Rockwell Automation 284D ArmorStart - Safety Version - User Manual User Manual

Group Motor Installations

D-3

To design the motor circuit using a time delay fuse from NEC Table
430.52 to the rules of NEC 430.53C we start with the largest motor,
10 Hp, and calculate 14 A x 175% = 24.5 A. To this we add the FLC
of the 5 Hp motor, 7.6 A, plus the other calculated drive currents for
the motors controlled by the VFD-ArmorStarts. The calculated drive
currents are given in the following Table:

The total current for the fuse ampacity is calculated in the following
Table:

Therefore the standard fuse available not exceeding 46.4 A is a 40 A
fuse.

To calculate the wire ampacity and therefore the size of the motor
branch conductor we use NEC 430.24 and calculate the sum of 125%
of the largest motor’s FLC plus the FLC of the other motors in the
group. The conductor ampacity calculation is given in the following
Table:

Motor

Hp

Motor FLC

(A)

Drive Input to Output Current Ratio

(See ArmorStart Users Manual -

Appendix A)

Calculated Drive Current

(A)

2

3.4

5.57 A/4.0 A = 1.39

3.4 x 1.39 = 4.72 A

1

2.1

3.45 A/2.3 A = 1.5

2.1 x 1.5 = 3.15 A

1

2.1

3.45 A/2.3 A = 1.5

2.1 x 1.5 = 3.15 A

1

2.1

3.45 A/2.3 A = 1.5

2.1 x 1.5 = 3.15 A

Motor Hp

Motor FLC (A)

TD Fuse Current (A)

10

14

24.5 A

5

7.6

7.6 A

2

3.4

4.72 A

1

2.1

3.15 A

1

2.1

3.15 A

1

2.1

3.15 A

Total Fuse Current

46.4 A

Motor Hp

Motor FLC (A)

Wire Current (A)

10

14

14A x 1.25 =17.5A

5

7.6

7.6A

2

3.4

4.89 A

1

2.1

3.15 A

1

2.1

3.15 A

1

2.1

3.15 A

Total Fuse Current

39.4 A