Magnetic Starters - Disconnect Combination
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ALLEN BRADLEYEnclosed Combination Reversing Magnetic I.E.C. 600V AC NEMA 1/12K (IP66) 0.10-0.16
- Model #:
- 107C-09LD-CA16X-1M
- UPC #:
- 88495167005
- Part #:
- 107C-09LD-CA16X-1M
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ALLEN BRADLEY
Enclosed Combination Reversing Magnetic I.E.C. 600V AC NEMA 1/12K (IP66) 0.16-0.25
- Model #:
- 107C-09LD-CA25X-1M
- UPC #:
- 88495166992
- Part #:
- 107C-09LD-CA25X-1M
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ALLEN BRADLEY
Enclosed Combination Reversing Magnetic I.E.C. 600V AC NEMA 1/12K (IP66) 0.25-0.40
- Model #:
- 107C-09LD-CA40X-1M
- UPC #:
- 88495166979
- Part #:
- 107C-09LD-CA40X-1M
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ALLEN BRADLEY
Enclosed Combination Reversing Magnetic I.E.C. 600V AC NEMA 1/12K (IP66) 0.40-0.63
- Model #:
- 107C-09LD-CA63X-1M
- UPC #:
- 88495166980
- Part #:
- 107C-09LD-CA63X-1M
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ALLEN BRADLEY
Enclosed Combination Reversing Magnetic I.E.C. 600V AC NEMA 1/12K (IP66) 0.63-1.00
- Model #:
- 107C-09LD-CB10X-1M
- UPC #:
- 88495166981
- Part #:
- 107C-09LD-CB10X-1M
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ALLEN BRADLEY
Enclosed Combination Reversing Magnetic I.E.C. 600V AC NEMA 1/12K (IP66) 1.00-1.60
- Model #:
- 107C-09LD-CB16X-1M
- UPC #:
- 88495166982
- Part #:
- 107C-09LD-CB16X-1M
Siemens Magnetic Starters – Disconnect Combination are electrically operated motor controllers that combine contactors, overload relays, and short circuit protection.
Purpose: Control automated equipment, stopping the electrical flow if there is an overload. They can also power equipment up and down remotely and automatically.
Features: Short circuit protection: In the form of circuit breakers or disconnect switches
Overload protection: Magnetic starters provide overload protection
Under-voltage protection: Magnetic starters provide under-voltage protection.
Automatic cutoff: Magnetic starters automatically cutoff in the event of a power failure.
Siemens offers a wide range of starters for various sectors. Some examples include:
Full voltage non-reversing (FVNR) starters designed for full voltage across-the-line starting of single or 3-phase squirrel cage motors. They can also be used as the primary control of wound rotor motors.
