Product Overview: MIC5259-2.85YD5-TR by Microchip Technology
The MIC5259-2.85YD5-TR is a robust, high-performance low-dropout voltage regulator (LDO) designed to deliver a fixed output voltage of 2.85V, offered by the renowned manufacturer Microchip Technology. This efficient LDO is ideal for stabilizing voltage in a wide array of electronic devices, providing a steady power supply even under varying input conditions and load demands.
Encased in a compact 5-lead SOT-23 package, the MIC5259-2.85YD5-TR is particularly suitable for space-constrained applications. Its small form factor does not compromise its functionality, as it is capable of sourcing up to 150mA of output current, making it a versatile choice for powering sensitive electronic components.
Key Features:
- Fixed Output Voltage: Precisely regulated 2.85V output that remains stable across various operating conditions.
- High Output Current: Capable of delivering up to 150mA, suitable for a range of low-power applications.
- Low Dropout Voltage: Ensures efficient operation by minimizing the voltage difference between the input and output under all load conditions.
- Thermal and Overcurrent Protection: Built-in safety features safeguard the device against overheating and excessive current draw.
- High Accuracy: Tight output voltage tolerance ensures reliable performance critical for precision applications.
- Low Quiescent Current: Optimized for battery-powered devices with its low power consumption when in idle mode.
Applications:
The MIC5259-2.85YD5-TR is a versatile component that can be integrated into various electronic systems. Its stable output and low power dissipation make it an excellent choice for:
- Battery-powered devices
- Portable electronics
- Microcontroller power supplies
- Reference voltage sources
- Peripheral power supplies
With its combination of high performance, reliability, and small package size, the MIC5259-2.85YD5-TR from Microchip Technology stands out as an exceptional choice for designers seeking an LDO that can meet stringent power requirements without sacrificing space or efficiency.