Polyimide Prototype PCB for Automotive Electronics

Industry Ready PCB Design- Advantages of Polyimide

When it comes to PCBs, there are a whole lot of PCB materials that are used to make these PCBs depending of course upon the application and the environment in which it will be used. Some of the popular materials include:

• Epoxy Resins
• FR4
• Polyimide
• Teflon

What really is Polyimide?

Polyimide is a high-performing polymer, which is made up of imide monomers. Polyimide occurs naturally and can also be manufactured synthetically. Polyimides are broadly of three types:

• Aliphatic
• Semi-aromatic
• Aromatic compounds

The most common way of production of polyimides is through a reaction between dianhydride and diamine.

Polyimides are known for their heat and electrical resistance as well as their high mechanical strength. They are ideal for use in flex and flex/rigid circuit boards.

Beneficial Features of Polyimide PCBs

Below are some features of polyimide that make them extremely useful in certain PCB applications:

Durability

On account of high resistance to physical stress, Polyimide PCBs are extremely durable. They retain their shapes even in extremely harsh environments.

Thermal Stability

Polyimide PCBs can withstand a wide range of temperatures. In fact they are known to support operations with temperatures up to 260℃.

The other advantage with them is that they can resist any thermal damage during production or repair.

Flexibility

Known for their extreme flexibility, they are suited for use in rigid-flex as well as flexible printed circuit boards.

Resistance to chemicals

Polyimides are also known for their chemical stability. If they are exposed to corrosive materials, they do not show any adverse effects. In applications where the PCBs are likely to be exposed to chemicals, Polyimide works best.

Tensile strength

Known for its tensile strength, polyimide PCBs can support high load without any fracture. Also, when it comes to warping, Polyimide PCBs are resilient. They are therefore widely used in applications where physical strength and durability are a must have.

Some of the other important features of Polyimide PCBs include:

• They have an arc resistance of almost 143 seconds.
• Ehen it comes to integration & mounting of components, it is far easier with Polyimide PCBs than FR4.
• They act as natural adhesives and even at high temperatures are know for their bond strength.
• They are known for their tight tolerances.
• They can be made moisture resistant using oligomeric dianiline.
• They have a specific gravity of up to 1.6 g/cm cube.
• At 1GHz, they have a dielectric constant of 4.2.

Difference between Polyimide PCB & FR4 PCB

Some of the differences between Polyimide & FR4 PCBs include:

• While Polyimide PCBs are highly resistant to chemicals, FR4 PCBs are moderately resistant.
• The tensile strength of Polyamide PCBs is 231MPa, that of FR4 PCBs is 70 MPa.
• Polyimide PCBs show higher thermal cycling than FR4.
• In terms of durability, Polyimide PCBs are far more durable than FR4 ones
• Polyimide PCBs can operate in temperature ranges of -200 to 300 degrees Centigrade. The corresponding range for FR4 PCBs is -50 to 110 degree Centigrade.
• Polyimide PCBs have a Glass Transient Temperature range of 195 to 220 degrees centigrade. For FR4 PCBs it is 135 degrees Centigrade.

Polyimide PCB Applications

Little surprise then that Polyimide PCBs are used in a wide variety of PCB industrial solutions, including but not limited to:

Medical Industry

Polyimide PCBs find application in:

• Magnetic resonance imaging equipment
• Ultrasound equipment
• Flex and rigid-flex interconnects for sensitive equipment

Industrial Equipment

• Power inverters
• Motor Controllers

Automotive Industry

• Engine management systems
• Antilock braking systems
• ADAS vehicle systems

Telecommunication Equipment

• Phone switching systems
• Cell towers

Military Applications and Aerospace Industry

• Power distribution systems
• Communication and Defense navigation systems
• Electronic flight instrumentation systems
• Digitized signal and microwave processing systems

Consumer Products

• Televisions
• Consoles for video games

Telecommunication Equipment

• Phone switching systems
• Cell towers

To Sum Up

Polyimide PCBs work as a very good alternative to FR4 printed circuit boards on account of the features that Polyimide PCBs offer. These mainly include flexibility, thermal resistance, quality and reliability.

It is important, however, to use your PCB partner with care as they can offer a wide variety