You are reading this article, because you have been searching for the right laminate material to use for your PCB projects. Now, before you decide to choose the Megtron 7 PCB Material, there is a need to read this guide. Contained in it is all the information you need.
Please continue reading as we explain further.
What Is Megtron 7 PCB Material?
The Panasonic Megtron 7 PCB Material is known as multilayer PCB laminates, which helps in exhibiting low loss of transmission.
Furthermore, it is very useful in high speed transmissions and high capacity applications with very little losses of signal.
What are the Benefits of Using the Megtron 7 PCB Laminates for Your Project?
The many benefits of the Megtron 7 PCB Material is one reason why you should make use of the Megtron 7 PCB Material. What we mean is that the Megtron 7 PCB Material has lots of benefits, which helps in improving the efficiency of the application.
Below are the major benefits of making use of the Megtron 7 PCB Material
When making use of the Megtron 7 PCB Material, you will surely work with a low budget. This low budget is due to the low cost that comes with the Megtron 7 PCB laminates.
You can use your Megtron 7 PCB Material for long time periods. This is as a result of its high durability even in very rigorous environments. Its extremely high heat resistance is what ensures that they remain strong even in very tough environments.
The Megtron 7 PCB Material provides the highest possible efficiency level, which promotes a much better performance. Its signal transmission loss is very low as well therefore increasing the efficiency involved in transmitting high data volumes.
Maintenance is Easy
It is very easy to make use of the Megtron 7 PCB Material. This is because you need just little maintenance. It doesn’t absorb too much moisture. Also, it is resistant to the accumulation of dust. This makes cleaning very easy to achieve.
General Properties of the Megtron 7 PCB Laminate Material
The best identification mode you can utilize for the Megtron 7 PCB Material is its properties. These laminates have great properties, which helps in distinguishing them from the other laminate types. Below are the major properties that help in defining the real nature of this laminate
Glass Transition Temperature
This property has to do with the maximum amount of temperature necessary to alter the Megtron 7 PCB laminate’s properties. Furthermore, you will need to attain heights of about 200 degrees Celsius before this laminate can reach its transition mode.
This property is the highest energy you must apply before you can break whatever bond is formed between the printed circuit board and its laminates. As a result of the high peel strength of the Megtron 7 PCB laminate material, you must apply a force of 0.8 kN/m in order to achieve this peel strength.
The Panasonic Megtron 7 PCB laminates are very efficient when it comes to electric transmission. This is possible as a result of its low dissipation factors. Furthermore, the Megtron 7 PCB laminate’s dissipation factor is low with a value of 0.002. This increases its electric properties.
Dielectric Constants (Dk)
Dielectric constant explains the ability of the Megtron 7 PCB laminates to help in storing electric charge whenever they are placed in-between two metal plates. Furthermore, the Dk of the Megtron 7 PCB material is low. It has a value of 3.4 when tested under a frequency of 12 GHz.
Quality Certifications of the Megtron 7 PCB Laminate Material
Asides from safety precautions, there is a need to ensure the laminates possess quality certifications. These quality certifications will assist you in maintaining safety, as well as ensure a long service life.
Below are the major quality certifications you must check in the Megtron 7 PCB laminates.
- CE Certifications
- ANSI Certifications
- RoHS Certifications
- UL Certifications
- International Standards Organization Certifications
Materials Used for Manufacturing the Megtron 7 PCB Laminates
The Megtron 7 PCB Laminate Material will only achieve its working conditions making use of the right materials only. Considering this point, you have to make use of the right or best materials in manufacturing the Megtron 7 PCB laminates.
Below are the materials used in manufacturing the Megtron 7 PCB Laminates.
- PTFE Materials
- High performance resins and epoxy resin
- Conductive materials like aluminum and copper
Lamination Process Using the Megtron 7 PCB Laminates
You’ll utilize the Megtron 7 PCB laminates in holding the PCB layers altogether tightly ensuring an effective insulation in-between the layers.
Below is the process to follow
First, you must wash the panels and then remove the copper surfaces that are corroded as well as possible fingerprints. Asides from this, washing gets rid of the dry fill residues, carbonate residues, and antifoam from the stripping (dry film)
Apply the condition of having homogenous and appropriate brown or black oxide treatment. Also, it helps in reducing the copper thickness from 0.2 to 0.1 micrometers. After this, you’ll perform your black oxide treatment, which offers better adhesion to prevent delamination issues.
Here, you will be arranging all the layers altogether and then make sure that they don’t move when the lamination process is on. This panel is then complete with some copper foils attached to the bottom and top and then prepregs present on its outer layers.
You’ll place it in the lamination machine and then under extremely high pressure and temperature. The inner pressure of the machine is about 180 tons for every square meter, while the process of lamination will take around 2 hours.
Then cure it under some high temperatures, and then cool it while releasing the pressure. This step completes the lamination process
If you’re searching for Megtron 7 PCB laminates of high performance, then RayMing PCB & Assembly is here for you. We will provide the best solution that suits all your PCB fabrication needs.