Cadence Sigrity PowerDC allows the users to predict the correct DC voltage drop based on the operating temperature of that region of the electronic product's printed circuit board. This demo will show you how to use PowerDC to do multi-board electrical and thermal co-simulation.
With the right layout and connection between boards, you can ensure clean high-speed signals in multi-board...
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What is modular hardware? Modular hardware is connecting various separate hardware units to form one cohesive electronic design. Read here for the benefits.
To reduce time and expense from the traditional single board design process, take a look at how the multi-board ECAD schematic for system design can help.
Today’s complex system designs are demanding a lot more from the PCB designer. Here is a multi-board PCB design process overview that is designed to help you.
This best practices document will guide the user to leverage the new features focusing on the new functionalities.
With multi-board etching, it is important you consider what may affect the conductivity of your board and its thermal management properties.
You can avoid a lot of design and manufacturing problems as well as saving time on your next PCB design by saving multi circuit board design rules for reuse.
By connecting electrical circuits for multi-board schematic capture you can not only create better designs, but save development costs, as well.
Manufacturability of HDI boards will want more carefully arranged documentation to ensure accuracy in manufacturing as well as proper layer stackup management.
Ever wonder what is a multiphysics simulation? Learn more about these important simulations in PCB design in this article.
Performing integrated circuit simulation not only verifies your circuit’s functionality, but also aids in the manufacturing of your board or multi-board system.
Today’s modern design tools give PCB designers a lot of features and functionality that helps in the design of physical multi-board assembly designs.
New products often require observing multi-board design form factor conditions. Managing the PCB design correctly occurs through the application of design tools.
Full system PCB design tools can help you to better create the system connectivity and see the final 3D results of your work in a multi-board enclosure.
Multi-board system assembly can be as easy or as difficult as you make it. Here are some layout strategies to work through assembly easily.
When PCB designers don’t follow multi-board PCB edge clearance guidelines in their designs, it can cause problems for manufacturers when creating the panel.
A power plane on a PCB can be tricky to manage in even a simple 2-layer circuit design, but in a multi-board system, they become networks that seem impossible at times.
There are plenty of points to consider when selecting connectors in multiboard design. Frequency and switching speed limitations, temperature, and price are just a few.
Multi-board vs multilayer designs requires PCB designers to step up their multilayer design skills to answer the need for true multi-board system level design.
With the right layout and connection between boards, you can ensure clean high-speed signals in multi-board design.
Electronic interconnects are imperative to managing a multi-board PCB system in electronics design. Find out the necessities for connectivity here.