1. Home
    2. Technical Resources


임베디드 시스템 기초강좌 시리즈 입니다.
전자회로,MCU사용방법 등 초보자를 위해 자세 하게 설명 되어 있습니다.

New Microcontrollers - 6) Possible to start without starter kit! Development method using simulators
상세 내용 >


Learning about Embedded Systems
Introduction to Electronic Circuits

The electronic devices we encounter all around us are driven and controlled by the flow of electrical current through electronic circuits. Each circuit is an arrangement of electrical elements designed to perform specific functions. Circuits can be engineered to carry out a wide variety of operations, from simple actions to complex tasks, according to the job(s) the system must perform.
Let's begin by looking at how the key passive elements found in most electronic circuits work.

  1. Passive Elements
  2. Diodes, Transistors, and FETs
  3. Op-amps/Comparator Circuit

Revisiting Beginners' Class
Introduction to Digital Circuits

we’ll review the concept of digital, and look at the design of some fundamental digital circuits.

  1. Elemental Digital Circuits
  2. Digital ICs/Combinational Logic
  3. Sequential Logic

Let’s Try! Embedded Systems Programming
Introduction to MicrocontrollersUpdate

We start with an introduction to the MCU’s basic structure and operation. In the next session we will look at the MCU’s peripheral circuitry. And finally we will try using an MCU in an actual system.

  1. MCU Basic Structure/Operation
  2. Peripheral Circuitry
  3. Programming Language/Software Development Environment
  4. Peripheral Circuitry Control
  5. Interrupt Processing
  6. Possible to start without starter kit! Development method using simulators

The Build-Your-Own Challenge
Introductory Gadget Building

We will build a heartbeat fan that will wave in synch with your heartbeat. We will learn as we go. So…let’s begin.

  1. What Does It Have to Do?
  2. A Closer Look at the GR-SAKURA Board, and Getting Ready
  3. Assembling the Hardware
  4. Creating the Software, and Completing the Project!

MCU Programming: Basics
Essentials of Microcontroller Use
Learning about Peripherals

In this six-part series, we look at on-chip peripheral functions for the effective use of MCUs. In particular, we will look at some core peripherals common on a wide variety of MCUs.

  1. GPIO
  2. Timers
  3. Serial Communication
  4. Interrupts
  5. Programming [1 of 2]
  6. Programming [2 of 2]

시뮬레이터 활용하기

개발 마지막 단계에서 실패 하지 않기 위해 사전에 시뮬레이터 를 사용하여 확인해 두는 것이 매우 중요합니다.
용도별 시뮬레이터 활용방법과 그 효과에 대해 설명합니다.

  1. 소비전류 시뮬레이터 [RL78MCU편]

USB Power Delivery
Get to know this life changing technology

What exactly is USB PD (Power Delivery)? How can it be widely used? Why is it such a hot topic nowadays? Let’s learn from the basic and answer all these questions!

  1. Enhanced Convenience in USB Charging
  2. The Technology - Convenience and Safety
  3. USB PD Safety Implementation
    USB Type-C™ Authentication (C-AUTH) of Legitimate Devices
  4. Renesas Solutions for USB PD
  5. Faster Development with Renesas Solutions

BLDC Motor Basics
Understanding the principle and application of high efficiency motors

The era of the highly efficient and excellent controllability BLDC (brushless DC) motor (a.k.a. Permanent Magnet Synchronous Motor). We will explain the principle of how BLDC motor rotates and the control techniques.

  1. What are Brushless DC Motors
  2. Controlling BLDC Motors
  3. Renesas Solutions for BLDC Motor Control