The document discusses different power supply standards for PCs, including AT, ATX, and BTX. It provides details on the connectors, pinouts, and voltages associated with each standard. It also addresses questions about compatibility between different form factors and how to identify a defective power supply.
The document discusses power supplies and computer cases. It defines electricity and different types of current. It then explains that power supplies convert mains power to low-voltage DC power for computer components. Different form factors for power supplies are described, from early desktop styles to current ATX designs. Connectors for powering motherboards and peripherals are also covered. Finally, it discusses factors to consider for computer cases like size, cooling, and compatibility with components.
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 describes the steps to create a 15V DC power supply. It includes circuit designing, simulation, component purchasing, breadboard testing, and PCB design using Altium. Key steps are transforming AC to DC using a rectifier and filter, regulating the voltage to 15V using LM7815 and LM7915 regulators, and verifying the circuit works by lighting LEDs and measuring output on a CRO. The PCB is created by printing the design on a copper board, etching away extra copper, drilling holes, soldering components, and testing the finished board.
This will give the information related to power supply into the computer system and provide the basic information about common power supply in AT and ATX Standards and Efficiency of Power supply Unit.
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.
This document discusses power supplies and switched mode power supplies (SMPS). It begins with an overview of power supplies and their basic components like transformers, rectifiers, and regulators. It then covers the categories of power supplies, including linear regulated and SMPS. The document discusses the components and workings of SMPS in detail, including the inverter, output transformer, rectifier and filter. It covers the advantages of SMPS like higher efficiency and smaller size compared to traditional power supplies. In the end, it discusses different feedback techniques used in SMPS.
The document discusses different power supply standards for PCs, including AT, ATX, and BTX. It provides details on the connectors, pinouts, and voltages associated with each standard. It also addresses questions about compatibility between different form factors and how to identify a defective power supply.
The document discusses power supplies and computer cases. It defines electricity and different types of current. It then explains that power supplies convert mains power to low-voltage DC power for computer components. Different form factors for power supplies are described, from early desktop styles to current ATX designs. Connectors for powering motherboards and peripherals are also covered. Finally, it discusses factors to consider for computer cases like size, cooling, and compatibility with components.
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 describes the steps to create a 15V DC power supply. It includes circuit designing, simulation, component purchasing, breadboard testing, and PCB design using Altium. Key steps are transforming AC to DC using a rectifier and filter, regulating the voltage to 15V using LM7815 and LM7915 regulators, and verifying the circuit works by lighting LEDs and measuring output on a CRO. The PCB is created by printing the design on a copper board, etching away extra copper, drilling holes, soldering components, and testing the finished board.
This will give the information related to power supply into the computer system and provide the basic information about common power supply in AT and ATX Standards and Efficiency of Power supply Unit.
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.
This document discusses power supplies and switched mode power supplies (SMPS). It begins with an overview of power supplies and their basic components like transformers, rectifiers, and regulators. It then covers the categories of power supplies, including linear regulated and SMPS. The document discusses the components and workings of SMPS in detail, including the inverter, output transformer, rectifier and filter. It covers the advantages of SMPS like higher efficiency and smaller size compared to traditional power supplies. In the end, it discusses different feedback techniques used in SMPS.