Board Spacers, Standoffs

Image	Part Number	Description / PDF	Quantity	Rfq
	R40-6611200 Harwin	ROUND SPACER M4 NYLON 12MM	0
	R60-3001502 Harwin	HEX STANDOFF M6 BRASS 15MM	0
	R6696-02 Harwin	HEX STANDOFF 6BA BRASS 7/8"	0
	R60-3001202 Harwin	HEX STANDOFF M6 BRASS 12MM	0
	R30-9401200 Harwin	HEX SPACER M3 PLASTIC 12MM	0
	R50-3001302 Harwin	HEX STANDOFF M5 BRASS 13MM	0
	R40-4001602 Harwin	HEX STANDOFF M4X0.7 BRASS 16MM	0
	R50-3003002 Harwin	HEX STANDOFF M5 BRASS 30MM	0
	R6697-02 Harwin	HEX STANDOFF 6BA BRASS 1"	0
	R3520-02 Harwin	HEX STANDOFF M3.5 BRASS 20MM	0
	R40-6612500 Harwin	ROUND SPACER M4 NYLON 25MM	0
	R40-4002502 Harwin	HEX STANDOFF M4X0.7 BRASS 25MM	0
	R40-6610300 Harwin	ROUND SPACER M4 NYLON 3MM	0
	R40-3012002 Harwin	HEX STANDOFF M4X0.7 BRASS 20MM	0
	R83-1011302 Harwin	HEX STANDOFF #8-32 BRASS 13MM	0
	R50-3001402 Harwin	HEX STANDOFF M5 BRASS 14MM	0
	R60-3004002 Harwin	HEX STANDOFF M6 BRASS 40MM	0
	R60-3002002 Harwin	HEX STANDOFF M6 BRASS 20MM	0
	R60-3001302 Harwin	HEX STANDOFF M6 BRASS 13MM	0
	R30-6011402 Harwin	ROUND SPACER M3 BRASS 14MM	0

Board Spacers, Standoffs

1. Overview

Board spacers and standoffs are specialized hardware components used to create controlled spacing between printed circuit boards (PCBs), panels, or structural elements. They provide mechanical support, electrical isolation, and thermal management in electronic assemblies. Their importance in modern technology includes enabling compact designs, reducing vibration stress, and improving heat dissipation in devices ranging from smartphones to industrial control systems.

2. Main Types & Functional Classification

Type	Functional Features	Application Examples
Cylindrical Spacers	Simple tubular design with uniform diameter	PCB layer separation in consumer electronics
Hexagonal Standoffs	6-sided structure for wrench tightening	Industrial equipment panel mounting
Self-clinching Standoffs	Permanent installation with threaded compression	Sheet metal enclosures in servers
Adjustable Spacers	Variable length through threaded adjustment	Prototype development and testing
Insulated Spacers	Non-conductive materials for electrical isolation	High-voltage power supply assemblies

3. Structure & Composition

Typical construction includes:

Material: Stainless steel (corrosion resistance), aluminum (lightweight), or nylon (insulation)
Geometry: Cylindrical (standard), stepped (for multiple board heights), or flanged (for load distribution)
Installation Features: Internal threading (male/female), knurled surfaces (for grip), or press-fit tabs
Surface Treatment: Passivation (metal), UV resistance (plastics), or EMI shielding coating

4. Key Technical Specifications

Parameter	Importance
Material Hardness (HV)	Determines wear resistance and load capacity
Thread Engagement Length	Affects vibration resistance in dynamic environments
Thermal Conductivity (W/m K)	Critical for heat dissipation in power electronics
Dielectric Strength (kV/mm)	Safety factor in high-voltage applications
Installation Torque Rating	Prevents over-tightening damage to PCBs

5. Application Fields

Primary industries include:

Electronics Manufacturing: Server racks, LED displays
Automotive: Engine control units (ECUs), ADAS systems
Aerospace: Satellite PCB mounting, avionics enclosures
Medical Devices: MRI scanner internal structures
Consumer Electronics: Smartphone PCB stacking

6. Leading Manufacturers & Products

Manufacturer	Representative Product
PEM	S-8900 Series self-clinching standoffs
RS Components	486-8826 insulated hexagonal spacers
Mouser Electronics	925206-12 adjustable PCB spacers
McMaster-Carr	91285A102 stainless steel standoffs

7. Selection Recommendations

Evaluate mechanical load requirements vs material strength
Match thread type (UNC/UNF/Metric) with assembly hardware
Consider CTE (Coefficient of Thermal Expansion) compatibility with PCB materials
Select insulated variants for >50V circuits
Use vibration-damping coatings in mobile applications

8. Industry Trends

Emerging developments include:

Miniaturization: Sub-1mm spacers for wearable devices
Material Innovation: Conductive polymer composites for EMI shielding
Smart Integration: Standoffs with embedded strain gauges for structural monitoring
Automated Installation: Self-aligning designs for robotic assembly lines
Sustainability: Biodegradable plastic options (PLA-based) entering mainstream production