ELECTRONIC SPECIAL CLASS SPS Electronics 8.pptx

SPECIAL PROGRAM IN SCIENCE Elective: Creative technology ELECTRONICS

LESSON 1: INTRODUCTION TO ELECTRONIC TOOLS AND COMPONENTS FIRST QUARTER 1. Hardware Tools 1.1. Electrostatic Discharge Tools 1.2. Hand Tools 1.3. Cleaning Tools 1.4. 1.4. Diagnostic Tools 2. Electronic Materials and Component 3. Basic Electronic Components in Relation to Robotics Technology 3.1. Insulators 3.2. Resistors 3.3. Transistors 3.4. Diodes 3.5. Capacitors 3.6. Switches Wires, cables, etc.

LESSON 2. OCCUPATIONAL HEALTH AND SAFETY PROCEDURES FIRST QUARTER OHS policies and standards. 1.1. Republic Act No. 11058 Occupational Safety and Health Standard of the Philippines OHS policies and standards. 1.2. Prepare the workplace in accordance with the OH&S policies, procedure, and risk control measures.

LESSON 3. PERFORMING MENSURATION AND EVALUATION OF COMPONENTS (PMEC) FIRST QUARTER 1.1. Electronic Measuring instrument a. Voltmeter b. Ohmmeter c. Ammeter d. Multimeter 1. Instrumentation 1.2. Electronic measurement a. Voltage b. Resistance c. Current

LESSON 4. POWER SUPPLY FOR ROBOTICS AND INTELLIGENT MACHINES FIRST QUARTER 1. Power Supply Basics 1.1. Transformers 1.2. Types of rectifier circuit 1.3. Capacitor 1.4. Voltage regulator 1.5. breadboard

Lesson 1: EVALUATING LOGIC GATES SECOND QUARTER Digital Logic 1.1. Logic gates a. Boolean expression b. Truth tables 1.2. Universal gates 1.3. Logic circuit 1.3. Logic circuit 1.4. Simulation software 1.5. Schematic diagram a. Proteus b. Eagle c. Multisim

LESSON 2: PCB (Printed Circuit Board) DESIGN SECOND QUARTER 1.1. PCB Concepts 1.2. PCB Problems and Solutions 1.3. PCB Manufacturing Information 1.4. PCB characteristics 1.5. Design compliance with EMI / EMC 1.6. PCB layout and artwork 1.6.1 Common PCB layout for machines 1.7. Characteristics of property design 1.8. PCB layout 1. Electronics Theory on PCB Designing

LESSON 1: PCB FABRICATION THIRD QUARTER 1. PCB Fabrication 1.1 Steps in PCB Fabrication a. Transferring layout onto copper-clad board b. Etching c. Drilling d. Cleaning 1.2 Transferring layout onto copper clad board a. Acceptable methods 1.Silk Screen 2.Photo Transfer b. Alternative methods 3.Pen and tape method 1.3 Etching a. Chemical b. Electrochemical c. Laser d. Plasma 1.4Drill through-holes 1.5Proper techniques and tool 1.6 Proper Disposal of chemicals 1.7Standard procedures 1.8PCB functionality test

LESSON 2: SOLDERING BASICS AND APPLICATION THIRD QUARTER Introduction to Soldering Safety Precautions Soldering Tools and Equipment Soldering Iron Operation Solder Types and Selection Tinning and Cleaning 7. Component Preparation 8. Soldering Techniques 9. Desoldering 10. Quality Control 11. Soldering Safety Codes and Standards

LESSON 3: PCB ASSEMBLY THIRD QUARTER 1.PCB Population 1.1 common electrical components 1.2 electronics symbols and schematics diagram 1.3 soldering components on a fabricated PCB bare board. 1.4 inspection of defects a. Soldering anomalies b. Components misalignment c. Issues with etched traces

LESSON 1: INTRODUCTION TO AUTOMATION TECHNOLOGY FOURTH QUARTER 1. Basic Automation Technology concepts . History . definition . Function . Purpose 2. Robots and Machines 2.1 Types of robots . Pre-programmed . Remote sensing . Augmenting . Humanoid . Etc. 2.2 Classification of robots based on institutions such as: . JIRA . INTEL-ISEF . RIA . etc.

The Foundation: Basic Hand Tools Screwdrivers Essential for opening enclosures and securing components. A set including various Phillips, flat-head, and Torx bits is crucial for electronics work, where small, delicate screws are common.

The Foundation: Basic Hand Tools Screwdrivers Essential for opening enclosures and securing components. A set including various Phillips, flat-head, and Torx bits is crucial for electronics work, where small, delicate screws are common. Pliers & Cutters Needle-nose pliers are ideal for bending and manipulating wires in tight spaces. Diagonal cutters are indispensable for precise wire trimming and component lead clipping, preventing shorts and ensuring neatness. Wire Strippers These specialized tools remove insulation without damaging the conductor, ensuring clean and reliable electrical connections. Different gauges require specific stripper sizes for optimal results. Before diving into complex circuits, a solid collection of basic hand tools is paramount. These tools are the foundation of any electronics project, enabling precise manipulation and connection of components. Mastering their use ensures both efficiency and safety in your work.

The Art of Connection: Soldering Equipment Soldering Iron The core tool for creating permanent electrical connections. Choose a temperature-controlled iron for versatility and to prevent component damage. Different tips are available for various tasks. Solder & Flux Solder, typically a tin-lead or lead-free alloy, creates the conductive bond. Flux cleans the metal surfaces, allowing solder to flow smoothly and create strong, reliable joints, crucial for signal integrity. Solder Sucker/Braid These tools are used for desoldering, removing excess solder or correcting mistakes. A solder sucker uses a vacuum, while desoldering braid absorbs molten solder, preventing shorts and bridging. Soldering is a fundamental skill in electronics, allowing for the creation of robust and lasting connections. Proper soldering techniques are essential for circuit reliability and performance. Using the right tools ensures clean joints and minimizes the risk of component damage.

Seeing the Unseen: Test & Measurement Devices Multimeter An indispensable tool for measuring voltage, current, and resistance. It's crucial for debugging circuits, verifying component values, and ensuring proper power delivery. Oscilloscope This device visualizes electrical signals over time, displaying waveforms. It's vital for analyzing signal integrity, troubleshooting timing issues, and understanding circuit behavior in dynamic conditions. Bench Power Supply Provides a regulated and adjustable power source for testing circuits. It allows engineers to simulate various voltage conditions and protect sensitive components from overcurrent. Test and measurement devices are the eyes and ears of an electronics engineer, providing critical insights into circuit operation. These tools enable precise diagnostics, allowing for efficient troubleshooting and performance optimization.

Circuit Construction: Prototyping & Assembly Breadboards Reusable platforms for quickly prototyping circuits without soldering. Components are easily inserted and removed, making them ideal for experimentation and design verification. Helping Hands These adjustable clamps with magnifiers are invaluable for holding circuit boards or small components during soldering or assembly, freeing your hands for precise work. Component Kits Assortments of common resistors, capacitors, LEDs, and integrated circuits. Having a variety readily available streamlines the prototyping process and encourages creative design. Prototyping tools facilitate rapid experimentation and iteration in circuit design. They enable engineers to quickly test ideas, identify flaws, and refine designs before committing to permanent solutions, significantly accelerating the development cycle.

Precision and Safety: Specialized Tools Magnifiers/Microscopes Essential for inspecting fine solder joints, tiny components, and PCB traces, especially in surface-mount technology (SMT) work, where components are incredibly small. ESD Protection Gear Antistatic wrist straps, mats, and smocks prevent electrostatic discharge, which can irrevocably damage sensitive electronic components. Crucial for handling integrated circuits. Heat Gun/Rework Station Used for shrinking heat-shrink tubing, reflowing solder, and desoldering SMT components. A rework station provides precise temperature and airflow control for delicate tasks. Beyond the basics, specialized tools offer enhanced precision and critical safety measures. These tools are particularly important when working with sensitive components or intricate designs, ensuring both the integrity of the electronics and the well-being of the technician.

Staying Organized: Storage and Workspace Component Organizers Small bins, drawers, or compartmentalized boxes keep resistors, capacitors, and other small parts neatly sorted and easily accessible, preventing lost components and saving time. Toolbox/Bench Storage A dedicated toolbox or well-designed bench storage system ensures all tools have a designated place, making them easy to find and keeping the workspace tidy. Dedicated Workbench A clean, well-lit, and sturdy workbench provides a stable platform for soldering, assembly, and testing. Adequate space is essential for spreading out components and tools safely. An organized workspace is not just aesthetically pleasing; it significantly boosts efficiency and reduces frustration. Knowing where every tool and component is located streamlines the workflow, minimizes errors, and enhances the overall enjoyment of electronics work.

Key Takeaways & Next Steps Invest in Quality Tools Good tools are an investment that pays off in reliability, precision, and longevity. Prioritize quality, especially for frequently used items like multimeters and soldering irons. Master the Basics Proficiency with fundamental hand tools and soldering techniques forms the bedrock of all electronics work. Consistent practice will build confidence and skill. Prioritize Safety Always use ESD protection, proper ventilation for soldering, and safety goggles when appropriate. A safe environment protects both you and your delicate components. Organize Your Space A clean and organized workbench prevents lost parts, reduces errors, and makes every project more enjoyable and efficient. Develop a system and stick to it. Equipped with the right tools and knowledge, you are now better prepared to tackle a wide range of electronics projects. Remember that continuous learning and practice are key to mastering the art of electronics. Explore advanced techniques, experiment with new components, and always prioritize safety in your endeavors.

ELECTRONIC SPECIAL CLASS SPS Electronics 8.pptx

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