Abstract: A method of tuning an electrically small antenna comprising a radiating element and a support structure comprises applying a force to the support structure to change a shape or a dimension of the radiating element to increase or decrease a frequency at which the electrically small antenna resonates.

Abstract: A method of tuning an electrically small antenna comprising a radiating element and a support structure comprises applying a force to the support structure to change a shape or a dimension of the radiating element to increase or decrease a frequency at which the electrically small antenna resonates.

Abstract: A method of tuning an electrically small antenna comprising a radiating element and a support structure comprises applying a force to the support structure to change a shape or a dimension of the radiating element to increase or decrease a frequency at which the electrically small antenna resonates.

Abstract: A method of tuning an electrically small antenna comprising a radiating element and a support structure comprises applying a force to the support structure to change a shape or a dimension of the radiating element to increase or decrease a frequency at which the electrically small antenna resonates.

Abstract: A method of tuning an electrically small antenna comprising a radiating element and a support structure comprises applying a force to the support structure to change a shape or a dimension of the radiating element to increase or decrease a frequency at which the electrically small antenna resonates.

Abstract: A structural capacitor and method for manufacturing the structural capacitor. A first layer of nonconductive fiber glass may be formed into a desired shape of the structural capacitor, and then a conductive layer made of carbon fiber pre-impregnated material may be placed on the fiber glass layer. A dielectric layer of parylene may then be coated onto the conductive layer using a conformal vapor deposition process. More conductive and dielectric layers may be added in alternating succession until desired structural and/or electrical properties are achieved. A final layer of fiber glass may then be applied and the resulting structural capacitor may be cured.

Abstract: A structural capacitor and method for manufacturing the structural capacitor. A first layer of nonconductive fiber glass may be formed into a desired shape of the structural capacitor, and then a conductive layer made of carbon fiber pre-impregnated material may be placed on the fiber glass layer. A dielectric layer of parylene may then be coated onto the conductive layer using a conformal vapor deposition process. More conductive and dielectric layers may be added in alternating succession until desired structural and/or electrical properties are achieved. A final layer of fiber glass may then be applied and the resulting structural capacitor may be cured.

Abstract: A structural capacitor and method for manufacturing the structural capacitor. A first layer of nonconductive fiber glass may be formed into a desired shape of the structural capacitor, and then a conductive layer made of carbon fiber pre-impregnated material may be placed on the fiber glass layer. A dielectric layer of parylene may then be coated onto the conductive layer using a conformal vapor deposition process. More conductive and dielectric layers may be added in alternating succession until desired structural and/or electrical properties are achieved. A final layer of fiber glass may then be applied and the resulting structural capacitor may be cured.

Abstract: A structural capacitor and method for manufacturing the structural capacitor. A first layer of nonconductive fiber glass may be formed into a desired shape of the structural capacitor, and then a conductive layer made of carbon fiber pre-impregnated material may be placed on the fiber glass layer. A dielectric layer of parylene may then be coated onto the conductive layer using a conformal vapor deposition process. More conductive and dielectric layers may be added in alternating succession until desired structural and/or electrical properties are achieved. A final layer of fiber glass may then be applied and the resulting structural capacitor may be cured.