mmW Technology Training presents the basics of millimeter wave innovations including 28 GHz and ISM 60 GHz (802.11ad, and 802.11ay) and applications for any individual who should be grounded in the essentials of millimeter wave advances.
mmW technology depends on the range between 30 GHz and 300 GHz, which is alluded to as the millimeter wave band. Since the wavelengths for these frequencies are around one to ten millimeters, the mmW are utilized to name the advances and applications utilizing these groups. Millimeter wave proliferation has its own particular eccentricities and qualities of radio flag spread at millimeter wave frequencies and their suggestions for range administration are enter ideas shrouded in this training course.
#Learning Objectives
Upon completion of this course, the attendees will be able to:
Explain the key concepts behind mmW technologies and applications
Contrast mmW deployment with Microwave communications deployment
Discuss various mmW key components
List key measurement, analysis, and identification concepts of physical parameters, and statistical representations of mmWave propagation channels
Describe mmW propagation mechanisms
Explain various aspects of mmW design and link budget
Summarize the approaches used for mmW technology design and implementation
Outline KPIs that quantify mmW performance
Explain how tools can be used during various stages of the mmW systems engineering including analysis, modeling, design, simulation, deployment, operations and optimization.
#Course Content
Millimeter Wave (mmW) Technology at a Glance
Introduction to mmW
Millimeter wave definition
Key benefits of mmW technology
mmW frequency band applications
mmW technology overview
Millimeter wave technology potential applications
The mmW band and the bandwidth
mmW / Sub-mmW
Technical features and functions
Enabling technologies
Innovations
System considerations
System Stand-Off / Operation Range
Issues and performance considerations
The propagation characteristics of millimeter waves
“Optical” propagation characteristics
Loss of signal due to atmospheric effects
mmW propagation characteristics and more.
#Case Studies and Projects Overview
mmW applicatin case studies
mmW system case studies
mmW technology case studies
Trends and evolution
More topics to be covered in this mmW training : mmW Technologies and Applications, mmW Propagation and Loses, Modeling and Simulation of mmW, mmW Modeling and Simulation, ITS Millimeter–wave Propagation Model (MPM), mmW Systems Engineering,
Learn more about Millimeter Wave Training - mmW
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/
1. mmW Technology
Millimeter Wave Training
Price: $2,999.00 Length: 3 Days
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/
Call Us Today: +1-972-665-9786
2. Why Tonex ?
Since 1993, Tonex has specialized in providing industry-leading training, courses, seminars, workshops, and
consulting services across a wide range of topics to Fortune 500 companies, government organizations,
universities and privately owned businesses from around the world.
Visit our Clients Page for a complete list of Tonex customers.
Who is TONEX for?
Tonex is for any organization in need of leading edge technology training. That includes:
Companies, from Fortune 500 to small businesses in all industries
Government agencies
Contractors and System Integrator
Defense and Military
Educational Institutes, Colleges and Universities
What types of courses are offered?
You name it, we provide it. Our courses are constantly updated to keep up with the latest technology, and we
continuously monitor business trends and world events to provide the most relevant subject matter anywhere.
Millimeter Wave Training (mmW)
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3. Case Studies and Projects Overview
•mmW application case studies
•mmW system case studies
•mmW technology case studies
•Trends and evolution
Millimeter Wave Training (mmW)
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/ TAKE THIS COURSE
4. mmW Technology Training presents the basics of millimeter wave innovations including 28 GHz and
ISM 60 GHz (802.11ad, and 802.11ay) and applications for any individual who should be grounded
in the essentials of millimeter wave advances.
mmW technology depends on the range between 30 GHz and 300 GHz, which is alluded to as the
millimeter wave band. Since the wavelengths for these frequencies are around one to ten
millimeters, the mmW are utilized to name the advances and applications utilizing these groups.
Millimeter wave proliferation has its own particular eccentricities and qualities of radio flag spread
at millimeter wave frequencies and their suggestions for range administration are enter ideas
shrouded in this training course.
mmW training, millimeter wave training will fill the holes in comprehension of mmW advances.
mmW training additionally represents the essential ideas of millimeter wave and features the
significance of a few parts of mmW innovations, applications and patterns. The mmW proliferation
systems and rules that influence the millimeter flag way from the transmitter to the beneficiary are
talked about in points of interest. Scope is examined utilizing the connection spending cases for
mmW frameworks. mmW training course additionally exhibits and talks about the requirements of
essential devices helpful for millimeter wave examination, demonstrating, reenactment,
arranging/outline, sending, and enhancement.
Millimeter Wave Training (mmW)
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/ TAKE THIS COURSE
5. Learning Objectives
Upon completion of this course, the attendees will be able to:
•Explain the key concepts behind mmW technologies and applications
•Contrast mmW deployment with Microwave communications deployment
•Discuss various mmW key components
•List key measurement, analysis, and identification concepts of physical parameters, and statistical
representations of mmWave propagation channels
•Describe mmW propagation mechanisms
•Explain various aspects of mmW design and link budget
•Summarize the approaches used for mmW technology design and implementation
•Outline KPIs that quantify mmW performance
•Explain how tools can be used during various stages of the mmW systems engineering including
analysis, modeling, design, simulation, deployment, operations and optimization.
Millimeter Wave Training (mmW)
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/ TAKE THIS COURSE
6. Millimeter Wave Training (mmW)
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/ TAKE THIS COURSE
7. Course Content
Millimeter Wave (mmW) Technology at a Glance
•Introduction to mmW
•Millimeter wave definition
•Key benefits of mmW technology
•mmW frequency band applications
•mmW technology overview
•Millimeter wave technology potential applications
•The mmW band and the bandwidth
•mmW / Sub-mmW
•Technical features and functions
•Enabling technologies
•Innovations
•System considerations
•System Stand-Off / Operation Range
•Issues and performance considerations
•The propagation characteristics of millimeter waves
•“Optical” propagation characteristics
•Loss of signal due to atmospheric effects
•mmW propagation characteristics and more.
Millimeter Wave Training (mmW)
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/ TAKE THIS COURSE
8. mmW Technologies and Applications
•Definition of frequency bands
•Extremely high frequency (EHF)
•Millimeter band (IEEE)
•Frequency and Wavelength ranges
•Overview of K / L / M bands (NATO)
•Overview of IEEE Ka / V / W / mm bands
•mmW Applications
•Scientific research
•Satellite-based remote sensing
•Atmosphere by measuring radiation emitted from oxygen
•Telecommunications
•Weapons systems
•Millimeter wave radar
•Imaging
•Millimeter wave based technologies
•Active circuit Physical model
•Simulation mmW transistor
•Maxwell equation
•Finite difference method & more.
Millimeter Wave Training (mmW)
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9. Millimeter Wave Training (mmW)
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/ TAKE THIS COURSE
10. mmW Propagation and Loses
•ITU Atmospheric Attenuation Model
•Atmospheric gaseous losses
•Transmission losses
•Effects of molecules of oxygen, water vapor and other gaseous atmospheric constituents
•LOS (Line-of-Sight)
•mmW Attenuation
•Obstructions and foliage
•Foliage losses
•mmW Scattering/Diffraction
•The high free space loss and atmospheric absorption
•Effect on propagation
•Spectrum utilization through frequency reuse
•Reflected and focused by small metal surfaces
•Diffracted and diffuse reflection
•Sky noise temperature or brightness temperature
•Multipath propagation
•Indoor walls and surfaces
•Fading
•Doppler shift of frequency & more.
Millimeter Wave Training (mmW)
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11. Modeling and Simulation of mmW
•Signal Loss through Atmosphere
•Millimeter-wave regime
•mmW channel models
•Development of channel models
•measurement, analysis, and identification of physical parameters
•Statistical representations of mmWave propagation channels
•Signal propagation in non-line-of-sight conditions
•Shadowing due to foliage
•Interposition of the objects between the transmitter and the receiver
•Path loss over a given distance
•Measurement data and channel models
Performance of a millimeter wave link
•Calculating mmW signal loss (dB/km)
•Oxygen
•Sea Level
•Humidity
•Heavy Fog
•Cloud Burst
•Rain & more.
Millimeter Wave Training (mmW)
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12. Millimeter Wave Training (mmW)
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13. mmW Modeling and Simulation
•mmW simulation and modeling
•System simulation of a mmW
•Simulating Electromagnetic wave propagation
•Software for simulating mmW design components
•Modeling and analysis for mmW technology
•Simple device modeling
•Noise Modeling
•Transistor Model
•Quasi-Optical modeling
•Effects of other phenomena on mmW
•curate mmW modeling with the innovative beam envelope method
•Sinusoidal signals
•Time-harmonic in the frequency domain
•Solving mmW propagation problems using methods
•Discretization of Maxwell’s equations
•mmW Channel Model simulator software
•Statistical channel model and simulation code
•Prediction accuracy, sensitivity, and parameter stability of large-scale propagation path loss models
•Electro-Thermal resistor code & more.
Millimeter Wave Training (mmW)
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14. ITS Millimeter–wave Propagation Model (MPM)
•Refractivity N for atmospheric conditions
• Specific rates of power attenuation and propagation delay
•Real Part of Refractivity/N’ [ppm]
•Imaginary Part of Refractivity, N” [ppm]
Non-dispersive Refractivity/No [ppm]
•Attenuation/ 0.1820 F N” [dB/km]
•Dispersive Delay, 3.3356 N’ [ps/km]
Total Delay/3.3356 (N’ + No) [ps/km
•Input data
•Frequency (F), pressure (P), temperature (T), relative humidity (RH), and rain rate (RR)
•Haze model to predict water droplet density (W) for four climate zones (Rural, Urban, Maritime,
Maritime Strong Wind)
•Hygroscopic aerosol reference density (wA)
•RH as a suspended water droplet density i
•Simulation of fog or cloud conditions
•Partial vapor pressure
•Water droplets or ice particles impact to attenuation and delay
Millimeter Wave Training (mmW)
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15. Millimeter Wave Training (mmW)
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16. mmW Systems Engineering
•mmW circuit design
•Transceiver architecture
•Challenges
•Major accomplishments
•Major issues
•Power delay profile of a single antenna
•Hardware design
•receive antenna multiplexer
•Multiplexed waveforms
•Best lessons learned
•System planning
•Analysis of Millimeter Wave Beam
•ConOps
•Systems requirements
•Design
•Modeling and simulation
•Implementation
•Testing, verification, integration and validation
•Operations & more.
Millimeter Wave Training (mmW)
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17.
18. TAKE THIS COURSE
mmW Technology Training
Millimeter Wave Training
Price: $2,999.00
Length: 3 Days
https://www.tonex.com/training-courses/mmw-technology-training-millimeter-wave-training/