The MLT30002BTE510J is a precision thin film chip resistor manufactured by KOA Speer. These resistors are known for their high stability, tight tolerance, and excellent temperature coefficient of resistance (TCR) performance, making them suitable for demanding applications.

Applications

• Medical equipment: Used in precision circuits where accuracy and reliability are crucial.
• Measurement and instrumentation: Ideal for sensitive measurement devices requiring stable resistance values.
• Automotive electronics: Employed in various automotive control systems.
• Industrial control systems: Used in feedback loops and precision control circuits.
• Aerospace applications: Suitable for applications demanding high reliability and stability under varying environmental conditions.

Features

• Thin film technology: Provides high precision and stability.
• Tight tolerance: Offers a tolerance of ±5%, ensuring accurate resistance values.
• Low TCR: Features a low Temperature Coefficient of Resistance, typically ±100 ppm/°C, minimizing resistance changes with temperature variations.
• Compact size: Available in a small 1206 package, suitable for space-constrained applications.
• High reliability: Robust design ensures long-term stability and performance.
• RoHS compliant: Compliant with Restriction of Hazardous Substances directive, making it environmentally friendly.

Benefits

• Precise resistance values: Enables accurate circuit performance.
• Stable performance over temperature: Ensures consistent performance in varying temperature conditions.
• Long-term reliability: Reduces the need for frequent replacements, lowering maintenance costs.
• Compact design: Allows for use in miniaturized electronic devices.
• Environmentally friendly: Complies with RoHS standards, minimizing environmental impact.

Additional Details

The MLT30002BTE510J has a resistance value of 51 Ohms. It is designed to handle a specific power rating, typically 0.25W. The operating temperature range is generally between -55°C to +155°C. The resistor's thin film construction contributes to its excellent electrical characteristics and makes it suitable for applications where stability and precision are paramount.