How our smart socks make people happy?

Simple and comfortable to wear. The pressure is only applied when the device is activated and worn on the leg.
Can be worn without interfering with everyday attire. Depending on their needs, the user can decide whether to leave the device on all day or just for a few hours.
Multiple working modes with pressure adjustment and massage mode
Powered by a 2000mAh rechargeable battery, devices can operate for up to eight hours.

Our Innovation with Smart textile material

Example how to connect IPMCs material on the bottom side of product

Smart Textile Material - Lonic polymer metal composites (IPMCS)

Ionic polymer metal composites (IPMCs) are a subset of electroactive polymers that are classified as soft.

Thus, IPMC functions as both an actuator and a sensor. 

IPMCs will be inserted and secured within the smart socks in order to provide complete leg support.

The energy for each IPMC will be supplied by the conductive wire.

Printed Circuit board

The printed circuit board controls the system which comprises battery, low energy Bluetooth, a power section and circuit traces.

The rechargeable battery can be selected as main power supply to provide power to the power management section which generates the essential voltages to the IPMC. Each IPMC segment is supplied by different voltage levels which causes different mechanical deformation or pressure on the leg. The peak value is at ankle and gradually reduce to calf, knee and thigh.

Block diagram of pressure generator and pressure sensing

Bluetooth Low Energy (BLE) system on a chip (SoC) for control and wireless data communication for a user interface (UI). The BLE interface supports wireless, long-range communication to smartphones. It sends all the pressure sensing data to mobile apps; therefore, the app will analyze the current user’s situation and instruct the product to apply pressure accordingly to various parts of the leg.

The flowchart of principal working

The doctor provides some information of initial setting for pressure level. The user enters this information on the smart phone application.

The physician imparts some details regarding the initial adjustment of the pressure level. This data is entered by the user into the application on their smart phone.
Upon receiving this input via Bluetooth, the device triggers the corresponding compression level in the socks.
Additionally, compression socks transmit pressure value feedback to the device to ensure that the correct pressure value and mode are applied.
In the event that the pressure or working mode are inaccurate, the device notifies the user via mobile applications.
  • The physician imparts some details regarding the initial adjustment of the pressure level. This data is entered by the user into the application on their smart phone.
  • Upon receiving this input via Bluetooth, the device triggers the corresponding compression level in the socks.
  • Additionally, compression socks transmit pressure value feedback to the device to ensure that the correct pressure value and mode are applied.
  • In the event that the pressure or working mode are inaccurate, the device notifies the user via mobile applications.