The AD580MH is a high-precision, low-power voltage reference from Analog Devices Inc., engineered to offer a fixed 2.5V output voltage with exceptional stability and accuracy. This precision voltage reference is encased in a robust metal can package, designed to ensure superior reliability and performance in a wide range of applications, including data acquisition systems, digital voltmeters, and precision power supplies.
Key Features
- Fixed Output Voltage: The AD580MH provides a stable 2.5V output, which is ideal for system calibration and reference purposes.
- High Accuracy: With an initial accuracy of ±1%, the device ensures precise voltage reference for critical applications.
- Temperature Stability: The AD580MH exhibits excellent temperature stability, with a low temperature coefficient, minimizing the impact of temperature variations on performance.
- Low Power Consumption: It is designed for energy-efficient operations, making it suitable for battery-powered devices and portable instruments.
- Long-Term Stability: The device demonstrates superior long-term stability, ensuring consistent performance over time.
- Wide Operating Temperature Range: The AD580MH operates effectively across a broad temperature range, accommodating diverse environmental conditions.
Applications
The AD580MH is versatile and can be employed in a variety of electronic systems that require a stable voltage reference. Some common applications include:
- Data acquisition systems
- Digital voltmeters
- Power supply monitoring
- Analog-to-digital converters (ADCs)
- Digital-to-analog converters (DACs)
- Precision instrumentation
Technical Specifications
| Parameter |
Value |
| Output Voltage |
2.5V |
| Initial Accuracy |
±1% |
| Temperature Coefficient |
Specified over temperature |
| Operating Temperature Range |
-55°C to +125°C |
| Package |
Metal Can (H Package) |
With its high precision and robustness, the AD580MH from Analog Devices Inc. is an optimal choice for professionals seeking a reliable voltage reference source for their sophisticated electronic systems.