TLE2024AMJB Texas Instruments Integrated Circuit (Ceramic Dual-In-Line Packages) In Stock

Texas Instruments TLE2024AMJB is a quad precision operational amplifier with 115 dB typical common-mode rejection ratio, 70 nA maximum bias current, and 6 nA input offset current in a ceramic DIP-14 package for high-reliability applications. Its voltage-feedback architecture delivers low noise suitable for precision instrumentation amplifiers and data-acquisition front-ends. Available from stock worldwide for military and industrial precision signal-chain designs.

ACTIVEIntegrated CircuitVerified Jun 2026
Package / Visual Reference
TLE2024AMJBCeramic Dual-In-Line Packages
Quick Facts
Manufacturer
Texas Instruments
Package
Ceramic Dual-In-Line Packages
Pin Count
14
Lifecycle
ACTIVE
Category
Integrated Circuit
Temp Range
-55.0°C to 125.0°C
RoHS
Compliant
Lead Time
3–7 business days
Shipping
DHL Express · Worldwide

Key Features

  • Quad precision op-amp with 115 dB typical CMRR and 100 dB minimum CMRR, enabling accurate differential signal amplification in noisy industrial and military sensor environments
  • Ultra-low 70 nA maximum input bias current and 6 nA input offset current minimise voltage error in high-impedance sensor interfaces such as pH electrodes and piezoelectric transducer amplifiers
  • Ceramic DIP-14 hermetic package passes MIL-STD-883 screening requirements, ensuring long-term reliability in aerospace, defence, and downhole instrumentation applications over −55°C to 125°C

Applications

The TLE2024AMJB is used in precision data-acquisition systems, instrumentation amplifier stages, and active filter circuits where low offset current (6 nA), high CMRR (115 dB), and ceramic hermetic packaging are required for military, aerospace, and industrial measurement applications. Its quad configuration allows a single device to implement a complete 4-channel differential signal conditioning chain, reducing board real estate and component count in rack-mount test instruments and airborne avionics signal processors.

Specifications

Pbfree CodeYes
YTEOL15
Amplifier TypeOPERATIONAL AMPLIFIER
ArchitectureVOLTAGE-FEEDBACK
Average Bias Current-Max (IIB)0.09 µA
Bias Current-Max (IIB) @25C0.07 µA
Common-mode Reject Ratio-Min100dB
Common-mode Reject Ratio-Nom115dB
Frequency CompensationYES
Input Offset Current-Max (IIO)0.006 µA
Input Offset Voltage-Max850 µV
JESD-30 CodeR-GDIP-T14
JESD-609 Codee0
Low-BiasNO
Low-OffsetYES
MicropowerYES
Neg Supply Voltage Limit-Max-20 V
Neg Supply Voltage-Nom (Vsup)-15 V
Number of Functions4
Package Body MaterialCERAMIC, GLASS-SEALED
Package Equivalence CodeDIP16,.3
Package ShapeRECTANGULAR
Package StyleIN-LINE
Packing MethodTUBE
PowerNO
Programmable PowerNO
Qualification StatusNot Qualified
Screening LevelMIL-STD-883
Slew Rate-Min0.45V/us
Slew Rate-Nom0.5V/us
SubcategoryOperational Amplifier
Supply Current-Max1.2mA
Supply Voltage Limit-Max20V
Supply Voltage-Nom (Vsup)15V
Surface MountNO
TechnologyBIPOLAR
Temperature GradeMILITARY
Terminal FinishTin/Lead (Sn/Pb)
Terminal FormTHROUGH-HOLE
Terminal Pitch2.54mm
Terminal PositionDUAL
Unity Gain BW-Nom1700
Voltage Gain-Min100000
WidebandNO
PackageCeramic Dual-In-Line Packages

Compliance & Regulatory

RoHS StatusCompliant
Lead-FreeYes (Pb-Free)
ECCNEAR99
HTS Code8542.33.00.01

Datasheet

TLE2024AMJB Datasheet Download

Official datasheet from Texas Instruments

Alternate & Equivalent Parts

Compatible alternatives and drop-in replacements for TLE2024AMJB:

TLE2024BMJ

Rochester Electronics LLC QUAD OP-AMP, 700uV OFFSET-MAX, 2.8MHz BAND WIDTH, CDIP14, CERAMIC, DIP-14

View Part →

Frequently Asked Questions

What CMRR does the TLE2024AMJB achieve, and how does this benefit differential sensor measurements?

The TLE2024AMJB provides a minimum CMRR of 100 dB and a typical CMRR of 115 dB, meaning a 1 V common-mode noise signal appears as only 3 µV at the output. In a bridge sensor circuit measuring a 10 mV full-scale differential signal on a noisy industrial 50 Hz power supply line, the 100 dB CMRR suppresses mains interference by a factor of 100,000, maintaining signal integrity without external filtering.

Why is the 70 nA bias current specification of TLE2024AMJB important for high-impedance sensor interfaces?

With a maximum input bias current of 70 nA and a 10 MΩ source impedance, the bias current generates only 0.7 mV of voltage error at the amplifier input. For pH electrodes with source impedances up to 100 MΩ, the 6 nA input offset current specification limits offset error to below 0.6 mV, which is critical for maintaining measurement accuracy better than 0.01 pH units in analytical chemistry instruments.

For which package and temperature range should the TLE2024AMJB be selected over a commercial-grade quad op-amp?

The TLE2024AMJB is supplied in a ceramic DIP-14 hermetic package rated over the full military temperature range of −55°C to 125°C, compared to plastic SOIC packages typically rated only to 85°C. Select the TLE2024AMJB when designs must pass MIL-STD-883 environmental screening, such as avionics black boxes, satellite payload amplifiers, or downhole oil-well logging instruments that experience thermal cycling beyond the −40°C to 125°C industrial range.

Related Guides

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.

AvailabilityIn Stock
Reference Price (USD)
Contact for Price
Buy from 1pc · Factory-direct pricing
pcs

In Stock · 24h Response · Worldwide Shipping

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