Overview of LM1086CSX-ADJ/NOPB
The LM1086CSX-ADJ/NOPB is a highly efficient positive voltage regulator from the well-established manufacturer, Texas Instruments. This device is designed to offer optimal performance in various electronic systems. With its adjustable voltage ability, it is widely recognized for its adaptability and reliability in providing stable voltage, reducing system errors caused by fluctuating currents.
Key Features of LM1086CSX-ADJ/NOPB
- Low Drop-out Voltage: Its low dropout voltage feature ensures that it can continue to provide stable voltage regulation even when the input and output differential is small. This boosts its efficiency and makes it ideal for low-voltage applications.
- Current Limit and Thermal Shutdown: These safety features help to protect the device from damage due to overheating or excessive current.
- Adjustable Output Voltage: This attribute allows the device to provide a precise output voltage tailored to the specific requirements of your system.
- High Precision: With a high degree of accuracy in voltage output, the LM1086CSX-ADJ/NOPB helps reduce the likelihood of system malfunctions caused by unstable voltages.
Technical Specifications of LM1086CSX-ADJ/NOPB
This voltage regulator device comes with an impressive array of technical specifications. It has an output current of 1.5A and an adjustable output voltage range of 1.2V to 15V. With a nominal input voltage of 5V and a maximum input voltage of 15V, the LM1086CSX-ADJ/NOPB matches a wide range of applications. The device operates within a junction temperature range of -40 to 125°C, ideal for a variety of working environments.
Applications of LM1086CSX-ADJ/NOPB
The LM1086CSX-ADJ/NOPB from Texas Instruments finds versatile applications in various fields. It's an excellent choice for active SCSI terminators, rechargeable batteries, post regulators for switching supplies, and any system needing a low voltage, high current regulated supply. Its robust design and reliability make it a go-to for electrical engineers working on critical systems and devices.