Cable Size Calculation Link

| Factor | Description | |--------|-------------| | | The steady-state current drawn by the load (in Amperes). | | Cable length (L) | Longer cables require larger sizes to limit voltage drop. | | Voltage (V) | System voltage (e.g., 230V, 400V, 11kV). | | Phase | Single-phase or three-phase. | | Installation method | Buried directly, in conduit, on cable tray, clipped to surface, or in free air. | | Ambient temperature | Higher temperatures reduce current-carrying capacity. | | Grouping | Multiple cables together reduce heat dissipation. | | Insulation type | PVC, XLPE, EPR – each has different temperature ratings. | | Allowable voltage drop | Typically 2–5% of nominal voltage (e.g., 11.5V for 230V single-phase). | | Short-circuit withstand | The cable must survive fault currents until protection operates. |

Manual calculation is good for understanding. For daily work, use: cable size calculation

Disclaimer: This guide is for educational purposes. Actual design must be performed by a qualified engineer using applicable codes and real site data. | Factor | Description | |--------|-------------| | |