Capacitors (Latin term: condensus = compressor) are capacitive, i.e. they store electric charge. The physical unit of measure for capacity [C] (Latin term: capacitas = capacity) is Farad [F] (in honour of the English physicist and chemist Michael Faraday). Capacitors consist of two electrodes (surfaces conducting electricity) which are arranged close to each other, and a dielectric (insulating layer) in between.
Capacitors (abbr. cap) are frequency-dependent resistors. This is an important property for audio applications because capacitors can filter out low frequencies (i.e. low tones) from music signals. As the filter effect decreases with increasing frequency, the reverse conclusion is: The lower the capacity, the higher the filter effect (i.e. the higher the separating frequency).
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals. -
Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap RAW series have foils with surfaces which are roughened by a special etching process thus enlarging the surface. As the capacity of a capacitor is proportional to their surface, this process provides the smallest and cheapest Mundorf audio capacitor. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making t -
Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals.
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap RAW series have foils with surfaces which are roughened by a special etching process thus enlarging the surface. As the capacity of a capacitor is proportional to their surface, this process provides the smallest and cheapest Mundorf audio capacitor. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making t
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals.
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap RAW series have foils with surfaces which are roughened by a special etching process thus enlarging the surface. As the capacity of a capacitor is proportional to their surface, this process provides the smallest and cheapest Mundorf audio capacitor. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making t
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals.
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap RAW series have foils with surfaces which are roughened by a special etching process thus enlarging the surface. As the capacity of a capacitor is proportional to their surface, this process provides the smallest and cheapest Mundorf audio capacitor. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making t
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals.
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals.
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap PLAIN series are made of smooth and thus low-loss foil. This has a positive effect on the sound characteristics. Music is reproduced in more details and nuances. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making them suitable for music signals.
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Polarised electrolytic capacitors which have the most compact design and are therefore used for very high capacities (e.g. for the voltage supply of amplifiers) cannot transfer any audio signals because audio signals are AC signals. The bipolar electrolytic capacitors of the ECap AC Audio Coupling & Signal Cap RAW series have foils with surfaces which are roughened by a special etching process thus enlarging the surface. As the capacity of a capacitor is proportional to their surface, this process provides the smallest and cheapest Mundorf audio capacitor. Bipolar electrolytic capacitors such as the ECap AC series have a second aluminium foil providing AC voltage resistance and thus making t
