LOW-NOISE MEDICAL CABLE 

Low-Noise Cables Explained

Reducing unwanted interference is important for accurate and dependable measurements when it comes to medical cable assemblies and signal transmission.

A low-noise cable excels at minimizing motion-induced noise, surpassing even electrical noise reduction. This guarantees that the quality of transmitted signals remains unaffected.

Common examples of medical cable assemblies that require low noise include EEG, ECG, and Pulse Oximetry. These applications often demand accurate and clear signal transmission, making low-noise cables essential for maintaining signal integrity.

 LOW NOISE CABLE CHARACTERISTICS 

• 【 Tinsel Wire (Bare or Plating)】
• 【Kevlar Strength Member】
• 【 High-Density Polyethylene Insulation】
• 【 Tinsel Wire Spiral Shielded】
• 【TPU Sheath/Jacket】
• 【 Breaking strength：50kg】

Description:

The tinsel wire is made by drawing and rolling standard electrical copper wire into foil form (flat wire), which is then spirally wound around a central wire. The tinsel wire offers better flexibility, softness, and lightweight properties than round copper wire, and is used in communication cables, shielding wires, and other applications.

Advantage:

Superior Softness and Flexibility: Copper foil wire offers greater softness and flexibility than round copper wire, making it ideal for applications requiring flexibility.

Lightweight: Compared to traditional round copper wire, copper foil wire is lighter, reducing the overall product weight and making it suitable for lightweight wiring needs.

Excellent Electrical Performance: As a conductor, copper has outstanding electrical conductivity, ensuring efficient current transmission and maintaining high conduction efficiency.

Interference Resistance: Due to its spiral-wound structure, copper foil wire has advantages in electromagnetic shielding, effectively reducing external electromagnetic interference.

Versatile Applications: Widely used in communication equipment, electromagnetic shielding wires, cables, and electronic products that require high elasticity and strong anti-interference capabilities.