Overview of LQP02TN3N9B02D by Murata Manufacturing Co Ltd
The LQP02TN3N9B02D is a general-purpose fixed inductor with an inductance value of 3.9nH, built in a compact 01005 chip size. Manufactured by Murata Manufacturing Co Ltd, this product features a maximum operating temperature range from -55°C to 125°C, making it suitable for a variety of demanding environments. It is designed primarily for RF applications, boasting a self-resonance frequency of 7500 MHz and a quality factor minimum of 8 at its nominal inductance.
This inductor’s characteristics include a DC resistance of 1.3 ohms and a maximum rated current of 0.18 A. It is an unshielded, surface-mount device with a rectangular package making it suitable for applications where space is at a premium. Packing is done in a paper tape and reel, specifically a 7-inch TR format, which facilitates automated assembly processes. The part is compliant with RoHS and REACH, ensuring conformity with current environmental regulations. As of the current writing, the typical factory lead time for the LQP02TN3N9B02D is approximately 12 weeks.
Industry Applications for LQP02TN3N9B02D
Given the specifications and attributes of the LQP02TN3N9B02D, it could be potentially used in various industry applications. The following is a conceptual assessment of where this part might be applicable, while warning that these applications should be further evaluated by engineering and design teams for compliance with industry standards and specific requirements.
- Educational and Research: In educational labs and research facilities focusing on electronics and communications, components like the LQP02TN3N9B02D could potentially be used in the development and testing of RF circuits and communication devices.
- Industrial Automation: Due to its high frequency and temperature range, this inductor might be suitable for use in automation equipment that operates under varied environmental conditions and requires reliable frequency management.
- Telecommunications: This part, designed for RF inductor applications, could potentially play a critical role in RF signal chains within telecommunications infrastructure, where maintaining signal integrity at high frequencies is crucial.
- Electronic Manufacturing: In the manufacturing of compact electronic devices, such as smartphones or other portable devices, utilizing an inductor that offers a small form factor and high-performance like the LQP02TN3N9B02D could be crucial for miniaturization without performance compromise.
Please note these potential industry applications are conceptual and indicative, requiring rigorous evaluation and verification for actual use.
About Murata Manufacturing Co Ltd.
Murata Manufacturing Co Ltd is widely recognized for its expertise in the development and manufacturing of electronic components, particularly inductors. The company offers an extensive range of fixed inductors, among which the LQP02TN3N9B02D and similar components stand out due to their reliability and advanced performance characteristics. Murata’s components are used across various industries, including consumer electronics, healthcare, automotive, and more. Their commitment to quality and innovation makes them a leading choice for high-performance electronic components.
Where to Find LQP02TN3N9B02D by Murata Manufacturing Co Ltd
To purchase the LQP02TN3N9B02D, it’s recommended to research and compare options at findchips.com. Here, you can navigate through a selection of suppliers providing real-time pricing, availability, and shipment options. Historically, this part has been available through several distributors including Win Source Electronics, Chip1Stop, TME, Quest Components, Future Electronics, Mouser Electronics, Avnet Americas, and DigiKey. However, it’s crucial to check findchips.com to obtain the most up-to-date information regarding stock levels and purchasing options.
For those searching for alternatives or similar parts from Murata Manufacturing or other manufacturers, the Fixed Inductors category on FindChips can provide additional options to consider.