The LPV511 is a micropower operational amplifier that operates from a voltage supply
range as wide as 2.7 V to 12 V with ensured specifications at 3 V, 5 V, and 12 V. The ultra-low
power LPV511 exhibits an excellent speed to power ratio, drawing only 880 nA of supply current with
a bandwidth of 27 kHz. These specifications make the LPV511 an ideal choice for battery-powered
systems that require long life through low supply current, such as instrumentation, sensor
conditioning and battery current monitoring.
The LPV511 has an input range that includes both supply rails for ground and high-side
battery sensing applications. The LPV511 output swings within 100 mV of either rail to maximize the
signals dynamic range in low supply applications. In addition, the output is capable of sourcing
650 µA of current when powered by a 12-V battery.
The LPV511 is fabricated on TIs advanced VIP50C process.
The LPV511 is available in the space-saving SC70 package, which makes it ideal for
portable electronics with area-constrained PC boards.
The LPV511 is a micropower operational amplifier that operates from a voltage supply
range as wide as 2.7 V to 12 V with ensured specifications at 3 V, 5 V, and 12 V. The ultra-low
power LPV511 exhibits an excellent speed to power ratio, drawing only 880 nA of supply current with
a bandwidth of 27 kHz. These specifications make the LPV511 an ideal choice for battery-powered
systems that require long life through low supply current, such as instrumentation, sensor
conditioning and battery current monitoring.
The LPV511 has an input range that includes both supply rails for ground and high-side
battery sensing applications. The LPV511 output swings within 100 mV of either rail to maximize the
signals dynamic range in low supply applications. In addition, the output is capable of sourcing
650 µA of current when powered by a 12-V battery.
The LPV511 is fabricated on TIs advanced VIP50C process.
The LPV511 is available in the space-saving SC70 package, which makes it ideal for
portable electronics with area-constrained PC boards.