Signal Integrity

  • Constraints in DDR Routing: The Expansive Power of Limits

    Constraints in DDR Routing: The Expansive Power of Limits

    Constraints in DDR routing enable a designer to manage tricky layout considerations with ease.

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  • DC Voltage Requirements for Electronic Devices on High-Speed PCBs

    DC Voltage Requirements for Electronic Devices on High-Speed PCBs

    The DC voltage requirements for electronic devices on high-speed boards present design challenges that are best overcome with design-analysis integration.

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  • What Types of Sensors Can I Use in My PCB?

    What Types of Sensors Can I Use in My PCB?

    Of all the types of sensors available, how do you choose the right sensor for your application? Learn more in this article.

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  • DDR Routing Techniques in Your PCB Design

    DDR Routing Techniques in Your PCB Design

    Advance memory routing can throw new challenges at you. Before getting tangled up in a confusing mess of traces, take a look at these DDR routing techniques.

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  • Understanding the Different PCB Layer Configurations for Microstrip vs Stripline

    Understanding the Different PCB Layer Configurations for Microstrip vs Stripline

    Knowing the differences between microstrip vs stripline routing methodologies will help you to set up your board for the best high speed routing configurations.

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  • Load Pull Analysis in Large-Signal Network Analysis

    Load Pull Analysis in Large-Signal Network Analysis

    Designing interconnects for an RF system with nonlinear devices? Load pull analysis can help you design your cascaded N-port network.

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  • Guide on PCB Trace Length Matching vs Frequency

    Guide on PCB Trace Length Matching vs Frequency

    Understanding PCB trace length matching vs frequency means knowing at what point you can operate propagation delay within expected or necessary signal integrity.

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  • Impedance Matching Between Ground Plane and Power Plane

    Impedance Matching Between Ground Plane and Power Plane

    Without impedance matching between ground plane and power plane, your board may yield interference and distortion.

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  • Everything You Need to Know About PCB Power Supply Design

    Everything You Need to Know About PCB Power Supply Design

    Cadence’s suite of design tools is a natural choice for PCB power supply design and analysis.

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  • Signal Integrity Design Considerations for High Speed Design

    Signal Integrity Design Considerations for High Speed Design

    Cadence’s high speed design tools account for many signal integrity design considerations and help you create the best PCB layouts.

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  • Improving Signal Integrity in 5G RF Designs2:53

    Improving Signal Integrity in 5G RF Designs

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  •  Frequency Domain vs Time Domain: Simulation, Models, and Signal Analysis

    Frequency Domain vs Time Domain: Simulation, Models, and Signal Analysis

    Importance of the time domain, frequency domain, and modal domain in the analysis of signals, functions, data and systems. Learn the three domains of signal analysis that engineers use to determine a

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  • High Pass Filter Design Considerations and Beginner Tips

    High Pass Filter Design Considerations and Beginner Tips

    High pass filters prevent low frequency signals from affecting high frequency signals within your electronics.

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  •  CPLD vs. FPGA: Which Do You Need For Your Digital System?

    CPLD vs. FPGA: Which Do You Need For Your Digital System?

    With the popularity of NAND and NOR gates, it can be easy to overlook the capabilities of CPLD vs FPGA when looking to satisfy the needs of your digital system.

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  • PCB Design Techniques to Reduce Ground Bounce in Signal Integrity

    PCB Design Techniques to Reduce Ground Bounce in Signal Integrity

    Switching noise can cause problems in your PCB design. Here are some suggestions for how you can reduce ground bounce in signal integrity on your next design.

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  • Working with High Speed and RF PCB Trace Lengths in Your Design

    Working with High Speed and RF PCB Trace Lengths in Your Design

    Here are some PCB routing best practices to use when working with high speed and RF PCB trace lengths in your design to avoid signal integrity problems.

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  • How to Design and Simulate an Impedance Matching Network

    How to Design and Simulate an Impedance Matching Network

    Some high speed and high frequency layouts may require designing an impedance matching network. Take a look at some possible networks in this article.

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  • Differential Pair Signal Analysis: Clarifying Signals and Routing

    Differential Pair Signal Analysis: Clarifying Signals and Routing

    Design teams can eliminate EMI and noise with carefully differential routing and analysis of differential signals.

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  • Trust the Best PCB Design Guidelines to Lead You to Success

    Trust the Best PCB Design Guidelines to Lead You to Success

    PCB design guidelines should not be feared and instead be looked at as valuable tools that will help us navigate our way through the design process.

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  • How to Prevent Clock Skew in PCB Design

    How to Prevent Clock Skew in PCB Design

    Clock skew involves data signals being improperly sent and received. Preventing clock skew is important for your device working properly.

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