Overview of AD8628WARTZ-R7 by Analog Devices Inc.
The AD8628WARTZ-R7 is a zero-drift, single-supply, rail-to-rail input/output operational amplifier (Op Amp) optimized for low voltage, single-supply operations. Manufactured by Analog Devices Inc, it is enclosed in an SOT-23 package, which is known for its small size and low profile, fitting well into space-constrained applications. This Op Amp operates across a wide temperature range from -40 to 125 degrees Celsius, making it versatile for various demanding environments.
Among its distinctive features, the AD8628WARTZ-R7 boasts a high common-mode rejection ratio (130 dB) and a nominal unity gain bandwidth of 2.5MHz. The maximum input offset voltage is remarkably low at 10 µV, which is crucial for applications requiring high accuracy and precision. This Op Amp also features a low supply current draw (maximum of 1.2 mA), which is beneficial for power-sensitive applications.
The part is characterized by its chopper-stabilized architecture, which enhances its stability and reduces offset errors over time and temperature variations. The CMOS technology utilized in the AD8628WARTZ-R7 ensures that it provides high input impedance and reduced bias currents. Despite its compact size, it’s capable of delivering a slew rate of 1 V/µs and a minimum voltage gain of 178,000, ensuring ample performance for a variety of applications.
Industry Applications for AD8628WARTZ-R7
Given its technical attributes, the AD8628WARTZ-R7 can potentially be utilized across a variety of industries:
- Telecommunications: Its ability to operate over a broad temperature range and its high CMRR make it potentially suitable for signal conditioning applications in telecommunications equipment, where maintaining signal integrity is crucial.
- Healthcare: In healthcare electronics, such as medical monitoring devices, the low input offset voltage and high precision of the AD8628WARTZ-R7 could potentially be critical for accurate readings and measurements.
- Aerospace and Defense: The wide operating temperature range and high reliability of this Op Amp might make it a candidate for applications in aerospace instrumentation and defense systems, though specific military or aerospace standards compliance (such as MIL-spec) for this part should be verified.
Note: The applications mentioned above are speculative and assume suitability based on part specifications’ alignment with industry needs. All potential uses should be closely evaluated by engineering teams for industry-compliance and application-specific requirements.
About Analog Devices Inc.
Analog Devices Inc. is a prominent leader in the manufacture of high-performance analog, mixed-signal, and digital signal processing (DSP) integrated circuits (ICs). Their expertise particularly shines in the domain of Operational Amplifiers, where they provide a wide array of products designed to meet diverse application needs. The AD8628WARTZ-R7 is a reflection of their commitment to innovation, offering advanced features like zero-drift and chopper-stabilized architecture that cater to applications requiring high precision and stability. Analog Devices’ products consistently set the benchmark for performance across various industries, reinforcing their reputation as a trusted supplier of robust amplifiers.
Where to Find AD8628WARTZ-R7 by Analog Devices Inc
To purchase the AD8628WARTZ-R7, it is recommended to utilize comprehensive platforms like findchips.com. Here, you can access real-time information on stock levels and pricing from multiple distributors. Historically, this part has been available from various suppliers including LCSC, Chip1Stop, Bristol Electronics, and Analog Devices Inc’s own distribution channels, as well as larger distributors like Mouser Electronics, DigiKey, and Farnell.
For comparisons or alternative options within the category of Operational Amplifiers, the aforementioned link can also facilitate exploration of similar products by Analog Devices Inc or other manufacturers, offering the potential for optimized selection based on performance, price, and availability.