The RC2512JK075R6RL is a thick film chip resistor manufactured by Yageo. It's part of their RC series, known for general purpose applications. This resistor is designed for surface mount technology (SMT) assembly and offers reliable performance in a variety of electronic circuits. The 2512 package size indicates the dimensions of the resistor, which are 2.5mm x 1.25mm.

Applications

• Current sensing circuits: Used to measure current flow in a circuit.
• Voltage dividers: Used to create a specific voltage level from a higher voltage source.
• Pull-up and pull-down resistors: Used to define the logic state of a digital input when it's not actively driven.
• Load resistors: Used to provide a load for a circuit or component.
• Snubber circuits: Used to suppress voltage spikes in inductive circuits.

Features

• Resistance Value: 5.6 Ohms
• Power Rating: 1W
• Tolerance: 5%
• Temperature Coefficient: ±200 ppm/°C
• Package Size: 2512 (2.5mm x 1.25mm)
• Termination: Wrap-around termination for improved solder joint reliability
• Construction: Thick film resistor on a ceramic substrate

Benefits

• Reliable Performance: Thick film technology ensures stable resistance values over temperature and time.
• High Power Handling: 1W power rating allows for use in demanding applications.
• Compact Size: 2512 package size saves board space.
• Easy Assembly: SMT design simplifies automated assembly processes.
• Cost-Effective: Offers a good balance of performance and price.

Additional Details

The RC2512JK075R6RL resistor is suitable for reflow soldering. It is RoHS compliant, meaning it does not contain hazardous substances restricted by the European Union. It's important to consider the power dissipation requirements of the application when selecting this resistor. Ensure that the power dissipated by the resistor does not exceed its 1W power rating. The resistor's operating temperature range is typically -55°C to +155°C. The wrap-around termination enhances solder joint strength and minimizes the risk of solder joint cracking during thermal cycling.