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What is FR-4 PCB material?
We’ve all heard the abbreviation FR4 being thrown about at some point when shopping for a PCB fab house, but what does it actually mean? And what implications does it have when choosing a PCB material? This post will help clear the fog and introduce some popular materials available for rigid PCBs.

Most likely, you will have seen FR4 as the standard option for small batch or prototype PCBs like in Seeed Fusion. FR-4 refers to a grade of material rather than a material itself and has many sub gradings and types such as TG130, High TG, FR4-Rogers. The FR4 option on the PCB order page is the grade designation for the epoxy fibreglass that often form the PCB core and prepreg layers. It is the properties of this base that gives the PCB the electrical isolation and mechanical strength required to endure increasingly demanding applications.

In a typical PCB, the core provides the rigidity and the foundation on which the PCB traces can be ‘printed’ onto. In addition, the FR4 core and laminates form the electrical isolation separating copper layers. For double layer boards, a FR4 core separates the top and bottom copper layers whereas in multilayer PCBs, additional layers of FR4 prepreg are sandwiched between the inner core and the outer copper layers. The desired final thickness of the PCB can be controlled by adding or removing individual laminates or using laminates of different thicknesses. For example, typically, a 1.6mm board will have 8 layers of fibreglass sheets, if we wanted a 0.8mm board we can reduce the number of sheets to 4.

The core is actually made up of a substrate layer covered in copper, thus it is also known as a copper clad laminate.

The name FR4 comes from the NEMU grading system where the ‘FR’ stands for ‘fire retardant’, compliant with the UL94V-0 standard. You may have noticed that on the Seeed Fusion order page the FR4 option is followed by TG130. The TG refers to the transition glass temperature – the temperature at which the glass-reinforced material will start to deform and soften. For Fusion’s standard boards this value is 130°C, which is more than enough for most applications. Special High TG materials can withstand temperatures of 170 – 180°C and can be ordered online using the Advanced PCB service.

FR4 laminates owe their flame resistance due to its bromine content, a non-reactive halogen commonly used in industry for its flame retarding properties. This gives FR4 materials obvious advantages as a stock PCB material, especially in prototyping where circuits are still in the initial testing stages and may be pushed to extremes. It is also a little assuring if your soldering skills are not up to standard.

Other similar grades used for PCBs include FR2, which is a type of fire retarding fiberglass resin bonded paper and G10 which is not flame resistant at all. FR2 is cheaper and so has its uses in mass production of low-end electrical equipment. G10, a predecessor to FR4, has all but been taken over by the safer FR4 standard. Its only use in PCBs now are in designs that desire this flammable property.

This blog has covered more information on rigid PCB materials than the average hobbyist will ever need, but should you ever find the use for High TG or more specialised materials, you can check out Seeed Fusion Advanced PCB service for more options including high frequency boards and rigid-flex PCBs.