Overview of LD29150DT33R by STMicroelectronics
The LD29150DT33R is a fixed low dropout (LDO) voltage regulator with critical specifications tailored for robust performance needs. It operates efficiently with an input voltage range from 4.3V to 30V and maintains a consistent output of 3.3V. An essential feature of this device is its dropout voltage, nominally set at 0.4V and reaching up to a maximum of 0.7V, which allows it to function effectively even under lower input voltages. Offering a maximum output current of 1.5A, it is well-suited for handling moderate to high current requirements in various applications.
Formatted in a TO-252 package corresponding with the DPAK structure and utilizing Bipolar technology, the LD29150DT33R supports a maximum operating temperature range from -40°C to 125°C, making it remarkably resilient under diverse environmental conditions. This component is guaranteed RoHS compliant, suggesting its suitability for use in a variety of industries that require adherence to strict environmental standards. More importantly, the moisture sensitivity level of this device is noted as level 1, attributing to its robustness in humid conditions.
Industry Applications for LD29150DT33R
The LD29150DT33R by STMicroelectronics can be utilized beneficially across several industries, possibly incorporating various functionalities. Below are potential industries and corresponding use-cases that could benefit from this LDO voltage regulator:
- Consumer Electronics: This regulator could potentially stabilize power supplies in devices such as handheld gaming consoles or digital cameras, ensuring reliable device operation by offering consistent 3.3V output. The device’s ability to maintain its performance in a variety of temperature ranges adds to its suitability in consumer electronics.
- Telecommunications: Given its robust input voltage range and considerable output current capacity, it might be used in powering telecommunication equipment like signal amplifiers, possibly improving signal transmission reliability despite power fluctuations.
- Industrial Automation: In automated manufacturing lines where precise control is crucial, this part could potentially facilitate stable operation of microcontroller-based systems used in this industry by providing stable and low-dropout power.
- Computing and Data Storage: The LD29150DT33R could potentially be used in power management applications within servers and data storage devices that require constant and specific voltages to function optimally.
Note that these potential industry applications are illustrative and conceptual. Each potential application requires thorough analysis and verification by engineering and design teams adhering to industry standards and specific application requirements.
About STMicroelectronics
STMicroelectronics is a leading global semiconductor company, providing a broad range of electronic components primarily focused on semiconductors across various categories, including power circuits. In the sub-category of Linear Regulator ICs, STMicroelectronics has established a strong presence with products like the LD29150DT33R. These components are designed for offering precise voltage regulation, robust performance, and high reliability, catering to a wide array of industrial, consumer, and technological applications. Their extensive portfolio in LDOs and other linear regulators provides a wealth of choices for engineers seeking reliable power solutions.
Where to Find LD29150DT33R by STMicroelectronics
To determine current availability, pricing, and best purchasing options for the LD29150DT33R, it is recommended to explore findchips.com. This platform provides access to a comprehensive list of distributors which include LCSC, EBV Elektronik, Avnet Silica, and TME, among others. For alternatives to LD29150DT33R, use the Linear Regulator ICs link on findchips.com to explore other similar parts offered by STMicroelectronics or other manufacturers. Always confirm current stock levels and real-time pricing at findchips.com to make the most informed purchase decision.