■ 제품필수정보
제조사 |
Phoenix Contact |
제조사품명 |
1786271 |
간략설명 |
Phoenix Contact CLASSIC COMBICON IC PCB Terminal Block, 5.08mm Pitch, Screw Down Termination |
■ 제품사양
정점 = 5.08mm
장착형태 = Cable Mount
성별 = Male
종료 방법 = Screw Down
Current 등급 = 12A
색상 = Green Voltage Rating = 320 V
시리즈 = CLASSIC COMBICON IC Material = Nylon UL Recognised, EAC. Phoenix Contact CLASSIC COMBICON IC 5.08mm Inverted Plug-in Connectors with Screw Connection. CLASSIC COMBICON IC 5.08 mm pitch inverted plug-in connectors with an inverted pin contact system, terminals rated at 12A / 320 V (Class III/2) and 0.2 - 2.5 mm ;sup>2 ;/sup> screw connections. These CLASSIC COMBICON IC 5.08 mm pitch inverted plug-in connectors can be combined with inverted headers and connectors for shock-proof applications. Part numbers prefixed with 18253 and 18254 have a screw flange. Part numbers prefixed with 18254 and 18256 (IC 2.5 - STGF) have a threaded flange for screw connection using MSTB plugs with a screw flange and can become an inline or panel feed-through terminal block with the IDC-DFR assembly frame. Features and Benefits. ;ul> ;li>Well known connection principle allows worldwide use ;/li> ;li>Easy PCB replacement thanks to plug-in modules ;/li> ;li>Inverted connector with pin contacts for touch-proof device outputs or free-hanging cable/cable connections ;/li> ;li>Can be combined with the MSTB 2.5 range ;/li> ;li>Maximum contact force means a low temperature rise ;/li> ;/ul>. Features and Benefits. Part numbers prefixed with 18253 and 18254 have a screw flange. Part numbers prefixed with 18254 and 18256 (IC 2.5 - STGF) have a threaded flange for screw connection using MSTB plugs with a screw flange and can become an inline or panel feed-through terminal block with the IDC-DFR assembly frame. Well known connection principle allows worldwide use. Easy PCB replacement thanks to plug-in modules. Inverted connector with pin contacts for touch-proof device outputs or free-hanging cable/cable connections. Can be combined with the MSTB 2' ,5 range. Low temperature rise, thanks to maximum contact force