The TPS7A16-Q1 ultra-low-power, low-dropout (LDO) voltage regulator offers the benefits of ultra-low quiescent current, high input voltage, and miniaturized, high-thermal-performance packaging.
The TPS7A16-Q1 is designed for continuous or sporadic (power backup) battery-powered applications where ultra-low quiescent current is critical to extending system battery life.
The TPS7A16-Q1 offers an enable pin (EN) compatible with standard CMOS logic and an integrated open-drain, active-high, power-good output (PG) with a user-programmable delay. These pins are intended for use in microcontroller-based, battery-powered applications where power-rail sequencing is required.
In addition, the TPS7A16-Q1 is designed for generating a low-voltage supply from multicell solutions ranging from high-cell-count, power-tool packs to automotive applications; not only can this device supply a well-regulated voltage rail, but the TPS7A16-Q1 can also withstand and maintain regulation during voltage transients. These features translate to simpler and more cost-effective, electrical surge-protection circuitry.
The TPS7A16-Q1 ultra-low-power, low-dropout (LDO) voltage regulator offers the benefits of ultra-low quiescent current, high input voltage, and miniaturized, high-thermal-performance packaging.
The TPS7A16-Q1 is designed for continuous or sporadic (power backup) battery-powered applications where ultra-low quiescent current is critical to extending system battery life.
The TPS7A16-Q1 offers an enable pin (EN) compatible with standard CMOS logic and an integrated open-drain, active-high, power-good output (PG) with a user-programmable delay. These pins are intended for use in microcontroller-based, battery-powered applications where power-rail sequencing is required.
In addition, the TPS7A16-Q1 is designed for generating a low-voltage supply from multicell solutions ranging from high-cell-count, power-tool packs to automotive applications; not only can this device supply a well-regulated voltage rail, but the TPS7A16-Q1 can also withstand and maintain regulation during voltage transients. These features translate to simpler and more cost-effective, electrical surge-protection circuitry.