The AD589SH/883B from Analog Devices Inc. is a high-precision monolithic voltage reference. This device is part of the esteemed series of references that provide a stable 1.235 volts output with minimal external components. Crafted to meet stringent military standards, the AD589SH/883B is a reliable choice for applications requiring consistent performance and high accuracy in demanding environments.
This voltage reference comes in a hermetically sealed package, ensuring its robustness and resistance to environmental factors such as humidity and temperature variations. Its operating temperature range from -55°C to +125°C attests to its resilience and suitability for military and aerospace applications where extreme conditions are the norm.
The design of the AD589SH/883B emphasizes ease of use and flexibility. It requires no external components for operation, making it a convenient plug-and-play solution for circuit designs. Additionally, its low dynamic impedance and wideband noise of only 15μV peak-to-peak (10 Hz to 10 kHz) make it an excellent choice for precision analog circuits.
Key features of the AD589SH/883B include its tight output voltage tolerance and excellent temperature stability. With an initial accuracy of ±1%, it provides reliable performance without the need for calibration. The temperature coefficient is as low as 30ppm/°C, which guarantees a consistent output despite temperature fluctuations.
Analog Devices Inc. is known for its commitment to quality, and the AD589SH/883B is no exception. It is designed to meet MIL-STD-883B specifications, ensuring that it passes rigorous testing for reliability and performance. This makes it an ideal voltage reference for mission-critical applications in military, aerospace, and high-end industrial equipment.
In summary, the AD589SH/883B stands out with its precise voltage regulation, robust construction, and adherence to military standards. It is an exemplary solution for designers who require a dependable and high-quality voltage reference in their electronic systems.