TLV9062

ACTIVE

Dual, 5.5-V, 10-MHz operational amplifier

Product details

Number of channels 2 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 5.5 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 1.8 Rail-to-rail In, Out GBW (typ) (MHz) 10 Slew rate (typ) (V/µs) 6.5 Vos (offset voltage at 25°C) (max) (mV) 1.6 Iq per channel (typ) (mA) 0.538 Vn at 1 kHz (typ) (nV√Hz) 16 Rating Catalog Operating temperature range (°C) -40 to 125 Offset drift (typ) (µV/°C) 0.53 Features Cost Optimized, EMI Hardened, Shutdown, Small Size CMRR (typ) (dB) 103 Iout (typ) (A) 0.05 Architecture CMOS Input common mode headroom (to negative supply) (typ) (V) -0.1 Input common mode headroom (to positive supply) (typ) (V) 0.1 Output swing headroom (to negative supply) (typ) (V) 0.02 Output swing headroom (to positive supply) (typ) (V) -0.02
Number of channels 2 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 5.5 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 1.8 Rail-to-rail In, Out GBW (typ) (MHz) 10 Slew rate (typ) (V/µs) 6.5 Vos (offset voltage at 25°C) (max) (mV) 1.6 Iq per channel (typ) (mA) 0.538 Vn at 1 kHz (typ) (nV√Hz) 16 Rating Catalog Operating temperature range (°C) -40 to 125 Offset drift (typ) (µV/°C) 0.53 Features Cost Optimized, EMI Hardened, Shutdown, Small Size CMRR (typ) (dB) 103 Iout (typ) (A) 0.05 Architecture CMOS Input common mode headroom (to negative supply) (typ) (V) -0.1 Input common mode headroom (to positive supply) (typ) (V) 0.1 Output swing headroom (to negative supply) (typ) (V) 0.02 Output swing headroom (to positive supply) (typ) (V) -0.02
SOIC (D) 8 29.4 mm² 4.9 x 6 SOT-23-THN (DDF) 8 8.12 mm² 2.9 x 2.8 TSSOP (PW) 8 19.2 mm² 3 x 6.4 VSSOP (DGK) 8 14.7 mm² 3 x 4.9 VSSOP (DGS) 10 14.7 mm² 3 x 4.9 WSON (DSG) 8 4 mm² 2 x 2 X2QFN (RUG) 10 3 mm² 1.5 x 2
  • Rail-to-rail input and output
  • Low input offset voltage: ±0.3 mV
  • Unity-gain bandwidth: 10 MHz
  • Low broadband noise: 10 nV/√Hz
  • Low input bias current: 0.5 pA
  • Low quiescent current: 538 µA
  • Unity-gain stable
  • Internal RFI and EMI filter
  • Operational at supply voltages as low as 1.8 V
  • Easier to stabilize with higher capacitive load due to resistive open-loop output impedance
  • Shutdown version: TLV906xS
  • Extended temperature range: –40°C to 125°C
  • Rail-to-rail input and output
  • Low input offset voltage: ±0.3 mV
  • Unity-gain bandwidth: 10 MHz
  • Low broadband noise: 10 nV/√Hz
  • Low input bias current: 0.5 pA
  • Low quiescent current: 538 µA
  • Unity-gain stable
  • Internal RFI and EMI filter
  • Operational at supply voltages as low as 1.8 V
  • Easier to stabilize with higher capacitive load due to resistive open-loop output impedance
  • Shutdown version: TLV906xS
  • Extended temperature range: –40°C to 125°C

The TLV9061 (single), TLV9062 (dual), and TLV9064 (quad) are single-, dual-, and quad- low-voltage (1.8 V to 5.5 V) operational amplifiers (op amps) with rail-to-rail input- and output-swing capabilities. These devices are highly cost-effective solutions for applications where low-voltage operation, a small footprint, and high capacitive load drive are required. Although the capacitive load drive of the TLV906x is 100 pF, the resistive open-loop output impedance makes stabilizing with higher capacitive loads simpler. These op amps are designed specifically for low-voltage operation (1.8 V to 5.5 V) with performance specifications similar to the OPAx316 and TLVx316 devices.

The TLV906xS devices include a shutdown mode that allow the amplifiers to switch into standby mode with typical current consumption less than 1 µA.

The TLV906xS family helps simplify system design, because the family is unity-gain stable, integrates the RFI and EMI rejection filter, and provides no phase reversal in overdrive condition.

Micro size packages, such as X2SON and X2QFN, are offered for all the channel variants (single, dual and quad), along with industry-standard packages, such as SOIC, MSOP, SOT-23, and TSSOP.

The TLV9061 (single), TLV9062 (dual), and TLV9064 (quad) are single-, dual-, and quad- low-voltage (1.8 V to 5.5 V) operational amplifiers (op amps) with rail-to-rail input- and output-swing capabilities. These devices are highly cost-effective solutions for applications where low-voltage operation, a small footprint, and high capacitive load drive are required. Although the capacitive load drive of the TLV906x is 100 pF, the resistive open-loop output impedance makes stabilizing with higher capacitive loads simpler. These op amps are designed specifically for low-voltage operation (1.8 V to 5.5 V) with performance specifications similar to the OPAx316 and TLVx316 devices.

The TLV906xS devices include a shutdown mode that allow the amplifiers to switch into standby mode with typical current consumption less than 1 µA.

The TLV906xS family helps simplify system design, because the family is unity-gain stable, integrates the RFI and EMI rejection filter, and provides no phase reversal in overdrive condition.

Micro size packages, such as X2SON and X2QFN, are offered for all the channel variants (single, dual and quad), along with industry-standard packages, such as SOIC, MSOP, SOT-23, and TSSOP.

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Technical documentation

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Type Title Date
* Data sheet TLV906xS 10-MHz, RRIO, CMOS Operational Amplifiers for Cost-Sensitive Systems datasheet (Rev. J) PDF | HTML 16 Sep 2019
Circuit design Low-noise and long-range PIR sensor conditioner circuit (Rev. A) 29 Jan 2024
Application note Designing for TLV90xxS Operational Amplifiers With Shutdown (Rev. B) PDF | HTML 08 Jun 2022
Technical article Designing with low-power op amps, part 4: Stability concerns and solutions PDF | HTML 08 Mar 2022
Circuit design Inverting Amplifier With T-Network Feedback Circuit (Rev. A) PDF | HTML 15 Feb 2022
Application note Low-Side Current Shunt Op-Amp Circuit to 3-V Single-Ended ADC for Cost-Optimized (Rev. A) 29 Sep 2021
Application note Voltage-to-current (V-I) converter circuit with MOSFET (Rev. A) PDF | HTML 20 Aug 2021
User guide SMALL-AMP-DIP Evaluation Module (EVM) (Rev. A) 30 Jul 2021
Circuit design Circuit to measure multiple redundant source currents with singled-ended signal PDF | HTML 28 Jun 2021
Circuit design Single-supply, 2nd-order, Sallen-Key high-pass filter circuit PDF | HTML 28 Jun 2021
Circuit design Single-supply, 2nd-order, Sallen-Key low-pass filter circuit PDF | HTML 28 Jun 2021
Circuit design Single-supply, 2nd-order, multiple feedback band-pass filter circuit PDF | HTML 28 Jun 2021
Circuit design Single-supply, 2nd-order, multiple feedback high-pass filter circuit PDF | HTML 28 Jun 2021
Circuit design Single-supply, 2nd-order, multiple feedback low-pass filter circuit PDF | HTML 28 Jun 2021
Circuit design Single-supply, high-input voltage, full-wave rectifier circuit PDF | HTML 13 Apr 2021
Application note AN-31 Amplifier Circuit Collection (Rev. D) 21 Oct 2020
Technical article Taking the family-first approach to op amp selection PDF | HTML 18 Oct 2019
Application brief Using an Operational Amplifier as a Low Cost Multiplexer (Rev. A) 09 Apr 2019
Circuit design Inverting op amp with inverting positive reference voltage circuit (Rev. A) 04 Feb 2019
Circuit design AC coupled (HPF) non-inverting amplifier circuit (Rev. A) 01 Feb 2019
Application note Do You Really Need Rail-to-Rail Input Amplifiers? 02 Jan 2019
Analog Design Journal Second-sourcing options for small-package amplifiers 26 Mar 2018
Technical article Low-side current sensing for high-performance cost-sensitive applications PDF | HTML 22 Jan 2018
Technical article Do-it-yourself: Three ways to stabilize op amp capacitive loads PDF | HTML 01 Aug 2017
Circuit design Single-supply, 2nd-order, Sallen-Key band-pass filter circuit PDF | HTML 29 Jun 2017
E-book The Signal e-book: A compendium of blog posts on op amp design topics 28 Mar 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 evaluation module (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 (...)

User guide: PDF
Not available on TI.com
Evaluation board

DUAL-DIYAMP-EVM — Dual-channel universal do-it-yourself (DIY) amplifier circuit evaluation module

The DUAL-DIYAMP-EVM is an evaluation module (EVM) family that provides engineers and do it yourselfers (DIYers) with real-world amplifier circuits, enabling quick evaluation of design concepts and verify simulations. It is designed specifically for dual package op amps in the (...)

User guide: PDF
Not available on TI.com
Evaluation board

SMALL-AMP-DIP-EVM — Evaluation module for operational amplifiers with small-size packages

The SMALL-AMP-DIP-EVM speeds up small-package operational-amplifier prototyping by providing a fast and easy way to interface with many industry-standard small-size packages. SMALL-AMP-DIP-EVM supports eight small package options including DPW-5 (X2SON), DSG-8 (WSON), DCN-8 (SOT), DDF-8 (...)

User guide: PDF
Not available on TI.com
Simulation model

Collection of test circuits in TINA-TI to accompany AN1516 (Rev. A)

SBOMBI0A.ZIP (1293 KB) - TINA-TI Reference Design
Simulation model

TLV9062 PSpice Model (Rev. E)

SBOMAG1E.ZIP (22 KB) - PSpice Model
Simulation model

TLV9062 TINA-TI Reference Design (Rev. C)

SBOMAG2C.ZIP (38 KB) - TINA-TI Reference Design
Simulation model

TLV9062 TINA-TI SPICE Model (Rev. C)

SBOMAC9C.ZIP (4 KB) - TINA-TI Spice Model
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 operational-amplifier (...)
Design tool

CIRCUIT060004 — Low-noise and long-range PIR sensor conditioner circuit

This two stage amplifier design amplifies and filters the signal from a passive infrared (PIR) sensor. The circuit includes multiple low–pass and high–pass filters to reduce noise at the output of the circuit to be able to detect motion at long distances and reduce false triggers. This (...)
Design tool

CIRCUIT060007 — Low-side bidirectional current-sensing circuit

This single-supply, low-side, bidirectional, current-sensing solution can accurately detect load currents from –1 A to 1 A. The linear range of the output is from 110 mV to 3.19 V. Low-side current sensing keeps the common-mode voltage near ground, and is thus most useful in applications with (...)
User guide: PDF
Design tool

CIRCUIT060011 — Single-supply, second-order, multiple feedback high-pass filter circuit

The multiple-feedback (MFB) high-pass (HP) filter is a 2nd-order active filter. Vref provides a DC offset to accommodate for single-supply applications. This HP filter inverts the signal (Gain = –1 V/V) for frequencies in the pass band. An MFB filter is preferable when the gain is high or (...)
Design tool

CIRCUIT060012 — Single-supply, 2nd-order, multiple feedback low-pass filter circuit

The multiple-feedback (MFB) low-pass filter (LP filter) is a second-order active filter. Vref provides a DC offset to accommodate for single-supply applications. This LP filter inverts the signal (Gain = –1 V/V) for frequencies in the pass band. An MFB filter is preferable when the gain is (...)
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

CIRCUIT060014 — Voltage-to-current (V-I) converter circuit with MOSFET

This single-supply, low-side, V-I converter delivers a well-regulated current to a load which can be connected to a voltage greater than the op amp supply voltage. The circuit accepts an input voltage between 0 V and 2 V and converts it to a current between 0 mA and 100 mA. The current is (...)
User guide: PDF
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

CIRCUIT060049 — AC coupled non-inverting amplifier circuit

This circuit amplifies an AC signal, and shifts the output signal so that it is centered at one-half the power supply voltage. Note that the input signal has zero DC offset so it swings above and below ground. The key benefit of this circuit is that it accepts signals which swing below ground even (...)
Design tool

CIRCUIT060053 — High-pass Sallen-Key filter circuit

The Butterworth Sallen-Key (SK) high-pass (HP) filter is a 2nd-order active filter. Vref provides a DC offset to accommodate for single-supply applications. An SK filter is usually preferred when small Q factor is desired, noise rejection is prioritized and when a non-inverting gain of the filter (...)
Design tool

CIRCUIT060054 — Low-pass Sallen-Key filter circuit

The Butterworth Sallen-Key low-pass filter is a second-order active filter. Vref provides a DC offset to accommodate for single-supply applications. A Sallen-Key filter is usually preferred when small Q factor is desired, noise rejection is prioritized and when a non-inverting gain of the filter (...)
Design tool

CIRCUIT060055 — Multiple feedback band-pass filter circuit

This circuit is a 2nd-order multiple feedback (MFB) band-pass (BP) filter. This BP filter is created by cascading a low-pass and a high-pass filter. Vref provides a DC offset to accommodate for single-supply applications.
Design tool

CIRCUIT060056 — Band-pass Sallen-Key filter circuit

This circuit is a single-supply, 2nd-order Sallen-Key (SK) band-pass (BP) filter. It is designed by cascading an SK low-pass filter and an SK high-pass filter. Vref provides a DC offset to accommodate for a single supply.
Design tool

CIRCUIT060060 — Single-supply, high-input voltage, full-wave rectifier circuit

This single-supply precision full-wave rectifier is optimized for high-input voltages. When Vi > 0 V, D1 is reverse biased and the top part of the circuit, U1, is activated resulting in a circuit with a gain of 1 V/V. When Vi < 0 V, D1 is forward biased and the bottom part of the circuit, U2, is (...)
User guide: PDF
Design tool

CIRCUIT060062 — Inverting op amp with inverting positive reference voltage circuit

This design uses an inverting amplifier with an inverting positive reference to translate an input signal of –5 V to –1 V to an output voltage of 3.3 V to 0.05 V. This circuit can be used to translate a negative sensor output voltage to a usable ADC input voltage range.
Design tool

CIRCUIT060074 — High-side current sensing with comparator circuit

This high-side, current sensing solution uses one comparator with a rail-to-rail input common mode range to create an over-current alert (OC-Alert) signal at the comparator output (COMP OUT) if the load current rises above 1 A. The OC-Alert signal in this implementation is active low. So when the (...)
Design tool

SBOC500 Simulation for Low-Side Bidirectional Current-Sensing Circuit

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
OPA313 Single, 5.5-V, 1-MHz, low quiescent current (50-μA), RRIO operational amplifier TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Precision op amps (Vos<1mV)
OPA376 Precision (0.025mV), low noise (7.5nV/rtHz), low quiescent current (760uA) op amp
Hardware development
Design tool
CIRCUIT060007 Low-side bidirectional current-sensing circuit
Design tool

SBOC505 Simulation for AC Coupled (HPF) Non-Inverting Amplifier

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Precision op amps (Vos<1mV)
OPA192 High-Voltage, Rail-to-Rail Input/Output, 5µV, 0.2µV/˚C, Precision Operational Amplifier
Hardware development
Design tool
CIRCUIT060049 AC coupled non-inverting amplifier circuit
Design tool

SBOC511 Simulation for Inverting Op Amp With Inverting Positive Reference

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Precision op amps (Vos<1mV)
OPA197 Single, 36-V, precision, rail-to-rail input output, low offset voltage op amp
Hardware development
Design tool
CIRCUIT060062 Inverting op amp with inverting positive reference voltage circuit
Design tool

SBOC523 Simulation for Single-Supply Low-Side Unidirectional Current-Sense Circuit

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
OPA375 OPAx375, 500uV, 10-MHz, Low Broadband Noise, RRO, Operational Amplifier TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Hardware development
Design tool
CIRCUIT060001 Single-supply, low-side, unidirectional current-sensing circuit CIRCUIT060052 Low-pass filtered, inverting amplifier circuit
Design tool

SBOC524 Simulation for Low-noise and Long-Range PIR Sensor Conditioner Circuit

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Hardware development
Design tool
CIRCUIT060004 Low-noise and long-range PIR sensor conditioner circuit
Design tool

SBOC529 Simulation for Single-Supply High-Input Voltage Full-Wave Rectifier Circuit

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
OPA353 Single, 5.5-V, 44-MHz, low noise (7-nV/√Hz), RRIO operational amplifier TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Precision op amps (Vos<1mV)
OPA350 Single, single-supply, rail-to-rail, high speed, low noise operational amplifier
Hardware development
Design tool
CIRCUIT060060 Single-supply, high-input voltage, full-wave rectifier circuit
Design tool

SBOC530 Simulation for Non-Inverting Amplifier in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC538 Simulation for Practical Differentiator in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC548 Simulation for Sine Wave Generator with Low Component Count in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC550 Simulation for Free-Running Multivibrator in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC551 Simulation for Function Generator in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC562 Simulation for Voltage-to-Current Converter with MOSFET Output in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC569 Simulation for Precision Clamp in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC572 Simulation for Peak Detector in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC579 Simulation for Two-Stage Capacitance Multiplier in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC580 Simulation for Simulated Inductor in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC581 Simulation for Capacitance Multiplier in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC587 Simulation for Fast Zero Crossing Detector in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC590 Simulation for Photodiode Amplifier I in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
Design tool

SBOC591 Simulation for Photodiode Amplifier II in AN-31

Supported products & hardware

Supported products & hardware

Products
General-purpose op amps
TLV9062 Dual, 5.5-V, 10-MHz operational amplifier
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 (...)
User guide: PDF

Many TI reference designs include the TLV9062

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Package Pins CAD symbols, footprints & 3D models
SOIC (D) 8 Ultra Librarian
SOT-23-THN (DDF) 8 Ultra Librarian
TSSOP (PW) 8 Ultra Librarian
VSSOP (DGK) 8 Ultra Librarian
VSSOP (DGS) 10 Ultra Librarian
WSON (DSG) 8 Ultra Librarian
X2QFN (RUG) 10 Ultra Librarian

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