The RL2010FK-07R62L is a thick film chip resistor manufactured by Yageo. This resistor is part of the RL series, known for its robust design and reliable performance in a wide array of electronic applications. The '2010' designation refers to its physical dimensions, making it well-suited for automated assembly processes and compact circuit designs.

Applications

• Current sensing in power management circuits
• Voltage division in instrumentation circuits
• Pull-up and pull-down resistors in logic circuits
• Feedback resistors in amplifier circuits
• Termination resistors in high-speed data transmission lines

Features

• Thick film resistive element for stability and durability
• 2010 package size (2.0mm x 1.0mm)
• Resistance value of 0.62 Ohms
• Tight tolerance of 1% (indicated by 'F')
• Power rating of 0.75W
• Temperature coefficient of resistance (TCR) of ±100 ppm/°C
• RoHS compliant

Benefits

• Accurate resistance value ensures precise circuit behavior
• High power rating enables use in demanding applications
• Small size minimizes board space requirements
• Excellent stability across temperature variations
• Compatibility with automated assembly processes reduces manufacturing costs
• Long-term reliability due to robust construction

Additional Details

The 'RL' series represents a general-purpose chip resistor. '2010' denotes the physical dimensions of the resistor in inches. 'FK' indicates a tolerance of 1% and a specific temperature coefficient. '-07' refers to the 0.75W power rating. 'R62' signifies the resistance value of 0.62 Ohms. The 'L' at the end might denote a specific lot code, packaging variant or a minor electrical characteristic. The resistor is designed for surface mount technology (SMT) and is typically soldered onto a PCB using reflow soldering techniques. Terminals are typically tin-plated to guarantee good solderability. This component is appropriate for applications requiring high precision, good power handling, and robust stability. It is important to use proper soldering techniques to avoid overheating and potential damage to the component. The device’s operating temperature range should also be adhered to for optimal performance.