Overview of DLW5ATZ112MQ2L by Murata Manufacturing Co Ltd.
The DLW5ATZ112MQ2L is a common mode choke designed to suppress EMI (Electromagnetic Interference) in data lines while maintaining signal integrity. It is a part of the broader category of Data Line Filters. Manufactured by Murata Manufacturing Co Ltd., this component features a high impedance of 1.1 kOhm at standardized test conditions, designed to filter out unwanted signals. Its rated current is at 1.5 A, and it comes in a compact SMD (Surface Mount Device) package measuring 5mm x 3.6mm x 2.2mm, making it suitable for dense circuit boards. The DLW5ATZ112MQ2L is specifically designed to meet the AEC-Q200 standard, indicating its reliability in automotive applications under harsh environmental conditions.
This filter carries a DC resistance maximum of 0.056 Ω and boasts an insulation resistance minimum of 10 MΩ. It operates effectively over a broad temperature range from -40 °C to 105 °C, ensuring performance stability in varying climatic conditions. The component is supplied in a tape and reel packing method, facilitating automated assembly processes. Its RoHS compliance confirms it meets global environmental standards by avoiding hazardous substances in its construction.
Industry Applications for DLW5ATZ112MQ2L
The DLW5ATZ112MQ2L could potentially serve a wide range of industry applications, thanks to its robust filtering capabilities and compliance with strict automotive quality standards. Engineering and design teams should analyze and verify suitability for specific applications. Some likely sectors and their potential use cases include:
- Internet of Things (IoT): Could be used in IoT devices for filtering data lines to prevent EMI from affecting sensor data transmissions, ensuring reliable operation in smart home systems, industrial monitors, and wearable technology.
- Automotive: Given its AEC-Q200 compliance, it’s suitable for vehicle electronics where data integrity and EMI suppression are critical, such as in advanced driver-assistance systems (ADAS), infotainment, and vehicle-to-everything (V2X) communications.
- Consumer Electronics: Can be applied in smartphones, tablets, and other personal electronic devices to enhance the quality of audio and video signals by minimizing interference.
- Telecommunications: Might be used in networking equipment, enhancing data transmission quality in routers, switches, and base stations by filtering out EMI.
Note that these potential applications require thorough analysis and verification by engineering and design teams to ensure compatibility and performance in context.
About Murata Manufacturing Co Ltd.
Murata Manufacturing Co Ltd. is a global leader in the design, manufacture, and supply of advanced electronic materials, components, and multi-functional, high-density modules. Their expertise in the field of filters, especially Data Line Filters, is significant, offering a wide range of products designed to address electromagnetic interference across various applications. The DLW5ATZ112MQ2L is just one example of Murata’s commitment to providing solutions that meet the evolving needs of the electronics industry. Known for their innovation and quality, Murata’s products serve in consumer electronics, healthcare, automotive, and other critical sectors demanding high reliability and performance.
Where to Find DLW5ATZ112MQ2L by Murata Manufacturing Co Ltd
Procuring the DLW5ATZ112MQ2L and other similar components is straightforward through platforms like findchips.com. It acts as a comprehensive resource for checking current stock levels, pricing, and availability from a range of distributors. Historically, this part has been available from distributors such as Chip Stock, Chip 1 Exchange, Bristol Electronics, Avnet Americas, and DigiKey, among others. However, for the most current availability and best pricing options, potential buyers are encouraged to use findchips.com. Here, users can also explore other Data Line Filters that might be offered by Murata Manufacturing Co Ltd or alternative manufacturers, providing a broad spectrum of choices to meet specific application requirements.