Become an expert in PathWave System Design (SystemVue)

What you will learn

A top level understating on PathWave System Design (SystemVue) tool from Keysight from an Antenna and RF aspect

Please note software will NOT be provided and you need to reach out to Keysight directly and ask for 1 month free trial

Please note this is an advance coursed and we wont be going over RF and Antenna concept and will only show the software and tools

Description

Important notes

  • Please note software will NOT be provided and you need to reach out to Keysight directly and ask for 1 month free trial
  • Please note this is an advance coursed and we wont be going over RF and Antenna concept and will only show the software and tools
  • Please note we only concentrate on RF and Antenna aspect of the tool

Description

In RAHAE209 we would be concentrating on PathWave System Design (SystemVue)Introduction in RF/Antenna field.

This course will cover PathWave System Design (SystemVue)design environment, different data type definition and Analog/RF components required for system design in PathWave System Design (SystemVue). This course helps to analyze any RF system design, RF transmitter/Receiver and Transceiver, RF Budget Analysis, Heterodyne Receiver, Block Up Converter (BUC), Filter Response Analysis, Antenna Array Design, Simple Phased Array System & Data Flow RF Beamforming System Design.

What is the target audience?

  • This course is set for professionals working in the area of RF/Antenna Engineering field.
  • Antenna Engineer
  • RF Engineers
  • Electrical Engineers
  • Post graduate students taking antenna course
  • Research scholars working in the field of RF/Antenna

Course content

  • Introduction
  • How to start with PathWave System Design (SystemVue)
  • Data Flow Analysis
  • Data Flow Simulations
  • Graph in Data Flow
  • Component colors significance
  • Data Types Definition
  • Envelope Signal
  • Type Conversion
  • MATLAB Script Modelling
  • Basic RF/Analog Component
  • RF System Design
  • RF Transmitter
  • RF Receiver
  • RF System Budget Analysis
  • Dual Band RF Receiver
  • a 2.4 GHz and 5.3 GHz
  • Design of Block Up Converter (BUC) for X Band
  • Design & Analysis of Heterodyne Receiver
  • Filter Response Analysis using PathWave System Design (SystemVue)
  • Design of Low Pass Digital Filter
  • Antenna System Analysis using PathWave System Design (SystemVue)
  • Design of 8X8 Uniform Rectangular Array at 6 GHz
  • Simple Phased Array Design at 6 GHz
  • Data Flow RF Beamforming

Dr. Akhilesh Verma

Antenna Engineering Scientist at Rahsoft

Course Instructor

PhD candidate in 5G Antennas, Akhilesh has more than 6 years of teaching experience for undergraduate courses. Akhilesh has a proven track of Antenna design and analysis. Akhilesh works on Rahsoft’s RF Certificate to include the most updated criteria in the courses. Akhilesh is an Antenna engineering scientist at Rahsoft with specialization in 5G antennas, Microstrip filters, Disruptive Beamforming, Beam splitting networks design. He has designed and tested various type of antennas such as microstrip antenna using different feed, Planar inverted-F antenna (PIFA), passive phase shifters, Substrate integrated waveguide antenna, Circuit equivalent model of antenna, Metasurfaces (MS) for beamforming.

Ahsan Ghoncheh

Course Adviser and Head of RF & Antenna Engineering Department at Rahsoft

Former:

Avionic Design Engineer at Thales Avionics – Boeing and Airbus IFE Product development

Qualcomm RF Engineer at Qualcomm – RF Front End modules

Staff Engineer at Broadcom – Bluetooth , WLAN

English

Language

Content

Introduction

Introduction to SystemVue and Its Applications, users for SystemVue

SystemVue design environment

SystemVue design environment

Setting Options in Data Flow Analysis

Options tab for the Data Flow Analysis

How to connect components, Simulation in Data flow

How to get graph in systemvue

More options in Graph and type of Sink used

Changing graph properties


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Various colors used in components and their significance

Components in Schematic window

Different Data types definition

How to use envelope signal

Type conversion to and from envelope type

Envelope to Complex conversion

How to use MATLAB script in SystemVue

Overview of basic RF/Analog Component

Analog/RF Components

Basic components required for RF system Design

Basic RF Architecture Design in SystemVue

Design Analysis of RF Transmitter using SystemVue

RF receiver chain

RF receiver chain continued

RF System Budget Analysis in SystemVue at 6GHz

Dual Band Receiver at 2.4 GHz & 5.3 GHz using multi carrier source

Dual Band Receiver at 2.4 GHz & 5.3 GHz using multi carrier source

Block Up Converter which is -31.345 dBm C Band (5 GHz) input signal is condition

Design of BUC

Heterodyne receiver design and each stage path analysis

Set the values for each components used in heterodyne receiver

Power spectrum, cascaded gain, and carrier to noise and distortion loss analysis

Filter Response Analysis

Filter Response Analysis Continued

Low Pass Digital Filter Design for 15 KHz pass frequency with impulse source at

Antenna System Design Using SystemVue

8X8 Antenna Array Design at 6 GHz

Simple Phased Array Design at 6 GHz

Simulations and Result Analysis Simple Phased Array Design at 6GHz

Data Flow RF Beamforming