Overview of 8Layers 2+N+2 HDI PCB
The 8Layers 2+N+2 HDI PCB is a high – density interconnect printed circuit board. It is a crucial component in modern electronic devices, especially those requiring high – precision circuit connections and advanced functionality.
Definiţie
The “8Layers” refers to the number of signal and power/ground layers in the PCB. “2+N+2” is a specific layer configuration pattern. “HDI” stands for High – Density Interconnect, which means that this PCB has a high density of traces ( conductive pathways), tampoane, and vias (holes for connection between layers) per unit area compared to conventional PCBs.
Cerințe de proiectare
- Trace and Space: The minimum trace and space is 3mil/3mil, which requires precise design to ensure there is enough space between adjacent traces to avoid electrical interference and short – circuits.
- Hole Size: There are strict requirements for hole sizes. Mechanical holes should be at least 0.2mm in diameter, and laser holes at least 0.1mm. This is to accommodate the placement of components and ensure proper electrical connections.
Principiul de lucru
Electrical signals are transmitted through the copper traces on different layers of the PCB. The vias connect the corresponding traces on different layers, allowing for complex circuitry to be implemented in a relatively small space. The power and ground layers help to distribute power evenly and reduce electromagnetic interference.
Uses
One of the main applications is in hand – held electronic equipment PCBs. In devices such as smartphones, tablete, and wearable gadgets, the 8Layers 2+N+2 HDI PCB can handle multiple functions simultaneously, such as communication, processing, and sensor interfacing, due to its high – density layout.
Clasificare
It can be classified as a multi – layer PCB within the HDI PCB category, with a specific layer architecture of 8 layers following the 2+N+2 pattern.
Material
The material used is FR – 4, which is a common fiberglass – reinforced epoxy – laminate material. It provides good mechanical strength, electrical insulation, și rezistență la căldură.
Performanţă
- Performanță electrică: With the inner copper thickness of 1OZ and outer 0.5OZ, it can efficiently transmit electrical signals. The immersion gold surface treatment also has good electrical conductivity and helps to improve the solderability of components.
- Mechanical Performance: The FR – 4 material gives it sufficient mechanical stability to withstand normal handling and installation in electronic devices.
Structura
It consists of 8 layers in total. The two outer layers may be used for signal or power/ground connections, while the “N” layer in the middle can be a flexible combination of signal and power/ground layers according to specific design requirements.
Caracteristici
- High – Density: Allows for more components to be mounted on a smaller area.
- Good Surface Treatment: Immersion gold treatment provides good corrosion resistance and solderability.
- Flexible Layer Configuration: The 2+N+2 pattern can be customized to meet different circuit design needs.
Proces de producție
- Layer Stack – up: Arrange the 8 layers according to the 2+N+2 pattern, ensuring proper alignment.
- Foraj: Create mechanical holes and laser holes as per the design requirements.
- Copper Deposition: Deposit copper in the holes and on the surface to form conductive pathways.
- Gravură: Remove excess copper to create the desired trace patterns.
- Tratament de suprafață: Apply the immersion gold treatment.
- Finishing: Polish and inspect the PCB to ensure it meets the quality standards.
Usage Scenarios
As mentioned earlier, it is widely used in hand – held electronic equipment. It can also be used in some small – form – factor computing devices or portable medical devices where space is limited but high – quality circuit connections are required.