Designing with 5G Modulated Signals
  • Courses
  • 14 items

Learn about the new figures of merit like error vector magnitude (EVM) that are now required for RF, microwave, and mmWave applications.

Learn:

  • Why legacy characterization techniques like IP3 are no longer sufficient 
  • How to use a Compact Test signal to get an early verification in circuit design
  • How VTBs can measure EVM and accelerate end-to-end system verification 
  • Keysight Advanced Design System (ADS) with bundle W3608B
Lessons
Lesson 1 - Intro - Designing with 5G Modulated Signals

Lesson 1 - Intro - Designing with 5G Modulated Signals

Introduces the concept of 5G modulated signals and the different figures of merit that are used to characterize their performance. It also discusses the challenges of designing 5G modulated signals for different applications.
Lesson 2 - Trends

Lesson 2 - Trends

Discusses the trends in 5G modulated signals, such as the use of higher frequencies and higher data rates. It also discusses the challenges of meeting these trends with traditional modulation schemes.
Lesson 3 - Simulation Approach Overview

Lesson 3 - Simulation Approach Overview

Provides an overview of the simulation approach used to design 5G modulated signals. It discusses the different tools and techniques that can be used to simulate 5G modulated signals.
Lesson 4 - Reducing Envelope Simulation Runtime

Lesson 4 - Reducing Envelope Simulation Runtime

Learn how to reduce the runtime of envelope simulations for 5G modulated signals. It covers the different techniques that can be used to accelerate envelope simulations.
Lesson 5 - Distortion EVM

Lesson 5 - Distortion EVM

Discusses the concept of distortion EVM and how it is used to characterize the performance of 5G modulated signals. It also discusses the different techniques that can be used to reduce distortion EVM.
Lesson 6 - Compact Test Signals

Lesson 6 - Compact Test Signals

The use of compact test signals to verify the performance of 5G modulated signals. It covers the different types of compact test signals that are available and how they can be used to verify the performance of 5G modulated signals.
Lesson 7 - Virtual Test Bench

Lesson 7 - Virtual Test Bench

Discusses the use of virtual test benches to verify the performance of 5G modulated signals. It covers the different types of virtual test benches that are available and how they can be used to verify the performance of 5G modulated signals.
Lesson 8 - Making Envelope Simulation Easier to Use

Lesson 8 - Making Envelope Simulation Easier to Use

Covers how to make envelope simulations easier to use for 5G modulated signals. It covers the different tools and techniques that can be used to make envelope simulations more user-friendly.
Lesson 9 - System Design Flows

Lesson 9 - System Design Flows

Learn the different system design flows that can be used to design 5G modulated signals. It covers the different steps involved in each design flow and the challenges that need to be addressed.
Lesson 10 - Conclusion - Designing with 5G Modulated Signals

Lesson 10 - Conclusion - Designing with 5G Modulated Signals

Concludes the course by summarizing the key concepts that were covered. It also provides some resources for further learning.
PathWave Design Software

Brochures

PathWave Design Software

Gone are the days of simple design. Every year, designers push new limits: longer battery life, smaller components, higher levels of integration. With complex design comes new challenges. Designers spend hours setting up and running simulations. Mountains of data wait to be measured and analyzed. Engineers need to create workarounds to connect multiple design tools. Meanwhile, wireless standards are evolving quickly. To keep up with the strong demands of modern technology, designers need a new approach.

Four Secrets to Mastering Millimeter-Wave Communications Circuit Design

eBooks

Four Secrets to Mastering Millimeter-Wave Communications Circuit Design

Keysight has seen dramatic changes in mobile network devices and infrastructure design, development, and deployment in the transition from 4G to 5G. One substantial challenge affecting circuit design is frequencies extending into the 70 GHz millimeter-wave (mmWave) band. High millimeter-wave frequencies and the drive towards miniaturization directly impact the design of the circuits and systems.
Simulation for 5G NR System Design and Verification

White Papers

Simulation for 5G NR System Design and Verification

The 3rd Generation Partnership Project (3GPP) published its very first 5G specification in December 2017. It includes non-standalone (NSA) mode using the LTE core and radio networks, while preparing a full-scale rollout of NR stand-alone deployments. The main scenario for NSA mode is the widely considered LTE-NR Dual Connectivity (DC), in which user data can be exchanged between a mobile device and a NR base station along with LTE connectivity.
Modulation Distortion: An Innovative Method for High-Accuracy EVM Measurements

Modulation Distortion: An Innovative Method for High-Accuracy EVM Measurements

Error vector magnitude is a critical parameter for power amplifiers. Here’s an approach that combines a VNA and VSG with a modulation-distortion application to overcome measurement challenges.
Related Product
W3608B ADS Core, EM Design, Layout, RFPro, RF Ckt Sim, Sys-Ckt Verification, Complete VTBs

Software

W3608B ADS Core, EM Design, Layout, RFPro, RF Ckt Sim, Sys-Ckt Verification, Complete VTBs

ADS and EM design environments with 3D RF layout for multi-technology RF module design and module level DRC/LVS/LVL verification for error-free assembly.
Related Use Case
How to Design Robust 5G Power Amplifiers for the Real World

How to Design Robust 5G Power Amplifiers for the Real World

Simulate your design with authentic 5G modulation and EVM measurements