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GL-X8007U-RP(4GE+1POTS+POE)
Category:
MDU
Product Details
Product Overview
The X8007U-RP is an ONT device terminal in the EPON system, working with the OLT to provide a variety of broadband services to connected users, including Internet, VoIP, IPTV, and video conferencing. It is based on the mature, stable, and cost-effective XPON technology, offering one PON interface, four 1000M powered POE electrical interfaces, and one USB interface. Utilizing single-fiber wavelength division multiplexing (downlink 1490nm, uplink 1310nm) technology, it requires only one fiber to connect with the OLT, supporting a maximum transmission distance of 20 kilometers. The device also features power failure reporting and local WEB management capabilities.
Product interface
Interface: Hardware interface. From left to right, the interface sequence is: pon interface, voice port, network port 4-telephone port 1, wireless switch, reset key, USB interface, DC 48V interface, power switch.
Indicator lights: LED defines from left to right: power supply, optical fiber G, optical signal, broadband, telephone, network port 1-4, USB
Product features
1. The HGU ONU product form supports bridging and NAT mode;
2. BOB product process ;
3. 802.11b/g/n Wireless access;
4. Wireless uses 2*3dBi external dual antenna;
5. USB interface supports configuration save and restore;
6. Provide a VOIP interface to connect to a regular telephone;
7. 12V/1.5A Powered by external power supply.
Power supply characteristics of POE
Supports IEEE802.3af and IEEE802.3at,
MSCC automatic extension, semi-automatic, automatic mode;
Maximum output power: 25W;
Working temperature: -10 to 85 degrees
Built-in 3.3V and 5V voltage regulator
Product key features
Processor features
CPU processor at 600MHz, I-Cache: 64KB, D-Cache: 32KB;
Realtek VoIP processor 500MHz, I-Cache: 32KB, D-Cache: 16KB;
Key features of the product:
EPON
Complies with IEEE 802.3 EPON MAC standard;
The support downlink rate is 1.25Gbit/s, and the uplink rate is 1.25Gbit/s;
Supports DS/US FEC;
Supports downstream encryption and decryption functions;
Supports bandwidth allocation;
Supports synchronous Ethernet function;
Supports RFC4837 compliance;
Business performance
Two-layer data services are forwarded in both directions at line speed, and 2K MAC address tables are supported in bridge mode;
3/4 layer hardware NAT/NAPT;
Support 802.3, 802.1Q Tag/Untag Ethernet frames;
Supports ACL rules in MAC, IP, TCP/UDP, ICMP, IGMP, and IPV6 formats;
Each port has eight priority queues and supports 32 shared tables with an 8kbps granularity;
Supports MIB counters, MIB-II RFC 1213, ethemet-like MIB RFC 3635, interface group MIB RFC 2863, RMON RFC 2819, bridge MIB RFC 1493, bridge MIB branch RFC26741, ITU G.984.4 OMCI ME MIBs;
Supports 8 enhanced filtering database stacking VLAN and port isolation usage;
Supports port mirroring with multicast monitoring source ports to monitor target ports;
Supports port IEEE802.3ad link aggregation, up to 4G bandwidth;
Supports OAM and EEELLDP;
Support loop detection, IGMP/MLD detective trap function;
Ethernet supports 802.1Qav and 802.1AS/1588v2 timing synchronization;
Support DOS attack prevention;
Supports IEEE 802.3az energy efficient Ethernet capabilities, 1000Base-t, 00Base-TX full-duplex and 0Base-full/half-duplex modes;
Supports entry-based traffic control. For services that exceed the traffic, you can choose to drop packets or Pause frames to counter pressure;
Support QoS function;
VIOP characteristic
Single channel selection, 105V most battery design
Several options are available for PCM/SPI or ZSI
Small size, 84-pin 7*7mm QFN component
The VOIP processor and SOCS use the fifth generation line interface
Voice path SDK and VP-API-II software can implement FXS function
Energy saving switch control structure: up to 65vrms open circuit, up to 5REN load
Two-layer PCB design with complete bandwidth BOESCHT function
Analog telephone adapters (ATAs)
specifications
description | sign | test ondition | Min | typ | max | unit |
Environmental temperature, bias | Ta |
| -40 |
| +85 | ℃ |
Digital and analog power voltages | DVDD,AVDD |
| 3.135 | 3.3 | 3.465 | VDC |
Extreme operating conditions: battery voltage (active state) |
|
| -105VDC TO -12VDC | VDC | ||
line current | ILA |
| 18 | 25 | 45 | mA |
Ring voltage | Vring | 5REN |
| 50 | 65 | Vrms |
Second order return loss | RL | 200to3400HZ |
| 30 |
| dB |
longitudinal balance |
| 1KHZ |
| 58 |
| dB |
Equipment power consumption (continuous) | Pd(max) | 85 degrees |
| 1.5 |
| W |
Connect to the ambient thermal resistance |
|
|
| 29 |
| ℃/W |
Device power consumption (Buck-Boost) | sign | test condition | TYP | Unit |
Shutdown | PD | Switcher off | 8 | mW |
disconnect |
| 37 | ||
Low power Idle mode | On-hook | 52 | ||
Idle | On-hook | 98 | ||
active | Off-hook,300Ώ,ILA=25mA | 324 | ||
ringing | 50Vrms,1REN | 462 |
wifi characteristic
Technical standards: IEEE802.11b,IEEE802.11g,IEEE802.11n;
Modulation mode: 802.11b: DSSS/BPSK/QPSK/CCK
802.11g:OFDM/DSSS/BPSK/QPSK/CCK;
802.11n: OFDM/DSSS/BPSK/QPSK/CCK;
Rate: 802.11b: compatible with 11,5.5,2,1 Mbps;
802.11g: Compatible with 54,48,36,24,18,12,9,6 Mbps;
802.11n: Compatible with 130,117,104,78,65,58,52,39,26,19.5,13,6.5Mbps;
Channel: 1~11 (USA, Canada); 1~13 (Europe); 1~14 (Japan);
Frequency range: 2.4GHz-2.4835GHz;
Transmission power: 11b:17dBm +/-1.5dBm;
11g:14dBm +/- 1.5dBm;
11n:11dBm +/- 1.5dBm;
Receiving sensitivity: 11b:83dBm;
11g:70dBm;
11n:64dBm;
Coverage: up to 100m;
Security: 64/128-bit WEP; WPA/WPA2;
Number of antennas: 2*3dBi built-in antenna;
Support protocols and standards
ITU-T G.984.1/2/3/4, IEEE802.3, IEEE802.3u,, IEEE802.3x, IEEE802.3z, IEEE802.1d, IEEE802.1p, IEEE802.1q, IEEE802.1x, RFC1155, RFC1157, RFC1112, RFC1113, etc
Application solution: FTTX

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FAQ
Listed below are answers to our most commonly asked questions. Don't see your question?Contact our customer service team. We would be glad to assist you.
What is an optical network terminal (ONT)? How does it differ from a regular modem?
What is the architecture of a fiber optic network (PON)?
What are the functions of the PON port and LAN port on an optical network terminal (ONT)?
Why does the optical network terminal need to register LOID/SN?
Optical modem dialing vs. router dialing: which is better?
How to determine whether the fiber optic signal is normal?
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