MCP6L2T-E/SN Microchip Integrated Circuit (Small Outline Packages) In Stock

The MCP6L2T-E/SN is a dual low-voltage operational amplifier from Microchip operating from a 2.7 V minimum supply, with 90 dB typical CMRR and 3000 µV maximum input offset voltage across an extended temperature range. It suits portable sensor interfaces, active filters, and battery-powered instrumentation in a SOIC-8 package.

ACTIVEIntegrated CircuitVerified Jun 2026
Package / Visual Reference
MCP6L2T-E/SNSmall Outline Packages
Quick Facts
Manufacturer
Microchip
Package
Small Outline Packages
Pin Count
8
Lifecycle
ACTIVE
Category
Integrated Circuit
Price
From $0.3582(MOQ 1)
Temp Range
-40.0°C to 125.0°C
RoHS
Compliant
Lead Time
3–7 business days
Shipping
DHL Express · Worldwide

Key Features

  • Dual op amp operating from a 2.7 V single supply for low-voltage and battery-powered systems
  • 90 dB typical CMRR for effective rejection of supply-rail and common-mode interference
  • 3000 µV maximum input offset voltage with internal frequency compensation for stable gain stages
  • Extended temperature range operation for industrial and outdoor environmental monitoring
  • SOIC-8 package providing two independent channels in a widely available, easy-to-solder outline

Applications

The MCP6L2T-E/SN is tailored for dual-channel analog front-ends in battery-operated devices such as portable medical monitors, handheld field instruments, and IoT sensor nodes that run from a single lithium or alkaline cell at 2.7 V or higher. Its 90 dB CMRR and low offset voltage allow accurate amplification of small differential signals from bridge sensors and thermocouples across the extended industrial temperature range. Active anti-aliasing filters, audio signal chains, and DAC output buffers also leverage both channels simultaneously to minimize PCB space and BOM cost.

Specifications

Pbfree CodeYes
Manufacturer Package CodeSOIC-8
Factory Lead Time6Weeks
YTEOL8
Amplifier TypeOPERATIONAL AMPLIFIER
ArchitectureVOLTAGE-FEEDBACK
Common-mode Reject Ratio-Nom90dB
Frequency CompensationYES
Input Offset Voltage-Max3000 µV
JESD-30 CodeR-PDSO-G8
JESD-609 Codee3
Low-BiasYES
Low-OffsetNO
MicropowerYES
Number of Functions2
Package Body MaterialPLASTIC/EPOXY
Package Equivalence CodeSOP8,.25
Package ShapeRECTANGULAR
Package StyleSMALL OUTLINE
Packing MethodTAPE AND REEL
Peak Reflow Temperature (Cel)260
PowerNO
Programmable PowerNO
Qualification StatusNot Qualified
Screening LevelTS 16949
Slew Rate-Nom2.3V/us
Supply Current-Max0.66mA
Supply Voltage Limit-Max7V
Supply Voltage-Nom (Vsup)5V
Surface MountYES
TechnologyCMOS
Temperature GradeAUTOMOTIVE
Terminal FinishMatte Tin (Sn)
Terminal FormGULL WING
Terminal Pitch1.27mm
Terminal PositionDUAL
Unity Gain BW-Nom2800
WidebandNO
PackageSmall Outline Packages

Compliance & Regulatory

RoHS StatusCompliant
Lead-FreeYes (Pb-Free)
Moisture Sensitivity LevelMSL 1
ECCNEAR99
HTS Code8542.33.00.01
Country of OriginTaiwan, Thailand

Datasheet

MCP6L2T-E/SN Datasheet Download

Official datasheet from Microchip

Alternate & Equivalent Parts

Compatible alternatives and drop-in replacements for MCP6L2T-E/SN:

Frequently Asked Questions

What is the minimum supply voltage for the MCP6L2T-E/SN, and which battery chemistries can power it directly?

The MCP6L2T-E/SN operates from a minimum supply voltage of 2.7 V, making it directly compatible with a single lithium coin cell (nominal 3 V), two alkaline AA cells in series (nominal 3 V), and rechargeable lithium-ion cells at end-of-discharge near 2.7 V. This eliminates the need for a boost converter in portable designs, saving at least one inductor and several passive components.

How does the 3000 µV maximum input offset voltage of the MCP6L2T-E/SN affect accuracy in a thermocouple amplifier circuit?

A type-K thermocouple produces approximately 41 µV per °C. With a maximum input offset of 3000 µV, the MCP6L2T-E/SN would introduce a systematic temperature error of roughly 73°C at unity gain without cold-junction compensation. Engineers should apply gain and software offset correction, or use the device only in moderate-accuracy temperature monitoring where ±5°C or better accuracy is sufficient after calibration.

For an industrial sensor node requiring two independent signal-conditioning channels, how does the MCP6L2T-E/SN reduce BOM count versus two single-channel op amps?

The MCP6L2T-E/SN integrates 2 independent op amps in a single SOIC-8 package, replacing two discrete 5-pin SOT-23 devices. This halves the number of op amp footprints on the PCB, reduces the required bypass capacitors from 2 per-device sets to 1 shared decoupling network, and cuts the per-unit part count by at least 1 component while maintaining the same 90 dB CMRR performance in both channels.

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AvailabilityIn Stock
Reference Price (USD)
From $0.3582
Buy from 1pc · Factory-direct pricing
Qty.Unit PriceExt. Price
1+$0.5790$0.58
100+$0.5300$53.00
250+$0.4409$110.23
500+$0.3858$192.90
1000+$0.3582$358.20
pcs
Unit price: $0.5790 · Total: $0.58

In Stock · 24h Response · Worldwide Shipping

Lead Time3-7 business days
MOQFrom 1 piece
ShippingDHL / FedEx / UPS
OriginChina (Authorized)

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