Product details

Number of channels (#) 2 Total supply voltage (Max) (+5V=5, +/-5V=10) 40 Total supply voltage (Min) (+5V=5, +/-5V=10) 4 Vos (offset voltage @ 25 C) (Max) (mV) 0.6 GBW (Typ) (MHz) 1.7 Slew rate (Typ) (V/us) 0.5 Rail-to-rail In to V- Offset drift (Typ) (uV/C) 2 Iq per channel (Typ) (mA) 0.225 Vn at 1 kHz (Typ) (nV/rtHz) 17 CMRR (Typ) (dB) 100 Rating Automotive Operating temperature range (C) -55 to 125 Input bias current (Max) (pA) 70000 Output current (Typ) (mA) 3 Architecture Bipolar
Number of channels (#) 2 Total supply voltage (Max) (+5V=5, +/-5V=10) 40 Total supply voltage (Min) (+5V=5, +/-5V=10) 4 Vos (offset voltage @ 25 C) (Max) (mV) 0.6 GBW (Typ) (MHz) 1.7 Slew rate (Typ) (V/us) 0.5 Rail-to-rail In to V- Offset drift (Typ) (uV/C) 2 Iq per channel (Typ) (mA) 0.225 Vn at 1 kHz (Typ) (nV/rtHz) 17 CMRR (Typ) (dB) 100 Rating Automotive Operating temperature range (C) -55 to 125 Input bias current (Max) (pA) 70000 Output current (Typ) (mA) 3 Architecture Bipolar
SOIC (D) 8 19 mm² 3.91 x 4.9
  • Supply Current . . . 300 µA Max
  • High Unity-Gain Bandwidth . . . 2 MHz Typ
  • High Slew Rate . . . 0.45 V/µs Min
  • Supply-Current Change Over Military Temp
    Range . . . 10 µA Typ at VCC ± = ± 15 V
  • Specified for Both 5-V Single-Supply and ±15-V Operation
  • Phase-Reversal Protection
  • High Open-Loop Gain . . . 6.5 V/µV (136 dB) Typ
  • Low Offset Voltage . . . 100 µV Max
  • Offset Voltage Drift With Time
    0.005 µV/mo Typ
  • Low Input Bias Current . . . 50 nA Max
  • Low Noise Voltage . . . 19 nV/√Hz Typ

All trademarks are the property of their respective owners.

  • Supply Current . . . 300 µA Max
  • High Unity-Gain Bandwidth . . . 2 MHz Typ
  • High Slew Rate . . . 0.45 V/µs Min
  • Supply-Current Change Over Military Temp
    Range . . . 10 µA Typ at VCC ± = ± 15 V
  • Specified for Both 5-V Single-Supply and ±15-V Operation
  • Phase-Reversal Protection
  • High Open-Loop Gain . . . 6.5 V/µV (136 dB) Typ
  • Low Offset Voltage . . . 100 µV Max
  • Offset Voltage Drift With Time
    0.005 µV/mo Typ
  • Low Input Bias Current . . . 50 nA Max
  • Low Noise Voltage . . . 19 nV/√Hz Typ

All trademarks are the property of their respective owners.

The TLE202x, TLE202xA, and TLE202xB devices are precision, high-speed, low-power operational amplifiers using a new Texas Instruments Excalibur process. These devices combine the best features of the OP21 with highly improved slew rate and unity-gain bandwidth.

The complementary bipolar Excalibur process utilizes isolated vertical pnp transistors that yield dramatic improvement in unity-gain bandwidth and slew rate over similar devices.

The addition of a bias circuit in conjunction with this process results in extremely stable parameters with both time and temperature. This means that a precision device remains a precision device even with changes in temperature and over years of use.

This combination of excellent dc performance with a common-mode input voltage range that includes the negative rail makes these devices the ideal choice for low-level signal conditioning applications in either single-supply or split-supply configurations. In addition, these devices offer phase-reversal protection circuitry that eliminates an unexpected change in output states when one of the inputs goes below the negative supply rail.

A variety of available options includes small-outline and chip-carrier versions for high-density systems applications.

The C-suffix devices are characterized for operation from 0°C to 70°C. The I-suffix devices are characterized for operation from –40°C to 85°C. The M-suffix devices are characterized for operation over the full military temperature range of –55°C to 125°C.

The TLE202x, TLE202xA, and TLE202xB devices are precision, high-speed, low-power operational amplifiers using a new Texas Instruments Excalibur process. These devices combine the best features of the OP21 with highly improved slew rate and unity-gain bandwidth.

The complementary bipolar Excalibur process utilizes isolated vertical pnp transistors that yield dramatic improvement in unity-gain bandwidth and slew rate over similar devices.

The addition of a bias circuit in conjunction with this process results in extremely stable parameters with both time and temperature. This means that a precision device remains a precision device even with changes in temperature and over years of use.

This combination of excellent dc performance with a common-mode input voltage range that includes the negative rail makes these devices the ideal choice for low-level signal conditioning applications in either single-supply or split-supply configurations. In addition, these devices offer phase-reversal protection circuitry that eliminates an unexpected change in output states when one of the inputs goes below the negative supply rail.

A variety of available options includes small-outline and chip-carrier versions for high-density systems applications.

The C-suffix devices are characterized for operation from 0°C to 70°C. The I-suffix devices are characterized for operation from –40°C to 85°C. The M-suffix devices are characterized for operation over the full military temperature range of –55°C to 125°C.

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Technical documentation

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Type Title Date
* Data sheet Excalibur High-Speed Low-Power Precision Operational Amplifiers. datasheet (Rev. D) 24 Nov 2010
* SMD TLE2022M SMD 5962-90881 21 Jun 2016
E-book The Signal e-book: A compendium of blog posts on op amp design topics 28 Mar 2017
Application note TLE202x EMI Immunity Performance (Rev. A) 05 Nov 2012

Design & development

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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 (...)

User guide: PDF
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Simulation model

TLE2021 PSpice Model (Rev. A)

SGLM033A.ZIP (15 KB) - PSpice Model
Simulation model

TLE2021 TINA-TI Reference Design (Rev. A)

SGLM031A.TSC (317 KB) - TINA-TI Reference Design
Simulation model

TLE2021 TINA-TI Spice Model (Rev. A)

SGLM032A.ZIP (9 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 (...)
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Calculation tool

OPAMP-NOISECALC — Noise Calculator, Generator and Examples

This folder contains three tools to help in understandning and managing noise in cicuits. The included tools are:
  • A noise generator tool - This is a Lab View 4-Run Time executable that generates Gaussian white noise, uniform white noise, 1/f noise, short noise, and 60Hz line noise. Temporal data, (...)
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
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