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OPA2364AID
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OPA2364AID Description
OPA2364AID Description
The OPA2364AID from Texas Instruments is a high-performance, CMOS-based dual operational amplifier designed for precision applications. Packaged in an 8-SOIC tube, this IC operates over a wide supply voltage range of 1.8V to 5.5V, making it versatile for both low-voltage and standard 5V systems. With a gain bandwidth product of 7 MHz and a slew rate of 5V/µs, it delivers excellent dynamic performance for signal conditioning, filtering, and amplification tasks. Its ultra-low input bias current of 1 pA and input offset voltage of 1 mV ensure high accuracy in sensitive analog circuits.
OPA2364AID Features
- Low Power Consumption: Only 1.1mA per channel supply current, ideal for battery-powered devices.
- High Output Drive: Capable of 85 mA output current, enabling direct driving of low-impedance loads.
- CMOS Technology: Ensures low noise and rail-to-rail input/output operation, maximizing dynamic range.
- Robust Packaging: MSL 2 (1 Year) moisture sensitivity ensures reliability in surface-mount applications.
- Environmental Compliance: ROHS3 and REACH Unaffected, meeting global environmental standards.
OPA2364AID Applications
- Portable and Battery-Powered Systems: Due to its low-voltage operation and minimal power draw.
- Sensor Signal Conditioning: High input impedance and low bias current make it ideal for interfacing with sensors (e.g., photodiodes, strain gauges).
- Active Filters and Audio Processing: The 7 MHz bandwidth supports precision filtering and audio signal chains.
- Data Acquisition Systems: Combines low offset voltage and high slew rate for accurate signal amplification in ADCs/DACs.
Conclusion of OPA2364AID
The OPA2364AID stands out as a high-precision, low-power dual op-amp with exceptional speed and drive capability. Its wide supply range, CMOS architecture, and robust packaging make it a top choice for portable electronics, sensor interfaces, and precision analog designs. Engineers seeking reliable performance in space-constrained applications will find this IC an optimal solution.



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