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OPA192IDBVR

High-Voltage, Rail-to-Rail Input/Output, 5µV, 0.2µV/°C, Precision Operational Amplifier 5-SOT-23 -40 to 125

Manufacturer Texas Instruments
Price Range $1.1300 / $2.8996

Part Details

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Distributors with Stock

Part Number Description Manufacturer Compare
OPA192IDBVT Amplifier Circuits High-Voltage, Rail-to-Rail Input/Output, 5µV, 0.2µV/°C, Precision Operational Amplifier 5-SOT-23 -40 to 125 Texas Instruments OPA192IDBVR vs OPA192IDBVT
Part Number Description Manufacturer Compare
OPA192IDBVT Amplifier Circuits High-Voltage, Rail-to-Rail Input/Output, 5µV, 0.2µV/°C, Precision Operational Amplifier 5-SOT-23 -40 to 125 Texas Instruments OPA192IDBVR vs OPA192IDBVT

Global Popularity

Popularity in Amplifier Circuits

Popularity in Operational Amplifiers

Popularity by Region

Very High

Medium

Good

Low

  • 1. United States
    100
  • 2. South Korea
    91
  • 3. Thailand
    91
  • 4. Poland
    84
  • 5. Brazil
    83
  • 6. Netherlands
    79
  • 7. Germany
    77
  • 8. United Kingdom
    77
  • 9. EUR
    77
  • 10. Finland
    77

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Newark element14 $1.1300 Buy Now
  • 2. Chip1Stop $1.5200 Buy Now
  • 3. Texas Instruments $2.0400 Buy Now
  • 4. Transfer Multisort Elektronik $2.4400 Buy Now
  • 5. Newark element14 $2.6800 Buy Now
  • 6. element14 Asia-Pacific $2.8151 Buy Now
  • 7. Farnell element14 $2.8996 Buy Now
  • 8. Farnell element14 $2.8996 Buy Now

Datasheets & Reference Designs

Reference Designs

  • TIPD151 16-bit 400KSPS 4-Ch. Multiplexed Data Acquisition Ref Design for High Voltage Inputs, Low Distortion | TI.com
    TIPD151: This TI Verified Design implements a 16-bit, differential 4-channel multiplexed data acquisition system at 400KSPS throughput for high voltage differential input of ±20 V (40 Vpk-pk) industrial applications. The circuit is realized with a 16-bit successive-approximation-resistor (SAR) analog-to-digital converter (ADC), a precision high voltage signal conditioning front end, and a 4-channel differential multiplexer (MUX). The design details the process for optimizing the precision high voltage front end drive circuit using the OPA192 and OPA140 to achieve excellent dynamic performance with the ADS8864.
  • Combined Voltage and Current Output Terminal for Analog Outputs (AO) in Industrial Applications
    TIPD119: This TI Verified Reference Design implements a combined voltage and current output terminal for analog outputs in industrial applications. The DAC8760 combined with the OPA192 create a combined voltage and current output that allows for a single two-terminal output connector for both the voltage and current outputs. The design features <0.1% total unadjusted error (TUE) for precision applications. The design is galvanically isolated from the backplane/host controller using the ISO7641FC digital isolator.
  • TIPD128 Capacitive Load Drive Verified Reference Design Using an Isolation Resistor | TI.com
    TIPD128: This TI Verified Design implements a variety of op amps driving capacitive loads from 100pF to 1uF using a isolation resistor. The OPA192 is highlighted due to its ability to drive large capacitive loads with small isolation resistors.
  • TIPD119 Combined Voltage and Current Output Terminal for Analog Outputs (AO) in Industrial Applications | TI.com
    TIPD119: This TI Verified Reference Design implements a combined voltage and current output terminal for analog outputs in industrial applications. The DAC8760 combined with the OPA192 create a combined voltage and current output that allows for a single two-terminal output connector for both the voltage and current outputs. The design features <0.1% total unadjusted error (TUE) for precision applications. The design is galvanically isolated from the backplane/host controller using the ISO7641FC digital isolator.
  • Capacitive Load Drive Verified Reference Design Using an Isolation Resistor
    TIPD128: This TI Verified Design implements a variety of op amps driving capacitive loads from 100pF to 1uF using a isolation resistor. The OPA192 is highlighted due to its ability to drive large capacitive loads with small isolation resistors.
  • 16-bit 400KSPS 4-Ch. Multiplexed Data Acquisition Ref Design for High Voltage Inputs, Low Distortion
    TIPD151: This TI Verified Design implements a 16-bit, differential 4-channel multiplexed data acquisition system at 400KSPS throughput for high voltage differential input of ±20 V (40 Vpk-pk) industrial applications. The circuit is realized with a 16-bit successive-approximation-resistor (SAR) analog-to-digital converter (ADC), a precision high voltage signal conditioning front end, and a 4-channel differential multiplexer (MUX). The design details the process for optimizing the precision high voltage front end drive circuit using the OPA192 and OPA140 to achieve excellent dynamic performance with the ADS8864.
  • TIPD140 Single Op-Amp Slew Rate Limiter Reference Design | TI.com
    TIPD140: This TI Reference Design demonstrates a single op amp used as a slew rate limiter. In control systems for valves or motors, abrupt changes in voltages or currents can cause mechanical damages. By controlling the slew rate of the command voltages, into the drive circuits, the load voltages can ramp up and down at a safe rate.
  • TIPD159 Voltage-Mode Multiplying DAC Reference Design | TI.com
    TIPD159: This multiplying DAC (MDAC) circuit creates a unipolar voltage output from 0 V to 2.5 V. This design does not require dual supplies to realize a unipolar, positive output voltage as with typical MDAC circuits. This design removes the need for a negative rail by using the MDAC in “reverse” to form a binary weighted voltage divider.
  • TIDA-00764 8-ch Isolated High Voltage Analog Input Module Reference Design | TI.com
    TIDA-00764: The TIDA-00764 reference design is a high voltage analog input module with eight channels. Each channel can be used for both, voltage and current measurement. The TI Design uses the 16-bit analog-to-digital converter (ADC) ADS8681 that can handle input voltage of up to ±12.288V. This make any preprocessing of standard input voltages in the industrial space unnecessary. In addition, four channels of the design are able to handle common-mode (CM) voltages of up to ±160V. Therefore, the user does not need to worry about ground loops or compensation currents flowing between the connected inputs.
  • Voltage-Mode Multiplying DAC Reference Design
    TIPD159: This multiplying DAC (MDAC) circuit creates a unipolar voltage output from 0 V to 2.5 V. This design does not require dual supplies to realize a unipolar, positive output voltage as with typical MDAC circuits. This design removes the need for a negative rail by using the MDAC in “reverse” to form a binary weighted voltage divider.
  • Single Op-Amp Slew Rate Limiter Reference Design
    TIPD140: This TI Reference Design demonstrates a single op amp used as a slew rate limiter. In control systems for valves or motors, abrupt changes in voltages or currents can cause mechanical damages. By controlling the slew rate of the command voltages, into the drive circuits, the load voltages can ramp up and down at a safe rate.

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