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Custom Medical Device Wire Harness Cable Assembly RFI Shielding

Product Details

Place of Origin: China

Brand Name: BEXKOM

Certification: UL/CE/ROHS/REACH/ISO9001/ISO13485/MSDS/COC

Model Number: BK-Cab-XXX

Payment & Shipping Terms

Minimum Order Quantity: 5pcs

Price: USD1.5~9.9/pc

Packaging Details: PE bag + Carton Box

Delivery Time: 7 ~15 days

Payment Terms: L/C, T/T

Supply Ability: 100000pairs/month

Get Best Price
Product Details
Highlight:

Medical Device Wire Harness Cable

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RFI Shielding Wire Harness Cable

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Medical Device cable assembly harness

Cable Jacket:
Silicon
Connector:
1P Medical Series
Overmoulding:
Yes
Application:
Medical
Cable Jacket:
Silicon
Connector:
1P Medical Series
Overmoulding:
Yes
Application:
Medical
Product Description

Creating a cable assembly with silicone cables for a patient monitor involves several critical considerations to ensure reliability, patient safety, and durability. Here’s a guide on how to approach this:

Key Components and Materials

  1. Silicone Cable:

    • Flexibility: Silicone cables are extremely flexible, which is essential for patient monitors that may need to be frequently repositioned or moved.
    • Temperature Resistance: Silicone can withstand a wide range of temperatures, making it suitable for various environments, including those that require sterilization.
    • Biocompatibility: Silicone is biocompatible, ensuring it’s safe for use in devices that may come into contact with skin.
    • Chemical Resistance: Resistant to many chemicals and cleaning agents, which is important for maintaining hygiene and durability in medical environments.
  2. Connectors:

    • Medical-Grade Connectors: Use connectors that are certified for medical use, ensuring they meet safety standards and are compatible with the silicone cable.
    • Overmolding: Consider overmolding the connectors with silicone or other compatible materials to enhance durability, provide strain relief, and ensure a secure connection.
  3. Shielding:

    • EMI/RFI Shielding: For patient monitors, maintaining signal integrity is crucial. Use shielding to protect against electromagnetic interference (EMI) and radio-frequency interference (RFI).
    • Grounding: Ensure proper grounding in the cable assembly to protect against electrical noise and ensure accurate monitoring.

Design Considerations

  1. Biocompatibility:

    • Ensure all materials used in the cable assembly are biocompatible and meet medical standards, such as ISO 10993.
  2. Flexibility and Durability:

    • Cable Strain Relief: Incorporate strain relief features at connection points to prevent wear and tear, particularly where the cable connects to the monitor or sensors.
    • Tensile Strength: Test the cable for tensile strength to ensure it can withstand pulling and bending without damage.
  3. Environmental Sealing:

    • Waterproofing: Consider sealing the cable assembly to protect against moisture and fluids, especially if the monitor will be used in environments where exposure to liquids is common.
    • Chemical Resistance: Ensure the assembly can withstand cleaning agents and disinfectants used in medical settings.
  4. Electrical Performance:

    • Signal Integrity: Use high-quality conductors and insulation materials to maintain signal integrity, ensuring accurate patient monitoring.
    • Low Capacitance: For cables transmitting sensitive signals, choose materials that minimize capacitance to avoid signal degradation.

Manufacturing Process

  1. Prototyping:

    • Develop prototypes to test the cable assembly’s performance, including flexibility, durability, and signal transmission. Prototyping helps in identifying and resolving potential issues before mass production.
  2. Assembly:

    • Cable Preparation: Cut and strip the silicone cables to the required lengths, ensuring clean and precise terminations.
    • Connector Attachment: Attach the connectors securely, ensuring proper alignment and secure electrical connections. Overmolding may be applied at this stage to enhance durability.
    • Shielding Integration: Apply shielding as needed, ensuring it is properly grounded and integrated into the cable assembly.
  3. Testing:

    • Electrical Testing: Conduct tests to ensure the assembly maintains proper electrical continuity, insulation resistance, and signal integrity.
    • Mechanical Testing: Test the assembly for flexibility, tensile strength, and durability under conditions that simulate real-world use.
  4. Quality Control:

    • Implement rigorous quality control processes to ensure every cable assembly meets the necessary medical standards and performs reliably in patient monitoring applications.

Applications

  • Electrocardiogram (ECG) Monitoring: Silicone cables provide the flexibility and biocompatibility needed for accurate and comfortable patient monitoring.
  • Pulse Oximetry: Used to connect sensors that monitor oxygen levels in the blood, requiring durable and reliable connections.
  • Blood Pressure Monitoring: Ensures accurate data transmission from sensors to the monitoring device.

Conclusion

A silicone cable assembly for patient monitors offers the necessary flexibility, durability, and biocompatibility required in medical environments. By focusing on high-quality materials, precise manufacturing processes, and thorough testing, you can create a reliable and safe product tailored to the needs of healthcare providers and patients.

 

Custom Medical Device Wire Harness Cable Assembly RFI Shielding 0