Zero-Drift Instrumentation Amplifier From Microchip Provides Low Power and High Accuracy With Self-Correcting Architecture

Microchip MCP6N16

MCP6N16 Amplifier Maximizes DC Performance With Ultra-Low Offset, Low-Offset Drift, Superior Common-Mode and Power-Supply Rejection and Zero 1/f Noise

Microchip Technology Inc. announced the expansion of its instrumentation amplifier portfolio with the new zero-drift MCP6N16. This self-correcting architecture maximizes DC performance by enabling ultra-low offset, low-offset drift, and superior common-mode and power-supply rejection, while eliminating the adverse effects of 1/f noise. The result is very high accuracy across both time and temperature.

Microchip - MCP6N16

The MCP6N16’s low-power CMOS process technology enables low power consumption while still providing 500 kHz bandwidth, and it features a hardware-enable pin for even more power savings. This low-power operation and shutdown capability requires less current for the given speed and performance, which extends battery life and leads to less self heating. Additionally, the amplifier’s low, 1.8 V operation allows two dry-cell, 1.5 V batteries to be drained well beyond typical use, and its rail-to-rail input and output operation enables full-range use, even in low-supply conditions. This provides better performance across the entire operating-voltage range.

The MCP6N16 instrumentation amp is ideal for applications that require a combination of high performance and precision, low power consumption, and low-voltage operation. Examples include sensor interfaces, signal conditioning, and stationary and portable instrumentation, for the medical, consumer and industrial markets.

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Pricing & Availability

The Zero-Drift MCP6N16 Instrumentation Amplifier is available today for samples and volume production, in 8-pin MSOP and 3×3 mm DFN packages. Both package options are priced at $1.52 each in 5,000-unit quantities.

microchip.com