Factory source Film Capacitor 104j 630v - CBB13(PPN) Polypropylene Film capacitors – A Friend
Short Description:
Factory source Film Capacitor 104j 630v - CBB13(PPN) Polypropylene Film capacitors – A Friend Detail:
CONSTRUCTION
PPN is the non-induction type,circles the system with the plating polypropylene membrane as the dielectric medium/electrode to become,picks With tin-plating copper wire,epoxy resin envelope.
SPECIAL FEATURES
Small size and light weigh
Low dissipation factor
Low temperature rise
High impact strength
TYPICAL APPLICATIONS
Mainly used in high frequency, DC and impulsion high current condition.E.g. Lamps, Monitor and power supplier etc.
INTERNAL CONSTRUCTION
ELECTRICAL DATA
Operating Temperature :-40℃~+85℃
Capacitance Range : 0.001~0.082μF
Capacitance tolerance :±5%(J) ±10(K) ±20(M)
Voltage proof:1.6UR (3S)
Work Voltage : 100V-1000VDC
Dissipation Factor:0.10%Max at 1KHz,25℃
Insulation Resistance:>30000MΩ(C≤0.1μF);>3000S(C>0.1μF)
GENERAL DATA
Product detail pictures:
Related Product Guide:
Our eternal pursuits are the attitude of "regard the market, regard the custom, regard the science" and the theory of "quality the basic, trust the first and management the advanced" for Factory source Film Capacitor 104j 630v - CBB13(PPN) Polypropylene Film capacitors – A Friend, The product will supply to all over the world, such as: Bangkok , Porto , Rome , With a fully integrated operation system, our company has won a good fame for our high quality goods, reasonable prices and good services. Meanwhile, we have established a strict quality management system conducted in material incoming, processing and delivery. Abiding by the principle of "Credit first and customer supremacy", we sincerely welcome clients from home and abroad to cooperate with us and advance together to create a brilliant future.
By Samantha from Morocco - 2018.12.11 14:13
A nice supplier in this industry, after a detail and careful discussion, we reached a consensus agreement. Hope that we cooperate smoothly.
By Riva from Qatar - 2017.05.02 11:33