Product details

Number of channels (#) 1 Total supply voltage (Max) (+5V=5, +/-5V=10) 5.5 Total supply voltage (Min) (+5V=5, +/-5V=10) 2.7 Rail-to-rail In to V-, Out GBW (Typ) (MHz) 31 Slew rate (Typ) (V/us) 20 Vos (offset voltage @ 25 C) (Max) (mV) 1 Iq per channel (Typ) (mA) 2.47 Vn at 1 kHz (Typ) (nV/rtHz) 8 Rating Catalog Operating temperature range (C) -40 to 125 Offset drift (Typ) (uV/C) 0.7 Features EMI Hardened Input bias current (Max) (pA) 10 CMRR (Typ) (dB) 94 Output current (Typ) (mA) 150 Architecture CMOS
Number of channels (#) 1 Total supply voltage (Max) (+5V=5, +/-5V=10) 5.5 Total supply voltage (Min) (+5V=5, +/-5V=10) 2.7 Rail-to-rail In to V-, Out GBW (Typ) (MHz) 31 Slew rate (Typ) (V/us) 20 Vos (offset voltage @ 25 C) (Max) (mV) 1 Iq per channel (Typ) (mA) 2.47 Vn at 1 kHz (Typ) (nV/rtHz) 8 Rating Catalog Operating temperature range (C) -40 to 125 Offset drift (Typ) (uV/C) 0.7 Features EMI Hardened Input bias current (Max) (pA) 10 CMRR (Typ) (dB) 94 Output current (Typ) (mA) 150 Architecture CMOS
SOT-SC70 (DCK) 5 4 mm² 2 x 2.1

Unless Otherwise Noted, Typical Values at TA = 25°C, V+ = 3.3V

  • Supply Voltage 2.7V to 5.5V
  • Supply Current (per Channel) 2.25 mA
  • Input Offset Voltage 1 mV Max
  • Input Bias Current 0.1 pA
  • GBW 30 MHz
  • EMIRR at 1.8 GHz 105 dB
  • Input Noise Voltage at 1 kHz 8 nV/√Hz
  • Slew Rate 18 V/µs
  • Output Voltage Swing Rail-to-Rail
  • Output Current Drive 67 mA
  • Operating Ambient Temperature Range −40°C to 125°C

All trademarks are the property of their respective owners.

Unless Otherwise Noted, Typical Values at TA = 25°C, V+ = 3.3V

  • Supply Voltage 2.7V to 5.5V
  • Supply Current (per Channel) 2.25 mA
  • Input Offset Voltage 1 mV Max
  • Input Bias Current 0.1 pA
  • GBW 30 MHz
  • EMIRR at 1.8 GHz 105 dB
  • Input Noise Voltage at 1 kHz 8 nV/√Hz
  • Slew Rate 18 V/µs
  • Output Voltage Swing Rail-to-Rail
  • Output Current Drive 67 mA
  • Operating Ambient Temperature Range −40°C to 125°C

All trademarks are the property of their respective owners.

TI’s LMV861 and LMV862 are CMOS input, low power op amp IC's, providing a low input bias current, a wide temperature range of −40°C to +125°C and exceptional performance making them robust general purpose parts. Additionally, the LMV861 and LMV862 are EMI hardened to minimize any interference so they are ideal for EMI sensitive applications.

The unity gain stable LMV861 and LMV862 feature 30 MHz of bandwidth while consuming only 2.25 mA of current per channel. These parts also maintain stability for capacitive loads as large as 200 pF. The LMV861 and LMV862 provide superior performance and economy in terms of power and space usage.

This family of parts has a maximum input offset voltage of 1 mV, a rail-to-rail output stage and an input common-mode voltage range that includes ground. Over an operating range from 2.7V to 5.5V the LMV861 and LMV862 provide a PSRR of 93 dB, and a CMRR of 93 dB. The LMV861 is offered in the space saving 5-Pin SC70 package, and the LMV862 in the 8-Pin VSSOP.

TI’s LMV861 and LMV862 are CMOS input, low power op amp IC's, providing a low input bias current, a wide temperature range of −40°C to +125°C and exceptional performance making them robust general purpose parts. Additionally, the LMV861 and LMV862 are EMI hardened to minimize any interference so they are ideal for EMI sensitive applications.

The unity gain stable LMV861 and LMV862 feature 30 MHz of bandwidth while consuming only 2.25 mA of current per channel. These parts also maintain stability for capacitive loads as large as 200 pF. The LMV861 and LMV862 provide superior performance and economy in terms of power and space usage.

This family of parts has a maximum input offset voltage of 1 mV, a rail-to-rail output stage and an input common-mode voltage range that includes ground. Over an operating range from 2.7V to 5.5V the LMV861 and LMV862 provide a PSRR of 93 dB, and a CMRR of 93 dB. The LMV861 is offered in the space saving 5-Pin SC70 package, and the LMV862 in the 8-Pin VSSOP.

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Technical documentation

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Type Title Date
* Data sheet LMV861/LMV862 30 MHz Low Power CMOS, EMI Hardened Operational Amplifiers datasheet (Rev. C) 25 Mar 2013
Technical article What is an op amp? 21 Jan 2020
Application note Inverting attenuator circuit 23 Mar 2018
Technical article How to lay out a PCB for high-performance, low-side current-sensing designs 06 Feb 2018
Technical article Low-side current sensing for high-performance cost-sensitive applications 22 Jan 2018
Technical article Voltage and current sensing in HEV/EV applications 22 Nov 2017
E-book The Signal e-book: A compendium of blog posts on op amp design topics 28 Mar 2017
User guide 551012875, 551012922 Universal Op Amp Evaluation Boards (SOT-23 and SC-70) (Rev. C) 01 May 2013
User guide AN-1868 EMIRR Evaluation Boards for LMV861/LMV862 (Rev. A) 26 Apr 2013
White paper EMI-Hardened Operational Amplifiers for Robust Circuit Design 22 Sep 2008

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

551012922-001 — SC-70 Amplifier Universal Evaluation Board

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Simulation model

LMV861 PSPICE Model

SNOM035.ZIP (3 KB) - PSpice Model
Simulation tool

PSPICE-FOR-TI — PSpice® for TI design and simulation tool

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TINA-TI provides all the conventional DC, transient and frequency domain analysis of SPICE and much more. TINA has extensive post-processing capability that allows you to format results the way you want them. Virtual instruments allow you to select input waveforms and probe circuit nodes voltages (...)
Calculation tool

ANALOG-ENGINEER-CALC — Analog engineer's calculator

The Analog Engineer’s Calculator is designed to speed up many of the repetitive calculations that analog circuit design engineers use on a regular basis. This PC-based tool provides a graphical interface with a list of various common calculations ranging from setting op-amp gain with feedback (...)
Design tool

CIRCUIT060013 — Inverting amplifier with T-network feedback circuit

This design inverts the input signal, VIN, and applies a signal gain of 1000 V/V or 60 dB. The inverting amplifier with T-feedback network can be used to obtain a high gain without a small value for R4 or very large values for the feedback resistors.
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CIRCUIT060015 — Adjustable reference voltage circuit

This circuit combines an inverting and non-inverting amplifier to make a reference voltage adjustable from the negative of the input voltage up to the input voltage. Gain can be added to increase the maximum negative reference level.
Design tool

Simulation for Inverting Attenuator Circuit

SBOC522.ZIP (22 KB)
Package Pins Download
SC70 (DCK) 5 View options

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