Product details

Number of channels (#) 1 Total supply voltage (Max) (+5V=5, +/-5V=10) 5.5 Total supply voltage (Min) (+5V=5, +/-5V=10) 2.25 Rail-to-rail Out GBW (Typ) (MHz) 10 Slew rate (Typ) (V/us) 4.75 Vos (offset voltage @ 25 C) (Max) (mV) 1 Iq per channel (Typ) (mA) 0.85 Vn at 1 kHz (Typ) (nV/rtHz) 5 Rating Catalog Operating temperature range (C) -40 to 125 Offset drift (Typ) (uV/C) 0.35 Features Cost Optimized, EMI Hardened CMRR (Typ) (dB) 120 Output current (Typ) (mA) 50 Architecture CMOS
Number of channels (#) 1 Total supply voltage (Max) (+5V=5, +/-5V=10) 5.5 Total supply voltage (Min) (+5V=5, +/-5V=10) 2.25 Rail-to-rail Out GBW (Typ) (MHz) 10 Slew rate (Typ) (V/us) 4.75 Vos (offset voltage @ 25 C) (Max) (mV) 1 Iq per channel (Typ) (mA) 0.85 Vn at 1 kHz (Typ) (nV/rtHz) 5 Rating Catalog Operating temperature range (C) -40 to 125 Offset drift (Typ) (uV/C) 0.35 Features Cost Optimized, EMI Hardened CMRR (Typ) (dB) 120 Output current (Typ) (mA) 50 Architecture CMOS
SOT-SC70 (DCK) 5 4 mm² 2 x 2.1
  • Low broadband noise: 3.5 nV/√Hz
  • Gain bandwidth: 10 MHz
  • Low input bias current: ±3 pA
  • Low offset voltage: 0.15 mV
  • Low offset voltage drift: ±0.2 µV/°C
  • Rail-to-rail output
  • Unity-gain stable
  • Low IQ:
    • TLV6741: 890 µA/ch
    • TLV6742/4: 990 µA/ch
  • Wide supply range:
    • TLV6741: 2.25 V to 5.5 V
    • TLV6742/4: 1.7 V to 5.5 V
  • Robust EMIRR performance: 71 dB at 2.4 GHz
  • Low broadband noise: 3.5 nV/√Hz
  • Gain bandwidth: 10 MHz
  • Low input bias current: ±3 pA
  • Low offset voltage: 0.15 mV
  • Low offset voltage drift: ±0.2 µV/°C
  • Rail-to-rail output
  • Unity-gain stable
  • Low IQ:
    • TLV6741: 890 µA/ch
    • TLV6742/4: 990 µA/ch
  • Wide supply range:
    • TLV6741: 2.25 V to 5.5 V
    • TLV6742/4: 1.7 V to 5.5 V
  • Robust EMIRR performance: 71 dB at 2.4 GHz

The TLV674x family includes single (TLV6741), dual (TLV6742), and quad-channel (TLV6744) general-purpose CMOS operational amplifiers (op amp) that provide a low noise figure of 3.5 nV/√Hz and a wide bandwidth of 10 MHz. The low noise and wide bandwidth make the TLV674x family of devices attractive for a variety of precision applications that require a good balance between cost and performance. Additionally, the input bias current of the TLV674x family supports applications with high source impedance.

The robust design of the TLV674x family provides ease-of-use to the circuit designer due to its unity-gain stability, integrated RFI/EMI rejection filter, no phase reversal in overdrive conditions and high electrostatic discharge (ESD) protection (2-kV HBM). Additionally, the resistive open-loop output impedance makes them easy to stabilize with much higher capacitive loads.

This op amp family is optimized for low-voltage operation as low as 2.25 V (±1.125 V) for the TLV6741 and 1.7 V (±0.85 V) for the TLV6742 and TLV6744. All of the devices operate up to 5.5 V (±2.75 V), and are specified over the temperature range of –40°C to 125°C.

The single-channel TLV6741 is available in a small-size SC70-5 package. The dual-channel TLV6742 is available in multiple package options including a tiny 1.5 mm × 2.0 mm X2QFN package.

The TLV674x family includes single (TLV6741), dual (TLV6742), and quad-channel (TLV6744) general-purpose CMOS operational amplifiers (op amp) that provide a low noise figure of 3.5 nV/√Hz and a wide bandwidth of 10 MHz. The low noise and wide bandwidth make the TLV674x family of devices attractive for a variety of precision applications that require a good balance between cost and performance. Additionally, the input bias current of the TLV674x family supports applications with high source impedance.

The robust design of the TLV674x family provides ease-of-use to the circuit designer due to its unity-gain stability, integrated RFI/EMI rejection filter, no phase reversal in overdrive conditions and high electrostatic discharge (ESD) protection (2-kV HBM). Additionally, the resistive open-loop output impedance makes them easy to stabilize with much higher capacitive loads.

This op amp family is optimized for low-voltage operation as low as 2.25 V (±1.125 V) for the TLV6741 and 1.7 V (±0.85 V) for the TLV6742 and TLV6744. All of the devices operate up to 5.5 V (±2.75 V), and are specified over the temperature range of –40°C to 125°C.

The single-channel TLV6741 is available in a small-size SC70-5 package. The dual-channel TLV6742 is available in multiple package options including a tiny 1.5 mm × 2.0 mm X2QFN package.

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Technical documentation

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Type Title Date
* Data sheet TLV6741, TLV6742, TLV6744 10-MHz, Low Broadband Noise, RRO, Operational Amplifier datasheet (Rev. I) 31 Aug 2021
Technical article What is an op amp? 21 Jan 2020
Application note Non-inverting microphone pre-amplifier circuit 30 Dec 2018
Application note TIA microphone amplifier circuit 30 Dec 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

Design & development

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

Evaluation board

DIP-ADAPTER-EVM — DIP adapter evaluation module

Speed up your op amp prototyping and testing with the DIP-Adapter-EVM, which provides a fast, easy and inexpensive way to interface with small, surface-mount ICs. You can connect any supported op amp using the included Samtec terminal strips or wire them directly to existing circuits.

The (...)

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Evaluation board

DIYAMP-EVM — Universal Do-It-Yourself (DIY) Amplifier Circuit Evaluation Module

The DIYAMP-EVM is a unique evaluation module (EVM) family that provides engineers and do it yourselfers (DIYers) with real-world amplifier circuits, enabling you to quickly evaluate design concepts and verify simulations. It is available in three industry-standard packages (SC70, SOT23, SOIC) and 12 (...)
Simulation model

TLV6741 TINA-TI SPICE Model (Rev. A)

SBOMAE1A.ZIP (45 KB) - TINA-TI Spice Model
Simulation model

TINA-TI Reference Design Companion for Non-inverting Microphone Pre-amp Circuit

SBOMAV1.ZIP (546 KB) - TINA-TI Reference Design
Simulation model

TINA-TI Reference Design Companion for TIA Microphone Amplifier Circuit

SBOMAV2.ZIP (550 KB) - TINA-TI Reference Design
Simulation model

TLV6742 PSpice Model (Rev. B)

SBOMB35B.ZIP (28 KB) - PSpice Model
Simulation tool

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

PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
Simulation tool

TINA-TI — SPICE-based analog simulation program

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.
Design tool

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

CIRCUIT060016 — Non-inverting microphone pre-amplifier circuit

This circuit uses a non–inverting amplifier circuit configuration to amplify the microphone output signal. This circuit has very good magnitude flatness and exhibits minor frequency response deviations over the audio frequency range. The circuit is designed to be operated from a single 5-V supply.
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SC70 (DCK) 5 View options

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