The MAX874CPA is an integrated circuit (IC) manufactured by Maxim Integrated. It is a precision voltage reference, providing a stable and accurate voltage output. Below are the key details and features of this component:
- Part Number: MAX874CPA
- Type: Voltage Reference
- Output Voltage: 2.5V
- Initial Accuracy: ±0.38%
- Package/Case: 8-DIP (8-Pin Dual Inline Package)
- Temperature Coefficient: 15ppm/°C (Typ)
- Operating Temperature Range: 0°C to 70°C
- Supply Voltage: 4.5V to 40V
- Features: Low Drift, Low Noise, High Output Current, Short-Circuit Protection
The MAX874CPA is typically utilized as a stable voltage reference in various electronic circuits where a precise and stable voltage is required for proper operation of analog-to-digital converters, digital-to-analog converters, power supplies, and other analog circuits.
This voltage reference IC is often used in the following applications:
- Precision Analog Circuits: Utilized to provide a stable and accurate voltage reference for data conversion, precision instrumentation, and sensor interfaces.
- Power Supply Circuits: Integrated into voltage regulators and other power management circuits to set precise voltage levels.
- Automotive Electronics: Found in automotive electronics for sensor and actuator reference voltage requirements where stability and accuracy are crucial.
- Stability and Accuracy: Provides a stable and accurate voltage reference, ensuring precision in analog circuits and accurate conversions in data acquisition systems.
- Low Drift and Low Noise: The device offers low drift and low noise characteristics, contributing to stable and reliable system performance.
- Wide Supply Voltage Range: With a supply voltage range of 4.5V to 40V, it can be integrated into a variety of circuit designs with different power supply requirements.
In summary, the MAX874CPA by Maxim Integrated is a precision voltage reference IC designed to provide stable and accurate voltage output in a wide range of electronic applications, ensuring accurate and reliable performance in analog circuits and within various other system designs.