The document provides information about Intersoft Institute, an Indian training institute that offers IT and computer repair courses. It lists Intersoft's contact information and history since 1998, including starting mobile and laptop repair training programs. It then describes Intersoft's various computer repair, mobile repair, and other IT courses at both the basic and advanced levels, including modules on laptop hardware, motherboard chip-level repair, and BGA chip replacement. The document aims to provide students with an overview of Intersoft's course offerings and topics covered.
The document discusses the main components of a computer motherboard. It describes the CPU socket, memory slots, CMOS battery, expansion slots like ISA, PCI, and AGP, power connectors, chipset including the northbridge and southbridge, graphical devices, and back panel ports. The motherboard holds many crucial electronic components like the CPU and memory and provides connections for other peripherals.
The document discusses the key components and functions of a motherboard. It describes how a motherboard provides electrical connections for the CPU, memory, drives, and peripherals to communicate. It explains that the microprocessor's supporting chipset determines the motherboard's features and capabilities. Form factor, common motherboard parts like expansion slots and memory sockets are described. Factors to consider when selecting a motherboard are also outlined.
Data Recovery Course
After years of doing data recovery for our inhouse service centre CHIPMENTOR, we have decided to start this data recovery course for all . Like our other courses , CHIPTRONIKS has designed an easy to learn data recovery course which will not only multiply the revenue of repairing engineers around the world but will also help them in meeting Customers requirement.
Our Data Recovery Course is hands-on practical course with focus on practical problems faced. Many companies tries to hide the way data is recovered, and like our other training , we believe we can make this country more advanced only if we share more ideas and knowledge. So we will unearth all the myths and the various tools used in data recovery business. Due to our innovatice training ,we have helped build strong laptop repairing community in India .
This document discusses motherboard types, features, and configuration. It describes common motherboard form factors like ATX, components like chipsets and sockets that determine processor compatibility, and buses that connect different components. It explains how to configure settings in BIOS or UEFI firmware, maintain a motherboard, and select an appropriate motherboard based on factors like the case and processor.
The document discusses the main components of a motherboard and their functions. It describes the CPU as the brain that executes instructions and performs calculations. RAM temporarily stores dynamic data to enhance performance. The BIOS controls hardware and interfaces with the operating system. Expansion buses allow adding features through adapter cards. The Northbridge controls transfers between the CPU and RAM, while the Southbridge handles communication with peripheral devices. It also discusses common computer cable types like VGA, HDMI, USB, IDE, SATA, FireWire, and Ethernet.
Hardware includes the physical parts of a computer like the case, monitor, keyboard, and mouse. The case protects components and manages airflow to keep them cool. The power supply provides power to components through various connectors. The motherboard is the main circuit board that contains the CPU socket and connections for components like memory, storage, and expansion cards. It manages communication between these components through the northbridge and southbridge chips.
The document provides information about Intersoft Institute, an Indian training institute that offers IT and computer repair courses. It lists Intersoft's contact information and history since 1998, including starting mobile and laptop repair training programs. It then describes Intersoft's various computer repair, mobile repair, and other IT courses at both the basic and advanced levels, including modules on laptop hardware, motherboard chip-level repair, and BGA chip replacement. The document aims to provide students with an overview of Intersoft's course offerings and topics covered.
The document discusses the main components of a computer motherboard. It describes the CPU socket, memory slots, CMOS battery, expansion slots like ISA, PCI, and AGP, power connectors, chipset including the northbridge and southbridge, graphical devices, and back panel ports. The motherboard holds many crucial electronic components like the CPU and memory and provides connections for other peripherals.
The document discusses the key components and functions of a motherboard. It describes how a motherboard provides electrical connections for the CPU, memory, drives, and peripherals to communicate. It explains that the microprocessor's supporting chipset determines the motherboard's features and capabilities. Form factor, common motherboard parts like expansion slots and memory sockets are described. Factors to consider when selecting a motherboard are also outlined.
Data Recovery Course
After years of doing data recovery for our inhouse service centre CHIPMENTOR, we have decided to start this data recovery course for all . Like our other courses , CHIPTRONIKS has designed an easy to learn data recovery course which will not only multiply the revenue of repairing engineers around the world but will also help them in meeting Customers requirement.
Our Data Recovery Course is hands-on practical course with focus on practical problems faced. Many companies tries to hide the way data is recovered, and like our other training , we believe we can make this country more advanced only if we share more ideas and knowledge. So we will unearth all the myths and the various tools used in data recovery business. Due to our innovatice training ,we have helped build strong laptop repairing community in India .
This document discusses motherboard types, features, and configuration. It describes common motherboard form factors like ATX, components like chipsets and sockets that determine processor compatibility, and buses that connect different components. It explains how to configure settings in BIOS or UEFI firmware, maintain a motherboard, and select an appropriate motherboard based on factors like the case and processor.
The document discusses the main components of a motherboard and their functions. It describes the CPU as the brain that executes instructions and performs calculations. RAM temporarily stores dynamic data to enhance performance. The BIOS controls hardware and interfaces with the operating system. Expansion buses allow adding features through adapter cards. The Northbridge controls transfers between the CPU and RAM, while the Southbridge handles communication with peripheral devices. It also discusses common computer cable types like VGA, HDMI, USB, IDE, SATA, FireWire, and Ethernet.
Hardware includes the physical parts of a computer like the case, monitor, keyboard, and mouse. The case protects components and manages airflow to keep them cool. The power supply provides power to components through various connectors. The motherboard is the main circuit board that contains the CPU socket and connections for components like memory, storage, and expansion cards. It manages communication between these components through the northbridge and southbridge chips.
The document discusses different types of motherboards including integrated, non-integrated, desktop, laptop, and server motherboards. It describes the main components of a motherboard including the CPU socket, memory slots, chipset, expansion slots, BIOS, and I/O ports. Key factors to consider when selecting a motherboard are the form factor, CPU support, BIOS type, case compatibility, and warranty.
The CPU diagram shows the main components of a computer including the processor, storage, input and output devices, cache, and main memory. The input device sends instructions to the processor to retrieve applications from main memory, which are then displayed on the output device monitor. The cache acts as a buffer to temporarily store applications and processes for faster access. Processors have multiple cores that operate at gigahertz speeds to process instructions. The fetch-execute cycle continuously loops to fetch instructions from storage into memory, decode them, and execute the decoded operations. The arithmetic logic unit performs calculations and logical comparisons on input data from the control unit and outputs results.
The document discusses the motherboard and its components. It describes how the motherboard is the main circuit board that contains the CPU and connects all internal components. It then discusses the different types of motherboards that have evolved over time from XT to ATX. Finally, it provides details on the key components found on motherboards such as the CPU socket, memory slots, BIOS, chipset and expansion slots.
“Computer is an electronic machine that can store, recall and process data. It can perform
tasks or complex calculation according to a set of instructions or programs. The terms and
definitions used in computer system
This presentation provides an overview of motherboard components and functions. It describes the main components including the CPU socket, memory slots, chipset, BIOS, expansion slots, and input/output ports. It explains that the motherboard connects the central processing unit and other internal components to enable communication within the computer. Form factors like ATX and microATX determine the motherboard size and compatibility. Selecting a motherboard involves considering the CPU, case, expansion needs and warranty.
Motherboard components and their functionsBESOR ACADEMY
The document describes and explains the key components found on a computer motherboard and their functions. It discusses 17 main components including: back panel connectors and ports; PCI and PCIe slots; the northbridge and southbridge chips; the CPU socket; power connectors; SATA connectors; RAM slots; and fan headers. Each component's purpose and location on the motherboard is outlined.
The BIOS (Basic Input/Output System) is low-level software that controls hardware and provides an interface between the operating system and hardware. It consists of device drivers stored in read-only memory on the motherboard and some expansion cards. The BIOS performs essential startup tasks like power-on self-tests and loading the operating system bootloader from disk. It provides an abstraction layer so operating systems and applications do not need device-specific knowledge.
A motherboard is the main circuit board in a computer that connects the central processing unit and RAM to other components like expansion cards and ports. It contains chipsets to interface with peripherals and components like the CPU socket, memory slots, expansion slots for graphics and other cards, and front panel connectors. Key factors in motherboards include the form factor like ATX or Mini-ITX and components like the northbridge and southbridge chips that connect different parts of the system.
The motherboard is the main circuit board inside a PC that contains and controls the components responsible for processing data. It holds the processor, memory chips, I/O chips, and expansion slots. The motherboard determines the type of CPU, memory, ports, and compatibility standards. It connects all parts of the PC either directly or indirectly and allows them to communicate via buses on the board.
The document discusses the motherboard BIOS and CMOS. It describes how the BIOS is used to control and troubleshoot hardware before an operating system loads. It contains information on BIOS chips, updating the BIOS, using the BIOS setup utility to modify settings stored in CMOS, and troubleshooting hardware issues using BIOS beep codes.
The motherboard is the main circuit board in a computer that holds crucial components like the CPU and memory. It provides connections and interfaces between these components and peripherals like graphics cards, network cards, and storage drives. Key components of the motherboard include the chipset, which controls data transfer and component interfaces, as well as expansion slots, memory slots, input/output ports, and connectors for components. The motherboard establishes the architecture of the system and allows for upgrading and expansion of capabilities.
The motherboard is the central circuit board in a computer that connects the various components like the CPU, memory, storage, and peripherals. It provides the electrical pathways allowing these components to communicate with each other. Over time, more functions have been integrated onto motherboards, from basic components in early computers to modern boards that support complex graphics, audio, and networking. The motherboard contains the BIOS, chipset that directs data flow, and expansion slots to connect additional components. Common motherboard failures include catastrophic failures during early use, intermittent component failures, and difficult to diagnose issues causing crashes or reboots.
The document discusses the key hardware components of a computer system. It defines hardware as the physical parts of a computer that can be touched. It then lists and describes common hardware components like the monitor, keyboard, CPU, printer, and others. It provides details on internal components like the motherboard, CPU, RAM, hard drive, optical drives, ports, and expansion slots. It explains the functions of these components and how they work together within the computer system.
This document discusses various computer hardware components and how they affect system performance, including memory configuration and channel types, hard disk RPM and density, CPU clock speeds and brands, motherboard and power supply quality, and graphics cards. It provides examples of high-end 2009 components like the Intel Core i7 975 Extreme CPU costing $999 and NVIDIA GTX 295 graphics card offering over 50 times more processing power for similar prices. In summary, the document examines how different hardware specifications influence a computer's overall speed and processing capabilities.
This document discusses computer hardware components. It defines hardware as the physical parts of a computer system and categorizes it into five basic types: input devices, processors, memory, output devices, and secondary storage devices. It provides examples of common input devices like keyboards and mice, describes the processor as the brain that executes instructions, and lists memory, printers, monitors, and speakers as examples of output devices. The system unit contains the motherboard, hard disk drive, and other internal computer components. Memory is divided into cache, primary, and secondary types and RAM and ROM are described as the main memory technologies.
The document provides an overview of computer processors. It discusses the role of processors in fetching, decoding, executing, and writing back instructions. It describes the main parts of a CPU including the arithmetic logic unit, control unit, memory unit, cache memory, and registers. It discusses challenges for processors like performance, motherboard support, software support, energy consumption, and cooling. It also covers integrated circuits, 64-bit CPUs, popular processor brands like AMD, Intel, and Apple, and factors to consider when choosing a processor like cores, cache size, socket compatibility, and frequency. It predicts that future processors will be more efficient, compact, cheaper, reliable, and have better cooling and higher frequencies than today's processors.
The document discusses the BIOS (Basic Input/Output System), which is a collection of programs embedded in chips that act as an interface between the operating system and hardware. It performs POST (Power-On Self-Test) to check components, enables setup of motherboard settings, and loads the operating system. The BIOS can be upgraded by replacing the physical chip or performing a flash update. It stores settings in CMOS (Complementary Metal-Oxide Semiconductor) memory powered by a battery. The BIOS Setup Utility allows modifying and storing settings.
The document discusses various components of a computer including the motherboard, expansion slots, and different types of expansion cards. It provides details on the function of the motherboard and its basic components. It also explains what expansion slots are and different types of slots like PCI, AGP, and ISA. Finally, it describes various expansion cards that can fit into these slots like sound cards, network cards, SCSI cards, and others as well as ports and interfaces like USB, Firewire, serial and parallel ports.
The document discusses the major components of a computer motherboard. It begins by explaining that the motherboard acts as the central connection point for major computer components. It then describes some of the key components attached to the motherboard like the CPU, RAM, BIOS, chipsets, expansion slots, and others. It provides details on the function of each component and how they work together to power the computer.
This document discusses the components and functions of a motherboard. It begins by defining a motherboard as the main circuit board that forms the foundation for major computer components. The document then lists parts of an ATX motherboard including the power supply connector, CPU, AGP slot, VGA port, and audio section. It also presents true/false statements about the CMOS backup battery, PCI and AGP architectures, the CPU's role, the northbridge chipset, and uses of the parallel port. Reference materials on computer hardware servicing are also listed.
This document provides instructions for repairing hard disk circuit boards using a soldering station and hot air gun. It discusses common faults like burned diodes or fuses and their solutions. It explains how to check if a diode is functioning using a multimeter and how to replace components like the spindle motor IC. The document demonstrates how to repair circuits from hard disk models like Seagate 7200.11/12 when only the fuse or diode is burned by bypassing them with a wire. It also shows how to replace ROM ICs between similar but different numbered circuits and repair a WD L-shaped circuit by re-soldering burned points and replacing the spindle motor IC.
This document introduces a laptop and desktop computer sales and repair center. It discusses common screen display problems like horizontal white lines or multi-colored vertical lines that can be caused by fiber dust accumulation blocking cooling air flow after a year of use. The center offers to fully disassemble, clean, and replace thermal paste to remove dust and restore devices to like-new condition, and can perform board-level repairs on any brand. Customers are urged to get devices serviced after a year of use or when warranties expire to prevent costly overheating failures.
The document discusses different types of motherboards including integrated, non-integrated, desktop, laptop, and server motherboards. It describes the main components of a motherboard including the CPU socket, memory slots, chipset, expansion slots, BIOS, and I/O ports. Key factors to consider when selecting a motherboard are the form factor, CPU support, BIOS type, case compatibility, and warranty.
The CPU diagram shows the main components of a computer including the processor, storage, input and output devices, cache, and main memory. The input device sends instructions to the processor to retrieve applications from main memory, which are then displayed on the output device monitor. The cache acts as a buffer to temporarily store applications and processes for faster access. Processors have multiple cores that operate at gigahertz speeds to process instructions. The fetch-execute cycle continuously loops to fetch instructions from storage into memory, decode them, and execute the decoded operations. The arithmetic logic unit performs calculations and logical comparisons on input data from the control unit and outputs results.
The document discusses the motherboard and its components. It describes how the motherboard is the main circuit board that contains the CPU and connects all internal components. It then discusses the different types of motherboards that have evolved over time from XT to ATX. Finally, it provides details on the key components found on motherboards such as the CPU socket, memory slots, BIOS, chipset and expansion slots.
“Computer is an electronic machine that can store, recall and process data. It can perform
tasks or complex calculation according to a set of instructions or programs. The terms and
definitions used in computer system
This presentation provides an overview of motherboard components and functions. It describes the main components including the CPU socket, memory slots, chipset, BIOS, expansion slots, and input/output ports. It explains that the motherboard connects the central processing unit and other internal components to enable communication within the computer. Form factors like ATX and microATX determine the motherboard size and compatibility. Selecting a motherboard involves considering the CPU, case, expansion needs and warranty.
Motherboard components and their functionsBESOR ACADEMY
The document describes and explains the key components found on a computer motherboard and their functions. It discusses 17 main components including: back panel connectors and ports; PCI and PCIe slots; the northbridge and southbridge chips; the CPU socket; power connectors; SATA connectors; RAM slots; and fan headers. Each component's purpose and location on the motherboard is outlined.
The BIOS (Basic Input/Output System) is low-level software that controls hardware and provides an interface between the operating system and hardware. It consists of device drivers stored in read-only memory on the motherboard and some expansion cards. The BIOS performs essential startup tasks like power-on self-tests and loading the operating system bootloader from disk. It provides an abstraction layer so operating systems and applications do not need device-specific knowledge.
A motherboard is the main circuit board in a computer that connects the central processing unit and RAM to other components like expansion cards and ports. It contains chipsets to interface with peripherals and components like the CPU socket, memory slots, expansion slots for graphics and other cards, and front panel connectors. Key factors in motherboards include the form factor like ATX or Mini-ITX and components like the northbridge and southbridge chips that connect different parts of the system.
The motherboard is the main circuit board inside a PC that contains and controls the components responsible for processing data. It holds the processor, memory chips, I/O chips, and expansion slots. The motherboard determines the type of CPU, memory, ports, and compatibility standards. It connects all parts of the PC either directly or indirectly and allows them to communicate via buses on the board.
The document discusses the motherboard BIOS and CMOS. It describes how the BIOS is used to control and troubleshoot hardware before an operating system loads. It contains information on BIOS chips, updating the BIOS, using the BIOS setup utility to modify settings stored in CMOS, and troubleshooting hardware issues using BIOS beep codes.
The motherboard is the main circuit board in a computer that holds crucial components like the CPU and memory. It provides connections and interfaces between these components and peripherals like graphics cards, network cards, and storage drives. Key components of the motherboard include the chipset, which controls data transfer and component interfaces, as well as expansion slots, memory slots, input/output ports, and connectors for components. The motherboard establishes the architecture of the system and allows for upgrading and expansion of capabilities.
The motherboard is the central circuit board in a computer that connects the various components like the CPU, memory, storage, and peripherals. It provides the electrical pathways allowing these components to communicate with each other. Over time, more functions have been integrated onto motherboards, from basic components in early computers to modern boards that support complex graphics, audio, and networking. The motherboard contains the BIOS, chipset that directs data flow, and expansion slots to connect additional components. Common motherboard failures include catastrophic failures during early use, intermittent component failures, and difficult to diagnose issues causing crashes or reboots.
The document discusses the key hardware components of a computer system. It defines hardware as the physical parts of a computer that can be touched. It then lists and describes common hardware components like the monitor, keyboard, CPU, printer, and others. It provides details on internal components like the motherboard, CPU, RAM, hard drive, optical drives, ports, and expansion slots. It explains the functions of these components and how they work together within the computer system.
This document discusses various computer hardware components and how they affect system performance, including memory configuration and channel types, hard disk RPM and density, CPU clock speeds and brands, motherboard and power supply quality, and graphics cards. It provides examples of high-end 2009 components like the Intel Core i7 975 Extreme CPU costing $999 and NVIDIA GTX 295 graphics card offering over 50 times more processing power for similar prices. In summary, the document examines how different hardware specifications influence a computer's overall speed and processing capabilities.
This document discusses computer hardware components. It defines hardware as the physical parts of a computer system and categorizes it into five basic types: input devices, processors, memory, output devices, and secondary storage devices. It provides examples of common input devices like keyboards and mice, describes the processor as the brain that executes instructions, and lists memory, printers, monitors, and speakers as examples of output devices. The system unit contains the motherboard, hard disk drive, and other internal computer components. Memory is divided into cache, primary, and secondary types and RAM and ROM are described as the main memory technologies.
The document provides an overview of computer processors. It discusses the role of processors in fetching, decoding, executing, and writing back instructions. It describes the main parts of a CPU including the arithmetic logic unit, control unit, memory unit, cache memory, and registers. It discusses challenges for processors like performance, motherboard support, software support, energy consumption, and cooling. It also covers integrated circuits, 64-bit CPUs, popular processor brands like AMD, Intel, and Apple, and factors to consider when choosing a processor like cores, cache size, socket compatibility, and frequency. It predicts that future processors will be more efficient, compact, cheaper, reliable, and have better cooling and higher frequencies than today's processors.
The document discusses the BIOS (Basic Input/Output System), which is a collection of programs embedded in chips that act as an interface between the operating system and hardware. It performs POST (Power-On Self-Test) to check components, enables setup of motherboard settings, and loads the operating system. The BIOS can be upgraded by replacing the physical chip or performing a flash update. It stores settings in CMOS (Complementary Metal-Oxide Semiconductor) memory powered by a battery. The BIOS Setup Utility allows modifying and storing settings.
The document discusses various components of a computer including the motherboard, expansion slots, and different types of expansion cards. It provides details on the function of the motherboard and its basic components. It also explains what expansion slots are and different types of slots like PCI, AGP, and ISA. Finally, it describes various expansion cards that can fit into these slots like sound cards, network cards, SCSI cards, and others as well as ports and interfaces like USB, Firewire, serial and parallel ports.
The document discusses the major components of a computer motherboard. It begins by explaining that the motherboard acts as the central connection point for major computer components. It then describes some of the key components attached to the motherboard like the CPU, RAM, BIOS, chipsets, expansion slots, and others. It provides details on the function of each component and how they work together to power the computer.
This document discusses the components and functions of a motherboard. It begins by defining a motherboard as the main circuit board that forms the foundation for major computer components. The document then lists parts of an ATX motherboard including the power supply connector, CPU, AGP slot, VGA port, and audio section. It also presents true/false statements about the CMOS backup battery, PCI and AGP architectures, the CPU's role, the northbridge chipset, and uses of the parallel port. Reference materials on computer hardware servicing are also listed.
This document provides instructions for repairing hard disk circuit boards using a soldering station and hot air gun. It discusses common faults like burned diodes or fuses and their solutions. It explains how to check if a diode is functioning using a multimeter and how to replace components like the spindle motor IC. The document demonstrates how to repair circuits from hard disk models like Seagate 7200.11/12 when only the fuse or diode is burned by bypassing them with a wire. It also shows how to replace ROM ICs between similar but different numbered circuits and repair a WD L-shaped circuit by re-soldering burned points and replacing the spindle motor IC.
This document introduces a laptop and desktop computer sales and repair center. It discusses common screen display problems like horizontal white lines or multi-colored vertical lines that can be caused by fiber dust accumulation blocking cooling air flow after a year of use. The center offers to fully disassemble, clean, and replace thermal paste to remove dust and restore devices to like-new condition, and can perform board-level repairs on any brand. Customers are urged to get devices serviced after a year of use or when warranties expire to prevent costly overheating failures.
The document discusses switched mode power supplies (SMPS). It defines SMPS and explains their advantages over linear power supplies, including higher efficiency and smaller size. The document outlines the typical stages in an SMPS, including rectification, inversion and regulation. It examines factors to consider when selecting an SMPS topology for an application and describes the operating principles of common isolated topologies like flyback, push-pull, half bridge and full bridge converters. Finally, it provides examples of SMPS applications and discusses SMPS usage in Indian consumer markets.
The document discusses the advantages and disadvantages of renting versus buying a home. It provides statistics on the housing market in different areas from 2008 to 2007. It gives 5 reasons why one should buy now, such as great prices and rental payments rivaling mortgage payments. An example is given of a home that was purchased for $116,000 that had $19,700 in instant equity. Steps for homeownership are outlined.
This document provides an overview and details of ASUS notebook motherboard power circuits and components. It includes diagrams of the power systems used in Sonoma, Napa, Santa Rosa and Montevina platforms. Sample diagrams are shown for the M9V and V6J motherboards. Key integrated circuits used in the power systems like the LTC3728, TPS5130, MAX1987, TPS51020 and ISL6227 switching regulators are described in detail including specifications, pinouts and functions. Troubleshooting tips are provided in a Q&A section.
Tiga laptop yang diringkas meliputi Acer D270, Dell 1510, dan Compaq cq20. Kasus utama ketiganya adalah tidak tampilnya layar walaupun dinyalakan. Langkah-langkah perbaikan meliputi pengukuran tegangan adaptor, fuse, dioda, bios, dan komponen daya seperti mosfet dan regulator tegangan untuk mendeteksi komponen rusak. Solusi yang diberikan berupa penggantian komponen seperti fet, bios, atau penambahan kap
The document provides an overview of a complete illustrated guide to PC hardware in 205 pages. It is divided into several modules covering topics such as data, the PC system board, CPUs, drives, expansion cards, operating systems, graphics, and more. The guide is designed for self-study or remote instruction and explains how PCs process digital data using binary numbers, bits, and bytes to represent analog information electronically.
Power Electronics and Switch Mode Power SupplyLiving Online
Power electronic circuits have revolutionised almost every device that we use today from PC's to TV's, microwave ovens and heavy industrial drives.
Switch Mode Power Supplies (SMPS) have thus become an important part of equipment design in all types of industrial equipment and an understanding of the different types and designs has become essential for reliable operation of complex equipment.
This workshop gives you a fundamental understanding of the basic components that form a SMPS design. You will understand how the selection of components affects the different performance parameters and operation of the SMPS. Typical practical applications of the SMPSs in industry will be discussed.
The concluding section of the workshop gives you the fundamental tools in troubleshooting SMPS designs confidently and effectively.
Even though the focus of the workshop is on the direct application of this technology, you will also gain a thorough understanding of the problems that can be introduced by SMPSs such as harmonics, electrostatic discharge and EMC/EMI problems.
WHO SHOULD ATTEND?
Anyone associated with the use of power electronics and switch mode power supply design techniques in the industrial or automation environment. The workshop will also benefit those working in system design as well as site commissioning, maintenance and troubleshooting.
Typical personnel who would benefit are:
Application engineers
Component suppliers
Electrical and electronic maintenance
Instrument for control engineers
Product designers
Product managers
Sales engineers
Service technicians
Supervisors
Technicians
MORE INFORMATION: http://www.idc-online.com/content/power-electronics-and-switch-mode-power-supply-38
The document discusses engaging students with technology and rethinking education. It addresses how technology can support literacy, community, and assessment. Some key ideas include using technology to personalize learning, connect students in multiple ways, and make assessment a conversation rather than just scores on a spreadsheet. The role of joy in education is also discussed.
This document provides information about CHIPTRONIKS, a computer training institute located in Delhi, India. It outlines the syllabus covered in various computer courses, including assembling, chip level repairing, networking, operating systems, software, hardware and more. The syllabus sections cover topics ranging from basic computer parts and assembly to motherboard repair, laptop components, networking and additional skills like personality development classes. Students will receive hands-on training, tools, lifetime technical support and access to fully equipped labs and classrooms.
CHIPTRONIKS the best laptop repairing institute in Delhi with professional service center. We provide short term laptop, mobile tablet pc repairing course in Delhi at affordable price. Contact us for laptop repairing course.mobile repairing course'/> <meta>laptop repairing institute in Delhi,laptop repairing course in Delhi,laptop repairing institute,laptop repairing course,chip level laptop repairing institute in Delhi,chip level laptop repairing course in Delhi,mobile repairing institute in Delhi,mobile repairing course in Delhi,laptop repairing institute in India,tablet pc repairing institute in Delhi,aptop repairing institute in India,laptop institute India
Chiptroniks is Best Laptop repairing Institute in Delhi that offer Laptop Repairing Course that includes all needed requirement of market in their Course Syllabus, We offer best laptop repairing course curriculum with job placement assistance
This document provides information about courses offered at an ISO 9001:2008 certified training institute for laptop and mobile device repair. It lists short term and long term course options that provide hands-on training in laptop repair, including motherboard-level repair, chip-level repair, and component-level repair of parts like LCD screens, batteries, adapters, and more. Courses range from 1 to 5 months and include lifetime technical support, job assistance, and access to repair tools and parts. The document provides details on course syllabi, covering topics like basic electronics, laptop hardware, operating systems, networking, troubleshooting, and repair of motherboards, RAM, displays, and other system components.
CHIPTRONIKS the best laptop repairing institute in Delhi with professional service center. We provide short term laptop, mobile tablet pc repairing course in Delhi at affordable price. Contact us for laptop repairing course.mobile repairing course'/> <meta>laptop repairing institute in Delhi,laptop repairing course in Delhi,laptop repairing institute,laptop repairing course,chip level laptop repairing institute in Delhi,chip level laptop repairing course in Delhi,mobile repairing institute in Delhi,mobile repairing course in Delhi,laptop repairing institute in India,tablet pc repairing institute in Delhi,aptop repairing institute in India,laptop institute India
This document describes the courses offered by an ISO 9001:2008 certified training institute for laptop and tablet PC repair. It offers short term and long term professional certificate courses in laptop repairing that cover topics like basic electronics, chip level repairing, laptop/desktop motherboard repairing, and more. Course durations range from 1 to 5 months with fees ranging from Rs. 30,000 to 40,000. The institute also provides lifetime technical support, job assistance, and access to spare parts. The 1 month course syllabus covers basic electronics, laptop motherboard repairing, and tablet repairing through practical classes and online training materials.
This document describes the services offered by an ISO 9001:2008 certified training institute that provides courses in laptop repairing. It lists various short-term and long-term course options ranging from 1 to 5 months in duration. Courses cover topics like basic electronics, chip-level repairing, motherboard repairing, laptop repairing and more. The institute provides lifetime technical support as well as support for job/business after the courses. Details about individual 1-month courses are also provided, covering topics such as basic electronics, laptop motherboards and tablet repairing over 200 training hours.
Chiptroniks is Best Laptop repairing Institute in Delhi that offer Laptop Repairing Course that includes all needed requirement of market in their Course Syllabus, We offer best laptop repairing course curriculum with job placement assistance
This document provides an overview of various tools and techniques used in electronics repair, including:
- Multi-meters, oscilloscopes, logic probes, and function generators for testing circuits.
- Microscopes and borescopes for inspection.
- Desoldering and soldering equipment for component-level repairs.
- In-circuit testers and logic analyzers for debugging logic problems.
- Advanced techniques like pinpoint technology and auto-point DT for reverse engineering and fault isolation without schematics.
- Considerations for cleaning and maintenance of circuit boards.
Chiptroniks is Best Laptop repairing Institute in Delhi that offer Laptop Repairing Course that includes all needed requirement of market in their Course Syllabus, We offer best laptop repairing course curriculum with job placement assistance
The document provides an overview of computer architecture and microprocessors. It discusses microprocessor components like the accumulator, registers, flags, and control bus. It describes microprocessor operations like memory reads, writes and I/O. It also covers the 8085 microprocessor architecture in detail, including its pin configuration, buses, registers, interrupts and timing.
The document provides an introduction to the R8C/2A and R8C/2B group of microcontroller units (MCUs) from Renesas. It outlines the key features of the MCUs including their 16-bit CPU core, memory sizes ranging from 48KB to 128KB of ROM and 2.5KB to 7.5KB of RAM, and integrated peripherals such as timers, serial interfaces, A/D converters, and watchdogs. Debugging can be done using a single-wire interface through the MODE pin without using other pins. Contact information is provided for purchasing samples or getting technical support.
The document provides information on the L6238 sensorless spindle motor controller integrated circuit. Key features include:
- Sensorless commutation and speed control of a 3-phase brushless DC spindle motor.
- Integrated start-up and synchronization algorithms for spin-up and multi-drive arrays.
- Digital PLL for high accuracy speed control and locking to a reference frequency.
- Protection features and programmable functions for efficiency and noise reduction.
- Master/slave synchronization capability and bidirectional serial communication interface.
Micro Controller 8051 of Speedo Meter using KEIL CodeSunil Kumar R
The document discusses interfacing a stepper motor to a microcontroller. It explains that a unipolar stepper motor has two phases that need to be energized sequentially to rotate the motor. The common wires of the stepper motor are connected to Vcc, while the end points of each phase receive control signals from the microcontroller outputs. The code sample shows initializing ports and peripherals, then entering a loop to read the sensor input and control a relay output to demonstrate using the sensor and relay with the microcontroller. It increments a counter variable each time the sensor is triggered and displays the count on the LCD.
Microcontroller from basic_to_advancedImran Sheikh
The document discusses various topics related to embedded systems and microcontrollers including:
- Architectures like Von Neumann, Harvard and modified Harvard
- Types of microcontrollers like 8-bit, 16-bit and 32-bit
- Programming languages and IDEs used for embedded programming
- Common development boards and microcontrollers
- Memory types, buses, I/O and basic operation of microcontrollers
- Interfacing sensors and actuators to microcontrollers
The document describes the design and development of SMS software for mobiles. It discusses the hardware components used - an LPC2129 microprocessor, LCD, Wavecom modem, keypad, JTAG debugger and battery. It provides block diagrams of the input/output units and components. It also gives an overview of embedded C programming, the ARM7TDMI-S processor, LCD and keypad interfacing, serial communication and GSM technology.
Armadillos - or how to bypass code readout protection on microcontrollersAndrew Tierney
Slides to accompany the hour long talk on bypassing code readout protection on some common microcontrollers.
https://www.youtube.com/watch?v=DTuzuaiQL_Q
The document describes a new smart control and supervisory unit (CSU) system for telecom power systems. The new CSU features include a 128x64 LCD display, RS-485 communication, web server and SNMP capabilities for remote monitoring and control. It can monitor inputs such as AC voltage, DC voltage, currents, temperatures and detect alarms. The CSU can control and monitor up to 4 rectifier shelves with configurable parameters. It also supports battery charge control, temperature compensation, and discharge testing for battery maintenance.
This document provides an overview of industrial automation through programmable logic controllers (PLCs). It discusses what a PLC is and how it works, including the main units of a PLC system like the central processing unit, memory, input/output modules, and programming. The document also covers advantages of PLCs over relay logic, common PLC applications, installation/maintenance, troubleshooting, and selecting a PLC. It aims to introduce the basic concepts of PLCs and how they are used for industrial automation.
How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
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Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
A review of the growth of the Israel Genealogy Research Association Database Collection for the last 12 months. Our collection is now passed the 3 million mark and still growing. See which archives have contributed the most. See the different types of records we have, and which years have had records added. You can also see what we have for the future.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
Reimagining Your Library Space: How to Increase the Vibes in Your Library No ...Diana Rendina
Librarians are leading the way in creating future-ready citizens – now we need to update our spaces to match. In this session, attendees will get inspiration for transforming their library spaces. You’ll learn how to survey students and patrons, create a focus group, and use design thinking to brainstorm ideas for your space. We’ll discuss budget friendly ways to change your space as well as how to find funding. No matter where you’re at, you’ll find ideas for reimagining your space in this session.
2. FUNDAMENTAL OF COMPUTER Electronics idea AC / DC volt ampere Computer Concepts, Generation, anatomy types of Computer Operating Systems Booting Process Ms-Dos Internet & External Commands Windows Uses & Control Panel
3. COMPUTER HARDWARE & PARTS Identify Of Diff. Parts of Computer SMPS, Hard Disk, Cabinet, Monitor, Ram, CPU, Motherboard, CD/DVD Rom, Keyboard, Mouse Printers, DeskJet, LaserJet, Dot Matrix Add on Card, Different cables Assemble & D Assemble Of Computer
4. INSTALLING OS & DRIVERS BIOS Setting, Master Slave Setting Formatting Hard Disk Creating Partition on Hard Disk Installing Windows 98, XP, Vista Installing Drivers Control Panel Setting, Commands
5. VIRUS REMOVAL USING ANTIVIRUS What is Virus Different Type of Virus? Installing Anti Virus Software
6. INTERNET USE & SETTING Basic of Internet Modem, LAN, WIFI, etc Types of Connection Browsing, Creating Email, Downloading, Outlook
7. TROUBLE SHOOTING OF COMPUTER Windows Troubleshooting Data Recovery Concept MSCONFIG, Recovery, File Missing Error Utility Software Installing Different Software
8. NETWORKING BASIC: N+ COURSE Concept of Network Types of Network & Topology Type of Cable and Connector Cabling Structure Cross Over & Straight through Cabling Crimping Method IP Address & Subnetting Sharing Files and Printer with Networking Using Internet with Networking
9. MODULE 2 ( Laptop Basic Hardware) Difference Between Computer and Laptop Assemble and De-Assemble of Laptop Adapters - Types Volt, Amp, Size Pin Battery - Types Volt to check, Different Ampere LCD - Types LCD, Size, Pin, Wideness, Inverter Inverter - Use, Work, Types, TFT Tube Body - inges, Front Panel, Back Panel Motherboard - Basic Types, Block Diagram Keyboard - Cable, Pin, Size, Touch pad Hard Disk - Sata, Pata, Panels RAM - Types of RAM, SDRAM, DDR RAM CPU - Types of Laptop CPU PCI Socket, Speaker, WIFI, etc. BIOS Settings Changing and Replacing Above Components Assemble & De-Assemble of Different Models
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12. SMPS (Switch Mode Power Supply) Introduction of basic component, Working Principal of SMPS. block diagram Different Voltage Pin out Of Different Cable and Use Trace Out Rectifier, Filter, Oscillator, SM Transformer Tracing & Fault Finding of SMPS, basic Problem and Solution
13. MONITOR Introduction of Monitor, Types of Monitor Working of Deflection of coil, Degauss coil, Rotation of coil and signal cable connector Description. Circuit Diagram of monitor sections : (Power supply stage, system & system Driver stage, Horizontal Deflection stage, Vertical Driver & Output Stage, EHT Stage, Horizontal deflection stage, Vertical driver & Output stage, Video Pre-Amplifier Stage, Video Driver & Output Stage). Tracing & Fault finding of Monitor
14. UPS ( Un- Interrupted Power Supply) Introduction of UPS. Working of Relay, Transformer. Circuit Diagram of UPS Sections;(AVR Stage, Voltage Regulator Stage, Charging stage, Oscillator & Switching stage, AC low & AC high Senser Stage, Buzzer Stage & Deep Discharging (Battery Protection Stage). Tracing & Fault Finding of UPS.
15. MOTHERBOARD : Introduction of Motherboard. Block diagram of Motherboard, all sections working & Description Description of slot parts & Identification Block diagram & Working of VRM Section (Voltage Regulator Module)
16. Working of circuit diagram VRM Section & all internal sections (Output current sense stage, Input Volt sense stage, Five bit Programmable stage), Testing & Fault finding of VRM Section. Clock Generator section ( Working of Clock generator section & Testing). Description of BIOS Section (Working & Fault finding of BIOS) I/O Controller section (Working of I/O & Description of all internal section :-FDC Interface stage, Keyboard interface stage, LPC interface stage, Multimode parallel stage, Input Output Port) Complete working.
17. Stand by section & RTC Section working and testing. Soldering & D-Soldering of chip components By SMD, Iron & Hotgun. C.R.O (Cathode Ray Oscilloscope), Operating of C.R.O & Troubleshooting by C.R.O. Fault finding of Motherboard all sections through testing flow chart and use of debugger card .(Fault Diagnose through this card coding) CMOS set up utility & Controlling option of set up & on Board BIOS Programming. Introduction of BGA, Operating of BGA Machine Rebolling of IC’s through BGA Machine
18. CD-ROM, DVD-ROM, CD-WRITER, DVD-WRITER Working Principle Different Motors and Functions Lance Diagnostic & Setting Fault Finding, Logic Board Basic Problems and Solution
19. HARD DISK Working principle Of Hard Disk Head and Media Detail Bad Sector Removing Basic Problems and Solution
20. RAM Working Principle of Ram, Types of RAM RAM Architecture, Basic Repairing Concepts
21. MODULE 3 ( Laptop Chip Level Repairing) LAPTOP Introduction of Laptop, Comparison of various Laptop, Difference between Desktop & Laptop, Category of laptop. Block diagram of Laptop & its description of all sections. Battery Stage :- Battery section Description Testing & Fault finding of (Ni-Cd, Ni-Mh Li-ion Battery
22. Volt in stage : Working of volt in section, Testing & Fault Finding. Micro Controller Stage : Working & Identification of microcontroller (H8/3437). Testing & Fault Finding. VRM Stage : Working of VRM Section (Voltage Regulator Module) Testing & Fault Finding (Control Circuit, Oscillator Section, Sensor & VID Selector Stage. PCI Controller : Working of PC Card Controller Stage, PC Card Socket & PCMCIA Slot. IEEE 1394 Firewire Stage : Working of IEEE 1394 Section, Testing & Fault Finding. Audio Section : Working of Audio Section, Testing & Fault Finding
23. DSP Stage : Working of DSP Section ( Digital Signal Processor), Testing & fault finding. TFT Panel : Working of CCFL section, Working of LVDS Section, Working of TFT Film Array, Working of Bounding Pad IC, Testing & Fault Finding Identification of Laptop Sections : Identification of Laptop Sections, Parts, Slot & Interface connector. Adaptor Section : Circuit Diagram of adaptor section, Testing & Fault Finding Stepdown Stage: Working & Circuit Diagram of stepdown Section, Testing & Fault Finding Rebolling of IC’s Through BGA Machine.