FindMyChip
Get Quote

TLV2634IPWR Texas Instruments Integrated Circuit (Small Outline Packages) In Stock

The TLV2634IPWR is a quad rail-to-rail output operational amplifier from Texas Instruments with 9 MHz bandwidth and 1 mA per channel supply current. It features voltage-feedback architecture, 100 dB typical CMRR, and ultra-low 5 pA bias current in a TSSOP package. Available from stock with worldwide shipping.

ACTIVEIntegrated CircuitVerified May 2026
Package / Visual Reference
TLV2634IPWRSmall Outline Packages
Quick Facts
Manufacturer
Texas Instruments
Package
Small Outline Packages
Pin Count
14
Lifecycle
ACTIVE
Datasheet
TLV2634IPWR Datasheet PDF
Category
Integrated Circuit
Temp Range
-40.0°C to 125.0°C
RoHS
Compliant
Lead Time
3–7 business days
Shipping
DHL Express · Worldwide

Key Features

  • Rail-to-rail output swing maximizing dynamic range in single-supply and low-voltage signal conditioning circuits
  • Ultra-low input bias current of 5 pA at 25°C enabling high-impedance sensor interfacing without signal loading
  • 9 MHz gain-bandwidth product supporting moderate-speed applications such as audio processing and active filter design
  • 100 dB typical CMRR providing excellent common-mode noise rejection for precision differential measurement systems

Applications

The TLV2634IPWR is ideal for precision signal conditioning in sensor interface circuits, data acquisition front-ends, and active filter designs operating from single or dual low-voltage supplies. Its ultra-low bias current makes it particularly effective for interfacing with high-impedance sensors such as photodiodes, electrochemical cells, and piezoelectric transducers. The quad channel configuration supports compact multichannel instrumentation amplifier designs in medical, industrial, and portable measurement equipment.

Specifications

Pbfree CodeYes
YTEOL15
Amplifier TypeOPERATIONAL AMPLIFIER
ArchitectureVOLTAGE-FEEDBACK
Average Bias Current-Max (IIB)0.0002 µA
Bias Current-Max (IIB) @25C0.000005 µA
Common-mode Reject Ratio-Min77dB
Common-mode Reject Ratio-Nom100dB
Frequency CompensationYES
Input Offset Current-Max (IIO)0.00005 µA
Input Offset Voltage-Max4200 µV
JESD-30 CodeR-PDSO-G14
JESD-609 Codee4
Low-BiasYES
Low-OffsetNO
MicropowerNO
Number of Functions4
Package Body MaterialPLASTIC/EPOXY
Package Equivalence CodeTSSOP14,.25
Package ShapeRECTANGULAR
Package StyleSMALL OUTLINE, THIN PROFILE, SHRINK PITCH
Packing MethodTR
Peak Reflow Temperature (Cel)260
PowerNO
Programmable PowerNO
Qualification StatusNot Qualified
Slew Rate-Min6V/us
Slew Rate-Nom6V/us
SubcategoryOperational Amplifier
Supply Current-Max4mA
Supply Voltage Limit-Max6V
Supply Voltage-Nom (Vsup)5V
Surface MountYES
TechnologyCMOS
Temperature GradeAUTOMOTIVE
Terminal FinishNickel/Palladium/Gold (Ni/Pd/Au)
Terminal FormGULL WING
Terminal Pitch0.65mm
Terminal PositionDUAL
Time@Peak Reflow Temperature-Max (s)30
Unity Gain BW-Nom9000
Voltage Gain-Min12600
WidebandNO
PackageSmall Outline Packages

Compliance & Regulatory

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

Datasheet

TLV2634IPWR Datasheet Download

Official datasheet from Texas Instruments

Alternate & Equivalent Parts

No known alternates. Submit an RFQ and our team can suggest alternatives.

Frequently Asked Questions

What is the gain-bandwidth product and supply current of the TLV2634IPWR?

The TLV2634IPWR has a gain-bandwidth product of 9 MHz and a supply current of 1 mA per channel. This combination makes it suitable for moderate-speed signal processing tasks such as active filters, audio amplification, and sensor signal conditioning, while maintaining reasonable power consumption in battery-operated or power-sensitive applications.

How low is the input bias current of the TLV2634IPWR?

The TLV2634IPWR has an input bias current of just 5 pA at 25°C and a maximum average bias current of 0.2 pA. These extremely low values make it ideal for high-impedance applications such as photodiode amplifiers, pH electrode buffers, and charge amplifiers, where even small bias currents would cause significant voltage error at the input.

What does 'RRO' mean for the TLV2634IPWR?

RRO stands for Rail-to-Rail Output. The TLV2634IPWR's output voltage can swing very close to both the positive and negative supply rails, maximizing the usable dynamic range in low-voltage single-supply systems. This is especially important in 3.3 V and 5 V signal chains where headroom is limited and full-scale output swing is required.

What package does the TLV2634IPWR use?

The TLV2634IPWR comes in a TSSOP (Thin Shrink Small Outline Package) with multiple pins accommodating the quad op-amp configuration. The 'PW' suffix in the part number denotes the TSSOP package, which has a smaller footprint and lower profile compared to standard SOIC, making it well-suited for densely populated PCBs in portable and compact instrumentation.

What is the CMRR of the TLV2634IPWR and why does it matter?

The TLV2634IPWR has a minimum CMRR of 77 dB and a typical CMRR of 100 dB. High CMRR is critical in differential measurement systems and instrumentation amplifiers, where common-mode noise from power supply hum, electromagnetic interference, or ground potential differences must be rejected while the desired differential signal is accurately amplified.

Related Guides

AD1836AASZ Multichannel Audio Codec Design Guide for AVR/DSP Integration

Complete application note for the AD1836AASZ 24-bit multichannel audio codec: I2S/TDM serial mode selection, MCLK jitter budget, power supply layout, and AVR/DSP integration.

May 25, 2026

CDCE913PWR vs CDCE925PWR vs CDCE906: Which TI Clock Synthesizer Is Right for Your Design?

Compare the TI CDCE913PWR, CDCE925PWR, and CDCE906 programmable clock synthesizers across PLL count, output channels, EMI spread-spectrum, power, and cost.

May 25, 2026

TPS613222ADBVR Boost Converter Design Guide: Battery-Powered 3.3 V Rail

Design a stable 3.3 V or 5 V boost rail with the TPS613222ADBVR: input/output capacitor sizing, inductor selection, and low-EMI PCB layout for portable battery-powered devices.

May 24, 2026

OPA4277MDTEP Precision Instrumentation Amp Design Guide

Circuit techniques for OPA4277MDTEP precision op-amp: instrumentation amp front-ends, low-side current sensing, photodiode TIA, and thermocouple amplifiers.

May 24, 2026

Why Buy from FindMyChip

Authorized Source
Verified supply chain with full traceability & inspection
$
Competitive Pricing
Factory-direct from China distributors, low MOQ
Fast Shipping
DHL Express 3–5 days · FedEx/UPS 5–7 days worldwide
Quality Guaranteed
30-day replacement for defective parts, no questions asked

About Texas Instruments

Texas Instruments (TI) is a global semiconductor company headquartered in Dallas, Texas. TI designs and manufactures analog and embedded processing chips used in industrial, automotive, consumer, communications, and enterprise systems.

View all Texas Instruments parts →
AvailabilityIn Stock
Reference Price (USD)
Contact for Price
Buy from 1pc · Factory-direct pricing
pcs

In Stock · 24h Response · Worldwide Shipping

Direct Contact
WhatsApp InquiryEmail RFQ
Lead Time3-7 business days
MOQFrom 1 piece
ShippingDHL / FedEx / UPS
OriginChina (Authorized)

Response within 24 hours · Worldwide shipping

Response time is incredible — usually under 4 hours. They understand that production lines can't wait.

JW
James Wright
Supply Chain Director, CircuitPro Ltd, UK