Understanding the Materials Used in PCBs: Selection, Types, and Importance
9 min
Printed circuit boards (PCBs) are an essential component of modern electronics. These boards connect and support electronic components, providing a stable platform for the transfer of electrical signals and power. A typical PCB consists of multiple layers of materials that are laminated together to form a single unit.
PCBs are an integral part of the electronics manufacturing process. They are used in everything from consumer electronics to automotive and aerospace applications, and are critical to the functioning of electronic devices.
Types of materials used in PCBs
1. Substrates
Substrates are the base material for PCBs, and serve as the foundation on which other materials are deposited. Substrates are typically made of fiberglass-reinforced epoxy resin, also known as FR-4. Other types of substrates include CEM-1, CEM-3, Polyimide (PI), and Rogers. The choice of substrate depends on specific requirements such as operating temperature, dielectric strength, and cost.
Some common criteria for choosing substrates include:
- Dielectric constant: The dielectric constant is a measure of the substrate's ability to store electrical energy. A high dielectric constant can result in signal loss and interference.
- Tg (Glass Transition Temperature): Tg is the temperature at which the substrate changes from a rigid to a flexible state. A high Tg is required for high-temperature applications, such as automotive and aerospace electronics.
- CTE (Coefficient of Thermal Expansion): CTE is a measure of the substrate's tendency to expand or contract with changes in temperature. A low CTE is required for applications where the PCB must maintain its shape and dimensions over a wide temperature range.
- Moisture absorption: Substrates that absorb moisture can lead to delamination and other problems during assembly and operation. Low moisture absorption is desirable for most applications.
2. Copper Foils
Copper foils are used to create the conductive traces on the surface of the PCB. Copper foils are available in two types: rolled copper foil and electrodeposited copper foil. The choice of copper foil depends on factors such as the thickness, purity, and surface roughness required for the PCB.
- Thickness: The thickness of the copper foil determines the current-carrying capacity of the traces. Thicker foils are required for high-current applications.
- Purity: Higher purity copper foils are more conductive and have better adhesion to the substrate.
- Surface roughness: The surface roughness of the copper foil affects the adhesion of the soldermask and the quality of the solder joints.
3. Soldermask
Soldermask is a protective coating applied to the surface of the PCB to prevent solder bridges and other defects during the soldering process. Types of soldermask include liquid photoimageable soldermask (LPI), dry film soldermask (DFSM), or thermal cure soldermask (TCS). The choice of soldermask depends on factors such as the chemical resistance, adhesion, and insulation resistance required for the PCB.
- Chemical resistance: The soldermask must be resistant to the chemicals used in the PCB assembly process.
- Adhesion: The soldermask must adhere well to the substrate and the copper foils to prevent delamination and other problems.
- Insulation resistance: The soldermask must provide adequate insulation around the traces to prevent short circuits.
4. Silkscreen
Silkscreen is used to print text and graphics onto the surface of the PCB. Silkscreen is typically divided into two types:
Component silkscreen: This type of silkscreen is used to print reference designators, component outlines, and other information that helps identify the components on the PCB. Component silkscreen is usually printed in white or black ink and is located on the component side of the PCB.
Legend silkscreen: This type of silkscreen is used to print text and graphics that provide additional information about the PCB, such as the name of the board, the company logo, and any other relevant information. Legend silkscreen is usually printed in white or black ink and is located on the solder side of the PCB.
- Legibility: The silkscreen must be legible under various lighting conditions and from different angles.
- Durability: The silkscreen must be resistant to wear and tear during the assembly and operation of the PCB.
5. Adhesives
Adhesives are used to bond the different layers of the PCB together. The most common types of adhesives used in PCBs are epoxy resin and acrylic adhesive. The choice of adhesive depends on factors such as thermal stability and chemical resistance.
- Thermal stability: The adhesive must maintain its bond strength over a wide temperature range.
- Chemical resistance: The adhesive must be resistant to the chemicals used in the PCB assembly process.
- Moisture resistance: The adhesive must be resistant to moisture to prevent delamination and other problems.
Choosing the materials for a PCB often involves a trade-off between different properties. For example, a substrate with a high Tg may have a lower CTE, but it may also be more expensive. Similarly, a copper foil with a high purity may be more conductive, but it may also be more expensive. The choice of materials depends on the specific requirements of the PCB, and a balance between different properties is often required.
Types of Substrates Used in PCBs
FR-4 Substrates
FR-4 substrates are the most common type of substrate used in PCBs. They are made of woven fiberglass cloth impregnated with epoxy resin. FR-4 substrates have excellent electrical properties, including a low dielectric constant and good insulation resistance. They also have a high Tg, which makes them suitable for high-temperature applications. FR-4 substrates are relatively low cost and are widely available in the market.
Polyimide (PI) Substrates
Polyimide (PI) substrates are used in applications where high-temperature resistance is required. They have a higher Tg than FR-4 substrates, making them suitable for use in aerospace and industrial electronics applications. PI substrates are also flexible, making them suitable for use in flexible PCBs. However, PI substrates are more expensive than FR-4 substrates and have a higher moisture absorption rate.
Rogers Substrates
Rogers substrates are a type of high-frequency substrate used in applications where signal loss is a concern. They have a low dielectric constant and low loss tangent, which makes them suitable for high-frequency applications. Rogers substrates are more expensive than FR-4 substrates and have a lower Tg.
Types of Copper Foils Used in PCBs
Rolled Copper Foil
Rolled copper foil is produced by processing a sheet of copper through a series of rollers. Rolled copper foil is thinner than electrodeposited copper foil and has a smoother surface. Rolled copper foil is used in applications where a thin, high-quality copper surface is required, such as fine-pitch circuits and high-frequency circuits.
Electrodeposited Copper Foil
Electrodeposited copper foil is created by depositing a layer of copper onto a thin substrate using an electroplating process. Electrodeposited copper foil is thicker than rolled copper foil and has a rougher surface. Electrodeposited copper foil is used in applications where high current-carrying capacity is required, such as power supplies and high-current circuits.
Types of soldermask Used in PCBs
Here are the three most common types of soldermask used in PCBs:
Liquid Photoimageable Soldermask (LPI)
LPI soldermask is a liquid material that is applied to the surface of the PCB and then exposed to ultraviolet (UV) light through a photomask. The areas that are not exposed to UV light are then washed away, leaving the desired soldermask pattern on the PCB. LPI soldermask is popular due to its ease of application, high resolution, and excellent adhesion to the substrate. It is also available in a range of colors, making it suitable for color-coding PCBs. However, LPI soldermask can be more expensive than other types of soldermask, and it can affect the signal integrity in high-frequency applications.
Dry Film Soldermask (DFSM)
DFSM soldermask is a dry film material that is laminated onto the surface of the PCB. The film is then exposed to UV light through a photomask, and the unexposed areas are removed, leaving the desired soldermask pattern on the PCB. DFSM soldermask is popular due to its low cost, ease of application, and excellent adhesion to the substrate. However, DFSM soldermask can be less precise than LPI soldermask, and it may have a slightly rougher surface finish.
Thermal Cure Soldermask (TCS)
TCS soldermask is a liquid material that is applied to the surface of the PCB and then cured by exposure to heat. TCS soldermask is typically used in high-temperature applications, as it can withstand temperatures of up to 300°C. TCS soldermask is popular due to its high chemical resistance and excellent adhesion to the substrate. However, TCS soldermask can be more difficult to apply than other types of soldermask, and it may require additional processing steps.
Types of adhesives Used in PCBs
Here are the three most common types of adhesives used in PCBs:
Epoxy Resin Adhesive
Epoxy resin adhesive is a common type of adhesive used in PCB manufacturing. It provides excellent adhesion and thermal stability, making it suitable for high-temperature applications. Epoxy resin adhesive is also resistant to chemicals and moisture, making it ideal for harsh environments. Epoxy resin adhesive is typically applied by spreading a thin layer of the adhesive onto the surface of the PCB, and then curing it by exposure to heat.
Acrylic Adhesive
Acrylic adhesive is another common type of adhesive used in PCB manufacturing. It provides good adhesion and chemical resistance, making it suitable for use in harsh environments. Acrylic adhesive is also resistant to UV light and moisture, making it ideal for outdoor applications. Acrylic adhesive is typically applied as a thin film onto the surface of the PCB, and then cured by exposure to heat.
Polyurethane Adhesive
Polyurethane adhesive is a type of adhesive used in PCB manufacturing for its excellent bonding strength and flexibility. It is commonly used in flexible PCBs and other applications where flexibility is required. Polyurethane adhesive is also resistant to chemicals and moisture, making it ideal for harsh environments. Polyurethane adhesive is typically applied as a thin film onto the surface of the PCB, and then cured by exposure to heat.
Conclusion
As technology continues to advance, the demand for smaller, faster, and more powerful electronic devices will continue to drive the development of new materials and technologies for PCBs. The importance of material selection in PCB design and manufacturing will only increase, and designers and manufacturers will need to stay up-to-date with the latest developments in materials science and technology.
In summary, the selection of materials for PCBs is a critical step in the design and manufacturing process, and it is essential to choose materials that meet the specific requirements of the PCB while balancing trade-offs between different properties. The use of high-quality materials, along with careful design and manufacturing processes, will result in PCBs that are reliable, perform well, and have a long lifespan.
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