Product Overview: AD817JN from Analog Devices Inc.

The AD817JN is a high-speed, low-power operational amplifier manufactured by Analog Devices Inc., a leader in the field of precision high-performance electronics. This component is designed to cater to a wide range of applications, including telecommunications, video and audio processing, and test equipment. It is well-suited for tasks that require high speed, such as active filters, data and telecommunications systems, and A/D drivers.

Key Features

• High Speed: With a slew rate of 300 V/μs and a gain bandwidth product of 50 MHz, the AD817JN is capable of handling rapid signal changes with ease, making it ideal for video applications and fast data acquisition systems.
• Flexible Power Supply: The operational amplifier can operate with a dual supply voltage ranging from ±5 V to ±15 V or a single supply voltage from 10 V to 30 V, providing versatility in different circuit configurations.
• Low Distortion: The device offers low distortion performance, which is essential for high-fidelity audio processing and other applications where signal integrity is paramount.
• Robust Output Drive: Capable of delivering output currents up to 50 mA, the AD817JN can drive capacitive loads effectively, which is a significant asset in buffer and cable driver applications.

Applications

• Professional video equipment
• Audio and video broadcasting systems
• Active filters and signal conditioning
• Data acquisition systems
• Telecommunications equipment
• ADC/DAC buffers

The AD817JN is available in an 8-pin PDIP (Plastic Dual In-line Package), making it compatible with standard breadboards and sockets for easy integration into prototypes and final products. Its robust design ensures reliable performance even in demanding environments.

Whether for professional audio-video systems, high-speed data processing, or precise instrumentation, the AD817JN operational amplifier from Analog Devices Inc. stands out as a superior choice for designers seeking exceptional speed and performance in their electronic circuits.