BULB CONNECTION eim.pdf

May 21, 20231 like3,990 views

The document describes various electrical configurations controlling different numbers of light bulbs using switches in single and multiple locations. Configurations include: 1 bulb controlled by 1 switch; 2-3 bulbs controlled by 1 switch; 2 bulbs controlled individually by 2 switches; 4-6 bulbs controlled by 2-3 switches with each switch controlling 2 bulbs; and 1 bulb controlled by 2 three-way switches in different locations.

ELECTRICAL TECH.
LINE 1
LINE2
BULB 1
S1
LOCATION 1
ONE BULB CONTROLLED BY S1 IN ONE LOCATION

ELECTRICAL TECH.
TWO BULBS CONTROLLED BY S1 IN ONE LOCATION
LINE 1
LINE2
BULB 1
S1
LOCATION 1
BULB 2

ELECTRICAL TECH.
THREE BULBS CONTROLLED BY S1 IN ONE LOCATION
Bulb 1 Bulb 2 Bulb 3
LINE 1
LINE 2
S1
LOCATION 1

ELECTRICAL TECH.
Bulb 1 Bulb 2
LINE 1
LINE 2
S2
LOCATION 1
TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN ONE LOCATION

ELECTRICAL TECH.
THREE BULBS CONTROLLED INDIVIDUALY BY S3 IN ONE LOCATION
Bulb 1 Bulb 2
LINE 1
LINE 2
S3
LOCATION 1
Bulb 3

ELECTRICAL TECH.
Bulb 1 Bulb 2
LINE 1
LINE 2
S1
LOCATION 1
S1
LOCATION 2
TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN TWO DIFFERENT LOCATION

ELECTRICAL TECH.
Bulb 1 Bulb 2
LINE 1
LINE 2
S1
LOCATION 1
Bulb 3
LOCATION 2
LOCATION 3
S1
S1
THREE BULBS CONTROLLED INDIVIDUALY BY THREE S1
IN THREE DIFFIRENT ONE LOCATION

ELECTRICAL TECH.
Bulb 1 Bulb 2
LINE 1
LINE 2
S2
LOCATION 1
Bulb 3
TWO BULBS CONTROLLED BY ONE S1 AND ANOTHER
BULB CONTROLLED BY ANOTHER S1 IN ONE LOCATION

ELECTRICAL TECH.
Bulb 1 Bulb 2
LINE 1
LINE 2
S2
LOCATION 1
Bulb 3 Bulb 4
FOUR BULBS CONTROLLED BY TWO S1 IN ONE LOCATION.
EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.

ELECTRICAL TECH.
SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION.
EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.
Bulb 1 Bulb 2
LINE 1
LINE 2
S3
LOCATION 1
Bulb 3 Bulb 4 Bulb 6
Bulb 5

ELECTRICAL TECH.
SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION.
EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.
Bulb 1 Bulb 2
LINE 1
LINE 2
S1
LOCATION 1
Bulb 3 Bulb 4 Bulb 6
Bulb 5

ELECTRICAL TECH.
FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION.
EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.
Bulb 1 Bulb 2
LINE 1
LINE 2
S1
LOCATION 1
Bulb 3
S1
LOCATION 2
Bulb 4

ELECTRICAL TECH.
SIX BULBS CONTROLLED BY THREE S1 IN THREE DIFFERENT LOCATION.
EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.
Bulb 1 Bulb 2
LINE 1
LINE 2
S1
LOCATION 1
Bulb 3 Bulb 4 Bulb 6
Bulb 5
S1
LOCATION 2
S1
LOCATION 3

ELECTRICAL TECH.
ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES
IN TWO DIFFERENT LOCATION.
Bulb 1
LINE 1
LINE 2
S3W
LOCATION 1
S3W
LOCATION 2

ELECTRICAL TECH.
THREE BULBS CONTROLLED BY TWO THREE-WAY SWITCHES
IN TWO DIFFERENT LOCATION.
Bulb 1
LINE 1
LINE 2
S3W
LOCATION 1
S3W
LOCATION 2
Bulb 2
Bulb 3

ELECTRICAL TECH.
ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES
AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION.
Bulb 1
LINE 1
LINE 2
S3W
LOCATION 1
S3W
LOCATION 2 LOCATION 3
S4W

ELECTRICAL TECH.
TWO BULBS CONTROLLED BY TWO THREE-WAY SWITCHES
AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION.
Bulb 1
LINE 1
LINE 2
S3W
LOCATION 1
S3W
LOCATION 2 LOCATION 3
S4W
Bulb 2

ELECTRICAL TECH.
FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES
AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION.
Bulb 1
LINE 1
LINE 2
S3W S3W
MASTER
SWITCH
S3W S3W
Bulb 4
Bulb 3
Bulb 2

ELECTRICAL TECH. STAIRWAY LIGHTING DIAGRAM
ROOM 5
ROOM 6
ROOM 8
ROOM 7
ROOM 4
ROOM 3
ROOM 1
ROOM 2
LINE 1 LINE 2

This document provides information about electrical wiring diagrams and circuits. It defines two types of diagrams - pictorial diagrams, which show the physical appearance of circuit components, and schematic diagrams, which use standard symbols to show how components are connected regardless of physical placement. It also describes two basic circuit types - series circuits where components are connected end to end and parallel circuits where components are wired across the lines. Finally, it defines an electrical plan as a graphical layout of wiring connections for a building.

Introduction to Electrical Installation and MaintenanceJhunalvin Santos

��

This document provides an introduction to an exploratory course on electrical installation and maintenance. It discusses key terms, the four major areas of Technology and Livelihood Education, and competencies students should possess including preparing electrical supplies and tools, performing calculations, interpreting technical drawings, maintaining tools and safety. Career opportunities for those achieving certification include building wiring electrician, residential/commercial wiring electrician, and maintenance electrician. The document outlines topics to be covered like wiring, circuits, measurement conversion, and safety signs. Students are given assignments to set goals, take a quiz, and study safety practices in using electrical tools and equipment.

Wiring diagramwinquestor

��

This document discusses different types of wiring diagrams used in electrical installation and maintenance. It describes pictorial, schematic, line, and actual connection diagrams. Pictorial diagrams show the physical layout of components, schematic diagrams use standard symbols, line diagrams show connections with single lines, and actual connection diagrams provide detailed wire terminations and connections. Examples are given of different diagrams for circuits with one, two, or three lamps controlled by single pole switches. Trainees are instructed to practice drawing schematic, actual connection, and line diagrams based on provided pictorial diagrams.

DLL-eim9-10_week 1-a.docxRaffyServano2

��

This document outlines a lesson plan for a 9th/10th grade technical and livelihood education class focusing on requesting tools and equipment for electrical installation and maintenance tasks. The lesson includes activities where students identify tools, fill out request forms accurately, and conduct role-plays justifying tool requests. The goal is for students to understand proper communication and justification when acquiring necessary tools and materials for electrical work.

PPT-WIRING TWO 3-WAY SWITCHES (2).pptxBernabeBontilao1

��

Lesson 7-extension-cordsAntonio Martinez

��

This document provides instructions for the proper use of extension cords. It explains that extension cords have a plug on one end and multiple sockets on the other to extend the reach of power to electrical devices. The thickness of the cord determines how much power it can carry. It then lists 12 directions for safe use, such as not overloading the cord, keeping it off the floor, and unplugging when not in use. It emphasizes checking wattages of devices to ensure safe loads.

Cot lesson planRichard Perelonia

��

This lesson plan outlines how to teach students about wiring two three-way switches to control a single light bulb. The objectives are to define three-way switches, describe their operating principles, demonstrate how to wire two three-way switches, and appreciate their usefulness. The procedures include introducing three-way switches, discussing their operation, demonstrating the wiring, having students practice, and evaluating their ability to wire the switches within 5 minutes. Materials needed are power supply, switches, wires, receptacle, bulb, and tools.

Electrical layout TONYMARQUEZO

��

Electrical symbols onarcerobert

��

This document provides an introduction to electrical symbols and their importance. It lists over 30 common electrical symbols such as for batteries, switches, transformers, wires, outlets, panels, and more. It instructs the drawing of a simple lighting circuit using these symbols. The importance of electrical symbols is that they allow engineers and technicians to interpret electrical plans and diagrams since symbols provide a standardized way to represent electrical equipment and connections.

Electrical Installation and Maintenance for grades_7 to 10Don Joven

��

This document outlines a curriculum for an Industrial Arts - Electrical Installation and Maintenance course for grades 7-9 in the Philippines. The grade 7/8 course is introductory and exploratory, covering basic concepts, career opportunities, and common competencies. The grade 9 course is a specialization course covering preparing electric tools, and installing lighting systems, outlets, and fixtures. It includes lessons on tools, measurements, technical drawings, safety, and developing entrepreneurial skills for electrical careers.

K to 12 electrical learning moduleNoel Tan

��

This document provides an exploratory course module on electrical installation and maintenance for grades 7-8 students, covering 5 lessons that teach competencies in preparing electrical supplies and tools, performing calculations, interpreting technical drawings, maintaining tools and equipment, and practicing occupational safety. The module defines key terms, lists learning outcomes and performance standards for each lesson, and provides learning activities and assessments to help students master the concepts and skills needed for an entry-level role in the electrical field.

Module 5 module 3 draft electrical and electronic layout and detailsGilbert Bautista

��

Electrical and electronic drafting are rapidly evolving technologies involving circuits for products like computers and radios. This module teaches how to draw diagrams of electrical and electronic circuits using proper symbols, layout, and details. Learners will draft electrical plans and layouts, identifying symbols and components. They will also draft auxiliary systems and learn about electrical quantities like current, voltage, and resistance defined by Ohm's Law.

1 Conduit PEC.pptxVictor Rosales

��

Electrical conduit comes in both metallic and non-metallic varieties and protects electrical wiring from damage. Metallic types include EMT (thin-walled steel), IMC (thicker walls than EMT), and RMC (thick threaded walls), while non-metallic types are ENT (thin corrugated plastic) and RNC (rigid plastic). Conduits are chosen based on their protection, flexibility, corrosion resistance, and cost for the installation. Metallic conduit provides better protection but is more expensive to install, while non-metallic is cheaper but offers less impact resistance.

Types of conduitsVenerandoPanday

��

This document discusses different types of electrical conduits. It begins by defining an electrical conduit as an electrical piping system used to protect and route electrical wiring. It then describes the following types of conduits: - Metallic non-flexible conduit including rigid steel conduit, intermediate metallic conduit, and electrical metallic tubing. - Metallic flexible conduit which is commonly used for external motor terminal connections. - Non-metallic non-flexible conduit including polyvinyl chloride pipe. - Non-metallic flexible conduit which has a smooth interior and non-conducting fibrous material wall.

Electrical installation and maintenance module 10CLIFFORD BRANDES

��

This document provides learning materials for an electrical installation and maintenance course. It includes information sheets, self-checks, and activity sheets on various electrical wiring methods and safety procedures. The summaries are: 1. The document contains curriculum materials for a 10th grade electrical installation and maintenance course, including topics on wires and cables, electrical symbols, and different wiring methods. 2. Various wiring methods are covered, such as flexible armored cable wiring, non-metallic sheathed cable, flexible metallic tubing, rigid steel conduit, and intermediate metallic tubing. Safety procedures and Republic Act 7832 on anti-electric theft are also discussed. 3. The materials provide content and performance standards, objectives, assessments,

Electrical signs and symbolsMary Grace Anticuando

��

This document discusses electrical signs, symbols, and their meanings. It provides examples of common electrical signs for caution, danger, prohibition, and other hazards. Electrical symbols represent electrical devices in diagrams and plans, with descriptions provided for symbols like conductors, switches, batteries, resistors, and more. Safety signs and symbols are important to understand electrical hazards and instructions. The document encourages drawing electrical plans for various rooms and one's own house.

INTERPRET TECHNICAL DRAWINGS AND PLANS.pptxReleneJoySoto

��

The document discusses interpreting technical drawings and plans related to electrical work. It provides learning objectives and essential questions around reading electrical signs, symbols, and diagrams. It then defines common electrical symbols used to represent devices in schematics and plans. Specific types of diagrams, circuits, and an example electrical plan are described. Understanding symbols and drawing diagrams correctly is important for safety and proper installation of electrical systems.

TLE-IA Electrical Installation and Maintenance Curriculum GuideDr. Joy Kenneth Sala Biasong

��

This document outlines a curriculum for an Industrial Arts - Electrical Installation and Maintenance course for grades 7-9 in the Philippines. The grade 7/8 course is introductory and exploratory, covering basic concepts, career opportunities, and common competencies. The grade 9 course is a specialization course covering preparing electric tools, and installing lighting systems, outlets, and fixtures. Both courses aim to teach concepts, competencies, and standards to lead to a National Certificate Level II in Electrical Installation and Maintenance.

G9 Common Wire Splices and Joints.pptxDhadaTedCortezano

��

This document discusses tools and techniques for making electrical connections and splices. It describes common tools used for soldering like soldering irons, cutters, and multi-testers. Soldering involves melting alloy to create strong bonds between electronic parts. The document outlines various wire splicing methods like western union short-tie and long-tie splices used to extend wire lengths. It also details different jointing techniques for connecting power cables, such as britannia, tee, knotted tap, and duplex cross joints.

EIM Exploratory's DLL (Lesson 1 _LO1-LO2 Week 1).pdfMatthew Angelo Gamboa

��

The document is a daily lesson log for a teacher teaching a class on electrical installation and maintenance. It details the objectives, content, procedures and reflections for lessons on preparing electrical materials and tools. The key points covered include identifying different electrical tools and equipment, their functions, and materials needed for electrical jobs. Interactive activities like group discussions and demonstrations were used to help students understand the concepts.

ELECTRICAL TOOLS AND EQUIPMENTLudher Mollins

��

Pliers are used by tradesmen like electricians to grip, twist, bend, and cut wire. Common types include linesman's pliers and needle-nose pliers. Wire strippers are used to strip insulation from electric wires. Crimping deforms one material, like a wire, to hold another, like a metal plate, joining them together. Utility knives fold compactly and are used to cut wire when pliers are unsuitable. Tape measures coil into cases and are used to measure length. Voltmeters detect voltage in wires or equipment without direct contact. Power drills are rotating electric tools. Oscilloscopes display voltage or current signals on a cathode ray tube. Function generators output repeating or non-

Measuring tools and instrumentsRhocell Cupino

��

This document defines key electrical terms - current, voltage, and resistance. It then discusses the science of measurement, called metrology. Various electrical measuring tools are described, including voltmeters, ammeters, ohmmeters, and multimeters. These tools are used to measure important electrical properties like current, voltage, resistance, and more. Proper care is needed when handling sensitive electrical measuring instruments.

EIM 7/8 Lesson 2: Perform Mensuration and CalculationBenandro Palor

��

Electrical tools and its functionFortunato de Guzman

��

The document discusses various electrical tools and their functions. It describes screwdrivers like standard, Philips, and stubby screwdrivers which are used to drive different types of screws. Pliers are also discussed, including combination pliers, side cutting pliers, and long nose pliers which are used for gripping, cutting, and holding wires. Additional tools mentioned are wire strippers, electrician's knives, portable electric drills, and hacksaws, each serving a specific purpose like stripping wire insulation or cutting metal materials. Proper tool use and safety are emphasized.

Electrical installation & maintenancePenaflorida Roel

��

This document provides information about electrical installation and maintenance. It discusses key figures in the history of electricity such as Benjamin Franklin, Thomas Edison, and Nikola Tesla. It also covers topics like types of electric current and circuits, components of electrical systems like wires and cables, and how to perform splices and joints. Classification of wires, cables, circuits and raceways are described along with diagrams to illustrate concepts.

Parts, Types and Defects of Electric CircuitJhunalvin Santos

��

The document discusses electrical diagrams and circuits, beginning with definitions of diagrams, pictorial diagrams, and schematic diagrams. It then provides examples of basic circuits, series circuits, and parallel circuits, explaining how to draw the pictorial and schematic diagrams for each. The document also covers electrical circuit terms and defects like open circuits, closed circuits, and short circuits.

Fluorescent lampCLIFFORD BRANDES

��

This document provides information on fluorescent lighting fixtures and lamps. It discusses the components of fluorescent lamps including the glass tube, mercury vapor, phosphor coating, and inert gas. It describes different types of fluorescent lamps such as pre-heat starting hot-cathode lamps, cold cathode lamps, instant-starting hot-cathode lamps, and rapid-start lamps. It also discusses the functions of starters, ballasts, and the average lifespan of fluorescent lamps.

Steps in making extension cordMariaLudaDelaPena

��

AI Trends and Fun Demos – Sotheby’s Rehoboth PresentationEthan Holland

��

Ethan B. Holland explores the impact of artificial intelligence on real estate and digital transformation. Covering key AI trends such as multimodal AI, agency, co-pilots, and AI-powered computer usage, the document highlights how emerging technologies are reshaping industries. It includes real-world demonstrations of AI in action, from automated real estate insights to AI-generated voice and video applications. With expertise in digital transformation, Ethan shares insights from his work optimizing workflows with AI tools, automation, and large language models. This presentation is essential for professionals seeking to understand AI’s role in business, automation, and real estate.

Deno ...................................Robert MacLean

��

More Related Content

What's hot (20)

Electrical symbols onarcerobert

��

Electrical Installation and Maintenance for grades_7 to 10Don Joven

��

K to 12 electrical learning moduleNoel Tan

��

Module 5 module 3 draft electrical and electronic layout and detailsGilbert Bautista

��

1 Conduit PEC.pptxVictor Rosales

��

Types of conduitsVenerandoPanday

��

Electrical installation and maintenance module 10CLIFFORD BRANDES

��

Electrical signs and symbolsMary Grace Anticuando

��

INTERPRET TECHNICAL DRAWINGS AND PLANS.pptxReleneJoySoto

��

TLE-IA Electrical Installation and Maintenance Curriculum GuideDr. Joy Kenneth Sala Biasong

��

This document outlines a curriculum for an Industrial Arts - Electrical Installation and Maintenance course for grades 7-9 in the Philippines. The grade 7/8 course is introductory and exploratory, covering basic concepts, career opportunities, and common competencies. The grade 9 course is a specialization course covering preparing electric tools, and installing lighting systems, outlets, and fixtures. Both courses aim to teach concepts, competencies, and standards to lead to a National Certificate Level II in Electrical Installation and Maintenance.

G9 Common Wire Splices and Joints.pptxDhadaTedCortezano

��

EIM Exploratory's DLL (Lesson 1 _LO1-LO2 Week 1).pdfMatthew Angelo Gamboa

��

ELECTRICAL TOOLS AND EQUIPMENTLudher Mollins

��

Measuring tools and instrumentsRhocell Cupino

��

EIM 7/8 Lesson 2: Perform Mensuration and CalculationBenandro Palor

��

Electrical tools and its functionFortunato de Guzman

��

Electrical installation & maintenancePenaflorida Roel

��

Parts, Types and Defects of Electric CircuitJhunalvin Santos

��

Fluorescent lampCLIFFORD BRANDES

��

Steps in making extension cordMariaLudaDelaPena

��

Electrical symbols onarcerobert

��

Electrical Installation and Maintenance for grades_7 to 10Don Joven

��

K to 12 electrical learning moduleNoel Tan

��

Module 5 module 3 draft electrical and electronic layout and detailsGilbert Bautista

��

1 Conduit PEC.pptxVictor Rosales

��

Types of conduitsVenerandoPanday

��

Electrical installation and maintenance module 10CLIFFORD BRANDES

��

Electrical signs and symbolsMary Grace Anticuando

��

INTERPRET TECHNICAL DRAWINGS AND PLANS.pptxReleneJoySoto

��

TLE-IA Electrical Installation and Maintenance Curriculum GuideDr. Joy Kenneth Sala Biasong

��

G9 Common Wire Splices and Joints.pptxDhadaTedCortezano

��

EIM Exploratory's DLL (Lesson 1 _LO1-LO2 Week 1).pdfMatthew Angelo Gamboa

��

ELECTRICAL TOOLS AND EQUIPMENTLudher Mollins

��

Measuring tools and instrumentsRhocell Cupino

��

EIM 7/8 Lesson 2: Perform Mensuration and CalculationBenandro Palor

��

Electrical tools and its functionFortunato de Guzman

��

Electrical installation & maintenancePenaflorida Roel

��

Parts, Types and Defects of Electric CircuitJhunalvin Santos

��

Fluorescent lampCLIFFORD BRANDES

��

Steps in making extension cordMariaLudaDelaPena

��

Recently uploaded (20)

AI Trends and Fun Demos – Sotheby’s Rehoboth PresentationEthan Holland

��

Deno ...................................Robert MacLean

��

5 Must-Use AI Tools to Supercharge Your Productivitycryptouniversityoffi

��

5 Must-Use AI Tools to Supercharge Your Productivity! AI is changing the game! 🚀 From research to creativity and coding, here are 5 powerful AI tools you should try. NotebookLM 📚 NotebookLM – Your AI Research Assistant ✅ Organizes & summarizes notes ✅ Generates insights from multiple sources ✅ Ideal for students, researchers & writers 📝 Boost your productivity with smarter note-taking! Napkin.ai 🎨 Napkin.ai – The Creativity Booster ✅ Connects and organizes ideas ✅ Perfect for writers, designers & entrepreneurs ✅ Acts as your AI-powered brainstorming partner 💡 Unleash your creativity effortlessly! DeepSeek 🔍 DeepSeek – Smarter AI Search ✅ Delivers deeper & more precise search results ✅ Analyzes large datasets for better insights ✅ Ideal for professionals & researchers 🔎 Find what you need—faster & smarter! ChatGPT 💬 ChatGPT – Your AI Chat Assistant ✅ Answers questions, writes content & assists in coding ✅ Helps businesses with customer support ✅ Boosts learning & productivity 🤖 From content to coding—ChatGPT does it all! Devin AI 💻 Devin AI – AI for Coders ✅ Writes, debugs & optimizes code ✅ Assists developers at all skill levels ✅ Makes coding faster & more efficient 👨‍💻 Let AI be your coding partner! 🚀 AI is transforming the way we work!

Temporary Compound microscope slide .pptxSamir Sharma

��

GDG Cloud Southlake #40: Brandon Stokes: How to Build a Great ProductJames Anderson

��

How to Build a Great Product Being a tech entrepreneur is about providing a remarkable product or service that serves the needs of its customers better, faster, and cheaper than anything else. The goal is to "make something people want" which we call, product market fit. But how do we get there? We'll explore the process of taking an idea to product market fit (PMF), how you know you have true PMF, and how your product strategies differ pre-PMF from post-PMF. Brandon is a 3x founder, 1x exit, ex-banker & corporate strategist, car dealership owner, and alumnus of Techstars & Y Combinator. He enjoys building products and services that impact people for the better. Brandon has had 3 different careers (banking, corporate finance & strategy, technology) in 7 different industries; Investment Banking, CPG, Media & Entertainment, Telecommunications, Consumer application, Automotive, & Fintech/Insuretech. He's an idea to revenue leader and entrepreneur that helps organizations build products and processes, hire talent, test & iterate quickly, collect feedback, and grow in unregulated and heavily regulated industries.

AI in Medical Diagnostics – The Future of HealthcareVadim Nareyko

��

💡 What You’ll Learn: • What is AI in medical diagnostics and how it works? • How AI enhances accuracy, speed, and accessibility in disease detection. • Real-world examples from leading innovators like Google Health, IBM Watson, and Siemens Healthineers. • The cutting-edge AI technologies driving this transformation, including computer vision, natural language processing, and federated learning. • The challenges, opportunities, and future trends in AI-powered diagnostics. ________________________________________ 🔍 Why AI in Healthcare Matters: Traditional diagnosis relies heavily on manual interpretation, making it time-consuming and sometimes prone to human error. AI-driven diagnostic systems analyze vast amounts of medical data faster and more accurately, helping doctors detect diseases in their early stages. From automated radiology analysis to AI-assisted pathology and real-time patient monitoring, these technologies are revolutionizing healthcare, telemedicine, and personalized treatment.

Understanding Traditional AI with Custom Vision & MuleSoft.pptxshyamraj55

��

Understanding Traditional AI with Custom Vision & MuleSoft.pptx | ### �ݺ�ߣ Deck Description: This presentation features Atul, a Senior Solution Architect at NTT DATA, sharing his journey into traditional AI using Azure's Custom Vision tool. He discusses how AI mimics human thinking and reasoning, differentiates between predictive and generative AI, and demonstrates a real-world use case. The session covers the step-by-step process of creating and training an AI model for image classification and object detection—specifically, an ad display that adapts based on the viewer's gender. Atulavan highlights the ease of implementation without deep software or programming expertise. The presentation concludes with a Q&A session addressing technical and privacy concerns.

Build with AI on Google Cloud Session #3Margaret Maynard-Reid

��

Not a Kubernetes fan? The state of PaaS in 2025Anthony Dahanne

��

Kubernetes won the containers orchestration war. But has it made deploying your apps easier? Let's explore some of Kubernetes extensive app developer tooling, but mainly what the PaaS space looks like in 2025; 18 years after Heroku made it popular. Is Heroku still around? What about Cloud Foundry? And what are those new comers (fly.io, railway, porter.sh, etc.) worth? Did the Cloud giants replace them all?

THE BIG TEN BIOPHARMACEUTICAL MNCs: GLOBAL CAPABILITY CENTERS IN INDIASrivaanchi Nathan

��

This business intelligence report, "The Big Ten Biopharmaceutical MNCs: Global Capability Centers in India", provides an in-depth analysis of the operations and contributions of the Global Capability Centers (GCCs) of ten leading biopharmaceutical multinational corporations in India. The report covers AstraZeneca, Bayer, Bristol Myers Squibb, GlaxoSmithKline (GSK), Novartis, Sanofi, Roche, Pfizer, Novo Nordisk, and Eli Lilly. In this report each company's GCC is profiled with details on location, workforce size, investment, and the strategic roles these centers play in global business operations, research and development, and information technology and digital innovation.

Teaching Prompting and Prompt Sharing to End Users.pptxMichael Blumenthal (Microsoft MVP)

��

10 FinTech Solutions Every Business Should Know!.pdf Yodaplus Technologies Private Limited

��

FinTech is reshaping the way businesses handle payments, risk management, and financial operations. From AI-driven fraud detection to blockchain-powered security, the right FinTech solutions can streamline processes, reduce costs, and improve decision-making. This guide explores 10 essential FinTech tools that help businesses stay ahead in an increasingly digital economy. Discover how digital payments, credit risk management, treasury solutions, AI, blockchain, and RegTech can enhance efficiency, security, and profitability. Read now to learn how businesses are leveraging FinTech for smarter financial management!

AMER Introduction to ThousandEyes WebinarThousandEyes

��

Unlocking DevOps Secuirty :Vault & KeylockHusseinMalikMammadli

��

DevOps iş təhlükəsizliyi sizi maraqlandırır? İstər developer, istər təhlükəsizlik mühəndisi, istərsə də DevOps həvəskarı olun, bu tədbir şəbəkələşmək, biliklərinizi bölüşmək və DevSecOps sahəsində ən son təcrübələri öyrənmək üçün mükəmməl fürsətdir! Bu workshopda DevOps infrastrukturlarının təhlükəsizliyini necə artırmaq barədə danışacayıq. DevOps sistemləri qurularkən avtomatlaşdırılmış, yüksək əlçatan və etibarlı olması ilə yanaşı, həm də təhlükəsizlik məsələləri nəzərə alınmalıdır. Bu səbəbdən, DevOps komandolarının təhlükəsizliyə yönəlmiş praktikalara riayət etməsi vacibdir.

Leadership u automatizaciji: RPA priče iz prakse!UiPathCommunity

��

Dobrodošli na "AI Powered Automation Leadership Talks", online događaj koji okuplja senior lidere i menadžere iz različitih industrija kako bi podelili svoja iskustva, izazove i strategije u oblasti RPA (Robotic Process Automation). Ovaj događaj pruža priliku da zavirite u način razmišljanja ljudi koji donose ključne odluke u automatizaciji i liderstvu. 📕 Kroz panel diskusiju sa tri izuzetna stručnjaka, istražićemo: Kako uspešno započeti i skalirati RPA projekte u organizacijama. Koji su najveći izazovi u implementaciji RPA-a i kako ih prevazići. Na koje načine automatizacija menja radne procese i pomaže timovima da ostvare više. Bez obzira na vaše iskustvo sa UiPath-om ili RPA uopšte, ovaj događaj je osmišljen kako bi bio koristan svima – od menadžera do tehničkih lidera, i svima koji žele da unaprede svoje razumevanje automatizacije. Pridružite nam se i iskoristite ovu jedinstvenu priliku da naučite od onih koji vode automatizaciju u svojim organizacijama. Pripremite svoja pitanja i inspiraciju za sledeće korake u vašoj RPA strategiji!

Blockchain for Businesses Practical Use Cases & Benefits.pdf Yodaplus Technologies Private Limited

��

Blockchain is revolutionizing industries by enhancing security, transparency, and automation. From supply chain management and finance to healthcare and real estate, blockchain eliminates inefficiencies, prevents fraud, and streamlines operations. What You'll Learn in This Presentation: 1. How blockchain enables real-time tracking & fraud prevention 2. The impact of smart contracts & decentralized finance (DeFi) 3. Why businesses should adopt secure and automated blockchain solutions 4. Real-world blockchain applications across multiple industries Explore the future of blockchain and its practical benefits for businesses!

Dev Dives: Unlock the future of automation with UiPath Agent BuilderUiPathCommunity

��

This webinar will offer you a first look at the powerful capabilities of UiPath Agent Builder, designed to streamline your automation processes and enhance your workflow efficiency. 📕 During the session, you will: - Discover how to build agents with low-code experience, making it accessible for both developers and business users. - Learn how to leverage automations and activities as tools within your agents, enabling them to handle complex and dynamic workflows. - Gain insights into the AI Trust Layer, which provides robust management and monitoring capabilities, ensuring trust and transparency in your automation processes. - See how agents can be deployed and integrated with your existing UiPath cloud and Studio environments. 👨‍🏫 Speaker: Zach Eslami, Sr. Manager, Product Management Director, UiPath ⏩ Register for our upcoming Dev Dives March session: Unleash the power of macOS Automation with UiPath 👉 AMER: https://bit.ly/Dev_Dives_AMER_March 👉 EMEA & APJ:https://bit.ly/Dev_Dives_EMEA_APJ_March This session was streamed live on February 27, 2025, 15:00 GMT. Check out future Dev Dives 2025 sessions at: 🚩 https://bit.ly/Dev_Dives_2025

MIND Revenue Release Quarter 4 2024 - Finacial PresentationMIND CTI

��

Predictive vs. Preventive Maintenance — Which One is Right for Your FactoryDiagsense ltd

��

DevNexus - Building 10x Development Organizations.pdfJustin Reock

��

Developer Experience is Dead! Long Live Developer Experience! In this keynote-style session, we’ll take a detailed, granular look at the barriers to productivity developers face today and modern approaches for removing them. 10x developers may be a myth, but 10x organizations are very real, as proven by the influential study performed in the 1980s, ‘The Coding War Games.’ Right now, here in early 2025, we seem to be experiencing YAPP (Yet Another Productivity Philosophy), and that philosophy is converging on developer experience. It seems that with every new method, we invent to deliver products, whether physical or virtual, we reinvent productivity philosophies to go alongside them. But which of these approaches works? DORA? SPACE? DevEx? What should we invest in and create urgency behind today so we don’t have the same discussion again in a decade?

AI Trends and Fun Demos – Sotheby’s Rehoboth PresentationEthan Holland

��

Deno ...................................Robert MacLean

��

5 Must-Use AI Tools to Supercharge Your Productivitycryptouniversityoffi

��

Temporary Compound microscope slide .pptxSamir Sharma

��

GDG Cloud Southlake #40: Brandon Stokes: How to Build a Great ProductJames Anderson

��

AI in Medical Diagnostics – The Future of HealthcareVadim Nareyko

��

Understanding Traditional AI with Custom Vision & MuleSoft.pptxshyamraj55

��

Build with AI on Google Cloud Session #3Margaret Maynard-Reid

��

Not a Kubernetes fan? The state of PaaS in 2025Anthony Dahanne

��

THE BIG TEN BIOPHARMACEUTICAL MNCs: GLOBAL CAPABILITY CENTERS IN INDIASrivaanchi Nathan

��

Teaching Prompting and Prompt Sharing to End Users.pptxMichael Blumenthal (Microsoft MVP)

��

10 FinTech Solutions Every Business Should Know!.pdf Yodaplus Technologies Private Limited

��

AMER Introduction to ThousandEyes WebinarThousandEyes

��

Unlocking DevOps Secuirty :Vault & KeylockHusseinMalikMammadli

��

Leadership u automatizaciji: RPA priče iz prakse!UiPathCommunity

��

Blockchain for Businesses Practical Use Cases & Benefits.pdf Yodaplus Technologies Private Limited

��

Dev Dives: Unlock the future of automation with UiPath Agent BuilderUiPathCommunity

��

MIND Revenue Release Quarter 4 2024 - Finacial PresentationMIND CTI

��

Predictive vs. Preventive Maintenance — Which One is Right for Your FactoryDiagsense ltd

��

DevNexus - Building 10x Development Organizations.pdfJustin Reock

��

BULB CONNECTION eim.pdf

1. ELECTRICAL TECH. LINE 1 LINE2 BULB 1 S1 LOCATION 1 ONE BULB CONTROLLED BY S1 IN ONE LOCATION

2. ELECTRICAL TECH. LINE 1 LINE2 BULB 1 S1 LOCATION 1 ONE BULB CONTROLLED BY S1 IN ONE LOCATION

3. ELECTRICAL TECH. TWO BULBS CONTROLLED BY S1 IN ONE LOCATION LINE 1 LINE2 BULB 1 S1 LOCATION 1 BULB 2

4. ELECTRICAL TECH. TWO BULBS CONTROLLED BY S1 IN ONE LOCATION LINE 1 LINE2 BULB 1 S1 LOCATION 1 BULB 2

5. ELECTRICAL TECH. THREE BULBS CONTROLLED BY S1 IN ONE LOCATION Bulb 1 Bulb 2 Bulb 3 LINE 1 LINE 2 S1 LOCATION 1

6. ELECTRICAL TECH. THREE BULBS CONTROLLED BY S1 IN ONE LOCATION Bulb 1 Bulb 2 Bulb 3 LINE 1 LINE 2 S1 LOCATION 1

7. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN ONE LOCATION

8. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN ONE LOCATION

9. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN ONE LOCATION

10. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN ONE LOCATION

11. ELECTRICAL TECH. THREE BULBS CONTROLLED INDIVIDUALY BY S3 IN ONE LOCATION Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3

12. ELECTRICAL TECH. THREE BULBS CONTROLLED INDIVIDUALY BY S3 IN ONE LOCATION Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3

13. ELECTRICAL TECH. THREE BULBS CONTROLLED INDIVIDUALY BY S3 IN ONE LOCATION Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3

14. ELECTRICAL TECH. THREE BULBS CONTROLLED INDIVIDUALY BY S3 IN ONE LOCATION Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3

15. ELECTRICAL TECH. THREE BULBS CONTROLLED INDIVIDUALY BY S3 IN ONE LOCATION Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3

16. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 S1 LOCATION 2 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN TWO DIFFERENT LOCATION

17. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 S1 LOCATION 2 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN TWO DIFFERENT LOCATION

18. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 S1 LOCATION 2 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN TWO DIFFERENT LOCATION

19. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 S1 LOCATION 2 TWO BULBS CONTROLLED INDIVIDUALY BY TWO S1 IN TWO DIFFERENT LOCATION

20. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 LOCATION 2 LOCATION 3 S1 S1 THREE BULBS CONTROLLED INDIVIDUALY BY THREE S1 IN THREE DIFFIRENT ONE LOCATION

21. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 LOCATION 2 LOCATION 3 S1 S1 THREE BULBS CONTROLLED INDIVIDUALY BY THREE S1 IN THREE DIFFIRENT ONE LOCATION

22. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 LOCATION 2 LOCATION 3 S1 S1 THREE BULBS CONTROLLED INDIVIDUALY BY THREE S1 IN THREE DIFFIRENT ONE LOCATION

23. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 LOCATION 2 LOCATION 3 S1 S1 THREE BULBS CONTROLLED INDIVIDUALY BY THREE S1 IN THREE DIFFIRENT ONE LOCATION

24. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 LOCATION 2 LOCATION 3 S1 S1 THREE BULBS CONTROLLED INDIVIDUALY BY THREE S1 IN THREE DIFFIRENT ONE LOCATION

25. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 TWO BULBS CONTROLLED BY ONE S1 AND ANOTHER BULB CONTROLLED BY ANOTHER S1 IN ONE LOCATION

26. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 TWO BULBS CONTROLLED BY ONE S1 AND ANOTHER BULB CONTROLLED BY ANOTHER S1 IN ONE LOCATION

27. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 TWO BULBS CONTROLLED BY ONE S1 AND ANOTHER BULB CONTROLLED BY ANOTHER S1 IN ONE LOCATION

28. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 TWO BULBS CONTROLLED BY ONE S1 AND ANOTHER BULB CONTROLLED BY ANOTHER S1 IN ONE LOCATION

29. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 Bulb 4 FOUR BULBS CONTROLLED BY TWO S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.

30. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 Bulb 4 FOUR BULBS CONTROLLED BY TWO S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.

31. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 Bulb 4 FOUR BULBS CONTROLLED BY TWO S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.

32. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 Bulb 4 FOUR BULBS CONTROLLED BY TWO S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.

33. ELECTRICAL TECH. Bulb 1 Bulb 2 LINE 1 LINE 2 S2 LOCATION 1 Bulb 3 Bulb 4 FOUR BULBS CONTROLLED BY TWO S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME.

34. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5

35. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5

36. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5

37. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5

38. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN ONE LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S3 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5

39. ELECTRICAL TECH. FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 S1 LOCATION 2 Bulb 4

40. ELECTRICAL TECH. FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 S1 LOCATION 2 Bulb 4

41. ELECTRICAL TECH. FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 S1 LOCATION 2 Bulb 4

42. ELECTRICAL TECH. FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 S1 LOCATION 2 Bulb 4

43. ELECTRICAL TECH. FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 S1 LOCATION 2 Bulb 4

44. ELECTRICAL TECH. FOUR BULBS CONTROLLED BY TWO S1 IN TWO DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 S1 LOCATION 2 Bulb 4

45. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN THREE DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5 S1 LOCATION 2 S1 LOCATION 3

46. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN THREE DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5 S1 LOCATION 2 S1 LOCATION 3

47. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN THREE DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5 S1 LOCATION 2 S1 LOCATION 3

48. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN THREE DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5 S1 LOCATION 2 S1 LOCATION 3

49. ELECTRICAL TECH. SIX BULBS CONTROLLED BY THREE S1 IN THREE DIFFERENT LOCATION. EACH S1 CONTROLS TWO BULBS AT THE SAME TIME. Bulb 1 Bulb 2 LINE 1 LINE 2 S1 LOCATION 1 Bulb 3 Bulb 4 Bulb 6 Bulb 5 S1 LOCATION 2 S1 LOCATION 3

50. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

51. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

52. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

53. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

54. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

55. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

56. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

57. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

58. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

59. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2

60. ELECTRICAL TECH. THREE BULBS CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 Bulb 2 Bulb 3

61. ELECTRICAL TECH. THREE BULBS CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 Bulb 2 Bulb 3

62. ELECTRICAL TECH. THREE BULBS CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 Bulb 2 Bulb 3

63. ELECTRICAL TECH. THREE BULBS CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 Bulb 2 Bulb 3

64. ELECTRICAL TECH. THREE BULBS CONTROLLED BY TWO THREE-WAY SWITCHES IN TWO DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 Bulb 2 Bulb 3

65. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

66. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

67. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

68. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

69. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

70. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

71. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

72. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

73. ELECTRICAL TECH. ONE BULB CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W

74. ELECTRICAL TECH. TWO BULBS CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W Bulb 2

75. ELECTRICAL TECH. TWO BULBS CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W Bulb 2

76. ELECTRICAL TECH. TWO BULBS CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W Bulb 2

77. ELECTRICAL TECH. TWO BULBS CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W Bulb 2

78. ELECTRICAL TECH. TWO BULBS CONTROLLED BY TWO THREE-WAY SWITCHES AND ONE FOUR-WAY SWITCH IN THREE DIFFERENT LOCATION. Bulb 1 LINE 1 LINE 2 S3W LOCATION 1 S3W LOCATION 2 LOCATION 3 S4W Bulb 2

79. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

80. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

81. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

82. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

83. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

84. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

85. ELECTRICAL TECH. FOUR BULBS CONTROLLED INDIVIDUALY BY FOUR S3W SWITCHES AND CONTROLLED BY ONE MASTER SWITCH AT THE SAME TIME IN ONE LOCATION. Bulb 1 LINE 1 LINE 2 S3W S3W MASTER SWITCH S3W S3W Bulb 4 Bulb 3 Bulb 2

86. ELECTRICAL TECH.

87. ELECTRICAL TECH. STAIRWAY LIGHTING DIAGRAM ROOM 5 ROOM 6 ROOM 8 ROOM 7 ROOM 4 ROOM 3 ROOM 1 ROOM 2 LINE 1 LINE 2

�ݺ�ߣ

BULB CONNECTION eim.pdf

Recommended

More Related Content

What's hot (20)

Recently uploaded (20)

BULB CONNECTION eim.pdf