The LMP201x series are the first members of TI’s new LMP™ precision amplifier family. The LMP201x series offers
unprecedented accuracy and stability in space-saving miniature packaging, offered at an affordable
price. This device utilizes patented auto-zero techniques to measure and continually correct the
input offset error voltage. The result is an amplifier which is ultra-stable over time and
temperature. It has excellent CMRR and PSRR ratings, and does not exhibit the familiar 1/f voltage
and current noise increase that plagues traditional amplifiers. The combination of the LMP201x
characteristics makes it a good choice for transducer amplifiers, high gain configurations, ADC
buffer amplifiers, DAC I-V conversion, and any other 2.7-V to 5-V application requiring precision
and long term stability.
Other useful benefits of the LMP201x are rail-to-rail output, a low supply current of 930
µA, and wide gain-bandwidth product of 3 MHz. These versatile features found in the LMP201x provide
high performance and ease of use.
The LMP201x series are the first members of TI’s new LMP™ precision amplifier family. The LMP201x series offers
unprecedented accuracy and stability in space-saving miniature packaging, offered at an affordable
price. This device utilizes patented auto-zero techniques to measure and continually correct the
input offset error voltage. The result is an amplifier which is ultra-stable over time and
temperature. It has excellent CMRR and PSRR ratings, and does not exhibit the familiar 1/f voltage
and current noise increase that plagues traditional amplifiers. The combination of the LMP201x
characteristics makes it a good choice for transducer amplifiers, high gain configurations, ADC
buffer amplifiers, DAC I-V conversion, and any other 2.7-V to 5-V application requiring precision
and long term stability.
Other useful benefits of the LMP201x are rail-to-rail output, a low supply current of 930
µA, and wide gain-bandwidth product of 3 MHz. These versatile features found in the LMP201x provide
high performance and ease of use.