Smart Fabric Sensors

In an era of world-wide engineering, there is a growing need to utilize smart sensors on the market. Although some brands already have them incorporated into clothing, we often overlook this technology for further development and creation. Meccanica Luca has developed a smart fabric sensor which uses infrared light to detect various air and water vapor concentrations, active body heat, color variations, etc.


Smart fabric sensors are a type of electronic device that can be embedded into fabrics or clothing to monitor and track physical activity, health, and other conditions. The sensors can be used to monitor heart rate, blood pressure, breathing, and many other activities. There are many different types of smart fabric sensors, including those that measure heart rate, blood pressure, breathing, sweat rate, calories burned, motion activity, light exposure, and temperature. Some of the most popular fabrics that are being used for smart fabric sensors include cotton, polyester, and wool. The main advantages of using smart fabric sensors are that they are very lightweight and easy to attach to clothing or fabrics. They also have a long battery life and can be monitored remotely via mobile apps or website. Unfortunately, there are also some disadvantages to smart fabric sensors. For example, they tend to be costly compared to traditional medical devices and they are not currently widely available in the market.

How sensors work

When fabric is woven, tiny sensors are embedded in the fabric. When the fabric is moved, these sensors register the movement and send information about it to the controller. This allows the controller to control the device based on what is happening on the garment.

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Some common uses for this technology include controlling lights, motors, and even temperature. The possibilities are endless and with continued development, there’s no telling what new applications will be created.

Using fabric sensors with ATMO/Qi

In this blog we will discuss how to use fabric sensors with ATMO/Qi and what are their benefits. We will also show some examples of how to use them in your products. Fabric sensors are becoming increasingly popular due to their numerous advantages over other sensing technologies. They are particularly well suited for wearables, as they minimize the burden on the user’s arm or body and can be integrated into various garments. One of the advantages of fabric sensors is that they do not require any external power supply, which is an important consideration for devices that must be battery-powered. This blog will discuss how to use fabric sensors with ATMO/Qi. We will also show some examples of how to use them in your products.

Smart fabrics and their use cases

A smart fabric is a textile whose properties can be controlled, monitored, or altered using electronic devices. Applications for smart fabrics include health and fitness tracking, environmental sensing, security and identification, and communication systems. Smart fabrics are made up of a thin layer of electronic material embedded in the fabric. This material can be used to sense temperature, humidity, pressure, movement, and other characteristics of the environment. The information gathered by the sensors can then be used to control the performance of the fabric or to transmit detected data to a computer or other device.

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The first commercial use of smart fabrics was in athletic apparel. A thin film of aluminum that measures electrical resistance was embedded in Lycra clothing to track wearer activity levels and provide feedback to smartphones or computers. In another example, Nike’s Activewear Urban Elite line uses tiny sensors embedded in the fabric to recognise when a person has stopped moving and sends an alert to a companion phone indicating that it’s time to get up from their chair. As their capabilities continue to expand, smart fabrics are beginning to find applications beyond sportswear. For example, Mondriaan Design Innovation developed Waistcoat+, a waterproof raincoat made from woven smart fabric that

Fabric sensors used in households

Fabric sensors have begun to make their way into households, as they offer advantages over traditional physical sensors. One such advantage is that fabric sensors are not affected by moisture or air pollutants. In addition, they can be more discreet and less obtrusive than traditional sensors.