Its use stands to reduce, or even eliminate, the need for frequent charging of devices and batteries. Piezoelectricity is a green form of energy since it harvests electricity from ambient sources. They are also relatively inexpensive to produce. They can be produced on a small or large scale and manipulated into many different shapes and forms. One potential use for this technology is to allow wearable devices to be charged from body movement, pressure or other external forces.īulk piezoelectric components are polycrystalline ceramic components containing metal oxides. The converse piezoelectric effect is the dimensional change that results from an applied electrical field. The direct piezoelectric effect is the process through which an electrical charge is produced as a result of an applied stress, mechanical, thermal or other. The science behind piezoelectricity states that certain materials will produce an electrical charge when force or pressure is applied. The use of piezoelectric components in wearable technology is an emerging solution for this issue. Producers of wearable technology are then tasked with creating devices that meet this demand. Consumers of wearable technology want the convenience of a portable device without the need for frequent charging or bulky and expensive batteries. With the vast amount of wearable technology available, the demand for compact devices with smaller batteries, or no batteries at all, and longer charge duration has presented a challenge. All Rights Reserved.How Do Piezoelectric Components Play a Part in Wearable Technology? Louis, Nevada, New Hampshire, New Jersey, New York, North Carolina, Ohio, Cincinnati, Columbus, Dayton, Toledo, Cleveland, Oregon, Pennsylvania, Rhode Island, Texas, Houston, Dallas, Utah, Vermont, Washington, Wisconsin, as well as Canada and Mexico, and more. Serving the United States, including California, Los Angeles, San Francisco, San Diego, Colorado, Denver, Connecticut, Delaware, Florida, Georgia, Atlanta, Illinois, Chicago, Springfield, Indiana, Terre Haute, Lafayette, Evansville, Bloomington, Columbus, Muncie, Fort Wayne, South Bend, Kokomo, Kentucky, Louisville, Lexington, Maryland, Massachusetts, Michigan, Detroit, Lansing, Grand Rapids, Minnesota, Minneapolis, Missouri, St. We do not create long-term value by merely complying with regulations, but we go beyond compliance to find ways to green our operations and our products to ensure continuity of the material and human resources that we need to operate the business. We believe that making sustainable choices in the way we conduct our business creates short-term and long-term value for our stakeholders. Piezo Technologies – Headquarters, Manufacturing & Product DevelopmentĨ431 Georgetown Road, Suite 300 - Indianapolis, IN 46268 - Ph: +1.317.876.4670Īt Amphenol-ASTG, we make Quality, Safety and Environmental Protection a top priority. Contact us to discuss the benefits.įor more information or a project quote regarding piezoelectric ceramics for ultrasonic transducers, please contact us. HIFU (High Intensity Focused Ultrasound)ĭid you know Piezo Technologies provides Next Higher Assemblies (NHA’s)? Take advantage of our technical knowledge and production capability to help you build your assemblies.Piezo Technologies develops a wide range of the highest quality piezoelectric ceramics to the manufacturers of acoustic and ultrasonic transducers for:Īmong the many possible applications for ultrasonic transducers, these piezoelectric ceramic materials can be used for: View our manufacturing capabilities and tolerancing information here. Piezo Technologies has been a global leader in the research and development of advanced materials requiring superior technical knowledge and production experience. Piezo Technologies creates advanced piezoelectric ceramics for use in ultrasonic transducers. Home > Piezoelectric Ceramics Piezoelectric Ceramics
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