Samsung’s Exynos 2400 & Analog Devices’ Latest Innovations – What’s New in Tech?

Samsung Exynos 2400: Samsung’s Latest Mobile Processor

In the fiercely competitive world of mobile processors, innovation is key to survival. Samsung’s Exynos 2400, the latest addition to its renowned Exynos series, is a testament to the company’s drive for advancement. As the foundation of next-generation mobile devices, the Exynos 2400 is packed with cutting-edge technologies designed to redefine performance, efficiency, and connectivity.

With a sophisticated deca-core CPU architecture, a GPU powered by AMD’s RDNA 3 technology, and groundbreaking AI capabilities, the Samsung Exynos 2400 sets new benchmarks for what mobile processors can achieve. It’s not just about raw power; it’s about delivering smarter, more efficient computing for the modern era.

This article explores the Samsung Exynos 2400, including its architecture, performance, and market implications.

Architecture and Design

At the core of the Samsung Exynos 2400 lies a meticulously crafted architecture that balances raw power and efficiency. This deca-core CPU configuration represents a significant leap forward in mobile processing.

Deca-Core Configuration

The Exynos 2400 features a 10-core setup, strategically divided into performance and efficiency clusters:

·      1 Cortex-X4 Core: Dedicated to handling the heaviest tasks with peak performance.

·      2 Cortex-A720 Cores: Optimized for high-performance tasks requiring sustained speed.

·      3 Cortex-A720 Cores: Balanced for medium-performance workloads.

·      4 Cortex-A520 Cores: Designed for power efficiency in everyday tasks.

This hybrid architecture ensures that the processor can scale its performance dynamically to deliver the right amount of power for any given task while optimizing to maximize battery life.

Advanced Manufacturing Process

Built on Samsung’s 4nm FinFET technology, the Exynos 2400 pushes the boundaries of semiconductor design. This advanced process node allows for a higher transistor density that improves performance and energy efficiency. The result is a processor that’s faster and cooler, even under intense workloads.

A Focus on Scalability

The architecture of the Exynos 2400 is designed with scalability in mind, so it’s suitable for a wide range of devices. From flagship smartphones to premium tablets, this processor promises consistent, high-level performance across various applications.

With its sophisticated design, the Samsung Exynos 2400 sets a new standard for what’s possible.

Graphics Processing Unit (GPU)

The Samsung Exynos 2400 takes mobile graphics to new heights with its revolutionary GPU, the Xclipse 940. Developed in collaboration with AMD, this GPU leverages the latest RDNA 3 architecture to bring console-quality visuals to mobile devices for the first time.

Hardware-Based Ray Tracing

One of the standout features of the Xclipse 940 is its support for hardware-based ray tracing. This technology, once exclusive to high-end gaming consoles and PCs, simulates realistic lighting, shadows, and reflections, delivering unparalleled visual fidelity in mobile gaming. From lifelike environments to immersive gameplay, the Exynos 2400 enables a gaming experience previously thought impossible on a smartphone.

Variable Rate Shading (VRS)

To enhance both performance and power efficiency, the Xclipse 940 introduces Variable Rate Shading. By allocating GPU resources strategically across a scene, VRS boosts frame rates while maintaining graphical quality where it matters most. This ensures smooth and responsive gameplay without draining the battery.

Optimized for AI and Multimedia

The GPU’s integration with the processor’s enhanced Neural Processing Unit (NPU) allows for advanced AI-driven graphics optimizations. This includes features like intelligent upscaling, enhanced image stabilization, and real-time scene adjustments. Whether you're streaming high-definition video or editing 4K content, the Exynos 2400 handles multimedia with ease.

The Xclipse 940 GPU isn’t just a graphics processor; it’s a redefinition of what’s possible in mobile visuals. With its AMD partnership and cutting-edge features, the Samsung Exynos 2400 firmly positions itself as a game-changer for mobile gaming and multimedia performance.

Artificial Intelligence (AI) Capabilities

With a significantly enhanced Neural Processing Unit (NPU), the Exynos 2400 redefines how AI functions on mobile devices. It’s faster, smarter, and more efficient, which enables a new wave of intelligent features and applications.

A Leap in AI Performance

Samsung has designed the Exynos 2400 with a 14.7x improvement in NPU performance compared to its predecessor. This exponential leap allows the processor to handle complex AI-driven tasks in real-time, from speech recognition to advanced image and video processing. Whether powering voice assistants or enabling on-the-fly language translation, the Exynos 2400 delivers unparalleled speed and accuracy.

AI in Everyday Applications

The enhanced NPU makes AI accessible in everyday tasks:

·      Image and Video Optimization: Real-time adjustments for sharper images and smoother videos, even in challenging conditions.

·      Personalized User Experiences: Adaptive interfaces and recommendations that learn and evolve with the user.

·      Enhanced Security: On-device AI ensures secure facial recognition and biometric authentication without relying on cloud-based systems.

Power-Efficient AI

Despite its powerful AI capabilities, the Exynos 2400 maintains a focus on energy efficiency. Tasks like real-time speech-to-text conversion or AR-based applications can now run seamlessly without significantly impacting battery life. This balance between performance and efficiency ensures that AI remains practical for day-to-day use.

The Samsung Exynos 2400 takes AI from a feature to a fundamental component of mobile processing. Its enhanced NPU opens doors to smarter, more intuitive devices and makes AI an integral part of how we interact with technology.

Connectivity and Modem Features

The Samsung Exynos 2400 is engineered to meet the demands of today and tomorrow and deliver blazing-fast speeds, low latency, and seamless communication across networks.

Integrated Exynos 5300 Modem

At the heart of the Exynos 2400’s connectivity capabilities is the Exynos 5300 modem, which brings next-generation cellular performance to mobile devices. Supporting both 5G NR Sub-6GHz and mmWave, this modem enables:

·      Ultra-fast download and upload speeds for 4K video streaming and cloud gaming.

·      Low latency connections that are ideal for online gaming and real-time video conferencing.

·      Improved network efficiency that maintains stable connections even in crowded environments.

Wi-Fi 6E and Bluetooth 5.3 Support

The Exynos 2400 extends its connectivity suite with the inclusion of Wi-Fi 6E and Bluetooth 5.3:

·      Wi-Fi 6E ensures faster, more reliable connections by utilizing the 6GHz spectrum, reducing interference and improving performance in dense network areas.

·      Bluetooth 5.3 offers better energy efficiency, enhanced audio quality, and greater range.

Satellite Connectivity (Emerging Standard)

The Exynos 2400 is rumored to include support for emerging satellite communication standards. While details are limited, this feature could enable emergency communications and data transmission in remote areas where traditional networks are unavailable.

Benchmark Comparisons

The Samsung Exynos 2400 brings bold claims of power and efficiency, but how does it measure up against its competitors? Early benchmarks indicate that Samsung’s latest SoC delivers impressive results, solidifying its position as a top-tier mobile processor.

CPU Performance

The Exynos 2400’s deca-core architecture, featuring the powerhouse Cortex-X4 core, demonstrates a notable leap in single-core performance compared to its predecessor. Multi-core benchmarks also shine, with its balanced cluster configuration providing efficient handling of demanding workloads.

In comparison to the Qualcomm Snapdragon 8 Gen 3, the Exynos 2400 achieves:

·      Higher single-core scores, showcasing its raw processing capability.

·      Competitive multi-core results, emphasizing efficient task distribution across its 10 cores.

GPU Performance

The Xclipse 940 GPU, built on AMD’s RDNA 3 architecture, sets a new standard for mobile graphics. Benchmarks highlight:

·      Superior performance in ray tracing and advanced shading techniques compared to the Adreno GPU found in Snapdragon processors.

·      Smooth gameplay at high frame rates in graphically intensive titles, outperforming its rivals in real-world gaming scenarios.

AI and NPU Benchmarks

The Exynos 2400 surpasses many competitors in tasks like real-time translation, image enhancement, and AR processing. Its AI capabilities not only deliver speed but also do so with remarkable energy efficiency.

In everyday use, devices powered by the Exynos 2400 demonstrate snappy app launches, seamless multitasking, and robust gaming performance. Battery life tests also suggest that Samsung’s 4nm process optimizations keep devices cooler and more efficient under load.

The Samsung Exynos 2400 is a formidable player in the mobile processor market. It’s a processor built for both benchmark and real-world performance.

Use Cases and Device Integration

The Samsung Exynos 2400 is set to power a new generation of flagship mobile devices that deliver advanced capabilities tailored to both consumer and professional applications. Its versatility and performance make it an ideal choice for cutting-edge smartphones and beyond.

Flagship Smartphones

The Exynos 2400 is expected to debut in Samsung’s premium Galaxy S24 series and reinforce the brand’s leadership in high-performance mobile devices. For end users, this means:

·      Enhanced Gaming Experiences: Powered by the Xclipse 940 GPU with hardware-based ray tracing, the Exynos 2400 offers console-quality visuals for mobile gamers.

·      Seamless Multitasking: The deca-core CPU handles heavy workloads effortlessly, from running multiple apps to editing high-resolution videos.

·      Longer Battery Life: Efficient power management ensures flagship devices can last through a full day of intensive use.

Applications Beyond Smartphones

While smartphones are its primary focus, the Exynos 2400’s scalability and performance open doors to other device categories, including:

·      Tablets and Hybrid Devices: Perfect for productivity tools requiring robust multitasking and AI capabilities.

·      Wearables and IoT Devices: Smaller, connected devices can benefit from the Exynos 2400’s energy efficiency and advanced AI for health tracking and real-time data processing.

AI-Powered Features

Devices equipped with the Exynos 2400 are expected to deliver user experiences with advanced AI functionalities:

·      Camera Enhancements: AI-driven image stabilization, auto-framing, and scene optimization for professional-grade photography and videography.

·      Voice Interaction: Faster and more accurate speech recognition for virtual assistants and voice commands.

·      Augmented Reality (AR): Smooth AR rendering for applications in gaming, navigation, and education.

The Samsung Exynos 2400 is more than a processor — it’s a platform for innovation. From flagship smartphones to future-forward devices, its integration ensures users will enjoy next-level performance, smarter AI features, and longer-lasting efficiency. This SoC is ready to power the next wave of technological advancements.

And whether you’re working on Exynos devices or another project, Microchip USA can supply the components you need. Our team of purchasing and supply specialists has worked with more than half of the Fortune 500, and we have experience sourcing board level electronics for a variety of industries. Contact us today!

Analog Devices New Products – MAX22663, LT8342, LT8440

For over five decades, Analog Devices, Inc. (ADI) has been at the forefront of semiconductor innovation, delivering high-performance analog, mixed-signal, and power management solutions. Founded in 1965, the company has established itself as a global leader in signal processing, power conversion, and isolation technologies, serving industries ranging from automotive and industrial automation to healthcare and telecommunications.

With the rapid evolution of power electronics, industrial networking, and automotive systems, engineers demand components that offer greater efficiency, lower power consumption, and enhanced safety features. Analog Devices' new products, the MAX22663, LT8342, and LT8440, reflect this commitment by introducing next-generation isolation, power conversion, and intrinsic safety solutions.

The MAX22663 is a reinforced six-channel digital isolator, offering high-speed data transfer with low power consumption and automotive-grade reliability. The LT8342 is a high-efficiency synchronous step-up converter, designed for low EMI and extended battery life in demanding environments. Meanwhile, the LT8440 is a power conditioner tailored for Advanced Physical Layer (APL) field devices, ensuring safe and reliable operation in industrial networking applications.

This article explores how these Analog Devices new products enhance system performance, improve power efficiency, and meet the demands of modern electronic design. Whether you're working on automotive electronics, industrial networking, or next-gen power solutions, these components offer reliable, high-performance solutions for today’s engineering challenges.

MAX22663: Reinforced, Fast, Low-Power, Six-Channel Digital Isolator

Isolation is a critical component in automotive, industrial, and medical electronics, where data integrity and safety are paramount. The MAX22663 from Analog Devices delivers reinforced galvanic isolation, ensuring high-speed, low-power communication while protecting circuits from high-voltage transients.

Key Features

The MAX22663 sets itself apart with the ability to withstand high voltage and energy-efficient operation. It features:

·      5kVRMS Reinforced Isolation — Meets industry standards for long-term reliability in high-voltage environments.

·      Low Power Consumption — Consumes just 0.71mW per channel at 1Mbps (1.8V supply), reducing thermal footprint.

·      High-Speed Data Transfer — Operates at speeds up to 200Mbps, ensuring real-time data integrity.

·      AEC-Q100 Qualification — Automotive-grade reliability for battery management systems (BMS) and hybrid-electric vehicle (HEV) applications.

Applications

The MAX22663 is ideal for designs requiring high isolation and fast communication, including:

·      Automotive Systems — Used in BMS, inverter controls, and high-voltage gate drivers.

·      Industrial Automation — Supports isolated SPI, RS-485, CAN, and digital I/O for robust factory communication.

·      Medical Equipment — Ensures safe data transfer in patient monitoring and diagnostic devices.

With its compact footprint and energy-efficient architecture, the MAX22663 helps engineers build safer, more reliable electronic systems without sacrificing speed or power efficiency.

LT8342: 40V, 9A, Low IQ Synchronous Step-Up Silent Switcher

Power efficiency and electromagnetic interference (EMI) are major concerns in automotive and industrial power supplies. The LT8342, part of Analog Devices' Silent Switcher™ family, offers high-efficiency power conversion with ultralow EMI, making it ideal for high-performance power systems.

Key Features

The LT8342 is built to handle high-current and wide-voltage applications while minimizing switching noise. Its standout features include:

·      Silent Switcher™ Architecture — Reduces electromagnetic emissions, ensuring compliance with stringent EMI standards.

·      Wide Input and Output Voltage Range — Accepts 2.8V to 40V input, with output voltage programmable up to 36V.

·      High Efficiency with Low Quiescent Current — Consumes only 9μA in Burst Mode, significantly extending battery life in energy-sensitive applications.

·      Integrated 40V, 9A Power Switches — Supports adjustable switching frequencies from 300kHz to 3MHz, allowing engineers to optimize for either efficiency or compact design.

Applications

The LT8342 is a game-changer for power designers looking to reduce EMI and power losses while maintaining high performance. It’s particularly well-suited for:

·      Automotive Power Supplies — Powers ADAS, infotainment systems, and high-voltage battery management.

·      Industrial and IoT Applications — Provides efficient step-up conversion in sensors, actuators, and wireless communication systems.

·      General-Purpose DC-DC Converters — Ideal for designs requiring high output voltage with low noise.

With its combination of low-noise operation, wide voltage support, and high efficiency, the LT8342 is a versatile power solution for engineers building next-generation power electronics.

LT8440: Power Conditioner for APL Field Devices

Industrial automation and Advanced Physical Layer (APL) field devices demand reliable, power-efficient solutions to ensure safe and stable operation in complex environments. The LT8440 from Analog Devices is designed to meet these requirements by delivering intrinsically safe power conditioning with integrated current sensing and protection.

Key Features

The LT8440 is tailored for industrial Ethernet and hazardous environment applications, offering:

·      650mW Power Limit for Intrinsic Safety — Ensures compliance with thermal safety ratings when operating at line voltages up to 18.5V.

·      Integrated Current Sense Resistor — Provides real-time monitoring and overcurrent protection, reducing the need for external components.

·      Polarity-Insensitive Line Voltage Detection — Simplifies design and enhances system reliability by automatically adjusting for input polarity.

·      Guaranteed 500mW APL Power Delivery — Meets the full APL power specification, ensuring consistent performance in industrial networking environments.

·      Wide Input Voltage Range (6V to 36V) — Offers flexibility across various industrial power supply architectures.

Applications

The LT8440 is an essential component for engineers designing power-efficient and intrinsically safe industrial systems. It is particularly valuable for:

·      Industrial Ethernet & APL Networks — Enables stable power delivery to connected field devices and sensors.

·      Hazardous Environments — Ensures safe power regulation in explosive or high-risk industrial zones.

·      Current-Limited Systems — Provides precise power control in factory automation and process control applications.

With its robust power conditioning and intrinsic safety features, the LT8440 is a must-have solution for engineers working on next-generation industrial automation and networking.

The Future of High-Performance Electronics Systems

Analog Devices continues to push the boundaries of power efficiency, signal integrity, and industrial reliability with its latest innovations. The MAX22663, LT8342, and LT8440 represent a new wave of high-performance solutions for automotive, industrial, and power management applications.

The MAX22663 brings reinforced isolation and high-speed data transfer, making it a top choice for BMS, industrial automation, and medical devices. The LT8342 delivers high-efficiency power conversion with low EMI, ideal for automotive power supplies and DC-DC conversion applications. Meanwhile, the LT8440 ensures safe and reliable power conditioning for APL field devices and industrial networks.

As system complexity increases, engineers need highly efficient, robust, and easy-to-integrate solutions. These Analog Devices’ new products provide the performance, safety, and flexibility required for next-generation electronic designs. Whether you’re optimizing power systems, industrial automation, or automotive electronics, these components offer cutting-edge solutions to meet today’s engineering challenges.

If you need other components to work with these new parts from Analog Devices as you design and build your next project, contact Microchip USA. Our team of industry experts has worked with companies in a variety of industries, from industrial automation to green energy, and we specialize in finding obsolete and hard-to-find parts. Whether you need a single component or someone to manage your supply chain, we’re here to help! Contact us today!