ON Semiconductor MC1403BP1 Precision Voltage Reference
The ON Semiconductor MC1403BP1 is a high-precision voltage reference IC designed to provide a stable and accurate reference voltage for various applications. This integrated circuit is particularly well-suited for analog-to-digital converters (ADCs), digital-to-analog converters (DACs), voltage regulators, and general-purpose precision voltage reference tasks where reliability and accuracy are paramount.
The MC1403BP1 is part of the MC1403 series, characterized by its low dynamic impedance and excellent temperature stability. The device offers a fixed output voltage of 2.5V, which is maintained over a wide range of operating conditions. This precision voltage reference is designed using bandgap reference technology, ensuring a low temperature coefficient and a stable output voltage over the specified temperature range.
Key features of the MC1403BP1 include:
- Output Voltage: Precisely set at 2.5V, this reference voltage is ideal for many precision circuits.
- Temperature Coefficient: Exhibits an impressively low drift with temperature changes, providing consistent performance across a wide temperature range.
- Low Dynamic Impedance: The device maintains its performance even under varying load conditions, making it suitable for dynamic applications.
- Wide Operating Current Range: The MC1403BP1 can operate with currents as low as 1.0 mA, making it energy-efficient for battery-operated devices.
- High Precision: Ensures accurate and reliable reference voltage for critical applications.
This voltage reference IC is encapsulated in a TO-92 package, which is widely used and easy to integrate into a variety of circuit designs. The MC1403BP1 is a robust and versatile component that provides a reliable reference voltage, ensuring the high performance of the overall system in which it is used.
Whether you are designing precision measurement equipment, calibration systems, or any other application requiring a stable reference voltage, the ON Semiconductor MC1403BP1 is an excellent choice for maintaining accuracy and stability in your electronic designs.