IN2P3 and Cadence
The National Institute of Nuclear and Particle Physics (IN2P3) of the Centre National de la Recherche Scientifique (CNRS) promotes and unifies research activities in nuclear...
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Signal Integrity
Signal Integrity Resources to Minimize EMI, Noise, Crosstalk and More
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Sigrity X - Redefining Signal and Power Integrity
This white paper highlights the features in Sigrity™ X SI/PI solutions for system-level SI/PI analysis that enable designers to cut the number of design respins and meet short time-to-market windows.
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Do Printed Circuit Board Designers Suffer (or Benefit) From Obsessive Compulsive Disorder?
Read about how OCD affects PCB designers.
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Signal Integrity Fundamentals in PCB Layout
Designing high-speed circuit boards requires an understanding of signal integrity fundamentals and layout best practices.
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Exploring the Difference Between Single-Ended and Differential Signals
This article will explore the differences between single-ended and differential signals and show you how to use each to your advantage in your designs.
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How to Reduce Ground Noise
Ground noise refers to electrical fluctuations that may cause PCB performance problems. Learning how to reduce ground noise is an important part of PCB design.
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Allegro PCB Editor Demo
The Cadence® Allegro® PCB Editor helps bring your innovative and bleeding-edge designs to life.
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Functional Partitioning in PCB Design
We’ll illustrate the importance of setting up functional partitioning in PCB design and give some recommendations on functional partition best practices.
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Managing Magnetic Coupling on a Printed Circuit Board
Magnetic coupling is a different animal. A moving electrical charge will generate a magnetic field as a byproduct. The magnetic fields can be quite powerful though their effect drops off rapidly.
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How to Use a Transmission Line Reflection Coefficient Correctly
There is more than one way to examine how the transmission line reflection coefficient affects your signals.
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How to Reduce Capacitive Coupling
This article discusses how to reduce capacitive coupling and tips for avoiding crosstalk.
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How to Use a Frequency Transformation in Filter Design
A frequency transformation in filter design lets you generate high pass, bandpass, and bandstop filters from a low pass filter transfer function.
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Achieving PWM with a Microcontroller in Your PCB Design
Understand PWM, how to send signals from a microcontroller, and the EMI considerations when planning the duration for digital signals in your PCB design.
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How and Why to Convert Analog Signals to PWM Signals
Check out this article for how to convert analog signals to PWM signals, as well as some design tips for analog to PWM converters.
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Today's and Tomorrow's Terahertz Microcavity Resonators
Terahertz microcavity resonators are a critical part of on-chip microwave photonics. Here’s how these components will fit into the photonics landscape.
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Describing Harmonic Motion in Linear and Nonlinear Circuits
Harmonic motion is more complicated than sinusoidal oscillations. Here’s how complicated oscillations arise in linear and nonlinear circuits.
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Which Design Choices can Reduce EMF Noise?
EMF noise can be reduced with some smart layout decisions. Here’s how you can take control over EMF noise in your design.
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Reaffirm Signal Integrity Using S-Parameter Simulation
A look into S-parameter simulation, and discussion on how these parameters can help maintain signal integrity in RF circuits.
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The Use of Hysteresis with Comparators and How It Affects Functionality
The use of hysteresis with comparators provides increased stability and functionality, which is essential for their proper function in various circuit types.
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Small Signal Model for a Diode in DC and AC Circuits
If you’re using a diode in an AC circuit, you need a small signal model for a diode to describe current and voltage.
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