Product Overview LMV358: Ultra Low Cost & Power, Rail-Rail Output, Dual Op-Amp For complete documentation, see the data sheet Product Description The LMV321, LMV358, and LMV324 are single, dual, and quad low voltage op-amps with rail-to-rail output swing. These amplifiers are a cost-effective solution for applications where low power consumption and space saving packages are critical. Specification tables are provided for operation from power supply voltages at 2.7 V and 5 V. Rail-to-Rail operation allows for optimal signal-tonoise applications. Ultra low quiescent current makes this series of amplifiers ideal for portable, battery operated equipment. The common mode input range includes ground making the device useful for low-side current-shunt measurements. The ultra small packages allow for placement on the PCB in close proximity to the signal source thereby reducing noise pickup. Features • • • • • • Benefits Operation from 2.7 V to 5.0 V Single-Sided Power Supply No Output Crossover Distortion Industrial temperature Range: -40C to +85C Rail-to-Rail Output Low Quiescent Current No Output Phase-Reversal from Overdriven Input Applications • • • • • • Compatible with the most common operating conditions Guarantees signal integrity Robust thermal performance Reduces supply requirements Improves battery life and power consumption Predictable system behavior End Products • Voltage regulation • Sensor amplification or buffering • • • • Notebook PC Hard disk drives Routers and switches Other portables Part Electrical Specifications Product Compliance Status Rail to Rail Channel s VCC Min (V) VCC Max IO Min (V) (mA) IO Typ (mA) ID Typ (mA) GBW Typ (MHz) SR Typ (V/µs) VIO Max (mV) Packag e Type LMV358DMR2G Pb-free Active Output 2 2.5 5.5 10 160 0.08 1 1 9 Micro8 ™ Active Output 2 2.5 5.5 10 160 0.08 1 1 9 SOIC-8 Active Output 2 2.5 5.5 10 160 0.08 1 1 9 UDFN-8 Halide free LMV358DR2G Pb-free Halide free LMV358MUTAG Pb-free Halide free For more information please contact your local sales support at www.onsemi.com Created on: 6/30/2016