The LMC6064 is a precision quad low offset voltage, micropower operational amplifier, capable of precision single supply operation. Performance characteristics include ultra low input bias current, high voltage gain, rail-to-rail output swing, and an input common mode voltage range that includes ground. These features, plus its low power consumption make the LMC6064 ideally suited for battery powered applications. Other applications using the LMC6064 include precision full-wave rectifiers, integrators, references, sample-and-hold circuits, and true instrumentation amplifiers. This device is built with TI"s advanced double-Poly Silicon-Gate CMOS process. For designs that require higher speed, see the LMC6084 precision quad operational amplifier. For single or dual operational amplifier with similar features, see the LMC6061 or LMC6062 respectively.
The LMC6064AIM/NOPB is a quad precision CMOS MicroPower Operational Amplifier for use with D/A converter. It is capable of precision single supply operation. Performance characteristics include ultra low input bias current, high voltage gain, rail-to-rail output swing and an input common-mode voltage range that includes ground. These features, plus its low power consumption make the LMC6064 ideally suited for battery powered applications. Other applications using the LMC6064 include precision full-wave rectifiers, integrators, references, sample-and-hold circuits and true instrumentation amplifiers. This device is built with TI"s advanced double-poly silicon-gate CMOS process.
The AD8664ARZ is a low noise precision quad Operational Amplifier with rail-to-rail output. The single-supply amplifier that uses the patented DigiTrim® trimming technique to achieve low offset voltage. The AD866x series features extended operating ranges, with supply voltages up to 16V. It also features low input bias current, wide signal bandwidth, low input voltage and current noise. The combination of low offset, very low input bias current and a wide supply range makes this amplifier useful in a wide variety of applications usually associated with JFET amplifier. Systems using high impedance sensors, such as photodiodes, benefit from the combination of low input bias current, low noise, low offset and wide bandwidth. The wide operating voltage range meets the demands of high-performance ADCs and DACs.