●Product Details
●The ADA4096-2 dual and ADA4096-4 quad operational amplifiers feature micropower operation and rail-to-rail input and output ranges. The extremely low power requirements and guaranteed operation from 3 V to 30 V make these amplifiers perfectly suited to monitor battery usage and to control battery charging. Their dynamic performance, including 27 nV/√Hz voltage noise density, recommends them for battery-powered audio applications. Capacitive loads to 200 pF are handled without oscillation.
●The ADA4096-2 and ADA4096-4 have overvoltage protection inputs and diodes that allow the voltage input to extend 32 V above and below the supply rails, making this device ideal for robust industrial applications. The ADA4096-2 and ADA4096-4 feature a unique input stage that allows the input voltage to exceed either supply safely without any phase reversal or latch-up; this is called overvoltage protection, or OVP.
●The dual ADA4096-2 is available in 8-lead LFCSP (2 mm × 2 mm) and 8-lead MSOP packages. The ADA4096-2 is available in 16-lead LFCSP (3 mm × 3 mm) and 14-lead TSSOP packages. The ADA4096-2W is qualified for automotive applications and is available in an 8-lead MSOP package.
●The ADA4096-2 family is specified over the extended industrial temperature range of (−40°C to +125°C) and is part of the growing selection of 30 V, low power op amps from Analog Devices, Inc.
●Applications
● Battery monitoring
● Sensor conditioners
● Portable power supply controls
● Portable instrumentation
●### Features and Benefits
● Input overvoltage protection, 32 V above and below the supply rails
● No phase reversal for input voltage up to ±32 V beyond the power supply
● Rail-to-rail input and output swing
● Low power: 60 μA per amplifier typical
● Unity-gain bandwidth
● 800 kHz typical at VSY = ±15 V
● 550 kHz typical at VSY = ±5 V
● 465 kHz typical at VSY = ±1.5 V
● Single-supply operation: 3 V to 30 V
● Low offset voltage: 300 μV maximum
● Large signal voltage gain: 120 dB typical
● Unity gain stable
● Qualified for automotive applications
Part 3D Model
