LIVING ON THE EDGE (QAM)
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Transcript LIVING ON THE EDGE (QAM)
Edge QAM Overview
Chris Brown,
Sr. Product Manager, Motorola, Inc.
EQAM’s and Bandwidth
What is the relationship?
• MSO’s need more bandwidth to offer more content
– Offer more HD
– Offer more VOD/on-demand
– Offer more high speed data (Internet Access)
• BW Reclamation and Expansion
– Use SDV to reclaim BW
– Digital Simulcast, DTA, and the transition to all digital
– Create new BW: expand to 1 GHz plants
• When more BW is available:
– What to do? Add more QAM channels
– How to do it? Install more EQAM devices!
SCTE DVAC
Technical Seminar
Slide: 2
December 10, 2008
EQAM: Gateway to the Home
Enables services such as broadcast video, VOD, and Internet
• Deliver Narrowcast Content
• GigE to QAM/RF
• Deliver digital video and audio
VOD Content
DSR
• Deliver high speed data
Broadcast Content (including SDV)
– M-CMTS
– DOCSIS 3.0 channel bonding
• Competition
Internet
– Functionality and reliability
– Density
– Price/QAM
SCTE DVAC
Technical Seminar
GigE Switch
– VOD and SDV
– Broadcast Video
EQAM
QAM RF
STB
Cable
Modem
M-CMTS
Core
DOCSIS High
Speed Data
Slide: 3
December 10, 2008
Narrowcast Bandwidth
Trends
• Tuners (STB’s) per downstream service group are decreasing
• QAM channels per downstream service group are increasing
• QAM channels per EQAM RF port are increasing (density)
• $$/QAM channel is decreasing
• Capacity for simultaneous usage is increasing
– Approaching Switched Unicast Model!
SCTE DVAC
Technical Seminar
Slide: 4
December 10, 2008
Narrowcast Growth
The path to switched unicast!
Narrowcast Bandwidth
600
120.0%
500
100.0%
400
400
400
80.0%
300
60.0%
200
200
200
40.0%
100
20.0%
4
8
12
8
Max. Simultaneous Usage
Tuners / Service Group
500
Tuners Per
Service Group
QAM's Per
Service Group
Maximum
Simultaneous Usage
20
0
0.0%
VOD (2006)
SCTE DVAC
Technical Seminar
VOD/SDV
(2008)
Move to all
digital (2009)
Narrowcast
Expansion
(2010)
Slide: 5
Switched
Unicast (2015)
December 10, 2008
Narrowcast Growth
Narrowcast Expansion (2010)
VOD (2006)
x2 EQAM
1 RF port
x2 EQAM
VOD
VOD
DS Service Group
(200 connected
Tuners)
(2 QAM Channels)
DS Service Group
(400 connected Tuners)
1 RF port
x2 EQAM
1 RF port
(2 QAM Channels)
1 RF port
x2 EQAM
VOD
(2 QAM Channels)
VOD
(2 QAM Channels)
1 RF port
x8 EQAM
VOD/SDV (2008)
x2 EQAM
VOD/SDV
(8 QAM Channels)
Switched Unicast (2015)
1 RF port
VOD
x8 EQAM
(2 QAM Channels)
1 RF port
(8 QAM Channels)
DS Service Group
(200 connected
Tuners)
DS Service Group
(400 connected Tuners)
1 RF port
1 RF port
x2 EQAM
x8 EQAM
VOD
(2 QAM Channels)
(8 QAM Channels)
1 RF port
x4 EQAM
1 RF port
x4 EQAM
SCTE DVAC
Technical Seminar
SDV
(4 QAM Channels)
(4 QAM Channels)
Slide: 6
December 10, 2008
End Game: Switched Unicast
Dedicated BW per Subscriber!
• Switched Unicast allow for 100% simultaneous usage
• Each subscriber has their own digital channel
– Tuning happens in the headend
• Each subscriber is individually accessible
– Accessibility of an IPTV system
• Huge opportunity for highly targeted advertising
– Send relevant custom advertisements to individual subscribers
SCTE DVAC
Technical Seminar
Slide: 7
December 10, 2008
EQAM Key Features
Economics
GigE Reception
– Price/QAM
– De-jitter capability (buffer size)
– Support for IGMP V3
– Transport Stream Redundancy
Environmental
– Physical size (RU) and weight
– Power draw (watts/QAM)
– Operating Environment
Systems and protocols
– SDV standard protocols
– Standardized UDP port mapping
– M-CMTS
QAM/RF Output
– RF performance (DRFI)
– Frequency Range
– QAM density (QAM/RF port)
– RF output redundancy
– Output level / combining
SCTE DVAC
Technical Seminar
Encryption
– Broadcast encryption
– VOD encryption (CTE/Privacy)
– DTA security
Slide: 8
December 10, 2008
System Diagrams
EQAM Usage
SDV System Diagram
Central
Headend
Hub
DSR’s
(Cherry Picker)
RF
Inputs
ARPD
RF
Inputs
ARPD
common
analog content
common digital
broadcast content
(fixed, not SDB)
GbE
Distribution
WAN
(App Net)
HFC Network
To another
Node Group
Each SPTS transmitted using a different
destination multicast IP address
Slide: 10
Node Group
GbE Switch
SCTE DVAC
Technical Seminar
ARPD
APEX
EQAM
RF
Outputs
Node Group Cable Plant
Rate Clamping
Function
ERM
RF
Inputs
RF Combining Network (DSP)
Broadcast
Content
SVM1000
OM-1000
SPTS’s
GbE Switch
Network
Encryptor
SVOM
1000
NC-1500
RADD
Motorola OAM&P Network
SDM
WAN
(OAM&P)
3'rd Party Application Network
Motorola OAM&P Network
DAC-6000
STB
December 10, 2008
M-CMTS System Diagram
Use GPS to synchronize local
and non co-loacted DTI servers
(if needed). Alternative optical
fiber connection is optional)
DOCSIS Time
Server B
(co-located)
DOCSIS Time
Server A
DOCSIS Time
Server C
(not co-located)
DOCSIS timing
interface (DTI)
DOCSIS timing
interface (DTI)
DOCSIS timing
interface (DTI)
Internet
US
DEPI and Video
EQAM
QAM/RF
DEPI
DRFI
EQAM
QAM/RF
Additional
EQAM’s
QPSK or QAM
DHCP Server
ERMI to
M-CMTS Core
TFTP Server
Ifc. To
VOD System
Edge
Resource
Manager
STB
HFC Network
Integrated
Upstream
Edge
Network
(N Hops)
GbE Switch
10/100 BaseT Network
Router
GbE Switch
NSI
M-CMTS Core
(DOCSIS MAC)
Downstream
External Phy
Interface (DEPI)
DS
CM
ERMI to
EQAM’s
NGOD R6 to
EQAM’s
CPE (PC)
GbE
VOD
System
Switched
Video Manager
GbE
GbE Switch
IRD
IRD
SCTE DVAC
Technical Seminar
Ifc. to EQAM’s
GbE
Network
Encryptor
GbE
Network
Encryptor
GbE
GbE
Slide: 11
December 10, 2008
Motorola’s APEX1000
Advanced EQAM
Motorola’s
APEX1000 EQAM
Motorola’s APEX1000
Motorola’s advanced universal EQAM
Support SDV, VOD, broadcast, and DOCSIS all in the same platform
Advantages:
• Very High QAM density
• Flexible and Cost Effective Platform
• Very low power consumption
• < 5 Watts/QAM channel
• MediaCipher CA and VOD encryption
• No license fees
VOD Content
Broadcast Content (Linear and SDV)
Internet
GigE Switch
DSR
APEX1000
QAM RF
STB
Cable
Modem
M-CMTS
Core
DOCSIS High
Speed Data
SCTE DVAC
Technical Seminar
Slide: 13
December 10, 2008
APEX1000 Product Summary
MediaCipher CA
1 RU Chassis
Up to 48 QAM channels
3 Removable QAM
Modules
BCAST and VOD CTE
No license fees
SDV Support
Standards Based Solutions
NGOD/RTSP
Hot-swappable
2 RF Ports per module
Up to 8 QAM’s / port (adjacent)
M-CMTS Functionality
DTI HW (initial release)
DEPI, DTI, ERMI (download)
RF: 54 MHz to 1 GHz
4 GbE ports
RF Performance (DRFI)
Environmental / Power
Power Supplies
Available in AC and DC models
Dual Redundant / Load Sharing
Hot Swappable
< 5 Watts/QAM channel
SCTE DVAC
Technical Seminar
Up to 48 QAM
Channels in 1 RU
Slide: 14
December 10, 2008
APEX QAM Module Options
2x4 QAM Module (lower overall cost)
• 2 RF ports
• 1,2, or 4 adjacent QAM’s per port
2x8 QAM Module (lowest price/QAM)
• 2 RF ports
• 1,2,4,6, or 8 adjacent QAM’s per port
A chassis can hold any
combination of (2x4)
and (2x8) modules
QAM Module Conversion Option
• 2x4 Module can be field converted to 2x8 Module
• Defer cost of additional QAM capacity until needed
SCTE DVAC
Technical Seminar
Slide: 15
December 10, 2008
Two existing SEM V8's.
Each provides 1 RF port to
the SG (2 QAM’s). Add in
1 new advanced EQAM
(desire 4 QAM/port). Total
of 8 NC QAM’s per SG
Existing Plant
Service Groups and
Narrowcast Content
Narrowcast Content
SEM V8
1 RF port
VOD
(2 QAM Channels)
1 RF port
SEM V8
VOD
(2 QAM Channels)
DS Service Group
(400 connected STB’s)
1 RF port
APEX1000
(4 or 8 QAM
Channels)
SDV
One APEX1000 provides 8
QAM’s per port to carry all
VOD and SDV to the service
group in one RF port.
Greenfield Expansion
Narrowcast Content
1 RF port
APEX1000
VOD & SDV
(8 QAM Channels)
SCTE DVAC
Technical Seminar
Slide: 16
DS Service Group
(400 connected STB’s)
December 10, 2008
APEX1000 RF Redundancy
RF Switch System: REM1000
APEX Module Redundancy
8 QAM
VOD
and
SDV
SG #1
APEX 1000
8 QAM
1
6 ports x 8 QAM
VOD
and
SDV
SG #2
2
6 ports x 8 QAM
…
REM1000
10
APEX 1000
8 QAM
• Each block of 8 QAMs flexibly serves VOD and SDV services
• All QAMs fail over seamlessly to backup
VOD
and
SDV
SG #10
• APEX platform highly reliable with dual redundant P/S
SCTE DVAC
Technical Seminar
Slide: 18
December 10, 2008
REM1000 Redundancy Switch
• REM 1000 Overview
–
–
–
–
–
Used to protect against APEX module failure
Eliminate need to re-wire RF if APEX module fails
Switch has 12 RF inputs and 10 RF outputs
Two APEX1000 units per each REM1000 switch
APEX optional redundancy configuration
• Each APEX can provide up to 5 RF outputs (up to 40 QAM)
• One RF output is redundant
• REM1000 Requirements
– Bi-directional communication with APEX units
– 3 Ethernet ports (allow point to point connections, APEX to switch)
– Fail in passive manor so not single point of failure
SCTE DVAC
Technical Seminar
Slide: 19
December 10, 2008
Thank You!
Christopher W. Brown
Motorola - Home & Networks Mobility
DVS Headend Product Marketing
Phone: (215) 323-1739, Fax: (215) 323-0098
Email: [email protected]
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