What is the maximum resistance of a driven ground?

The maximum resistance of a driven ground is critical for ensuring effective grounding and bonding in electrical systems, particularly in environments with mobile cranes and diggers. A resistance of 25 ohms is generally recognized as a standard for safe operation. This threshold is established to reduce the risk of electrical shock and enhance the performance of grounding systems by allowing sufficient fault currents to dissipate safely into the earth.

Ground resistance serves as a measure of how effectively a grounding electrode can dissipate electric currents. If the resistance is too high, it can hinder the safe dissipation of electricity during fault conditions, leading to potential hazards such as electrical fires or equipment damage. A ground resistance of 25 ohms strikes a balance between safety and functionality, ensuring that the grounding systems remain effective under normal operating conditions.

Higher resistance values like 50 ohms or 100 ohms do not meet safety standards for grounding in most applications, as they increase the risk of inadequate fault current dispersion. A resistance lower than the maximum standard (like 10 ohms) may be more efficient, but the key takeaway here is that 25 ohms represents the maximum acceptable resistance for effective grounding in mobile crane and digger operations.