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| Brand Name: | Derun |
| MOQ: | 10pcs |
| Price: | Negotiation |
The Epoxy-filled Inductor is a high-performance electronic component designed to provide reliable inductance in various electrical and electronic applications. Known for its robust construction and excellent electrical characteristics, this inductor is widely used in circuits requiring stable inductance values under varying current loads and environmental conditions. The product is often referred to as an Epoxy Potting Inductor Assembly or an Epoxy Sealed Inductor Unit, highlighting its distinctive epoxy-filled design that ensures enhanced durability and protection against external factors.
One of the key features of the Epoxy-filled Inductor is its saturation current rating. This parameter indicates the current level at which the inductance value drops by 10%, a critical factor for engineers to consider when designing circuits that demand consistent inductance performance under high current conditions. By accurately specifying the saturation current, this inductor helps prevent performance degradation and ensures the stability of the overall circuit, making it an ideal choice for power management, filtering, and signal processing applications.
The operating frequency range of the Epoxy-filled Inductor is another vital attribute that defines its versatility. This inductor is designed to function effectively within a specific frequency range, measured in MHz or KHz, which allows it to be employed in a wide array of applications from low-frequency power supplies to high-frequency communication devices. Its broad frequency range capability ensures that the inductor maintains reliable inductance and minimal losses, contributing to improved efficiency and performance in electronic systems.
Compliance with international standards such as RoHS and REACH is a significant advantage of the Epoxy-filled Inductor. These compliances guarantee that the product is environmentally friendly and free from hazardous substances, aligning with global regulations for safe and sustainable electronic manufacturing. This makes the Epoxy Potting Inductor Assembly a responsible choice for manufacturers aiming to meet stringent environmental and safety standards without compromising on quality.
The shielding characteristic of the Epoxy-filled Inductor further enhances its functionality. Available in both shielded and unshielded versions, this inductor can be selected based on the specific electromagnetic interference (EMI) requirements of the application. Shielded inductors minimize electromagnetic emissions and susceptibility to external noise, ensuring cleaner signal integrity and improved overall system performance. On the other hand, unshielded variants offer cost-effective solutions where EMI is less of a concern.
What sets the Epoxy Potting Inductor Assembly apart is its epoxy potting encapsulation. The epoxy filling acts as a protective barrier against moisture, dust, mechanical shock, and vibration, significantly extending the lifespan and reliability of the inductor. This epoxy sealing also contributes to thermal stability, allowing the inductor to operate efficiently under varying temperature conditions without compromising its electrical properties. Such robust protection makes the Epoxy Sealed Inductor Unit highly suitable for demanding environments in automotive, industrial, and consumer electronics sectors.
In conclusion, the Epoxy-filled Inductor offers a compelling combination of electrical performance, environmental compliance, and mechanical durability. Its saturation current rating ensures stable inductance under load, while its wide frequency range supports diverse applications. Compliance with RoHS, REACH, and other standards guarantees safety and sustainability, and the availability of shielded and unshielded options provides flexibility to address electromagnetic interference challenges. The epoxy potting encapsulation uniquely protects the inductor, making the Epoxy Potting Inductor Assembly and Epoxy Sealed Inductor Unit reliable components for modern electronic designs. Whether for power supply filtering, signal conditioning, or EMI suppression, this inductor stands out as a dependable and versatile choice in the industry.
The Epoxy Filled Magnetic Coil is widely utilized in various application occasions and scenarios due to its robust construction and reliable performance. With a core material made of ferrite or other magnetic materials, this epoxy encapsulated inductor offers excellent magnetic properties, making it suitable for use in high-frequency circuits within the specified operating frequency range in MHz or KHz. Such inductors are essential components in power management systems, signal processing devices, and RF applications where stable inductance and low electromagnetic interference are critical.
In scenarios where high current handling is required, the Epoxy Coated Electrical Inductor excels due to its impressive current rating, which defines the maximum current in amperes that the device can safely carry without degradation. This makes it an ideal choice for power supplies, DC-DC converters, and automotive electronics where fluctuating or high currents are common. Additionally, the saturation current, the point at which inductance drops by 10%, is a key parameter ensuring that the inductor maintains performance under peak load conditions, thus enhancing reliability in demanding environments.
The epoxy encapsulation not only provides mechanical protection but also enhances thermal stability and environmental resistance, making the epoxy filled magnetic coil suitable for harsh conditions such as industrial machinery, telecommunications equipment, and consumer electronics. Its compliance with RoHS, REACH, and other environmental standards ensures that it meets global regulations for hazardous substances, promoting safer and eco-friendly product designs.
Furthermore, the epoxy encapsulated inductor is frequently employed in aerospace and military applications where durability and consistent performance under vibration and temperature extremes are critical. The epoxy coating acts as a protective barrier against moisture, dust, and mechanical stress, thereby extending the component’s lifespan and maintaining circuit integrity.
Overall, the epoxy filled magnetic coil is indispensable in modern electronic designs, providing reliable inductance, excellent current handling, and environmental compliance across a wide range of frequencies and operating conditions. Whether in consumer electronics, industrial applications, or advanced communication systems, this epoxy encapsulated inductor ensures optimal performance and longevity.
Our Epoxy Potting Inductor Assembly can be fully customized to meet your specific requirements, ensuring optimal performance for your application. We offer tailored solutions for the Saturation Current, which defines the current at which inductance drops by 10%, allowing precise control over your device's magnetic characteristics.
Each Epoxy Filled Magnetic Coil is designed with compliance in mind, adhering to strict standards such as RoHS and REACH to guarantee environmentally friendly and safe components. You can specify the DC Resistance to achieve the desired electrical efficiency and power loss parameters.
Our Epoxy Molded Inductor Components are engineered to operate reliably within a wide Operating Temperature Range, typically from -40°C to +125°C, catering to various industrial and commercial environments. Additionally, the Current Rating, representing the maximum current in amperes, can be customized to suit high-demand applications.
With our product customization services, you receive a high-quality epoxy-filled inductor tailored to your unique specifications, combining durability, compliance, and superior electrical performance.
Our epoxy-filled inductors are designed to provide superior performance and reliability in a wide range of applications. For technical support, please refer to the product datasheet which includes detailed specifications, electrical characteristics, and recommended operating conditions to ensure optimal use.
If you require assistance with product selection, circuit design, or troubleshooting, our technical support team is available to provide expert guidance. We recommend verifying the inductor’s ratings against your application requirements to prevent issues related to overcurrent, overheating, or mechanical stress.
For best results, ensure proper soldering techniques are used during assembly to maintain the integrity of the epoxy filling and the inductor’s performance. Avoid exposing the inductor to conditions beyond its specified temperature and humidity limits to maintain reliability over its service life.
Replacement parts and custom solutions are available to meet specific application needs. Please consult the technical documentation or support resources for detailed information on mounting, handling, and testing procedures.
We are committed to providing ongoing support throughout the lifecycle of your product. For additional resources, including application notes and FAQs, please visit our technical support website.
