GREENVILLE, S.C., March 18, 2015 (GLOBE NEWSWIRE) — AVX Corporation, a leading manufacturer of passive components and interconnect solutions, has introduced the highest Q 01005 MLCCMultiple-layer capacitors interleave dielectric and electrode layers. This type of capacitor has increased current handling capacity, higher Q, and lower internal series resistance than conventional capacitors of the same size and capacitance. available on today’s market for ultra high frequencyThe number of complete cycles or vibrations per unit of time. Rate of alternation in an AC current. Expressed in cycles per second or hertz (Hz). (UHF) band applications (300MHz-3GHz).
The first part number of the new CU Series ultralow ESRLow Equivalent Series Resistance C0GThe main differences between ceramic dielectricThe insulating material between the plates of the capacitor. The material is chosen for its ability to permit electrostatic attraction and repulsion to take place across it. The material will have the property that energy required to establish an electric field is recoverable in whole or in part, as electric energy. In other words, a good dielectric material is a poor conductor of electricity while being an effective supporter of electrostatic fields. types are the temperature coefficient of capacitanceThat property of a system of conductors and dielectrics which permits the storage of electricity when potential difference exists between the conductors. Its value is expressed as the ratio of a quantity of electricity to a potential difference. A capacitance value is always positive., and the dielectricThe insulating material between the plates of the capacitor. The material is chosen for its ability to permit electrostatic attraction and repulsion to take place across it. The material will have the property that energy required to establish an electric field is recoverable in whole or in part, as electric energy. In other words, a good dielectric material is a poor conductor of electricity while being an effective supporter of electrostatic fields. loss.Ceramic capacitors tend to have low inductance because of their small size. (NP0The main differences between ceramic dielectricThe insulating material between the plates of the capacitor. The material is chosen for its ability to permit electrostatic attraction and repulsion to take place across it. The material will have the property that energy required to establish an electric field is recoverable in whole or in part, as electric energy. In other words, a good dielectric material is a poor conductor of electricity while being an effective supporter of electrostatic fields. types are the temperature coefficient of capacitanceThat property of a system of conductors and dielectrics which permits the storage of electricity when potential difference exists between the conductors. Its value is expressed as the ratio of a quantity of electricity to a potential difference. A capacitance value is always positive., and the dielectricThe insulating material between the plates of the capacitor. The material is chosen for its ability to permit electrostatic attraction and repulsion to take place across it. The material will have the property that energy required to establish an electric field is recoverable in whole or in part, as electric energy. In other words, a good dielectric material is a poor conductor of electricity while being an effective supporter of electrostatic fields. loss.Ceramic capacitors tend to have low inductance because of their small size.) MLCCs, the CU10 01005 MLCCMultiple-layer capacitors interleave dielectric and electrode layers. This type of capacitor has increased current handling capacity, higher Q, and lower internal series resistance than conventional capacitors of the same size and capacitance., exhibits typical Q values of 290 at 1GHz for a 4pF capacitanceThat property of a system of conductors and dielectrics which permits the storage of electricity when potential difference exists between the conductors. Its value is expressed as the ratio of a quantity of electricity to a potential difference. A capacitance value is always positive., which makes it ideal for reducing power consumption and improving battery efficiency in the high frequencyThe number of complete cycles or vibrations per unit of time. Rate of alternation in an AC current. Expressed in cycles per second or hertz (Hz). power amplifier circuits within multifunctional and multiband RF communication devices, including: smartphones, tablets, handheld scanners, camera sensor modules, and telecommunications equipment.
The new CU Series ultralow ESRLow Equivalent Series Resistance MLCCs feature low-resistance internal copper electrodes and interior structures that have been carefully optimized to reduce resistance. The series also exhibits highly accurate and evenly distributed capacitances spanning 0.5pF to 22pF, which, combined with the series’ outstanding ESRLow Equivalent Series Resistance, effectively mitigates impedanceThe total opposition that a circuit offers to the flow of alternating current or any other varying current at a particular frequencyThe number of complete cycles or vibrations per unit of time. Rate of alternation in an AC current. Expressed in cycles per second or hertz (Hz).. It is a combination of resistance R and reactance X, measured in ohms. mismatching between circuits and subsequently preserves both power and battery life.
"Exhibiting the world’s highest Q value, the new subminiature CU10 MLCCs allow RF design engineers to achieve a meaningful reduction in the power consumption of ultra high frequencyThe number of complete cycles or vibrations per unit of time. Rate of alternation in an AC current. Expressed in cycles per second or hertz (Hz). circuits, which subsequently improves battery efficiency," said Kazushige Takamori, marketing manager at AVX. "Consequently, the CU10 provides engineers with an effective and robust solution for satisfying the continual consumer demand for extended battery lifetimes in smartphones and other devices that must continuously support high speed and high data rate communications."
