Drive Accessories

Model No.

Description

Motor Voltage

Max Motor FLA

Motor HP**

REA460-1 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

2

1

REA460-1E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

2

1

REA460-1X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

2

1

REA460-1XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

2

1

REA460-2 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

4

2

REA460-2E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

4

2

REA460-2X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

4

2

REA460-2XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

4

2

REA460-3 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

4

3

REA460-3E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

4

3

REA460-3X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

4

3

REA460-3XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

4

3

REA460-5 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

8

5

REA460-5E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

8

5

REA460-5X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

8

5

REA460-5XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

8

5

REA460-7.5 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

12

7.5

REA460-7.5E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

12

7.5

REA460-7.5X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

12

7.5

REA460-7.5XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

12

7.5

REA460-10 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

18

10

REA460-10E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

18

10

REA460-10X (5%) [Special Order]

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

18

10

REA460-10XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

18

10

REA460-15 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

25

15

REA460-15E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

25

15

REA460-15X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

25

15

REA460-15XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

25

15

REA460-20 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

35

20

REA460-20E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

35

20

REA460-20X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

35

20

REA460-20XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

35

20

REA460-25 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

35

25

REA460-25E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

35

25

REA460-25X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

35

25

REA460-25XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

35

25

REA460-30 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

45

30

REA460-30E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

45

30

REA460-30X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

45

30

REA460-30XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

45

30

REA460-40 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

55

40

REA460-40E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

55

40

REA460-40X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

55

40

REA460-40XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

55

40

REA460-50 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

80

50

REA460-50E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

80

50

REA460-50X (5%) [Special Order]

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

80

50

REA460-50XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

80

50

REA460-60 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

80

60

REA460-60E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

80

60

REA460-60X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

80

60

REA460-60XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

80

60

REA460-75 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

100

75

REA460-75E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

100

75

REA460-75X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

100

75

REA460-75XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

100

75

REA460-100 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

130

100

REA460-100E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

460V

130

100

REA460-100X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

130

100

REA460-100XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

460V

130

100

REA230-1 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

4

1

REA230-1E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

4

1

REA230-1X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

4

1

REA230-1XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

4

1

REA230-2 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

8

2

REA230-2E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

8

2

REA230-2X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

8

2

REA230-2XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

8

2

REA230-3 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

12

3

REA230-3E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

12

3

REA230-3X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

12

3

REA230-3XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

12

3

REA230-5 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

18

5

REA230-5E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

18

5

REA230-5X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

18

5

REA230-5XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

18

5

REA230-7.5 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

25

7.5

REA230-7.5E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

25

7.5

REA230-7.5X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

25

7.5

REA230-7.5XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

25

7.5

REA230-10 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

35

10

REA230-10E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

35

10

REA230-10X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

35

10

REA230-10XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

35

10

REA230-15 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

45

15

REA230-15E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

45

15

REA230-15X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

45

15

REA230-15XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

45

15

REA230-20 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

55

20

REA230-20E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

55

20

REA230-20X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

55

20

REA230-20XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

55

20

REA230-25 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

80

25

REA230-25E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

80

25

REA230-25X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

80

25

REA230-25XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

80

25

REA230-30 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

80

30

REA230-30E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

80

30

REA230-30X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

80

30

REA230-30XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

80

30

REA230-40 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

100

40

REA230-40E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

100

40

REA230-40X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

100

40

REA230-40XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

100

40

REA230-50 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

130

50

REA230-50E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

130

50

REA230-50X (5%) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

130

50

REA230-50XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

130

50

REA230-60 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

160

60

REA230-60E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

230V

160

60

REA230-60XE (5% - Enclosed) [Special Order]

5% IMPEDANCE reactors aren't commonly used, but will further help reduce harmonics at the expense of a higher voltage drop.

230V

160

60

REA575-1 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

2

1

REA575-1E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

2

1

REA575-2 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

4

2

REA575-2E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

4

2

REA575-3 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

4

3

REA575-3E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

4

3

REA575-5 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

8

5

REA575-5E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

8

5

REA575-7.5 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

8

7.5

REA575-7.5E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

8

7.5

REA575-10 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

12

10

REA575-10E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

12

10

REA575-15 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

18

15

REA575-15E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

18

15

REA575-20 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

25

20

REA575-20E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

25

20

REA575-25 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

25

25

REA575-25E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

25

25

REA575-30 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

35

30

REA575-30E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

35

30

REA575-40 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

45

40

REA575-40E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

45

40

REA575-50 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

55

50

REA575-50E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

55

50

REA575-60 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

80

60

REA575-60E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

80

60

REA575-75 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

80

75

REA575-75E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

80

75

REA575-100 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

100

100

REA575-100E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

100

100

REA575-125 (3%)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

130

125

REA575-125E (3% - Enclosed)

3% IMPEDANCE reactors are typically sufficient to absorb power line spikes and motor current surges as they will prevent nuisance tripping of drives or circuit breakers in most applications.

575V

130

125