ON Semiconductor LM385D-1.2: Precision Micropower Voltage Reference

The LM385D-1.2 is a highly reliable, precision micropower voltage reference component from ON Semiconductor, designed for a broad spectrum of applications. This device provides a fixed 1.2-volt output with an impressive initial accuracy of ±1%. The LM385D-1.2 is available in a small outline integrated circuit (SOIC) package, making it suitable for space-constrained applications that require a stable voltage reference.

Key Features

• Output Voltage: Precisely trimmed to 1.2 Volts with high accuracy.
• Low Dynamic Impedance: Ensures stable voltage under varying loads, with an impedance of 1Ω typical.
• Wide Operating Current: Functions optimally over a current range of 20µA to 20mA, catering to diverse application needs.
• Extended Temperature Range: Operates reliably over a temperature range of -40°C to +85°C, suitable for industrial environments.
• Stability: Capable of maintaining stability with capacitive loads, making it versatile for various circuit configurations.

Applications

The LM385D-1.2 is a versatile component that can be integrated into a multitude of electronic circuits. Its applications include, but are not limited to:

• Battery-powered equipment
• Portable instrumentation
• Power supplies
• Consumer electronics
• Analog to Digital (A/D) and Digital to Analog (D/A) converters
• Voltage monitoring

Quality and Reliability

ON Semiconductor is renowned for its commitment to quality, and the LM385D-1.2 is no exception. This voltage reference is designed to meet stringent industry standards, ensuring long-term reliability for your electronic designs. Whether you're developing consumer products or industrial equipment, the LM385D-1.2 offers the performance and dependability that professionals trust.

Conclusion

In conclusion, the ON Semiconductor LM385D-1.2 is a top-of-the-line voltage reference that offers precision, low power consumption, and high stability. Its compatibility with a wide range of operating currents and temperatures, along with its ability to handle capacitive loads, makes it an ideal choice for designers looking to enhance the performance of their electronic systems.