New Exxelia Sif Safco Screw-Terminal Capacitors Combine Ultra-Long Life with High Energy Density
New Yorker Electronics is distributing the newest Exxelia Sic Safco Long-Life Aluminum Electrolytic Capacitor. The Felsic HV family of aluminum electrolytic screw terminal capacitors provides great performances in energy density combined with an ultra-long lifetime.
For instance, 6,800µF @450V fit into a volume of Ø77x220mm and can withstand 200,000 hours between 0 to 70°C under 37Amps, which makes them the perfect choice for use in rolling stock traction systems or the concurrent versioning system (CVS).
The series also has one of the lowest ESR of its class with less than 10mΩ in most cases. Products are available for voltages from 160 to 450Vdc, and offer capacitance values from 1500μF up to 47,000μF – ensuring the best compromise between reliability and compactness.
Exxelia screw terminal aluminum electrolytic capacitors are large capacitors supporting high energy loads. High energy density and lifetime are the top features of these capacitors as they are used in hi-rel applications. Showcased last year at PCIM Europe, the Felsic HV aluminum electrolytic screw terminal capacitor is most often used in aviation, military, medical and railway applications.
- Long Lifetime
- High ripple current
- High power
- Low ESR
- High energy density
- Energy storage
- Power electronics: converters, current inverters
- Switch mode power supplies
- Magnetization, welding machines, flash
- Circuit with high impulse current
New Yorker Electronics is a franchise distributor of Exxelia Sic Safco and carries its full line of electrolytic aluminum capacitors including screw terminal capacitors, non-cylindrical radial solder capacitors, cylindrical radial capacitors, radial solder capacitors and axial capacitors.
New Yorker Electronics, http://www.newyorkerelectronics.com/Exxelia_Felsic-HV_Electrolytic_Capacitors
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ST800: 800amp Service Tester
1. Test Integrity of Secondary Service
2. Identify Secondary Cables
3. Identify Feed In and Feed Out at Padmount
4. Identify Energized and De-Energized Cables