Comtech EF Data CSAT-5060 Manual do Utilizador descarregar pdf (Página 2)

Header Compression (Option)

Configurable on a per route basis, header compression reduces the bandwidth required for VoIP by as much as 60%. Example: A G.729

voice codec, operating at 8 kbps, requires 32 kbps bandwidth once encapsulated into an IP/UDP/RTP frame. With compression, the

same voice call needs only 10.8 kbps total WAN satellite bandwidth. Typical Web/HTTP traffic can also be reduced by 10% via IP/TCP

header compression.

Payload Compression (Option)

Configurable on a per route basis, payload compression can reduce the required satellite bandwidth by up to 40%.

Quality of Service (QoS) (Option)

The modems supports multi-level QoS to reduce jitter and latency for real time traffic, provides priority treatment to mission critical

applications and allows non-critical traffic to use the remaining bandwidth. Supported modes are:

• DiffServ – Industry-standard method of providing QoS enabling seamless co-existence in networks that implement DiffServ.

• Max/Priority – Provides eight levels of traffic prioritization with the ability to limit maximum traffic per priority class

• Min/Max – Provides a Committed Information Rate (CIR) to each user defined class of traffic with the ability to allow a higher

burstable rate depending on availability

Turbo Product Coding

The optional Turbo Product Codec delivers significant performance improvement when compared to Viterbi with concatenated Reed-

Solomon. It offers increased coding gain, lower decoding delay, and significant bandwidth savings compared to traditional FEC.

Management

The modems support SNMP, web-based and command line interfaces for management. The modems can also be configured and

monitored from the front panel, or through the remote M&C port (for non-IP mode of operation). Ten complete RF configurations may be

stored in the modems. An event log stores alarm and status information in non-volatile RAM, while the link statistics log stores link

performance (Eb/No and AUPC performance) for monitoring and reporting purposes.

G.703 Clock Extension

Mobile networks require precise synchronization of base stations, which is a challenge when using IP backhaul. Most operators are

forced to use GPS-based external equipment for site synchronization. CDM-570/L-IPEN offers a G.703 clock extension option that

propagates a high stability reference from hub to the remote. This process does not require additional bandwidth.

EDMAC & AUPC Operation

The CDM-570/L-IPEN has the ability to monitor and control the distant end of a point-to-point satellite link using EDMAC or EDMAC2.

User data is framed and bits are added to pass control, status, and AUPC information. AUPC can be used to automatically adjust the

transmit power based on the Eb/No feedback from the distant end modem. EDMAC operation is transparent to the user.

FAST Feature Enhancements

The FAST codes make it easy to upgrade the modem capability in the field. New features can be added on site, using FAST access

codes purchased from Comtech EF Data that can be entered via the front panel.

Vipersat Management System

• Dynamic SCPC carrier allocation & true bandwidth-on-demand

• User-defined policies for upstream carrier switching

• Star and full mesh capabilities using single hop on-demand

• Advanced switching takes advantage of using other modulation/forward error correction combinations

• Guaranteed bandwidth capability

VMS Network & Bandwidth Management

A Vipersat-powered network integrates these advanced modems with a powerful network management tool, the Vipersat Management

System (VMS). In addition to the traditional monitoring and control of the CDM-570/L-IPEN modems and the CDD-564/LEN and CDD-

562LEN demodulators, the VMS allows these devices to share bandwidth, and when needed, switch automatically to a dedicated SCPC

channel.

In a Vipersat-powered network, the CDM-570/L-IPEN modem takes advantage of its fast acquisition demodulation to allow it to operate in

a shared mode. Inbound transmissions (from remote to hub) can be switched from a shared Selective Time Division Multiple Access

(STDMA) mode to a dedicated Single Carrier Per Channel (SCPC) connection via a variety of user defined policies or triggers. This

enables the network to more effectively handle real-time connection-oriented applications and reduces both latency and network

congestion. Through VMS, dynamic point-to-point mesh connections can also be established between remotes.

Upstream Switching

Through protocol classification in the remote terminals, the modem initiates automatic switching. VMS establishes dSCPC bandwidth

based on policies that can be individually enabled on a per-remote basis, or globally enabled. Policies can be configured for a variety of

applications such as VoIP, video (VTC), or based on a load, or via a schedule, Type of Service (ToS), or QoS rules such as IP port or IP

address and protocol type. Operators are able to set minimum and maximum data rates for each remote, as well as excess data rates for

an initial upstream switch.

Vipersat Operation Mode

Vipersat operation is enabled via a FAST feature code. Networks can initially be deployed in fixed point-to-point or point-to-multipoint

configurations. As the network grows and users wish to take advantage of the bandwidth on-demand savings by implementing a Vipersat

network, modems can easily be upgraded to Vipersat mode. Vipersat mode provides for the ability to operate in the following

modulation/FEC rates:

1 2 3 4

Satellite Modems 1
Specifications 3

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