Juniper CTP2000-IM-4WEM Ficha De Dados
3
Table 3: CTP Series Key Features and Benefits
APPLICATION
APPLICATION DESCRIPTION
BENEFIT
Full T1 and E1
transport over IP
transport over IP
Transport full T1 and E1 circuits including framing
across the IP/MPLS network.
across the IP/MPLS network.
This feature enables SS7 transport, PBX interconnect, and ISDN PRI
transport over the IP/MPLS network.
transport over the IP/MPLS network.
CTPView
management
management
Secure multiuser network management system
provides network monitoring, circuit provisioning,
IP performance reporting, and circuit
troubleshooting tools.
provides network monitoring, circuit provisioning,
IP performance reporting, and circuit
troubleshooting tools.
Managers quickly deploy circuits and services while proactively
monitoring the network. IP performance reports provide detailed
information on IP network jitter, delay, and packet loss. Circuit
troubleshooting tools include integral BERTS and loops to facilitate
quick trouble resolution.
monitoring the network. IP performance reports provide detailed
information on IP network jitter, delay, and packet loss. Circuit
troubleshooting tools include integral BERTS and loops to facilitate
quick trouble resolution.
Fractional T1 and E1
transport over IP
transport over IP
Transport a single fractional T1 or E1 bundle with or
without framing across the IP/MPLS network.
without framing across the IP/MPLS network.
This feature enables PBX interconnect from smaller remote sites and
ISDN PRI transport with fewer B channels transported over the IP/
MPLS network.
ISDN PRI transport with fewer B channels transported over the IP/
MPLS network.
DS0 grooming and
bundling over IP
bundling over IP
The ability to bundle any number of T1 or E1 DS0
channels and have any number of bundles for each
T1 or E1 to flexibly provision and groom T1 or E1 traffic
over the IP/MPLS network.
channels and have any number of bundles for each
T1 or E1 to flexibly provision and groom T1 or E1 traffic
over the IP/MPLS network.
This feature enables very flexible PBX interconnect from one to many
sites by DS0 channel grooming each T1 or E1 to multiple destinations
over the IP/MPLS network.
sites by DS0 channel grooming each T1 or E1 to multiple destinations
over the IP/MPLS network.
4WE&M analog
transport over IP
transport over IP
Support 4WE&M analog trunking interface with
type I, II, and V signaling options. Convert analog to
digital and packetize for transport over the IP/MPLS
network. Interwork with T1 or E1 DS0s.
type I, II, and V signaling options. Convert analog to
digital and packetize for transport over the IP/MPLS
network. Interwork with T1 or E1 DS0s.
The 4WE&M interface enables the CTP Series to connect directly to
analog PBX voice switch trunks and transport those trunks over the
IP/MPLS network. Bundling of multiple analog trunks into one packet
minimizes IP overhead. Interworking between 4WE&M to T1 or E1
DS0s enables small analog sites to be aggregated into larger digital
T1 or E1 PBX voice switches.
analog PBX voice switch trunks and transport those trunks over the
IP/MPLS network. Bundling of multiple analog trunks into one packet
minimizes IP overhead. Interworking between 4WE&M to T1 or E1
DS0s enables small analog sites to be aggregated into larger digital
T1 or E1 PBX voice switches.
2WFXS and 2WFXO
analog transport
over IP
analog transport
over IP
Support 2WFXS and 2WFXO analog interfaces with
loop and ground start signaling. Convert analog to
digital and packetize for transport over the IP/MPLS
network. Interwork with T1 or E1 DS0s.
loop and ground start signaling. Convert analog to
digital and packetize for transport over the IP/MPLS
network. Interwork with T1 or E1 DS0s.
The 2WFXS and 2WFXO interfaces enable the CTP Series to connect
directly to two-wire analog PBX voice switch interfaces to extend
the phone extension over the IP/MPLS network. Bundling multiple
analog channels into one packet minimizes IP overhead. Interworking
between 2WFXS and 2WFXO to T1 or E1 DS0s enables small analog
sites to be aggregated into larger digital T1 or E1 PBX voice switches.
directly to two-wire analog PBX voice switch interfaces to extend
the phone extension over the IP/MPLS network. Bundling multiple
analog channels into one packet minimizes IP overhead. Interworking
between 2WFXS and 2WFXO to T1 or E1 DS0s enables small analog
sites to be aggregated into larger digital T1 or E1 PBX voice switches.
Voice compression
The voice compression module supports 2.4 K MELP,
8 K G.729, 16 K G.728, 16 K G.726, 32 K G.726, and 64
K G.711 voice compression, and A-Law to mu-Law
conversion. Silence suppression is also an option on
each analog or T1/E1 DS0.
8 K G.729, 16 K G.728, 16 K G.726, 32 K G.726, and 64
K G.711 voice compression, and A-Law to mu-Law
conversion. Silence suppression is also an option on
each analog or T1/E1 DS0.
The voice compression module can compress all analog channels
or T1/E1 DS0s. Compression is software selectable on each analog
or DS0 channel. By using compression and silence suppression,
significant bandwidth savings can be realized.
or T1/E1 DS0s. Compression is software selectable on each analog
or DS0 channel. By using compression and silence suppression,
significant bandwidth savings can be realized.
Echo cancellation
The voice compression module supports an option
for echo cancellation with 32 ms end path delay
per G.168.
for echo cancellation with 32 ms end path delay
per G.168.
The voice compression module can be used to provide echo
cancellation on all analog channels or T1/E1 DS0s. Echo cancellation
is software selectable. This can eliminate the requirement for external
echo cancellation devices.
cancellation on all analog channels or T1/E1 DS0s. Echo cancellation
is software selectable. This can eliminate the requirement for external
echo cancellation devices.
Fax and modem
detection
detection
The voice compression module supports an option
for T.38 fax and modem detection.
for T.38 fax and modem detection.
The voice compression module can be used to detect fax and modem
tones on all analog channels or T1/E1 DS0s. The fax is demodulated
and transported over the IP/MPLS network. The modem is detected,
the compression is bypassed, and the call is transported at 64 Kbps.
tones on all analog channels or T1/E1 DS0s. The fax is demodulated
and transported over the IP/MPLS network. The modem is detected,
the compression is bypassed, and the call is transported at 64 Kbps.
Port mirroring
Port mirroring copies any transmit or receive on
any voice interface and allows it to be sent to 10
different destinations.
any voice interface and allows it to be sent to 10
different destinations.
Port mirroring is a software selection available on any CTP Series
analog channel or T1/E1 DS0. The voice is copied, the signaling is not
copied. Port mirroring allows for a broadcast to multiple locations over
the IP/MPLS network. This can greatly reduce bandwidth requirements.
analog channel or T1/E1 DS0. The voice is copied, the signaling is not
copied. Port mirroring allows for a broadcast to multiple locations over
the IP/MPLS network. This can greatly reduce bandwidth requirements.
Auto switch
The status of CTP Series circuit ports is monitored, and
the circuit is automatically switched to an alternate
local or remote port when a failure is detected.
the circuit is automatically switched to an alternate
local or remote port when a failure is detected.
Network and circuit reliability are increased when the circuits are
automatically restored to alternate locations and equipment in the
event of an equipment, site, or network failure.
automatically restored to alternate locations and equipment in the
event of an equipment, site, or network failure.
Packet protector
Redundant packets are created and transmitted to
the IP network and then processed by the receiving
CTP Series platform.
the IP network and then processed by the receiving
CTP Series platform.
Circuit quality and reliability are increased when IP connections
experience significant packet loss caused by bit errors.
experience significant packet loss caused by bit errors.