Tag: precision

Dell Reimagines Commercial PCs with New Sleek and Powerful Designs

Dell Technologies introduces a transformed commercial portfolio spanning Dell Pro notebooks, Dell Pro Precision workstations, desktops, monitors and client peripherals.

Thinner, lighter, and more powerful, the new lineup brings a bold, refined design language to commercial devices—prioritizing sleeker silhouettes, premium materials and modern details that elevate everyday productivity. With advances in cooling, power efficiency and support for on-device AI, the portfolio delivers improved performance and long battery life in more portable form factors, enabling a consistent, elevated experience for everyone from frontline workers to senior executives.

Why it matters

Users want sleek, powerful devices. IT needs security, manageability, and budget discipline. Dell’s reimagined commercial portfolio delivers both. Advanced engineering—modular architecture, improved thermals, AI-ready silicon—allows thinner, lighter designs that maintain enterprise-grade performance and control. Organizations can now deploy modern hardware that professionals prefer without compromising on the standards IT demands.

Dell Pro notebooks: Thinner. Lighter. More powerful.

The all-new Dell Pro notebook lineup delivers the performance business users need for everyday productivity: running multiple applications simultaneously; real-time collaboration on video calls or whiteboards; manipulating large datasets and using AI assistants. Available with the latest Intel Core™ Ultra Series 3 and AMD Ryzen™ AI 400 processor options, users have powerful on-device AI, long battery life and Copilot+ PC experiences. Dell’s new modular design approach shrinks the motherboard to create room for larger fans and better thermals, packs more energy into smaller batteries and supports a wider range of silicon options within the same chassis. This flexibility gives organizations more configuration options within the design and faster responsiveness in a dynamic silicon market, even in supply-constrained environments. Additional Intel Core Series 3 systems will be introduced at a later date.

The Dell Pro notebooks include Dell Pro Premium, designed for executives and customer-facing managers who are frequently on-the-go. which sets a new standard for executive-class notebooks. Up to 7% thinner than the previous generation in a sleek form factor, the 14-inch laptop features a lightweight magnesium alloy chassis finished in magnetite. The Tandem OLED display option provides exceptional color and contrast, and the 8MP HDR camera offers remarkable video call quality. As the lightest Dell Pro laptop, Dell Pro Premium sets a new standard for executive-class notebooks.

Dell Pro 7 is built for consultants and sales professionals who refuse to choose between portability and capability. Combining versatility with design, these are the thinnest 13- and 14-inch commercial laptops and 2-in-1s in their class. Now up to 18% thinner than the previous generation Dell Pro 7 features an elegant aluminum chassis with the performance to handle demanding business applications. The sleek edge-to-edge Gorilla Glass touchscreen with up to 500-nit display provides a beautiful viewing experience on the 2-in-1s—whether working on a client presentation at an office or in a cramped airline seat. With premium options for an elevated experience—such as OLED displays, up to 8MP cameras and battery-saving mini-LED backlight keyboard technology—customers can customize the experience to fit their user needs.

Dell Pro 5 offers the most scalable performance in its class. Organizations can configure these systems across a selection of Intel and AMD processor options, display choices, and memory and storage configurations to match their specific workflow requirements and IT standards. Available in 14- and 16-inch sizes, Dell Pro 5 is up to 12% thinner than the previous generation and up to 21% thinner than competing designs, providing mobility for users like financial analysts and project managers, while maintaining performance needed for business-critical applications. Brighter 400- and 500-nit displays with up to OLED improve visibility in any working environment, while the large 70Wh battery delivers extended runtime for long work sessions.

Dell Pro 3 delivers reliable business computing for administrative assistants or support specialists handling core productivity tasks—email, web applications, document creation and video conferencing—at maximum value. Starting at just 2.89 pounds in 14- and 16-inch form factors, the new metallic topcoat gives a smooth and scratch-resistant finish, and sleek and tapered profile provides a modern appearance. With WWAN, Wi-Fi 7, 400- and 500-nit display options, and long battery life, Dell Pro 3 packs notable features in a highly portable device.

Dell Pro 5 Micro Desktop: Compact and Powerful

Dell Pro’s growing desktop family adds the new Dell Pro 5 Micro, delivering desktop-class performance in an ultra-compact form factor designed for space-constrained environments. With integrated Type-C connectivity up to 100W power delivery-in, the Micro can be powered directly from a USB-C monitor, such as a Dell Pro P Monitor, minimizing cord clutter. As Dell’s first Copilot+ PC mainstream desktop, it delivers 50 TOPS NPU for low-power acceleration of AI workloads and supports memory speeds up to 7200 MT/s for smoother multitasking. The rest of the Dell Pro desktop family continues to ship this year.

Dell Pro Precision Workstations: Power Meets Refinement

Dell brings back Precision—now Dell Pro Precision—with industry-leading workstations designed for professionals who demand exceptional performance. As the global leader in workstations,[xii] Dell Pro Precision continues the same design-forward thinking while delivering greater capabilities for AI workloads, complex simulations and advanced rendering.

Dell Pro Precision 5S debuts as an entry point to the family, built for power users who need more than a business notebook can provide—engineers handling light CAD modeling, content creators doing video editing and designers working in graphic applications. Starting at 3.1 pounds, it’s Dell’s thinnest and lightest workstation ever [xiii] and features a sleek three-sided aluminum design, providing a polished, robust build. Available with 14‑ and 16‑inch display options and Intel® Core™ Ultra Series 3 featuring integrated Intel Arc™ Pro graphics with up to 12 Xe or AMD Ryzen™ AI 400 processors with AMD Radeon™ PRO graphics, it delivers high performance for business and industry applications in an ultra‑mobile form factor. The large integrated graphics engine and shared memory complex enable additional edge inferencing capabilities for AI workloads. ISV-certified and equipped with up to 64GB of 8533MT/s LPCAMM2 memory, it offers a cost-effective price point for bringing workstation capabilities to a broader range of users..

Dell Pro Precision 5 and 7 series mobile workstations with NVIDIA RTXTM Pro Blackwell Generation GPUs, announced at GTC, deliver workstation-class power in thinner, sleeker designs for advanced creation, rendering and accelerating AI workflows. Plus, the all-new designed Dell Pro Precision 9 T2/T4/T6 desktops power the most demanding workloads—3D CAD, complex AI development and simulations—with up to 15 PCIe slots accommodating up to five NVIDIA RTXTM Pro Blackwell Generation 300W GPUs.

Across the Portfolio: Built for IT

At the core, Dell continues to offer the world’s most secure and manageable commercial AI PCs,[xiv] simplifying IT management and helping product data from evolving threats. New quantum-resistant upgrades help protect BIOS and the root of trust against future cryptographic threats, while Halcyon on-the-box now makes Dell the only commercial PCs equipped for ransomware resilience. Dell’s standardized BIOS across silicon partners allows IT teams to deploy multiple processor types under a single image, while the industry-first cloud-based Intel vPro provisioning solution provides remote, zero-touch fleet deployment.

Modular designs and the use of recycled, renewable and low-emissions materials support customers’ sustainability ambitions and extend PC longevity. As the first PC manufacturer to introduce modular USB-C ports in commercial PCs, Dell now brings modular components, including USB-C ports, mainboards and customer replaceable batteries, to Dell Pro notebooks and select Dell Pro Precision mobile workstations. Dell also has the widest portfolio of commercial PCs with 100% recycled cobalt batteries.

Dell Pro P Monitors and Peripherals: Designed for How People Actually Work

Most professionals do not have dedicated desks anymore. They hot-desk, work remotely and jump between conference rooms. Dell’s expanded Pro P monitors and accessories lineup are designed for that reason.

Dell Pro P 34 USB-C Hub Conferencing Monitorcertified for Microsoft Teams and Zoom, turns any workspace into a virtual meeting-ready setup. Its Sony Starvis 5MP HDR camera delivers professional-grade clarity even in low light conditions, while AI auto-framing keeps users centered on-screen. Dual beamforming AI noise cancellation microphones cut user background noise for distraction-free conversations and a mechanical privacy shutter plus Windows Hello sign-in add security.

Dell Pro P 27 USB-C Hub Monitor is for users who do not require built-in conferencing features but want reliable performance. It offers an FHD IPS panel with up to 120Hz refresh rate and supports up to four monitors daisy chained. Silent Firmware Update completes updates up to 90% faster and runs silently during idle state, eliminating reboots, alerts and any disruptions to employee productivity.

All Dell Pro P Monitors are TÜV Rheinland 4-star certified for eye comfort, made with up to 95% post-consumer recycled plastic and meet ENERGY STAR®, EPEAT Gold and latest TCO Certified Edge standards.

 

New peripherals complete the setup:

  • Dell Pro 5 Wired Fingerprint ESS Mouse provides advanced, hardware-level protection through Enhanced Sign-in Security (ESS) for Windows Hello authentication, making it more secure against malicious attacks. This mouse is a fast, convenient and secure alternative to long complex passwords.
  • Dell Pro 7 Slim Keyboard and Mouse are a full-size keyboard and mouse combo that deliver quiet keys, silent clicks, precise tracking and industry-leading battery life up to 48 months on the keyboard, 36 months on the mouse.[xxii]
  • Dell Pro 7 Rechargeable Compact Keyboard and Mouse combine a compact design with supercapacitor technology for exceptional battery life. A quick five-second charge delivers a day of use, while a full charge in under five minutes powers the keyboard for up to three months and the world’s lightest non-Lithium-ion rechargeable mouse for up to 1.5 months.

Together, these systems form a cohesive commercial portfolio for modern hybrid work with on-device AI.

Rob Bruckner, president, Client Solutions Group, Dell Technologies: “At CES, we showed what’s possible when consumer design and innovation come together. Today, we’re proving we can scale that same strategy across our entire commercial portfolio – and do it fast. IT leaders can deploy sleek and modern devices users actually want to use at every level of the organization, along with improved performance, without sacrificing the manageability, security or value they demand.”

Pat Moorhead, CEO, founder and chief analyst, Moorhead Insights & Strategy “Enterprise buyers are navigating a major PC refresh cycle with rising demands for security, manageability and workload flexibility. As CIOs prioritize long-term value, they are focusing on systems that align to specific workloads, offer silicon choice and can be deployed consistently across distributed environments. Supply chain volatility and longer planning cycles are also driving interest in platforms that reduce procurement risk while maintaining standardization. Dell’s engineering and design updates across its commercial PC portfolio deliver on these dynamics, combining multiple silicon options with enterprise-grade security and manageability to give buyers greater flexibility as they plan and standardize their endpoint environments.”

 

 

Availability

  • Dell Pro 14 Premium will be available on March 31.
  • Dell Pro 3 14/16, Dell Pro 5 14/16 and Dell Pro 7 13/14 notebooks will be available in May.
  • Dell Pro 5 Micro will be available on March 31.
  • Dell Pro Precision 7 14/16 with Intel integrated graphics will be available on March 31.
  • Dell Pro Precision 5 Series 14/16 and 7 Series 14/16 mobile workstations with NVIDIA RTXTM PRO Blackwell Generation GPUs will be available in May.
  • Dell Pro Precision 5S mobile workstations will be available in May.
  • Dell Pro Precision 9 T2/T4/T6 will be available in May.
  • Dell Pro P 34/27/24 USB-C Hub Conferencing Monitor (P3426WEB/P2726DEB/ P2426HEB) and Pro P 34/27/24 USB-C Hub Webcam Monitor (P3426WEV, P2726DEV, P2426HEV) are now available for sale globally.
  • Dell Pro P 27/24 USB-C Hub Monitor (P2726HE, P2426HE) and Dell Pro P 24 16:10 USB-C Hub Monitor (P2426E) are now available for sale globally.
  • Dell Pro 7 Slim Keyboard and Mouse (KM726) are now available for sale globally (launch dates vary by region).
  • Dell Pro 5 Wired Fingerprint ESS Mouse (MS526C) is now available for sale in North America (launch dates vary by region).
  • Dell Pro 7 Rechargeable Compact Keyboard and Mouse (KM746) will be available starting April 16 in North America (launch dates vary by region).

Revolutionizing Precision: Horizontal Boring Mills in the Era of Modern Manufacturing

Welcome to the cutting-edge world of Horizontal Boring Mills (HBMs), where traditional manufacturing meets the revolutionary advancements of Industry 4.0. From crafting intricate aerospace components to powering the energy sector, HBMs have evolved beyond their conventional roles. 

Now, integrated with smart factory systems and data-driven insights, they’re reshaping manufacturing processes, offering unprecedented levels of precision, efficiency, and automation. Prepare to be amazed by how these giants of industry are not just adapting to the new era but leading the charge in the smart manufacturing revolution!

A Handy Guide to Understanding HBMs

What Are Horizontal Boring Mills?

Picture a machine that’s a must-have in the world of manufacturing, especially when dealing with big, bulky items like engine blocks or ship parts. That’s where Horizontal Boring Mills (HBMs) come into play. These giants are all about precision. They drill accurate holes, create perfect tunnels, and shape large workpieces with amazing detail.

The Building Blocks of HBMs

Imagine a giant, robust machine with parts that sound like they’re straight out of a science fiction novel: beds, columns, spindles, and rotary tables. But in reality, these are the essential components of HBMs. 

The bed? That’s the machine’s foundation, offering a stable base for all the action. The column stands tall, holding up the spindle and the rotary table. The spindle is where the magic happens – it’s a rotating shaft that holds the cutting tool, adjusting up and down to get the depth of the cut just right. And the rotary table? It’s like a giant turntable, positioning the workpiece at various angles for precision work.

How HBMs Work Their Magic

Let’s talk about how these machines do their thing. HBMs work on rotary cutting principles – think of it as a super-fast spinning cutting tool chipping away at the workpiece. The spindle moves up and down, adjusting how deep the cut goes, while the rotary table spins the workpiece into the perfect position. This is how these machines make such precise bores, holes, and tunnels.

But wait, there’s more! HBMs come loaded with cool features and tech. Some have automatic tool changers – like a quick-change artist swapping out tools in a flash. Others boast advanced control systems, giving real-time updates and adjustments on the go.

The Leap in Precision and Control: A Game-Changer in Manufacturing

Revolutionizing Accuracy

Imagine a world where we can craft objects with almost unimaginable precision, down to less than a thousandth of an inch. That’s the realm where modern Horizontal Boring Mills (HBMs) operate. It’s like they’re equipped with a super-microscope, ensuring every tiny detail is perfect. This leap in accuracy isn’t just luck; it’s a combination of cutting-edge design, superior materials, and advanced calibration systems.

Take linear scales and laser interferometers, for example. These high-tech tools are like the mill’s sixth sense, detecting the slightest movements and making real-time adjustments.

The Control System Revolution

Now, let’s talk about the brains of the operation: the control systems. These systems, especially CNC (Computer Numerical Control), are the secret sauce. They’re like the mill’s personal orchestra conductor, ensuring every movement is harmonious and precise, transforming complex designs into reality with ease. 

But it’s not just about making intricate parts. These CNC systems are multitaskers, juggling multiple operations without breaking a sweat, boosting efficiency, and cutting down manual labor.

And we can’t ignore the safety aspect. Modern HBMs like the Horizontal Boring Mills  – HBM110-FH come with safety features that are always on guard. Think of them as vigilant sentinels, ready to shut things down at the first sign of trouble, safeguarding both the operator and the machine.

A Deep Dive into the Versatile Applications of HBMs

Elevating Aerospace and Defense Manufacturing

In the high-stakes world of aerospace and defense, there’s no room for error. Precision is key, and that’s where Horizontal Boring Mills (HBMs) shine. These machines are like the expert sculptors of the manufacturing world, carving out intricate, critical components with the precision of a master. They tackle complex shapes and nail those tight tolerances needed for parts like engine components, landing gear, and even the backbone of aircraft – fuselage components.

But it’s not just about precision. These HBMs are also about efficiency. Imagine machining a massive part in one go, rather than shuttling between multiple machines. That’s a game-changer, saving time and streamlining processes in these high-demand industries.

Powering the Energy Sector

When it comes to energy, durability is the name of the game. HBMs step up to this challenge, machining hefty components like turbine casings and generator rotors with impeccable precision. These machines are not picky about materials either. Whether it’s exotic alloys or tough-as-nails hardened steels, HBMs handle them all, making them indispensable in various energy applications.

Transforming Heavy Machinery Manufacturing

In the world of heavy machinery, size matters. We’re talking about massive components that bear heavy loads and endure rough conditions. Here, HBMs are the unsung heroes, producing large parts such as gearboxes and engine blocks with unwavering accuracy. Their ability to manage such gigantic workpieces in one setup is a major efficiency booster.

Wrapping It Up

So, what’s the big picture? Horizontal Boring Mills have evolved from just being big, heavy machines to intelligent, precision-driven giants. They’re at the heart of modern manufacturing, turning complex designs into tangible, high-precision parts.

From soaring aircraft to robust energy systems, and sturdy heavy machinery, HBMs are behind the scenes, shaping the backbone of these industries. They bring together the magic trio of precision, efficiency, and versatility, making them invaluable assets in today’s fast-paced, precision-driven manufacturing landscape. So, next time you see a plane soaring or touch a piece of heavy machinery, remember the role of HBMs in bringing those marvels to life!

How Autoranging Technology Impacts Precision in Power Supplies

Precision is a crucial aspect of power supplies, as it ensures accurate and consistent delivery of voltage and current to various electronic devices. The advancement of technology has led to the development of autoranging technology, which plays a significant role in enhancing precision in power supplies. In this blog, we will delve into the concept of autoranging technology and explore its impact on precision.

Understanding Power Supplies

Before we delve into autoranging technology, let’s first understand the basics of power supplies. A power supply is an electronic device that converts input power into the desired output voltage and current for powering electronic components or systems. It serves as the backbone of various applications ranging from consumer electronics to industrial machinery.

Precision in power supplies refers to the ability to deliver the specified voltage and current accurately and consistently. This is crucial for ensuring the proper functioning and performance of electronic devices, as even slight deviations can potentially damage sensitive components or impact their efficiency.

What is Autoranging Technology?

Autoranging technology refers to the capability of a power supply to automatically adjust its output voltage or current based on the requirements of the connected load. Traditional power supplies have fixed output voltages, requiring users to choose the appropriate model based on their specific voltage requirements. However, the DC power source of autoranging power supplies can maintain full power output across a broader range of output voltages and currents than traditional fixed-output power supplies. It achieves this by utilizing programmable circuitry and intelligent algorithms to monitor the load characteristics and adjust the output accordingly continuously. This flexibility enables the power supply to adapt to various devices or systems with different voltage requirements, eliminating the need for multiple fixed-output power supplies.

This technology relies on advanced circuitry and intelligent algorithms to monitor the load characteristics and adjust the output accordingly. By constantly analyzing the load’s voltage and current requirements, autoranging power supplies ensure precise and optimal power delivery.

The Impact of Autoranging Technology on Precision

Autoranging technology has a profound impact on the precision of power supplies. Let’s explore some of the key ways in which this technology enhances precision:

Improved Accuracy and Stability

Traditional fixed-output power supplies may encounter accuracy issues when the load operates at voltage levels near the limits of the power supply’s capability. Autoranging technology eliminates this problem by automatically adjusting the output voltage or current to match the load requirements precisely. This results in improved accuracy and stability, ensuring that electronic devices receive the correct power they need.

Enhanced Efficiency and Performance

Autoranging power supplies optimize energy usage by delivering only the required voltage and current. This efficiency translates into reduced power consumption, minimizing energy wastage and heat generation. By operating at peak efficiency, autoranging power supplies ensure consistent performance and longevity, benefiting both the device being powered and the overall power system.

Reduced Risk of Human Error

Traditional power supplies require manual adjustment or the use of external devices to switch between different voltage ranges. This introduces the risk of human error, such as selecting the wrong voltage range or not adjusting the settings properly. Autoranging technology eliminates these risks by automatically adapting to the connected load, reducing the reliance on manual intervention and minimizing the chances of errors.

Applications and Benefits of Autoranging Technology

Autoranging technology finds applications in various industries and offers several benefits:

Use Cases in Various Industries

Autoranging power supplies have widespread applications across industries such as electronics, telecommunications, aerospace, and more. These power supplies can cater to different voltage requirements, making them suitable for a wide range of devices and systems. From low-power consumer electronics to high-power industrial equipment, autoranging power supplies provide the flexibility and versatility needed in diverse applications.

Increased Flexibility and Versatility

By eliminating the need for multiple fixed-output power supplies, autoranging technology offers increased flexibility and versatility. Users can connect devices with varying voltage requirements to a single autoranging power supply, making it more convenient and cost-effective. This flexibility simplifies inventory management and reduces the need for additional power supply models, ultimately saving time and resources.

Cost Savings through Single Power Supply

Autoranging power supplies offer significant cost savings by reducing the need for multiple power supply models. Instead of purchasing separate power supplies for different voltage ranges, organizations can invest in a single autoranging power supply that caters to various voltage requirements. This consolidation not only reduces upfront costs but also streamlines maintenance and support processes.

Challenges and Limitations of Autoranging Technology

While autoranging technology offers numerous benefits, it does have some challenges and limitations to consider:

Compatibility Issues with Specific Devices or Systems

Certain devices or systems may have specific voltage requirements that fall outside the range supported by autoranging power supplies. In such cases, alternative power supply solutions need to be explored. It is essential to ensure compatibility before implementing autoranging power supplies in specific applications.

Trade-offs between Precision and Other Factors

There might be situations where precision needs to be balanced with other factors, such as cost, size, or power efficiency. While autoranging power supplies excel in precision, there can be trade-offs in certain scenarios. For example, achieving high precision may come at the cost of increased complexity or higher price points. Balancing these trade-offs is crucial based on the specific requirements of the application.

In conclusion, autoranging technology has a significant impact on precision in power supplies. It improves accuracy, stability, and efficiency while reducing the risk of human error. Autoranging power supplies offer flexibility, versatility, and cost savings, making them suitable for various industries and applications. Despite some limitations, autoranging technology is expected to see advancements in the future, enabling even more precise and efficient power delivery.

 

Nikon Precision Europe to expand operations with new office at Kildare Innovation Campus

Tánaiste and Minister for Enterprise, Trade and Employment Leo Varadkar today announced plans by Nikon Precision Europe (NPE) to expand its operations with the opening of its new offices on Kildare Innovation Campus.  The offices will form part of its worldwide support network.

This expansion was supported by the Irish Government through IDA Ireland.

NPE has been in Ireland since the early 1990’s with local staff supporting a number of multinational semiconductor customers.  Having started with a handful of local employees, the company has steadily grown in line with customers’ needs. It now has close to 140 employees, and this expansion will continue over the coming months with an additional 40 positions available across a range of skills.

Nikon Precision Europe (NPE) GmbH is the organisation supporting Nikon’s Lithography systems for its European customers. It provides service to customers during the lifecycle of the Lithography system. Whether it is during installation, wafer production ramp-up or in a sustaining production environment, their team provide expert analysis and solutions to enable optimal usage around-the-clock of the capital equipment in the customer factory.

Tánaiste Leo Varadkar said: “This expansion, which will create 40 new jobs in Nikon’s new offices in the newly launched Kildare Innovation Campus, is a great boost for Kildare and the surrounding area. Congratulations to the team, I’m sure it has taken a huge amount of work to make these plans a reality. The very best of luck with it.”

NPE President Harumi Sawada said: “Our continued investment in Ireland underlines the importance Nikon places on the support of our customers locally as well as creating a technical hub that can support our worldwide semiconductor operations.”

IDA Ireland CEO Martin Shanahan said: “Nikon Precision Europe has been in Ireland for close to 30 years now, supporting a number of multinational semiconductor customers. The company has grown from a handful of local employees as the business developed in line with customer needs to close to 140 employees at present in its international support hub. These new offices in Kildare Innovation Campus will add a further 40 roles; a very welcome development demonstrating the company’s ongoing commitment to its Irish operations. I wish them continued success.”

To learn more about exciting careers at this moment of unprecedented rapid and ongoing growth in the semiconductor industry, go to NPE’s application portal here https://nikon-precision-hr.secure.force.com/recruit/fRecruit__ApplyJobList