Author: Sally Dobie

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Semiconductor

Semiconductor Stats: Top US States Leading the Charge

USA with electronic components

The United States has always been at the forefront of technological innovation, and the semiconductor industry is no exception. With advancements in AI, IoT, and various consumer electronics, the demand for semiconductors is skyrocketing. The US Semiconductor Ecosystem Map from the Semiconductor Industry Association (SIA), last updated on March 28, 2024, highlights key states excelling in semiconductor manufacturing and R&D. Let’s delve into the top states and understand why they are leading the charge.

Top States for Semiconductor Manufacturing

California (34 Facilities)

California is the leading state in semiconductor manufacturing, with 34 facilities. Since the 1950s, California has made innovation one of its many specialties. Shockley Semiconductor Laboratory opening in 1955 was the first semiconductor facility to open in the state and began the technology hub that would become known as Silicon Valley.

Reasons for choosing California include:

  • Silicon Valley – An innovation centre, home to a high concentration of technology companies and startups.
  • Established supply chains – With a recognised base comes long-existing supply chains and a sturdy infrastructure.
  • Advanced technologies – Numerous modern facilities and the latest manufacturing innovations.

Arizona (28 Facilities)

One of Arizona’s first forays into semiconductors was in 1949, six years earlier than California. That year Motorola Inc. established a research lab in Phoenix, which would later become a transistor manufacturing facility.

Arizona is a popular choice because:

  • Cost-effective operations – Generally lower costs of living and business operations than other states like California.
  • Lessened financial burden – Alongside the lower costs, Arizona has a lot of tax incentives and subsidies to encourage businesses.
  • Good climate – The dry air is ideal for semiconductor manufacturing, reducing humidity-associated risks.

Texas (17 Facilities)

Texas is known for its business-friendly environment, and is well-known for being home to some very large semiconductor companies.

Texas is a contender due to:

  • Attractive business environment – The state offers lower taxes and some incentives for companies.
  • Affordable – Labour, utilities, and real estate are fairly priced, making it an economical choice for companies.
  • Energy – Affordable and reliable energy, a real incentive for energy-intensive semiconductor manufacturing processes.

What do they have in common?

All three states have industry clusters, leading to companies benefiting from being close to each other and sharing knowledge, suppliers, and skilled labour. Additionally, these states offer a high quality of life, which helps attract top talent. Their strategic locations ensure proximity to major consumer markets in the US and excellent connectivity for international trade.

Top States for R&D Facilities

California (87 Facilities)

With 87 R&D facilities, California is the undisputed leader in semiconductor research and development.

  • University and industry: California has a strong university system with established links between industry and academia.

Texas (36 Facilities)

Again one of the top three, Texas has a significant number of R&D facilities dedicated to semiconductors.

  • Educational Strengths: Texas has a number of top-tier universities with strong engineering and tech programs, feeding the industry with fresh talent and original ideas.

Massachusetts (35 Facilities)

Massachusetts is a strong competitor in semiconductor R&D, thanks to its strong educational and industry connections.

  • Academic Excellence: Renowned for its world-class universities including Harvard and MIT (Massachusetts Institute of Technology), the state offers excellent opportunities for collaboration between education and industry.

Top States for Chip Design

California (64 Facilities)

In the end, California is leading the way in all three of these categories, cementing its position as a center of US semiconductor innovation.

  • Education and talent: Proximity to top universities like Stanford, UC Berkeley, and Caltech fosters a strong research and talent pool, and creates a highly skilled workforce.
  • Access to Capital: Significant venture capital presence supports startups and established companies, along with federal and state research grants.

Texas (22 Facilities)

Texas is another US tech hub, with a robust environment supporting semiconductor innovation.

  • Business Environment: Business-friendly tax policies with no state income tax and various economic incentives, including grants and tax credits.
  • Educational Institutions: Strong university system with institutions like the University of Texas and Texas A&M University contributing to R&D and providing a continuous supply of tech graduates.

Arizona (10 Facilities)

Arizona offers a stable environment for chip design, attracting numerous facilities to the state.

  • Education and Workforce: Strong emphasis on tech and engineering education, with universities like Arizona State University and the University of Arizona contributing to R&D efforts.

Innovation and recognition

While California, Arizona, Texas, and Massachusetts stand out as established technology hubs, the semiconductor industry benefits from facilities and infrastructure spread across the entire USA. Many states offer generous incentives and grants to encourage new startups and foster innovation. This wide distribution of resources and support ensures that companies, regardless of location, can contribute to and thrive within the semiconductor sector.

At Lantek Corporation, we are not only committed to supporting the growth and innovation of the semiconductor industry, but we are also steadfast supporters of the established semiconductor supply chain. Our expertise in sourcing both common and hard-to-find electronic components ensures that your manufacturing processes remain uninterrupted. Explore our services and discover how we can help you stay ahead in this fast-paced industry.

Contact Lantek Corporation to discover how we can support your semiconductor efforts with top-quality electronic components.

Categories
Electronic Components

Get Ahead of the US Tariff Increases on Chinese Imports

The US Trade Representative’s Office has announced that increased tariffs on imports from China will begin to take effect on August 1st, 2024 with the tariffs on semiconductors rising from 25% to 50% on January 1st, 2025. These changes will significantly impact the pricing of other industries as well, including electric vehicle batteries and medical products. As the country prepares for these changes, manufacturers should plan ahead.

Secure Your Components Now to Avoid Price Increases

Lantek Corporation is here to help you navigate these tariff increases. We can offer solutions to secure your components at current prices before the tariffs take effect. Here’s how you will benefit:

Bulk Purchasing: Place your order for a year’s supply based on your Estimated Annual Usage (EAU). Lantek will buy the full quantity on your behalf.

Pre-Tariff Shipping: We will arrange for the entire quantity to be shipped into the country ahead of the tariff increases, ensuring you avoid the higher prices.

Warehousing and Scheduled Shipments: Lantek will store your purchased stock and release it in smaller shipments according to your schedule and call-offs.

Optimized Cash Flow: To maximize your cash flow, we will only invoice you for each component shipment, not the full order.

This proactive approach allows you to lock in today’s pricing for an extended period of time, and avoid the financial strain of the upcoming tariff increases.

Take Action Today

Don’t wait until the tariffs take effect. Secure your components now and safeguard your business against the impending price hikes. Contact Lantek Corporation today to discuss our scheduled ordering services or to place your order. Alternatively, you can use the fast component search on our website.

By planning ahead, you can ensure your business continues to thrive despite the changing economic landscape. Let Lantek Corporation support you with our expertise and resources.

Categories
Electronic Components

The Frontlines of Innovation: Electronic Components in Emerging Defense Applications

The global defence industry is experiencing a period of significant transformation. Driven by rising global tensions, a focus on national security, and growing investor confidence, the sector is expecting significant growth in the next few years.

A Surge in Spending

Global defense spend have seen a significant rise, global spending increasing to a record $2.2 trillion last year. This growth is concentrated amongst a number of nations, with the US, China, Russia, India, and Saudi Arabia accounting for 63% of global military spending.

In response to the ongoing conflict between Ukraine and Russia, Germany has also committed to a substantial defense budget increase, signaling significant growth prospects for the defense industry in Europe.

Emerging Technologies on the Horizon

Innovation is at the forefront of modern defense strategies. Here are some of the developments poised to impact the defense sector in 2024:

  • Counter-Drone Systems: With the growing abundance of aerial drones, there is a definite need for robust counter-drone solutions. Autonomous counter-drone systems are expected to see operational deployment in 2024, with the market for these systems reaching a projected value of $5.2 billion by 2028.
  • Electrification of Military Vehicles: Concerns about environmental impact and fuel security are driving the development of electric and hybrid military vehicles. This shift means advancements in battery technology are also needed, power management systems, and robust electronic components that can withstand harsh operating environments.
  • Artificial Intelligence (AI): Investment in AI for defense applications is on the rise. AI is being explored for a range of applications, including image recognition for target identification, threat analysis, and autonomous weapon systems.
  • Soldier-Assisting Quadruped Robots: These agile robots offer logistical and combat support to soldiers. Advancements in motor control systems, sensors, and AI are crucial for the successful deployment of these technologies.
  • The Rise of Military IoT: The Internet of Things (IoT) is making its way into the defense sector. From interconnected sensors on the battlefield to networked logistics systems, the use of military IoT devices is on the rise. This necessitates reliable and secure communication protocols, along with miniaturized and low-power electronic components.

Partnering with Excellence in Defense Innovation

For purchasing professionals, partnering with Lantek Corporation means having a reliable ally in your supply chain. As the defence industry continues to grow, rely on us to provide the components that power your innovations, keeping your projects on schedule and to specification.

Disclaimer: This blog post is for informational purposes only and should not be taken as political commentary.

Categories
Electronic Components

Organic Electronics – Latest Innovations

Organic Electronics - Latest Innovations

One of the largest trends driving electronic component innovation currently is the area of organic electronics.

Organic materials, specifically the conductive and semi-conductive ones, could be a great investment while minerals like silicon are in short supply. 

Since the concept of conductive polymers has only been around since the late 70s, there has been a rush of innovation in the years since. 

One of the most famous and well-integrated forms of organic electronics is the OLED. Organic Light-Emitting Diode technology is used in TV and device screens, giving a thinner and lighter alternative to LCD (liquid crystal display) technology. 

Although OLED is potentially the most well-known, there are lots of exciting projects currently underway. Here is a quick list of some to watch out for: 

Moisture sensor for wound care

Starting off with some medical industry innovation, new adaptive moisture sensors for wounds could vastly improve the healing of some injuries. 

Currently to check the healing progress of a wound you remove the dressing, which disturbs the wound and healing process. Not the best strategy, right?  

Another factor that massively affects the healing process is the amount of moisture in the wound. Either too much or too little moisture can affect the wound negatively, so this needs to be carefully monitored.  

The first type of moisture sensor for bandages was introduced in 2007, and since then bandages with more absorption and retention properties have been developed. 

One of the latest iterations of these bandages was proposed by the University of Bologna, Italy, in 2021. The bandage comprised of a moisture impedance sensor based on PEDOT:PSS (poly(3,4-ethylenedioxythiophene) polystyrene sulfonate) in a bandage. This version is completely wireless and can be passively monitored, unlike its heavy predecessors, including 2016’s ‘Wound Sense’. The previous iteration included electrodes and a connected reader. 

Electronic paper

Ever wondered about the tech that is in your e-reader? Electronic paper is another great organic electronics development. But electronic paper’s capabilities stretch far beyond just e-readers. It can be used for restaurant menus, advertising billboards and shop price tags. 

Capsules of polar-charged black and white ink pigments make up these screens with electrodes on both sides. When a charge is applied, the pigments with the corresponding charge will move to the bottom or top. This forms the words we see on the screen.  

This technology uses very low power since it is bistable, so it will only consume power while the screen changes.  

Triboelectric nanogenerators

These devices, also called TENGs, can convert mechanical energy into electricity. Since most of the components are organic it is a much more eco-friendly and safe option for a lot of wearable technology. It could harvest energy from everyday sources, like human motion, flowing water, and many other areas. 

Smart windows

These innovative successors to the solar panel could see transparent solar cells placed on top of windows. It could generate electricity and improve heating and cooling costs through harnessing UV light. 

Typically transparent solar cells absorb infrared light, but the latest iterations use UV instead. Currently, UV light is reflected by a window coating so it doesn’t affect our skin or bleach the items in our house. However, with transparent solar cells this energy can be utilized to power the window and will not interfere with heat coming into the room by absorbing the infrared rays. 

The technology is low current and wireless, and could be used to power other IoT (Internet of Things) devices in the future. 

Here today, gone tomorrow

It is nice to look to the future and see all the exciting innovations to come, but that won’t solve your electronic component shortages today. Lantek can help. With our vast stocklist and global contacts we can source any part you need. Contact us today at sales@lantekcorp.com, or call us on 1-973-579-8100.