The EPON network uses the FTTB method to form a network, and its basic network units are OLT and ONU. The OLT provides abundant PON ports for the central office equipment to connect to ONU equipment;ONU is the user equipment to provide corresponding data and voice interfaces to realize user service access.The realization of access to different services is mainly to use different VLAN tags for different users and different services to transparently transmit to the corresponding service access server, and send the corresponding VLAN tags to the IP bearer network for transmission.
EPON (Ethernet Passive Optical Network) is an emerging optical fiber access network technology, which adopts point-to-multipoint structure, passive optical fiber transmission mode, based on high-speed Ethernet platform and TDM time division MAC (MediaAccessControl) media access control mode , Provide broadband access technology for a variety of integrated services.The so-called “passive” means that the ODN does not contain any active electronic devices and power supplies, and is entirely composed of passive devices such as optical splitters (Splitter). It uses PON technology at the physical layer, Ethernet protocol at the link layer,and uses the PON topology to achieve Ethernet access. Therefore, it combines the advantages of PON technology and Ethernet technology: low cost, high bandwidth, strong scalability, flexible and fast service reorganization, compatibility with existing Ethernet, convenient management, and so on.
EPON can realize the integration of voice, data, video, and mobile services. The EPON system is mainly composed of OLT (optical line terminal), ONU (optical network unit),ONT (optical network terminal) and ODN (optical distribution network), It is at the access network level of the network and is mainly suitable for optical fiber access for broadband services.
Active network equipment includes central office rack equipment (OLT) and optical network unit (ONU). The optical network unit (ONU) provides users with an interface between data, video, and telephone networks and the PON. The initial role of ONU is to receive the optical signal and then convert it into the format required by the user (Ethernet, IP broadcast, telephone, T1/E1, etc.). OLT equipment is connected to the IP core network through optical fiber. The introduction of the optical access network has a coverage area of up to 20km, which ensures that the OLT can be upgraded to the traditional metropolitan convergence node from the initial stage of the optical access network construction,thus simplifying the network structure of the access network convergence layer and saving the number of end offices. In addition, the characteristics of the optical access network’s large capacity,high access bandwidth, high reliability, and multi-service QoS level support capabilities have also made the evolution of the access network towards a unified, integrated, and efficient bearer platform a reality.
The EPON system uses WDM technology to achieve single-fiber bidirectional transmission, using upstream 1310nm and downstream 1490nm wavelengths to transmit data and voice, and CATV services use 1550nm wavelength to carry.The OLT is placed at the central office to allocate and control the channel connection, and has real-time monitoring, management and maintenance functions. The ONU is placed on the user side, and the OLT and the ONU are connected in a 1:16/1:32 manner through a passive optical distribution network.
In order to separate signals from multiple users on the same fiber, the following two multiplexing techniques can be used.
In EPON, the process of downstream data transmission from OLT to multiple ONUs is sent by data broadcasting. Data is broadcast downstream from the OLT to multiple ONUs in the form of variable-length packets.Each information packet has an EPON packet header, which uniquely identifies whether the information packet is sent to ONU-1, ONU-2 or ONU-3. It can also be identified as a broadcast packet sent to all ONUs or to a specific ONU group (multicast packet). When the data arrives at the ONU,the ONU receives and identifies the information packets sent to it through address matching, and discards the information packets sent to other ONUs. A unique LLID is allocated after the ONU is registered; the OLT compares the LLID registration list when receiving data, and when the ONU receives data, it only receives frames or broadcast frames that match its own LLID.
The OLT compares the LLID registration list before receiving data; each ONU sends a data frame in the time slot uniformly allocated by the central office equipment OLT; the allocated time slot (through ranging technology) compensates for the distance gap between each ONU and avoids each ONU Collision between.