RF System Practice for Engineers [Applications]

1) Understand and interpret basic electronic circuit terminology and laws from a practical perspective. 2) Understand the product development process and mass production processes. 3) Understand the basic (time, frequency) characteristics and datasheet parameters of passive components, and understand their roles in actual circuits. 4) Understand diode principles, types, and characteristics, and gain practical understanding of electrostatic discharge prevention measures. 5) Understand the basic concepts and principles of transistors and MOSFETs, and understand their operation in circuits. 6) Understand the basic characteristics and datasheets of noise reduction components (filters, beads, etc.) and considerations for circuit design.

This is a process of understanding and practically applying design methods for boards and patterns to reduce noise on circuit PCBs.

This is a comprehensive course covering everything from basic concepts of what static electricity is and related components, to the causes, countermeasures, and applications of static electricity in PCB design. It minimizes difficult theories and formulas to focus on fundamental concepts and practical applications. This course is designed to educate on the concepts and usage methods of static electricity-related components, testing conducted during certification, and consulting related to factory grounding.

This course is designed to help you understand and apply basic antenna principles, fundamental theory for antenna selection, antenna impedance matching, and layout methods. This lecture is for beginners in wireless communication systems, working professionals, or anyone interested in antenna circuit design.

A must for those who find radar technology vague! This is a lecture that carefully covers the basic concepts and operating principles step by step. It is structured to help you understand the wide range of radar applications (velocity / range / direction / angular resolution / ambiguity).

If RF circuits feel vague in practice—impedance matching, component roles, etc.—pay attention to this course. It's packed with fundamental theory from basic RF concepts to passive elements and passive components. Stop simply copying reference circuits and start building your understanding from the ground up.

EMI phenomena are increasing as the products currently under development follow trends toward high-speed interfaces, miniaturization, and weight reduction. We aim to understand the concepts and phenomena of various noise and EMI occurrences, as well as methods to reduce them.

An introductory course for job seekers, beginners/entry-level/junior professionals! The course focuses on the circuit development process so that even those without research lab development experience can easily follow along. It covers fundamental processes such as the reasons and methods for what to focus on when drawing block diagrams.

Active components? Passive components? Don't understand any of it?🤔 A course for sales/planning/purchasing professionals who face difficulties at work due to lack of electronics knowledge Designed to cover overall content including basic terminology, laws, and issues in electronic circuits.

This is a course that focuses on power supply analysis and design, which are essential in power circuit design and circuit analysis. It builds the foundation for hardware engineer work by acquiring theoretical approaches and practical perspectives on components and design methods.

If RF circuits feel vague in practice—impedance matching, component roles, etc.—pay attention to this course. It's packed with fundamental theory from basic RF concepts to passive elements and passive components. Stop simply copying reference circuits and start building your understanding from the ground up.

An introductory course for job seekers, beginners/entry-level/junior professionals! The course focuses on the circuit development process so that even those without research lab development experience can easily follow along. It covers fundamental processes such as the reasons and methods for what to focus on when drawing block diagrams.