Large electronic boards, small electronic boards, and everything in between may seem to require separate sets of PCB layout features. In reality, your PCB design software should not delineate your PCB design based on size. Whether you need to design a large or small electronic board, a design application with high-quality CAD tools will help you get your job done quickly and get your board ready for production.
Small electronics board designs are much easier to create when using high-quality CAD tools like those you'll find in Altium Designer. Altium Designer's PCB design and layout capabilities accommodate boards of all sizes, shapes, thicknesses, copper weights, and materials. In addition, Altium Designer's design error-checking engine helps ensure that your layout conforms to basic electrical and mechanical design rules. Here's how you can design high-quality electronic boards of any size with Altium Designer's comprehensive set of PCB design tools.
The only PCB design software for small and large electronic boards, high density layout and routing for a whole range of electronic applications.
The smaller an electronic card, the tighter the layout of the components and the denser the routing. To avoid problems with signal integrity, short circuits during assembly, mechanical interference, and dense routing, designers must have full control over their design rules and layout tools. Some design programs apply the same rules, routing settings, spacing settings, and stacking limits for every electronic board, regardless of size.
Altium Designer is different.
Altium Designer's layout and routing features were created to work with electronic boards of any size and density. Designers have full control over the online design error-checking engine, which allows them to specify application-specific design rules for small-sized electronic boards and high-density interconnects. When you need to take control of the design and layout of a small electronics board, turn to Altium Designer's design tools.
Design small electronic boards
There is no specific size to qualify an electronic board as "small", but small electronic boards tend to have some common characteristics:
They tend to use smaller surface mount components (0402, 0201 packages are common)
Density tends to be higher and track width tends to be smaller
IC packages tend to be smaller
Shape and thickness of cards may be non-standard
Clearance and mounting hole sizes tend to be smaller
Tracks between components tend to be shorter
Planar layers can be omitted in favor of polygonal layers to allow routing density in inner layers.
Because these boards may use more specialized layout techniques and practices, designers need tools that give them full control over many aspects of the design. These include clearance, hole size, track width, impedance tolerances, and more.
Take control of the layout of your small electronic board
When you have a flexible set of PCB CAD tools, you can control every aspect of your PCB when creating a small electronic board. By setting the correct clearance distances, creating your via and padstack patterns, and setting the appropriate track widths, you can create a small electronics board layout that meets your spacing and density requirements. You can also ensure that your board will meet your application requirements and design rules when you create your layout diagram.
Small circuit board designs feature high component density
When you reduce the size of your electronic board, you inevitably increase the density of components in your circuit diagram. You also create un situation where components may be so close together that they may mechanically interfere with each other. They can also be electrically too close, which can lead to shorts during assembly, signal integrity issues, or an inability to route copper traces without increasing board size or reducing the width of the tracks.
When you need to layout components on a dense electronic board, you need rule checking capabilities to help detect unintended interference and free space violations on high-density boards. Any high-density board should conform to the manufacturer's DFM guidelines, and your design rule checking tools should allow you to define custom design rules for high-density layout and routing. Your editing tools should then automatically check your layout as it is created, rather than waiting for the layout to be completed.
Design Error Checking for Small Electronic Boards in Altium Designer
Whether you're designing a high-density electronic board (HDI) or just a small electronic board with standard manufacturing capabilities, Altium Designer's online design error-checking engine helps you create a layout that meets all your requirements. Design. Altium Designer's CAD functions integrate directly with the online design error checking engine, ensuring your layout will meet your design and manufacturing requirements while maintaining the component and routing density you need. you need.
Altium Designer's design tools are suitable for any application, including high-density interconnect (HDI) electronic boards and advanced technology. Learn more about high density interconnects.
Altium Designer's design error checking engine is easy to configure for high density boards. You can specify tolerances and clearances for all aspects of your assembly drawing. Learn more about setting high density PCB design rules.
When you're ready to start routing the connections in your high-density interconnect layout, Altium Designer's routing features give you full control over your board while helping you adhere to your design rules. Learn more about the CAD tools you need for high-density interconnect PCB design and layout.
Large electronic boards, small electronic boards, and everything in between may seem to require separate sets of PCB layout features. In reality, your PCB design software should not delineate your PCB design based on size. Whether you need to design a large or small electronic board, a design application with high-quality CAD tools will help you get your job done quickly and get your board ready for production.
Small electronics board designs are much easier to create when using high-quality CAD tools like those you'll find in Altium Designer. Altium Designer's PCB design and layout capabilities accommodate boards of all sizes, shapes, thicknesses, copper weights, and materials. In addition, Altium Designer's design error-checking engine helps ensure that your layout conforms to basic electrical and mechanical design rules. Here's how you can design high-quality electronic boards of any size with Altium Designer's comprehensive set of PCB design tools.
The only PCB design software for small and large electronic boards, high density layout and routing for a whole range of electronic applications.
The smaller an electronic card, the tighter the layout of the components and the denser the routing. To avoid problems with signal integrity, short circuits during assembly, mechanical interference, and dense routing, designers must have full control over their design rules and layout tools. Some design programs apply the same rules, routing settings, spacing settings, and stacking limits for every electronic board, regardless of size.
Altium Designer is different.
Altium Designer's layout and routing features were created to work with electronic boards of any size and density. Designers have full control over the online design error-checking engine, which allows them to specify application-specific design rules for small-sized electronic boards and high-density interconnects. When you need to take control of the design and layout of a small electronics board, turn to Altium Designer's design tools.
Design small electronic boards
There is no specific size to qualify an electronic board as "small", but small electronic boards tend to have some common characteristics:
They tend to use smaller surface mount components (0402, 0201 packages are common)
Density tends to be higher and track width tends to be smaller
IC packages tend to be smaller
Shape and thickness of cards may be non-standard
Clearance and mounting hole sizes tend to be smaller
Tracks between components tend to be shorter
Planar layers can be omitted in favor of polygonal layers to allow routing density in inner layers.
Because these boards may use more specialized layout techniques and practices, designers need tools that give them full control over many aspects of the design. These include clearance, hole size, track width, impedance tolerances, and more.
Take control of the layout of your small electronic board
When you have a flexible set of PCB CAD tools, you can control every aspect of your PCB when creating a small electronic board. By setting the correct clearance distances, creating your via and padstack patterns, and setting the appropriate track widths, you can create a small electronics board layout that meets your spacing and density requirements. You can also ensure that your board will meet your application requirements and design rules when you create your layout diagram.
Small circuit board designs feature high component density
When you reduce the size of your electronic board, you inevitably increase the density of components in your circuit diagram. You also create un situation where components may be so close together that they may mechanically interfere with each other. They can also be electrically too close, which can lead to shorts during assembly, signal integrity issues, or an inability to route copper traces without increasing board size or reducing the width of the tracks.
When you need to layout components on a dense electronic board, you need rule checking capabilities to help detect unintended interference and free space violations on high-density boards. Any high-density board should conform to the manufacturer's DFM guidelines, and your design rule checking tools should allow you to define custom design rules for high-density layout and routing. Your editing tools should then automatically check your layout as it is created, rather than waiting for the layout to be completed.
Design Error Checking for Small Electronic Boards in Altium Designer
Whether you're designing a high-density electronic board (HDI) or just a small electronic board with standard manufacturing capabilities, Altium Designer's online design error-checking engine helps you create a layout that meets all your requirements. Design. Altium Designer's CAD functions integrate directly with the online design error checking engine, ensuring your layout will meet your design and manufacturing requirements while maintaining the component and routing density you need. you need.
Altium Designer's design tools are suitable for any application, including high-density interconnect (HDI) electronic boards and advanced technology. Learn more about high density interconnects.
Altium Designer's design error checking engine is easy to configure for high density boards. You can specify tolerances and clearances for all aspects of your assembly drawing. Learn more about setting high density PCB design rules.
When you're ready to start routing the connections in your high-density interconnect layout, Altium Designer's routing features give you full control over your board while helping you adhere to your design rules. Learn more about the CAD tools you need for high-density interconnect PCB design and layout.
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