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Bio-sensor wearable electrode technology expected to be widely used in wearable devices, smartwear and clothing in the future. 

Conductive Silicone 

Conductive silicone with infinite potential, ElecSil

Type: Fabric combined

Thickness | Tension: 0.3 mm | Up to 400%

Conductivity: <10Ω

Washing | Durability: Washable

ElecSil™ A

  • Metal powder is used as a conductive filler to exhibit high conductivity.

  • A fabric is coated with bottom layer as a highly conductive material. This allows us to minimize performance change depending on the distance from the terminal, evenly showing the same electrical characteristics throughout the electrodes. 

  • Since it is printed directly on the fabric, the process is simple and can be produced based on the production facilities of the existing product on sale.

  • It doesn't rip when you stretch and doesn't fall off when you rub and wash it.

  • It can be used longer than disposable hydrogel electrodes.

ElecSil™ B

  • The carbon black powder used as a conductive filler is harmless and has characteristics of acid and chemical resistance.

  • The coating on ElecSil A compensates for skin irritation by reducing skin contact with the A layer.

  • The surface has excellent adhesion and friction, so it has excellent skin contact, and the pressure of clothes is added. Minimizes abrupt changes in skin contact resistance during activities in which body curvature changes.

  • Does not tear when stretched and does not fall of even when rubbed or washed.

  • Applied over a highly conductive silicone coating, skin-to-skin conductivity is as good as disposable electrodes. 

Material Electrical Characteristics Test

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How to Experiment:

  • Test samples are 7x7 cm wide

  • The initial distance between the measuring probes is 5 cm

  • Repeat stretching with a specific strain range

  • Let's move onto the next segment

  1. After returning, wait for 2 seconds to measure the resistance

  2. Measure the resistance by pulling the strain you set

  3. Measure the resistance while waiting for 2 seconds at the set strain

Test Sample

Elasticity of the Sample

US ECG Standard Electrode Performance Evaluation

< ANSI | AAMI EC12: 2000 Medical Electrode Test Items >

Meets all ANSI | AAMI EC12: 200 standards for ECG disposable hydrogel electrodes

Reusable ElecSil: Disposable electrode performance levels exceed the limits of ECG electrode standard ANSI | AAMI EC12: 2000









10 Hz Impedance average of 12 electrode pairs

10 Hz Impedance average of 12 electrode pairs

DC offset voltage (n=12)

Combined offset Instability and Internal noise

Defibrillation overload recovery (polarization potential)

Rate of change of polarization Potential

After test, 10Hz electrode Impedance

< 2kΩ

< 3kΩ

< 100mV

< 150

< 100mV

< 1mV/sec

< 3kΩ


Blas current tolerance

< 100mV

  • Used for medical electrodes

  • Passed 100% of ECG Electrode Specification

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