Product Overview: LT1021DIN8-5#PBF from Linear Technology
The LT1021DIN8-5#PBF is a precision voltage reference from Linear Technology, which is renowned for its high accuracy and stability. This component is specifically designed to offer a stable reference voltage of 5V, making it an ideal choice for precision data converters, digital voltmeters, and other sensitive electronic instrumentation where reliable voltage reference is critical.
Key Features
- Stable Reference Voltage: The device provides a precise 5V output, with an initial accuracy of ±0.05% at 25°C.
- Low Temperature Coefficient: It boasts a low temperature coefficient, typically 10ppm/°C, ensuring minimal voltage variation across a wide temperature range.
- Long-Term Stability: Exhibits excellent long-term stability, with a typical drift of less than 20ppm/√kHr, which is crucial for applications requiring consistent performance over time.
- Low Noise: It has a low output noise characteristic, making it suitable for noise-sensitive applications.
- Supply Range: The LT1021 can operate from a supply voltage ranging from 7V to 36V, providing flexibility in various power supply configurations.
- Package: This product comes in a robust 8-pin DIP package, ensuring easy integration into a wide range of electronic circuits.
Applications
The LT1021DIN8-5#PBF is versatile and can be used in a multitude of applications, including but not limited to:
- Precision data systems
- High-resolution conversion systems
- Industrial instrumentation
- Medical equipment
- Laboratory equipment
Quality and Reliability
Linear Technology is committed to delivering products of the highest quality. The LT1021DIN8-5#PBF is no exception, with its robust design and stringent quality control, ensuring that it meets the demands of the most critical applications in terms of performance and reliability.
With its combination of precision, stability, and reliability, the LT1021DIN8-5#PBF voltage reference from Linear Technology stands out as an excellent choice for designers looking to enhance the accuracy and consistency of their electronic systems.