OP07 (40)
The OP07 is available from Texas Instruments at Xecor. Designed for precision amplification and low-offset voltage applications, the OP07 offers low noise, wide input-voltage range, and high common-mode rejection. Available in multiple package options, including PDIP-8, it is ideal for high-performance instrumentation, medical devices, and industrial control systems. Whether used in signal conditioning, data acquisition, or audio processing, this series ensures reliable performance, stability, and efficiency for demanding applications. Xecor is an authorized distributor for Texas Instruments. Please view our extensive selection of the OP07 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| OP07CDR | Suitable for use in a wide range of applications | SOIC-8 | 5,094 | |
| OP07DP | OP-07DP is an operational amplifier with extremely low offset voltage, designed for precision applications | PDIP (P)-8 | 5,142 | |
| OP07CSZ | High precision OP07CSZ Operational Amplifier featuring ULTRALOW OFFSET VOLTAGE, BIPolar design, PDSO8 package, 250uV maximum offset | SOIC-8 | 9,710 | |
| OP07CPZ | Op Amp Single Low Offset Voltage Amplifier | PDIP-8 | 6,510 | |
| OP07DRZ | Op Amp Single Ultra Low Offset Voltage Amplifier ±18V 8-Pin SOIC N Tube | SOIC-8 | 5,615 | |
| OP07CDRG4 | Precision OpAmps in SOIC-8 Package | SOIC-8 | 5,870 | |
| OP07CSZ-REEL7 | Precision Amplifiers Ultra Low Offset VTG | SOIC-8 | 8,682 | |
| OP07DNZ | Op Amp Single Ultra Low Offset Voltage Amplifier ±18V 8-Pin PDIP N Tube | PDIP-8 | 7,502 | |
| OP07EPZ | Precision amplifiers with extremely low offset voltage | PDIP-8 | 8,247 | |
| OP07CN | Operational Amplifiers - Op Amps Single Low Offset | 8-DIP | 8,594 | |
| OP07CP | Single precision amplifier offers precise gain control and excellent linearity in a compact package | PDIP (P)-8 | 7,407 | |
| OP07CSZ-REEL | Operating voltage range from 1 to ±3V up to 18V | SOIC-8 | 6,414 | |
| OP07DDR | Versatile operational amplifier for various electronic applications | SOIC (D)-8 | 7,771 | |
| OP07EP+ | 8 Pin Operational Amplifier | 8-DIP | 6,520 | |
| OP07AH | Op Amp Single Precision Amplifier ±22V Medical 8-Pin TO-5 | TO-5-8 | 3,841 | |
| OP07AJ8 | Ceramic Packaged 8-Pin Bipolar Operational Amplifier with Single AMP Configuration | CDIP-8 | 6,935 | |
| OP07CD | Low-offset voltage (0.25 mV) single operational amplifier | SOIC-8 | 3,779 | |
| OP07CDE4 | Single precision amplifier for ±18V/36V operation in 8-pin SOIC tube | SOIC-8 | 3,033 | |
| OP07CDG4 | Rise to precision amplification challenges with this top-tier opamp solution | SOIC-8 | 2,592 | |
| OP07CDRE4 | Low-power consumption ensures energy efficiency and reliabili | SOIC-8 | 8,432 | |
| OP07CH | Op Amp Single Precision Amplifier ±22V Medical 8-Pin TO-5 | TO-5-8 | 6,430 | |
| OP07CJ8 | Single precision amplifier for medical use | CDIP N-8 | 5,359 | |
| OP07CN8#PBF | Precision Amplifiers | PDIP-8 | 5,385 | |
| OP07CS8#PBF | Op Amp Single Precision Amplifier ±22V 8-Pin SOIC N Tube | SOIC-8 | 4,496 | |
| OP07CS8#TRPBF | Low noise and high speed analog amplifier solutio | SOIC-8 | 2,186 | |
| OP07DD | Precision Amplifiers Featuring Low Offset Voltage | SOIC-8 | 6,683 | |
| OP07DDE4 | Op Amp Single Precision Amplifier ±18V 8-Pin SOIC Tube | SOIC-8 | 6,414 | |
| OP07DDG4 | Single circuit, high-performance amplifier modul | 8-SOIC | 6,632 | |
| OP07DDRE4 | High-performance op-amp for demanding industrial, automotive, and medical applications | SOIC-8 | 6,705 | |
| OP07DDRG4 | pin SOIC package for compact design flexibilit | SOIC-8 | 7,780 | |
| OP07DH | General Purpose Amplifier 1 Circuit Metal Can | TO-205AA | 5,663 | |
| OP07DJ8 | General Purpose Amplifier 1 Circuit 8-CERDIP | 8-CDIP (0.300", 7.62mm) | 5,002 | |
| OP07DN8#PBF | Op Amp Single Precision Amplifier ±22V Medical 8-Pin PDIP N Tube | PDIP-8 | 6,403 | |
| OP07DPE4 | Precision Amplifiers: Low offset for accurate signal processing | PDIP-8 | 2,302 | |
| OP07DRZ-REEL | Achieve accurate performance with OP07DRZ-REEL | SOIC-8 | 6,509 | |
| OP07DRZ-REEL7 | Achieve precise signal amplification at an affordable price point with OP07DRZ-REEL7 | SOIC-8 | 4,582 | |
| OP07EJ8 | Op Amp Single Precision Amplifier ±22V Medical 8-Pin CDIP N | CDIP N-8 | 4,002 | |
| OP07EN8#PBF | Op Amp Single Precision Amplifier ±22V Medical 8-Pin PDIP N Tube | PDIP-8 | 7,274 | |
| OP07EP | 8 Pin Operational Amplifier | PDIP-8 | 7,005 | |
| OP07J8 | General Purpose Amplifier 1 Circuit 8-CERDIP | 8-CDIP | 7,842 |
Key Featrues
Low Offset Voltage (0.25 mV): The OP07C and OP07D devices feature an exceptionally low offset voltage of 0.25 mV, ensuring high precision in signal amplification. This makes them ideal for applications requiring accurate amplification, such as instrumentation and measurement systems, where minimizing error is critical.
Wide Input Voltage Range (0 V to ±14 V): With a broad input voltage range, these operational amplifiers can handle a variety of signal levels without distortion. This flexibility enhances their suitability for diverse applications, including audio processing, sensor interfacing, and industrial control systems.
No External Components Required for Offset Nulling: The OP07x devices eliminate the need for external components for offset nulling, simplifying circuit design and reducing component count. This feature not only saves board space but also lowers overall system cost, making it a practical choice for cost-sensitive designs.
High Common-Mode Rejection Ratio (120 dB): The high CMRR ensures excellent noise immunity, allowing the amplifier to reject common-mode signals effectively. This is particularly beneficial in high-noise environments, such as medical equipment and communication systems, where signal integrity is paramount.
Low Noise (9.8 nV/√Hz at 1 kHz): The low noise performance of the OP07x devices makes them suitable for applications requiring high signal fidelity, such as audio amplifiers and precision data acquisition systems. This feature ensures that the amplified signal remains clean and free from unwanted noise interference.
Wide Input Voltage Range (0 V to ±14 V): With a broad input voltage range, these operational amplifiers can handle a variety of signal levels without distortion. This flexibility enhances their suitability for diverse applications, including audio processing, sensor interfacing, and industrial control systems.
No External Components Required for Offset Nulling: The OP07x devices eliminate the need for external components for offset nulling, simplifying circuit design and reducing component count. This feature not only saves board space but also lowers overall system cost, making it a practical choice for cost-sensitive designs.
High Common-Mode Rejection Ratio (120 dB): The high CMRR ensures excellent noise immunity, allowing the amplifier to reject common-mode signals effectively. This is particularly beneficial in high-noise environments, such as medical equipment and communication systems, where signal integrity is paramount.
Low Noise (9.8 nV/√Hz at 1 kHz): The low noise performance of the OP07x devices makes them suitable for applications requiring high signal fidelity, such as audio amplifiers and precision data acquisition systems. This feature ensures that the amplified signal remains clean and free from unwanted noise interference.
Applications
Precision Instrumentation Amplifier: The OP07C is well-suited for use in precision instrumentation amplifiers, where low offset voltage and high common-mode rejection are critical. Its low noise and high input impedance make it ideal for amplifying signals from sensitive sensors, such as strain gauges or load cells, in industrial weighing systems or medical equipment.
Signal Conditioning for Thermocouples: The OP07C's wide input voltage range and low offset drift make it an excellent choice for signal conditioning in thermocouple-based temperature measurement systems. Its ability to handle small differential signals with high accuracy ensures reliable temperature readings in harsh environments, such as industrial furnaces or automotive applications.
Active Filter Circuits: The OP07C can be used in active filter designs, such as low-pass, high-pass, or band-pass filters, due to its stable performance and low noise characteristics. Its precision amplification capabilities make it suitable for audio signal processing, communication systems, or noise-sensitive measurement setups.
Voltage Reference Buffer: The OP07C's low offset voltage and high input impedance make it an ideal buffer for voltage reference circuits. It ensures minimal signal degradation when interfacing with high-precision analog-to-digital converters (ADCs) or digital-to-analog converters (DACs), making it suitable for use in data acquisition systems or calibration equipment.
Signal Conditioning for Thermocouples: The OP07C's wide input voltage range and low offset drift make it an excellent choice for signal conditioning in thermocouple-based temperature measurement systems. Its ability to handle small differential signals with high accuracy ensures reliable temperature readings in harsh environments, such as industrial furnaces or automotive applications.
Active Filter Circuits: The OP07C can be used in active filter designs, such as low-pass, high-pass, or band-pass filters, due to its stable performance and low noise characteristics. Its precision amplification capabilities make it suitable for audio signal processing, communication systems, or noise-sensitive measurement setups.
Voltage Reference Buffer: The OP07C's low offset voltage and high input impedance make it an ideal buffer for voltage reference circuits. It ensures minimal signal degradation when interfacing with high-precision analog-to-digital converters (ADCs) or digital-to-analog converters (DACs), making it suitable for use in data acquisition systems or calibration equipment.
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