Megtron 8 PCB laminate is a recently launched material from Panasonic that features a multilayer PCB, which enhances and ensures communication networking of high speed for switches and routers.
If you have been wondering if you should make use of the Megtron 8 PCB material, then keep reading to know their benefits, as well as ways where they can make your products better.
What is Megtron 8 PCB Laminate Material?
Recently, Panasonic launched a new material that features a multilayer PCB, which enhances and ensures communication networking of high speed for switches and routers.
Forming the backbone of the internet’s technology, high speed communication equipment has to meet 12 Gbps or 800 GbE, PAM4 as its targets. Compared to the 400 GbE standards used presently, these are two times faster. Though this could become a challenge for the printed circuit boards, it helps to increase the speed as well as the frequency of improving transmission.
Rather than make use of materials that are fluoropolymer-based for your printed circuit board, Panasonic has been able to combine the resin design with a glass cloth with an ultra low dielectric dissipation. Also, its copper foil has a low profile. This helps in improving its dielectric properties that ensures low loss of transmission, which is very necessary for higher performance as well as higher later count present on PCB manufacturing’s future lines.
The Megtron 8 PCB material helps in reducing the loss of transmission for this particular circuit board at a frequency of 286 GHz with as high as 30 percent compared to the Panasonic Megtron7 R-5785 laminate materials, which are referred to as the least available.
The thermoset resin materials which feature heat reliability and resistance, which is similar to the previous generation of Panasonic. Furthermore, this makes sure of the same processability and manufacturability as the conventional PCB product of the laminate. You can manufacture it readily through standard circuitry processes.
What are the Features of the Panasonic Megtron 8 PCB Material?
Panasonic utilized its resin material and design compounding technologies so as to achieve the lowest loss of transmission in the industry
Panasonic has been able to achieve the lowest transmission loss in the industry by making use of its resin material and design compounding technologies so as to achieve great dielectric properties, coupled with incorporating very low dielectric dissipation factor as well as a low profile copper foil.
Furthermore, this adds to the improvement in performance of signal processing of the high speed networking equipment for communication. Making use of circuit board materials having low loss of transmission helps in improving the efficiency of current transmission. This then leads to the reduction of power loss to heat.
Megtron 8 PCB Material possesses great insulation reliability and heat resistance
This is just like the conventional products of Panasonic. In addition it is applicable for high layer count and high performance circuit boards.
The proprietary material compounding and resin design technologies of the company includes both a high temperature for thermal decomposition as well as a high temperature for glass transition. Furthermore, the Megtron 8 PCB material has a high insulation reliability and heat resistance.
All these great properties above ensure there is excellent reliability even in environments with high temperature, even for circuit boards with high layer counts and having over 20 layers like those utilized in routers and high-end servers. All these help in contributing to the equipment’s stable operation.
The Megtron 8 PCB laminate materials feature the same processability and manufacturability as the conventional product of Panasonic.
Also, you can manufacture it with the general standard fabrication processes of the multilayer circuit boards. Different from the circuit board material that is fluoropolymer based, and making use of PTFE (polytetrafluoroethylene), which is a resin known to offer low loss of transmission, the Megtron 8 PCB laminate is manufactured from this thermoset resin system.
What this means is that the Megtron 8 PCB laminate has the same processability and manufacturability in the standard processes of circuit board offered by the conventional materials.
What are the Applications of the Megtron 8 PCB Laminate?
The Megtron 8 PCB laminate is applicable in the following areas
- Switches
- Optical transmission equipment
- Routers
- Base stations
- AI servers
- Servers
- Probe cards
- Semiconductor test equipment
What are the Benefits of Megtron 8 PCB Laminates?
The Megtron 8 PCB laminates offer lots of benefits and serve many different applications. The following are the major advantages of using the Megtron 8 PCB laminates.
Very Durable
The Megtron 8 PCB laminates are very durable. They have great strength which allows them to hold and remain useful for long time periods.
High Efficiency Rates
Working with the Megtron 8 PCB laminates, you’ll see accurate results and then you’ll work more efficiently. This happens without any compromise on its performance standards, especially for high-frequency applications.
High Electric and Thermal Conductivity
The Megtron 8 PCB laminates also serve as great insulators. They have the ability to enhance proper electrical currents. This adds to the reduction of the leakage present in both thermal and electric applications.
Through Hole Reliability
These laminates feature excellent resiliency and through hole reliability. This makes them great for several applications.
Main Features of the Megtron 8 PCB Material
Below are the main features of the Megtron 8 PCB Material
Glass Transition Temperature
This property involves the highest temperature that is necessary for altering the Megtron 8 PCB laminate’s properties. In addition, you’ll need to have heights of around 220 degrees Celsius before this laminate can reach its transition mode.
Dissipation Factor
The Panasonic Megtron 8 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 8 PCB laminate’s dissipation factor is low with a value of 0.0012. This increases its electric properties.
Dielectric Constants (Dk)
Dielectric constant explains the ability of the Megtron 8 PCB laminates to help in storing electric charge whenever they are placed in-between two metal plates. Furthermore, the Dk of the Megtron 8 PCB material is low. It has a value of 3.1 when tested under a frequency of 14 GHz.
Conclusion
Here comes the end of our article on the Megtron 8 PCB laminate. It is the most recent material of all which should suit your PCB needs.
