In this webinar session, we will show you how to make your products smarter with sensors and TinyML. You will learn how Renesas low-power, general purpose MCUs with TinyML can enable your products to:
- Recognize and localize sounds
- Recognize non-visual gestures (capacitive, radar, motion, etc.)
- Detect anomalies in smart equipment
In this webinar, you will:
- Hear directly from engineers on how to use the compact and cost-effective dual-core Arm® Cortex®-A55 RZ/V2L microprocessor-based Single Board Computer (SBC), tailored for embedded Vision and Vision AI applications.
- Learn how this SBC can help to accelerate your system design and the available options to use this SBC directly in your product.
The SmartBond™ app by Renesas is a generic Bluetooth® LE mobile app, which aims to provide access to all features that are available by the Android and iOS Bluetooth APIs.
This webinar will provide a demonstration of the SmartBond™ app key features and functionality.
In this webinar, we cover:
- Graphics in IoT applications with DA1470x
- Graphics scenario management
- Graphics subsystem architecture
- Wearable UI example application
In this free, 60-minute webinar, Dr Marta Martínez Vázquez of Renesas will present the basics of mmWave radar for automotive applications and underline the challenges and trade-offs in radar design.
Key topics and takeaways:
・Understand the basics of mmWave automotive radar
・Discover the trade-offs that must be considered during the design process
・Explore different radar architectures
・Learn how to implement various radar applications with practical 4D radar detection and imaging radar examples
Renesas is designing and manufacturing Microcontrollers, Analog, Power and Sensor devices for Automotive applications. To bring out the full capabilities of our devices and make the designers’ life easy, we build solutions using our winning combinations of our products/ICs. For the demanding applications in Electric Vehicles, we have built solutions for Inverters using Inductive Position Sensor (IPS). In today’s fast paced & short design cycles, building everything from scratch in conventional method is time consuming. Hence, we, at Renesas have built Models and software to support design engineers to bring out solutions quicker to market. Renesas has made complete hardware solution of these important blocks in EV for Two-wheeler as well as for Four-wheeler.
Our xEV inverter application model & software solution reduces research and development effort. With the use of inductive position sensor we saves the cost and enhances the performance of the solution.
本演讲在介绍 FSP 的基础上,着重介绍 FSP 最新版本4.0.0的一些新特性。希望通过此次演讲,让各位工程师了解并熟悉瑞萨 RA 系列产品开发工具。FSP,即瑞萨电子灵活配置软件包,是一款增强型软件包,旨在为使用瑞萨电子 RA 系列 ARM 微控制器的嵌入式系统设计提供简单易用且可扩展的高质量软件。
Automotive, Electrified Drivetrain – xEV, Battery Management Systems
Renesas is designing and manufacturing Microcontrollers, Analog, Power and Sensor devices for Automotive applications. To bring out the full capabilities of our devices and make the designers’ life easy, we build solutions using our winning combinations of our products/ICs. For the demanding applications in Electric Vehicles, we have built solutions for Inverters and Battery Management System (BMS). In today’s fast paced & short design cycles, building everything from scratch in conventional method is time consuming. Hence, we, at Renesas have built Models and software to support design engineers to bring out solutions quicker to market. Renesas has made complete hardware solution of these important blocks in EV for Two-wheeler as well as for Four-wheeler.
Our BMS application model & software solution reduces research and development effort by providing sample application models that estimates State Of Charge (SOC) and State Of Health (SOH).
Optimization of these safety functions requires time-consuming, system-dependent safety analysis and evaluation. For xEV inverters, Renesas can help customers shorten development time by supporting functional safety at the system level.
In this session, we will provide instruction for you to create a project that will sample ADC values periodically using a timer. Learn about adding a timer driver and configuring it, adding an ADC driver, and reading the ADC value in call back, adding ELC and transfer drivers and configuring it. In addition, we will go through the FSP configurator, generated code, POR‑to‑main‑code flow, using developer assistance and the smart manual.