■ 제품필수정보
제조사 |
Eaton |
제조사품명 |
278662 FAZ-C2/1N |
간략설명 |
Eaton xEffect FAZ MCB, 1P+N Poles, 2A Curve C, 240V AC, 48V DC, 10 kA Breaking Capacity, MCB |
■ 제품사양
Number of Poles = 1P+N
Current 등급 = 2A Tripping Characteristics =
타입 C Rated AC Voltage = 240V Rated DC Voltage = 48V
시리즈 = FAZ Breaking Capacity at Maximum Voltage Rating = 10 kA Circuit Breaker
타입 = MCB Mounting Style = DIN Rail Mount Width = 66mm Length = 17.8mm Depth = 80mm Reset Actuator
타입 = Toggle Switch IEC 898; BS/EN60-898; EN50 022/DIN46277-3 (BS5584). FAZ-C*/* ; FAZ-S*/* = IEC/EN60947-2. Eaton FAZ
시리즈 MCBs. Eaton FAZ- miniature circuit breakers are Current limiting design provides fast short-circuit interruption that reduces the let-through energy that can damage the circuit, Trip-free design. Breaker cannot be defeated by holding the handle in the ON position. Features and Benefits. Thermal-magnetic overcurrent protection Power to the circuit breakers can be fed from the line or load side Clear indication of contact position via front switch toggle Easy installation on DIN rail. Module width of only 17.5 mm (per pole) Six levels of short-circuit protection, categorized by B, C, D, K, S and Z curves Small modular width of the device and accessories saves space in the panel or equipment, which can lead to cost savings Dual rated for IEC 60947-2 standard Module widths: 1 Pole 17.5mm, 2 pole 35mm and 3 pole 52.5mm. Standards. IEC 60947-2 Relates to Low Voltage Circuit Breakers for use in industrial and similar Installations. In the UK traditionally known as moulded case circuit breakers (MCCB ??s) and also air circuit breakers (ACB ??s). Q: What is the differences in the Tripping Curves B, C, D and S?. A: Curve B: Tripping: 3 to 5 times the rated current. Applications: protection of generators, persons, very long cables Curve C: Tripping: 5 to 10 times the rated current Applications: protection of circuits and general applications Curve D: Tripping: 10 to 14 times the rated current Curve S Tripping 13 to 17 times the rated current Suitable for applications where high levels of inrush current are expected. Instantaneous trip is 13??7X rating of device (In). The high magnetic trip point prevents nuisance tripping in high inductive applications such as motors, transformers and power supplies