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EV charger with slim design - AC480V/40A 4-pole PCB power relay G9KC https://lnkd.in/g2zj8j5s   "Using contactors, but cost, weight, and size are issues." "Want to minimize wiring man-hours and the risk of screw tightening/miswiring.” ―　Are these challenges you're facing ?   The PCB Power Relay G9KC is lightweight and compact yet generates low heat. Therefore, high-density mounting is possible, contributing to slimmer and lighter devices and reduced assembly cost.   If a weld detection function is required, an optional auxiliary contact type (4a1b) is also available. >IEC60947-4-1 (compliant with mirror contact structure)   Please consider this product for a variety of three-phase power supply devices. https://lnkd.in/g2zj8j5s

Ceramic PCB boards offer excellent thermal conductivity and insulation, making them ideal for heat dissipation applications in industries like LED lighting and high-power modules. Compared to regular PCB boards, ceramic PCB boards are made of different materials and have different applications, while a combination of ceramic and high-frequency boards may be necessary in certain scenarios. When selecting ceramic substrates, it is important to consider quality parameters, craftsmanship, conduct trials, and research information from reputable manufacturers.#CeramicPCBboards #dielectricconstant #heatdissipation #insulation #Thermalconductivity

Reduce your board design costs and thermal conductivity with our new bespoke offering... ↘ 🔎 𝐁𝐮𝐬𝐛𝐚𝐫 𝐁𝐚𝐬𝐢𝐜𝐬 #Busbars allow PCBs to be smaller, thinner, and more compact. They can be used when the current carrying capacity of the PCB needs to be increased in certain areas selectively and/or over a large area. By using busbars, thicker PCBs can be avoided, saving you future design expenses. Busbars also serve as heat conductors. Since copper has a high thermal conductivity, busbars efficiently dissipate heat from the electronic components, helping to avoid hotspots and improve reliability. Busbars are attached to the PCB using a product like Powerelements, eliminating additional mounting points and reducing assembly time. 📊 𝐁𝐞𝐧𝐞𝐟𝐢𝐭𝐬 𝐨𝐟 𝐁𝐮𝐬𝐛𝐚𝐫𝐬 So why use busbars in #PCBdesign? ★ Selectively increase in the current carrying capacity (current distribution) of PCBs ★ Reduced copper build-up on the PCB ★ Easy mounting ★ Cooling / heat dissipation ★ Individual adaptation 📀 𝐏𝐨𝐰𝐞𝐫𝐁𝐮𝐬𝐛𝐚𝐫 𝐏𝐂𝐁 Because copper has a high thermal conductivity, our busbars efficiently dissipate heat from the overall system, helping to improve reliability and current carrying capacity and avoid hot spots. The busbars are pressed together with electronic components and PCBs in a single operation. No additional fixing of the busbar is required. The #PowerBusbarPCB is a customized product for unique #applications serving a variety of light and heavy industries. Questions? 👉 cs@we-ics.com #wurth_elektronik #morethanyouexpect #Powerelements #pressfit #electroniccomponents

When it comes to transformers, you need to be very careful not to buy a unit based solely on the lowest possible price. Cheap transforms may save you a few thousand dollars up front, but replacing these expensive units more often will end up costing you more. Here are the three main reasons that cause cheap transformers to fail: Poor craftsmanship: Transformers that are made by assembly machines often end up with weaknesses that get missed and lead to issues, including equipment failure. Low-quality materials: The quality of materials used in a transformer is paramount. Transformers often are priced less when they skimp on insulation or over materials. Inferior design: How the coils are wound around a transformer’s core has a major effect on a transformer’s durability. Round-wound is the best. Made in the USA. Sold in the USA. Learn more about what goes into a quality medium voltage transformer here: https://lnkd.in/gCSWv93G #ELSCO #transformers #electricalengineering #electricalindustry

Unveiling the Power of Aluminum PCBs: Your Ultimate Guide Buckle up as we take you on a journey through the intricacies of aluminum PCBs, empowering you with the knowledge to make informed decisions. Unrivaled Thermal Management: Picture this – your electronic device operating at peak performance without breaking a sweat. That's the magic of aluminum PCBs' exceptional thermal conductivity. By efficiently dissipating heat generated during operation, these boards ensure optimal performance and longevity of electronic components, making them a go-to choice for high-power applications. Enhanced Durability: In the fast-paced world of electronics, durability is non-negotiable. Aluminum PCBs, with their robust construction and superior mechanical strength, excel in withstanding environmental stresses, vibrations, and mechanical shocks. Whether it's automotive electronics, LED lighting, or power supplies, these boards offer unmatched reliability, ensuring uninterrupted operation even in harsh conditions. Lightweight and Compact Design: Size matters, especially in space-constrained applications. Aluminum PCBs, known for their lightweight and compact design, provide a winning combination of performance and space efficiency. Excellent Electrical Performance: Don't let their thermal prowess overshadow their electrical capabilities. Aluminum PCBs boast excellent electrical performance, with low impedance, minimal signal loss, and consistent impedance characteristics across the board. Versatility in Applications: From consumer electronics to industrial equipment, aluminum PCBs find their place in a diverse array of applications. Whether it's power electronics, RF/microwave devices, or automotive modules, these boards offer versatility and adaptability to meet the evolving demands of modern technology. Cost-Effective Solutions: While quality often comes at a premium, aluminum PCBs offer a cost-effective alternative without compromising on performance or reliability. Their efficient thermal management capabilities reduce the need for additional heatsinks or cooling mechanisms, translating into cost savings in both material and assembly processes. Environmental Friendliness: As sustainability takes center stage, aluminum PCBs shine as eco-friendly solutions. With recyclable materials and energy-efficient manufacturing processes, these boards minimize environmental impact throughout their lifecycle, aligning with the growing emphasis on green technology and corporate social responsibility. In conclusion, aluminum PCBs emerge as a formidable force in the realm of electronic design and manufacturing. With unparalleled thermal management, enhanced durability, and versatile applications, they empower engineers and innovators to push the boundaries of what's possible in electronics. #pcb #pcba #pcbassembly #pcbmanufacturing

ADC12 vs. 6063: Which is Better for LED Heatsinks? When designing LED heatsinks, selecting the right material is critical to ensuring optimal performance, durability, and cost-efficiency. Two popular materials, ADC12 (an aluminum die-cast alloy) and 6063 aluminum alloy, are often compared. Here's how they stack up: 1. Thermal Conductivity 6063: Offers higher thermal conductivity (~200 W/mK), making it ideal for applications where heat dissipation is crucial. ADC12: Lower thermal conductivity (~96 W/mK) compared to 6063, which may impact its ability to cool high-power LEDs effectively. 2. Manufacturing Process 6063: Commonly used in extrusions, allowing for intricate designs and smooth finishes. It’s suitable for lightweight, high-performance heatsinks. ADC12: Suitable for die-casting, making it ideal for mass production with complex shapes. 3. Cost Efficiency ADC12: More cost-effective due to its ease of casting and lower material costs. 6063: Higher cost due to better mechanical properties and manufacturing process. 4. Durability 6063: Offers superior corrosion resistance and strength, making it better for long-term applications in harsh environments. ADC12: Adequate for general use but may require additional surface treatments for corrosion resistance. Bottom Line Choose 6063 for high-end applications requiring superior heat dissipation and durability. Opt for ADC12 for cost-effective, mass-produced heatsinks with moderate thermal demands. Which material do you prefer for LED heatsinks? Let us know in the comments! #LEDDesign #ThermalManagement #AluminumAlloys #Engineering #Fevino

🌟 450 GSM Glass Fiber Mats: Versatility in Performance and Applications 🌟 Our 450 GSM Glass Fiber Mats are high-performance composite reinforcement materials renowned for their strength, heat resistance, chemical stability, and electrical insulation. These qualities make them indispensable across a variety of industries: 🔹 Composite Manufacturing: Used in automotive, aerospace, and wind energy sectors for lightweight, durable, and high-strength components. 🔹 Fire Protection: Ideal for construction and shipbuilding, offering exceptional thermal insulation and fire resistance. 🔹 Electronics: Enhances PCBs, transformers, and motors with outstanding insulation and reliability. 🔹 Soundproofing & Vibration Control: Reduces noise and improves stability in construction and mechanical equipment. 🔹 Environmental Protection: Key in water filtration, air purification, and geotechnical applications. Empowering innovation and sustainability, our mats are tailored for modern engineering challenges. Let's build a stronger, greener future together! 🌍 #GlassFiber #Composites #Tianfu

There are many factors to consider in the design of inductors, including rated current and voltage, inductance and Q value, temperature stability, size and packaging, core material, winding wire, operating frequency, noise and EMC performance, cost, and environmental factors. These factors are interrelated and affect each other, so they need to be comprehensively considered and optimized to achieve the best performance, stability, and reliability.

An aluminum radiator is also known as a radiator aluminum profile or sunflower aluminum profile. An aluminum radiator has the characteristics of a beautiful appearance, being lightweight, having good heat dissipation performance, an energy-saving effect, and so on. Shijun Hongmao Aluminum has developed customized aluminum radiators to meet customers' requirements for product differentiation, specialization, and personalization by virtue of its long-accumulated technical experience and production process and by integrating the characteristics of aluminum alloy profiles, such as better thermal conductivity. The surface of the processed aluminum radiator is anodized to increase the corrosion resistance, abrasion resistance, and aesthetic appearance of the aluminum. Performance of Aluminum Radiator Profile. 　　Currently commonly used types of aluminum profiles for radiators include aluminum profiles for electronics, electrical appliances, computer radiators, aluminum profiles for sunflower radiators, and radiator profiles for power semiconductors. 　　Aluminum radiator profiles are widely used for their superior performance in machinery, automobiles, wind power generation, engineering machinery, air compressors, railroad locomotives, household appliances, and other industrial fields. #heatsink #aluminum #radiator #electronics #computer