The XC6209F182MR is a highly accurate, low noise, and low dropout (LDO) voltage regulator manufactured by Torex Semiconductor. This regulator is designed to provide a stable 1.8V output voltage, and it's particularly well-suited for battery-powered and noise-sensitive applications.
Applications:
- Smartphones and mobile devices: Powering RF modules, cameras, and other sensitive analog circuits.
- Wireless communication devices: Regulating voltage for Bluetooth modules, Wi-Fi chips, and GPS receivers.
- Portable audio players: Providing clean power for audio amplifiers and DACs (digital-to-analog converters).
- Wearable devices: Ensuring stable power for sensors, microcontrollers, and display drivers.
- IoT (Internet of Things) devices: Regulating voltage in low-power sensor nodes and communication modules.
Features:
- Low dropout voltage: Minimizes power loss and extends battery life.
- High accuracy: Provides a precise and stable output voltage.
- Low noise: Reduces noise and ripple in the output voltage, improving performance in sensitive applications.
- Low quiescent current: Conserves power in standby mode.
- Overcurrent protection: Protects the regulator and the load from damage.
- Short-circuit protection: Protects the regulator from damage in case of a short circuit.
- Thermal shutdown protection: Prevents the regulator from overheating.
Benefits:
- Extended battery life: Low dropout voltage and low quiescent current contribute to longer battery life.
- Improved system performance: Low noise output voltage enhances the performance of sensitive analog circuits.
- Enhanced reliability: Overcurrent, short-circuit, and thermal shutdown protection ensure reliable operation.
- Smaller and more compact designs: Small package size allows for compact designs.
Technical Specifications:
The XC6209F182MR has an input voltage range of 1.7V to 6.0V. It provides a fixed output voltage of 1.8V with an accuracy of ±2%. The dropout voltage is typically 200mV at 300mA. The quiescent current is typically 2μA. It is available in a USP-6C package.