  # How To Calculate Overload Protection For 3 Phase Motors How To Calculate Overload Protection For 3 Phase Motors. How to calculate 3 phase motor overload october 27, 2021 by masuzi motor thermal overload relay how to calculate thermal overload trip motor thermal overload relay overload relay for 3 phase dol starter Calculated sizing for overload device to provide overload protection to a 3 phase, 200 volt, 15 hp motor with full load ampere is 35 ampere,ambient temp : Image result for how to commission a three phase poshomily from www.pinterest.com

Separate motor overload protection shall be based on the motor nameplate current rating. Unbalances in other connected loads can also affect the motor. A motor nameplate has a service factor of 1.15 and an fla of 24.5 amps.

### Divide By The Rated Full Load Current From The Motor Nameplate.

(a) 40a (c) 60a (b) 50a (d) 70a. Thermal overload relay setting = 70%x12.28 = 8.6a max. A voltage unbalance of 3.5% can produce a 25% or greater increase in motor temperature.

### How To Calculate 3 Phase Motor Overload October 27, 2021 By Masuzi Motor Thermal Overload Relay How To Calculate Thermal Overload Trip Motor Thermal Overload Relay Overload Relay For 3 Phase Dol Starter

Ib = anticipated operating current of the circuit iz = current carrying capacity of conductor or cable or motor in = rated current. Basically to setting the overload value,we refer to this formula : This will be the load factor for the motor.

### Separate Motor Overload Protection Shall Be Based On The Motor Nameplate Current Rating.

How to setting overload relay protection? The overload protection is sized per the motor nameplate current rating, not the motor full load current (flc) rating. Thermal overload relay setting = 120%x12.28 = 14.7a

### Unbalances In Other Connected Loads Can Also Affect The Motor.

1) ib ≤ in ≤ iz. Single phase ac motor fla (amperes) = (p [kw] × 1000) / (v × cos ϕ) single phase ac motor fla (amperes) = (p [hp] × 746) / (v × cos ϕ × η) three phase ac motor fla (amperes) = (p [kw] × 1000) / (v × 1.732 × cos ϕ) Currents above the rated value that last longer than what is normal for the application.

### If The Motor Current Is 22A And The Rated Full Load Current Is 20A, Then The Load Factor Is 22/20 = 1.1.

A motor nameplate has a service factor of 1.15 and an fla of 24.5 amps. Multiply the motor rating by 0.577 Thermal overload relay setting = 70%x full load current(phase) min.