Product Overview LMV932: Low Cost, Low Power 75µA, Rail to Rail I/O, Dual Op-Amp For complete documentation, see the data sheet Product Description The LMV931 Single and LMV932 Dual are CMOS low-voltage op-amps which can operate on single-sided power supplies (1.8 V to 5.0 V) with rail-to-rail input and output swing. Both devices come in small state-of-the-art packages and require very low quiescent current making them ideal for battery-operated, portable applications such as notebook computers and hand-held instruments. Railto-Rail operation provides improved signal-to-noise performance plus the small packages allow for closer placement to signal sources thereby reducing noise pickup. The single LMV931 is offered in space saving SC70-5 package. The dual LMV932 is in a Micro8. These small packages are very beneficial for crowded PCBs. Further reduction of power consumption is available with the addition of a shutdown function in the LMV981 Single and LMV982 Dual. All other functions and performance are the same. Shutdown is implemented by driving the SHDN pin LOW. Features Benefits • Performance Specified on Single-sided Power Supply: 1.8, 2.7, 5 V • Extended Industrial Temperature Range: -40°C to +125°C • Low Quiescent Current 210µA, max per channel Applications • Ideal for Battery-operated portable equipment • Useable for higher-temp applications • Extended battery life End Products • Reference Buffers • Current Shunt Monitors • PDAs • Notebook Computers • Battery-operated Portable Instruments Part Electrical Specifications Product Compliance Status Rail to Rail LMV932DMR2G Pb-free Active Input/Ou 2 tput Halide free 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 1.8 5.5 7 30 0.075 1.4 0.35 6 58 65 Micro8 ™ 55 60 4 80 20 75 0.35 6 SOIC-8 1.5 18 LMV932DR2G Pb-free Halide free Active Input/Ou 2 tput 1.8 5.5 58 65 18 30 55 80 20 75 4 60 7 For more information please contact your local sales support at www.onsemi.com Created on: 6/30/2016 0.075 1.4 1.5