The ERJ3EKF24R3V is a thick film chip resistor from Panasonic. It is designed for surface mount technology (SMT) applications, offering reliable performance in a compact size. These resistors are commonly used in a wide array of electronic circuits to provide a specific level of resistance, thereby controlling current flow and voltage levels within the circuit. The ERJ series is known for its high reliability and stability, making it suitable for demanding applications.

Applications

• Consumer electronics (e.g., smartphones, tablets, televisions)
• Industrial equipment (e.g., power supplies, control systems)
• Automotive electronics (e.g., engine control units, infotainment systems)
• Medical devices (e.g., patient monitoring equipment, diagnostic tools)
• Telecommunications equipment (e.g., routers, switches, base stations)

Features

• Thick film resistor element
• Surface mount technology (SMT) compatibility
• Compact size (typically 0603 or similar)
• High reliability and stability
• RoHS compliant (Restriction of Hazardous Substances)
• Excellent pulse withstanding characteristics
• Operating temperature range suitable for various environments

Benefits

• Precise resistance value helps to maintain circuit accuracy.
• Small footprint saves board space, allowing for denser designs.
• High reliability ensures long-term performance and reduces failures.
• RoHS compliance ensures environmental friendliness.
• Stable performance across a wide temperature range.
• Easy to integrate into automated assembly processes.

Additional Details

The ERJ3EKF24R3V has a resistance value of 24.3 Ohms with a tolerance of ±1%. It typically features a power rating of 0.1W or 0.05W, depending on the specific package size. The temperature coefficient of resistance (TCR) is typically ±100 ppm/°C. The resistor is constructed using a high-quality resistive material deposited on a ceramic substrate, ensuring consistent and reliable performance. The terminals are typically made of a solder-plated material for excellent solderability during assembly.