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Join Tonex Training Phased Array Radar Systems Engineering Bootcamp


Price: $2,999.00
Length: 3 Days

A phased array antenna is composed of lots of radiating elements each with a phase shifter. Beams are formed by shifting the phase of the signal emitted from each radiating element, to provide constructive and destructive interference so as to steer the beams in the desired direction.

Phased-Array Radar Systems Engineering Bootcamp is a 3-day preparing program covering phased array radar standards, most recent innovative improvements, programming, framework investigation, necessities, engineering, structure and task. Analyze significant subsystems and related advances with pros in those zones.

Learning Objectives:

After successful completion of the Radar Systems Design and Engineering Training course, the attendees will have the capacity to:

Rundown wording, standard, concepts, subsystems and parts identified with the systems engineering and structure
Break down and talk about applications and advances behind multi-work phased-array radar systems
Survey phased-array radar systems later mechanical advancement, structure, engineering and task procedure and standards
Assess hypothesis of activity of present day phased-array radars & recognize standards, methodology, structure, engineering procedures and advancement of phased-array radar innovation
Talk about Radar Concept of Operation (ConOps), useful engineering, framework prerequisite, framework plan, design, execution, activity and support, and investigating
More…

Who Should Attend:

System Engineers and Designers
Software, Hardware and Testing Engineers
Technical Managers
Technicians
Logistics and Support
Operations
Procurement and Specifications Writing Practitioners

Course Agenda and Topics:

Introduction to Radar Systems
Phased Array Radar Fundamentals
Phased-array Radar Design: Application of Radar Fundamentals
Radar Antenna Architectures
Target Detection
Search and Acquisition Functions
Estimation, Tracking, and Data Association 
Target Classification, Discrimination, and Identification
Interference Suppression Techniques
Phased-array Radar Architectures
Fundamental Radar Design Trade-offs
Performance-driven Radar Requirements
Missile Defense Radar Design Considerations
Early Warning Radar Design Considerations
Air Defense Radar Design Considerations
Predicted Performance of Phased-array Radars

Request more information. Visit course link below 
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