FPC soft boards possess outstanding characteristics and offer a wide scope for market development. Evaluating the quality, materials, and performance of FPC soft boards is pivotal for enhancing manufacturing technology, minimizing material wastage, and curbing environmental pollution. Essential equipment, such as a high-current shrapnel micro-needle module capable of transmitting current, is indispensable for conducting these tests and ensuring a stable connection during FPC soft board testing.
The fundamental test standards for FPC soft boards encompass:
1. Inspection of substrate film surface and covering layer appearance.
2. Assessment of successive disc and covering layer deviations, adhesive infiltration, and conductor discoloration under covering layers.
3. Verification of temperature resistance, humidity resistance, voltage endurance, bending resilience, and welding durability compliance.
4. Detection of poor electroplating bonding, missing coatings, etc.
Conducting FPC withstand voltage tests necessitates circuit connection to evaluate current transmission capacity and voltage endurance. The high-current shrapnel micro-needle module serves as the connection interface, facilitating current transmission and conduction within the 1-50A range, exhibiting robust over-current capability and ensuring stable connectivity. Post gold-plating, this module not only demonstrates robust electrical conductivity but also offers a reliable response method for small pitch applications. It accommodates pitch values between 0.15mm-0.4mm, ensuring stable contacts without pinning issues, boasting a service life exceeding 20,000 cycles, thereby minimizing the need for frequent replacements during testing, thus significantly saving time and material costs.
The high-current shrapnel micro-needle module features low manufacturing complexity, swift delivery times, prolonged service life, and consistent performance. It substantially enhances test efficiency in FPC soft board evaluations and augments FPC soft board output.
As a leading FPC soft board manufacturer, WellCircuits Limited takes immense pride in its collaborations with numerous clients. At WellCircuits Limited, we stand ready to support our new clients in every possible manner. Please feel free to reach out to us anytime for any queries or assistance.
The fundamental test standards for FPC soft boards encompass:
1. Inspection of substrate film surface and covering layer appearance.
2. Assessment of successive disc and covering layer deviations, adhesive infiltration, and conductor discoloration under covering layers.
3. Verification of temperature resistance, humidity resistance, voltage endurance, bending resilience, and welding durability compliance.
4. Detection of poor electroplating bonding, missing coatings, etc.
Conducting FPC withstand voltage tests necessitates circuit connection to evaluate current transmission capacity and voltage endurance. The high-current shrapnel micro-needle module serves as the connection interface, facilitating current transmission and conduction within the 1-50A range, exhibiting robust over-current capability and ensuring stable connectivity. Post gold-plating, this module not only demonstrates robust electrical conductivity but also offers a reliable response method for small pitch applications. It accommodates pitch values between 0.15mm-0.4mm, ensuring stable contacts without pinning issues, boasting a service life exceeding 20,000 cycles, thereby minimizing the need for frequent replacements during testing, thus significantly saving time and material costs.
The high-current shrapnel micro-needle module features low manufacturing complexity, swift delivery times, prolonged service life, and consistent performance. It substantially enhances test efficiency in FPC soft board evaluations and augments FPC soft board output.
As a leading FPC soft board manufacturer, WellCircuits Limited takes immense pride in its collaborations with numerous clients. At WellCircuits Limited, we stand ready to support our new clients in every possible manner. Please feel free to reach out to us anytime for any queries or assistance.