Crosslink Crosslink EMPAC™

Description
Conductive polymer coatings designed for solid electrolyte capacitor anodes are on the edge of metallic behavior, making them effective in several areas essential to the electronics marketplace: * Increasing the speed at which a capacitor can release its charge - a critical feature for today's high-speed electronics. * Lowering the equivalent series resistance (ESR), which helps reduce energy requirements on circuit boards. * Allowing higher capacitance per unit volume, which means more energy can be created in a smaller area, supporting the drive for device miniaturization. * Adding to these benefits, Crosslink Energy Materials, a division of Crosslink, offers a new-potentially step-change-technolo gy to the capacitor industry.
Description
Conductive polymer coatings designed for solid electrolyte capacitor anodes are on the edge of metallic behavior, making them effective in several areas essential to the electronics marketplace: * Increasing the speed at which a capacitor can release its charge - a critical feature for today's high-speed electronics. * Lowering the equivalent series resistance (ESR), which helps reduce energy requirements on circuit boards. * Allowing higher capacitance per unit volume, which means more energy can be created in a smaller area, supporting the drive for device miniaturization. * Adding to these benefits, Crosslink Energy Materials, a division of Crosslink, offers a new-potentially step-change-technolo gy to the capacitor industry.

Suppliers

Company
Product
Description
Supplier Links
Crosslink
St. Louis, MO, USA
Crosslink EMPAC™
Crosslink EMPAC™
Conductive polymer coatings designed for solid electrolyte capacitor anodes are on the edge of metallic behavior, making them effective in several areas essential to the electronics marketplace: * Increasing the speed at which a capacitor can release its charge - a critical feature for today's high-speed electronics. * Lowering the equivalent series resistance (ESR), which helps reduce energy requirements on circuit boards. * Allowing higher capacitance per unit volume, which means more energy can be created in a smaller area, supporting the drive for device miniaturization. * Adding to these benefits, Crosslink Energy Materials, a division of Crosslink, offers a new-potentially step-change-technolo gy to the capacitor industry.

Conductive polymer coatings designed for solid electrolyte capacitor anodes are on the edge of metallic behavior, making them effective in several areas essential to the electronics marketplace: * Increasing the speed at which a capacitor can release its charge - a critical feature for today's high-speed electronics. * Lowering the equivalent series resistance (ESR), which helps reduce energy requirements on circuit boards. * Allowing higher capacitance per unit volume, which means more energy can be created in a smaller area, supporting the drive for device miniaturization. * Adding to these benefits, Crosslink Energy Materials, a division of Crosslink, offers a new-potentially step-change-technology to the capacitor industry.

Technical Specifications

  Crosslink
Product Category Industrial Coatings
Product Name Crosslink EMPAC™
Type Coating
Chemistry Resin; Polyaniline
Substrate Metallic
Cure / Setting Technology Film Drying; Thermoset
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