Transcript No Slide Title

Advantech AMT:
Power of the Wireless
SSPI – BROADCAST DAY
Rio de Janeiro, June 5th
Claudio N. Frugis
Who are We?
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Founded by David Gelerman; now CEO
1988 – 2001: organic growth & CAGR of 69%
2001 – 2005: 6 company acquisitions; 1 more?
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R&D & High-Tech Product company
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Always profitable over 17 years in business!
Satellite (solid state power amplifier, frequency
converters, repeaters, antenna tracking & control, etc.)
Advanced Modems and integrated terminal solutions
Software (i.e. integrated Cisco compatible routers)
Microwave (true Ethernet, IP and software based)
More than 300 customers
How do we do it?
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Annualised revenues of $200 million USD
Over 550 employees worldwide including almost 300
degreed engineers.
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130,000 sq. ft. manufacturing floor space
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World wide reputation for exceptional quality
of products and services
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ISO-9001:2000 certified
Numerous Patents and industry firsts
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A range of business accolades
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One of Canada’s 50 best managed companies
Best R&D company in Quebec
Best overall company in Quebec
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Keys Markets
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Commercial satellite communications and broadcasting
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Government satellite and microwave communications
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Earth stations: communications teleports and broadcasting centers
IP centric VSAT and corporate satellite networking
Satellite backhaul of mobile cellular infrastructure and WiFi/WiMax
coverage zones
Interactive TV and high speed broadcasting
Military satellite communication networks
Military microwave subsystems for use in C4ISR systems
Homeland security and surveillance
Microwave terrestrial communications and broadcasting
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Backhaul of mobile cellular infrastructure and WiFi/WiMax coverage
zones and other telco applications
Enterprise IP centric wireless links
High speed SDH trunking
MMDS video, data and voice over IP networks
Offices in the World
Advantech Offices World Wide
AdvantechAMT Organization
Services
Microwave Portfolio
AMR Streamline
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TN-X/40
7 - 38 GHz
2 - 36 Mbps Ethernet
2 - 17xE1
E3 + E1
Fully modular
Layer 2 switch with QoS
True IP based management
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7 - 38 GHz
8 - 100 Mbps Ethernet
Wayside 4xE1
Adaptive Coding and
Modulation (ACM)
Layer 2 switch with QoS
True IP based management
Baseband Unit with 17xE1
• RFU HP
• RFU EHP
• RFU MA
 Capacity of 22x155 Mbps protected in 1:11
 Triple Forward Error Correction (FEC)
 Integrated 1:N errorless switching
TN-X/30
AMR Transcend
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 Highest bandwidth efficiency
512 QAM  8 b/s/Hz  1 x STM-4 per bay
access Node Controller (aNC)
 128 QAM  5.83 b/s/Hz  1 x STM-4 per bay
 1xSTM-1 optical interface with optional protection
 3xE1 wayside channels with optional protection
DVB-RCS Portfolio
Pay-as-You-GrowTM Solutions
 Key system elements are modular & upgradeable
 Pay for capacity & capability only as your network grows
Micro
Micro
Mini
Max
DVB-SCPC
hub
DVB-RCS
hub
DVB-RCS
hub
DVB-RCS
hub
DDVB-S/S2 Outbound
SSCPC Inbound
UUpgradeable to RCS
Economic for networks
of 10’s of Remotes
DDVB-S/S2
Outbound
DDVB-RCS Inbound
FFull performance
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Economic for
networks of 100’s of
Remotes
DDVB-S/S2 Outbound DDVB-S/S2 Outbound
DDVB-RCS Inbound
DDVB-RCS Inbound
SScalable capacity
MMaximum capacity
Economic for networks
of 100’s to 1000’s of
Remotes
Economic for specialized
networks, or networks of
1000’s of Remotes
Mobile DVB-RCS - Car News
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Deployed & ready for service in under 5 minutes
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No technical intervention required
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Available in 76cm, 96cm or 1.2m with 1W, 2W or 4W Ku BUC
Mobile DVB-RCS
DVB-RCS Based Approach
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Broadband operation in Ku and Ka FSS bands on
secondary basis to fixed satellite and terrestrial services
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Comply with FSS off-axis emission requirements using
spectrum spreading, if required, for both return and forward
links
Comply with flux density limits of other terrestrial services by
monitoring of mobile terminal location and shutting down of
transmission in exclusion zones (defined proximity to
terrestrial facilities )
Doppler pre-compensation in terminal
Handover of forward and return path carriers, rerouting
of traffic and signalling and reassignment of associated
logical resources and identifiers.
Mobile DVB-RCS
System Architectures & Scenarios:
System architecture
Transparent satellite
DVB-S/S2
(with spreading)
Forward link
DVB-RCS
(with spreading)
Return link
Aircraft
Gateway
Aircraft
Ship
Train
NOC
Terrestrial
Network
Gateway
NCCs
RF & Modem Portfolio
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S / C / Ku / Ka / X Bands
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Solid State Power Amplifiers
Phased Combined Systems
Block Up Converters
Transceivers
Up/Down Converters
Boosters
LNAs/LNBs
Redundancy Switches
Modems
Antenna Controllers
INTRAC 305 Antenna Controller
for Andrew Antennas
1000 Watt Phase Combined C Band SSPA
With Backup Redundancy, Hub Mount
AMT-75
DVB-S2
New Contribution systems
Advantech AMT75 Modems (1)
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Modulator and Demodulator in one 19inch rack unit
ASI / HSSI / RS-422 / RS-530 / 10/100 Base-T / E-1 / E-3
interfaces
DVB-S / DVB-DSNG backward compatibility
SNMP Control, Web control, RS232 or Telnet CLI and RS485
packet protocol
DC power option
L-Band Modem (950 –2000MHz TX)
950-2150MHz RX
LNB power and 22kHz switching tone
Active front panel
Separate IP interface for data and control
Advantech AMT75 Modems (2)
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Only Broadcast Demodulator supporting SHORT
FEC Blocks today
Widest bit-rate and Symbol rate of any DVB-S2
Modulator / Demodulator or Modem
Supports up to 32APSK today
Fully Supports DVB-S2 Generic stream mode now
Based on an FPGA professional demodulator not a
QPSK/8PSK only consumer demodulator chipset
Advantech AMT75 Modems (3)
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Support for both SHORT and NORMAL FEC
frame
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NORMAL FEC Block is 64Kbits
SHORT FEC Block is 16Kbits
Latency is between 1 and 2 blocks
Below 1Mbps NORMAL block can introduce
significant latency!
Bit-rates from 128Kbps to >100Mbps from one
unit!
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Store and Forward at 256kbps and HD H.264 4.2.2
at 20Mbps or even higher can be supported by the
same Modem
Advantech AMT75 Modems (4)
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Simple ACM support if return link is present
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System simply adopts the highest throughput available
on the link
If conditions deteriorate then the Modulation / Coding is
made more rugged and the bit-rate reduced
Reduce the number of ‘live’ link failures
Receiver auto-configures Modulation and Coding
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Users just have to enter Frequency and bit-rate
Modulation and Coding data is carried in a well
protected header before each FEC block
This is how ACM is signalled
For Direct-to-Home Broadcasters
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Chipsets are available now
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Likely operating mode will be
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All support a limited subset (QPSK/8PSK)
Constant Coding Modulation only
8PSK
Rate 2/3
Typically 30MSymbols/S @ 0.20 roll-off
Giving 59Mbits/S compared to 37Mbits/S today
60% more data with little change in
operating point
Add MPEG-4 to the mix for a channel
explosion!
Spectrum Comparison
DVB-S QPSK ¾
35Mbps 34.2MHz B/W
DVB-S2 8PSK 2/3
35Mbps 19.2MHz B/W
For Contribution links
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DVB-S2 was also designed to replace DVB-DSNG
For the same spectrum efficiency S2 offers..
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2.5dB better performance at QPSK
1.5dB better performance at 8PSK / 16-APSK
DVB-S2 DSNG specific features
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Next generation Contribution Links
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MPEG-4 4.2.2 HD and SD
Store and forward functionality
Bi-directional satellite link
IP based H.264 option
VOIP / Web-surfing / Intranet / FTP features
DVB-S2 has in the tool-box
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SHORT FEC FRAME (16Kbit blocks)
Generic Stream Mode (efficient IP transmission)
Adaptive Coding Modulation (better link
robustness)
For Distribution links
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VCM would allow services to be transmitted on
one signal tailored for different link budgets
Radio on QPSK ½ to 1m dishes
HDTV on 16APSK 5/6 to 3m dishes
For Data providers
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ACM could revolutionise DVB-RCS type
systems
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Each user gets ‘tailored’ Modulation / Coding
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Service can tolerate rain fade via ‘dynamic
ACM’
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ESA predicts a 2.6 fold increase in throughput
with DVB-S2 and ACM
Brazil’s Regulatory Issues
3G/UMTS
 WiMax
 Pay TV via Satellite
 Pay TV via Cable (MMDS)
 IPTV (internet)
 VoIP
 Fixed Telephony
 Legacy Data Com.
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FULL SERVICES CONVERGENCE
Evolution of Services
Market sophistication/
phase
New
Convergence
Convergence
Fixed/Mobile
Maturing
QUADRUPLE PLAY
TRIPLE PLAY
Start-up
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Time
Start-up
Low Maturity
Coverage
Basic Products
Pricing
Market Communication
Distribution
• Service quality
• Innovative Value Added
Services
• Segmentation / Target
Markets
• Improved Customer care
• Profitability
• Churn Problems
High Maturity
• Customer need for
convergent services
• IT/Technical solutions
for convergence
• Positioning
• Branding
• Organizational change
• Fidelization Program
Advanced
• Customer need for
multi-media services
• Bandwidth Consumption
• Broadband Access
• Technology options for
Quadruple Play
• Expanding in the value
chain
• Fusion companies
• Solution for Mass
The Convergence Perspective
Broadband
Integrated
Multimedia
2010
Integrated
Content
2009
Interactive
TV
2008
Mobile
Commerce
2007
Virtual
Office
2006
Mobile
Banking
Push/pull
Content
Mobile
Data
VPN
Unified
Messaging
Education
Services
VoIP
E-Commerce
Interactive
Content
Fixed
Telephony
Hosting
Satellite
Customers’ desire to use services, regardless of place,
time and technology will lead to a further convergence
of technologies.
Competitiveness x IP : a new dimension view
Intl IP Bandwidht Mbps
200K
Estados Unidos
Singapura
150K
Itália
Taiwan
100K
Argentina
República Checa
Eslováquia
Venezuela
50K
Suíça
Noruega
Islândia
Hong Kong
Espanha
Portugal
Grécia
Coréia
França
Áustria
Bélgica
Japão
Australia
Reino Unido
Dinamarca
Alemanha
Holanda
Canada
Irlanda
Israel
Nova Zelândia
Finlândia
Suécia
Chile
Malásia
Polônia
Ilhas Maurício
Mexico
Hungria
Costa Rica
Turquia
Bulgária
China
Peru
Brasil
Russia
África do Sul
El Salvador
Equador
FilipinasThailand
Indonesia
Egito
Jordânia
Ucrânia
India
Bolivia
Zimbabwe
Vietnã
Colômbia
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-2
-1
0
1
MicroEconomy Competitiveness Factor
2002
2
AMT75 – IP Router Functionality
Standard Features:
 Physical Interfaces:
• Up to 8 E1/T1 G.703 compatible balanced
• EIA - 530 up to 20Mbps
• RS422 Synchronous Overhead Channel
• 10/100Base-T for data and control(optional)
 VLAN (IEEE 802.1Q, ISL)
 WAN interfaces:
• APOC TDM with multiple containers
• IBS/IDR TDM
• HDLC
• Frame Relay
• PPP
• TCP/IP stack
 Routing: static, dynamic (RIP v.1, v.2);
 Packets filtering; Static and Dynamic IP routing (RIP v 1 & 2)
 DHCP Server
 Network Address Translation (NAT)
 Packet Filtering (Firewall)
 Quality of Service support to Level 3 (QoS)
 Command line interface (Industry Standard – CISCO COMPATIBLE)
 SNMP v.1 & v.3, MIB II
 Built in Diagnostic Tools
 2 FXS Telephony Interfaces (optional)
 MTU : JUMBO FRAME (2000 BYTES) – MPLS CONNECTIVITY
Office in Brazil
Claudio N. Frugis
Regional Sales Director
R. Bandeira Paulista, 477, sala 55
04532-011, Itaim, São Paulo, SP, Brazil
Mobile: +55 11 7692 8662
Email: [email protected]
http://www. AdvantechAMT.com