How Dose Flex PCB Coverlay Work step by step?

The coverlay in flex PCB is not applied like a solder mask by coating, 

but is bonded to the circuit surface through a lamination process. 

How Dose Flex PCB Coverlay Work step by step?

The entire process is relatively straightforward and mainly includes the following steps:

1. Pre-cutting and Opening Formation

Before lamination, the flex PCB coverlay is cut to the required size and shape first, and openings for pads, 

vias or component positions should be created in advance using laser cutting, drilling or routing.

2. Alignment

Align the coverlay accurately with the copper traces on the circuit board to ensure that solder pads are exposed and the rest of the traces are covered and protected.

3. Lamination

By heating and applying pressure, the adhesive layer is activated, firmly bonding the flex PCB coverlay to the circuit surface. 

Vacuum lamination is usually used in production to reduce the risk of air bubbles.

4. Curing and Inspection

After lamination is completed, the adhesive layer cures, forming a stable bonding structure. Subsequently,

 the finished boards are inspected to confirm whether the alignment is accurate, the bonding is firm, and whether the insulation performance meets the requirements.

After these steps, the coverlay in the flex PCB will form a sealed and flexible protective layer. When the circuit is bent or moved,

it can deform along with the circuit without cracking or delamination, thus ensuring the long-term stable operation of the circuit.

Primary Functions of Flex PCB Coverlay

The flex PCB coverlay is important because it plays multiple key roles in flexible circuits:

Mechanical Protection

During the process of circuit bending, folding or assembly, the flex PCB coverlay can effectively protect copper traces and reduce damage caused by friction,

 vibration and external forces.

Electrical Insulation

The coverlay in flex PCB has good insulation performance and can prevent short circuits between adjacent traces or different copper layers.

Environmental Protection

The flex PCB coverlay can isolate the circuitry from the external environment, protecting it from moisture, 

dust, oils and chemical contaminants, thereby enhancing the stability of the circuit in complex environments.

Maintaining Flexibility

Unlike the solder mask on rigid PCBs, the flex PCB coverlay is less likely to crack when repeatedly bent or moved and can maintain its flexibility for a long time.

Improved Reliability

By reducing exposure and the risk of physical damage, the coverlay in flex PCB helps to extend the service life of flexible circuits and ensure the long-term stable operation of products.

Typical Coverlay Thickness Options

When designing a flex PCB coverlay, thickness is a very important factor. The coverlay usually consists of two layers: polyimide film and adhesive layer. 

The thickness combination of these two layers will directly affect flexibility and protection performance.

Common Thickness Combinations

•  1 mil PI + 1 mil adhesive (2 mil total): The most common and widely used standard configuration, suitable for most general flexible circuit applications.

•  0.5 mil + 0.5 mil: Ideal for products that require a smaller bending radius and higher flexibility, such as wearable devices.

•  2 mil PI + 1 mil adhesive: Suitable for applications with higher mechanical stress or harsher operating environments, where durability and protection are more important.

Factors Affecting Thickness Choice

•  The minimum bending radius the circuit must withstand

•  Finished copper thickness (thicker copper typically requires thicker adhesive coverage)

•  Insulation and dielectric withstand voltage requirements

•  Expected mechanical strength and service life

•  Cost limitations

A reasonable selection of the thickness of the flex PCB coverlay can ensure that the circuit is adequately protected while maintaining good flexibility.

Advantages and Limitations of Flex PCB Coverlay

Advantages

•  Superior flexibility compared to solder mask

•  High mechanical strength and fatigue resistance

•  Excellent environmental sealing

•  High dielectric strength

•  Ideal for dynamic and high-reliability applications

Limitations

•  Higher material and processing costs than the solder mask

•  Larger minimum dam size (typically ≥10 mil)

•  Not suitable for ultra-fine-pitch components

•  More complex manufacturing and alignment process

Coverlay vs. Solder Mask in Flexible PCBs

A solder mask is a protective coating applied to the surface of a PCB, mainly used for rigid circuit boards. It is usually liquid photoimageable material (LPI), which is cured on the circuit surface through coating, exposure and development processes.

Although both serve protective functions, flex PCB coverlay and solder mask differ significantly:

Design Best Practices for Flex PCB Coverlay

To ensure the stability and reliability of the flex PCB coverlay, the following points should be noted during the design:

•  Clearly specify the coverlay material, thickness, and color in fabrication documents

•  Define coverlay openings accurately

•  Avoid placing coverlay seams in high-stress bending areas

•  Match adhesive thickness to copper weight

•  Use coverlay in flex PCB together with solder mask in rigid-flex designs

•  Verify bend life and reliability during prototyping

•  Communicate with the PCB manufacturer early

Conclusion

The flex PCB coverlay is not merely an additional layer of protection for the circuit, but a key structure for the normal use and long-term reliable operation of flexible circuits.

 It enables the coverlay in flex PCB to help circuits cope with bending, vibration and complex environments in actual use by providing mechanical protection, 

electrical insulation and environmental protection.

Only by making correct judgments in material selection, thickness design and manufacturing process, and combining with reasonable design specifications, 

can the value of flex PCB coverlay be truly brought into play. With the increasingly wide application of flexible PCBs and rigid-flex PCBs, 

mastering the design and application of coverlays in flex PCBs proficiently will become an important foundation for achieving highly reliable and high-performance electronic products.