1U height, full front access(ETSI) unit or front and back access(ANSI) unit
Rack mount, wall mount, and stand-alone
WAN Ports
-Up to 16 E1/(T1*)
(4 slots, 4 E1/(T1*) ports per hot plug in card)
-E1/T1* is software configurable
Tributary Ports
-Fixed on main board
- Up to 4 10/100 Fast Ethernet(FE)
-Optional daughter card fixed on panel
-1 Optical FE*
-1 Optical FE(SFP housing)*
-2combo Gigabit Ethernet(GbE)* with 2 RJ45 and 2 SFP housing
-1 DTE(V.36)*and 1 asynchronous RS232*. DTE optional interfaces can be either V.36/RS449, V.35 compatible, EIA530, or X.21
Power modules
-Hot-swappable -48Vdc plug-in modules
(-36 to -75 Vdc), dual for redundancy
-AC plug-in module(100 to 240 Vac), dual for redundancy(ANSI only)
-AC and DC(coexistent) fixed module(100 to 240 Vac and -36 to -75 Vdc)
WAN link with virtually concatenated n x E1/(T1*), where n can be 1 to 16
Encapsulation protocol: GFP, LAPS and PPP(without LCP)
Differential delay, up to 256ms for E1 and 384ms for T1*
VLAN packet transparency
-Packet size up to 12,000 bytes
-IEEE 802.1ad Q-in-Q
Timing sources for primary and secondary clocks are any one of E1/(T1*), DTE*, internal, external (manufacture option)
Alarm relay
Firmware download to local unit and remote unit
Management port and interface
-LCD with keypadon ANSI front panel
-Console port, VT100 menu-driven
-SNMP port
-SNMPv1
-Telnet via SNMP port
-LoopView GUI EMS
-Inband management in traffic bandwidth
RoHS Compliance Product
The Loop-IP6416 IP Inverse Mux is a media converter. It allows service providers to offer Ethernet services over the existing copper infrastructure and a typical SONET/SDH platform at the central office. The Loop-IP6416 has many unique features. When a line card is enabled on the Loop-IP6416, the CPE maps Ethernet frames EIA530/V.36 and RS449 into bonded PDH signals. Connectivity is provided from tributary traffic to E1/T1 WAN through multiple E1/T1s (up to 16 E1/T1 links). The Loop-IP6416 offers up to 16 E1/T1 ports with an LED for each port. It has automatic E1/T1 channel failure detection and can re-assign the number of E1/T1 channels transporting Ethernet traffic. For example, if there are 16 E1s configured for 10/100 Ethernet traffic transport, and one E1 fails during service, the other 15 will pick up the entire load. This minimizes the loss of IP packets
