Consider This: Let’s Talk About the Basics of Flex

Flexible PCBs, by their very nature, are designed to be flexible. This presents problems in securely and reliably attaching the ends of the flex circuits to a solid, stiff, main PCB or other electronic devices. A combination of hard, as well as semi-flexible, stiffeners is used for this purpose. Hard stiffeners used include FR-4, aluminum, as well as heat conductive aluminum-backed metals. A hard stiffener has a limit as to how close the flex circuit bends to the stiffener without stressing the joint or causing the flex circuit to crease (Figure 1).
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Thick, flexible cover coat material is used as a semi-stiffener where the flex circuit needs to retain some flexibility close to the attachment point. The slightly less flexible stiffener allows for attachment of the flex to the FR-4 PCB while providing an area of reduced flexibility, allowing for a more reliable connection without creasing the flex near the attachment point (Figure 2).
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Double layers of thicker cover coat stiffeners create a slightly bendable flex attachment point, such as a printer head to a fixed PCB. The cover coat material allows for some stress transition from highly bendable to rigid, reducing the chance of a crease crack in the copper, similar to a short-tapered cord protector on a power tool. Flex circuitry can rip or create opens in the copper traces if the bend radius is too small or the number of cycles is too large. A transition area from the hard mount, no flex stiffener to a fully flexible one will extend the life of a flex circuit. The viscoelasticity of many 3M™ adhesives and tapes improves resistance to vibration fatigue by imparting flexibility to a joint or bonded area.

Many modern flex ZIP FFC connectors use a self-adhesive tape wrap or a solid mount with screws, which then slip into a connector soldered to the rigid PCB.

Typically, flex stiffeners are added after the panel is laser routed or die-cut, using 3M double-sided tape, epoxy glue, or a lamination process using a glue sheet prepreg. The FR-4 stiffeners will be routed out of the desired thickness of FR-4. The adhesive glue sheet is applied to the flex and the two parts aligned, using etch marks or silkscreen marks, and pressed together. The double-sided acrylic adhesive tape will securely attach the two parts together. This method also allows for the stiffeners to overhang the flex area and provide mounting holes or points (Figure 1). 

In addition to the pressure-sensitive tape, the parts can be thermally bonded with heat and pressure in a lamination press as a large panel. The typical method is to thermally bond the stiffener to the circuit with the same flexible adhesive that is used to attach the cover lays. Using high heat and pressure and gluing the parts together, this method will result in a very strong, permanent, stiffener bonding. However, using lamination as a method to glue stiffeners is limited to larger panels with a large number of stiffeners that do not extend past the flex circuit. The flex final circuit and stiffener will have to be routed, or laser cut out of the main panel. 

Bonding with pressure-sensitive adhesive (PSA) tape is the most used attachment method available. The attachment is done with a PSA material, such as 3M/Tesa Tape, 3M467, or3M9077. There are over 100 different types of PSA available from 3M alone. The specific PSA will depend on whether the flexible PCB will be subjected to a high-temperature reflow cycle. The type of adhesive used will also depend on the configuration and/or location of the stiffeners. If a stiffener extends pass the flex circuit side, in most cases, it will require a PSA attachment with a locational stiffener outline added to the copper etching data or silkscreen to allow for accurate placement. The flex and stiffener can both be accurately drilled with alignment holes, fitted over a small jig with alignment pins, and pressed together with PSA very accurately. Simply press the adhesive side down onto the flex and then peel off the poly-coated Kraft paper lining, aligning the stiffener into the pins and apply pressure to secure together.

The PSA creates a very thin, aesthetic bond line caused by glue squish-out between the flex and the stiffener. The stiffeners can be laminated by hand or in an automation setup. The adhesive sheets are easy to die-cut or CNC rout, as well as laser cut. The PSA is easy to use, has a long life, and is an industry-leading solution for attaching stiffeners. 3M Adhesive Transfer Tape 467MP is the visually clearest of the 3M Transfer Tapes and offers a neat, precise application with no mess or waste when applied to flat surfaces. It has excellent shear strength, as well as high temperature and chemical resistance, making it an ideal choice for stiffener attachment. The PSA tape features 3M high-performance acrylic adhesive 200 MP, an adhesive thickness of 2.0 mils (0.05 mm), and a poly-coated Kraft paper liner of 4.2 mils (0.11 mm).

The 3M 9077 double-sided, PSA tape is a high-temperature adhesive and release liner system that is easy to use. This is the recommended tape to be used for reflow soldering, as it survives short term exposure to 500°F/260°C for lead-free solder reflow. The 9077 tape maintains high adhesive strength in high temperatures and is excellent for heat-intensive processing, as well as in high-temperature attachments to heat sinks. It is ideal for flexible printed circuit attachments to clean metal surfaces with excellent holding power and low outgassing. 3M 9077 PST features a 2-mil 3M ultra-high-temperature acrylic adhesive 100 HT and a 3.6-mil (0.05-mm) clear, heat-resistant, non-woven liner that adds stability for die-cutting and converting. The long term temperature rating is 300°F (150°C) and suitable for automotive under the hood. 

Aluminum is also used as a stiffener with an insulator cover coat strip. This allows for hard mounting to a flat surface other than a PCB. In some applications, a thermally-conductive material and aluminum or copper heat-conductive laminate can be used to manage heat while providing a hard mounting point for the flex circuit.  

This column originally appeared in the September 2020 issue of Design007 Magazine in the FLEX007 section.

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2020

Consider This: Let’s Talk About the Basics of Flex

09-13-2020

Flexible PCBs, by their very nature, are designed to be flexible. This presents problems in securely and reliably attaching the ends of the flex circuits to a solid, stiff, main PCB or other electronic devices. A combination of hard, as well as semi-flexible stiffeners, is used for this purpose. John Talbot explains.

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2018

Acrylic vs. Epoxy Adhesives for Flexible Circuits

09-19-2018

One of the most misunderstood materials in flexible circuit fabrication is the adhesive system used to laminate the layers together. Since flexible circuits go through several lamination processes, it’s important to know the options and where best to use them in your electronic products.

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RMAs: Negative Experience or Valuable Opportunity?

08-19-2018

Non-conforming material that is sent back by the customer can easily be interpreted as a negative experience. However, if it is perceived as an opportunity to learn and support the customer it becomes a much more pleasant and satisfying endeavor.

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