Applied RF Engineering I - Circuits and Transmission Lines (270)īased on Les Besser's famous RF course material, this program has been reworked and updated to meet the needs of today's engineers looking for online self-paced study. The material presented provides participants with the critical tools to design, analyze, test, and integrate linear and nonlinear transmitter and receiver circuits and subsystems. This new course incorporates the most popular topics from Applied RF Techniques 1 and 2 in a 5-day format. Recording, copying, or re-transmission of classroom material is prohibited. Please contact us for group rates at or 65. This course is intended for registered individual students only.
#Interactive smith chart full
This seminar contains material typically covered in one full day of instruction but is divided into five 90 minute web-classroom presentations. The material covered forms the foundation for follow-on courses dealing with specific RF and Microwave circuit and component design. This course reviews traditional circuit definitions based on voltages and current and transitions to power-flow concepts and scattering parameters (S-parameters) used in the wireless domain. Participants gain analytical, graphical ( Smith Chart ), and computer-aided techniques to analyze and optimize RF circuits in practical situations. It presents core concepts essential in understanding RF technology and presents circuit-level designers with the foundation needed to work effectively with high frequency electronics.
#Interactive smith chart series
This course is the first in a series for RF Design engineers and other professionals in that field. RF Design: Core Concepts - Web Classroom (247) The courses address linear active circuit design, focusing on stability, bandwidth, and noise considerations. Participants gain analytical, graphical, and computer-aided techniques to analyze and optimize RF circuits in practical situations. RF Circuit Design (Linear): S-Parameters, Smith Chart, Passive Components, LNA'sCourses covering this topic provide circuit-level designers with the fundamental concepts needed to work effectively with high frequency electronics.
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