Overview of MIC5317-3.3YD5-TR by Microchip Technology Inc.
The MIC5317-3.3YD5-TR is a fixed positive single output low-dropout (LDO) regulator, specifically engineered to regulate voltage efficiently. Manufactured by Microchip Technology Inc., this component is essential in applications requiring a constant 3.3V supply. Featured in a TSOT-23 package with 5 pins, it is compact and ideal for space-constrained applications. This part is also RoHS compliant and has a maximum input voltage of 6V, with a minimum of 4.3V, ensuring compatibility with a wide variety of circuits.
In terms of performance, the MIC5317-3.3YD5-TR operates over a commendable temperature range (from -40 °C to 125 °C), making it versatile across different environmental conditions. Also notable are its dropout voltage characteristics (0.31V max and 0.155V nominal), which promote efficient operation by minimizing the difference between the input and output voltages, thereby reducing power loss. The maximum current output of this device is 150mA, suitable for powering small-scale devices.
The packaging and handling features of this product include a moisture sensitivity level (MSL) of 1, which requires careful handling to prevent moisture-caused damage. Additionally, it adheres to the “e4” lead (Pb) free status under the JESD-609 standard, and supports surface mounting technology which simplifies assembly in mass production applications.
Industry Applications for MIC5317-3.3YD5-TR
The MIC5317-3.3YD5-TR, found within the category of Linear Regulator ICs, is potentially applicable in various industries due to its stability and efficiency in voltage regulation. Below are some illustrative applications across different sectors:
- Consumer Electronics: Devices such as digital cameras, portable music players, and other handheld devices could potentially utilize this part to maintain a stable voltage supply, thereby enhancing device reliability and battery efficiency.
- Telecommunications: Telecommunication devices, including wireless routers and modems, might benefit from this LDO regulator due to its ability to provide consistent voltage which is critical for maintaining communication integrity.
- Computing and Data Storage: In computing applications such as SSDs or compact desktops, the MIC5317-3.3YD5-TR could be used to ensure precise voltage regulation, potentially improving the performance and stability of these devices.
- Medical Devices: Small medical imaging devices or portable diagnostic equipment could utilize this part. However, specific analysis and verification by engineering teams are necessary to confirm compliance with stringent medical industry standards.
Note: These potential applications are conceptual and should be validated by engineering and design teams to ensure compliance with industry standards and specific application requirements.
About Microchip Technology Inc.
Microchip Technology Inc. is an established leader in the semiconductor industry, specializing in microcontroller, mixed-signal, analog, and Flash-IP integrated circuits. Their expertise in the manufacturing of Linear Regulator ICs is evident in their MIC5317-3.3YD5-TR module, which stands out due to its exceptional performance in a compact package. Microchip’s portfolio includes a wide array of similar parts, reflecting their commitment to reliability and innovation in power management solutions.
Where to Find MIC5317-3.3YD5-TR by Microchip Technology Inc
To source the MIC5317-3.3YD5-TR, it is recommended to begin your search on findchips.com. This platform offers comprehensive information on stock levels and pricing from various distributors. Historically, this component has been available from distributors such as Master Electronics, EBV Elektronik, and Mouser Electronics, among others. However, for the most up-to-date availability and pricing, checking findchips.com will provide current information.
You can also explore other alternatives or similar parts to MIC5317-3.3YD5-TR from Microchip Technology or other manufacturers through the Linear Regulator ICs category on the site.