I²t Cable Thermal Withstand and Energy-Limiting Devices

Cable thermal withstand can be checked by comparing the maximum energy let-through during a fault with the maximum energy the cable conductor can absorb without exceeding its permissible temperature.

Energy-limiting protective devices reduce the I²t let-through during a fault. This can be important when checking whether a cable can thermally withstand a prospective short-circuit condition.

I²t withstand condition

The basic condition is:

$$I^{2}t\le k^2{A}^2$$

If the device let-through energy is less than or equal to the cable withstand energy, the cable is thermally protected for the assessed fault condition.

Energy-limiting protective devices

The let-through energy is normally specified by the protective device manufacturer. For thermal-withstand checks, the manufacturer’s published I²t value should be compared with the cable’s allowable withstand value.

Using the typical data above, a 10 A, 10 kA fault-rated MCB has an I_p/A value of approximately 1000, or 10³. This gives an energy let-through of approximately 2,000 A²s.

Actual values depend on the protective device type, rating, fault level and manufacturer data. Always use the published let-through values for the selected device when completing a design calculation.