Product Details
●The AD8276/AD8277 are general-purpose, unity-gain difference amplifiers intended for precision signal conditioning in power critical applications that require both high performance and low power. They provide exceptional common-mode rejection ratio (86 dB) and high bandwidth while amplifying signals well beyond the supply rails. The on-chip resistors are laser-trimmed for excellent gain accuracy and high CMRR. They also have extremely low gain drift vs. temperature.
●The common-mode range of the amplifiers extends to almost double the supply voltage, making these amplifiers ideal for single-supply applications that require a high common-mode voltage range. The internal resistors and ESD circuitry at the inputs also provide overvoltage protection to the op amps.
●The AD8276/AD8277 are unity-gain stable. While they are optimized for use as difference amplifiers, they can also be connected in high precision, single-ended configurations with G = −1, +1, +2. The AD8276/AD8277 provide an integrated precision solution that has smaller size, lower cost, and better performance than a discrete alternative.
●The AD8276/AD8277 operate on single supplies (2.0 V to 36 V) or dual supplies (±2 V to ±18 V). The maximum quiescent supply current is 200 μA per channel, which is ideal for battery-operated and portable systems.
●The AD8276 is available in the space-saving 8-lead MSOP and SOIC packages, and the AD8277 is offered in a 14-lead SOIC package. Both are specified for performance over the industrial temperature range of −40°C to +85°C and are fully RoHS compliant.
●Applications
● Voltage measurement and monitoring
● Current measurement and monitoring
● Differential output instrumentation amplifier
● Portable, battery-powered equipment
● Test and measurement
●### Features and Benefits
● Wide input range beyond supplies
● Rugged input overvoltage protection
● Low supply current: 200 μA maximum per channel
● Low power dissipation: 0.5 mW at VS = 2.5 V
● Bandwidth: 550 kHz
● CMRR: 86 dB minimum, dc to 10 kHz
● Low offset voltage drift: ±2 μV/°C maximum (B Grade)
● Please see data sheet for additional features.