Provided is an electronic module comprising at least one electronic component. A thermoelectric cooler is in thermal contact with the electronic component. A temperature controller is capable of determining a device temperature of the electronic component is provided and capable of providing current to the thermoelectric cooler proportional to a deviation of the device temperature from an optimal temperature range.

Provided is an electronic module comprising at least one electronic component. A thermoelectric cooler is in thermal contact with the electronic component. A temperature controller is capable of determining a device temperature of the electronic component is provided and capable of providing current to the thermoelectric cooler proportional to a deviation of the device temperature from an optimal temperature range.

An improved multilayered ceramic capacitor is provided wherein the capacitor has improved heat dissipation properties. The capacitor comprises first internal electrodes and second internal electrodes wherein the first internal electrodes are parallel with, and of opposite polarity, to the second internal electrodes. Dielectric layers are between the first internal electrodes and second internal electrodes and a thermal dissipation channel is in at least one dielectric layer. A thermal transfer medium is in the thermal dissipation channel.

An improved multilayered ceramic capacitor is provided wherein the capacitor has improved heat dissipation properties. The capacitor comprises first internal electrodes and second internal electrodes wherein the first internal electrodes are parallel with, and of opposite polarity, to the second internal electrodes. Dielectric layers are between the first internal electrodes and second internal electrodes and a thermal dissipation channel is in at least one dielectric layer. A thermal transfer medium is in the thermal dissipation channel.

Film capacitor includes capacitor unit that has capacitor elements, upper bus bar, and lower bus bar. Capacitor elements have upper end electrodes and lower end electrodes that are connected to upper bus bar and lower bus bar, respectively. Film capacitor further includes case containing capacitor unit and being filled with filler resin, cooling plate near capacitor unit, and plate springs. Cooling plate is connected to a cooler and discharges heat generated from capacitor elements into the cooler. Plate springs apply an elastic force to capacitor unit in a direction toward cooling plate.

Film capacitor includes capacitor unit that has capacitor elements, upper bus bar, and lower bus bar. Capacitor elements have upper end electrodes and lower end electrodes that are connected to upper bus bar and lower bus bar, respectively. Film capacitor further includes case containing capacitor unit and being filled with filler resin, cooling plate near capacitor unit, and plate springs. Cooling plate is connected to a cooler and discharges heat generated from capacitor elements into the cooler. Plate springs apply an elastic force to capacitor unit in a direction toward cooling plate.

An improved multilayered ceramic capacitor is provided wherein the capacitor has improved heat dissipation properties. The capacitor comprises first internal electrodes and second internal electrodes wherein the first internal electrodes are parallel with, and of opposite polarity, to the second internal electrodes. Dielectric layers are between the first internal electrodes and second internal electrodes and a thermal dissipation channel is in at least one dielectric layer. A thermal transfer medium is in the thermal dissipation channel.

An improved multilayered ceramic capacitor is provided wherein the capacitor has improved heat dissipation properties. The capacitor comprises first internal electrodes and second internal electrodes wherein the first internal electrodes are parallel with, and of opposite polarity, to the second internal electrodes. Dielectric layers are between the first internal electrodes and second internal electrodes and a thermal dissipation channel is in at least one dielectric layer. A thermal transfer medium is in the thermal dissipation channel.

A film capacitor is presented. The film capacitor includes a thermally conductive support. The thermally conductive support includes a core including a first end and a second end. The thermally conductive support further includes a protrusion extending from at least one of the first end and the second end of the core, where at least one of the core and the protrusion includes a phase change material. Further, the film capacitor also includes a plurality of films disposed on at least a portion of the thermally conductive support, where the plurality of films includes a plurality of electrode films and a dielectric film. Further, the thermally conductive support for the film capacitor and a method of forming the film capacitor are also presented.

A film capacitor is presented. The film capacitor includes a thermally conductive support. The thermally conductive support includes a core including a first end and a second end. The thermally conductive support further includes a protrusion extending from at least one of the first end and the second end of the core, where at least one of the core and the protrusion includes a phase change material. Further, the film capacitor also includes a plurality of films disposed on at least a portion of the thermally conductive support, where the plurality of films includes a plurality of electrode films and a dielectric film. Further, the thermally conductive support for the film capacitor and a method of forming the film capacitor are also presented.