| Customization: | Available |
|---|---|
| Type: | Fiber Transceiver |
| Wiring Devices: | APC |
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FTTR, or Fiber-to-the-Room, is an innovative in-premises networking technology that utilizes optical fibre communication. With its numerous advantages, FTTR offers high-bandwidth and reliable transmission capabilities that have the potential to revolutionize the way we use the Internet. In this Mercku Blog, we will explore the benefits of FTTR, its diverse use cases, and its promising future potential.
FTTR (Fiber to The Room) is a new coverage mode of the home network in the gigabit connectivity era and is also the next technological evolution and upgrade of home networking. FTTR (Fiber-to-The-Room) technology refers to the laying of optical fibers to remote nodes. By directly extending the optical fiber to each room of the user, FTTR further upgrades the traditional fiber-to-the-home to fiber-to-the-room, and provides a new Gigabit network coverage solutions, which will be one of the technical directions for future Gigabit home broadband upgrades. In the past, optical fiber was terminated at a single point in the house, but now it can be accessed in every room. With low latency, high quality, and high stability, FTTR achieves Wi-Fi 6 Gigabit coverage throughout the house.
One of the key advantages of FTTR is its ability to provide bandwidth of up to full 10 Gbps, surpassing the limitations of copper-based (Ethernet) networks. This translates into seamless downloading of large files, uninterrupted streaming of high-definition videos, and lag-free online gaming experiences, especially with longer runs.
Additionally, optical fibre, which is the backbone of FTTR, ensures a significantly more reliable data transmission between client devices. Unlike traditional copper cables, optical fibre is immune to electromagnetic interference, guaranteeing a stable connection even during storms or power outages.
Finally, with the ever-growing demand for more and more bandwidth, FTTR stands as a future-proof solution. As Internet usage and data requirements continue to escalate, FTTR can effortlessly accommodate these demands, making it a reliable and long-lasting investment.
Our FTTR home terminal series products includes home optical main gateway and sub-gateway.
The all-optical primary gateway FT3620X(XG-PON uplink) / FT3630X(XG-PON/GPON dual mode uplink). The downlink user ports include 4*GE RJ45 ports(LAN Ports), 1*POTS port,1*WIFI6 AX3000 WLAN port,1*USB port, and 1*GPON OLT downlink port. With 1:16 optical splitting ratio, the user can access a maximum of 16 all-optical sub-gateways.
The all-optical sub-gateway product FC3004X uses GPON as the uplink interface.The downlink user ports include 4*GE RJ45 ports(LAN Ports) and AX3000 WiFi6 WLAN port.
FTTR Series Product Model
FC3004X: 1*GPON uplink port,4*GE RJ45 ports,AX3000 WiFi6;
FC3104X: 1*GPON uplink port,4*GE RJ45 ports,1*POTS port, AX3000 WiFi6;
FT3620X | XG-PON uplink port,1*GPON(OLT) port,4*GE RJ45, AX3000 WiFi,1*POTS, 1*UBS
FC3004X | 1*GPON uplink port,4*GE RJ45 ports,AX3000 WiFi6
| Item | Primary gateway-FT3620X/FT3630X | Sub-gateway-FC3004X |
| Port | Uplink: | Uplink:GPON |
| FT3620X(XG-PON uplink) | Downlink: | |
| FT3630X(GPON/XGPON uplink) | 4*GE Port,AX3000 WiFi6 | |
| Downlink: | ||
| 1*GPON OLT,4*GE port,1*USB,AX3000 WiFi6,1*POTS voice port | ||
| Chipset | ||
| Processor | Dual core 1G Hz | |
| Memory | 4Gbit SDRAM | |
| Storage | 2Gbit Nand Flash | |
| External Power Supply | AC:Input 90~264V,47~67Hz; | |
| Power consumption | ≤10W | ≤7W |
| Weight | ≤0.7kg | ≤0.5kg |
| Environmental Requirements | Working temperature: -15°C~55°C | |
| Storage temperature: -40°C~70°C | ||
| Relative humidity: 10%~90%, non-condensing | ||
| 5. Product Features | ||
| Item | FTTR all-optical primary gateway-FT3620X/FT3630X | |
| WAN Connection | WAN working mode | Support routing working mode, bridging working mode, bridging routing mixed working mode; |
| Each WAN can specify a different VLAN and obtain address. | ||
| WAN isolation feature | Data isolation between different WAN connections is supported. | |
| ARP packets on the network and user side can be isolated | ||
| Layer 2 characteristic | VLAN feature | Receiving untagged, priority-tagged, and tagged packets is supported. |
| Support to add p-bit and/or VID to upstream untagged packets, add VID to priority-tagged packets. | ||
| Support to discard tagged packets. | ||
| Support to un-tag the tagged packets downstream received. | ||
| Support VLAN switch over between the network and user side. | ||
| Packet forwarding | Support port binding data forwarding; | |
| Support data forwarding in VLAN binding mode. | ||
| Support routing and forwarding mode data forwarding | ||
| WLAN | WLAN Port | AX3000 WiFi6 interface, compliant with 802.11ax protocol requirements; |
| Support to enable/disable WLAN function. | ||
| Working frequency band | The 2.4GHz band supports 20MHz, 40MHz, and 20/40M adaptive bandwidth modes. The default bandwidth is 20MHz. | |
| The 5GHz band supports 20MHz, 40MHz, 80MMHz, and 160MHz bandwidth modes. | ||
| Both the 2.4G and 5G band support the uplink and downlink OFDMA function, and support concurrent scheduling STA based on RU. | ||
| Both 2.4G and 5G uplink and downlink support 1024-QAM modulation mode; | ||
| Air Port function | Support WLAN transmission power adjustable; | |
| Support automatic rate regulation; | ||
| Support Target waketime(TWT); | ||
| Supports the configuration of Beacon frame sending interval and DTIM interval. | ||
| Support for DCM and Extended Range function; | ||
| Support multi-antenna beamforming technology; | ||
| Multi-SSID feature | Support multi-SSID function, support 2.4G and 5G dual-band integration by default; | |
| Support to configure different VLANs for different SSIDs. | ||
| The BSSID of each SSID, sending queue, security mechanism, configuration parameters, and binding relationship between WAN connections can be set independently. | ||
| Enable or disable any SSID, and do not affect other SSIDs. | ||
| Sharing and roaming | WLAN sharing is supported to provide WLAN coverage for users. | |
| The primary gateway and sub-gateway devices support 802.11k, 802.11v, 802.11r protocols to realize STA roaming between devices. | ||
| QoS | Support priority based data processing and forwarding; | |
| Support WLAN fair talk; | ||
| Support long OFDM symbol sending mechanism; | ||
| Support Spatial Reuse/BSS Color function; | ||
| Support discrimination based on BSS Color; | ||
| load balancing | Load balancing between the primary gateway and sub-gateway; | |
| Support load balancing based on the no. of access users; | ||
| Support traffic based load balancing; | ||
| Support 2.4G/5G intelligent load balancing; | ||
| address management | IPv4/IPv6 dual-stack | Support for IPv4/v6 dual protocol stack; |
| Support to create IPv4 and IPv6 network connections; | ||
| DS-Lite Function | Supports the DS-Lite function. | |
| Support independent turn on/off based on WAN connection; | ||
| IPv4 address management | The WAN supports independent IP address acquisition. | |
| The WAN supports static IP address configuration,DHCP and PPPOE dynamic IP address acquisition. | ||
| The LAN supports the DHCPv46 server function. | ||
| IPv6 address management | The WAN side can obtain IPv6 address prefixes independently. | |
| The WAN side can obtain IPv6 address prefix from the server in DHCP-PD mode. | ||
| The WAN can obtain IPv6 address prefix from the server in PPPOE mode. | ||
| The LAN supports the DHCPv6 server function. | ||
| NATfunction | Supports the NAT/NAPT function. | |
| Supports the ALG function. | ||
| Supports the Virtual Server (Port Forwarding) function | ||
| DNSfunction | Supports DNS relay; | |
| Support DNS clients of both IPv4 and IPv6; | ||
| Support each WAN connection to the corresponding DNS Server; | ||
| QoS | Traffic flow flag | Support traffic classification based on IP addresses, L4 port no., physical interfaces, and SSIDs; |
| Supports traffic classification based on MAC and 802.1p. | ||
| Support traffic classification based on DSCP; | ||
| Support traffic classification based on protocol type; | ||
| Support the use of DSCP or 802.1p priority tags based on the above classification results; | ||
| Traffic flow | Support bandwidth guarantee and limit mechanism based on data stream; | |
| rate limiting | Support rate limiting for uplink and downlink data flows based on user-side physical ports, VLANs, and IP addresses. | |
| Queue scheduling | Supports 8 priority queues | |
| Support for mapping data streams to different hardware queues; | ||
| Supports SP, WRR, and SP+WRR queue scheduling. | ||
| Session limit | Supports limiting the total number of sessions | |
| VoIP | VoIP function | The primary gateway supports a built-in voice gateway and uses SIP to implement IP telephony services. |
| The primary gateway supports basic call, exception call, and supplementary services. Supports supplementary service functions such as calling number display, call waiting, three-party conversation, and hot line etc., | ||
| The main gateway supports T.30 transparent fax mode and T.38 coded fax mode, and supports fax signal tone detection. | ||
| The main gateway supports MODEM services, MODEM signal tone detection, and transparent MODEM services. | ||
| VPN | IPSec function | Provides secure encryption channels based on IPSec; |
| Supports transmission mode AH, tunnel mode AH, transmission mode ESP, and tunnel mode ESP; | ||
| Support VPN networking modes such as Site to Site and Remote Access; | ||
| Supports pre-shared keys and X.509 digital certificates for VPN authentication. | ||
| Supports DES, 3DES, AES 128, AES 192, AES 256 and other encryption algorithms that comply with the relevant regulations of the national password management. | ||
| Support building IPSec tunnels based on fixed IP addresses and domain names. | ||
| IPSec packets transparently pass through the NAT gateway. | ||
| Support line break detection (DPD) protocol; | ||
| Supports priority processing of different VPN tunnels and non-VPN traffic. | ||
| Support Internet traffic forwarding; | ||
| VXLAN function | Support the VXLAN packet encapsulation format specified in RFC7348; | |
| Support to enable or disable a specified VNI; | ||
| Supports VXLAN MAC address entry management; | ||
| Support fragmentation of large packets; | ||
| L2TP function | Support LAC and LNS; | |
| Supports L2TPv2 function. | ||
| Support L2TP packets transparently pass through the NAT gateway. | ||
| Security Feature | Firewall | Supports the setting of firewall levels and firewall rules. |
| Supports packet filtering based on packet characteristics. | ||
| Anti-attack | Support Anti-dos attack function; | |
| Support to provide anti-port scanning function; | ||
| Support to enable or disable the service port function. | ||
| Limit the number of source MAC addresses learned by each user's LAN port; | ||
| Support static binding of IP and MAC addresses; | ||
| Support for specific protocol broadcast/multicast packet suppression processing; | ||
| Network access security | Supports the DMZ function; | |
| Support access control based on MAC address and IP address; | ||
| URL access control can be achieved by setting the blacklist and whitelist. | ||
| WLAN security | Supports the function of enabling/disabling SSID broadcast. | |
| Supports authentication modes such as Open System, Shared Key, WPA-PSK, WPA2-PSK, and WPA-PSK/ WPA2-PSK etc., | ||
| Supports encryption modes such as WEP(64bit), WEP(128bit), AES, TKIP, and AES/TKIP etc., | ||
| Support China national wireless LAN security standards, comply with GB15629.11-2003; | ||
| Voice security | Support to set and enable OPTION60 to carry encrypted voice account authentication information. | |
| Account password | Debugging account disabling; | |
| The password must be at least 8 characters, contain characters, digits, and special characters. | ||
| Device port security | Remote management protocols such as SSH and telnet are disabled by default. | |
| Management channel security | Prohibit empty password or weak password login; | |
| Hidden backdoors, secret channels, and other forms of backdoors are not supported. | ||
| User authentication | Supports Web Portal-based local Portal authentication. | |
| Users can send online and offline message to related servers. | ||
| Supports authentication for access users on different SSIDs or other interfaces. | ||
| Support authentication exemption whitelist; | ||
| Networking security | Support trunk fiber protection switching function; | |
| Support long luminescent ONU detection capability; | ||
| OAM | OAM function | Support Dying Gasp power failure alarm function; |
| Support built-in service port simulation test function; | ||
| NTP | NTP function | Supports the SNTP Client function. |
| Supports the configuration ofMultiple NTP server addresses. | ||
| Support processing synchronously with the NTP server when the device power on. | ||
| Device synchronization | Primary & sub-gateway | Wi-Fi synchronization: Wi-Fi configuration synchronization, switching Wi-Fi roaming for automatic optimization; |
| Synchronization | Account synchronization: WEB account synchronization automatically synchronizes the user account and password of the primary gateway. | |
| Time synchronization: Synchronize time between the primary and secondary devices, including the time and time zone. | ||
| Item | FTTR all-optical sub gateway-FC3004X | |
| Port characteristic | Uplink GPON port | SC-UPC port; |
| Meet the GPON technical equipment requirements of telecom operators; | ||
| Support abnormal luminescence detection and processing process, support to shut down the optical transmitter; | ||
| User side port | Ethernet port: Supports 4 GE electrical ports. | |
| Support isolation of ARP packets on the network and user side; | ||
| AX3000 WiFi6 interface, compliant with 802.11ax protocol requirements; | ||
| Authentication registration | Discover authentication registration | Support for automatic discover and register to OLT, plug & play; |
| Supports device MAC conversion to PON SN; | ||
| Support LOID and password authentication; | ||
| Support registration silent mechanism; | ||
| Configuration management | Configuration management | Support OMCI-based remote configuration management, comply with G.988 and telecom GPON technical requirements; |
| Support configuration management based on local WEB; | ||
| Gateway configuration | Supports the selection of route bridging mode; | |
| Supports the configuration of PPPOE, DHCP, and static IP addresses in routing mode; | ||
| User-side configuration | Support IP address configuration on the user side of all optical sub-gateway; | |
| Support WLAN on and off, channel selection, bandwidth mode selection, transmission power adjustment, 5GHz band protection interval setting; | ||
| Support the setting of 2.4G-1, 5G-1 name, encryption/authentication configuration, and broadcast cancellation etc., | ||
| Device management | Support hierarchical user management; | |
| Support log file management, support log file write level setting; | ||
| Support software upgrade; | ||
| Support device restart; | ||
| Support to restore factory Settings; | ||
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