15 - terminal D - Subminiature socket for soldering
Manufacturer: amphenol
The BENL77SDAH Series is an advanced line of low-dropout (LDO) voltage regulators specifically engineered to deliver reliable and efficient power management in a variety of electronic systems. This product series stands out for its high-performance characteristics, including low quiescent current, excellent load and line regulation, and a wide input voltage range, making it suitable for battery-powered applications and space-constrained designs. With a dropout voltage as low as 150 mV, the BENL77SDAH Series ensures optimal operation even when supply voltages are minimal, enhancing energy efficiency and extending battery life.
Designed with an emphasis on thermal performance and stability, the BENL77SDAH voltage regulators incorporate advanced thermal management features, allowing them to operate effectively in environments with varying temperature ranges. Their compact package design facilitates integration into high-density circuit layouts, an essential requirement for modern electronic devices. With output voltage options ranging from 1.2V to 3.3V, this series caters to a diverse array of applications, ensuring compatibility with most digital and analog components.
The versatility of the BENL77SDAH Series makes it ideal for a wide range of use cases, including consumer electronics, automotive systems, and industrial automation. These regulators are particularly well-suited for powering microcontrollers, sensors, and RF modules, where stable and consistent voltage supply is critical. Their low noise operation further enhances performance in sensitive applications such as audio equipment and precision measurement devices.
In summary, the BENL77SDAH Series represents a robust solution for designers seeking reliable and efficient voltage regulation. Its combination of low dropout voltage, minimal quiescent current, and thermal stability makes it an excellent choice for various sectors, ensuring that end products benefit from enhanced performance, reliability, and energy efficiency in their power management systems.