LMC662 Series

Dual, 15.5-V, 1.4-MHz, low-offset-drift operational amplifier

Catalog

Dual, 15.5-V, 1.4-MHz, low-offset-drift operational amplifier

Part	Mounting Type	Voltage - Input Offset	Current - Input Bias	Output Type	Amplifier Type	Voltage - Supply Span (Max) [Max]	Operating Temperature [Min]	Operating Temperature [Max]	Current - Supply	Number of Circuits	Supplier Device Package	Slew Rate	Voltage - Supply Span (Min) [Min]	Package / Case	Package / Case [y]	Package / Case [x]	Current - Output / Channel [custom]	Gain Bandwidth Product	Package / Case	Package / Case
Texas Instruments LMC662AIM	Surface Mount	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	-40 °C	85 °C	750 µA	2	8-SOIC	1.1 V/çs	4.75 V	8-SOIC	3.9 mm	0.154 in	40 mA	1.4 MHz
Texas Instruments LMC662AIN/NOPB	Through Hole	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	-40 °C	85 °C	750 µA	2	8-PDIP	1.1 V/çs	4.75 V	8-DIP			40 mA	1.4 MHz	0.3 in	7.62 mm
Texas Instruments LMC662CMX	Surface Mount	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	0 °C	70 °C	750 µA	2	8-SOIC	1.1 V/çs	4.75 V	8-SOIC	3.9 mm	0.154 in	40 mA	1.4 MHz
Texas Instruments LMC662AIMX/NOPB	Surface Mount	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	-40 °C	85 °C	750 µA	2	8-SOIC	1.1 V/çs	4.75 V	8-SOIC	3.9 mm	0.154 in	40 mA	1.4 MHz
Texas Instruments LMC662CN/NOPB	Through Hole	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	0 °C	70 °C	750 µA	2	8-PDIP	1.1 V/çs	4.75 V	8-DIP			40 mA	1.4 MHz	0.3 in	7.62 mm
Texas Instruments LMC662CN	Through Hole	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	0 °C	70 °C	750 µA	2	8-PDIP	1.1 V/çs	4.75 V	8-DIP			40 mA	1.4 MHz	0.3 in	7.62 mm
Texas Instruments LMC662CM/NOPB	Surface Mount	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	0 °C	70 °C	750 µA	2	8-SOIC	1.1 V/çs	4.75 V	8-SOIC	3.9 mm	0.154 in	40 mA	1.4 MHz
Texas Instruments LMC662AIN	Through Hole	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	-40 °C	85 °C	750 µA	2	8-PDIP	1.1 V/çs	4.75 V	8-DIP			40 mA	1.4 MHz	0.3 in	7.62 mm
Texas Instruments LMC662AIM/NOPB	Surface Mount	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	-40 °C	85 °C	750 µA	2	8-SOIC	1.1 V/çs	4.75 V	8-SOIC	3.9 mm	0.154 in	40 mA	1.4 MHz
Texas Instruments LMC662AIMX	Surface Mount	1 mV	0.002 pA	Push-Pull Rail-to-Rail	CMOS	15.5 V	-40 °C	85 °C	750 µA	2	8-SOIC	1.1 V/çs	4.75 V	8-SOIC	3.9 mm	0.154 in	40 mA	1.4 MHz

Catalog

Dual, 15.5-V, 1.4-MHz, low-offset-drift operational amplifier

Key Features

• Rail-to-rail output swingSpecified for 2kΩ and 600Ω loadsHigh voltage gain: 126dBLow input offset voltage: 3mVLow offset voltage drift: 1.3µV/°CUltra low input bias current: 2fALow voltage noise: 22nV/√HzInput common-mode range includes V−Operating range from 4.75V to 15.5V supplyISS = 400µA/amplifier; Independent of V+Slew rate: 1.1V/µsRail-to-rail output swingSpecified for 2kΩ and 600Ω loadsHigh voltage gain: 126dBLow input offset voltage: 3mVLow offset voltage drift: 1.3µV/°CUltra low input bias current: 2fALow voltage noise: 22nV/√HzInput common-mode range includes V−Operating range from 4.75V to 15.5V supplyISS = 400µA/amplifier; Independent of V+Slew rate: 1.1V/µs

Description

The dual LMC662 and quad LMC660 (LMC66x) are CMOS operational amplifiers designed for operation from a single supply, and built with TI’s advanced CMOS process. The device operates from 5V to 15V and features rail-to-rail output swing in addition to an input common-mode range that includes ground. Performance limitations that have plagued CMOS amplifiers in the past are not a problem with this design. Input offset voltage (VOS), offset drift, and broadband noise as well as voltage gain into realistic loads (2kΩ and 600Ω) are all equal to or better than widely accepted bipolar equivalents. The dual LMC662 and quad LMC660 (LMC66x) are CMOS operational amplifiers designed for operation from a single supply, and built with TI’s advanced CMOS process. The device operates from 5V to 15V and features rail-to-rail output swing in addition to an input common-mode range that includes ground. Performance limitations that have plagued CMOS amplifiers in the past are not a problem with this design. Input offset voltage (VOS), offset drift, and broadband noise as well as voltage gain into realistic loads (2kΩ and 600Ω) are all equal to or better than widely accepted bipolar equivalents.