Advanced SpaceTrack 4000 Training Learn key aspects of
Transcription
Advanced SpaceTrack 4000 Training Learn key aspects of
Advanced SpaceTrack 4000 Training GVF's award-winning program encompasses operation, installation, and maintenance of VSAT, marine, and mobile/SNG satellite terminals, in addition to general satcom theory. GVF training is a key part of interference prevention. Students learn, practice, and demonstrate their knowledge and skills with online, interactive, simulator-driven training modules developed by SatProf, Inc. Courses are self-paced and available 24/7. Hands-on skills testing and supplementary classroom sessions are supported by GVF Examiners and Regional Training Centers located in every major region of the world. The GVF curriculum can be integrated with your organization’s own online and classroom training on a custom portal provided by GVF, to serve your staff and customers. Learn key aspects of how to install, configure, and maintain a Harris CapRock Communications SpaceTrack 4000-series marine stabilized antenna system through this online, self-paced, 3-D animated, highly interactive, simulator-driven course. Topics covered include principles of vessel motion, stabilized antenna operations, and SpaceTrack terminal details including configuring and monitoring techniques. All equipment is explained, including the SpaceTrack gimbaled mount, antenna and RF components, control system components, and navigation system connections. Details on satellite acquisition and tracking, mount balance concepts, operating modes, performing site surveys, installation and assembly, commissioning, maintenance, and troubleshooting are covered in depth. Who should take this course? This course is appropriate for engineers and field technicians who are responsible for installing and commissioning SpaceTrack marine stabilized terminals, support staff interacting with field technicians, and all personnel who need a solid understanding of SpaceTrack terminals. Learn and practice critical balancing skills using the realistic 3-D interactive simulator, with integrated dynamic inertial physics model. Certification demonstrates and documents your commitment to peers, employers, customers, and competitors that you use industry endorsed best practices . It will give you and your company a competitive advantage. Learn about commissioning the terminal and checking operation. Certificate holders may appear in the Certification Database on the GVF training website. FOR MORE INFORMATION AND TO REGISTER www.gvf.org/training [email protected] TRAINING CONTENT AND SERVICES BY BR-41 (Rev Dec 2014) Gain complete understanding of site survey details, blockage, and heading chart details. GVF503T Course Specifications SUMMARY: Factory-authorized training presenting the detailed knowledge required for installation of Harris CapRock Communications SpaceTrack 4000 stabilized VSAT terminals. Animation and 3-D simulator-based interactivity are used extensively to explain concepts and provide realistic skills practice for the student. CERTIFICATION: Students who pass this course, the prerequisites, and the SpaceTrack Hands-On–Skills-Test (HOST-T) will receive the GVF Marine Satcom Professional: SpaceTrack Specialist Certification. PREREQUISITES: GVF 520, 561, and 562T. DURATION: GVF 503T contains over 200 animated & interactive pages, requiring 5-15 hours study. Includes review quizzes and final test. REFERENCE MATERIALS INCLUDED: Students may download and keep various reference documents for SpaceTrack 4000 installation and maintenance as well as the exclusive SatProf Field Handbook for SpaceTrack 4000. DELIVERY: Animated & interactive HTML/Flash, self-paced, on-line format. Requires Internet access while studying the course material. High speed access is preferred but is NOT required. Student's computer must have a current browser and the current version of the Adobe Flash player (free) installed. LEARNING OBJECTIVES: Understand general SpaceTrack information and course prerequisites. Compare purposes of front panel and M&C interfaces, navigate front panel menu, understand how to connect laptop to BDU, navigate M&C menu tree, know the purpose of the different M&C modes, understand Real Time Status screens, move the antenna in MANUAL mode and DIAGNOSTIC mode. Name and describe the axes of motion, te three gimbal axes and their purposes, identify coarse az, elevation, fine az, and polarization axis line and motor and bearing, explain proper way to set polarization, understand how system maintains polarization. Name and describe feed systems, identify main system parts, name which signals pass through rotary joints, explain function of transceiver, BUCs, and LNBs, determine modem IF frequencies and transceiver LO frequency settings, identify mounting locations for RF systems, name signals carried on IFL cables, explain importance of IFL coax cable length and DC resistance, explain why extra care required if DC is present on a cable, determine the max length for IFL cables, configure older system equipped with sliprings for 70MHz signal. Learn function, appearance, location, and connections to ADU, fuse locations and replacement procedure, function, appearance, locations, and connections of the BDU, wiring, signals, and protocols of cross-decks cables, functions of connectors on BDU interface panel and abovedecks connection plate, purpose, appearance, locations, and mechanical connections of ADTs, function and components of motorized feed, purpose, location, appearance and adjustments of brakes, function and location of inclinometers, function and location of ARS. Learn why the system is connected to the ship’s GPS and compass equipment, protocol, voltage levels and physical wiring of NMEA interface, how to connect system to ship’s compass of different types. Be able to compare and contrast modes of operation, name principle of stabilization, explain sensors and sensor feedback, explain why system needs to know vessel location, describe calculation of pointing angles, configure system for 70MHz or L-Band operation, set the input attenuation, identify if torque parameters are correctly set. Be able to define center of gravity and correct pivot point for a system, explain why balanced system stays pointed, why system should be accurately balanced, identify and locate adjustable weights in system, explain purpose of gimbal motors, and how adjusting weights affects antenna movement. Be able to perform system balance procedure, explain why unbalanced system should not be in MANUAL mode, list steps to balance system, accurately balance the system, and test balance. Be able to name the six automatic modes and their normal sequence, name the two test modes, describe system operation in each mode, explain function of CD signal relating to TRACK mode, connect CD signal from modem to system, set scan parameters. Be able to conduct a site survey, explain the purpose of and prepare Eclipsing Heading Chart, identify obstructions to satellite beam, determine if objects on vessel obstruct beam, determine maximum IFL length, define qualifications for connection AC power, describe importance of GPS compass data for system operation. Be able to explain and complete procedure for installing system, identify correct orientation of plinth, pedestal, hatch, and ladder, describe procedure for lifting system, read moisture indicator, correctly bring cross-decks cables into radome, define when antenna should be balanced, name connectors and wire colors used in cross-decks cables, correctly terminate cross-decks cables, adjust AC voltage. Be able to prepare system for initial tests, check voltages and apply power, identify M&C connection points, list tracking parameters and enter them, know how to connect and disconnect AC power to system, use MANUAL mode to check operation, adjust coarse az, identify which ADTs should be adjusted, synchronize stepper compass with BDU, test compass and GPS operation, configure tracking receiver and set parameters. Be able to explain why system performs spiral search, perform cross-pol check, configure transceiver and tracking receiver settings, enable and disable RTI, perform cross-pol check, test RTI, CD, imbalance readings, and test inertial parameters. Demonstrate how to go to appropriate M&C screens, recognize system error messages, match BDU display errors with faults, troubleshoot tracking and stepper problems, resolve BDU errors, and identify which bearings require lubrication. CONTENTS: 1. 2. 3. 4. 5. 6. 7. 8. Course Introduction Configuring and Monitoring Hardware: Gimbaled Mount Hardware: Antenna and RF Components Hardware: Control System Components Hardware: Navigation Connections Acquisition and Tracking Balance Concepts www.gvf.org GVF is the global association of the satellite communications industry. GVF is an independent, nonpartisan and non-profit organization with 200+ members from every major region of the world. 9. 10. 11. 12. 13. 14. 15. 16. Balancing Procedure Operating Modes Site Survey Installation Procedures Commissioning (part 1) Commissioning (part 2) Maintenance and Troubleshooting Final Test www.satprof.com SatProf administers GVF’s training program, using simulator-based training to enable more than 8000 students worldwide to develop practical and interference-mitigating VSAT skills.