Overview of LM350AT/NOPB by Texas Instruments
The LM350AT/NOPB from Texas Instruments is a 3-Ampere adjustable voltage regulator capable of delivering an output voltage ranging from 1.2V to 33V. It operates over an input voltage from 4.2V to 35V. Suitable for a broad range of applications, this component is housed in a TO-220 package and offers a low noise feature with high accuracy. Its adjustable output allows for flexibility in application design, catering to specific voltage requirements. The component is also characterized by a dropout voltage of 2.3V and conforms to RoHS standards, emphasizing environmental compliance. Key attributes include a positive single-output standard regulator type, a maximum output current of 3A, and an operating temperature range of -40°C to 125°C.
Other significant features include a line regulation of maximum 0.05% per volt, showing its ability to maintain consistent output despite changes in input voltage, and load regulation of maximum 1%, indicating the stability of output voltage under varying load conditions. The robust package and high power capabilities make it suitable for demanding applications requiring a stable and reliable power supply. This device is categorized as part of the Linear Regulator ICs subcategory.
Industry Applications for LM350AT/NOPB
The adaptable features of the LM350AT/NOPB allow it to potentially serve a diverse range of industries. The following applications are conceptual illustrations and should be verified by engineering teams regarding their compliance with specific standards and requirements:
- Consumer Electronics: This device could potentially be used in the power supplies of various consumer electronics that require a stable and adjustable power source, such as gaming consoles and home appliances.
- Computing and Data Storage: Suitable for use in desktops, servers, and storage systems, where it could help regulate the power supplied to sensitive components thus ensuring reliability and performance.
- Industrial Automation: In industrial settings, the adjustable and highly stable output of LM350AT/NOPB might be crucial for automated machinery that requires precise voltage levels to operate correctly.
- Telecommunications: This component could be employed in telecommunications equipment, which often includes base stations and routing systems needing stable and adjustable power to maintain optimal operation.
- Electronic Manufacturing: As manufacturers require precise and reliable power regulation for the production of electronic assemblies, this device could be an integral part of the testing and assembly stages.
Note that these applications are hypothetical and require rigorous evaluation by professionals for any practical implementation.
About Texas Instruments
Texas Instruments (TI) is a leading manufacturer in the semiconductor industry, known for developing analog ICs and embedded processors. Within the realm of Power Circuits, TI provides a variety of Linear Regulator ICs, including the LM350AT/NOPB, designed to meet diverse consumer and industrial needs. The company’s commitment to innovation is evident in their wide product range, which encompasses components suitable for applications from consumer electronics to complex industrial systems. Texas Instruments is recognized for their rigorous quality control and ability to produce parts that achieve high-performance standards in various electrical and operational environments.
Where to Find LM350AT/NOPB by Texas Instruments
To source the LM350AT/NOPB, potential buyers should explore inventory and pricing through established distributors such as Mouser Electronics, DigiKey, and Newark. However, stock levels and availability might fluctuate, and it is advisable to verify current condition through a reliable source. Interested parties can search for this part on findchips.com, where they can also access details about alternative Linear Regulator ICs. The site provides up-to-date information regarding availability, pricing, and specs from various suppliers, ensuring a thorough comparison and informed purchasing decisions.