211 SRI RAMAKRISHNA MISSION VIDYALYA POLYTECHNIC COLLEGE.

 Simple 8051 LED blinking program   LED ON → OFF → ON → OFF   Continuous blinking Delay depends on clock frequency   Address Mnemonic Opcode (Hex) 9000 SETB P1.0 D2 90 9002 MOV R7,#0FFH 7F FF 9004 MOV R6,#0FFH 7E FF 9006 DJNZ R6,9006 DE FE 9008 DJNZ R7,9004 DF FA 900A CLR P1.0 C2 90 900C MOV R7,#0FFH 7F FF 900E MOV R6,#0FFH 7E FF 9010 DJNZ R6,9010 DE FE 9012 DJNZ R7,900E DF FA 9014 SJMP 9000 80 EA     

Introduction The power transmission system plays a critical role in modern power networks by enabling the efficient transfer of electrical energy from generating stations to load centers. It ensures reliable, continuous, and economical delivery of electricity over long distances while maintaining system stability and power quality. For engineering students and professionals, understanding power transmission is fundamental to mastering electrical power systems. Overview of Power Transmission System                                         Need for High-Voltage Transmission Electrical power is transmitted at high voltage levels such as 132 kV, 220 kV, 400 kV, and 765 kV to reduce transmission losses and conductor size. By increasing voltage, current decreases for the same power transfer, resulting in lower heat losses and improved voltage regulation. Key advantages include: Reduced...

  Excitation Boost System (EBS) Components Excitation Boost Control (EBC) Module Excitation Boost Generator (EBG) mounted on the alternator’s driven end. Functionality Provides additional excitation current when required. Designed for emergency or backup power applications. Improves performance with non-linear loads like motor startups.

  Power electronics is  the field of electrical engineering that deals with the conversion and control of electric power using solid-state semiconductor devices .  It involves the study and application of electronic circuits for controlling the flow of electricity to efficiently convert, regulate, and condition it for various uses, such as in AC/DC converters, DC/DC converters, and AC/AC converters.  This technology is crucial for applications ranging from home appliances to electric vehicle charging and industrial motor drives.    Key aspects of power electronics Power conversion:   The primary function is to convert electrical power from one form to another.  This includes:   DC/DC converters:   Changing a DC voltage to another DC voltage.   AC/DC converters:   Rectifiers that change AC to DC.   DC/AC converters:   Inverters that produce AC from DC.   AC/AC converters:   Changing the magnitude, frequency, ...

 As the world shifts toward renewable energy, Solar Thermal Power Plants (Concentrated Solar Power – CSP) are gaining new importance. With advances in energy storage, materials, and AI-based control systems, CSP is evolving into a flexible, dispatchable, and powerful clean-energy technology . What is a Solar Thermal Power Plant? Solar-thermal plants use mirrors to concentrate sunlight and generate high-temperature heat , which produces steam to drive turbines—similar to a thermal plant but without fossil fuels . Main CSP Technologies: Parabolic Trough Collectors Solar Tower / Heliostat Systems Linear Fresnel Reflectors Parabolic Dish–Stirling Engines A major advantage is the ability to store heat , ensuring power even after sunset . Key Recent Trends in Solar Thermal Power (2024–2025) 1. Thermal Energy Storage (TES) Modern CSP plants use: Molten salt Phase-change materials Ceramic thermal storage This enables 8–20 hours of energy storage , making ...

  What is Power Electronics? Power electronics deals with controlling and converting electrical power using semiconductor devices like MOSFETs, IGBTs, and SCRs. Applications include SMPS, solar inverters, EV motor drives, and high-efficiency energy systems. EEE students should master converters, inverters, choppers, and PWM techniques to enter the fast-growing electronics industry.  Power electronics uses semiconductor devices to process and control large amounts of electrical energy. It converts electrical power from one form to another efficiently, such as: AC → DC (Rectifiers) DC → AC (Inverters) DC → DC (Converters) AC → AC (Cycloconverters / AC Regulators) Key Power Semiconductor Devices Modern power electronic systems are built using power semiconductor switches such as: Diode – Allows current flow in one direction SCR (Thyristor) – Used in high-power AC control MOSFET – Fast switching, used in low to medium power applications IGBT – Combines hig...