9 Republic of the Philippines Department of Education REGION II – CAGAYAN VALLEY COPYRIGHT PAGE TLE (Computer Systems Servicing) Learning Activity Sheets (Grade 9) Copyright © 2020 DEPARTMENT OF EDUCATION Regional Office No. 02 (Cagayan Valley) Regional Government Center, Carig Sur, Tuguegarao City, 3500 “No copy of this material shall subsist in any work of the Government of the Philippines. However, prior approval of the government agency or office wherein the work is created shall be necessary for exploitation of such work for profit.” This material has been developed for the implementation of K to 12 Curriculum through the Curriculum and Learning Management Division (CLMD). It can be reproduced for educational purposes and the source must be acknowledged. Derivatives of the work including creating an edited version, an enhancement of supplementary work are permitted provided all original works are acknowledged and the copyright is attributed. No work may be derived from this material for commercial purposes and profit. Consultants: Regional Director Assistant Regional Director Schools Division Superintendent Asst. Schools Division Superintendent Chief Education Supervisor, CLMD Chief Education Supervisor, CID : : : : : : ESTELA L. CARIÑO EdD, CESO IV, DepEd R02 RHODA T. RAZON EdD, CESO V, DepEd R02 FLORDELIZA C. GECOBE PhD, CESO VI, SDO Quirino MARY JULIE A. TRUS PhD, SDO Quirino OCTAVIO V. CABASAG PhD, DepEd R02 JORGE G. SADDUL, SR. Development Team Writer: RODEL F. DINAMLING, Master Teacher II, Maddela Comprehensive High School-Junior HS Content Editor: ESPERANZA T. VALDEZ PhD, Education Program Supervisor-TLE, SDO Quirino Language Editor: SHERLY C. CAINGUITAN PhD, Education Program Supervisor - English, SDO Quirino FE G. BUCCAHAN PhD, Education Program Supervisor -Filipino, SDO Quirino Illustrator: RODEL F. DINAMLING, Master Teacher II, Maddela Comprehensive High School-Junior HS Layout Artist: RODEL F. DINAMLING, Master Teacher II, Maddela Comprehensive High School-Junior HS Focal Persons: FELIMENDO M. FELIPE, LR Supervisor RONALD T. BERGADO, PDO II- LRMS, SDO- Quirino ROZEN D.BERNALES, Librarian II, SDO Quirino Printed by: Curriculum and Learning Management Division DepEd, Carig Sur, Tuguegarao City TABLE OF CONTENTS Choose Appropriate Lighting Fixtures for Specific Job Order Discuss Parts of an Incandescent Lamp and Its Function Discuss Parts of a Fluorescent Lamp and Its Function Discuss Parts and Function of Light Emitting Diode and Other Lamps TECHNOLOGY AND LIVELIHOOD EDUCATION ELECTRICAL INSTALLATION AND MAINTENANCE 9 Name____________________ Grade level___________ Section___________________ Date ________________ LEARNING ACTIVITY SHEET PLAN AND PREPARE WORK FOR SPECIFIC JOB ORDER Background Information for Learners Plan your work, and work your plan. Many believe that if you had a plan to follow you would always wind up on top or get an excellent result. Planning out your work will make sure you get the most out of your work day. Your time is an investment in yourself. Budgeting your time on the job the way you can budget money will help you reduce your stress, become healthy and accomplish more. When you are planning your work for a day, see what tasks you can designate to someone else or ask for an assistant to help you complete them. No one wins when you try to do everything yourself and wind up stressed out and exhausted. Decide exactly how long you will stay at work (if that is an option) and leave at that time Your work may be categorized into 1.) Urgent and important tasks, 2.) Urgent but unimportant tasks, and 3.) Non-urgent but important tasks. Tasks in category one need to be done first. Tasks in the second category need to be addressed but should not overwhelm you in any manner. Make the most of your convenient time in each day to address tasks in the third category. Note: Practice Personal Hygiene protocols at all times. 1 Things to remember in your preparation: 1. Secure the Blueprint (Electrical Plan). This is your guide for a safe and approved wiring installation. 2. The budget of the owner. Discuss the fund of the project. Submit your proposal and your warranty arrangement. 3. Personal Protective Equipment. PPE needed in the project Determine what type of environment you are working for, either hazardous or nonhazardous location to wear appropriate PPE. Personal Protective Equipment: 1. Safety helmet 5. Safety shoes (Steel Toe) 2. Safety gloves 6. Cover-all dress 3. Safety belt/Full body harnessed (Use for climbing) 7. Breathing apparatus 4. Safety goggles 4. Emergency Kit. Keep supplies in an easy to carry emergency preparedness kit that you can use at your workplace. 5. Needed tools and equipment. Prepare the necessary tools and equipment for the project to prevent unnecessary delays due to lack of tools and equipment to perform the job. Prepare the request by filling up the form below. Quantity Unit Description Example: Remarks A. Tools 1. Lineman’s Plier 2. Wire stripper 3.Claw hammer 4.Gimlet 5.Screwdriver Example: B. Equipment: 1.Portable Hammer drill 2.Hydraulic pipe bender 3.Portable Band saw Note: Practice Personal Hygiene protocols at all times. 2 6. Needed Supplies and materials. Check if the required materials are ready for the project. Prepare the request by filling up the form below. Bill of Materials: (Example) Quantity Unit Description Unit Cost Total Cost 1 3 8 Piece Pair Pieces 6-Hole Panel Board - Allied Circuit Breaker 20A G.E. Expansion Bolt/Tox Screw P 1, 500.00 P 350.00 P 25.00 P 1, 500.00 P 1, 050.00 P 200.00 Grand Total P 2, 750.00 7. Permits and legal documents. (Ex. Work permit, Building Permit and registration) 8. Time of completion. Estimated target date to finish the project or else there will be imposed penalties in delay if included in the contract. Learning Competency with Code 1. (TLE_IAEI9ET-IIa-IVj-1)Plan and Prepare Work for a Specific Job Order. (Quarter 2, Week 1) Activity 1: Match Me Directions: Read the descriptions carefully in column A and match with the corresponding Terms in column B. Write the letter of your answer on the space given. A _____1. It helps you to accomplish more by managing your time, money and effort. _____2. A bag contains medical supplies for First aid purposes in the work place. B. A. Electrical Plan B. Emergency Kit Note: Practice Personal Hygiene protocols at all times. 3 _____3. It protects you from hazardous working situations. C. Planning your Work _____4. It shows a list of needed supplies and cost for a specific job order. D. Bill of Materials ______5. This is your guide for a safe and approved wiring installation. E. Personal Protective Equipment Activity 2 Direction: Complete the paragraph by filling in the missing word/words. Choose your answer from the box and write on the space provided. Directions.Inside the box are parts of electric and hydraulic power tools. Identify and write them in their corresponding column provided below. Work Time Urgent and important tasks Non-urgent but important tasks Urgent but unimportant tasks Plan Planning Many believe that if you had a (1) _________to follow you would always wind up on top or get an excellent (2) ___________. Planning out your (3)__________will make sure you will get the most out of your work for the day. Your time is an investment in yourself. Budgeting your (4)___________ on the job the way you can budget money will help you reduce your stress, become healthy and accomplish more. When you are (5)____________ your work for a day, see what tasks you can designate to someone else or ask for an assistant to help you complete them. No one wins when you try to do everything yourself and wind up stressed out and exhausted. Your work are categorized accordingly. You need to accomplish first the (6)_______________________________category. Some of your works need to be addressed but should not overwhelm you in any manner. These are (7) Note: Practice Personal Hygiene protocols at all times. 4 ________________________________. You can make the most of your convenient time in each day to address the _________________________ category. Activity 3 Directions: Prepare a sample of Bill of Materials of an Extension Cord Project using the form given below: Quantity Unit Description Unit Cost Total Cost Grand Total: _____________ Activity 4 Directions: Choose the letter of the best answer and write on the space provived for. ______1.What do you need to prepare to check if the required materials are ready for the project? A. Blueprint B. Electrical Plan C. Bill of materials D. Personal Protective Equipment ______2. Which of the following statements is true. A. Urgent but important tasks need to be done first. B. Urgent but unimportant tasks need to be done first. C. Non-urgent but important tasks need to be done first. D. Non-urgent and unimportant tasks need to be done first.. ______3. Why is planning very important before starting a specific job? A. To gain excess profit and benefits. B. To have a guide in accomplishing the project. C. To show that you are better in accomplishing the project. D. To have an additional work in accomplishing the project. ______4. How can you assure safety in the work place based on your plan? A. The budget is included in the plan. B. The Materials needed are prepared. C. The electrical tools and equipment needed are completed. D. Medical kits and Personal Protective Equipment are included. Note: Practice Personal Hygiene protocols at all times. 5 ______5. Why do you need to secure an electricl pla before starting the project? A. This is your guide for doing wiring installation. B. This is your guide for sketching wiring installation. C. This is your guide for selecting the best wiring installation. D. This is your guide for a safe and approved wiring installation. Reflection: Complete this statement: What I have learned in this activity ___________________________________________________________________ __________________________________________________________________________ __________________________________________________________________________ _____________________________________________________. References: 1. Competency Based Learning Material-Electrical Installation And Maintenance NC II 2. Johnston, Larry et.al., Better Homes and Gardens Wiring 1st Edition, Meredith Books; 2007,pp. 3. Mulin, R.C., Smith R.L. Electrical Wiring-Commercial, Six Ed., New York: Delmar’s Publishing Inc.; 1984, pp. 4. Agpoa, Feleciano. Interior and Exterior Wiring Troubleshooting ; National Bookstore: 1991 5. www.technologystudent.com Answer Key: Activity 1 1. C 2. B 3. E Note: Practice Personal Hygiene protocols at all times. 6 4. D 5. A Activity 2 1. 2. 3. 4. 5. 6. 7. 8. Plan Result Work Time Planning Urgent and important tasks Urgent but unimportant tasks Non-urgent but important tasks Activity 3. Answers may vary Activity 4 1. 2. 3. 4. 5. C A B D D Prepared by: RODEL F. DINAMLING Master Teacher II Note: Practice Personal Hygiene protocols at all times. 7 TECHNOLOGY AND LIVELIHOOD EDUCATION ELECTRICAL INSTALLATION AND MAINTENANCE 9 Name____________________ Grade level___________ Section___________________ Date ________________ LEARNING ACTIVITY SHEET CHOOSE APPROPRIATE LIGHTING FIXTURES FOR SPECIFIC JOB ORDER Background Information for Learners Electrical lighting system needs lighting fixtures and accessories. A light fixture (US English), light fitting (UK English), or luminaire is an electrical device that contains an electric lamp that provides illumination. All light fixtures have a fixture body and one or more lamps. The lamps may be in sockets for easy replacement. Lighting fixtures and accessories include Lamp holders, Reflectors, Diffusers, Shades and Shields. These lightning fixtures are electrical devices that hold and energize the lamp, give direction to and change the quality of the light produced, and prevents glare. Electrical Lighting Fixtures and Accessories There are several types of lightning fixtures with various designs and for different purposes. They are classified as lamp holders, reflectors, diffusers, Shades and Shields. Lamp holder. The most common lightning fixture, this holds and protects the lamp. It can be a cord or box-mounted socket for incandescent lamps, or wiring strips for fluorescent lamps. This is a device which mechanically supports and provides electrical connections for a compatible electric lamp. Sockets allow lamps to be safely and conveniently replaced (relamping). A lamp holder is also called an electric light bulb socket, light socket, or lamp socket is a device which mechanically supports and provides electrical connections for a compatible electric lamp. Sockets allow lamps to be safely and conveniently replaced (re-lamping). Note: Practice Personal Hygiene protocols at all times. 8 Reflector. This device modifies the appearance of lamp holder. It usually designed with a highly polished or painted surface. Its primary purpose is for reflection, but it also focuses shields the light and increases lamination. A reflector may be a separate unit fastened to the lamp holder or a part of the fixture. The use of a reflector can increase light output two to five times. Reflectors may also be used as a means of increasing the size of the main light source, which may (or may not) retain a direct path to the scene. By positioning a board reflector close to a light source, its effective size can be increased by "bouncing" the light off it. Shades and shields. A lamp shade's purpose is to protect the eye from the bulb's glare and to direct light from the bulb in the lamp into the room. ... Instead, they have the softer reflected light from the ceiling and the much-diffused light through the shade. Diffuser. This is a piece of glass or complex lens with different designs that diffuse lights and eliminates unwanted glare and sharp shadows. It also includes the quality of light produced by the lamp. Other Lighting Fixtures: 1. Ceiling Lights Reflector and Diffuser 2. Chandelier 3. Pendant Light Fixtures - Pendants offer a clean and simple alternative to the more complex, traditional form found in a chandelier. They can provide just as much light as a chandelier while taking up much less space. When selecting your pendant, consider the balance of function and design you're trying to accomplish. Mini Pendants are growing in popularity mostly for the Note: Practice Personal Hygiene protocols at all times. 9 look they provide. They are often used for a splash of color, as many mini pendants feature hand blown glass. Coffee Houses use these fixtures not only for the splash of color they provide, but also for their light output. Lamps take up table space and can get in the way. Having a small pendant hanging over a table will provide the perfect amount of light to ready by, while also spicing up the decor of the area. Purchase three and replace your island fixture or hang them as a set over your bar. 4. Recessed Lighting Basics -Recessed Lighting can be used in combination with other light fixtures to add needed light to a room when one fixture just isn't enough. All you need is a housing and a trim! Housings come in two flavors: New construction housings nestle between ceiling joists and are typically installed during construction. Remodel housings fit into holes cut into an existing ceiling space. Your insulation further determines the type of housing you need: if your ceiling has insulation, use an IC-Rated housing to ensure 3 inches of clearance and avoid fire hazards. You can use Non-IC housings if you don't have insulation, or if you make certain that you have a sufficiently large gap separating your housing and insulation. 5. Track Lighting allows you to put light right where you need it. Track lighting can add a dramatic effect to any room. Whether you're looking to show off some artwork or just add a little depth to the room, track lights are a great choice because they're relatively inexpensive and pretty easy to install. The varieties of track lighting are like that of your local ice cream shop, offering up multitudes of flavors. There are flexible ribbon tracks, rigid straight lengths, track lights with pendulums and even jointed sectionals. There are just as many different types of bulbs for the track lights. Choosing the right one for your décor can be a long, but rewarding experience. Note: Practice Personal Hygiene protocols at all times. 10 6. Outdoor Lighting - It has become more common in modern society to use Outdoor Lighting around our homes and businesses to accent architecture, draw attention to a sign, provide security, and enable people to be more active at night. 7. Flood Lights One of the simplest, most effective ways to enhance the safety and security of your home is to add a motionsensor floodlight to the garage. The dual-lamp model installed here comes on automatically if something—or someone—crosses its field of vision. Learning Competency with Code (TLE_IAEL10EL-Ia-IIj-1) Choose Appropriate Lighting Fixtures for Specific Job Order. (Quarter 2, Week 2) Note: Practice Personal Hygiene protocols at all times. 11 Activity 1. Choose the Proper Fixture Directions: Match the electrical lighting fixtures in column A with the corresponding uses/applications in column B. Write the letter of your answer on the space given. A B. _____1. It increase light output two to five times. A. Diffuser _____2. It eliminates unwanted glare and sharp shadows. B. Shade and Shield _____3. It holds and protects the lamp. C. Reflector _____4. It protects the eye from the bulb's glare and to direct light from the bulb in the lamp into the room. D. Lamp holder Activity 2. WORD SEARCH Directions:Encircle the word/words related with electrical lighting fixtures. C R E F L E C T O R R D S A C H A N D E L I E R T P V B N M A S H A D A W N A K F L O O D L I G H T M T M M G Q O I E O D G I C U S C R A P F R L S H A D E A S J A P F S A A J K Y A R H Y S U U E N S Y O U H I I U B L S N D E R P M N T E N G S E U E T E H A I M L R E K R E F L W G R L S D U N N E L S W A T S O Activity 3 Directions: Draw the different kinds of lamp fixtures on a cartolina paper. If these materials are available (reflector, shield, lamp holder and diffuser) in your home, study the connection diagram and make the connection Note: Practice Personal Hygiene protocols at all times. 12 Reflection: Complete this statement: What I have learned in this activity ___________________________________________________________________ __________________________________________________________________________ __________________________________________________________________________ _____________________________________________________. References: Efren F. Azares et. Al, Practical Technology and Home Economics- Electricity III,1999 Max B. Fajardo Jr. et.al., Electrical Layout and Estimates, 2nd Edition; 2000 Mulin, R.C., Smith R.L. Electrical Wiring-Commercial, Six Ed., New York: Delmar’s Publishing Inc.; 1984, https://en.wikipedia.org/wiki/Light_fixture http://www.lightinghere.com/types-of-ceramic-electric-lamp-holders-e27-10001842 https://en.wikipedia.org/wiki/Lampshade https://en.wikipedia.org/wiki/Lightbulb_socket Answers’ Key Activity 1 1. 2. 3. 4. C A D B Activity 2 Note: Practice Personal Hygiene protocols at all times. 13 C R E F L E C T O R R D S A C H A N D E L I E R T P V B N M A S H A D A W N A K F L O O D L I G H T M T M M G Q O I E O D G I C U S C R A P F R L S H A D E A S J A P F S A A J K Y A R H Y S U U E N S Y O U H I I U B L S N D E R P M N T E N G S E U E T E H A I M L R E K R E F L W G R L S D U N N E L S W A T S O Activity 3 (Answers may vary) Prepared by: RODEL F. DINAMLING Master Teacher II Note: Practice Personal Hygiene protocols at all times. 14 TECHNOLOGY AND LIVELIHOOD EDUCATION ELECTRICAL INSTALLATION AND MAINTENANCE 9 (Quarter 2, Week 3) Name____________________ Grade level___________ Section___________________ Date ________________ LEARNING ACTIVITY SHEET DISCUSS PARTS OF AN INCANDESCENT LAMP AND ITS FUNCTION Background Information for Learners The invention of the incandescent lamp by Thomas Edison in 1879 marked the beginning of efficient electrical lightning. Light is produced in an incandescent lamp in a current that goes through the filament of resistance material to heat the lamp. Incandescent lamp parts Basic parts and features of a typical incandescent lamp: 1. 2. 3. 4. Filament. This is usually made of tungsten. Gas. This is a mixture of nitrogen, and in most lamps, 4o watts or higher. Lead-in wires. Made of copper, these wires carry the current to the filament. Exhaust tube. Air is exhausted through this tube during manufacture an inert gases are introduced into the bulb. The tube, which originally projects the bulb, is then sealed short enough to be capped by the base. 5. Bulb. This I usually made of soft glass. Hard glass may be used in some lamps to withstand higher bulb temperature and to protect them against sudden changes in the weather. Bulbs come in various shapes and finishes. 6. Mica disc. This is used in higher wattage general service lamps and in other types when the circulation of hot gases into the neck of bulb needs to be reduced. 7. Fuse. This device protects the lamp and circuit by blowing if the filament arcs. Note: Practice Personal Hygiene protocols at all times. 15 8. Base or Cap. This is a typical screw base. One lead-in wire is soldered to the center contact, and the other, to the upper rim of the base shell, which is made of brass. 9. Foot contact. This conductor connects the lamp to the hot line. The incandescent is cheaper, fast starting, cheap dimming, with small size and has good warm color. Its life span is relatively short. Incandescent lamps are critically dependent on the wattage supply that even for a small fluctuation of the current voltage, its life, output, and efficiency is materially affected. For instance: 1. Burning a 120-volt lamp with 115 volts current supply will mean approximately: 15% less light of the lamp (lumens) 7% lower power consumption (watts) 8% lower efficacy (lumens per hour) 72% more life (burning hours) 2. Burning a 120-volt lamp with 125 volts current supply will mean approximately: 16% more light (lumens) 6% more power consumption (watts) 8% higher efficacy (lumens per watt) 42% less life (burning hours) Incandescent lamp is very sensitive to voltage change, and voltage change materially affects its life span. At an average 10% lower voltage supply, its span is increased by 25% and reduces by 75% with 10% over voltage supply. On the average, less than 10% of the wattage is utilized to produce light and the rest produces heat. In short, this type of lamp is considered as a poor choice for energy conversation because it produces poor and low level of lighting. However, incandescent lamp has also the following Advantages: 1. 2. 3. 4. 5. 6. 7. 8. It is cheaper Instant start and re-start Simple inexpensive dimming Simple and compact installation requiring no accessories High power factor It can be focused Its life is independent of the number of starts It has a good color. Disadvantages of Incandescent Lamp 1. Has low efficacy Note: Practice Personal Hygiene protocols at all times. 16 2. 3. 4. 5. Has shorter life Sensitive and critical to voltage changes or fluctuations. High maintenance cost More heat is produced than light. Due to its poor energy characteristics, incandescent lamp should be limited to the following applications: 1. 2. 3. 4. Infrequent or short duration use. Where low cost dimming is necessary. In focusing fixtures. Where minimum initial cost is required. Types of Incandescent Lamp Base and Sizes Incandescent lamp has a wide variety of forms, shapes and sizes. Likewise, its base is also made different types and various designs. Learning Competency with Code The table below shows some incandescent lamp data: Watts and Life Lamp watts Average rated life (in hours) Lumens Initial lumens Lumens per watt Physical Data Share of bulb Base 60 1 000 855 14.2 A-19 MED 60 1 100 855 14.2 A-19 MED 75 750 1 180 15.7 A-19 MED 100 750 1 1750 17.5 A-19 MED 100 750 1 1710 17.1 A-19 MED 100SB 1000 1 40 14.5 A-21 MED 150 750 2 760 18.4 A-21 MED 200 750 4 000 20.4 A-23 MED 200/SBPF 1000 3 300 16.5 PS-30 MED 300/SBIF 1000 5 250 17.5 PS-30 MED (TLE_IAEL9EL-IIa-IVj-1) Discuss Parts of an Incandescent Lamp and Its Function . (Quarter 2, Week 3) Note: Practice Personal Hygiene protocols at all times. 17 Activity 1 Directions: Below is a picture of a typical incandescent lamp with the parts written. Sketch a line to connect the correct part. 1. Tungsten filament 4 434. Stem 2. Lead-in wire 3. Cap 555. Foot contact Activity 2 Directions: Choose the correct part of an incandescent lamp from the box to complete the sentence below. Bulb Filament Fuse Lead-in wire Exhaust tube 1).The ________ protects the lamp and circuit by blowing if the filament arcs. 2) Inert gases are introduced into the bulb through the _____________. 3) A ________ is usually made of soft glass and comes in various shapes and finishes. 4) The copper conductor that carry the current to the filament is called ____________. 5) Light is produced in an incandescent lamp in a current that goes through the ___________of resistance material to heat the lamp. Note: Practice Personal Hygiene protocols at all times. 18 Activity 3 Directions: Complete the table below by writing the word YES if the characteristic is an advantage of using an incandescent lamp. If not, write the word NO. Characteristic of an Incandescent Lamp Remark 1. It has a good color. 2. High maintenance cost 3. More heat is produced than light. 4. Instant start and re-start 5. Sensitive and critical to voltage changes or fluctuations. 6. Simple and compact installation requiring no accessories. Activity 4 Directions: Give your reactions to the following situations: 1. Modern poultry farmers are using incandescent lamps for brooding chicks. 2. A lighting system using incandescent lamps will incur higher cost in electrical consumption. 1. _________________________________________________________________ _________________________________________________________________ _________________________________________________________________ 2. _________________________________________________________________ _________________________________________________________________ _________________________________________________________________ Activity 5 Modified True or False Directions: Write letter T if the statement gives a correct idea. If not, change the word/figure that made the statement incorrect. Write your answer on the space given. _________1. An incandescent lamp has a short life span. _________2. An incandescent lamp has a bad color. _________3. The glass protects the lamp and circuit by blowing if the filament arcs. _________4. Air is exhausted through the base during manufacture of the lamp. _________5. An incandescent lamp is simple and compact installation requiring no accessories. _________6. Life span of incandescent lamp increases by 25% when voltage supply is lowered to 10%. _________7. When an incandescent lamp is supplied with 10% over voltage, its life span reduces by 25%. _________8. On the average, less than 20% of the wattage is utilized to produce light and the rest produces heat. Note: Practice Personal Hygiene protocols at all times. 19 _________9. A 75 watt medium base incandescent lamp has an average rated life span of 750 Hours. _________10. The life span of an incandescent lamp is dependent of the number of starts. Reflection: Complete this statement: What I have learned in this activity ___________________________________________________________________ __________________________________________________________________________ __________________________________________________________________________ _____________________________________________________. References: Efren F. Azares et. Al, Practical Technology and Home Economics- Electricity III,1999 Max B. Fajardo Jr. et.al., Electrical Layout and Estimates, 2nd Edition; 2000 Mulin, R.C., Smith R.L. Electrical Wiring-Commercial, Six Ed., New York: Delmar’s Publishing Inc.; 1984, https://edisontechcenter.org/incandescent.html https://en.wikipedia.org/wiki/Incandescent_light_bulb https://www.energy.gov/energysaver/save-electricity-and-fuel/lighting-choices-save-youmoney/incandescent-lighting Answers’ Key Activity 1 1. Tungsten filament 4 4. Stem 2. Lead-in wire 3. Cap 5. Foot contact Note: Practice Personal Hygiene protocols at all times. 20 Activity 2 1. Fuse 2. Exhaust Tube 3. Bulb 4. Led-in Wire 5. Filament Activity 3 1. 2. 3. 4. 5. 6. Yes No No Yes No Yes Activity 4 (Answers May Vary) Activity 5 1. T 2. Good 3. Fuse 4. Exhaust Tube 5. T 6. T 7. 75% 8. 10% 9. T 10. Independent Prepared by: RODEL F. DINAMLING Master Teacher II Note: Practice Personal Hygiene protocols at all times. 21 TECHNOLOGY AND LIVELIHOOD EDUCATION ELECTRICAL INSTALLATION AND MAINTENANCE 9 (Quarter 2, Week 4-6) Name____________________ Grade level___________ Section___________________ Date ________________ LEARNING ACTIVITY SHEET DISCUSS PARTS OF FLUORESCENT LAMP AND ITS FUNCTION Background Information for Learners The fluorescent lamp is one of the most commonly used lamps. It was first introduced in 1937. It was considered the best, and most widely used type of lamp. Like the incandescent lamp, the fluorescent lamp is available in various sizes, wattages, colors, and application and designs. In this tubular discharge lamp, the ionization of mercury vapor produces radiation that activates the fluorescent coating on the inner surface of the glass. Typical Fluorescent Lamps The common fluorescent lamp is a hot-cathode type which consists of a sealed glass tube provided with a mixture of a mercury vapor and insert glass. The cathode causes the mercury arc to form inside the tube and to produce ultraviolet (UV) light. The UV light strikes the phosphor that coats the inner part of the tube. In the fluorescent and produces visible light. The fluorescent lamp requires a ballast in its circuit to limit the current so that the fuse of the circuit breaker will not open. It also needs a starter to serve as a switch. The starter is a small cylinder about 1 inch in diameter and 2 inches in length the snaps into the fixture from the outside. Parts and functions of fluorescent lamp 1. Fluorescent tube/bulb – is a circular bulb containing mercury vapor and inert gas with phosphor coating inside. Note: Practice Personal Hygiene protocols at all times. 22 1. Ballast –is an induction coil, which produces high voltage to start the lamp into operation. It also limits the flow of current during the operation of the lamp. Ballast consumes power, which is between 10-20% of power consumed by the lamp itself. 2. Starter –is a glow switch that opens and closes the circuit so as to produce a high voltage or inductive kick across the bulb at the filament during the starting period. 3. Lamp holder and starter socket – are the point of connection of the fluorescent and starter. 4. Frame –is the metal housing of the whole fixture. Note: Practice Personal Hygiene protocols at all times. 23 5. Phosphor. This is the coating inside the bulb which transform ultraviolet radiation into visible light. The color of light produce depends on the composition of phosphor. 6. Gas. This is usually argon or a mixture of inert gases at low pressure. Krypton is sometimes used. 7. Mercury. This is a small quantity of liquid mercury placed in the bulb to give mercury vapor. 8. Base. This comes in several different types used to connect the lamp to the electric current in order to support it in the lamp holder. 9. Cathode. Also known as hot cathode, this is coated with a material that emits electrons at each end of the lamp. It is usually made of coiled-coil or single-coil tungsten wire. 10. Exhaust tube. Air is exhausted through this tube during manufacture and inert gas is introduced into the bulb. 11. Lead-in wires. These are connected to the base pins and carry the current to and from the cathode and the mercury arc. 12. Stem press. This provides airtight seal to the lead-in wires. It is made of a wire that maintains the same coefficient of expansion as the glass. Features. Following are the characteristic of fluorescent lamps: 1. They are relatively large and need large fixtures to hold them. 2. They are more efficient than incandescent lamps. About 20 percent of its input energy becomes light and 80 percent is converted to heat including energy loss of the ballast. 3. The fluorescent lamps lasts longer than any kinds of lamps. However, its life span is reduced by the constant switching on and off of the lamp which wears out of the cathode. 4. Fluorescent lamps are cheap and are available in cool-white and warm-white colors for general use. 5. They are “noisy” due to the buzzing sound produced by the ballast. Presently, manufacturers classify ballast sounds from A to D, with A as the least sound produced. 6. The rapid-start lamp, a type of fluorescent lamp, requires a piece of grounded metal adjacent to the lamp. 7. Focusing and accurate control of the beam of light are not possible with fluorescent lamp, hence, is applied to general lightning. 8. Fluorescent lamps may be dimmed. This is however, requires the use of expensive and special dimming ballast. Note: Practice Personal Hygiene protocols at all times. 24 Life Span of Fluorescent Lamp Fluorescent lamp has longer life span compared with the incandescent lamp. Its life span is materially affected by the incandescent by the number of times the lamp is switched on and switched off. Generally, switching wears out the lamp cathode and continuous burning of fluorescent would last about 30,000 hours. With an average of 3 hours burning per start, fluorescent lamp could last for about 12,000 hours only. Operation of Fluorescent Lamp 1. Life Span – depends on the burning hours per start. 2. Lumen Output – decreases rapidly during the first 100 hours of burning and thereafter much more slowly. 3. Efficacy – depends on the operating current and the phosphors utilized. Generally, the warm white lamp is more efficient than the white, cool white, daylight and colored lamps. Types of Fluorescent Lamp 1. Linear Fluorescent Lamp The linear fluorescent light bulb or lamp is a type of gas-discharge lamp. Linear fluorescent bulbs come in a wide variety of lengths, diameters, wattages, and color temperatures. They are known for high energy efficiency, long life, and relatively low cost. a. Open Type b. Box type 2. Circular Fluorescent Lamp Circular fluorescent tubes are a popular choice for lighting designers, particularly in architectural and ceiling fittings. They are an energy saving, slim and compact light Note: Practice Personal Hygiene protocols at all times. 25 source that was designed for shallow and slender recessed, ceiling and wall-mounted light fixtures. 3. Compact Fluorescent Lamp A compact fluorescent lamp, also called compact fluorescent light, energy-saving light and compact fluorescent tube, is a fluorescent lamp designed to replace an incandescent light bulb; some types fit into light fixtures designed for incandescent bulbs. CFLs produce light differently than incandescent bulbs. ... In a CFL, an electric current is driven through a tube containing argon and a small amount of mercury vapor. This generates invisible ultraviolet light that excites a fluorescent coating (called phosphor) on the inside of the tube, which then emits visible light. (TLE_IAEL9EL-IIa-IVj-1) Discuss Parts of a fluorescent Lamp and Its Function . (Quarter 2, Week 4-6) Activity 1: IDENTIFY ME: Identify the part of fluorescent lamp in Column A. Write your answer in Column B. COLUMN A COLUMN B 1. Note: Practice Personal Hygiene protocols at all times. 26 2. 3. 4. 5. Activity 2 Directions: Choose the correct part of a fluorescent lamp from the box to complete the sentence below. Lamp holder Phosphor Ballast Lead-in wires Exhaust tube 1).The ________ limits the flow of current during the operation of the lamp. 2) Inert gases are introduced into the bulb through the _____________. 3) The color of light produce depends on the composition of _____________. 4) The ____________ carry the current to and from the cathode and the mercury arc. 5) The ______________ is the point of connection of the fluorescent bulb and starter. Activity 3 Directions: Differentiate the types of fluorescent lamp based on your understanding. Write your answer to complete the table below. Type of fluorescent lamp Description Application Note: Practice Personal Hygiene protocols at all times. 27 1. Linear 2. Circular 3. Compact Fluorescent Lamp Activity 4: ARRANGE ME Directions: Arrange the following steps in Disassembling a 40-Watt fluorescent Lamp. Use A for the first step. B for the second step and so on. ______1. Remove the starter holder ______2. Perform house keeping _______3. Remove the ballast on the body. ______4. Unplug the male plug from the outlet. ______5. Remove the 40-watt fluorescent lamp and the starter. ______6. Remove the lamp holders by untightening the bolt and nut. ______7. Disconnect the terminals from the ballast, starter holder and male plug. Activity 5: Assembling an Open (Linear) type Fluorescent Lamp Time Frame: 45 Minutes Directions: Perform the assembling of an open (Linear) type 20/40 Watts Fluorescent lamp by following the procedure below: 1. Prepare the necessary tools, materials. Material: • Fluorescent Lamp (20/40 watts) Tools: - 1 set • Philip Screw driver - 1 pc • Flat Screw driver - 1 pc • Side cutting pliers - 1 pc • Long nose pliers - 1 pc Personal Protective Equipment: Note: Practice Personal Hygiene protocols at all times. 28 • Gloves - 1 pair • Goggles - 1 pc 2. Wear appropriate PPE. 3. Assembling and wiring a 20/40-w fluorescent fixture using Normal or Medium Power Factor ballast (M.P.P) Use bolt and nut in fixing the ballast to the frame 4. Mount the starter socket to the frame, make sure it is attached securely. 5. Mount the connection terminal socket to the frame, Make sure that it is fixed not too loose or too tight. Note: Practice Personal Hygiene protocols at all times. 29 6. Make the necessary connections of the fluorescent fixture by referring to the schematic wiring diagram. Schematic Diagram, Preheat Fluorescent Lamp. 7. Test the circuit for ground short or open wiring. If fault is found, repair it. 8. Perform housekeeping Criteria for Assessment: Performance Rubrics: CRITERIA Exemplary Accomplished Developing Beginning 10 pts. 8 pts. 6 pts. 4 pts. Installation/Workmanship Followed the procedure excellently and the fluorescent lamp operates accordingly. Slightly followed the procedure and the fluorescent lamp operates accordingly but Followed the procedures but with notable error in precision. Did not follow the procedures resulted to errors in precision. Note: Practice Personal Hygiene protocols at all times. 30 Speed with slight precision . Finished the task . Finished the Finished the before the given task at the given task after the time. time. given time. Proper Handling of Tools Exemplary Applied proper Applied proper Did not finish the task even after the given time. Did not apply applied proper handling of handling of proper handling of tools tools for the tools for the handling of for the given task. given task. given task but tools for the with deviation. given task. Did not observed safety precaution resulting to cuts or wounds. Did not observe house keeping resulting to dirty work place. Safety Observed safety precaution excellently with No cuts or wounds. Observed safety precaution slightly with No cuts or wounds. Observed safety precaution slightly with cuts or wounds. House Keeping Observed house keeping resulting to a very clean work place. Observed house keeping resulting to a clean work place. Observed house keeping slightly with minimal dirt in the work place. Activity 6: Assembling 40- watt fluorescent fixture using 2 x 40 watt high power factor (H.P.F.) ballast Time Frame: 1 Hour Directions: Perform the assembling 2 x 40 Watts Fluorescent lamp by following the procedure below: Procedures: 1. Prepare the necessary tools, materials. Note: Practice Personal Hygiene protocols at all times. 31 Materials: • Fluorescent Lamp (40 watts) - 2 set • Fixture Frame - 1 pc • Philip Screw driver - 1 pc • Flat Screw driver - 1 pc • Side cutting pliers - 1 pc • Long nose pliers - 1 pc Tools: Personal Protective Equipment: • Gloves - 1 pair • Goggles - 1 pc 2. Wear appropriate PPE. 3. Mount the lamp holders and the 2 x 40 H.P.F. ballast to the fluorescent fixture frame. Mounting Lamp Holders and Ballast to the Fluorescent Frame 4. Cut the fixture wires and make the necessary joints or connection by referring to the schematic diagram. Note: Practice Personal Hygiene protocols at all times. 32 5. Place the cover of the fluorescent fixture housing if necessary. 6. Screw or place the starter and the fluorescent tubes. Attaching the Starter and the Fluorescent Tubes 7. Check the wiring connections and plug the fixture to the source to test the assembled fixture for normal operation 8. Perform housekeeping Criteria for Assessment: Note: Practice Personal Hygiene protocols at all times. 33 Performance Rubrics: CRITERIA Exemplary Accomplished Developing Beginning 10 pts. 8 pts. 6 pts. 4 pts. Installation/Workmanship Followed the procedure excellently and the fluorescent lamp operates accordingly. Followed the procedures but with notable error in precision. Did not follow the procedures resulted to errors in precision. Speed Slightly followed the procedure and the fluorescent lamp operates accordingly but with slight precision . Finished the task . Finished the before the given task at the given time. time. Finished the task after the given time. Exemplary Applied proper Applied proper Did not finish the task even after the given time. Did not apply applied proper handling of handling of proper handling of tools tools for the tools for the handling of for the given task. given task. given task but tools for the with deviation. given task. Did not observed safety precaution resulting to cuts or wounds. Did not observe house keeping resulting to dirty work place. Proper Handling of Tools Safety Observed safety precaution excellently with No cuts or wounds. Observed safety precaution slightly with No cuts or wounds. Observed safety precaution slightly with cuts or wounds. House Keeping Observed house keeping resulting to a very clean work place. Observed house keeping resulting to a clean work place. Observed house keeping slightly with minimal dirt in the work place. Activity 7: Disassembling a 20/40-watt Fluorescent Lamp Time Frame: 15 Minutes Note: Practice Personal Hygiene protocols at all times. 34 Directions: After assembling the 20/40-watt fluorescent Lamp fixture, you may easily disassemble it by following the procedure given below. Procedures: 1. Prepare the necessary tools, materials. Material: • Assembled Fluorescent Lamp (20/40 watts) - 1 set • Philip Screw driver - 1 pc • Flat Screw driver - 1 pc • Side cutting pliers - 1 pc • Long nose pliers - 1 pc 1 pair Tools: Personal Protective Equipment: 2. 3. 4. 5. 6. 7. 8. 9. • Gloves - • Goggles - 1 pc Wear appropriate PPE. Unplug the male plug from the outlet Remove the 40-watt fluorescent lamp and the starter. Remove the lamp holders by untightening the bolt and nut. Remove the ballast on the body. Remove the starter holder. Disconnect the terminals from the ballast, starter holder and male plug Perform house keeping Note: Practice Personal Hygiene protocols at all times. 35 Criteria for Assessment: Performance Rubrics: CRITERIA Exemplary Accomplished Developing Beginning 10 pts. 8 pts. 6 pts. 4 pts. Installation/Workmanship Followed the procedure excellently and the fluorescent lamp is disassembled accordingly. Slightly followed the procedure and the fluorescent lamp disassembled accordingly but with slight precision . Finished the task . Finished the before the given task at the given time. time. Followed the procedures but with notable error in disassembling. Did not follow the procedures resulted to defects in the parts. Speed Finished the task after the given time. Did not finish the task even after the given time. Did not apply proper handling of tools for the given task. Did not observed safety precaution resulting to cuts or wounds. Did not observe house keeping resulting to dirty work place. Proper Handling of Tools Exemplary applied proper handling of tools for the given task. Safety Observed safety precaution excellently with No cuts or wounds. House Keeping Observed house keeping resulting to a very clean work place. Applied proper handling of tools for the given task. Applied proper handling of tools for the given task but with deviation. Observed safety Observed safety precaution precaution slightly with No slightly with cuts or wounds. cuts or wounds. Observed house keeping resulting to a clean work place. Observed house keeping slightly with minimal dirt in the work place. Activity 7: Trouble Shooting a Defective 20/40-Watt Fluorescent Lamp Time Frame: 1 Hour Note: Practice Personal Hygiene protocols at all times. 36 Directions: Perform the trouble shooting of a defective 20/40 Watts Fluorescent lamp by following the procedure below: 1. Prepare the necessary tools, materials. Material: • Defective Fluorescent Lamp (20/40 watts) - 1 set • Philip Screw driver - 1 pc • Flat Screw driver - 1 pc • Side cutting pliers - 1 pc • Long nose pliers - 1 pc 1 pair Tools: Personal Protective Equipment: • Gloves - • Goggles - 1 pc 2. Wear appropriate PPE. 3. Study the common faults in fluorescent Lamp fixtures below before starting the trouble shooting and repair work. Common Faults in Fluorescent Lamp fixtures. Here are some remedies and suggested repair work in trouble shooting fluorescent lamps. Problem A. Lamp fails to light Possible Cause 1. Blown fuse or open circuit breaker. 2. Poor contact between the lamp and the holder. 3.Improper wiring Corrective Measures 1. Replace or reset, if necessary. Look for possible short circuits in the wiring of the equipment. 2. Adjust the lamp and see it properly. Clean dirty sockets thoroughly. If sockets are loose, tighten or replace them. Check the spacing of the lamp holders. If they are too far apart, make the necessary adjustments or replace the fixtures. 3. Check the wiring to see whether it follows the Note: Practice Personal Hygiene protocols at all times. 37 4. Leak in the lamp 5. Ballast no longer functioning B. Slow or erratic starting 1. Poor contact between the lamp and holder 2. Sluggish starter 3. Improper wiring C. Failure of a new lamp to 1. Defective ballast light within the first few days of operation 2. Improper wiring 3. Short circuit in the ballast D. Short life span 1. Poor contact between the lamp and the lamp holder. 2. Improper wiring 3. Defective ballast 4. Defective starter diagram shown on the ballast label. 4. This is indicated by the absence of fluorescent glow when the lamp is exposed to the spark coil. Replace the lamp. 5. When the insulation on the ballast windings falls, the ballast will no longer supply the lamp requirements. Replace the ballast. 1. See corrective measure #2 in problem #1. 2. Test starter in adjacent fixture. If this does not work, replace the starter. 3. See corrective measure #3 in problem #1. 1. Ballast must be AC or DC (depending on supply characteristics and must be of correct line voltage and frequency rating). Replace with the appropriate ballast. 2. See corrective measure #3 in problem #1. 3. Check the ballast. This may be determined by checking continuity, between the leads and the lamp. If any two leads at opposite end show continuity there is a short circuit. Replace the ballast. 1. See corrective measure #2 in problem #1. 2. See corrective #3 measure in problem #1. 3. See corrective measure #1 in problem #3. 4. Consult publications of starter manufacturers, then replace with correct starter. Note: Practice Personal Hygiene protocols at all times. 38 E. Blinking or flickering 1. Impurities inside the lamp 2. Poor contact between the lamp and the lamp holder. 3. Defective ballast 4. Defective starter 5. Improper wiring 1. At times, the arc in the lamp may swirl during normal operation. Trying to turn the lamp on and off usually solves this, but if this does not work, replace the lamp. 2. See corrective measure #2 in problem #1. 3. If the ballast frequency rating is not the same as the line frequency, flickering may occur. Replace with a ballast with proper rating. 4. Remove the starter while the lamps is on. If flashing stops, the starter is defective. Replace it. 5. See corrective measure #3 in problem #1. 4. Perform the actual trouble shooting and repair of a defective fluorescent lamp. 5. Perform House Keeping. Criteria for Assessment: Performance Rubrics: CRITERIA Exemplary Accomplished Developing Beginning 10 pts. 8 pts. 6 pts. 4 pts. Performed trouble shooting and slightly and the fluorescent lamp operates accordingly. . Finished the task at the given time. Performed trouble shooting and repair but the fluorescent lamp is malfunctioning. Installation/Workmanship Performed trouble shooting and repair excellently and the fluorescent lamp operates accordingly. Speed . Finished the task before the given time. Proper Handling of Tools Performed trouble shooting and repair but the fluorescent lamp is not functioning. Finished the Did not finish task after the the task even given time. after the given time. Exemplary Applied Applied Did not applied proper proper handling proper handling apply proper handling of tools of tools for the of tools for the handling of for the given task. given task. Note: Practice Personal Hygiene protocols at all times. 39 given task but tools for the with deviation. given task. Safety Observed safety precaution excellently with No cuts or wounds. Observed safety precaution slightly with No cuts or wounds. Observed safety precaution slightly with cuts or wounds. House Keeping Observed house keeping resulting to a very clean work place. Observed house keeping resulting to a clean work place. Observed house keeping slightly with minimal dirt in the work place. Did not observed safety precaution resulting to cuts or wounds. Did not observe house keeping resulting to dirty work place. Reflection: Complete this statement: What I have learned in this activity ___________________________________________________________________ __________________________________________________________________________ __________________________________________________________________________ _____________________________________________________. References: Max B. Fajardo Jr. et.al., Electrical Layout and Estimates, 2nd Edition; 2000 Mulin, R.C., Smith R.L. Electrical Wiring-Commercial, Six Ed., New York: Delmar’s Publishing Inc.; 1984, https://en.wikipedia.org/wiki/Light_fixture http://www.lightinghere.com/types-of-ceramic-electric-lamp-holders-e27-10001842 https://en.wikipedia.org/wiki/Fluorescent_lamp https://www.google.com/search?q=fluorescent+lamp&source=lnms&tbm Answers’ Key Note: Practice Personal Hygiene protocols at all times. 40 Activity 1 1. 2. 3. 4. 5. Starter Lamp Holder Frame Ballast Bulb Activity 2 1. 2. 3. 4. 5. Ballast Exhaust Tube Phosphor Leda-in Wires Lamp Holder Activity 3 (Answers may vary) Activity 4 1. 2. 3. 4. 5. 6. 7. E G D A B C F Prepared by: RODEL F. DINAMLING Master Teacher II Note: Practice Personal Hygiene protocols at all times. 41 TECHNOLOGY AND LIVELIHOOD EDUCATION ELECTRICAL INSTALLATION AND MAINTENANCE 9 (Quarter 2, Week 7-8) Name____________________ Grade level___________ Section___________________ Date ________________ LEARNING ACTIVITY SHEET DISCUSS PARTS AND FUNCTION OF LIGHT EMITTING DIODE AND OTHER LAMPS Background Information for Learners A light-emitting diode (LED) is a semiconductor device that emits visible light when an electric current passes through it. The light is not particularly bright, but in most LEDs it is monochromatic, occurring at a single wavelength. The output from an LED can range from red (at a wavelength of approximately 700 nanometers) to blue-violet (about 400 nanometers). Some LEDs emit infrared (IR) energy (830 nanometers or longer); such a device is known as an infrared-emitting diode (IRED). Parts and features of an LED Lamp Features of LED Lights 1) Environmentally Friendly LED lighting is non-toxic and contains no mercury, lead or cadmium, and is recyclable 2) Energy Efficient Note: Practice Personal Hygiene protocols at all times. 42 Immediate reduction of power consumption from much lower wattage requirements = lower utility bills. 3) Maintenance & Safety Reduced recycling costs required to dispose of hazardous bulbs and ballast. Better color rendering for security cameras compared to low-pressure sodium lighting. 4) Durable Quality LEDs are extremely durable and built with sturdy components that are highly rugged and can withstand even the roughest conditions. 5) Design Flexibility Individual LEDs can be dimmed, resulting in a dynamic control of light, color and distribution. 6) Save Money, Use LED Lighting Advantages of Light Emitting Diode Lamps LEDs offer several advantages over traditional light bulbs, building on the best parts of their predecessors while leaving their inefficiencies behind. Here’s what LEDs have to offer and what makes them so beneficial: 1. Long life The components of an LED and the way that they generate light significantly extend the lifespan of these bulbs. Where other bulbs’ lifespans are shortened through both proper and improper usage, the LED bulb’s low heat levels, durability, and energy efficiency make it possible for it to outlast other types of bulbs by thousands of hours. AVERAGE RATED LIFETIME HOURS Incandescent Fluorescent CFL Halogen LED Typical Range (Hours) 750-2,000 24,000-36,000 8,000-20,000 2,000-4,000 35,000-50,000 Typically, the important parts of a light bulb, such as the filament, weaken over time, which causes the bulb to burn out. But LEDs don’t burn out the same way that other bulbs do; instead, the amount of light they produce decreases gradually in what is called “lumen depreciation”. The lifetime of an LED bulb is based on how long it takes for the lumen output of the bulb to decrease to 30%, so it will likely last longer than the average rated lifetime hour listed on the box if you don’t mind or don’t notice the decreased illumination. Certain cheaper LED bulbs will only last about 5,000 hours, which is still 4,000 – 3,000 hours longer than the average rated lifespan of an incandescent, but many branded bulbs are rated for over 25,000 hours. Note: Practice Personal Hygiene protocols at all times. 43 2. Energy efficiency Because of their high lumen output per watt, LEDs are capable of turning about 70% of their energy into light. This makes them much more efficient than other bulbs, which waste a lot of energy by turning it into heat. It only takes a 6 watt LED bulb to produce the amount of light that a 40-watt incandescent does, and their lower temperature also makes them safer to operate. In comparison, incandescent bulbs can get so hot that they should be kept out of reach of children who might burn themselves, and they have also been known to cause fires if they accidentally come into contact with flammable materials, such as curtain fabric. LIGHTING FACT: In November 1992, Windsor Castle burned for nine hours after a painter left a 1,000-watt halogen bulb on near a set of heavy curtains, causing them to catch fire. More than 100 rooms were damaged and it cost £36.5 million to repair. Replacing a single 60 watt light bulb with an LED results in a reduction of approximately 160kg of CO2 emissions per year. If you replaced 10 lamps in your home with LEDs, that would represent a reduction of 1599 kg CO2 emissions annually. 3. High brightness and intensity LEDs are capable of emitting an extremely high level of brightness. That’s why wattage is no longer a viable measurement of brightness – instead, look at a bulb’s lumen output when you’re making the switch to LEDs or other energy-efficient lighting. Take a look at how LEDs compare to incandescent and CFL bulbs: 40 WATT BULBS Type Incandescent CFL Lumens 450 LED 2,400 4,000 CHECK OUT OUR LUMENS TO WATTS CONVERSION CHART 4. Exceptional colour range Incandescent bulbs require gels or filters to create different colours and shades of light. On the other hand, LEDs offer a wide range of colours and colour temperatures without the use of gels or filters, which can burn out or fade over time. With LEDs, it is the actual diode (or its phosphorus coating) that is changed to alter the colour of the emitted light, so you can trust that it will stay the same shade until the end of its lifespan. Note: Practice Personal Hygiene protocols at all times. 44 5. Low radiated heat While an incandescent bulb operates by heating its filament to a temperature that produces light, an LED bulb emits electromagnetic energy as light when electrified. By turning energy into light instead of heat (rather than using heat to generate light), LEDs are able to operate at a significantly lower temperature than other types of light bulbs. What little heat LEDs do generate is dissipated by a special heat sink, which is designed to absorb any heat and disperse it safely away from the diodes. While the actual fixture or base can feel warm to the touch, LEDs themselves don’t emit infrared radiation in their beam, meaning there is no warmth to it. This makes them optimal for use in heat-sensitive areas, such as displaying artwork because they won’t cause fading or other heat damage to paints or dyes. PRO TIP: LEDs run cool, but because of the way they dispel the heat they do generate, some designs should not be kept in enclosed spaces as this will cause the bulb to degrade and shorten its lifespan. Always make sure to check the packaging or product specifications for instructions on where a bulb should or should not be used. 6. Reliability LEDs are a very durable and reliable form of lighting – they can operate safely in colder temperatures, and can withstand more impact and vibration than other light bulbs because they have no filaments or other fragile parts. This stability makes them ideal for use in areas that will be subject to temperature fluctuations, inclement weather, and jostling, such as outdoors or in ceiling fan fixtures. 7. Instantaneous illumination Does this sound familiar? You turn on a light to look for something, but you have to wait a few moments before you can see anything, or you’ve already found it before the bulb has even reached its maximum light output. Unlike CFLs, which take a few moments to warm up, LEDs operate at full brightness from the moment you flip the switch. 8. Directional lighting By design, LEDs emit their light in one direction rather than all around. This helps reduce energy consumption because no light is wasted or trapped within reflectors and diffusers, which can keep over half the generated light from exiting the bulb. The directional nature of their output makes LEDs ideal for applications such as task lighting and recessed downlights. Note: Practice Personal Hygiene protocols at all times. 45 The vapor discharge lamp produces light by means of the flow of electricity of gases. They are generally classified as hot-filament, low-voltage types, high voltage, cold-cathode types, and mercury pull arc types. OTHER LAMPS The Mercury Lamp The mercury lamp combines the focusable types of the incandescent and arc discharge characteristics of the fluorescent. It is a high-pressure vapor-discharge lamp, compared to the low pressure fluorescent lamp. The mercury lamp produces light through an electric arc between two electrodes in an ionized mercury-vapor atmosphere. It gives off blue-green light that characterizes ultraviolet radiation. Parts and features of Mercury Lamp Features. The mercury lamp has the following characteristics: 1. Like the incandescent lamp, the mercury lamp is available in various colors, sizes, and shapes. Its life span is longer than that of the fluorescent lamp. It is also available in a wide variety of ratings – from 0 up to 500 watts. 2. It requires a ballast that can be mounted separately from the lamp. 3. It has a required warm-up period of about 5 minutes before discharging full output, depending on the type of lamp, the temperature and the ballast used. Note: Practice Personal Hygiene protocols at all times. 46 4. Wiring the mercury lamp needs care to keep voltage within 5 percent unless voltage compensating ballasts are used. 5. The mercury high ballasts has a high in-rush current. Circuiting should, therefore, be checked. Otherwise, in-rush current may limit the number of fixtures in the circuit. 6. Dimming of the mercury lamp is possible with the recent development of the dimming ballast. 7. Mercury lamp ballast are “noisy.” One may consider remote mounting. 8. The lamp is designated by an authorized agency on standard qualities, such as the American National Standard Institute (ANSI) or the standard for locally manufactured electrical products. 9. Due to its efficiency, the mercury lamp may be a good substitute for incandescent lamps to conserve energy. 10. Mercury lamps with a ballast built in the lamp with lower output are not available. They are, however, expensive. The Sodium Lamp The sodium lamp is a high-output lamp developed by General Electric. It belongs to the group of high-intensity discharge (HID) lamps. Its trade name is Lucalox, while various companies call it Ceramalux and Analox. The sodium lamp is a double efficacy of a color-corrected mercury lamp which is about 50 percent better than the standard fluorescent. Its color makes it suitable for indoor applications, and its small size, MGH output, and long life span make it economical to use. This lamp may not start instantly, but it starts faster than mercury lamp. a. The High-Pressure Sodium Lamp was first developed and introduced by General Electric Co. (GE). This is one of the latest developments in the high intensity discharge (HID) lamps. It is marked under the trade name Lucalux, Ceramalux and Analox Note: Practice Personal Hygiene protocols at all times. 47 One outstanding feature of this lamp is its output. The efficacy and ballast losses, its almost 100 lumen per watt, which is double that of a colored corrected mercury lamp. It has a yellowish color similar to a low wattage incandescent lamp, and a warm white fluorescent lamp. It is smaller in size, high output, and longer life. But like all high intensity discharge lamp, sodium lamps do not start instantaneously. The start and re-strike time required is shorter than that of a mercury lamp. Unlike the metal halide lamp, the HPS is not sensitive to voltage changes. Its color is constant, and the ballast is different from that of the mercury or metal halide lamps that needs higher voltage. Lamp efficacy Life span Lumen maintenance Warm up time Re-strike time 85 to 140 lpw 16,000 to 24,000 hours 80 to 90% 3 to 4 minutes ½ to 1 ½ minutes Lumalux Coated Lamps are used in open bottom fixtures or where glare is a problem. Special ballast is required. Unalux Coated Lamps are used in open bottom fixtures or glare is a problem. Operates on existing Mercury lag type auto transformer ballasts or 240-277-volt reactors. This type of lamp on most mercury series circuits. b. Low Pressure Sodium Lamp This type of lamp is also called SOX. It produces light of sodium characteristics monochromatic deep yellow color. This is not applicable for general lighting purposes because of its very high efficacy over 150 lumens per watt including ballast loss. It can be used wherever color is not an important criterion. SOX is widely used on streets, roads, area lighting and for emergency or after -hours indoor lighting. SOX has 100% lumen maintenance, long life which could last for 18,000 or more hours making it the most economical source in terms of cost per million lumens produced. The Tungsten-Halogen Lamp Note: Practice Personal Hygiene protocols at all times. 48 The Tungsten-Halogen Lamp is popularly called Quartz Lamp. It is a special type of incandescent lamp. One advantage it has over the normal incandescent lamp is its ability maintain a constant level of light output throughout its life. The life span of a quartz is about three to four times that of the normal incandescent lamp. According to the result of experiments made, 13% of its wattage, produces light and 87% produces het. Comparatively, it was proven after sufficient time of use that the quartz lamp has longer life and more efficient than the incandescent lamp. Parts of Halogen Lamp Halogen lamps are used in automotive headlamps, under-cabinet lighting, and work lights. In addition, halogen reflectors like MR and PAR lamps are often preferred for directed lighting such as spotlights and floodlights. They are also increasingly being used as a more efficient alternative to incandescent reflectors. (TLE_IAEL9EL-IIa-IVj-1) Discuss Parts of a fluorescent Lamp and Its Function . (Quarter 2, Week 7-8) Note: Practice Personal Hygiene protocols at all times. 49 Activity 1 Directions: Activity 2: NAME AND DESCRIBE ME Directions: Below are pictures of lamps with parts. Write your answer below each picture. 1.__________________ ________________________________________________ ________________________________________________ ________________________________________________ ________________________________________________ 2.__________________ ________________________________________________ ________________________________________________ ________________________________________________ ________________________________________________ 3.__________________ ________________________________________________ ________________________________________________ ________________________________________________ ________________________________________________ 4.__________________ ________________________________________________ ________________________________________________ ________________________________________________ ________________________________________________ Note: Practice Personal Hygiene protocols at all times. 50 Activity 2 Directions.Inside the box are parts of Lamps. Identify what particular lamp should each part belongs. Write your answer on the corresponding column provided below. Main electrode Vacuum Discharge Tube Anode wire Ceramic arc tube Auxiliary electrode LED Lamp Cathode Monolithic end seals Mercury Lamp Anode Tungsten filament Halogen filled capsule Capsule support Sodium Lamp Halogen Lamp 1. 1. 1. 1. 2. 2. 2. 2. 3. 3. 3. 3. Activity 3 Directions: Identify what lamp is being described in each item. Choose the letter of your answer from the box below and write on the space provided for. A. LED Lamp B. Mercury Lamp C. Sodium Lamp D. Halogen Lamp _______1. It produces light through an electric arc between two electrodes in an ionized mercury-vapor atmosphere. ________2. It is capable of turning about 70% of their energy into light. ________3. A semiconductor device that emits visible light when an electric current passes through it. ________4. These lamps are used in automotive headlamps, under-cabinet lighting, and work lights. ________5. It belongs to the group of high-intensity discharge (HID) lamps. ________6. It is a special type of incandescent lamp popularly called Quartz Lamp. ________7. It gives off blue-green light that characterizes ultraviolet radiation. ________8. This lamp may not start instantly, but it starts faster than mercury lamp. Activity 4: Give Me Light Directions: You are tasked to install lamps to the given projects below. Discuss what lamps are applicable to each project. Give your reasons of choosing such kind of lamp. Note: Practice Personal Hygiene protocols at all times. 51 Project 1: Residential House Project 2. Barangay Street Lights Project 3. Sports Arena/Gymnasium Lightings Reflection: Complete this statement: What I have learned in this activity ___________________________________________________________________ __________________________________________________________________________ __________________________________________________________________________ _____________________________________________________. References: Max B. Fajardo Jr. et.al., Electrical Layout and Estimates, 2nd Edition; 2000 Mulin, R.C., Smith R.L. Electrical Wiring-Commercial, Six Ed., New York: Delmar’s Publishing Inc.; 1984, https://whatis.techtarget.com/definition/light-emitting-diode-LED https://www.google.com/search?q=led+lamp http://www.lumintop.com/6-features-of-led-lights-that-make-everyone-love-it.html Note: Practice Personal Hygiene protocols at all times. 52 https://www.google.com/search?ei=cd4AX_ryEdnNQakzqKIBQ&q=sodium+vapor+lamp&oq https://www.google.com/search?q=halogen+lamp&tbm https://www.google.com/search?q=mercury+lamp&oq Answers’ Key Activity 1 1. 2. 3. 4. LED Lamp (Descripions may vary) Mercury Lamp Sodium Lamp Halogen Lamp Activity 2 LED Lamp Mercury Lamp Sodium Lamp Halogen Lamp 1.Anode 1.Main electrode 1.Vacuum 1.Tungsten filament 2.Cathode 2.Discharge tube 2.Ceramic Arc tube 2.Halogen filled capsule 3.Anode wire 3.Auxiliary electrode 3.Monolithic end seals 3.capsule support Activity 3 1. 2. 3. 4. 5. 6. 7. 8. B A A D C D B C Activity 4 (Answers may vary) Prepared by: RODEL F. DINAMLING Master Teacher II Note: Practice Personal Hygiene protocols at all times. 53
