Laser direct imaging refers to Laser Direct Imaging, abbreviated as LDI, which belongs to a type of direct imaging. The light is emitted by an ultraviolet laser and is mainly used for the exposure process in the PCB manufacturing process. The imaging quality of LDI technology is clearer than that of traditional exposure technology, and it has obvious advantages in mid-to-high-end PCB manufacturing.

With the rapid progress of PCB design requirements, corresponding high-tech is required in the PCB production process (thinner materials, more complex structures, and finer graphics requirements within the range of micro-errors), traditional contact stencils Exposure and development technology can no longer meet the needs of such high-end PCB applications.

This demand has led to changes in production technology, from contact stencil exposure and development to direct laser imaging. A software-controlled laser or laser source is used to laser image a photoresist-coated PCB, or to cure and image a solder mask at the end of the PCB process.

Hecho specializes in the production of LDI optical fiber bundle, and can provide customized services for different branch numbers, lengths, and connectors according to customer needs. With strong R&D and production capabilities, it can flexibly meet the differentiated needs of different customers.

Hecho also supply customized service for AOI Line light guides, and other  Fiber Optic Bundles which for Optical Inspection equipment uses. 

In October 2024, LVSUN will proudly present its latest innovative multi-port charger product designs at the Hong Kong GSC Exhibition, drawing significant attention from industry professionals. The exhibition will focus on LVSUN’s multi-port charging solutions ranging from 30W to 2000W, highlighting the company’s leadership and commitment to continuous innovation in the charging technology sector.

Leading the Trend with Innovative Design

LVSUN continually updates its charging product designs to provide users with a convenient and efficient charging experience. The showcased multi-port chargers can charge multiple devices simultaneously, meeting users' everyday charging needs. Whether it’s smartphones, tablets, or laptops, LVSUN's multi-port chargers efficiently support a variety of devices.

Flexible Power Options

LVSUN's product range spans from 30W to 2000W, allowing users to choose the most suitable product based on their needs. For home users, we offer low-power charging solutions for daily use, while the 2000W products cater to commercial users requiring high-power charging solutions for heavy loads.

Intelligent Protection Technology

LVSUN's multi-port products incorporate advanced intelligent protection technologies to prevent overcharging, short circuits, and overheating, ensuring a safe and reliable charging experience for every user.

Commitment to Green and Sustainable Practices

Alongside technological innovation, LVSUN adheres to green and sustainable principles. Our designs prioritize functionality, safety, and environmental impact, utilizing sustainable materials and energy-efficient designs to minimize environmental impact.LVSUN looks forward to sharing our innovative products and ideas with industry partners. We welcome all attendees to visit our booth 6P20 of Global Sources Consumer Electronics 2024 to learn more about our new series of multi-port chargers.

LVSUN looks forward to sharing our innovative products and ideas with industry partners. We welcome all attendees to visit our booth 6P20 of Global Sources Consumer Electronics 2024 to learn more about our new series of multi-port chargers.

ARABLAB, one of the premier scientific exhibitions in the region, kicked off its first day with tremendous success. Stand 845 at Sheikh Saeed Hall S1, CIQTEK, became a hub of activity as attendees flocked to explore the latest innovations in scientific instrumentation.

At Stand 845, visitors had the opportunity to engage with a team of experts and experience firsthand a range of high-performance products presented by CIQTEK, a leading provider of scientific instruments. The highlights of CIQTEK's showcase included:

1. Scanning Electron Microscopes (SEM): With remarkable resolution and imaging capabilities, these instruments offer researchers an invaluable tool for studying samples at the microscale. The CIQTEK team shared insights into the various applications of SEM, ranging from material science to life sciences.

2. Electron Paramagnetic Resonance (EPR) Spectroscopy: The EPR spectroscopy systems offered by CIQTEK captivated attendees with their ability to investigate the electronic structure and properties of materials. This powerful technique enables scientists to delve into the world of spin dynamics, free radicals, and magnetic materials, opening new avenues for research in chemistry, physics, and biomedicine.

3. Scanning NV Probe Microscopes: CIQTEK's cutting-edge scanning NV probe microscopes generated significant interest among visitors. These instruments utilize nitrogen-vacancy (NV) centers in diamond to enable high-resolution imaging and spectroscopy at the nanoscale. With applications in nanotechnology, and materials characterization, the possibilities with NV probe microscopes are truly remarkable.

4. BET Surface Area & Pore Analyzers: Attendees at Stand 845 had the chance to explore CIQTEK  BET surface area and pore analyzers. These instruments deliver crucial insights into the porosity, surface area, and adsorption characteristics of various materials. From catalyst development to pharmaceutical research, the BET analyzers showcased CIQTEK's commitment to facilitating critical breakthroughs in multiple fields.

The CIQTEK team engaged in lively discussions with researchers, scientists, and industry professionals, sharing technical expertise and exploring collaborative opportunities. Attendees praised CIQTEK's commitment to innovation, reliability, and unmatched performance in the scientific instrumentation market.

As ARABLAB continues to unfold, visitors are eagerly anticipating further insights and demonstrations from CIQTEK's range of products. Stand 845 remains a must-visit destination, offering a unique opportunity to interact with experts and explore groundbreaking technologies shaping the future of scientific research

Electron Paramagnetic Resonance (EPR) or Electron Spin Resonance (ESR) spectroscopy is a powerful analytical technique that plays a vital role in understanding the structure and properties of paramagnetic materials. Several companies are offering EPR spectroscopy solutions in the UK. This blog post will introduce some of these EPR brands, including their features, and pricing options.

Bruker Corporation

Bruker is a globally recognized brand known for its high sensitivity, versatility, and advanced software features, offering a full range of EPR spectrometers suitable for a variety of research applications. The price of a Bruker EPR system depends on the model and configuration.

CIQTEK

CIQTEK is a leading global manufacturer of EPR spectrometers and related accessories. Their EPR equipment is designed to provide the highest performance at a very competitive price and is an excellent choice for researchers in the UK. Website: https://www.ciqtekglobal.com/

Here are some advantages of CIQTEK EPR spectroscopy:

a. Cost-effective solutions: While EPR spectroscopy equipment is often expensive, CIQTEK strives to offer competitive pricing without compromising quality. They offer different pricing options so research groups and organizations with different budgets can use their instruments. In addition, they are committed to customer satisfaction to ensure that users get value for their investment.

b. Customizability: CIQTEK offers flexible EPR instrument configurations that allow researchers to customize EPR setups for specific experimental requirements. These include variable temperature control, multi-frequency capability, advanced spectroscopic techniques such as ELDOR and HYSCORE, and compatibility with a wide range of sample types (liquids, solids, and biomaterials.)

c. User-Friendly Interface: CIQTEK's instruments come with an intuitive software interface that is easy to use and suitable for researchers of all experience levels.

d. Excellent Customer Support: CIQTEK emphasizes customer satisfaction and provides excellent post-sales support, including training resources and technical support. Click to read CIQTEK global EPR customer stories and publications.

JEOL

JEOL is a well-known brand in the field of EPR spectroscopy, offering reliable, high-performance instruments. JEOL EPR instruments offer advanced features such as fast scanning capabilities, high signal-to-noise ratios, and user-friendly interfaces.

Oxford Instruments

Oxford Instruments is a leading supplier of scientific equipment including EPR spectrometers. They offer rugged and customizable EPR systems to suit a wide range of research needs.

In the field of electron paramagnetic resonance spectroscopy, researchers in the UK have access to a wide range of reliable, high-performance instruments from a variety of brands. From Bruker, JEOL, and Oxford Instruments, to the most competitive CIQTEK, there are options to suit a range of budgets and research needs. When considering a purchase, it is important to evaluate each brand's unique features, pricing, and benefits to make an informed decision.

In the fast-paced world of advertising, capturing the attention of potential customers is everything. To stand out in the bustling streets or crowded shopping centers, businesses need a solution that blends innovation, size, and versatility into one powerful tool. Introducing the 75-inch Optical Boarding LCD Totem: the pinnacle of outdoor advertising.

With its striking size and high-resolution display, this advertising totem dominates any space it occupies. The 75-inch screen offers a larger-than-life canvas to showcase captivating visuals, compelling messages, and enticing offers. Whether you need to captivate huge audiences at events, wow customers in retail environments, or make a lasting impact in busy urban areas, this totem has got you covered.

One of the standout features of the Optical Boarding LCD Totem is its advanced optical technology. This cutting-edge display technology ensures vivid colors, exceptional clarity, and unrivaled visibility, even in bright outdoor settings. While traditional advertising mediums struggle to compete against the elements, this totem remains a beacon of attention even in direct sunlight.

Designed for outdoor durability, the totem is built to withstand harsh weather conditions. Its robust construction guarantees longevity, making it a reliable investment for any business. Whether rain or shine, this totem will continue to deliver your message effectively, ensuring maximum exposure for your brand.

Versatility is another key aspect of this advertising marvel. Its sleek design and compact footprint make it adaptable to various environments. From street corners and transportation hubs to shopping malls and outdoor venues, the Optical Boarding LCD Totem seamlessly integrates into any space, capturing the attention of passersby and drawing them into your message.

Furthermore, this totem is compatible with a wide range of media formats, allowing you to unleash your creativity. From static images and dynamic videos to interactive content, you have the freedom to tailor your advertising message to suit your brand and engage your target audience effectively.

In a world where competition for attention is fierce, it’s crucial to embrace innovative solutions that make your brand shine. The 75-inch Optical Boarding LCD Totem does just that. Its grand size, exceptional display quality, and durability make it a game-changer in the world of outdoor advertising.

Elevate your brand to new heights with this powerful tool that leaves a lasting impression on every viewer. Invest in the 75-inch Optical Boarding LCD Totem and watch as your message captures hearts, minds, and wallets, propelling your business towards unprecedented success.

When it comes to electronics manufacturing, there are certain terms that every business owner should be familiar with. OEM, ODM, and driver boards are three essential components that contribute to successful product development and production. In this article, we will delve into what each of these terms means and how they play a significant role in the manufacturing process.

OEM (Original Equipment Manufacturer)

OEM stands for Original Equipment Manufacturer. In the context of electronics, an OEM is a company that designs and manufactures products based on specifications provided by another company. In simpler terms, an OEM company produces the product, but it does not market or sell it under its own brand. Instead, the product is sold by the company that requested its production.

For instance, let’s say a well-known smartphone brand partners with an OEM to manufacture their devices. The OEM company will handle the production process, including designing, assembling, and testing the devices according to the brand’s specific requirements. The brand will then sell these devices under their own name, enjoying the benefits of outsourcing production to a specialized manufacturer.

ODM (Original Design Manufacturer)

ODM, which stands for Original Design Manufacturer, is another critical term in the electronics manufacturing industry. Unlike OEM, an ODM company not only manufactures products but also provides the design and development services. In other words, an ODM takes care of the entire process from product conception to manufacturing.

ODM companies have dedicated teams of engineers and designers who work closely with the client to create products tailored to their requirements. These companies have extensive expertise in product design, prototyping, and mass production. ODM is an excellent choice for businesses looking to bring their unique ideas to life without having to invest heavily in research and development.

Understanding Driver Boards

Driver boards, sometimes referred to as controller boards, are essential components in electronics manufacturing. They are circuit boards that provide the necessary electrical connections and control signals for other devices or components within an electronic system.

Driver boards are commonly used in applications such as LCD displays, LED panels, motor control systems, and more. They ensure proper functionality and precise control by converting input signals into specific output signals required by the connected components. In short, driver boards act as intermediaries, facilitating communication between different parts of an electronic system.

Conclusion

In the world of electronics manufacturing, understanding the terms OEM, ODM, and driver boards is crucial for successful product development. OEM companies handle the manufacturing process based on specifications provided by another company, while ODM companies offer complete design and manufacturing services. Additionally, driver boards are vital components that enable seamless communication and control within an electronic system.

By grasping the significance of these terms, businesses can make informed decisions about their manufacturing strategy and effectively collaborate with OEM or ODM partners. Whether you’re planning to outsource production or develop custom-made electronic products, having a clear understanding of OEM, ODM, and driver boards will undoubtedly benefit your business.

*Note: This article is for informational purposes only and does not constitute professional advice.

Neodymium pot magnets, also known as cup magnets, are versatile magnetic assemblies that offer powerful holding capabilities in small, compact packages. These magnets are commonly used in a wide range of applications, including engineering, manufacturing, carpentry, and DIY projects. In this article, we will explore the features and benefits of neodymium pot magnets and their various types, such as external thread pot magnets and strong pot magnets.

Neodymium pot magnets are made of a strong neodymium magnet encased in a steel cup or pot. This design provides a concentrated magnetic field on one face, allowing for maximum holding power. Despite their compact size, these magnets can generate an impressive amount of magnetic force, making them ideal for applications where space is limited, but strong holding force is required.

One popular type of neodymium pot magnet is the external thread pot magnet. These magnets feature a threaded hole at the center of the pot, allowing for easy attachment to various surfaces using bolts, screws, or hooks. The external thread pot magnets are commonly used in woodworking, metalworking, and assembly operations, providing a secure and reliable magnetic holding solution.

Another type of neodymium pot magnet is the strong pot magnet. As the name suggests, these magnets offer exceptionally strong magnetic force, making them suitable for demanding applications. Strong pot magnets are typically used in industrial settings, such as heavy machinery, automotive manufacturing, and metal fabrication. Their strong holding power ensures that objects remain securely in place, even in challenging environments.

Neodymium pot magnets are not only powerful but also highly durable. The steel pot surrounding the magnet protects it from chipping or breaking, ensuring its longevity. Additionally, these magnets are resistant to corrosion, making them suitable for both indoor and outdoor applications.

When working with neodymium pot magnets, it is crucial to handle them with care. Their strong magnetic force can cause injuries or damage to nearby electronic devices or pacemakers. It is recommended to keep a safe distance and avoid placing these magnets in close proximity to sensitive equipment or medical devices.

In conclusion, neodymium pot magnets are an excellent choice for applications that require strong holding power in limited spaces. The external thread pot magnets and strong pot magnets offer versatility and reliability for various industries. However, remember to exercise caution when working with these magnets due to their powerful magnetic force. With their exceptional holding power and compact design, neodymium pot magnets are a go-to solution for many professionals and DIY enthusiasts alike.

[Cornell University], [Fri. Sept. 13 - Sun. Sept. 15, 2024]

CIQTEK, a leading provider of advanced scientific instrumentation, showcased its cutting-edge Benchtop Electron Paramagnetic Resonance (EPR) Spectroscopy, the EPR200M, at the recent workshop held at the National Resource for Advanced Electron Spin Resonance Spectroscopy (ACERT). The workshop, organized by Cornell University in collaboration with CIQTEK, brought together researchers, industry experts, and practitioners to explore the latest advancements in EPR technology.

During the live demonstration session, attended by over 20 interested attendees, CIQTEK's team presented the features and capabilities of the EPR200M system.

One of the highlights of the demonstration was the on-site sample measurement performed for a visiting delegation from France. The EPR200M showcased its versatility by delivering accurate and reliable results, impressing the attendees with its analytical capabilities, allowing researchers to obtain valuable insights into the electronic structure, magnetic properties, and dynamics of materials across a wide range of disciplines, including chemistry, materials science, biophysics, and more.

The ACERT workshop facilitated valuable discussions and knowledge exchange among participants, fostering collaborations and advancements in EPR technology research. CIQTEK's participation and successful demonstration further solidified its position as a trusted provider of innovative scientific solutions.

Electron paramagnetic resonance (EPR), also known as electron spin resonance (ESR), is a sophisticated spectroscopic technique used to probe paramagnetic materials' electronic and magnetic properties. In this blog, we will explore the concepts, fundamentals, and applications of EPR. 

What is Electron Paramagnetic Resonance:

Electron paramagnetic resonance focuses on the behavior of unpaired electrons in materials with magnetic moments. The central premise of electron paramagnetic resonance is that when these paramagnetic materials are subjected to a magnetic field, their electrons occupy different energy levels due to their spin properties. Irradiating a sample with microwave radiation at a resonant frequency induces transitions between these energy levels, providing valuable information about the electronic structure, dynamics, and interactions of the material.

Electron Paramagnetic Resonance Principle:

EPR spectroscopy relies on quantum mechanical principles and the interaction of electron spins with external magnetic fields. Unpaired electrons have a spin quantum number, which determines their intrinsic angular momentum. When placed in a magnetic field, these electron spins are aligned either parallel or anti-parallel to the magnetic field, resulting in different energy levels. Resonance occurs when the energy difference between these energy levels matches the energy of the incident microwave radiation. By adjusting the strength of the magnetic field or the frequency of the microwaves, resonance conditions can be achieved and studied.

What is EPR Spectroscopy:

EPR spectroscopy accurately characterizes electron spins and their interactions in paramagnetic systems. Very detailed spectra can be obtained by measuring the absorption or emission of microwave radiation. These spectra provide information on a variety of key parameters, including the g factor (anisotropy factor), linewidth (related to electron-electron interactions), relaxation time (describes the spin-lattice and spin-spin relaxation processes), and hyperfine coupling (the interaction of the electron spins with nearby nuclei). Through careful analysis of these parameters, researchers can derive valuable insights into the electronic structure, chemical environment, and dynamic behavior of the materials under study.

CIQTEK EPR Spectroscopy:

With state-of-the-art innovations, the CIQTEK EPR Spectrometer performs high-sensitivity and high-resolution measurements, offering unprecedented accuracy and a wide range of experimental possibilities. The system integrates state-of-the-art magnet design, microwave technology, and data analysis algorithms to enable researchers to explore complex phenomena with extraordinary precision. Whether in materials science, chemistry, or biological research, the CIQTEK EPR spectrometer opens new avenues for studying paramagnetic materials and their applications.

Check CIQTEK Website: https://www.ciqtekglobal.com/

Electron paramagnetic resonance and EPR spectroscopy enable scientists to study the electronic and magnetic properties of paramagnetic materials with great precision.