Overview of HI1206N101R-10 by Laird, A DuPont Business
The HI1206N101R-10 is a data line filter specifically designed to provide effective suppression of electromagnetic interference (EMI) across a broad frequency range. Manufactured by Laird Technologies Inc., this part operates as a ferrite chip and bead application, encompassed within a RoHS compliant, and EIA standard 1206 package format. Measurable characteristics such as a length of 3.2 mm, width of 1.6 mm, and height of 1.1 mm support its integration into surface mount technology, highly suitable for compact device applications.
This component is characterized by 100 MHz frequency with a maximum filtering capability up to 1000 MHz, and it features a DC resistance maximum of 0.035 Ω. With a 3 A rated current and an operating temperature range from -40 °C to 125 °C, the HI1206N101R-10 is configured to handle a variety of challenging environments and applications. Its output impedance stands at 100 Ω, certifying its capacity in managing data integrity under noise-prone operations.
Crucially, the HI1206N101R-10 complies with multiple environmental and safety standards including Pb-free and RoHS compliance, ensuring not only operational efficiency but also an acknowledgment of environmental responsibilities.
Industry Applications for HI1206N101R-10
Considering the attributes and functional capacities of the HI1206N101R-10, several industries might potentially leverage this component for enhancing product functionalities and meeting compliance standards. Note that the potential applications mentioned here are conceptual and should be confirmed with specific engineering and design verifications.
- Telecommunications: This part could be included in devices requiring stable data transmission, such as modems or network routers to ensure minimal signal interference across communication channels.
- Consumer Electronics: In devices like smartphones, laptops, and tablets, which are sensitive to electronic noise, the HI1206N101R-10 might be used to preserve the integrity of data lines and power stability.
- Industrial Automation: For programmable logic controllers (PLCs) and other automation equipment, this part could potentially improve EMI filtration, consequently enhancing system reliability and performance in industrial environments.
- Computing and Data Storage: Servers and storage devices might use this component to enhance the quality of power and data signal by filtering out unnecessary noise and preventing data corruption.
- Audio and Video Systems: In professional audio/video setups, integrating this filter could aid in the reduction of noise, thus maintaining the quality of audio and video signals.
It is important to emphasize that these examples are illustrative and require diligent analysis from respective engineering teams to ensure compliance with industry standards and specific application requirements.
About Laird, A DuPont Business
Laird, A DuPont Business, is a prominent company in the design and manufacturing of electronic components, specializing notably in the spectrum of filters, which includes Data Line Filters. Their products, like the HI1206N101R-10, exemplify their commitment to providing high-quality solutions that meet stringent industry standards and customer requirements. Laird’s expertise in developing filters that reduce electromagnetic interference and ensure reliable signal and power integrity makes them a respected and valued provider in the electronics market.
Where to Find HI1206N101R-10 by Laird, A DuPont Business
To source the HI1206N101R-10, an ideal starting point is findchips.com. One can readily compare current stock levels, availability, and pricing from various distributors. Historically, distributors such as Velocity Electronics, Sager, Sensible Micro Corporation, Bristol Electronics, Quest Components, DigiKey, and Farnell have carried this part, but for real-time accuracy it’s recommended to verify on findchips.com.
To explore alternatives or similar items by Laird or other manufacturers in the category of Data Line Filters, utilizing this link can streamline the process.