KR20050034257A - Voip interface apparatus - Google Patents

Abstract

The present invention relates to a VOIP interface device using a DSP, and more particularly, to a VOIP interface device enabling VOIP service between a wired subscriber and a wireless subscriber without the support of an existing wired carrier system (exchange).

The configuration constituting the VOIP interface device of the present invention as described above, the control unit responsible for initialization and data storage of all the board; An Ethernet interface unit for transmitting and receiving data to and from the Internet network and determining a path of a corresponding destination; A data processor which decodes the data received from the Ethernet interface into PCM data; TDM interface unit for matching the data stream incoming from the data processing unit with the MSC stage; characterized in that, reducing the cost burden for the use of wired and mobile communication system by VOIP.

Description

VOIP INTERFACE APPARATUS}

The present invention relates to a VOIP interface device using a DSP, and more particularly, to a VOIP interface device that enables VOIP service between a wired subscriber and a wireless subscriber without the support of an existing wired carrier system (exchange).

VOIP (Voice Over Internet Protocol) is to transmit voice data on IP network. In the case of the existing telephone line, once occupying the line, other data cannot be entered, the availability of the line is low, the cost is high, and the conference cannot be made. To solve this problem, the movement of multiple data is shared, inexpensive, and scalable. This superior VOIP technology has emerged.

The operation method is a method of converting voice to digital, transmitting it to digital and converting it back to voice. In general, PSTN and PSTN are interlocked with many data networks and gates to convert them.

VoIP technology as described above can be found in two aspects, there are advantages in terms of users and maintenance.

First, in terms of users, the advantage is that the Internet is used instead of the traditional general telephone line, which reduces the cost of line calls, and the use of VoIP reduces the need for leasing analog telephone lines. It can be integrated to reduce line maintenance costs. In addition, since the VoIP user uses a digital telephone, in addition to a voice telephone, additional functions such as file transfer and video call using a computer can be used.

Secondly, the main advantage of the maintenance aspect is that the Internet line can be shared by several people, so it is efficient in terms of expense and utilization, and when using VoIP, the Internet line only needs to be duplicated. In addition, the maintenance and management costs can be relatively reduced, and if there is a demand for a new phone line or a shortage of lines, there is no need to increase the physical line required when using the PSTN network, and simply by allocating IP or increasing bandwidth, Easy to scale up

However, despite the many advantages of VoIP, the service is not very active because there are many disadvantages of using VoIP. These shortcomings are the key to hesitant introduction at this point, but they are expected to be solved by hardware technology development and complementary VoIP protocol.

Among the shortcomings of the VoIP technology as described above, a representative disadvantage can be seen in terms of cost. In the case of the conventional VoIP service network configuration, even in the case of a connection with a terminal of a generalized mobile communication system, a service must be provided via a wired communication service provider system. It is possible to use it at the expense of using wired and mobile communication systems.

As shown in FIG. 1, a network configuration for a conventional VoIP service is largely composed of a subscriber system network 10, a wired system 20, and a mobile communication system 30 to enable service.

In case of the subscriber system network 10, the subscriber system can be connected to the Internet network. The subscriber system network 10 additionally interfaces the Internet gateway to a private private exchange to enable the circuit switched subscriber to access the Internet network, which is a packet network. .

The wired system (exchange) 20 switches the data flowing through the Internet network with the wired subscriber, or the data to be delivered to the mobile communication terminal to switch to the mobile communication system.

The mobile communication system 30 is connected to the wired system to support a call connection with a wireless terminal, and is composed of an MSC and a BTS.

As described above, the existing network configuration for the VoIP service is configured to operate via both the existing private network and the switching network mobile communication system. In other words, since the service is available only through the system of the wired communication service provider, there is a problem in that a wired and mobile communication system using VoIP is used at a cost.

The present invention was devised to solve the above problems, and in using the VoIP service, the MSC (Mobile Switching Center) of the mobile communication system by the interface device even if not through the existing wired system (switch) network of the subscriber system It is an object of the present invention to provide an interface device for enabling VoIP service between a wired subscriber and a wireless subscriber by interworking with a stage.

In order to solve the technical problem as described above, the configuration means for forming a VoIP interface device of the present invention,

A control unit for initializing all the boards and storing data;

An Ethernet interface unit for transmitting and receiving data with the Internet network and determining a path of a corresponding destination;

A data processor which decodes the data received from the Ethernet interface into PCM data;

And a TDM interface unit matching the data stream incoming from the data processing unit with an MSC stage.

The Ethernet interface unit,

A transformer connected to the internet network to perform line matching, a PHY transceiver for transferring incoming Ethernet data to a data processing unit, and an Ethernet switching controller for controlling the transfer of the Ethernet data,

The data processing unit,

It comprises a plurality of DSP (Digital Signal Processor) for decoding the data flowing from the PHY transceiver into PCM data by the switching of the Ethernet switching control unit and a memory storing a program for decoding in each DSP,

The TDM interface unit,

And a digital switch for rate conversion of the data stream, a framer having an E1 / T1 controller function, and a transformer line-matched with the MSC stage.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and preferred embodiment of the present invention made of the above configuration means. 2 is a diagram illustrating a network for a VoIP service to which the present invention is applied, and FIG. 3 is a diagram illustrating a VoIP interface device according to the present invention.

2 shows a configuration of a VoIP service network applied to the present invention, which is composed of a private subscriber network 40, an Internet equipment 50, and a mobile communication system network 70. That is, unlike the conventional VoIP service network, the VoIP service can be provided by interfacing the interface device 60 to the MSC terminal of the mobile communication system 70 without passing through the existing wired system (national exchange) network of the subscriber system. It is a structure.

FIG. 3 shows the configuration of an interface device that enables VoIP service by interworking with a private subscriber network and a mobile communication system without a local exchange. The configuration means includes a control unit, an Ethernet interface unit, a data processing unit, and a TDM. It consists of an interface part.

The control unit 80 is composed of a CPU 81 for initializing and controlling all boards and a memory (main memory and flash memory) 82 storing various data. The CPU reads boot information stored in the flash memory of the memory to perform initialization and initializes each device in the board. On the other hand, the program for driving the DSP (Digital Signaling Processor) is stored in the main memory of the memory.

The Ethernet interface unit 90 transmits and receives data with the Internet network and determines a path of a corresponding destination. The detailed configuration means includes a transformer 91, a PHY transceiver 92, and an Ethernet switching controller 93. have. The transformer 91 is connected to the Internet network connected to the Internet equipment to perform line matching with the VoIP interface circuit, and the PHY transceiver 92 delivers the Ethernet data, which is input through the Internet, to the data processing unit for DSP processing. The Ethernet switching controller 93 performs an operation of controlling Ethernet data by performing a switching operation for transferring Ethernet data from the PHY transceiver to a data processing unit.

The data processing unit 100 serves to decode the data received from the Ethernet interface unit into the PCM data. The detailed configuration means includes a plurality of DSPs 101 and a memory 102 for storing a program for decoding in each DSP. It consists of). The number of DSP may be designed to vary depending on the designer's intention.

The TDM interface unit 110 plays a role of matching the decoded data stream received from the data processing unit with the MSC terminal of the mobile communication system network, and the detailed configuration means converts the incoming data stream to the corresponding rate. Alternatively, a digital switching 111 for channel switching and a data format capable of interworking with the MSC stage and a framer 112 having an E1 / T1 controller function and a transformer connected directly to the MSC stage and a physical line are provided. It consists of 113.

Detailed configuration means constituting the present invention as described above and preferred embodiments that can be seen by the operation and function of each configuration means will be described with reference to FIG.

The present invention is a device designed to match the TDM E1 / T1 Trunk line that can interwork Ethernet data with the MSC terminal of the mobile communication system, when the data through the Internet network to the present invention interface circuit and the following data flow and Each component is operated.

First, when power for circuit operation is supplied and peripheral clock circuits, reset circuits, and the like operate, the CPU 81 reads the boot information of the flash memory 82 to perform initialization and performs peripheral devices. Will also perform initialization. As such, when the initialization operation is completed, the interface device is in a state capable of operating normally. The CPU is implemented using Motorola's MPC860 / 8260 Power PC family of chips that support Fast Ethernet communications.

After the initialization operation is completed as described above and the interface device can operate normally, if data is transmitted to the interface device through the Internet, it is introduced through the transformer 91 of the Ethernet interface unit 90 It passes through the physical layer through the PHY transceiver 92 and opens a path of the corresponding destination by switching using the Ethernet switching controller 93. That is, the data is transferred to a plurality of DSPs 101 in the data processing unit 100 through a specific port under the control of the Ethernet switching control unit 93. The chip managing the physical layer uses the 8Port LXT9781 provided by Level One. The chip for the function of the Ethernet switching controller is implemented through Phoenix's 8Port Switch Controller LES108, where the number of ports can vary depending on the number of DSPs mounted on the board providing the actual interface device. The number of links can be selected and used within eight DSP limits.

When data is transferred from the PHY transceiver 92 to the data processing unit 100 under the control of the Ethernet switching control unit 93, the DSP 101 decodes the incoming data into PCM data to the TDM interface unit 110. Will be delivered. The chip for decoding PCM data uses Mindspeed's M82620. Meanwhile, a program for performing decoding for each DSP is stored in a memory in the data processor.

The framer 112 converts the 8.092M stream data decoded by the plurality of DSPs 101 in the data processor 100 to 2.048M in the digital switch 111 in the TDM interface 110. The framer loads the data according to the method. At this time, in case of the E1 method, 2M is matched with the MSC, and in the case of the T1 method, the channel switching is performed in the MT90870 to 1.544M with the MSC. The matched data is transmitted to the MSC terminal through the transformer 113 to which the MSC terminal and the physical line are connected. The digital switch functioning as the rate switching and channel switching uses Mitel's MT90870, and the framer uses PMC's PM4354 and PM4351.

As described above, the data flow in the VoIP interface device is summarized. In summary, a system of a wire communication service provider such as a national exchange is provided by providing a device that changes data introduced through Ethernet to a data format that enables interworking with an MSC stage through a DSP. VoIP service is possible without going through.

According to the VoIP interface device of the present invention having the above-described configuration and preferred embodiments, VoIP service with a mobile communication subscriber is possible without using an existing wired (switched) system network, so that a large amount of wireless mobile phone calls have a large number of modern enterprises. It is possible to make low-cost VoIP service through contracting a fixed rate with a wireless mobile service provider without burdening wire charges.

1 is a diagram illustrating a network for a conventional VOIP service.

2 is a network diagram for a VOIP service to which the present invention is applied.

3 is a configuration diagram of the VOIP interface device of the present invention.

Claims (4)

A control unit for initializing all the boards and storing data; An Ethernet interface unit for transmitting and receiving data to and from the Internet network and determining a path of a corresponding destination; A data processor which decodes the data received from the Ethernet interface into PCM data; And a TDM interface unit for matching the data stream incoming from the data processing unit with an MSC stage. The method according to claim 1, wherein the Ethernet interface unit, A VoIP interface device comprising a transformer connected to an internet network for line matching, a PHY transceiver for transferring incoming Ethernet data to a data processing unit, and an Ethernet switching controller for controlling the transfer of the Ethernet data. The method according to claim 1, wherein the data processing unit, VoIP interface comprising a plurality of DSPs (Digital Signal Processor) for decoding the data from the PHY transceiver into PCM data by the switching of the Ethernet switching control unit and a memory storing a program for decoding in each DSP Device. The method according to claim 1, wherein the TDM interface unit, A VoIP interface device comprising a digital switch for rate switching a data stream, a framer having an E1 / T1 controller function, and a transformer line-matched with the MSC stage.