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Comprehensive Guide to PCB Blind and Buried Vias

PCB Blind and Buried Vias

Printed circuit boards (PCBs) establish electrical connections between different board layers using vias. Unlike standard through-hole vias that traverse the entire board, advanced structures known as blind vias and buried vias connect only between adjacent layers without penetrating the complete thickness of the board. Let’s look into the PCB blind and Buried Vias, their use cases, design considerations, and various types of vias in this article.

What is PCB Blind and Buried Vias?

PCB Blind and Buried Vias

Printed circuit boards (PCBs) blind and buried vias are crucial components in electronic design. Vias are tiny holes in a PCB that connect different layers, facilitating the passage of electrical signals between them. Blind vias start from the board’s surface and go only partway through, connecting an outer layer to one or more inner layers. Blind Vias connects at least one of the inner layers with that of the outer layers. 

Completing vias or the limation of via will make the other end invisible. This is the reason they are called blind vias. 

Buried vias, on the other hand, are entirely contained within the inner layers. They are invisible when observed from the external layers. 

Blind and buried vias offer space-saving advantages, allowing for more compact and intricate circuit designs. Blind vias specifically cater to the need for connections in complex, high-density surface areas, while buried vias enhance overall layer-to-layer connectivity without affecting the external board surfaces. These advanced via types contribute to improved signal integrity, reduced signal transmission delays, and enhanced layout efficiency.

Blind and buried PCB vias allow engineers to create more compact, effective electronic devices. This is why they are essential to contemporary PCB manufacturing for anything from consumer electronics to aerospace systems.

The IPC standards recommend six mils, 150 micrometers or less in diameter, of blind and buried vias. 

Major Use Cases of Blind and Buried Vias

Blind and Buried Vias are used in the following applications:

  • Miniaturized Electronics: Essential for compact designs in smartphones, tablets, and other portable electronic devices.
  • High-Frequency Applications: Crucial in telecommunications and wireless devices to maintain signal integrity and minimize signal transmission delays.
  • Aerospace and Automotive: Enhances reliability in complex electronic systems, allowing for more compact and lightweight PCB designs.
  • Medical Devices: Contributes to developing advanced and compact healthcare technologies, ensuring precision and reliability.
  • PCB Design: Widely used across industries for creating intricate circuitry while optimizing space and maintaining performance.

Various types of Vias in PCBs

Blind and Buried Vias
  • Through-Hole Vias

Through-hole vias are fundamental components of printed circuit boards (PCBs). These vias are microscopic holes that run through the board, connecting different layers of the PCB. Electrical signals can travel through them to get from one side of the board to the other.

A through-hole is created by drilling a hole through the PCB and covering the interior walls with conductive material. This ensures a smooth transition between the layers. Through-hole vias are very useful for connecting components on both sides of a board, providing a dependable and long-lasting solution for various electronic applications.

These vias serve an important role in constructing multi-layered PCBs, allowing signals to flow efficiently between circuit layers. Through-hole vias are still essential to many electronic devices, allowing combined circuitry to function smoothly and securely even with the rise of newer technologies like micro vias for more compact designs.

  • Blind Vias

Blind vias, unlike through-hole vias, do not extend through the entire PCB. Instead, they connect an outer layer to one or more inner layers. This design conserves space, allowing for more intricate and compact circuit layouts. Blind vias are commonly used in high-density areas on the surface of the PCB.

  • Buried Vias

Buried vias in the inner layers of the PCB connect these layers without reaching the outer surfaces. This design optimizes space further, as these vias are not visible from the outer layers. Buried vias are beneficial for creating complex circuitry without affecting the external dimensions of the PCB.

  • Microvias

Microvias are microscopic holes on current PCBs that connect multiple layers. It is smaller, with dimensions of about 0.1mm to 0.15mm. It is cut with the help of a laser. The laser technology ensures reliability and accuracy in high-density PCBs. 

  • Microvias enhance signal integrity and reduce signal transmission times.
  • They contribute to effective heat dissipation in electronic devices.
  • The construction of microvias involves complex manufacturing procedures.
  • Not all PCB manufacturers may have the capability to produce microvias.
  • Despite manufacturing challenges, microvias play a crucial role in electronic design.

Factors to Consider for Blind and Buried Vias

While placing the vias on PCB, consider the following factors:

  • Space Efficiency:
    • Consider using blind vias in areas with limited space and optimizing the layout of components on the PCB.
    • Buried vias are ideal for intricate designs, maintaining a compact form without affecting external dimensions.
  • Signal Integrity:
    • Evaluate the impact on signal integrity when implementing blind vias, especially in high-frequency applications.
    • Buried vias contribute to enhanced signal integrity by reducing signal transmission delays.
  • Layer Considerations:
    • Plan the layer arrangement carefully to incorporate blind vias effectively, ensuring they connect the desired outer and inner layers.
    • Strategically position buried vias within inner layers to maintain a clean external appearance.
  • Manufacturability:
    • Check with PCB fabricators to confirm their capabilities in producing boards with blind and buried vias.
    • Ensure that the chosen types align with the manufacturer’s process capabilities.
  • Cost Factors:
    • Evaluate the cost implications of using blind and buried vias in the overall PCB manufacturing process.
    • Consider the trade-offs between design complexity and fabrication costs.
  • Thermal Considerations:
    • Assess thermal implications, especially in designs with high-power components, and choose vias accordingly.
    • Consider the thermal conductivity of filled vias to enhance heat dissipation.
  • Testing and Inspection:
    • Implement testing procedures for boards with blind and buried vias to ensure reliability.
    • Inspect vias thoroughly during the quality assurance process to identify and address any issues.

Comparison Blind vs. Buried Vias


Blind Vias

Buried Vias


Visible from one side of the PCB

Not visible from either side of the PCB

Space Efficiency

Space-saving on outer layers for intricate designs

Optimises space within inner layers

Signal Integrity

Potential impact: careful planning is required

Enhances signal integrity by reducing delays


Generally more straightforward to manufacture

Requires precision and may increase complexity


Often less costly due to simpler manufacturing

May incur higher costs due to added complexity


High-density surface areas, outer layer connections

Complex internal circuitry without external impact

Thermal Consideration

Less impact on thermal performance

Requires consideration for heat dissipation

Sizes for Blind and Buried Vias

Via Type

Typical Sizes


Blind Vias

0.1mm to 0.4mm (diameter)

High-density areas on the outer layer of the PCB


0.1mm to 0.2mm (depth)


Buried Vias

0.1mm to 0.2mm (diameter)

Connections within inner layers, away from the surface


0.1mm to 0.2mm (enclosed depth)


Things to Consider While Selecting the Right PCB Vias

Selecting the right vias for your PCB involves carefully considering several factors to ensure optimal performance and reliability. Here are key things to keep in mind:

  • Understand what your PCB needs to do.
  • Choose through-hole, blind, buried, or microvias based on your design.
  • Decide where the vias go in the layers of your PCB.
  • Pick via sizes based on your circuit density and what your manufacturer can handle.
  • Check how vias affect signal quality, especially in high-frequency uses.
  • Think about heat, especially if you have powerful components.
  • Make sure your manufacturer can make the type of vias you need.
  • Consider the cost of different via types for your budget.
  • Plan for tests to make sure your vias work well.
  • Follow design rules to match industry standards and avoid problems.


Thus, blind and buried vias are vital for compact and efficient PCB designs, contributing to improved signal integrity. Their major use cases range from miniaturized electronics to aerospace applications. 

Different via types, including through-hole, blind, buried, and microvias, serve specific connectivity needs. Selecting the right vias involves considering factors like space efficiency, signal integrity, manufacturability, and testing. The comparison between blind and buried vias highlights their distinct advantages. 

Specific size recommendations provide practical guidance. Overall, the content emphasizes the crucial role of vias in contemporary PCB manufacturing, enabling engineers to create reliable electronic devices across various industries.

Want to make your electronics smaller and more efficient? Explore blind and buried vias with ElePCB. We’re your go-to for top-notch PCB manufacturing. Trust us for precision, affordability, and reliability. Upgrade your electronic designs with ElePCB – Your Best PCB Manufacturing Partner!”



ELE PCB has got the IS09001:2015, IS013485:2016, ROHS and FCC certifications. We can offer all kinds of services, including PCB manufacturing and PCB assembly, sample orders and batch orders. For PCB assembly, utilizing 7 high-speed SMT PCBA lines from Yamaha and Sony, to meet our customers’ needs. Our extended services include PCB design &PCB Layout, hardware design engineering, firmware &software development, and personalization. ELE company is honored as an excellent supplier from any company all around the world. We deeply believe that our good service and experience will completely meet your needs. Integrality, value and innovation are the forces that drive our success.



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About Michael

Michael is the general manager of ELEPCB, a leading PCB design and manufacturing company based in China. He has over 10 years of experience in the PCB industry, and has been involved in various projects.

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