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Membrane Switch with Copper Flex Circuit

PRODUCT PARAMETERS

Design Options:

  • Material: Polyester/Polycarbonate
  • Material surface: Glossy/Matt
  • Circuit Material: Silver/FPC
  • Colours: Full range of Pantone, RAL or colour match of your preference. 
  • Rear Adhesives: 3M 467/3M 468/3M 300LSE
  • Selective textures: Anti-scratch/Anti-glare finishes
  • Embossed button/Flat button
  • Tactile or Non-Tactile 
  • Waterproof structure
  • RFI/ESD shielding 
Description
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Description

What is Flexible Printed Circuit(FPC) ?

A Flexible Printed Circuit (FPC) is a type of electronic circuit made on a flexible plastic substrate, typically polyimide or polyester. Unlike traditional rigid PCBs, FPCs can bend and fold, enabling compact and complex designs. They consist of conductive copper traces etched onto the substrate, with a protective coverlay. FPCs offer advantages such as space saving, durability, and better heat dissipation. They are widely used in consumer electronics, automotive, medical devices, aerospace, and industrial equipment for their lightweight, flexible, and resilient nature. This makes them ideal for applications requiring reliable performance in confined or dynamic environments.

What are the Advantages of Membrane Switch?

Flexibility: They can be bent, folded, and twisted without breaking, allowing for more compact and complex designs.

Space Saving: FPCs can be designed to fit into tight spaces and around curves, reducing the overall size and weight of electronic devices.

Durability: Resistant to vibration and movement, which is beneficial in high-motion environments.

Heat Dissipation: Better thermal management due to the thin, flexible nature of the material.

High Density Supports complex and high-density circuitry, enabling more functionality in a smaller area.

Structure and Composition

Substrate: The base material is usually a flexible polymer film such as polyimide or polyester, which provides the necessary flexibility and heat resistance.

Conductive Layers: Copper foil is laminated onto the substrate and then etched to form the circuit patterns. The copper can be single-sided, double-sided, or multi-layered.

Coverlay: A protective layer, often made of a similar polymer, covers the conductive traces to insulate and protect them from environmental damage.

Types of Flexible Circuits

Single-Sided Flex Circuits: Contain one layer of conductive material and are the simplest form.

Double-Sided Flex Circuits: Have conductive materials on both sides of the substrate with via connecting the two sides.
Multi-Layer Flex Circuits: Comprise multiple layers of conductors separated by insulating layers.

Rigid-Flex Circuits: Combine rigid and flexible circuit board technologies to create a single unit that provides both rigid and flexible sections.

Specifications of FPC

Material Selection
Polyamide Films: 0.5mil, 1mil, 1.5mils, 2mils
Themobond Adhesive: Polyamide/Polyester
Copper Foils(RA or ED): ED: 1/2 Oz, 1 Oz, 2 Oz or RA: 1/2 Oz, 1 Oz, 2 Oz
Surface Finished: Electroplate nick-gold, Chemical-plating nickel-gold, electroplate lead-in, electroplate tin unleaded. Chemical-plating tin. gushes out tin, anti-oxidant
Tape Fixing: Pressure Sensitive Adhesive(PSA)
Solder Resists: Coverlay, Photo-Imageable Resist(PIR)
Capabilities
Number of Layer: 1-2 layers
Minimum Trace and Space: 3 mil & 3 mil (1 oz copper)
Smallest Drill Size: 0.2mm
Min. Annular Ring Width: 4 mils
Total Thickness of Part: 45-300 um
PTH Wall Copper Thickness 0.025mm
Flexibility: R=7 180℃ no broken crease (single panel) at 100K times bending
Dielectric Performance: 1000V/mm
Soldering Performance: 260℃, 5s
Thermal Shack Resistance: 260℃, 5s
Peel-off strength: 1.0N/mm
Tolerance
Hole Dia. Tolerance(PTH): ±0.05mm
Hole Dia. Tolerance(NPTH): ±0.05mm
Outline Tolerance: ±0.1mm

*The information & specification are for reference only

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