A guide to PCB standoffs
In this article, we cover all the things you should know on PCB standoffs:
What are PCB standoffs and what are they used for?
How do electrical standoffs work?
Types of PCB mounting standoffs
What are motherboard standoffs made of?
What are PCB standoffs and what are they used for?
A PCB standoff separates a circuit board from other components. It’s used in electronic applications to create spacing between PCBs or an individual PCB and the chassis. Its other purpose is to prevent components from touching each other and the conductive surface to avoid electrical shorts, making the device safe to use. Raising the PCB with standoffs also creates airflow underneath to help dissipate heat.
Ideal when mechanical strength is needed, a standoff is also known as a PCB standoff screw, as it’s a type of fastener. It secures the board to the device to prevent movement when the device is being used. The job it does is similar to that of a PCB spacer, but they’re not the same. Circuit-board standoffs are threaded, while spacers are not. Standoffs are also available in female-female, male-male or male-female configurations. You’ll use a nut for male ends to secure the standoff.
How do electrical standoffs work?
Installation is straightforward: they’re inserted in pre-drilled holes on the PCB. A screw is then fastened over the standoff’s thread to secure it in place. If using a female standoff, it can be screwed into a male standoff with the same-size thread. Standoffs can be unscrewed if needed, but you can also use adhesive circuit board standoffs for quick installation. These, too, can be released by pinching the standoff.
Types of PCB mounting standoffs
PCB standoffs are available in round or hexagonal shapes. Choose hexagonal if you want more torque when affixing the standoff, but otherwise, round will serve you well. Hexagonal can also be slightly easier to screw down than round. Styles vary, but the most common printed circuit board standoffs include the following:
Hexagonal, plastic – male to male
- Installed by hand
- Does not require assembly equipment
- Operating temperature range: -40°C to 85°C, nylon 6/6, UL94 V-2
Use for: Easy application
Round, brass inserts – male to male
- Ideal when high-mechanical strength is required
- Operating temperature range: -40°C to 85°C, nylon 6/6 with brass inserts, UL94 V-2
Use for: Sturdy, insulated spacing for high-power electronic applications
Hexagonal/insulator, brass insert – male to female
- Provides electrical isolation for sensitive components in an electronic PCB assembly
- Installed by hand without equipment
- Ideal when high-mechanical strength is needed
- Operating temperature range: -40°C to 85°C, nylon 6/6 with brass inserts, UL94 V-2
Use for: Sturdy, insulated spacing for high-power electronic applications
- Installed by hand without equipment
- Available in 25% glass-filled nylon, nylon, and PEEK®
- PEEK® versions withstand heat up to 185°C
Use for: Added strength for heavier-duty applications – Glass-filled nylon
Ability to withstand heavy environment applications – PEEK®
Round/insulator – female to female
- Installed by hand without equipment
- Ideal when high-mechanical strength is required
- Wide range of applications
- Operating temperature range: -40°C to 85°C, nylon 6/6 with brass inserts, UL94 V-2
Use for: Sturdy, insulated spacing for high-power electronic applications
Hexagonal bottom/insulator – male to male
- Brass inserts
- Installed by hand without equipment
- Ideal when high-mechanical strength is required
- Wide range of applications
- Operating temperature range: -40°C to 105°C, nylon 6/6 with brass inserts, UL94 V-2
Use for: Sturdy, insulated spacing for high-power electronic applications
Hexagonal bottom/insulator – female to female
- Brass insert
- Installed by hand without equipment
- Ideal when high-mechanical strength is required
- Operating temperature range: -40°C to 105°C, nylon 6/6 with brass inserts, UL94 HB
Use for: Easy installation
What are motherboard standoffs made of?
First, you’ll need to think about the materials that make your PCB, which contain the transmission lines and components that enable radio frequency/microwave circuits. To learn more, check out our guide Your PCB substrate: a guide to materials.
As to your computer standoffs, it really comes down to metal standoffs vs. plastic standoffs, which in turn should be determined by what you’re trying to achieve.
Use a metal standoff spacer if your goal is to maintain electrical conductivity in order to preserve a circuit. An example is if you want to maintain electrical contact between the PCB and the chassis, or the PCB’s enclosure. In this instance, aluminium is a good choice, as long as it’s not unfinished or anodised. This would cause the formation of layers of oxide, which in turn would disrupt the connection.
Brass PCB standoffs can do the job quite well. Brass is non-magnetic, conductive and resists corrosion. It can also be soldered for grounding. Zinc-plated stainless steel gives optimum corrosion resistance and strength, and while it’s conductive, it’s not the most conductive of metals.
Metal PCB standoffs are also good if you want to add some weight to your application. The drawback with metal is cost – aluminium is the least expensive metal, however – so it’s smart to make sure plastics can’t do the same job you’re after.
Plastic PCB standoffs
If you want electrical insulation, then nylon PCB standoffs are your best option for avoiding electrical shorts. Nylon – like all plastics – is non-conductive. It’s also chemical resistant but it’s not suitable for applications that be used in damp or humid environments. Over time, nylon tends to absorb moisture.
If you need a lightweight material, then nylon motherboard standoffs are your best bet. Nylon is also strong, but care will need to be taken when torquing so that it doesn’t shear. You can also get standoffs in glass-filled nylon, which is excellent for heavy-duty applications when extra strength is needed. Peek® is an excellent material that can withstand heat of up to 365˚F. It provides outstanding mechanical strength and stiffness, while resisting tensile and bending loads.
At a glance: nylon vs brass standoffs
These are the two most popular materials for standoffs. Here’s a look at how they compare. Note, while nylon is strong, brass is stronger, so we’re only acknowledging brass for that characteristic.
Characteristic |
Nylon | Brass |
Conductive |
✔ |
|
Insulates |
✔ |
|
Strength |
✔ |
|
Lightweight |
✔ |
|
Resists corrosion |
✔ |
✔ |
High cost |
✔ |
Nylon and brass circuit board standoffs
You can also get the best of both worlds in nylon standoffs with brass inserts. The brass gives you the conductivity you’re after, but the nylon reduces the chance of electrical shorts.
PCB standoff sizes
Computer standoff thread sizes are the same as common screw sizes. To measure a standoff, you measure the body’s outside diameter, the length of the body and the thread size. Standoffs are often listed by their screw-number sizes, but not always.
Examples: U.S. Screw Diameters
Screw number sizes | Nominal thread diameter | |
Decimal (mm) | Nearest fractional (in) | |
#0 | 1.524 | 1/16 |
#1 | 1.854 | 5/64 |
#2 | 2.185 | 3/32 |
#3 | 2.52 | 7/64 |
#4 | 2.921 | 7/64 |
#5 | 3.175 | 1/8 |
#6 | 3.505 | 9/64 |
#8 | 4.165 | 5/32 |
The height you choose is based on the amount of space you want to create between individual PCBs or the PCB and its chassis.
Standard standoffs
While an M3 PCB standoff is the most common metric size, you can get a standard equivalent if that’s what you need.
Metric or standard?
Inches | Metric Size - Pitch, ISO and IFI Rec. | |
(UNC) | (UNF) | |
1- 64 | 1- 72 | M2 x 0.4 |
3- 48 | 3- 56 | M2.5 x 0.45 |
4- 40 | 4- 48 | M3 x 0.5 |
6- 32 | 6- 40 | M3.5 x 0.6 |
8- 32 | 8- 36 | M4 x 0.7 |
10- 24 | 10- 32 | M5 x 0.8 |
1/4- 20 | 1/4- 28 | M6 x 1 |
5/16- 18 | 5/16- 24 | M8 x 1.25 |
3/8- 16 | 3/8- 24 | M10 x 1.5 |
7/16- 14 | 7/16- 20 | M12 x 1.75 |
1/2- 13 | 1/2- 20 | M14 x 2 |
Download free CADs and try before you buy
Free CADs are available for most solutions, which you can download. You can also request free samples to ensure the electronic standoffs you’ve chosen are exactly what you need.
If you’re not quite sure which standoffs will work best for your application, our experts are always happy to advise you. Whatever your requirements, you can depend on fast despatch. Request your free samples or download free CADs now.
Questions?
Email us at sales@essentracomponents.co.uk or speak to one of our experts for further information on the ideal solution for your application 0345 528 0474.