5G part 04

  • Course level: Intermediate


5G part 04

Are you prepared for the 5G challenges with 5G NR testing?
The rollout of 5 generations NR is well underway, presenting several potentials for new devices and infrastructure. The way we communicate will change as a result of 5 generations. The next generation of mobile networks, 5 generations, ushers in a paradigm shift toward a user and application-centric technology architecture, to serve three key use case scenarios with flexibility.

Enhanced Mobile Broadband  (eMBB)

Massive machine-type communication

ultra-reliable low latency (URLLC)

5 generation New Radio (NR) is the first communications standard to accommodate a wide range of consumer and industrial applications. By offering new, flexible numerology, enhanced channel coding, and modulation methods, 3GPP release 15 established the groundwork for 5 generations NR. Wider channel bandwidths and expanded carrier aggregation methods are now possible. More radio resources are available by extending frequencies into the millimeter-wave region.


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What Will I Learn?

  • The Architecture of the 5G System
  • The Stack of 5G RAN Protocols
  • Procedures Crucial to the RAN
  • RAN's key concepts
  • Core 5G
  • Call Flows in 5G
  • 5G Network Functions That Are Critical
  • 5G Core's Key Principles

Topics for this course

31 Lessons

5G Module 1.4

Signal generation and analysis of NB-IoT signals presented at GSMA MWC 20171:24
Accurate 5G antenna characterization up to mmWave presented at GSMA MWC 20171:30
Compact and scalable beamforming power measurements presented at GSMA MWC 20171:16
Be first for 5G signal generation and analysis presented at GSMA MWC 20171:15
Demystifying 5G – 5G New Radio (NR) waveform analysis6:14
Demystifying 5G – 5G New Radio (NR) waveform generation00:00:00
Demystifying 5G – 3GPP RAN1 status for 5G New Radio (NR)00:00:00
Demystifying 5G – Signal analysis of Verizon Wireless 5G waveforms00:00:00
Demystifying 5G – 28 GHz PA characterization with Verizon Wireless 5G waveform00:00:00
Demystifying 5G – Verizon Wireless 5G waveform00:00:00
Demystifying 5G – 5G specification published by Verizon Wireless00:00:00
Demystifying 5G – US is leading the race for 5G frequency candidates00:00:00
Demystifying 5G – Where 5G waveform candidates lose their advantage00:00:00
Demystifying 5G – External harmonic mixer vs. spectrum analyzer00:00:00
Demystifying 5G – Full power frequency sweep for 5G PA characterization00:00:00
Demystifying 5G – 5G power amplifier characterization8:09
Demystifying 5G – PAPR: Scrambled payload sequences for 5G waveform candidates2:51
Demystifying 5G – PAPR: Generating a scrambled payload sequence00:00:00
Demystifying 5G – PAPR: Difference for 5G PHY layer concepts vs. LTE00:00:00
Demystifying 5G – UFMC signal demodulation00:00:00
Demystifying 5G – How about 5G EVM measurements better than 40 dB at 28 GHz?00:00:00
Demystifying 5G – 2 GHz modulation bandwidth for 5G signal generation00:00:00
Demystifying 5G – signal generation and analysis of cm- and mm-wave frequencies00:00:00
Demystifying 5G – frequency candidates00:00:00
Demystifying 5G – waveform candidates00:00:00
Demystifying 5G – limitations of LTE00:00:00
Demystifying 5G – requirements and timeline00:00:00
5G channel sounding – flexible and ready for use cm- and mm-wave test solution00:00:00
IoT and over-the-top (OTT) applications – how to quantify signaling impact and power consumption00:00:00
Ultra-wideband signal generation and analysis for 5G/mm-wave applications00:00:00
Unleashing 5G mm-waves – a test & measurement perspective00:00:00

Enrolment validity: Lifetime


  • Understanding the basics of wireless communication
  • Understanding the fundamentals of networking