Laser TV: Bring the cinema home with a breathtaking 4K Ultra-HD experience
By Fouad Sabry
()
About this ebook
What Is Laser TV
Laser color television, or laser color video display utilizes two or more individually modulated optical (laser) rays of different colors to produce a combined spot that is scanned and projected across the image plane by a polygon-mirror system or less effectively by optoelectronic means to produce a color-television display. The systems work either by scanning the entire picture a dot at a time and modulating the laser directly at high frequency, much like the electron beams in a cathode ray tube, or by optically spreading and then modulating the laser and scanning a line at a time, the line itself being modulated in much the same way as with digital light processing (DLP).
How You Will Benefit
(I) Insights, and validations about the following topics:
Chapter 1: Laser TV
Chapter 2: Plasma display
Chapter 3: Home cinema
Chapter 4: Flat-panel display
Chapter 5: LCD projector
Chapter 6: Gamut
Chapter 7: Liquid crystal on silicon
Chapter 8: Video projector
Chapter 9: Digital Light Processing
Chapter 10: Television set
Chapter 11: LCD television
Chapter 12: Handheld projector
Chapter 13: Comparison of display technology
Chapter 14: Active shutter 3D system
Chapter 15: Wobulation
Chapter 16: CRT projector
Chapter 17: Large-screen television technology
Chapter 18: Rear-projection television
Chapter 19: Electronic visual display
Chapter 20: Digital micromirror device
Chapter 21: 3LCD
(II) Answering the public top questions about laser tv.
(III) Real world examples for the usage of laser tv in many fields.
(IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of laser tv' technologies.
Who This Book Is For
Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of laser tv.
Read more from Fouad Sabry
Related to Laser TV
Titles in the series (5)
Volumetric Display: Star Wars-inspired Tech You Can Buy Right Now Rating: 0 out of 5 stars0 ratingsLaser TV: Bring the cinema home with a breathtaking 4K Ultra-HD experience Rating: 0 out of 5 stars0 ratingsHolography: How the Technology Works and Industry Use Cases in Real Life Rating: 0 out of 5 stars0 ratingsOptical Transistor: Computing at the Speed of Light Rating: 5 out of 5 stars5/5Screenless Video: Building a Technologically Advanced World without Screens Rating: 0 out of 5 stars0 ratings
Related ebooks
Optical Transistor: Computing at the Speed of Light Rating: 5 out of 5 stars5/5Volumetric Display: Star Wars-inspired Tech You Can Buy Right Now Rating: 0 out of 5 stars0 ratingsLab On A Chip: Low-cost point-of-care devices for human diseases diagnosis, possibly making laboratories dispensable Rating: 0 out of 5 stars0 ratingsHolography: How the Technology Works and Industry Use Cases in Real Life Rating: 0 out of 5 stars0 ratingsScreenless Video: Building a Technologically Advanced World without Screens Rating: 0 out of 5 stars0 ratingsMicrofluidics: How can Microfluidics speed up COVID19 vaccine? Rating: 0 out of 5 stars0 ratingsHigh Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train Rating: 0 out of 5 stars0 ratingsMetamaterial: Leading the way to Harry Potter's invisibility cloak, or invisible military tank, in our lifetime Rating: 0 out of 5 stars0 ratingsSuperfluidity: There is no speed limit in a superfluid universe, now we know why Rating: 0 out of 5 stars0 ratingsSilicene: The pathway toward a cybernetic future by blending electronics with the human body Rating: 0 out of 5 stars0 ratingsNanomaterials: The nanoparticles will be able to kill individual cancer cells, leaving the healthy ones alone Rating: 0 out of 5 stars0 ratingsProgrammable Matter: People will conjure objects as easily as we now play music or movies Rating: 0 out of 5 stars0 ratingsMagnetic Nanoparticles: How magnetic nanoparticles can barbecue cancer cells on lunch? Rating: 0 out of 5 stars0 ratingsPlasma Propulsion: Can SpaceX use Advanced Plasma Propulsion for Starship? Rating: 0 out of 5 stars0 ratingsDistributed Ledger: Putting the Wealth and Faith in a Mathematical Framework, Free of Politics and Human Error Rating: 0 out of 5 stars0 ratingsSuperalloy: Withstanding the 2700 degrees Fahrenheit heat generated by turbine engines to be hotter, faster, and more efficient Rating: 0 out of 5 stars0 ratingsCryogenic Treatment: Warfighter Lethality, Are your military metals at risk? Rating: 0 out of 5 stars0 ratingsPulse Detonation Engine: How Shall We Travel from London to New York in 45 Minutes Instead of 8 Hours? Rating: 0 out of 5 stars0 ratingsMetal Foam: If it is in your car bumper, then a thirty mile an hour crash, would be more like a five mile an hour fender bender Rating: 0 out of 5 stars0 ratingsAerogel: Want to Colonize Mars? Aerogel could help us farm and survive on Mars “in our lifetimes” Rating: 0 out of 5 stars0 ratings
Technology & Engineering For You
The ChatGPT Millionaire Handbook: Make Money Online With the Power of AI Technology Rating: 0 out of 5 stars0 ratingsThe Big Book of Hacks: 264 Amazing DIY Tech Projects Rating: 4 out of 5 stars4/580/20 Principle: The Secret to Working Less and Making More Rating: 5 out of 5 stars5/5The Insider's Guide to Technical Writing Rating: 0 out of 5 stars0 ratingsThe Art of War Rating: 4 out of 5 stars4/5The CIA Lockpicking Manual Rating: 5 out of 5 stars5/5The Big Book of Maker Skills: Tools & Techniques for Building Great Tech Projects Rating: 4 out of 5 stars4/5Electrical Engineering 101: Everything You Should Have Learned in School...but Probably Didn't Rating: 5 out of 5 stars5/5Smart Phone Dumb Phone: Free Yourself from Digital Addiction Rating: 0 out of 5 stars0 ratingsLogic Pro X For Dummies Rating: 0 out of 5 stars0 ratingsNo Nonsense Technician Class License Study Guide: for Tests Given Between July 2018 and June 2022 Rating: 5 out of 5 stars5/5The 48 Laws of Power in Practice: The 3 Most Powerful Laws & The 4 Indispensable Power Principles Rating: 5 out of 5 stars5/5The Art of War Rating: 4 out of 5 stars4/5My Inventions: The Autobiography of Nikola Tesla Rating: 4 out of 5 stars4/5Ultralearning: Master Hard Skills, Outsmart the Competition, and Accelerate Your Career Rating: 4 out of 5 stars4/5Understanding Media: The Extensions of Man Rating: 4 out of 5 stars4/5The Total Motorcycling Manual: 291 Essential Skills Rating: 5 out of 5 stars5/5U.S. Marine Close Combat Fighting Handbook Rating: 4 out of 5 stars4/5The Fast Track to Your Technician Class Ham Radio License: For Exams July 1, 2022 - June 30, 2026 Rating: 5 out of 5 stars5/5A History of the American People Rating: 4 out of 5 stars4/5Artificial Intelligence: A Guide for Thinking Humans Rating: 4 out of 5 stars4/5The Systems Thinker: Essential Thinking Skills For Solving Problems, Managing Chaos, Rating: 4 out of 5 stars4/5Broken Money: Why Our Financial System is Failing Us and How We Can Make it Better Rating: 5 out of 5 stars5/5Vanderbilt: The Rise and Fall of an American Dynasty Rating: 4 out of 5 stars4/5The Invisible Rainbow: A History of Electricity and Life Rating: 4 out of 5 stars4/5How to Disappear and Live Off the Grid: A CIA Insider's Guide Rating: 0 out of 5 stars0 ratings
Reviews for Laser TV
0 ratings0 reviews
Book preview
Laser TV - Fouad Sabry
Other Books by The Author
1 - Plasma Propulsion
2 - Pulse Detonation Engine
3 - Agricultural Robotics
4 - Closed Ecological Systems
5 - Cultured Meat
6 - Vertical Farming
7 - Autonomous Vehicles
8 - Autonomous Drones
9 - Autonomous Robotics
10 - Autonomous Weapons
11 - Arcology
12 - 4D Printing
13 - Domed City
14 - Distributed Ledger
15 - Digital Currency
16 - Decentralized Finance
17 - Smart Machines
18 - Aerogel
19 - Amorphous Metal
20 - Bioplastic
21 - Conductive Polymer
22 - Cryogenic Treatment
23 - Dynamic Armour
24 - Fullerene
25 - Graphene
26 - Lab on a Chip
27 - High Temperature Superconductivity
28 - Magnetic Nanoparticles
29 - Magnetorheological Fluid
30 - Microfluidics
31 - Superfluidity
32 - Metamaterial
33 - Metal Foam
34 - Multi Function Structure
35 - Nanomaterials
36 - Programmable Matter
37 - Quantum Dot
38 - Silicene
39 - Superalloy
40 - Synthetic Diamond
41 - Time Crystal
42 - Translucent Concrete
43 - Brain Computer Interface
44 - Volumetric Display
45 - Laser TV
46 - Holography
47 - Optical Transistor
48 - Screenless Video
49 - Swarm Intelligence
Series by The Author
Emerging Technologies in Aerospace
1 - Plasma Propulsion
2 - Pulse Detonation Engine
Emerging Technologies in Agriculture
1 - Agricultural Robotics
2 - Closed Ecological Systems
3 - Cultured Meat
4 - Vertical Farming
Emerging Technologies in Autonomous Things
1 - Autonomous Vehicles
2 - Autonomous Drones
3 - Autonomous Robotics
4 - Autonomous Weapons
Emerging Technologies in Construction
1 - Arcology
2 - 4D Printing
3 - Domed City
Emerging Technologies in Finance
1 - Distributed Ledger
2 - Digital Currency
3 - Decentralized Finance
Emerging Technologies in Information Technology
1 - Smart Machines
Emerging Technologies in Materials Science
1 - Aerogel
2 - Amorphous Metal
3 - Bioplastic
4 - Conductive Polymer
5 - Cryogenic Treatment
6 - Dynamic Armour
7 - Fullerene
8 - Graphene
9 - Lab on a Chip
10 - High Temperature Superconductivity
11 - Magnetic Nanoparticles
12 - Magnetorheological Fluid
13 - Microfluidics
14 - Superfluidity
15 - Metamaterial
16 - Metal Foam
17 - Multi Function Structure
18 - Nanomaterials
19 - Programmable Matter
20 - Quantum Dot
21 - Silicene
22 - Superalloy
23 - Synthetic Diamond
24 - Time Crystal
25 - Translucent Concrete
Emerging Technologies in Neuroscience
1 - Brain Computer Interface
Emerging Technologies in Optoelectronics
1 - Volumetric Display
2 - Laser TV
3 - Holography
4 - Optical Transistor
5 - Screenless Video
Emerging Technologies in Robotics
1 - Swarm Intelligence
One Billion Knowledgeable
Laser TV
Bring the cinema home with a breathtaking 4K Ultra-HD experience
Fouad Sabry
Copyright
Laser TV Copyright © 2022 by Fouad Sabry. All Rights Reserved.
All rights reserved. No part of this book may be reproduced in any form or by any electronic or mechanical means including information storage and retrieval systems, without permission in writing from the author. The only exception is by a reviewer, who may quote short excerpts in a review.
Cover designed by Fouad Sabry.
This book is a work of fiction. Names, characters, places, and incidents either are products of the author’s imagination or are used fictitiously. Any resemblance to actual persons, living or dead, events, or locales is entirely coincidental.
Bonus
You can send an email to 1BKOfficial.Org+LaserTV@gmail.com with the subject line Laser TV: Bring the cinema home with a breathtaking 4K Ultra-HD experience
, and you will receive an email which contains the first few chapters of this book.
Fouad Sabry
Visit 1BK website at
www.1BKOfficial.org
Preface
Why did I write this book?
The story of writing this book started on 1989, when I was a student in the Secondary School of Advanced Students.
It is remarkably like the STEM (Science, Technology, Engineering, and Mathematics) Schools, which are now available in many advanced countries.
STEM is a curriculum based on the idea of educating students in four specific disciplines — science, technology, engineering, and mathematics — in an interdisciplinary and applied approach. This term is typically used to address an education policy or a curriculum choice in schools. It has implications for workforce development, national security concerns and immigration policy.
There was a weekly class in the library, where each student is free to choose any book and read for 1 hour. The objective of the class is to encourage the students to read subjects other than the educational curriculum.
In the library, while I was looking at the books on the shelves, I noticed huge books, total of 5,000 pages in 5 parts. The books name is The Encyclopedia of Technology
, which describes everything around us, from absolute zero to semiconductors, almost every technology, at that time, was explained with colorful illustrations and simple words. I started to read the encyclopedia, and of course, I was not able to finish it in the 1-hour weekly class.
So, I convinced my father to buy the encyclopedia. My father bought all the technology tools for me in the beginning of my life, the first computer and the first technology encyclopedia, and both have a great impact on myself and my career.
I have finished the entire encyclopedia in the same summer vacation of this year, and then I started to see how the universe works and to how to apply that knowledge to everyday problems.
My passion to the technology started mor than 30 years ago and still the journey goes on.
This book is part of The Encyclopedia of Emerging Technologies
which is my attempt to give the readers the same amazing experience I had when I was in high school, but instead of 20th century technologies, I am more interested in the 21st century emerging technologies, applications, and industry solutions.
The Encyclopedia of Emerging Technologies
will consist of 365 books, each book will be focused on one single emerging technology. You can read the list of emerging technologies and their categorization by industry in the part of Coming Soon
, at the end of the book.
365 books to give the readers the chance to increase their knowledge on one single emerging technology every day within the course of one year period.
Introduction
How did I write this book?
In every book of The Encyclopedia of Emerging Technologies
, I am trying to get instant, raw search insights, direct from the minds of the people, trying to answer their questions about the emerging technology.
There are 3 billion Google searches every day, and 20% of those have never been seen before. They are like a direct line to the people thoughts.
Sometimes that’s ‘How do I remove paper jam’. Other times, it is the wrenching fears and secret hankerings they would only ever dare share with Google.
In my pursuit to discover an untapped goldmine of content ideas about Laser TV
, I use many tools to listen into autocomplete data from search engines like Google, then quickly cranks out every useful phrase and question, the people are asking around the keyword Laser TV
.
It is a goldmine of people insight, I can use to create fresh, ultra-useful content, products, and services. The kind people, like you, really want.
People searches are the most important dataset ever collected on the human psyche. Therefore, this book is a live product, and constantly updated by more and more answers for new questions about Laser TV
, asked by people, just like you and me, wondering about this new emerging technology and would like to know more about it.
The approach for writing this book is to get a deeper level of understanding of how people search around Laser TV
, revealing questions and queries which I would not necessarily think off the top of my head, and answering these questions in super easy and digestible words, and to navigate the book around in a straightforward way.
So, when it comes to writing this book, I have ensured that it is as optimized and targeted as possible. This book purpose is helping the people to further understand and grow their knowledge about Laser TV
. I am trying to answer people’s questions as closely as possible and showing a lot more.
It is a fantastic, and beautiful way to explore questions and problems that the people have and answer them directly, and add insight, validation, and creativity to the content of the book – even pitches and proposals. The book uncovers rich, less crowded, and sometimes surprising areas of research demand I would not otherwise reach. There is no doubt that, it is expected to increase the knowledge of the potential readers’ minds, after reading the book using this approach.
I have applied a unique approach to make the content of this book always fresh. This approach depends on listening to the people minds, by using the search listening tools. This approach helped me to:
Meet the readers exactly where they are, so I can create relevant content that strikes a chord and drives more understanding to the topic.
Keep my finger firmly on the pulse, so I can get updates when people talk about this emerging technology in new ways, and monitor trends over time.
Uncover hidden treasures of questions need answers about the emerging technology to discover unexpected insights and hidden niches that boost the relevancy of the content and give it a winning edge.
The building block for writing this book include the following:
(1) I have stopped wasting the time on gutfeel and guesswork about the content wanted by the readers, filled the book content with what the people need and said goodbye to the endless content ideas based on speculations.
(2) I have made solid decisions, and taken fewer risks, to get front row seats to what people want to read and want to know — in real time — and use search data to make bold decisions, about which topics to include and which topics to exclude.
(3) I have streamlined my content production to identify content ideas without manually having to sift through individual opinions to save days and even weeks of time.
It is wonderful to help the people to increase their knowledge in a straightforward way by just answering their questions.
I think the approach of writing of this book is unique as it collates, and tracks the important questions being asked by the readers on search engines.
Acknowledgments
Writing a book is harder than I thought and more rewarding than I could have ever imagined. None of this would have been possible without the work completed by prestigious researchers, and I would like to acknowledge their efforts to increase the knowledge of the public about this emerging technology.
Dedication
To the enlightened, the ones who see things differently, and want the world to be better -- they are not fond of the status quo or the existing state. You can disagree with them too much, and you can argue with them even more, but you cannot ignore them, and you cannot underestimate them, because they always change things... they push the human race forward, and while some may see them as the crazy ones or amateur, others see genius and innovators, because the ones who are enlightened enough to think that they can change the world, are the ones who do, and lead the people to the enlightenment.
Epigraph
Laser color television, or laser color video display utilizes two or more individually modulated optical (laser) rays of different colors to produce a combined spot that is scanned and projected across the image plane by a polygon-mirror system or less effectively by optoelectronic means to produce a color-television display. The systems work either by scanning the entire picture a dot at a time and modulating the laser directly at high frequency, much like the electron beams in a cathode ray tube, or by optically spreading and then modulating the laser and scanning a line at a time, the line itself being modulated in much the same way as with digital light processing (DLP).
Table of Contents
Other Books by The Author
Series by The Author
Laser TV
Copyright
Bonus
Preface
Introduction
Acknowledgments
Dedication
Epigraph
Table of Contents
Chapter 1: Laser TV
Chapter 2: Plasma display
Chapter 3: Home cinema
Chapter 4: Flat-panel display
Chapter 5: LCD projector
Chapter 6: Gamut
Chapter 7: Liquid crystal on silicon
Chapter 8: Video projector
Chapter 9: Digital Light Processing
Chapter 10: Television set
Chapter 11: LCD television
Chapter 12: Handheld projector
Chapter 13: Comparison of display technology
Chapter 14: Active shutter 3D system
Chapter 15: Wobulation
Chapter 16: CRT projector
Chapter 17: Large-screen television technology
Chapter 18: Rear-projection television
Chapter 19: Electronic visual display
Chapter 20: Digital micromirror device
Chapter 21: 3LCD
Epilogue
About the Author
Coming Soon
Appendices: Emerging Technologies in Each Industry
Chapter 1: Laser TV
Laser color television (laser TV) or laser color video display employs two or more individually modulated optical (laser) rays of different colors to generate a combined spot that is scanned and projected across the image plane by a polygon-mirror system or, less effectively, by optoelectronic means to produce a color-television display. The systems work by scanning the entire image a dot at a time and modulating the laser directly at high frequency, much like electron beams in a cathode ray tube, or by optically spreading and then modulating the laser and scanning a line at a time, with the line itself modulated in much the same way as with digital light processing (DLP).
The one-ray special case lowers the system to a monochromatic display, as in black and white television. This approach holds true for both a direct view display and a (front or rear) laser projector system.
Laser television technology first appeared in the 1990s. The quick development and maturity of semiconductor lasers and other technologies in the twenty-first century provided it with new advantages.
Contents
1 History
2 Principle
3 Technology
4 Characteristics
5 Assembly
5.1 Laser signal modulation
5.2 Horizontal and vertical refresh
5.3 Display characteristics
6 Applications
7 Development status
8 Prospect
9 Technical challenges
10 References
History
Helmut K.V. Lotsch proposed the laser source for television or video display in German Patent 1 193 844. Schneider AG, a German-based business, unveiled a functional laser-TV prototype at IFA'95 in Berlin/Germany, 18 years later. However, due to Schneider AG's bankruptcy, the prototype was never developed further into a market-ready product.
Originally proposed in 1966, Novalux Inc., the developer of Necsel semiconductor laser technology, showed a laser illumination source for projection displays as well as a prototype rear-projection laser
TV at the 2006 Las Vegas Consumer Electronics Show. About February 16, 2006, the first reports on the creation of a commercial Laser TV were released. Mitsubishi Digital Electronics America, a significant leader in the high-performance red-laser and large-screen HDTV markets, introduced their first commercial Laser TV, a 65 1080p model, on January 7, 2008, at an event related with the Consumer Electronics Show 2008. At CES 2008, a Popular Science journalist was astonished by the color depiction of a Mitsubishi laser video display. Some even said it was excessively powerful, to the point of seeming artificial. ThislLaser TV, branded
Mitsubishi LaserVue TV," went on sale for $6,999 on November 16, 2008, but Mitsubishi's entire laser TV project was terminated in 2012.
LG released a front-projected laser TV as a consumer product in 2013 that measures 100 inches (254 cm) and has a full high-definition resolution of 1920 x 1080 pixels. It has a projection distance of 22 inches and can project images onto the screen (56 centimeters).
The development of a laser TV industry branch in China was formally approved at the Sixth Session of the Seventh Council of the China Electronic Video Industry Association. The establishment of the industry branch also represents the official opening of the whole industrial chain connecting the upstream and downstream of the laser TV area, in order to grow and strengthen the laser TV industry. Laser TV sales in China will approach 1 million units by 2022, with sales totaling 11.8 billion CNY.
Principle
The screen reflects laser TV pictures, which reach the human eye for imaging. The laser TV premise is based on the usage of DLP technology for image presentation. As an example, consider the DMD chip. A laser TV's image key component is the DMD chip. Millions of miniature mirrors are placed, and each small mirror can flip in the positive and negative directions tens of thousands of