FR4 PCB is a circuit board that is made of FR4 substrate material. Generally used for rigid PCBs, FR4 has a unique ability to form a category of PCB known as semi-flex PCB. Here two major PCB parts are electrically connected by a thin FR4 that can bend, hosting just traces and not components, enabling a big PCB to fold and fit into a smaller volume without compromising performance.
FR4 or Flame Retardant 4 is a grade given to a material that is composed of woven fiberglass cloth with an epoxy resin binder (the epoxy resin gives it the flame-retardant or self-extinguishing properties). It is a robust material that can cater to a variety of applications.
It was introduced to substitute phenolic paper laminates, like G10, FR-2, and FR-3, which had relatively poor mechanical, thermal, and electrical performance. FR4 is the go-to material for most of the designers due to its capabilities, cost, and availability.
As mentioned earlier, FR4 is a grade of material; hence, it has many variants and types offered by various manufacturers, like Isola, ITEQ, Shenyagi, and Panasonic. These variants share the manufacturing process and the basic structure of the material, but differ in properties. FR4 is most widely differentiated by the Tg of the material, that is, the glass transition temperature.
Tg, or the glass transition temperature, refers to the temperature up to which the substrate material remains physically stable.At or above this value, the material may start changing its mechanical state; that is, the solid structure may transform into a soft, malleable state. Even after the return of the temperature to its Tg value, the substrate material may stay distorted and not convert back into its original mechanical form.
This unwanted transformation caused by higher temperatures than the Tg value of the substrate material can cause circuit failure, component malfunction, and device errors. This damage may be irreparable and may require a complete replacement of the PCB.
Therefore, it is crucial to use PCB material as per the heat and temperature resistance requirements for your device. In case the device is expected to heat up or function in high-temperature environmental conditions, the PCB should be built accordingly.
The high Tg values of FR4 materials make them the top choice for printed circuit boards. FR4 circuit boards also have variants depending upon the Tg values and are classified into 3 major types–
FR4 PCB material is known for its favourable properties and is sufficient for most applications. It has the following properties (since FR4 has many variants, most of the properties will have a range of the highest and the lowest numeric factor available among variants) –
To give a brief gist of what these properties imply, FR4 PCB material has a relatively high Dk and Df, making it suitable for applications hosting up to 1GHz signals. While its Tg is among the lowest of most of the materials used in modern PCBs, it suits the requirements of most general applications used in everyday life. It has sufficiently good mechanical properties that are expected from a Rigid PCB. It has ROHS and REACH compatibility, but HDI support is limited to a few high-performance FR4 circuit boards.
FR4 PCB is widely used because of its plethora of advantages when compared to other materials. Some of the major benefits of using FR4 circuit boards are –
FR4 is the most common material and is used in almost all industries. But the most notable applications for FR4 PCB are –
If FR4 material is so versatile with all properties necessary for a PCB, wondering why and when other materials are used? Here is a quick comparison among popular types of PCB substrate material – FR4, Rogers, and Polyimide.
Like every coin has two sides, seemingly perfect FR4 material comes with its own set of limitations. It is due to these limitations that other materials came into use for certain PCB requirements.
While the low electrical conductivity of FR4 material works in favour of PCB requirements, its low thermal or heat conductivity works against the same. Applications that need good heat dissipation usually prefer PCB substrate materials like aluminum over FR4.
At the same time, with a few design considerations, a learned designer can easily mitigate this limitation. For example, incorporating elements like heat sinks, thermal pads, and thermal vias can help dissipate the excess heat well. Additionally, thicker copper layers and hybrid designs can resolve the issue without affecting the budget a lot.
In high-frequency (HF) and radio-frequency (RF) applications, FR4 PCB boards are rarely used due to their higher signal loss tendency and dissipation factor. Rogers is used instead in such applications.
To achieve flame-resistant properties, standard PCB FR4 material is halogenated. These halogens may lead to environmental pollution and health hazards upon careless disposal of FR4 PCBs.
To prevent this, newer halogen-free variants of FR4 printed circuit boards are available now. They are used in eco-friendly versions of consumer electronics and certain medical devices.
If your application requires a flexible PCB, microwave or RF circuits, environmentally conscious design, or high heat dissipation, FR4 PCB substrate material might not be the best choice for you.
Although certain design considerations may help overcome these limitations. For example, a semi-flex PCB can be fabricated with FR4 material in a way that the rigid structures are connected with a small bendable band that allows mobility while ensuring cost-effectiveness.
Consult the experts to navigate through such challenges and find the right FR4 PCB solutions as per your specific application and budget requirements.
As explained above, FR4 material is available in various variants, each with its own characteristic properties and capabilities. Therefore, consider all of the properties well to find the right balance between performance needs and manufacturing costs.
Talk with us today to make the right choice for your FR4 PCB needs.
FR4 is a cost-effective, reliable, and versatile laminate to use in PCBs. While it is not suitable for high power, high heat, or very high frequency applications, it is more than sufficient for most applications, nonetheless. The capabilities of FR4 circuit boards are advocated by the massive number of applications in which they are being used.
Though almost all possible details regarding FR4 properties, applications, and limitations have been discussed here, it is highly recommended to check the datasheet of the laminate or ask your fabricator for its suitability for your application requirements. You may also drop your query below or get in touch with our experts for personalised assistance.
