 20 and can solve both data and telephone with a single UTP line. In a multi-pot hybrid optical modem (30), a single RJ-45 pot is used for each subscriber, and lines 1, 2, 3 and 6 in the RJ-45 pot interface with data terminals, Lines 4 and 5 interface with regular telephones.

  Single-pot hybrid optical modem (40) consists of one or more Ethernet signal processing modules (41, 42), SLIC (43), ETC module (44), E-PON device (54), control CPU (46 ), An internal L2 switch (47), a protocol process (48) of the L2 switch, and an optical transceiver (49).

  Ethernet signal processing module (41, 42) of single-pot hybrid optical modem (40) is RJ-45 interface with RJ-45 interface universally with data terminal (10) built in Ethernet equipment. Ethernet packets received through Ethernet pots (41, 42) with a transmission rate of 10/100 / 1G according to the processing method of the physical layer are used as E-PON devices. The signal is converted into an E-PON signal through (45).

  The SLIC (43) of the single-pot hybrid optical modem (40) is connected to the general telephone (20) and the RJ-11 interface, and the SLIC (43) converts the analog audio signal into a PCM signal. Conversely, the signal is converted into an analog audio signal.

  The control CPU (46) of the single-pot hybrid optical modem (40) registers the Ethernet MAC address corresponding to the subscriber information of a general telephone and processes the digital voice signal from the SLIC with a general telephone packet. To do. The control CPU (46) processes the MAC address of the terminal mapped with the telephone number as the destination MAC address, combines the MAC address of the hybrid gateway and the destination address, and sends the PCM signal to a general telephone. It is converted into a packet for use, and the control signal and PCM signal are separated from the packet for general telephone, the control signal controls SLIC (43), and the PCM signal is converted back to an analog voice signal and sent to a general telephone To.

  The internal L2 switch (47) of the single-pot hybrid optical modem (40) protocol data packets received from the E-PON device (45) and general telephone packets processed from the control CPU (46). It is combined as an E-PON signal through the process (48) and sent to the hybrid gateway (100) through the optical transceiver (49). The protocol process 48 separates data packets from the multiplexed E-PON signal received from the hybrid gateway 100 through the optical transceiver 49 and general telephone packets. The packet for general telephone is transmitted to the E-PON device (45) for processing by the control CPU (46).

  The ETC module (44) of the single-pot hybrid optical modem (40) is an expansion module for providing additional services including remote control of the user, and is linked with the control CPU (46).

  FIG. 5 is a schematic internal configuration diagram of an optical modem 50 on a pillar in a system for simultaneously providing the Internet and a general telephone according to an embodiment of the present invention.

  The optical modem (50) on the pillar interfaces with one or more general telephones (20), converts voice of the general telephone (20) into packets for general telephones, and communicates with the hybrid management system (200) through the optical interface. This is an optical modem device for residential areas that is connected to provide a general telephone service.

  The optical modem (50) on the pillar includes a large number of SLICs (50), a SLIC control unit (55), a control CPU (57), and an optical interface (56). The SLIC (51) of the optical modem (50) on the pillar interfaces with the general telephone (20) through the RJ-11, converts voice into PCM, and converts the voice signal from the PCM signal.

  The SLIC control unit (55) of the optical modem (50) on the pillar manages a large number of SLICs (51) connected for each subscriber and processes a function of controlling them.

  The control CPU (57) of the optical modem (50) on the pole packetizes the encoded PCM signal generated by the SLIC (51) and is controlled by the SLIC control unit (55) and the subscriber information. To generate a general telephone packet based on the subscriber MAC address for each pot, and to process the function of transmitting the general telephone packet to the optical interface (56), to the optical interface (56) Search for information on the subscriber's SLIC pot (51) with the destination MAC address of the general telephone packet received from the SLIC control unit in the corresponding SLIC (51) based on the control head of the general telephone packet Control through (55), and process the function of sending data for general telephone packets to the corresponding SLIC (51).

  The optical interface (56) of the optical modem (50) on the pillar is an interface that can be optically connected to the hybrid management system (200), and hybrid management of packets for general telephones generated by the control CPU (57). An interface is provided so that a general telephone packet sent to the system (200) and received from the hybrid management system (200) can be processed by the control CPU (57). The optical interface (56) of the optical modem (50) on the pillar, unlike the optical interface of the hybrid optical modem (30, 40) processed by E-PON, is an Ethernet packet with a standard defined internally. Sends / receives general telephone packets combined with header and PCM packets.

  Hereinafter, an example of a call process of a general telephone 20 using a system according to an embodiment of the present invention will be described.

  When a general telephone (20) is raised for a telephone call attempt with a general telephone (20), the SLIC (43) of the hybrid optical modem (30, 40) or the SLIC (51) of the optical modem (50) on the pole is A lung roof is formed with the DAA controller (241) of the ELCU card (240) of the hybrid management system (200), and the DAA controller (241) of the hybrid management system (200) 70) Generate a hook control signal head from the hook signal received from 70), make a packet for general telephone, attach this to the destination MAC address, hybrid optical modem (30, 40) or optical modem on the pole ( To 50).

  The hybrid optical modem (30, 40) or the SLIC (43, 51) of the optical modem (50) on the pillar sends a hook signal of “two” to the general telephone (20) based on the hook control signal from the packet for general telephone. generate.

  When a telephone number is pressed on a regular telephone (20), a DTMF signal is generated, which is generated by SLIC (43) of the hybrid optical modem (30, 40) or SLIC (51) of the optical modem on the pole (50). Based on this signal, a telephone number is created to form a telephone number control signal head, and the MAC address of the hybrid management system (200) is set as the destination MAC address and the MAC address of the hybrid management system (200) is set as the destination MAC address. A packet is generated and sent to the hybrid management system (200). In the case of a general telephone (20) connected to a hybrid optical modem (30, 40), it reaches the hybrid management system (200) via the hybrid gateway (100) and connects to the optical modem (50) on the pillar. In the case of the general telephone (20), the general telephone packet is immediately transmitted to the hybrid meginimon system (200).

  The hybrid management system (200) looks at the destination telephone number with the telephone number control signal head, generates DTMF again to the connected local exchange (70), and transmits it to the local exchange (70). If exchange is performed, it will reach the call stage.

  When an outside landline subscriber calls a landline telephone (20), a ring signal is generated from the local exchange (70) connected to the hybrid management system (200), and the ring signal is the DAA of the ELCU card. The subscriber telephone which was recorded in the hybrid management system (200) by generating the ring control signal head for the ring signal through the DAA controller (241) and the ELCU interface (223) when the ring signal was sensed by the interface (242) Subscriber MAC address received from the number, subscriber MAC address, ELCU pot information, etc. is made into a packet for ordinary telephones and is generally used for hybrid optical modem (30, 40) or optical modem on pole (50) Send phone packets.

  The SLIC (43) of the hybrid optical modem (30, 40) or the SLIC (51) of the optical modem (50) on the pole controls the SLIC by judging the ring control signal included in the head of the packet for general telephones. Then, a 'ring' is generated for the general telephone (20).

  In the case of a voice call, it goes through a process similar to control signal processing, and in the transmission section between the general telephone (20) and the local exchange (70) in the switching center, the packet is changed to a general telephone packet. The SLIC (43) of the hybrid optical modem (30, 40) containing the (20) is connected to the ELCU card (240) of the hybrid management system (200) connected to the telephone pot of the local exchange (70) in the switching center. ) And one-to-one connection like a pipe to transmit sound.

Claims (4)

Hybrid optical that interfaces with general telephones and data terminals, multiplexes general telephone packets and data packets with E-PON signals, and demultiplexes E-PON signals into general telephone packets and data packets modem;
The E-PON signal multiplexed by the hybrid optical modem in conjunction with the hybrid optical modem is separated into a data packet and a general telephone packet, and the data packet and the general telephone packet are multiplexed by the E-PON signal. A hybrid gateway that transmits to the hybrid optical modem;
A hybrid management system that works in conjunction with a local switch and a BcN switch and transmits a packet for general telephones received from the hybrid gateway to the local switch or the BcN switch;
The hybrid management system is provided with a constant power supply from a remote location, interfaces with a plurality of ordinary telephones, converts ordinary telephone signals into ordinary telephone packets, converts ordinary telephone packets into ordinary telephone signals, Including optical modems on pillars;
The hybrid gateway includes an E-PON card that performs photoelectric conversion and E-PON signal processing to generate an L2 packet; a switch that separates the L2 packet into a data packet and a general telephone packet;
The hybrid optical modem is a single pot hybrid optical modem that interfaces with a single subscriber's general telephone and data terminal, or a multipot hybrid optical modem that interfaces with a multiple subscriber's general telephone and data terminal. Because
A system for simultaneously providing the Internet and a general telephone, comprising at least two of the single-pot hybrid optical modem and the multi-pot hybrid optical modem. The hybrid optical modem is:
SLIC to interface with general telephones and convert at least analog telephone audio signals into digital voice signals;
Ethernet signal processing module to interface with data terminals;
A control CPU for registering an Ethernet MAC address corresponding to subscriber information of a general telephone and processing a digital voice signal from the SLIC into a general telephone packet;
The system for simultaneously providing the Internet and a general telephone according to claim 1. The hybrid optical modem is:
ETC module that works with the control CPU to provide users with additional services including remote control;
The system for simultaneously providing the Internet and a general telephone according to claim 2, further comprising:   In the multi-pot hybrid optical modem, a single RJ-45 pot is used for each subscriber. Among the lines constituting the RJ-45 pot, some lines are used for interfacing with data terminals. The system for simultaneously providing the Internet and the general telephone according to claim 1, wherein another part of the line is used as an interface with a general telephone.