OP07S (8)
The OP07S series is available from Analog Devices at Xecor. Designed for precision instrumentation and aerospace applications, the OP07S offers ultra-low offset voltage (75 µV max), low drift (1.3 µV/°C max), and exceptional stability over time (1.5 µV/month max). Available in CDIP8 packages, it is ideal for high-accuracy instrumentation, signal conditioning, and aerospace systems. Whether used in industrial control, medical equipment, or aerospace electronics, this series ensures reliable performance, high gain accuracy, and long-term stability for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the OP07S series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| 5962R9863901VGA | Achieve high accuracy measurements using OP07AJQMLR IC | 8 ld Header | 6,122 | |
| JM38510/13502SPA | High performance op amp designed for aerospace industry needs | CDIP-8 | 5,106 | |
| JM38510/13501SPA | High precision op amp with ultra low offset voltage | HDIP-8 | 7,303 | |
| JM38510/13501SGA | Designed for demanding aerospace environments | TO-99-8 | 2,541 | |
| JM38510/13501BGA | Compact and versatile amplifier for various applications | TO99-8 | 5,683 | |
| JM38510/13501BPA | High precision op amp for aerospace applications | HDIP | 6,158 | |
| JM38510/13502BGA | High-performance Op Amp IC for precision applications | TO-99-8 | 2,588 | |
| 5962R9863901VPA | Achieve a powerful 110 dB output for enhanced signal processing | CDIP-8 | 7,386 |
Key Featrues
Ultra Low Offset Voltage (75 µV Max): This feature ensures minimal error in signal amplification, making the OP07 ideal for precision instrumentation applications where accuracy is critical. Its low offset voltage enhances the overall performance of measurement systems by reducing inaccuracies caused by signal drift.
Low Offset Voltage Drift (1.3 µV/°C Max): The amplifier maintains stable performance across varying temperatures, ensuring reliable operation in environments with significant thermal fluctuations. This feature is particularly beneficial for aerospace and industrial applications where temperature stability is essential.
Ultrastable vs. Time (1.5 µV/Month Max): The OP07 exhibits minimal long-term drift, maintaining its precision over extended periods. This stability reduces the need for frequent recalibration, making it suitable for long-term monitoring and control systems.
High Common-Mode Rejection Ratio (CMRR): The high CMRR minimizes the impact of common-mode noise, ensuring accurate signal amplification even in noisy environments. This feature is crucial for applications in medical instrumentation and data acquisition systems.
Wide Input Voltage Range (±13 V Minimum): The amplifier can handle a broad range of input signals, providing flexibility in various circuit configurations. This feature enhances its versatility, making it suitable for both low and high-voltage applications in aerospace, industrial, and test equipment.
Low Offset Voltage Drift (1.3 µV/°C Max): The amplifier maintains stable performance across varying temperatures, ensuring reliable operation in environments with significant thermal fluctuations. This feature is particularly beneficial for aerospace and industrial applications where temperature stability is essential.
Ultrastable vs. Time (1.5 µV/Month Max): The OP07 exhibits minimal long-term drift, maintaining its precision over extended periods. This stability reduces the need for frequent recalibration, making it suitable for long-term monitoring and control systems.
High Common-Mode Rejection Ratio (CMRR): The high CMRR minimizes the impact of common-mode noise, ensuring accurate signal amplification even in noisy environments. This feature is crucial for applications in medical instrumentation and data acquisition systems.
Wide Input Voltage Range (±13 V Minimum): The amplifier can handle a broad range of input signals, providing flexibility in various circuit configurations. This feature enhances its versatility, making it suitable for both low and high-voltage applications in aerospace, industrial, and test equipment.
Applications
Precision Instrumentation Amplifier: The OP07 is ideal for use in precision instrumentation applications, such as medical devices and laboratory equipment, where ultra-low offset voltage and high accuracy are critical. Its high CMRR and input impedance ensure reliable performance in amplifying small signals from sensors like strain gauges or thermocouples.
Aerospace Signal Conditioning: The OP07's stability over time and temperature makes it suitable for aerospace applications, such as signal conditioning in flight control systems or environmental monitoring. Its ability to maintain accuracy at high closed-loop gains ensures reliable operation in harsh conditions.
Industrial Process Control: In industrial environments, the OP07 can be used for process control systems, such as monitoring and amplifying signals from pressure sensors or flow meters. Its low offset voltage drift and excellent linearity ensure precise measurements, even in high-gain configurations.
High-Accuracy Data Acquisition Systems: The OP07 is well-suited for data acquisition systems requiring high precision, such as scientific research or quality control testing. Its ability to maintain gain accuracy and stability over time makes it ideal for amplifying low-level signals from sensors like pH probes or photodiodes.
Aerospace Signal Conditioning: The OP07's stability over time and temperature makes it suitable for aerospace applications, such as signal conditioning in flight control systems or environmental monitoring. Its ability to maintain accuracy at high closed-loop gains ensures reliable operation in harsh conditions.
Industrial Process Control: In industrial environments, the OP07 can be used for process control systems, such as monitoring and amplifying signals from pressure sensors or flow meters. Its low offset voltage drift and excellent linearity ensure precise measurements, even in high-gain configurations.
High-Accuracy Data Acquisition Systems: The OP07 is well-suited for data acquisition systems requiring high precision, such as scientific research or quality control testing. Its ability to maintain gain accuracy and stability over time makes it ideal for amplifying low-level signals from sensors like pH probes or photodiodes.
Popular OP07S Products comparison
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