A warp-knitted capacitive touch sensor system includes conductive and non-conductive yarns using interlooped stitches that are interlaced, intertwined, and/or spliced into a single conductive pathway having only two connection points to the electronic interface device, across a desired width or length of the textile material.

Provided are textiles comprising one or both of MXene-coated fibers and MXene-coated yarns. The textiles are conductive, electroactive, and the fibers and yarns exhibit favorable mechanical and electrical properties, and can be incorporated into a variety of devices and uses.

An ECG sensor system comprising: a substrate having a first side and a second side, the substrate of a non-conducting material; a plurality of textile-based sensors positioned on the first side, each of the plurality of textile-based sensors spaced apart from one another on the first side, the second side covering one side of the each of the plurality of textile-based sensors as an insulating covering, the each of the plurality of textile-based sensors including conductive fibres interlaced with one another; and a conductive trace connected to the each of the plurality of textile-based sensors, each of the conductive traces for connecting the plurality of textile-based sensors to an electronic controller for sending and receiving electronic signals from a selected pair of the plurality of textile-based sensors.

A wearable sensor, a forming method therefor, and a sensor module. The wearable sensor includes elastic yarns made of an elastic material; and conductive yarns. The conductive yarns and the elastic yarns interweave and form a fabric structure. The conductive yarn has a first end, a second end, and a body portion between the first end and the second end, the body portion include an entry section extending from the first end toward a fold-back region and an exit section returned back from the fold-back region, the entry section and the exit section form at least one intersection, and the entry section and the exit section come into contact at the intersection. In addition to providing the sensing measurement function, said sensor can improve the user experience, and can expand the application field of the sensor.

A system of fibre based temperature sensor integrated into abase fabric layer for a garment, the system comprising: a set of wall fibres interlaced with one another to form a first wall structure defining a first cavity along a length and a second wall structure defining a second cavity along the length, the set of wall fibres comprising nonconductive material; at least one conductive fibre miming along the length within each cavity, such that the set of wall fibres of the wall structures encloses each at least one conductive fibre in order to electrically insulate each at least one conductive fibre from an environment along the length external to the cavities; and a set of base fibres interlaced with one another to form the base fabric layer.

According to an aspect of the present invention there is provided a knitted textile. The knitted textile comprises a knitted textile sensor. The knitted textile sensor comprises an electrically conductive yarn and a plurality of stitches that form a defined sensing stitch pattern. The sensing stitch pattern comprises stitches selected from the group consisting of: jersey stitches; tuck stitches; and/or miss stitches; as well as any combination thereof. The sensing stitch pattern provides a measurable contact resistance that varies with a force applied to the textile. The knitted textile comprises a knitted support structure within which the knitted textile sensor is integrated. The knitted support structure comprises a plurality of stitches that form a defined support stitch pattern, the support stitch pattern comprising stitches selected from the group consisting of: jersey stitches; tuck stitches; and/or miss stitches; as well as any combination thereof. The support stitch pattern has a smaller percentage of tuck stitches than the sensing stitch pattern. The textile is configured to elongate and retract in the wale direction in a repeatable manner, even after multiple washing cycles. Also provided are a garment comprising the knitted textile structure and knitted textile sensor.

An illuminated garment includes a base layer having knitted looped threads that hold in position a plurality of optical fibers. The optical fibers are laid into the base layer during the same knitting cycle as the base layer and are configured to emit light through the respective sides of the optical fibers and along the length of each optical fiber in response to receiving light from a light source through at least one end of the respective optical fibers.

One variation of a method for producing a smart yarn includes: aligning a set of sensing elements offset along a lateral axis in a magazine, wherein each sensing element in the set of sensing elements includes a sensor, a first conductive lead extending from a first side of the sensor along a longitudinal axis perpendicular to the lateral axis, and a second conductive lead extending from a second side of the sensor opposite the first side and along the longitudinal axis; wrapping a set of fibers into a yarn within a wrapping field; feeding a leading end of a first sensing element, in the set of sensing elements, from the magazine into the wrapping field; releasing the first sensing element from the magazine into the wrapping field; encasing the first sensing element between the set of fibers within the yarn; and repeating this process for the set of sensing elements.

An electrical circuit assembly comprising: a circuit component, a fabric-based component, and a fastener is disclosed along with methods for fabricating the electrical circuit assembly and for using the electrical circuit assembly. The circuit component may comprise: a substrate layer comprising an integrated circuit disposed on the substrate layer; and a first conductive linkage electrically coupled to the integrated circuit. The fabric-based component may comprise: a fabric layer comprising a first at least one conductive thread; and a second conductive linkage electrically coupled to the first at least one conductive thread. The fastener may be configured to couple the circuit component and the fabric-based component at the first conductive linkage and the second conductive linkage.

An interactive cord system can include sensing circuitry coupled to a system ground and an interactive cord. The interactive cord can include a plurality of non-conductive lines a plurality of conductive sensing lines at least partially woven with one or more of the plurality of non-conductive lines to form at least one touch-sensitive area along the interactive cord and one or more conductive grounding lines electrically connected with the system ground and extending at least partially along an outer portion of the interactive cord.