​PCB DESIGN

TRIAS SERVICES PCB DESIGN

Product Solutions

TRIAS Board-Level Signal Integrity Simulation

Service

Ask yourself the following questions:

  • Are we designing printed circuit boards with digital high-speed signals only with rules of thumb and gut instinct?
  • Are we really sure that we have no signal integrity issues?
  • Are we not convinced that the investment in the SI analysis software would pay off?

If the answer to any of the above questions is yes, you should contact us. 

We can offer you support in the simulation of signal integrity and crosstalk on your PCB layout.

Using HyperLynx® from Mentor- A Siemens Business we will perform a complete simulation on your entire PCB to investigate signal integrity and crosstalk violations, which are recorded in log files.

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TRIAS Board-Level Power Integrity Simulation

Service

Ask yourself the following questions:

  • Do we design complex PCBs with multiple power & ground levels and low supply voltages or low voltage tolerances?
  • Are we worried about high current densities on your boards?
  • Do we want to reduce our product costs by optimising the number and values of decoupling capacitors?
  • Are we worried about the propagation of noise through the power planes of our boards?

If the answer to any of the above questions is yes, you should contact us. 

We can support you through our Power Integrity simulation service.

Power integrity analysis includes the following types of simulations:

  • DC Drop: Checks on how much voltage is lost along the way due to the board geometry between power supply and the various loads. If this voltage drop is too large, your active components could be supplied with a lower voltage than required and consequently result in a malfunction.
  • AC Decoupling: Calculates the impedance of the Power Distribution Network (PDN) over a specific frequency range and the effect of installed decoupling capacitors on this impedance. We will selectively enable / disable the installed capacitors and simulate the impact of these changes on the PDN impedance. This allows us to determine the optimal configuration to avoid oversizing and will reduce product costs.
  • Plane noise propagation: Using a given noise source model and frequency, HyperLynx® calculates noise propagation through the PDN to determine the maximum noise level.
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Training | Signalintegrity for Hardware-Designer

This workshop is aimed at developers who design not only circuit diagrams, but also systems and layouts. It has been designed for developers who want to implement high-speed interfaces between semiconductor components and design complex board-level high-speed circuits.

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Training | High-speed Memory Interfaces – Design and Simulation

This workshop is aimed at developers who want to implement high-speed memory interfaces on custom boards.  Very often memory interfaces are used, which are getting faster and faster while the design issues are getting more and more demanding. This workshop is ideal for developers who design not only schematics, but also systems and layout.

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Privacy Policy*
I have read the TRIAS mikroelektronik GmbH privacy policy and I agree that my details and data are collected and stored electronically in order to answer my request.

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