Overview of LDL1117S33R by STMicroelectronics
The LDL1117S33R by STMicroelectronics is a fixed output, low dropout (LDO) linear voltage regulator with a high power supply rejection ratio (PSRR). Capable of delivering 1.2A of current with an output voltage of 3.3V, it features an input voltage range from 2.5V to 18V. Packaged in a compact SOT-223-3 form factor, this regulator is distinguished by its low dropout voltage of a maximum of 0.6V, ensuring efficient operation even in applications with a tight voltage supply margin. Its output voltage accuracy is maintained within a 3% tolerance, providing reliable performance for powering sensitive circuits. The LDL1117S33R’s compliance with RoHS and REACH regulations further underscores its suitability for global manufacturing requirements. As a product in the subcategory of Linear Regulator ICs, it’s designed for a vast array of applications within power management scenarios.
Industry Applications for LDL1117S33R
The LDL1117S33R, due to its versatility and key specifications, can serve a broad spectrum of industry applications. While the potential uses outlined below may denote a certain applicability, it’s crucial that engineering and design teams conduct thorough analysis and verification before committing the component to specific projects.
- Energy and Power Systems: In systems requiring stable voltage levels, the LDL1117S33R could potentially be used to regulate power in control circuits, ensuring smooth operation across a range of input voltages.
- Transportation and Logistics: For GPS devices and other transportation tracking equipment, this LDO regulator might provide the low dropout and high current necessary for dependable operation in dynamic voltage conditions.
- Renewable Energy: In renewable energy applications, such as solar power inverters, the LDL1117S33R can potentially ensure consistent voltage delivery to critical microcontroller units, enhancing overall system reliability.
- Automotive: Given its robust temperature range (-40°C to 125°C) and high PSRR, the LDL1117S33R could support automotive applications, including vehicle control units, by maintaining stable voltage in fluctuating power environments.
Note that these applications involve complex design considerations and the LDL1117S33R’s suitability must be thoroughly evaluated in the context of the specific system requirements.
About STMicroelectronics
STMicroelectronics is an industry leader in semiconductor solutions, ranking particularly high in the design and manufacture of components across the spectrum of Power Circuits, including Linear Regulator ICs. With a dedication to innovation, quality, and environmental responsibility, STMicroelectronics produces a range of products that address the needs of a vast arena of applications, from consumer electronics to industrial and automotive sectors. The LDL1117S33R is an example of STMicroelectronics’ commitment to providing solutions that offer reliability, efficiency, and high performance. Alongside the LDL1117S33R, STMicroelectronics manufactures a broad portfolio of linear regulators designed to meet diverse application requirements, showcasing their expertise in power management solutions.
Where to Find LDL1117S33R by STMicroelectronics
For technical engineering or procurement teams interested in the LDL1117S33R, findchips.com offers a comprehensive platform to research and locate this part from STMicroelectronics. Users can explore current stock levels, pricing, and availability of the LDL1117S33R across multiple distributors. Historically, this component has been available from distributors like Wuhan P&S, Win Source Electronics, EBV Elektronik, and Avnet Silica among others. However, inventory and distributor options can fluctuate, making it essential to verify the most current details on findchips.com. The site also facilitates the comparison of the LDL1117S33R with alternate parts offered by STMicroelectronics or other manufacturers within the Linear Regulator ICs subcategory, aiding in the selection of the most suitable component for your application.