Cisco Cisco PowerVu Model D9828 Multiple Decryption Receiver Ficha De Dados
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Data Sheet
Cisco D9800 Network Transport Receiver
Product Overview
The Cisco
®
D9800 Network Transport Receiver (Figure 1) is the most versatile receiver designed offering hardware
configurability and over the air (OTA) licensing that allows content providers to customize the product to support
the gamut of their applications. Designed to support high-efficiency video coding (HEVC) and ultrahigh-definition
(UHD) delivery over satellite and IP terrestrial content distribution networks requiring Digital Video Broadcasting -
Satellite (DVB-S), Digital Video Broadcasting - Satellite - Second Generation (DVB-S2), and IP reception
capabilities, it future proofs the next network expansion. The integrated video decoder can decode an MPEG-2,
advanced video coding (AVC), or HEVC video-encoded service and output the serial digital interface (SDI) or
composite uncompressed video. The D9800 is capable of outputting simultaneous high-definition (HD) and down-
converted standard definition (SD).
Figure 1. Cisco D9800 Network Transport Receiver
Digital Baseband Outputs
The Cisco D9800 Network Transport Receiver is capable of decoding MPEG-2, AVC (if licensed), and HEVC (if
licensed) compressed video content and outputting SDI baseband digital video. The decoder will decode any input
resolution compliant with the codec standard that is licensed to decode. The SDI and composite outputs will
automatically downscale based on the output resolution that the unit is licensed for up to 1080p60. Two SDI ports
can be configured mirrored for redundancy or one native and one down-converted from the same input source.
Digital Program Distribution
The Cisco D9800 Network Transport Receiver offers asynchronous serial interface (ASI) transport output and
MPEGoIP output (HW option). These outputs provide a decrypted program for digital distribution when a codec or
bitrate change is not needed. This capability provides the original compressed video programs on the outputs.
Digital Program Mapping
Digital program m
apping allows programmers to “transparently” substitute programs at the uplink. It maintains
predictable and compliant transport output during service replacement, network information table (NIT) retuning,
and channel changes, including forced tuning. This feature remaps the packet identifier (PID) information from the
primary service to an alternate service, allowing downstream devices to continue to operate without headend
operator intervention. This helps ensure availability of alternate programming in the digital tier.