Earth Station
Design, Implementation, Operation and Maintenance
for Satellite
Communications
Presenter: Bruce R. Elbert,
President, Application Technology Strategy, Inc., and Adjunct Professor,
University of
Text: Elbert, Bruce R., The Satellite Communication Ground Segment and Earth Station
Engineering Handbook, Artech House, 2001.
Classes: June 7 10, 2010 @ ATI
Courses in Beltsville, MD
More Information: http://www.aticourses.com/earth_station_design.htm
This
intensive five-day course is intended for satellite communications engineers,
earth station design professionals, and operations and maintenance managers and
technical staff. The course provides a proven approach to the design of modern
earth stations, from the system level down to the critical elements that
determine the performance and reliability of the facility. We address the essential
technical properties in the baseband and RF, and delve deeply into the block
diagram, budgets and specification of earth stations and hubs. Also addressed
are practical approaches for the procurement and implementation of the
facility, as well as proper practices for O&M and testing throughout the
useful life. The overall methodology assures that the earth station meets its
requirements in a cost effective and manageable manner.
DAY 1
Ground Segment and Earth Station
Technical Aspects
·
Evolution
of satellite communication earth stationsteleports and hubs
·
Earth
station design philosophy for performance and operational effectiveness
·
Engineering
principles
Propagation considerations: the isotropic source, line of sight, antenna
principles
Atmospheric effects: troposphere (clear air and rain) and ionosphere (Faraday
and scintillation)
Rain effects and rainfall regions; use of the DAH and Crane rain models
Modulation systems (QPSK, OQPSK, MSK, GMSK, 8PSK, 16 QAM, and 32 APSK)
Forward error correction techniques (Viterbi, Reed-Solomon, Turbo, and LDPC
codes)
Transmission equation and its relationship to the link budget
·
Radio
frequency clearance and interference consideration
RFI prediction techniques
Antenna sidelobes (ITU-R Rec 732)
Interference criteria and coordination
Site selection
RFI problem identification and resolution
DAY 2
Major Earth Station Engineering
·
RF
terminal design and optimization
Antennas for major earth stations (fixed and tracking, LP
and CP)
Upconverter and HPA chain (SSPA, TWTA, and KPA)
LNA/LNB and downconverter chain
Optimization of RF terminal configuration and performance
(redundancy, power combining, and safety)
·
Baseband
equipment configuration and integration
·
Designing
and verifying the terrestrial interface
·
Station
monitor and control
·
Facility
design and implementation
Prime power and UPS systems
Developing environmental requirements (HVAC)
Building design and construction
Grounding and lightening control
Hub Requirements and Supply
·
Earth
station uplink and downlink gain budgets
EIRP budget
Uplink gain budget and equipment requirements
G/T budget
Downlink gain budget
·
Ground
segment supply process
Equipment and system specifications
Format of a Request for Information
Format of a Request for Proposal
·
Proposal
evaluations
Technical comparison criteria
Operational requirements
Cost-benefit and total cost of ownership
DAY 3
Link Budget Analysis using SatMaster
Tool
·
Standard
ground rules for satellite link budgets
Frequency band selection: L, S, C, X, Ku, and Ka
Satellite footprints (EIRP, G/T, and SFD) and transponder plans
·
Introduction
to the user interface of SatMaster
File formats: antenna pointing, database, digital link budget, and
regenerative repeater link budget
Built-in reference data and calculators
Example of a digital one-way link budget (DVB-S) using equations and
SatMaster
·
Transponder
loading and optimum multi-carrier backoff
·
Review
of link budget optimization techniques using the programs built-in features
Minimize required transponder resources
Maximize throughput
Minimize receive dish size
Minimize transmit power
·
Example:
digital VSAT network with multi-carrier operation
·
Hub
optimization using SatMaster
DAY 4
Earth Terminal Maintenance
Requirements and Procedures
·
Outdoor
systems
Antennas, mounts and waveguide
Field of view
Shelter, power and
safety
·
Indoor
RF and IF systems
Vendor requirements by subsystem
Failure modes and routine testing
VSAT Basseband Hub Maintenance
Requirements and Procedures
·
IF
and modem equipment
Performance evaluation
Test procedures
·
TDMA
control equipment and software
Hardware and computers
Network management system
System software
DAY 5
Hub Procurement and Operation Case
Study
·
General
requirements and life-cycle
·
Block
diagram
·
Functional
division into elements for design and procurement
·
System
level specifications
·
Vendor
options
·
Supply
specifications and other requirements
·
RFP
definition
·
Proposal
evaluation
·
O&M
planning
Biography of Bruce R.
Elbert
Bruce R. Elbert, MSc (EE), MBA, President,
Application Technology Strategy, Inc., Thousand Oaks, California; and Adjunct
Professor, College of Engineering, University of Wisconsin, Madison. Mr. Elbert
is a recognized satellite communications expert and has been involved in the
satellite and telecommunications industries for over 30 years. He founded ATSI
to assist major private and public sector organizations that develop and
operate cutting-edge networks using satellite technologies and services. During
25 years with Hughes Electronics, he directed the design of several major
satellite projects, including Palapa A, Indonesias original satellite system;
the Galaxy follow-on system (the largest and most successful satellite TV
system in the world); and the development of the first GEO mobile satellite
system capable of serving handheld user terminals. Mr. Elbert was also ground
segment manager for the Hughes system, which included eight teleports and 3
VSAT hubs. He served in the US Army Signal Corps as a radio communications
officer and instructor.
By
considering the technical, business, and operational aspects of satellite
systems, Mr. Elbert has contributed to the operational and economic success of
leading organizations in the field. He has written seven books on
telecommunications and IT, including Introduction
to Satellite Communication, Third Edition (Artech House, 2008).The Satellite Communication Applications
Handbook, Second Edition (Artech House, 2004); The Satellite Communication Ground Segment and Earth Station Handbook
(Artech House, 2001), the course text.
