Abstract: A fabric pressure switch includes a first resilient conductive tissue, a second resilient conductive tissue, and a support tissue. The support tissue is arranged between and connects the first resilient conductive tissue and the second resilient conductive tissue. The first resilient conductive tissue, the second resilient conductive tissue, and the support tissue are unitarily combined through knitting to form the fabric pressure switch.

Abstract: A moisture-retaining and electrically conductive structure includes at least one electrically conductive textile unit and at least one moisture-retaining textile unit, wherein the electrically conductive textile unit and the moisture-retaining textile unit are interlaced and woven together to form a planar structure. With such a structure, fabric of the same layer can provide both functions of moisture retention and electrical conduction and may improve the lifespan and electrical conductivity.

Abstract: A structure of three-dimensional electrically conductive fabric includes a resilient conductive tissue, a foundation tissue, and a support tissue. The support tissue is arranged between and connects the resilient conductive tissue and the foundation tissue. The resilient conductive tissue, the foundation tissue, and the support tissue are unitarily combined through knitting to form the structure of three-dimensional electrically conductive fabric.

Abstract: An improved moisture-retaining and electrically conductive structure includes a plurality of moisture-retaining and electrically conductive yarns that is woven to form a planar structure, wherein each of the moisture-retaining and electrically conductive yarns is formed by blending a plurality of electrically conductive fibers and a plurality of moisture-retaining fibers. With such a structure, fabric of the same layer can provide both functions of moisture retention and electrical conduction and may improve the lifespan and electrical conductivity.

Abstract: A woven electrical connection structure including a first conductive yarn, a conductor and a fastening string is provided. The conductor is directly stacked on and electrically connected to the first conductive yarn. The fastening string can be further applied to sew the conductor on the first conductive yarn. Additionally, the conductor can also be replaced by a second conductive yarn. Similarly, the second conductive yarn can be stacked on or wound around the first conductive yarn to make an electrical connection. The fastening wire can be applied to sew the first conductive yarn and the second conductive yarn together.