January 15, 2025

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A Year in Review at onsemi

As we bid farewell to 2024 and welcome 2025, it's the perfect time to reflect on some of the standout innovations and achievements that made this past year remarkable for onsemi. From the launch of the industry-leading Treo Platform to the introduction of groundbreaking product families like Hyperlux SG, the latest EliteSiC and PowerTrench® MOSFETs, and IGBTs, join us as we revisit the highlights that defined our year.


Announced Treo: The Industry’s Most Advanced Analog and Mixed-Signal Platform

onsemi's Treo Platform

https://www.onsemi.com/design/video-library/treo-platform-the-industry-s-most-advanced-analog-and-mixed-signal-platform

In 2024, we proudly unveiled the Treo Platform, the industry's most advanced analog and mixed-signal platform for intelligent power and sensing solutions. Built on 65nm Bipolar-CMOS-DMOS (BCD) technology, Treo supports a wide voltage range of 1-90V and operates at temperatures up to 175°C. This modular platform accelerates the development of intelligent power management IC’s, sensor interfaces, communications devices and standard products, enabling customers to reach faster time-to-market and reduce end-system costs. With applications spanning automotive, medical, industrial and AI data centers, Treo is set to revolutionize the industry by delivering unparalleled performance, efficiency and integration. Products developed on the Treo Platform are already showcasing significant improvements in accuracy and functionality. Learn more at onsemi.com/Treo.

Resources:

Request Samples: Contact Sales | onsemi

White Paper: TND6465 - High Performance, Precision Analog Capability Enabled by the Treo Platform


onsemi's FS7-based QDual3 IGBT modules  

onsemi's QDUAL3 Half Bridge IGBT Modules

We are thrilled about our new Field Stop 7 (FS7) IGBT technology, which advanced our new module portfolio. The 1200V half-bridge QDual3 IGBT modules, built on this latest technology, offer exceptional performance and efficiency. By increasing current density by 33%, these modules enable smaller, lighter and more cost-effective power systems for central solar inverters, energy storage, as well as commercial, construction and agricultural vehicles (CAV). It's incredibly satisfying to see how our innovative technology is shaping the future of power electronics.

Resources:

Webinar: Latest IGBT Modules for Renewable Energy and Commercial Agricultural Vehicles

Blog: High-Performance Inverters Powered by Latest IGBT Modules

 Video:  Latest onsemi 7th Gen QDual3 IGBT Modules Simplify Design and Reduce Costs


M3e EliteSiC MOSFETs offer Experience SiC Planar Excellence  

onsemi M3e Mosfets

We are incredibly excited about our latest breakthrough: the 1200V M3e EliteSiC MOSFETs. By leveraging proven planar technology, M3e technology surpasses current trench technology, delivering industry-leading specific on-resistance (RSP) with short-circuit capability. This breakthrough enables us to push the boundaries of power density and efficiency. As SiC technology continues to evolve, we'll continue to optimize cell structures and packaging techniques to revolutionize power electronics. Stay tuned for more exciting advancements!

Resources: 

White Paper: When Planar is Superior to Trench: An In-Depth Look at the Continued Evolution of Silicon Carbide MOSFETs

White paper: Overcoming the Challenges of SiC to Ensure Application Success


Hyperlux SG: The Latest in our Image Sensor Portfolio 

Hyperlux SG

The Hyperlux SG image sensor family consists of the ARX383 (VGA) for compact applications, AR0145 (1MP) for detailed imaging and the AR0235 (2.3MP) for higher resolution needs. Together, these image sensors represent the industry's top-tier Global Shutter Efficiency. These image sensors are engineered to operate at a speed of 120 frames per second and are designed to offer a compact form factor while employing a global shutter mechanism. This feature enables simultaneous capture of the entire image, ensuring that fast-moving objects remain crisply defined and free of motion artifacts. Whether it's tracking rapidly moving objects or monitoring dynamic industrial processes, the Hyperlux SG image sensor family consistently delivers high-quality images and offers a range of resolutions, making them scalable to various requirements. The compact design makes these sensors suited for a wide range of applications, including barcode scanning, machine vision, robotics and autonomous mobile robots.

Resources:

Webinar: Exploring the role of Image Sensors in Robotics and Automation

Blog: Advancements in Industrial Automation with Global Shutter Sensors

White paper: Cutting−Edge Global Shutter Image Sensors for High−Speed Applications


Peak Performance with onsemi’s PowerTrench®T10 MOSFETs

PowerTrench® T10 MOSFETs

As the world demands more efficient power solutions, onsemi's MOSFET technology is leading the way. Our PowerTrench® MOSFETs, including the latest T10 generation, offer superior performance and reliability for automotive, industrial and hyperscale AI data center applications. With ultra-low gate charge and an Rds(on) of less than 1 milliohm, our shield gate trench design sets new standards for efficiency and power density. Coupled with advanced packaging solutions, our MOSFETs enable smaller, lighter and more energy-efficient systems. We're excited about our expanding product portfolio and look forward to sharing more innovations in 2025.

Resources:

Landing page: MOSFETs technology page

Blog: Meeting the AI Data Center Power Challenge

Video: Achieving Peak Performance with onsemi PowerTrench® MOSFETs


Highlighting the CEM102: Revolutionizing Medical and Scientific Applications

Continuous Glucose Monitor

One of our standout achievements was the introduction of the CEM102, a groundbreaking addition to our portfolio of high-performance, energy-efficient sensor interface integrated circuits. The CEM102 AFE is designed to support electrochemical sensors and general sensors using amperometric measurements. This innovative IC, when paired with the RSL15—the industry's lowest power Bluetooth® Low Energy-enabled MCU—forms a complete solution that allows for very low-power biosensors and environmental sensors to accurately measure chemically generated currents.

The CEM102's ability to measure extremely low currents with high accuracy opens up new possibilities in continuous glucose monitoring (CGM) and blood gas sensing. Its low power consumption and small form factor enable the miniaturization of sensors, leading to more compact and portable medical devices.

Electrochemical sensors are becoming increasingly important in various fields, from diabetes care to environmental sciences. The CEM102, with its precise measurement capabilities and energy efficiency, is set to play a crucial role in advancing these technologies.

Resource: CEM102 Getting Started Materials

Video: What is Electrochemical Sensing?

Video: Getting Started with CEM102 and RSL15