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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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CAMEL TECHNOLOGY |
SNUBBER CAPACITORS ◆Polypropylene as dielectric for achieving low losses ◆Aluminium foil as electrodes to achieve maximum dv/dt ◆ Special mechanical construction to achieve minimum series inductance ◆Impregnated elements to eliminate corona SPECIFICATION: 1. CAPACIT |
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Desde 2024. D4U Semiconductor.
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