In this webinar you will learn:
- The TINY™ Module: content, design, package, etc.
- Worldwide certification
- Development kit
- CodeLess SW development and ready-to-use examples
- Resources and support
- How quick and easy it is to develop your new products with the DA14531 SmartBond TINY™ Module
In this webinar, we will discuss:
- How endpoint intelligence will have a profound impact on how we interact with IoT devices
- Renesas technologies and solutions to help increase endpoint intelligence for a wide range of applications
- The evolution of artificial intelligence (AI)
- AI / Machine Learning technology, landscape, and construct
- Robust end-to-end security
- Use case examples
As customers move towards Brushless DC (BLDC) from traditional brushed motors to take advantage of the power efficiency, torque efficacy, size and reliability benefits, there are new design considerations to understand. Unlike brushed motors with a mechanical commutator, BLDC motors need an electronic commutator which can be more challenging to implement. This webinar will address these challenges and show how Renesas solutions can make it easy to drive BLDC motors with new tools, resources, and algorithms.
During this webinar, you will learn about what makes Storyboard different for your embedded GUI development. You will also learn different techniques for asset, memory, and resource optimization, how to fine-tune GUI performance, and how to deploy our demo image onto the Renesas RA6M3 platform.
In this webinar, we will explore how active beamforming ICs can simplify phased array antennas for 5G, Satcom and Radar applications.
Three generations of active beamforming ICs based on highly integrated silicon technology have led to the commercialization of active phased array antennas for a variety of systems. This session will review common antenna architectures and design challenges of phased array antennas. We will delve into the features that simplify product design and reduce time to market, such as compact size, high power efficiency, Dynamic Array Power (DAP™), ArraySense™ and RapidBeam™ technologies.
During this webinar we’re going to:
- Highlight the Production Line Tool - what is it?
- Show how to lower overall cost of tester equipment
- Demonstrate how easy it is to parallel program and test up to 16 devices
During this webinar we’re going to:
- Highlight mikroBUS and the DA14531 Module - what is it?
- Show how easy it is to work with a mikroBUS accelerometer sensor click board plugged into a DA14531 TINY™ Click board
- Show how to add a Bluetooth LE data pipe to an MCU
- Demonstrate how simple it is to start prototyping, using the TINY BLE Click board
This webinar revolves around Wi-Fi 6 TWT, followed by DA16200's Universal-TWT feature, which is an excellent way for battery-powered devices to conserve power with no strings attached. The webinar also covers the similarities between Universal-TWT and Wi-Fi 6 TWT, as well as the advantages of Universal-TWT over Wi-Fi 6 TWT.
Learn how to enable your process controller to communicate with Modbus devices using a modular object-based Modbus TCP stack that can serve as both master or slave (client or server) with all the function codes in a convenient portable stack.
During this webinar, you will learn how the DA16200 can achieve battery lifetime measured in 'years' due to its incredible low power operation and sleep currents. We'll also demonstrate the tools and evaluation kits which can be used to achieve this great performance.
- Provide various frameworks that will help you decide what makes sense for your next IoT product.
- Review hidden costs that you might encounter for in-house module development such as RF design resources, antenna matching, regulatory approvals, and more.
- Provide breakeven analysis templates to enable financial analysis of building in-house vs. buying from a chip vendor or a third party.
1. Introduce the DA16200 ultra-low power technology and show you how Wi-Fi can work for battery powered applications.
2. Walk through the implementation using AT-Commands (features/functions) – what it can do for your application.
3. Full end-to-end demo showing AT-Commands on the Raspberry Pi Pico board (RP2040) as a host, hooked up to the DA16200 Wi-Fi solution in an example application (Wi-Fi connected Actuator – e.g. lock or motor) all with AWS IoT services connectivity with the DA16200.