The LRC-LRZ2512-R000 is a precision current sensing resistor manufactured by IRC, a TT electronics company. It is designed for accurate current measurement in a variety of electronic circuits. This resistor features a low resistance value of 0.000 Ohms, enabling minimal impact on the circuit's performance while providing accurate current sensing capabilities.
Applications
- Power supplies for current monitoring and control.
- Motor control systems for precise current feedback.
- Battery management systems for charge and discharge monitoring.
- Inverters for current overload protection.
- Automotive electronics for current measurement in various systems.
Features
- Low resistance value (0.000 Ohms) to minimize power loss.
- High precision for accurate current sensing.
- Surface mount design for automated assembly.
- Robust construction for reliable operation in harsh environments.
- RoHS compliant for environmental responsibility.
Benefits
- Improved circuit efficiency due to low resistance.
- Accurate current monitoring for optimal performance.
- Reduced power dissipation for cooler operation.
- Enhanced system reliability with precise current control.
- Simplified assembly process with surface mount technology.
Additional Details
The LRZ series from IRC is specifically designed for current sensing applications requiring low resistance values and high power handling. The resistor is constructed using a metal alloy resistive element that provides excellent stability and low temperature coefficient of resistance (TCR). The resistor is housed in a standard 2512 surface mount package, making it easy to integrate into existing circuit board designs. The resistor's low inductance characteristics also make it suitable for high-frequency applications where parasitic inductance can be detrimental to performance. The power rating of the LRC-LRZ2512-R000 is typically 2 Watts, allowing it to handle significant current levels without overheating. This part is optimal for demanding applications requiring accurate and reliable current sensing capabilities.