IEC Motor Starters
Non-Reversing Starters with Electronic Overloads
These non-reversing IEC motor starters with electronic overload relays connect and disconnect power to motors and other high-current equipment and machinery in a single direction. Electronic overload relays trigger motor starters to break electrical connections with downstream equipment once the current reaches a pre-determined range of full-load amperage. They have adjustable current settings and use semiconductors to monitor for overload conditions and trip once the current exceeds that set point. Electronic overload relays turn circuits on and off faster, are more accurate, and have longer service lives than thermal overload relays.
3 Motor Pole Starters
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Enclosed, Non-Reversing Starters with Electronic Overloads
These non-reversing IEC motor starters with electronic overloads have enclosures that protect their internal components from impacts, debris, and dust. Non-reversing motor starters connect and disconnect power to motors and other high-current equipment and machinery in a single direction. Electronic overload relays trigger motor starters to break electrical connections with downstream equipment once the current reaches a pre-determined range of full-load amperage. They have adjustable current settings and use semiconductors to monitor for overload conditions and trip once the current exceeds that set point. Electronic overload relays turn circuits on and off faster, are more accurate, and have longer service lives than thermal overload relays.
3 Pole Motor Starters
Exterior Operator Controls: None
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Exterior Operator Controls: STOP/START Push Buttons
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Exterior Operator Controls: HAND/OFF/AUTO Selector Switch
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Reversing Starters with Electronic Overloads
These reversing IEC motor starters with electronic overloads invert current flow to allow motors to operate in forward and reverse directions. Electronic overload relays trigger motor starters to break electrical connections with downstream equipment once the current reaches a pre-determined range of full-load amperage. They have adjustable current settings and use semiconductors to monitor for overload conditions and trip once the current exceeds that set point. Electronic overload relays turn circuits on and off faster, are more accurate, and have longer service lives than thermal overload relays.
3 Pole,
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