LMV358IDR Dual Low-Voltage Op Amp

Texas Instruments Signal_Chain — specifications, applications, sourcing support and RFQ.

LMV358IDR Dual Low-Voltage Op Amp

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Part Number
LMV358IDR
Manufacturer
Texas Instruments
Package
D (SOIC, 8), 4.90 mm x 6.00 mm
Category
Signal Chain
Product Type
Operational Amplifier

Quick Sourcing Note

LMV358IDR from Texas Instruments is a Signal_Chain dual low-voltage op amp supplied in the D SOIC 8-pin package, measuring 4.90 mm x 6.00 mm. It provides two amplifier channels for low-voltage single-supply signal-chain circuits. The device operates from 2.7 V to 5.5 V and supports an operating free-air temperature range of -40°C to +125°C. Key parameters include rail-to-rail output swing, typical 1 MHz unity-gain bandwidth, typical 46 nV/√Hz input noise voltage at 1 kHz, and specified input offset, bias, output swing, ESD, thermal, and pinout data.

Specifications

TypeDescription
Part NumberLMV358IDR
ManufacturerTexas Instruments
Product TypeOperational Amplifier
CategorySignal Chain
Package / CaseD (SOIC, 8), 4.90 mm x 6.00 mm
Channel Count2 channels; LMV358 device
Supply Voltage Range2.7 V to 5.5 V; single-supply operation, recommended operating conditions
Operating Free-Air Temperature-40°C to +125°C; LMV321, LMV358, LMV324, LMV321IDCK
Output Typerail-to-rail output swing; device feature
Typical Supply Current210 µA; LMV358 typical, both amplifiers not otherwise specified on feature list
Absolute Maximum Supply Voltage5.5 V max; over operating free-air temperature range
Absolute Maximum Differential Input Voltage±5.5 V; IN+ with respect to IN-
Absolute Maximum Input Voltage Range-0.2 V to 5.7 V; either input
Output Short-Circuit Durationunlimited; one amplifier to ground, at or below TA=25°C, VCC <= 5.5 V
Operating Virtual Junction Temperature150°C max; absolute maximum rating
Storage Temperature Range-65°C to +150°C; absolute maximum rating
HBM ESD Rating2000 V max; ANSI/ESDA/JEDEC JS-001, all pins
CDM ESD Rating1000 V max; JEDEC JESD22-C101, all pins
Junction-to-Ambient Thermal Resistance207.9°C/W; LMV358 D (SOIC), 8 pins
Junction-to-Ambient Thermal Resistance201.2°C/W; LMV358 DGK (VSSOP), 8 pins
Junction-to-Ambient Thermal Resistance210°C/W; LMV358 DDU (VSSOP), 8 pins
Junction-to-Ambient Thermal Resistance200.7°C/W; LMV358 PW (TSSOP), 8 pins
Input Offset Voltagetyp 1.7 mV, max 7 mV; VCC=2.7 V, TA=25°C
Input Offset Voltage Temperature Coefficienttyp 5 µV/°C; VCC=2.7 V, TA=25°C
Input Bias Currenttyp 11 nA, max 250 nA; VCC=2.7 V, TA=25°C
Input Offset Currenttyp 5 nA, max 50 nA; VCC=2.7 V, TA=25°C
Common-Mode Rejection Ratiomin 50 dB, typ 63 dB; VCC=2.7 V, VCM=0 V to 1.7 V
Supply-Voltage Rejection Ratiomin 50 dB, typ 60 dB; VCC=2.7 V to 5 V, VO=1 V
Common-Mode Input Voltage Range-0.2 V to 1.7 V max, typ upper 1.9 V; VCC=2.7 V, CMRR >= 50 dB
High-Level Output Swingtyp VCC-100 mV, max VCC-10 mV; VCC=2.7 V, RL=10 kΩ to 1.35 V
Low-Level Output Swingtyp 60 mV, max 180 mV; VCC=2.7 V, RL=10 kΩ to 1.35 V
Supply Currenttyp 140 µA, max 340 µA; VCC=2.7 V, LMV358I both amplifiers, TA=25°C
Unity-Gain Bandwidthtyp 1 MHz; VCC=2.7 V, CL=200 pF
Phase Margintyp 60 degrees; VCC=2.7 V, TA=25°C
Gain Margintyp 10 dB; VCC=2.7 V, TA=25°C
Equivalent Input Noise Voltagetyp 46 nV/√Hz; VCC=2.7 V, f=1 kHz
Equivalent Input Noise Currenttyp 0.17 pA/√Hz; VCC=2.7 V, f=1 kHz
Input Offset Voltagetyp 1.7 mV, max 7 mV; VCC=5 V, TA=25°C
Input Offset Voltagemax 9 mV; VCC=5 V, TA=-40°C to +125°C
Input Bias Currenttyp 15 nA, max 250 nA; VCC=5 V, TA=25°C
Input Bias Currentmax 500 nA; VCC=5 V, TA=-40°C to +125°C
Input Offset Currenttyp 5 nA, max 50 nA; VCC=5 V, TA=25°C
Input Offset Currentmax 150 nA; VCC=5 V, TA=-40°C to +125°C
Pin 1 FunctionOUT; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 2 Function1IN- inverting input; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 3 Function1IN+ noninverting input; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 4 FunctionGND negative supply; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 5 Function2IN+ noninverting input; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 6 Function2IN- inverting input; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 7 Function2OUT output; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Pin 8 FunctionVCC+ positive supply; LMV358 D, DDU, DGK, and PW packages, 8-pin top view
Datasheet Statusrequest_only

Product Overview

The LMV358IDR is a Texas Instruments dual low-voltage op amp in the Signal_Chain category. The LMV358 device provides 2 channels and is specified for single-supply operation from 2.7 V to 5.5 V under recommended operating conditions. It also includes rail-to-rail output swing as a device feature.

For the D package option, LMV358IDR uses an 8-pin SOIC case measuring 4.90 mm x 6.00 mm. The LMV358 D package thermal data lists 207.9°C/W junction-to-ambient thermal resistance. The 8-pin top-view pinout assigns OUT, 1IN-, 1IN+, GND, 2IN+, 2IN-, 2OUT, and VCC+ to pins 1 through 8.

Electrical data includes typical 1.7 mV input offset voltage at both 2.7 V and 5 V, typical 1 MHz unity-gain bandwidth at 2.7 V with 200 pF load capacitance, and typical 140 µA supply current for both LMV358I amplifiers at 2.7 V and 25°C. These facts support use in low-voltage dual-channel signal conditioning, rail-to-rail output stages, and 2.7 V to 5.5 V signal-chain assemblies.

Key Features

  • Dual low-voltage op amp with 2 channels
  • 2.7 V to 5.5 V single-supply operation
  • Rail-to-rail output swing device feature
  • -40°C to +125°C operating free-air temperature
  • Typical 1 MHz unity-gain bandwidth at 2.7 V
  • Typical 46 nV/√Hz input noise voltage at 1 kHz
  • SOIC-8 D package, 4.90 mm x 6.00 mm
  • HBM 2000 V and CDM 1000 V ESD ratings
  • Typical 60-degree phase margin at 2.7 V
  • Pinout includes two inputs and output per amplifier

Typical Applications

  • Low-voltage signal conditioning
  • Dual-channel amplifier circuits
  • Rail-to-rail output stages
  • 2.7 V to 5.5 V systems
  • SOIC-8 signal-chain assemblies
  • Common-mode input sensing circuits
  • General op amp gain stages

Procurement Notes

When requesting a quote for LMV358IDR, buyers should confirm the manufacturer, package or case, required quantity, target date code, compliance documents, packing method, destination country and expected delivery schedule.

If alternatives are acceptable, buyers should share the approved vendor list, required electrical or optical limits, package constraints and qualification requirements. Any alternative part should be reviewed by the buyer's engineering team before production use.

For analog and signal-chain sourcing, supply voltage, bandwidth, accuracy, noise level, package, temperature grade, input/output configuration and qualification requirements should be verified before approval.

FAQ

What type of device is the LMV358IDR?

The LMV358IDR is a Texas Instruments dual low-voltage op amp in the Signal_Chain category. The LMV358 device provides 2 channels and includes rail-to-rail output swing as a listed device feature.

What supply voltage range does LMV358IDR support?

The recommended single-supply operating range is 2.7 V to 5.5 V. The absolute maximum supply voltage is listed as 5.5 V over the operating free-air temperature range.

What package is used for LMV358IDR?

LMV358IDR uses the D package, an 8-pin SOIC case measuring 4.90 mm x 6.00 mm. For the LMV358 D SOIC 8-pin package, junction-to-ambient thermal resistance is 207.9°C/W.

What are the main 2.7 V electrical parameters?

At VCC=2.7 V and TA=25°C, listed values include typical 1.7 mV input offset voltage, typical 11 nA input bias current, typical 140 µA supply current for both amplifiers, and typical 1 MHz unity-gain bandwidth with CL=200 pF.

Technical Review & Sourcing Note

Prepared by LDeepAI Component Sourcing Team. Reviewed for RFQ, documentation and alternative sourcing use. Last updated: June 30, 2026.

This page is based on manufacturer datasheet information and LDeepAI sourcing review. Specifications should be verified against the official manufacturer datasheet before final procurement or design approval. Final electrical, optical and reliability approval should be confirmed by the buyer's engineering team.

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