In the design of electronic products, PCB
mounting determines how the circuit board is firmly fixed inside the device or
the casing. If PCB mounting is done improperly, it may cause problems such as
mechanical stress, loose connections, and even overheating.
Whether you are developing an embedded
system or designing a commercial electronic product, it is necessary to
understand the correct PCB mounting methods. You also need to master the
commonly used PCB mounting hardware, the design skills of mounting holes, and
how to use PCB mounting screws and PCB mounting clips to support the circuit
board.
This guide will explain step by step how
to mount a PCB and help you make a safe and reliable mechanical mounting solution.
What Is PCB Mounting?
PCB mounting refers to the process of securing
a printed circuit board (PCB) within the internal structure of a product. This
usually involves attaching the PCB to the chassis, enclosure or other
mechanical components. The purpose is to keep the circuit board stable during
use without movement or damage.
Proper PCB mounting can bring multiple
benefits. First, it can maintain the physical stability of the board and prevent
cracking due to vibration or impact. Then, it also provides electrical
insulation, avoiding short circuits between the metal enclosure and the circuit.
Additionally, PCB mounting improves the durability and maintainability of the
product.
PCB mounting can be divided into two
aspects: component mounting and PCB mounting. Component mounting uses
through-hole technology (THT) or surface mount technology (SMT) to fix
electronic components onto the PCB. PCB mounting secures the entire board to
the product's structure, such as an enclosure or support frame. This article
focuses on the second aspect.
To achieve reliable connection, PCB
mounting holes, PCB mounting clips and PCB mounting screws are usually used. In
many designs, insulating washers or grounding rings are also combined to
enhance mechanical strength and electrical performance.
Types of PCB Mounting Methods
Depending on the equipment size,
functional requirements and the structural design of the enclosure, different
products will choose different PCB mounting methods. The following are several
common and practical installation methods:
1. Through-hole Mounting
Through-hole mounting is not only used
for soldering electronic components onto PCBs but also for securing PCBs onto
mechanical structures. For example, copper-plated mounting holes are reserved
on the circuit board. Screws can pass through these holes and then be fastened onto
the metal frame or standoff with nuts.
The advantage of this method is that it
has a solid structure and is suitable for resisting vibration and impact. Meanwhile,
if a grounding copper ring is used to connect the PCB mounting holes to the
ground layer, it can also enhance the electromagnetic compatibility (EMC) of
the product.
2. Screw Mounting
Using PCB mounting screws is the most
common and widely used PCB mounting method. When designing a PCB, multiple PCB
mounting holes are arranged at key positions. Through these holes, screws go
through these mounting holes and are tightened into standoffs, support
brackets, or plastic mounting bosses inside the enclosure.
This mounting method is suitable for
various scenarios and performs particularly well in situations where
anti-vibration is required. Commonly used screw materials include metals (such
as stainless steel) or nylon, and they are usually used in combination with
washers to prevent the PCB from being crushed during tightening.
3. Snap-Fit / Clip Mounting
In the
plastic casing, there are often PCB mounting clips or slot structures designed
for the quick installation of circuit boards. These fixtures allow PCBs to be
directly inserted into the reserved positions without tools, making
installation quick and easy. They are suitable for high-volume assembly and
consumer electronics.
However,
the mechanical strength of PCB mounting clips is relatively low, and it is not
recommended for use in application environments with significant vibration or
high-temperature changes.
4. Standoff and Spacer Mounting
Using standoffs or spacers can maintain a
certain gap between the PCB and the base. This not only helps with airflow and
lowers the temperature but also enables electrical isolation, preventing the
conductive parts at the bottom of the PCB from short-circuiting with other
structures.
Standoffs can be fixed with screws.
Common materials include nylon, brass, and stainless steel. The material with
appropriate strength and insulation properties should be selected according to
the actual application.
5. Adhesive or Tape Mounting
For designs that are cost-sensitive or
have very limited space, the PCB can directly adhere to the interior of the
casing using double-sided foam tape or epoxy adhesive. This method does not
require screws or fixtures, which can save space and materials.
However, this method has obvious
drawbacks: insufficient support strength, making it unsuitable for
high-temperature or high-vibration environments, and it is also not conducive
to heat dissipation and later maintenance. Therefore, it is recommended to use
it only in non-critical applications.
|
Mounting
Method
|
Key
Features
|
Pros
|
Cons
|
|
Through-hole Mounting
|
Screws + plated mounting holes
|
Strong, supports grounding
|
Takes space, more steps
|
|
Screw Mounting
|
PCB mounting screws into standoffs
|
Secure, widely used
|
Risk of over-tightening
|
|
Snap-Fit / Clip Mounting
|
Snap-fit PCB mounting clips
|
Fast, tool-free
|
Low strength
|
|
Standoff/Spacer Mounting
|
Spacers + PCB mounting screws
|
Good airflow, insulation
|
Needs more parts and space
|
|
Adhesive/Tape Mounting
|
Tape or glue to fix PCB
|
Cheap, space-saving
|
Weak, poor heat resistance
|
Different PCB mounting methods have their
own advantages and disadvantages. The most suitable fixation method should be
selected by comprehensively considering the product's usage environment,
structural space, heat dissipation requirements and assembly process. The
correct installation method, combined with reasonable mounting hole design and
suitable PCB mounting hardware, is the key to ensuring the safe and stable
operation of the circuit board.
PCB Mounting Holes
PCB mounting holes are specially designed
holes for mechanical fixation and are pre-defined on the circuit board. They do
not carry electrical signals but are very crucial in structural installation.
Correctly setting the PCB mounting holes can enhance the stability of the
circuit board, prevent it from cracking due to mechanical stress, and also
reduce the risk of signal interference.
Types of Mounting Holes
PCB mounting holes are mainly divided
into two types: plated through holes (PTH) and non-plated through holes (NPTH).
The hole walls of the through-plated holes are copper-plated and can be
connected to the ground layer of the circuit board. In addition to being used
for screw fixation, it can also serve as electromagnetic shielding and
grounding protection and is suitable for designs with EMC requirements.
The non-plated through-hole walls are not
copper-plated and are entirely used for structural support without electrical
connection functions. It is suitable for general mechanical fixation and does
not affect the circuit performance.
Typical Quantity in Use
Generally speaking, small and
medium-sized circuit boards usually have 4 to 6 PCB mounting holes. The
specific number and location depend on the size and shape of the circuit board
as well as the mechanical support points required for installation.
Reasonable design and layout of PCB
mounting holes can not only enhance the structural strength of the product but
also contribute to assembly efficiency and later maintenance.
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PCB Mounting Hardware and Accessories
In the design and assembly of circuit
boards, choosing the appropriate PCB mounting hardware is crucial for achieving
a reliable PCB mounting method. Different mounting methods
require the use of different types of accessories to ensure that the circuit
board remains stable under temperature changes, vibrations or long-term use.
The following are common PCB mounting hardware and their functions:
Screws and Bolts
PCB mounting screws are the most common
fasteners and are suitable for most PCB mounting methods. Common materials
include steel, stainless steel, brass and nylon. Metal screws are suitable for
withstanding greater mechanical stress, while nylon screws are applicable in
situations where electrical insulation is required. The thread types include machine
threads and self-tapping threads. They are usually used in conjunction with
nuts or thread standoffs. After the screws pass through the PCB mounting holes,
they can be firmly fixed to the enclosure or support structure to ensure that
the circuit board does not loosen.
Standoffs
The standoff is used to provide
vertical spacing between the circuit board and the base, preventing the bottom
of the PCB from contacting with other structures and causing short circuits. It
also helps with heat dissipation. Standoffs come in various structural
forms, such as hex or cylindrical. Common types include internal threads,
external threads, or different threads at both ends. The material can be
selected from nylon, brass or stainless steel. The appropriate type should be
chosen based on structural strength and insulation requirements. Standoffs are
generally used in conjunction with screws and are key fasteners in multilayer PCBs
or space-compact designs.
Washers
Washers are used to protect the pads and
copper foil around the PCB mounting holes from damage caused by tightening
screws. When installing, place the washer between the screw head and the PCB to
evenly distribute the pressure and enhance the reliability of the fixed area.
Common materials include nylon and stainless steel. When choosing, it should be
considered whether an insulation function is required.
PCB Mounting Clips
The PCB mounting clip is a tool-free
mounting fastener commonly found in plastic enclosures. The circuit board can
be quickly installed by inserting fixtures, making it suitable for prototype
development and lightweight electronic products. This method saves space and
has high assembly efficiency, but its mechanical strength is relatively low. It
is not recommended for use in high-load or highly vibrating environments. PCB
mounting clips are suitable for small equipment or design environments with
limited space.
Mounting Bosses
The mounting boss is usually an
integrated structure in the injection-molded housing, corresponding to the PCB
mounting holes on the circuit board. The circuit board can be directly fixed to
the boss using PCB mounting screws or fixtures. This design is widely used in
consumer electronic products, suitable for mass production, with a simple
structure and convenient assembly.
The correct selection and matching of PCB
mounting hardware can not only enhance the structural strength but also improve
the heat dissipation efficiency and maintenance convenience. When designing,
full consideration should be given to environmental conditions, electrical
requirements and assembly processes to ensure the stability and reliability of
the entire PCB system.
Best Practices for PCB Mounting Design
To achieve reliable and professional PCB
mounting, engineers should follow these important design tips. Good planning
and the right choices will help the PCB stay strong, safe, and easy to
assemble.
1. Plan Mounting Holes Early
Always include PCB mounting holes at the
beginning of your schematic and layout design. If you add them later, it may
cause problems or require layout changes. Early planning helps avoid rework.
2. Spread the Load Evenly
Place at least four mounting holes at the
corners of the board. For larger PCBs, add more holes along the edges or
center. This keeps the board from bending or breaking under stress.
3. Keep Traces Away from Mounting Holes
Leave extra space around each PCB
mounting hole. Avoid placing signal traces or copper pads too close. This
reduces the chance of damage from pressure or vibration when the board is
screwed down.
4. Use Grounded Plated Holes
If needed, use plated mounting holes and
connect them to the ground layer. This improves EMC (electromagnetic
compatibility) and helps reduce noise in high-frequency designs.
5. Choose the Right PCB Hardware
Select proper PCB mounting screws,
standoffs, or PCB mounting clips based on your board's size, weight, and
environment. For example, use metal hardware for heavy boards or nylon parts in
high-humidity areas to prevent corrosion or short circuits.
6. Use Standard Hole Sizes
Follow industry-standard hole sizes for PCB
mounting holes, like 3.2mm for M3 screws. This makes it easier to find matching
PCB hardware and avoids custom parts.
7. Follow IPC Guidelines
Refer to IPC standards such as IPC-2221
and IPC-7351 when designing mounting features. These standards give trusted
rules for mechanical design and mounting hole layout, helping ensure quality
and manufacturability.
By following these simple and clear PCB
mounting practices, your board will be more durable, easier to assemble, and
ready for real-world use.
Conclusion
A well-designed PCB mounting system helps
your electronic product stay stable and reliable during its entire life. Just
like electrical design, every part of PCB mounting is important. This includes
choosing the right PCB mounting method, placing mounting holes correctly, and
using the right PCB mounting hardware.
Whether you use through-hole mounting, PCB
mounting screws, or snap-fit clips, make sure your mounting method matches the
real use of the product. For example, a product in a high-vibration area needs
stronger mounting.
With a smart PCB mounting design, you can
build a solid, safe, and easy-to-repair device. Good mounting also helps meet
product function and safety rules.
FAQs
1. What is the purpose of mounting holes
in PCBs?
Mounting holes are used to secure the PCB
mechanically to an enclosure, frame, or panel. They allow the use of PCB
mounting screws, standoffs, or clips to prevent movement and ensure reliable
operation.
2. Can I use double-sided tape for PCB
mounting?
While double-sided tape can be used in
some low-cost applications, it's not a preferred PCB mounting method for
critical systems. It lacks structural integrity, heat resistance, and long-term
reliability.
3. Are plated holes necessary for
grounding?
Plated mounting holes can be connected to
the ground plane to serve as EMC grounding points, which is useful in shielded
or high-speed designs. However, non-plated holes are better for insulating
mechanical connections.
4. What are the common mistakes in PCB
mounting design?
? Forgetting to include enough mounting
holes
? Placing mounting holes too close to
traces or pads
? Using incorrect PCB mounting hardware
? Misaligning PCB mounting holes with
enclosure bosses
? Neglecting thermal and vibration
considerations
