(Part 3) How to Design, Build, and Test an RF Linear Amplifier (Input Board)
This multi part video focuses on the critical design aspects of an RF Push-Pull amplifier. The example shown uses an IRF510 MOSFET transistor to explain impedance matching, biasing, amplifier classification, circuit stability, feedback, tuning, power output, harmonic distortion, and other important design characteristics. It also introduces LTSpice as a simulation tool. From this video, the viewer will gain an in-depth understanding of how to design, build, and test an RF power amplifier. Please visit my web site for the RF amplifiers and other products I offer. rflinear-amplifiers.com
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(Part 4) How to Design, Build, and Test an RF Linear Amplifier (Input Board Con't)
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(Part 5) How to Design, Build, and Test an RF Linear Amplifier (Output Board)
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Why Impedance Matching Still Matters for Transistors
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(Part 1) How to Design, Build, and Test an RF Linear Amplifier (Overview)
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The Hidden Time Sink in Electronics Design
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2kW Directional Coupler for LDMOS Amlifiers
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L Matching Network (Part 1)
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EEVblog 1752 - Texas Instruments SCREWED UP the NE5532!
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(Part 2) How to Design, Build, and Test an RF Linear Amplifier (LTSpice)
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(Part 6) How to Design, Build, and Test an RF Linear Amplifier (Output Board and Demonstration)
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Why do we need to stabilize a MOSFET Transistor?
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52 - Building an RF Power Amplifier
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50 - LC Matching Networks - Part 1
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Gain block RF Amplifiers – Theory and Design [1/2]
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#181: Power Amplifier Concept
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Class E RF Amplifiers Explained - General Overview (Part 1)
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Class E RF amplifier - Basics (1/3)
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RF Splitters & Combiners - How do they work?
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