A smart fabric may include a smart material such as an Electroactive Polymer (EAP). An adaptive garment formed from the smart fabric may change textile density based on user needs, sensor states, context, and other inputs. In various embodiments, the EAP enables the adaptive garment to change textile density based on a sport or activity, based on calendar or scheduled events, or based on user preferences. In various embodiments, these smart fabrics may be implemented in sporting garments, uniforms, multiple-day clothing (e.g., for travel or military usage), furniture fabric, curtains, or other implementations.

The elasticized cushioned thermal glove provides heating, cooling, and compression modalities. The constant fluidity of the gel disposed in the gel bladders substantially throughout the glove palm side is in constant fluidity when heated and cooled. The gel is pre-heated via a power module, heatable when in use, and also pre-cooled prior to use. The glove is also provided as a compression glove to alleviate pain, swelling, and to provide for support for those in need. As the glove provides these heating and cooling advantages, fingers can be left in an open state to enhance dexterity as opposed to full-fingered gloves.

A voltage control device in one aspect of the present disclosure includes an appliance connector, a voltage output circuit, a manual switch, and a controller. The voltage output circuit outputs an operating voltage based on a direct voltage received from a direct-current power source. In response to a first electric appliance being connected to the appliance connector, the controller controls the voltage output circuit so as to fix the operating voltage. In response to a second electric appliance being connected to the appliance connector, the controller controls the voltage output circuit so as to vary the operating voltage in accordance with a manual operation applied to the manual switch.

One variation of a method for fabricating a garment includes: applying a first mask to a first side of a fabric substrate coated with a conductive material; applying a second maskmirrored image of the first maskto a second side of the fabric substrate opposite the first side; applying an etchant to the fabric substrate to remove conductive material outside of the first mask; arranging a conductive interface pad of a component carrier over an electrode defined by remaining conductive material on the fabric substrate, the component carrier including a flexible substrate and a rigid electrical component mounted to the flexible substrate, the conductive interface pad extending from a terminal of the rigid electrical component across a region of the flexible substrate; mechanically fastening the component carrier to the fabric substrate to form a garment insert including an electrical circuit; and incorporating the garment insert into the garment.

One variation of a method for fabricating a garment includes: applying a first mask to a first side of a fabric substrate coated with a conductive material; applying a second maskmirrored image of the first maskto a second side of the fabric substrate opposite the first side; applying an etchant to the fabric substrate to remove conductive material outside of the first mask; arranging a conductive interface pad of a component carrier over an electrode defined by remaining conductive material on the fabric substrate, the component carrier including a flexible substrate and a rigid electrical component mounted to the flexible substrate, the conductive interface pad extending from a terminal of the rigid electrical component across a region of the flexible substrate; mechanically fastening the component carrier to the fabric substrate to form a garment insert including an electrical circuit; and incorporating the garment insert into the garment.

One variation of a method for fabricating a garment includes: applying a first mask to a first side of a fabric substrate coated with a conductive material; applying a second maskmirrored image of the first maskto a second side of the fabric substrate opposite the first side; applying an etchant to the fabric substrate to remove conductive material outside of the first mask; arranging a conductive interface pad of a component carrier over an electrode defined by remaining conductive material on the fabric substrate, the component carrier including a flexible substrate and a rigid electrical component mounted to the flexible substrate, the conductive interface pad extending from a terminal of the rigid electrical component across a region of the flexible substrate; mechanically fastening the component carrier to the fabric substrate to form a garment insert including an electrical circuit; and incorporating the garment insert into the garment.

Methods and apparatus relating to wireless warmers are described. An embodiment integrates wireless warming into an article of clothing. For example, the article of clothing includes a heating element to receive electromagnetic energy from one or more wireless power transmitter coils based at least in part on one or more signals. Other embodiments are also disclosed and claimed.

Heated clothing with a tightness adjustable function includes an outer fabric layer and an inner liner layer. Heating sheets are securely disposed between the outer fabric layer and the inner liner layer. A back waist region corresponding to heating sheets is provided with an adjustment structure configured to tighten the heated clothing. In the present application, the adjustment structure can tighten the fabric of regions of the heating sheets. Moreover, the adjustment structure is concealed within the heated clothing.

An IoT-based smart thermal wear includes thermal material that retains heat allowing wearers to work more efficiently and lower any risk of accidents, the IoT-based smart thermal wear being linked to a smart device and comprising an outer member, inner member, heat-insulating filler, heating-producing material, power unit, and a control unit so as to facilitate effective temperature control.

One variation of a method for fabricating a garment includes: applying a first mask to a first side of a fabric substrate coated with a conductive material; applying a second maskmirrored image of the first maskto a second side of the fabric substrate opposite the first side; applying an etchant to the fabric substrate to remove conductive material outside of the first mask; arranging a conductive interface pad of a component carrier over an electrode defined by remaining conductive material on the fabric substrate, the component carrier including a flexible substrate and a rigid electrical component mounted to the flexible substrate, the conductive interface pad extending from a terminal of the rigid electrical component across a region of the flexible substrate; mechanically fastening the component carrier to the fabric substrate to form a garment insert including an electrical circuit; and incorporating the garment insert into the garment.