The NX1117C19Z135 is a high-performance, low-dropout linear voltage regulator from NXP Semiconductors, designed to deliver a fixed output voltage with high accuracy. This component is part of NXP's extensive range of power management solutions, catering to a broad spectrum of applications across various industries.

Key Features

• Fixed Output Voltage: This device provides a precise 1.9V output, which is ideal for powering sensitive electronics that require a stable voltage supply.
• High Current Capability: With an ability to supply up to 1A of output current, the NX1117C19Z135 is suitable for handling moderate to high power requirements.
• Low Dropout Voltage: The low dropout feature ensures efficient operation even when the input voltage is very close to the output voltage, thereby improving system efficiency and battery life in portable applications.
• Thermal Protection: The built-in thermal shutdown mechanism protects the device from damage during conditions of excessive power dissipation.
• Short Circuit Protection: The NX1117C19Z135 includes short circuit protection to safeguard the regulator and the downstream components from potential damage due to overcurrent conditions.

Applications

The NX1117C19Z135's versatile features make it an excellent choice for a wide range of applications, including:

• Consumer Electronics
• Telecommunications
• Computing Systems
• Industrial Controls
• Portable Battery-Powered Devices

Package and Quality

The NX1117C19Z135 is offered in a robust SOT-223 package, which ensures a compact footprint while allowing for adequate thermal performance. The quality of the device is upheld by NXP's commitment to high manufacturing standards, ensuring reliability and performance consistency across various conditions.

Conclusion

Overall, the NX1117C19Z135 from NXP is a reliable and efficient solution for applications requiring a fixed 1.9V regulated output. Its high current capability, low dropout voltage, and protection features provide designers with a versatile component that can be integrated into a multitude of electronic systems.