Product Overview: LTC3260HMSE#PBF from Analog Devices Inc.
The LTC3260HMSE#PBF is a robust, high voltage, low noise, dual output power supply that includes both a high voltage inverting charge pump and a low noise linear regulator. Manufactured by Analog Devices Inc., a leader in precision high-performance integrated circuits, this device is designed to cater to a wide range of applications, including industrial, automotive, and telecommunications systems.
With its ability to convert a positive input voltage into a negative output voltage, the LTC3260HMSE#PBF is an ideal solution for systems that require a dual supply from a single input rail. Its input voltage range spans from 4.5V to 32V, making it versatile enough to accommodate various power sources. The inverting charge pump delivers an output current up to 100mA with excellent power efficiency, thanks to its low quiescent current and adaptive biasing feature.
The LTC3260HMSE#PBF also includes a low noise linear regulator that can supply up to 50mA of output current. This regulator is designed to work in tandem with the charge pump to provide a low noise negative output, which is essential for sensitive analog circuits and precision applications. The device offers a range of output voltages, which can be set by the user with external resistors.
Featuring overtemperature and overcurrent protection, the LTC3260HMSE#PBF ensures reliable operation under various conditions. The device is housed in a compact 10-lead MSOP package, which is suitable for space-constrained applications. Also, its extended operating temperature range makes it a great choice for industrial environments where temperatures can vary widely.
Overall, the LTC3260HMSE#PBF from Analog Devices Inc. is a versatile, efficient, and reliable solution for generating a dual supply voltage. Its integration of a high voltage inverting charge pump with a low noise linear regulator, combined with protection features and a compact footprint, make it a highly desirable component for a multitude of electronic systems.