Linear Technology LT1460KCS3-3.3#TRPBFG Precision Voltage Reference

The LT1460KCS3-3.3#TRPBFG is a high-precision voltage reference component from Linear Technology, designed to offer a stable and precise reference voltage for various electronic applications. This product is a part of the LT1460 series, which is renowned for its low noise, high accuracy, and long-term stability, making it an ideal choice for high-performance analog circuits.

Key Features:

• Reference Voltage: 3.3V with a precision tolerance.
• Low Temperature Coefficient: Ensures minimal voltage variation over temperature changes.
• Low Noise: Provides a clean reference signal, crucial for sensitive electronics.
• High Output Accuracy: Maintains consistent performance, which is vital for precision applications.
• Long-Term Stability: Reliable performance over the lifespan of the component.
• Supply Voltage Range: Wide range that allows for flexible usage in different circuit designs.
• Output Current Capability: Sufficient to drive various loads and maintain a stable reference.
• Package: Compact SOT-23 package, suitable for space-constrained applications.

Applications:

The LT1460KCS3-3.3#TRPBFG is versatile and can be used in a multitude of electronic systems, including but not limited to:

• Data Acquisition Systems
• Precision Instrumentation
• Automotive Electronics
• Battery-Powered Equipment
• A/D and D/A Converters
• Portable Test Equipment

Quality and Reliability:

Linear Technology ensures that the LT1460KCS3-3.3#TRPBFG meets the highest quality standards. Each component is rigorously tested for performance and reliability, ensuring that it can withstand the demands of critical applications. The product is also available in tape and reel packaging, denoted by the TR suffix, which facilitates automated pick-and-place manufacturing processes.

With its exceptional performance characteristics, the LT1460KCS3-3.3#TRPBFG from Linear Technology stands out as a superior choice for designers looking for a reliable and accurate voltage reference in their electronic designs.