KR100483538B1 - Apparatus and method for RTP and TDM Interface - Google Patents

Abstract

In the Voice over Internet Protocol (VoIP), the present invention is specifically designed to process RTP packets by interfacing with a MII between a central processing unit and an Ethernet device. The RTP and TDM interface apparatuses according to the present invention are subject to transmission and reception. A central processing unit for recording the connection information and informing the start of the RTP; When the packet is sent to or received from the Ethernet MII interface for the RTP packet transmitted / received using the connection information of the central processing unit, the valid TDM data is written down, and the TDM data is extracted to the TDM interface from the RTP packet received from the Ethernet MII interface. RTP processing means for transmitting; The RTP processing means and the Ethernet MII interface is characterized in that it comprises an Ethernet device for transmitting and receiving RTP packets.

Description

Apparatus and method for RTP and TDM Interface

The present invention relates to an RTP and TDM interface apparatus and method for processing RTP packets by interfacing with a MII between a central processing unit and an Ethernet device in the Voice over Internet Protocol (VoIP).

Real-time Transport Protocol (RTP) provides end-to-end transport for applications that transmit real-time data such as voice, video, or mock data over multicast or unicast.

1 is a block diagram showing a conventional RTP and TDM interface device.

Referring to FIG. 1, an Ethernet device 110 for transmitting and receiving data through an Ethernet PHY, a central processing unit 120 connected to the Ethernet device 110 through a CPU MII interface and processing control information. And a digital signal processor (DSP) 130 connected to a network by a time division multiplexing (TDM) interface to exchange voice information with an opposite party and a network, and to the central processing unit 120 and a CPU bus. It is composed of a memory 140 for the program and data storage under control.

A conventional RTP and TDM interface device will be described with reference to FIG. 1.

First, the central processing unit 120 and the Ethernet device 110 is connected to the CPU MII (Media Independent Interface) interface, the central processing unit 120 and the digital signal processor 130 is connected to the CPU bus. The Ethernet device 110 transmits / receives data coming through the CPU MII interface to the Ethernet physical layer.

The digital signal processor 130 is connected to a TDM interface of the system, and is connected to a memory 140 for a program and a data storage memory 140 as a memory control signal. Here, the TDM interface is composed of a sync, clock, transmit (Tx) and receive (Rx) lines that can send and receive data in serial.

First, the central processing unit 120 processes the control information, and sets up the digital signal processor 130 that is a peripheral device so that voice information can be exchanged with the other party and the network. The digital signal processor 130 set up by the central processing unit 120 processes the voice portion of the packet corresponding to the actual voice, so that the TDM packet can be mutually converted into an RTP packet.

Then, the digital signal processor 130 buffers and stores the TDM information received from the TDM interface in the memory 140 for a predetermined time, and allows the central processing unit 120 to take the information to make a voice packet. .

At this time, the central processing unit 120 obtains the actual voice data from the digital signal processor 130, generates voice data (RTP), and sends it to the counterpart by sending the packet to the counterpart connected to the Ethernet device 110 connected to the CPU MII interface. Allows you to make a voice.

In addition, the central processing unit 120 analyzes the packet received from the Ethernet device 110, extracts the voice data and sends it to the digital signal processor 130, the digital signal processor 130 creates the TDM data and delivers it to the TDM interface, It enables the interconversion of TDM packets and RTP packets.

However, if the codec used in TDM is G.711 and the number of TDM channels is increased, bottlenecks occur in the data path between the central processing unit 120 and the digital signal processor 130, thereby limiting the available TDM channels. The memory operation of the payload of a packet to be used as data increases, which causes a high CPU clock.

The present invention has been made to solve the above problems, and provided with a RTP processing unit connected to the MII interface between the central processing unit and the Ethernet equipment, respectively, and writes the valid TDM data in the RTP packet going from the central processing unit to Ethernet and transmits It is an object of the present invention to provide an RTP and TDM interface device and method for extracting TDM data from an RTP packet transmitted from Ethernet to a central processing unit and sending the TDM data to the TDM interface.

RTP and TDM interface device according to the present invention for achieving the above object,

A central processing unit for recording connection information and informing the start of RTP according to a transmission / reception target;

When the packet is sent to or received from the Ethernet MII interface for the RTP packet transmitted / received using the connection information of the central processing unit, the valid TDM data is written down, and the TDM data is extracted to the TDM interface from the RTP packet received from the Ethernet MII interface. RTP processing means for transmitting;

The RTP processing means and the Ethernet MII interface is characterized in that it comprises an Ethernet device for transmitting and receiving RTP packets.

Preferably, the RTP processing means is connected to the central processing unit, the CPU MII interface and the CPU bus, and transmits / receives a packet through the CPU MII interface, and receives connection information through the CPU bus.

Preferably, the RTP processing means is characterized by checking whether the packet transmitted / received by the connection information transmitted through the CPU bus from the central processing unit is an RTP packet.

Preferably, the RTP processing means is connected with a buffer memory for storing payload data in the RTP packet through a memory control signal.

Specifically, the RTP processing means includes a MII receiver for receiving a packet through an Ethernet MII interface and a CPU MII interface, a reception buffer for temporarily storing a packet received in the MII packet receiver, and a central processing unit for the packet received in the reception buffer. An RTP process that processes an RTP packet according to the connection information by the RTP packet and delivers it to a corresponding path, an Ethernet transmit buffer and an Ethernet MII transmitter for temporarily storing and transmitting an RTP packet filled with voice information by the RTP process, and the RTP process And a CPU transmission buffer and a CPU MII transmission unit for transmitting the packet transmitted by the CPU to the central processing unit, and a TDM interface unit for delivering the voice data extracted by the RTP process to the TDM interface.

Preferably, the RTP process buffers the voice data of the RTP packet received through the Ethernet MII interface and delivers the voice data to a TDM interface connected via a parallel bus.

Preferably, the MII receiver analyzes a packet received from an Ethernet MII interface or a CPU MII interface to improve the CRC and indicate a destination, and the Ethernet / CPU MII transmitter transmits an inter packet gap time to transmit packet data. The preamble is processed and the CRC is calculated.

On the other hand, the RTP and TDM interface method according to the present invention,

Recording, by the central processing unit, the connection information to the RTP processing unit and notifying the start of the RTP according to the RTP transmission and reception target; If the packet received from the central processing unit is an RTP packet by using the information recorded by the central processing unit, filling the RTP packet with voice data and transmitting it to Ethernet; And if the packet received from the Ethernet device is an RTP packet using the information recorded by the central processing unit, buffering voice data in a memory and transmitting the buffer to the TDM interface.

Preferably, when the packet transmitted from the central processing unit and the Ethernet device to the RTP processing unit is not an RTP packet, the packet transmitted from the central processing unit is directly transmitted to the Ethernet device, and the packet received from the Ethernet device is directly transmitted to the central processing unit. It is characterized by giving.

Hereinafter, with reference to the accompanying drawings as follows.

2 is a block diagram illustrating an RTP and TDM interface device according to an exemplary embodiment of the present invention, and FIG. 3 is a detailed block diagram of an RTP processing unit of FIG. 2.

2, the central processing unit 210 for recording the connection information and the start of the RTP according to the transmission and reception target; Ethernet equipment 220 for transmitting and receiving the RTP packet data; When the packet is sent to or received from the Ethernet MII interface for the RTP packet transmitted / received using the connection information of the central processing unit 210, the valid TDM data is written down, and the TDM data is extracted for the RTP packet received from the Ethernet MII interface. An RTP processor 230 transmitting the TDM interface; A buffer memory 240 for storing payload data among the RTP packets extracted by the RTP processor 230 is included.

Referring to FIG. 3, the RTP processor 230 may include a MII receiver 231 for receiving a packet through an Ethernet MII interface and a CPU MII interface, and a reception buffer for temporarily storing a packet received at the MII packet receiver 231. 232, an RTP process 233 for processing the RTP packet according to the connection information by the central processing unit 210, and forwarding the packet received in the reception buffer to a corresponding path; and voice information by the RTP process 233. Ethernet transmit buffer 234 and Ethernet MII transmitter 235 for temporarily storing and forwarding the filled RTP packet, and CPU transmit buffer for transferring the packet transmitted by the RTP process 233 to the central processing unit 210. 236, a CPU MII transmitter 237, and a TDM interface 238 for delivering voice data extracted by the RTP process 233 to a TDM interface.

The RTP and TDM interface devices and methods according to the present invention as described above will be described with reference to the accompanying drawings.

Referring to FIG. 2, the RTP processor 230 is connected to the central processor 210 via the CPU MII interface and the CPU bus, and transmits / receives LAN packets through the CPU MII interface, and the RPT processor 210 via the CPU bus. Information for control of) is transmitted. In addition, a buffer memory 240 for storing payload data among RTP packets is connected to the RTP processor 230 through a memory control signal.

In addition, the RTP processing unit 230 is connected to the Ethernet device 220 and the Ethernet MII interface, a packet processed by the RTP processing unit 230 or a packet going to the RTP processing unit 230 is transmitted / received. The RTP processor 230 is connected to a TDM interface to transmit / receive voice data.

Referring to the operation of the RTP and TDM interface from the above connection configuration as follows.

First, the central processing unit 210 transmits and receives control information with the other party, and when a call setup for a call is made, transmits an RTP packet containing voice data to the RTP processing unit 230.

At this time, the central processing unit 210 recognizes an RTP transmission / reception target according to a protocol, and connects information such as IP and User Datagram Protocol (UDP) port information and SSRC (synchronization source) identifier information of the RTP through the CPU bus. 230 and informs the RTP processor 230 that RTP has started.

Then, the central processing unit 210 processes and writes down the information contained in the central processing unit up to the RTP header part to send the RTP packet to the other party, and the actual voice data part is transmitted through the CPU MII interface at an arbitrary value.

The RTP processing unit 230 provided between the central processing unit 210 and the Ethernet device 220 is the central processing unit 210 when the packet transmitted from the central processing unit 210 passes through and is transmitted to the Ethernet device 220. Determine whether or not it is an RTP packet with the informed information.

At this time, if the packet coming through the CPU MII interface is an RTP packet, the RTP processing unit 230 fills a portion corresponding to the payload, that is, voice data, of the RTP packet and sends it to the Ethernet device 220 through the Ethernet MII interface.

At this time, the data portion corresponding to the voice is filled in the data portion of the RTP header and data in the RTP packet structure shown in FIG. In this case, the RTP packet is directly transmitted to the Ethernet device 220.

As shown in FIG. 4, an RTP packet is filled with an Ethernet header, an IP header, a UDP header, an RTP header and data, and CRC information of an Ethernet header. The Ethernet header includes a destination MAC address, a source MAC address, a packet type ID, and CRC information. The IP header includes an IP address and an identifier, full length information, and the like. The UDP header contains source and destination port information, UDP checksum, and length information. The RTP header includes the RTP header, time stamp, SSRC, and SEQ information, and the data item is filled with data.

On the other hand, the RTP processing unit 230 receives the RTP packet received by the Ethernet device 220 through the Ethernet physical layer in the network and converts to TDM.

To this end, since the central processing unit 210 knows connection information such as IP address, protocol port information, and SSRC identifier of the RTP packet to be received before RTP is received, the central processing unit 210 transmits the connection information to the RTP processing unit 2300 through the CPU bus. Write down and activate the RTP processor.

When the packet received by the Ethernet device 220 is transferred to the central processing unit 220 via the RTP processing unit 230 through the Ethernet MII interface, the RTP processing unit 230 is the MII of the Ethernet device 210. In order to determine whether the packet received from the interface is RTP or not, it is compared with the connection information written by the central processing unit 210.

As a result of the comparison, if it matches the connection information written by the central processing unit 210, since it corresponds to an RTP packet, the TDM voice data is buffered in the memory 240 to extract TDM voice data stored in the memory through the TDM interface. By sending a call to, a general voice call is made. If it is not an RTP packet, it is immediately transmitted to the central processing unit 210.

As such, the RTP processor 230 writes valid TDM data in an RTP packet going from the first central processing unit 210 to the Ethernet, and transmits the TDM data from the RTP packet received at the second Ethernet and transferred to the central processing unit 210. Extract and send to the TDM interface.

Specifically, the detailed configuration of the RTP and TDM interface device by the RTP processing unit will be described with reference to FIG.

The RTP processor 230 includes an MII receiver 231, a receiver buffer 232, an RTP process 233, an Ethernet / CPU transmit buffer 234 and 236, an Ethernet MII transmitter 235, a CPU MII transmitter 237, and a TDM interface unit. It consists of 238. The buffer here is FIFO (First In First Out).

The MII receiver 231 receives packets from the CPU and the Ethernet MII interface, respectively, and processes them into a form that the RTP process 233 can process. In other words, by analyzing the data coming into the CPU / Ethernet MII interface to remove the cyclic redundancy check (CRC) from the Ethernet header of the RTP packet, and then indicate whether the data in the central processing unit 210 or the Ethernet-side data, the receiving buffer 232 Enter

The RTP process 233 receives the connection information for the RTP transmit / receive packet from the CPU bus and reads the packet from the receive buffer 232 connected to the MII receiver 231, and whether the packet comes up from the Ethernet or not, the central processing unit 210. Determines if the packet is going to Ethernet.

As a result of the determination, if the packet goes out to the Ethernet device 220, the data of the TDM channel allocated by the central processing unit 200 is filled in the data portion of the RTP packet and recorded in the Ethernet transmission buffer 234.

On the contrary, if it is determined that the packet is to be processed by comparing the packet information provided by the central processing unit 210 to the central processing unit 210 in the Ethernet device 220, the voice data portion of the RTP packet is buffered in the memory for a predetermined time. TDM data is extracted and sent to the TDM channel.

In addition, the Ethernet MII transmitter 235 reads data to be processed by the RTP process 233 and exits from the Ethernet to the Ethernet device 210 by reading from the Ethernet transmit buffer 234, and the CPU MII transmitter 237 transmits the RTP process 233. ) Is processed by the CPU transmission buffer 236 and sent to the CPU MII interface.

The CPU / Ethernet MII transmitters 235 and 237 process the inter packet gap time and the preamble before sending data, and recalculate and transmit the CRC of the RTP packet.

The TDM interface unit 238 parallelizes the channelized data transmitted / received from the upper system to the TDM interface and transmits and receives the RDM process 233 through the parallel bus to the RTP process 233.

In addition, the RTP process 233 allows a packet that is not an RTP packet to be directly out of the packet received at the CPU MII interface to the Ethernet MII interface and the packet received at the Ethernet MII interface to the CPU MII interface.

5 is a flowchart illustrating an RTP and TDM interface method according to the present invention.

Referring to FIG. 5, the central processing unit writes connection information to the RTP processing unit and notifies the start of RTP according to the RTP transmission / reception target (S201). The RTP processing unit checks whether the incoming packet is a transmission of a packet to the Ethernet device or a received packet to the central processing unit from the Ethernet device (S203).

Referring to the packet transmission process, the packet is received through the CPU MII interface connected to the central processing unit, and the received packet is checked whether the RTP packet using the information recorded by the central processing unit (S205 and S207). At this time, in the case of the RTP packet (S209), the voice data is filled in the RTP packet and transmitted to the Ethernet device (S211, S213), and if not the RTP packet is directly transmitted to the Ethernet device (S213).

When the packet reception process is described, the packet is received through the Ethernet MII interface connected to the Ethernet device, and the RTP packet is checked using the connection information recorded by the central processing unit (S215 and S217).

At this time, in the case of the RTP packet (S219), the voice data contained in the RTP packet is buffered in the memory, and the buffered TDM voice data is transmitted to the TDM interface (S221, S223). However, if it is not an RTP packet, it is uploaded to the CPU through the CPU MII interface (S225).

As described above, according to the RTP and TDM interface apparatus according to the present invention, after determining the presence of the RTP packet between the central processing unit and the Ethernet equipment, by interfacing the RTP and TDM, a large amount of TDM using a codec uncompressed when using VoIP When the connection is made, processing the voice data, there is an effect that can maintain the connection of more channels of VoIP without using a lower-level central processing unit than conventional. It also has the effect of reducing the load on the central processing unit.

1 is a block diagram showing a conventional RTP and TDM interface device.

2 is a block diagram showing an RTP and TDM interface device according to an embodiment of the present invention.

3 is a detailed block diagram of an RTP processing unit according to an exemplary embodiment of the present invention.

4 is an RTP packet structure according to an embodiment of the present invention.

5 is a flowchart illustrating an RTP and TDM interface method according to an exemplary embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

210 ... Central Processing Unit 220 ... Ethernet Equipment

230 ... RTP Processing Unit 240 ... Memory

231 ... MII receiver 232,234,236 ... buffer

233 RTP process 235 Ethernet MII transmitter

237 CPU MII transmitter 238 TDM interface

Claims (9)

A central processing unit for recording connection information and informing the start of RTP according to a transmission / reception target; When the packet is sent to or received from the Ethernet MII interface for the RTP packet transmitted / received using the connection information of the central processing unit, the valid TDM data is written down, and the TDM data is extracted to the TDM interface from the RTP packet received from the Ethernet MII interface. RTP processing means for transmitting; RTP and TDM interface device characterized in that it comprises an Ethernet device connected to the RTP processing means and an Ethernet MII interface for transmitting and receiving RTP packets. The method of claim 1, The RTP processing means is connected to a central processing unit and a CPU MII interface and a CPU bus, and transmits / receives a packet through a CPU MII interface and receives connection information through a CPU bus. The method of claim 1, The RTP processing means checks whether the packet transmitted / received by the connection information transmitted through the CPU bus from the central processing unit is an RTP packet. The method of claim 1, And the RTP processing means is connected to a buffer memory for storing payload data in an RTP packet through a memory control signal. The method of claim 1, The RTP processing means includes a MII receiving unit for receiving a packet through an Ethernet MII interface and a CPU MII interface, a receiving buffer for temporarily storing a packet received in the MII packet receiving unit, and a packet received in the receiving buffer by a central processing unit. An RTP process for processing an RTP packet according to the information and delivering it to a corresponding path, an Ethernet transmit buffer and an Ethernet MII transmitter for temporarily storing and transmitting an RTP packet filled with voice information by the RTP process, and transmitting the RTP packet by the RTP process And a CPU transmission buffer and a CPU MII transmission unit for transmitting the packet to the central processing unit, and a TDM interface unit for delivering the voice data extracted by the RTP process to the TDM interface. The method of claim 5, The RTP process buffers the voice data of the RTP packet received through the Ethernet MII interface and delivers the voice data to a TDM interface connected via a parallel bus. The method of claim 5, The MII receiver analyzes a packet received from an Ethernet MII interface or a CPU MII interface to improve a CRC and display a destination. The Ethernet / CPU MII transmitting unit processes an inter packet gap time and a preamble to transmit packet data, and calculates a CRC. Recording, by the central processing unit, the connection information to the RTP processing unit and notifying the start of the RTP according to the RTP transmission / reception target; If the packet received from the central processing unit is an RTP packet by using the information recorded by the central processing unit, filling the RTP packet with voice data and transmitting it to Ethernet; RTP and TDM interface method comprising the step of buffering the voice data in the memory to the TDM interface if the packet received from the Ethernet device using the information recorded by the central processing unit RTP packet. The method of claim 8, When the packet transmitted from the central processing unit and the Ethernet device to the RTP processing unit is not an RTP packet, the packet transmitted from the central processing unit is directly transmitted to the Ethernet device, and the packet received from the Ethernet device is directly transmitted to the central processing unit. RTP and TDM interface method.