8536SBO2V01H20S -
Starter, Full Voltage, Non-Reversing, NEMA Size: 0, 18A, 3 Phase, 3 Pole, Open
聲明:圖片僅供參考,請(qǐng)以實(shí)物為準(zhǔn)!
- 制造商產(chǎn)品編號(hào):
- 8536SBO2V01H20S
- 倉(cāng)庫(kù)庫(kù)存編號(hào):
- 70060154
由于產(chǎn)品數(shù)據(jù)庫(kù)龐大,部分產(chǎn)品信息可能未能及時(shí)更新,下單前請(qǐng)與銷售人員確認(rèn)好實(shí)時(shí)在庫(kù)數(shù)量,謝謝合作!
8536SBO2V01H20S產(chǎn)品概述
Square D NEMA Type S starters represents the benchmark to which other starters are produced to meet NEMA standards. Square D has added solid state motor overload protection to the family. This technological migration allows Square D customers the ability to “make the same space smarter”, while preserving backward compatibility. The MotorLogic™ Solid State Overload is available as a separate overload, or as part of a starter in any of the open or enclosed configurations. Available in NEMA sizes 00 through 7, the family has earned a solid reputation that no imitation NEMA starter can equal. Today, their simplicity and flexibility continue to place Type S starters ahead of their competition. Class 8536 Type S magnetic starters are used for full voltage starting and stopping AC squirrel cage motors. Melting alloy type thermal overload relays provide motor overload protection. Class 8536 starters are available in NEMA Sizes 00-7. Type S starters are designed for operation at 600 VAC, 50-60 Hz. Features:
Bellcrank Design Optimizes Electrical and Mechanical Life Quick Coil Change Capability Easy Contact Inspection and Replacement NEMA Sizes 00-7 with Horse Power Range of 11⁄2 to 600 and kW Range of 1-450 Normally Open Holding Circuit Contact for Three Wire Control Is Provided as Standard Sizes 00-2 Contactors Use a Class 9999 SX11 Auxiliary Contact as the Holding Circuit Contact Sizes 3-7 Contactors Use a Class 9999 SX6 Auxiliary Contact as the Holding Circuit Contact On Size 00-1 Single Phase Contactors, a Power Pole Is Used as the Holding Circuit Contact and Has the Same Rating as the Power Contacts Wide Variety of Available Enclosures Modification Kits and Accessories Are Available