Foliensatz für den Einführungsvortrag des EMV Boot Camps 2019 mit dem Fokus "Das Wichtigste zur Elektromagnetischen Verträglichkeit in 2 Tagen" des IEEE German EMC Chapters am 06./07. November bei der Dassault Systèmes Deutschland GmbH in Darmstadt
Nuclear batteries generate electricity through the decay of radioactive isotopes without using nuclear fission. They have long lifespans ranging from decades and are used to power remote and unmanned equipment such as spacecraft, pacemakers, and scientific stations. Nuclear batteries convert radioactive energy into electricity through either thermal or non-thermal methods. Thermal methods include thermionic converters and radioisotope thermoelectric generators, while non-thermal methods include betavoltaic and alphavoltaic cells. While nuclear batteries provide reliable, compact power, their development and use faces challenges associated with the high costs and regulations surrounding radioactive materials.
Fusion Energy: When might it become economically feasible?Jeffrey Funk
These slides discuss the technological trends that might make fusion energy economically feasible in the future. Steady improvements in superconductors are improving the economic feasibility of magnetic confinement, which can be measured by the "triple product." this triple product includes temperature, plasma density, and controlled reaction time. these superconductors are currently being improved for other applications such as MRI and energy transmission. Improvements in inertial laser confinement are also occurring through improvements in lasers, which are also being used in other applications. What does this mean for policy?
Foliensatz für den Einführungsvortrag des EMV Boot Camps 2019 mit dem Fokus "Das Wichtigste zur Elektromagnetischen Verträglichkeit in 2 Tagen" des IEEE German EMC Chapters am 06./07. November bei der Dassault Systèmes Deutschland GmbH in Darmstadt
Nuclear batteries generate electricity through the decay of radioactive isotopes without using nuclear fission. They have long lifespans ranging from decades and are used to power remote and unmanned equipment such as spacecraft, pacemakers, and scientific stations. Nuclear batteries convert radioactive energy into electricity through either thermal or non-thermal methods. Thermal methods include thermionic converters and radioisotope thermoelectric generators, while non-thermal methods include betavoltaic and alphavoltaic cells. While nuclear batteries provide reliable, compact power, their development and use faces challenges associated with the high costs and regulations surrounding radioactive materials.
Fusion Energy: When might it become economically feasible?Jeffrey Funk
These slides discuss the technological trends that might make fusion energy economically feasible in the future. Steady improvements in superconductors are improving the economic feasibility of magnetic confinement, which can be measured by the "triple product." this triple product includes temperature, plasma density, and controlled reaction time. these superconductors are currently being improved for other applications such as MRI and energy transmission. Improvements in inertial laser confinement are also occurring through improvements in lasers, which are also being used in other applications. What does this mean for policy?
Este documento describe diferentes tipos de fuentes conmutadas o pulsadas que se utilizan comúnmente en equipos electrónicos modernos. Explica que este tipo de fuentes ofrecen un mejor rendimiento que otras alternativas y pueden funcionar con un amplio rango de tensiones de entrada sin variar significativamente las tensiones de salida. Luego, resume las secciones sobre las topologías más empleadas por los fabricantes, los parámetros de diseño de una fuente típica como el transformador de pulsos, y consejos para el servicio técnico a fuentes conmutadas
The document discusses nuclear batteries, which convert radioactive decay into electricity. It begins with an introduction explaining the need for small, light-weight power sources. The history of nuclear batteries is then summarized, noting early research from 1913-1960 focused on long-life power sources for space. The document outlines two main energy conversion techniques - thermal and non-thermal. Specific conversion methods like radioisotope thermoelectric generators, betavoltaics, and thermionics are described. Applications discussed include use in space missions, medical devices, and potential future uses in automobiles and military equipment. In conclusion, nuclear batteries show promise but require further research regarding feasibility, disposal, and radiation safety standards.
This document summarizes different types of batteries, including their characteristics and applications. It discusses vented lead acid batteries, sealed maintenance free batteries, and nickel cadmium batteries. It provides details on their typical lifespans, nominal voltages, charging requirements, and suitable applications. The document concludes with advice to think big, think fast, think first, but not to claim exclusivity over thoughts.
This document describes a footstep power generation system that converts the kinetic energy from human footsteps into usable electricity. The system uses an array of piezoelectric sensors that generate voltage when pressure is applied. The voltage is stored in a lead-acid battery and can be used to power small DC loads. A microcontroller and LCD display are used to indicate the voltage level being stored in the battery. The system was designed and implemented to harvest wasted energy from human locomotion and demonstrate piezoelectric energy harvesting.
Este documento trata sobre controladores lógicos programables (PLC). Explica brevemente qué es un PLC, su desarrollo histórico y sus aplicaciones industriales. Luego describe los fundamentos del control lógico, incluyendo sistemas numéricos como el binario, y conceptos como compuertas lógicas. Finalmente, detalla la estructura de un PLC, lenguajes de programación, y ejemplos de programación y aplicaciones.
Este documento describe la fuente de alimentación de un reproductor DVD Philips DVD703. Explica el funcionamiento del circuito integrado UC3842A que controla la fuente conmutada de baja potencia. Describe las secciones de entrada, arranque, secundario y protecciones de la fuente, incluyendo el limitador de sobrecorriente y la protección de baja y alta tensión. También incluye enlaces a los manuales y esquemáticos del DVD703 para obtener más detalles.
A seminar report on Nuclear Micro BatteryUtkarsh Kumar
This document is a seminar report submitted by Utkarsh Kumar to fulfill the requirements for a Bachelor of Technology degree. The report discusses nuclear micro-batteries, which could potentially power microelectromechanical systems by harnessing energy from radioactive decay. It describes several proposed designs for nuclear micro-batteries, including a junction-type battery that uses charged particles to induce a voltage, and a self-reciprocating cantilever design that uses particle collection to power oscillating motion. The report also addresses isotope selection, safety considerations, advantages, disadvantages and applications of nuclear micro-batteries.
1. The document describes a proposed footstep power generation system that would convert the mechanical energy of human footsteps into electrical energy.
2. The system would use a responsive sub-floor with blocks that depress under footsteps, generating power through a dynamo that converts motion to electricity.
3. While not enough for home use, the system has potential in crowded areas like transportation hubs where thousands of daily footsteps could generate meaningful amounts of electricity through a "crowd farm" approach.
Nuclear batteries generate electricity through radioactive decay without nuclear fission. They can operate for 10-100 years. Common radioactive isotopes used include tritium, nickel-63, promethium-147, and plutonium-238. There are two main types - thermal converters that use heat from decay and non-thermal converters that use charged particles. Applications include power sources for spacecraft, pacemakers, and remote scientific stations due to their extremely long life and high energy density. Advantages are long lifespan, reliable power, and use of nuclear waste as fuel, while disadvantages include high production costs and regulatory hurdles.
How Created Sub-Atomic Quantum Electron Energy Currently Performs Negative Work in Electricity Generation and Electric Mobility
and
How this Created Sub-Atomic Quantum Electron Energy can now
be Harnessed to Perform Positive Work in Electric Power Generation
and in Electric Mobility
This article explains how Sub-Atomic Quantum Electron Energy is created, why it performs Negative Work and how this created energy can now be used to perform Positive Work in electricity generation and electric mobility - when it is Delayed Sufficiently in the Time Domain.
And how this new knowledge will eventually help eliminate 100% of the C02, air pollution and human mortality created during fossil-fuel electricity generation and transportation in 2022 and beyond...
“The history of science shows that all theories are perishable. With every new truth that is revealed we get a better understanding of Nature and our conceptions and our views are modified.”
~ Nikola Tesla
1) The document describes a self-generator flywheel system that aims to generate electricity using a flywheel rotated by a motor.
2) The system works by using a motor to spin a flywheel at high speeds, storing rotational kinetic energy. An alternator is then used to convert the mechanical energy of the spinning flywheel into electrical energy.
3) The goal is to produce enough excess electrical energy from the system to power itself and provide additional power without using any fuel, making it a self-sustaining "free energy" system.
This document is a seminar report on nuclear micro-batteries submitted by Vishnu M T. It discusses the historical developments of nuclear batteries dating back to the 1950s. It describes how nuclear batteries harvest energy from radioactive isotopes through alpha and beta particle emissions without nuclear fission or fusion. The report examines various isotopes considered for batteries and mechanisms to incorporate radioactive sources. It outlines advantages like high energy density and lifetime measured in decades, as well as challenges. Applications discussed include powering pacemakers, sensors, and future mobile devices.
Nuclear batteries use the incredible amount of energy released naturally by tiny bits of radio active material without any fission or fusion taking place inside the battery. These devices use thin radioactive films that pack in energy at densities thousands of times greater than those of lithium-ion batteries. Because of the high energy density nuclear batteries are extremely small in size. Considering the small size and shape of the battery the scientists who developed that battery fancifully call it as "DAINTIEST DYNAMO". The word 'dainty' means pretty.
Este manual cubre los principios básicos de electricidad residencial. Explica conceptos como cargas eléctricas, formas de generar electricidad, parámetros eléctricos como voltaje, corriente y resistencia, y la ley de Ohm. También describe componentes de circuitos eléctricos como conductores, interruptores, tomacorrientes y protecciones. Además, cubre temas como sistemas de puesta a tierra, distribución de energía, tableros eléctricos y medición con multímetro. El manual proporciona
The document presents information on nuclear batteries. It begins with an introduction that describes nuclear batteries as a small, compact, reliable and lightweight power source that converts radioactive energy into electrical energy. It then discusses the historical developments of nuclear batteries and how they were introduced in the 1950s. The main section describes the energy production mechanism of betavoltaics and lists some of the main radioactive fuels used in nuclear batteries like nickel-63. The document outlines advantages such as long lifespan, safety, and efficiency, as well as applications in space, medical devices, and the military. It concludes by stating that nuclear batteries can help meet the growing global energy needs.
Este documento resume las bioseñales, que son señales eléctricas generadas por el cuerpo humano que pueden medirse para obtener información sobre el funcionamiento de los órganos. Describe que las bioseñales más comúnmente medidas son los biopotenciales eléctricos, y explica que las mediciones biomédicas incluyen electrocardiogramas, electroencefalogramas, y medidas de presión, flujo y volumen en los sistemas cardiovascular, respiratorio y nervioso.
Este documento presenta un cursillo de electrónica práctica que incluye temas sobre soldadura con estaño, componentes electrónicos, diseño de circuitos impresos y uso del laboratorio electrónico. El cursillo enseña habilidades prácticas importantes para la electrónica como soldadura, identificación de componentes y diseño de circuitos.
Este documento trata sobre armónicos e interarmónicos en la energía eléctrica. Explica que los armónicos son frecuencias múltiplos enteros de la frecuencia fundamental, mientras que los interarmónicos son múltiplos no enteros. Describe las principales fuentes de generación de interarmónicos, como cargas de arco eléctrico, motores eléctricos y convertidores estáticos.
Este documento describe diferentes tipos de fuentes conmutadas o pulsadas que se utilizan comúnmente en equipos electrónicos modernos. Explica que este tipo de fuentes ofrecen un mejor rendimiento que otras alternativas y pueden funcionar con un amplio rango de tensiones de entrada sin variar significativamente las tensiones de salida. Luego, resume las secciones sobre las topologías más empleadas por los fabricantes, los parámetros de diseño de una fuente típica como el transformador de pulsos, y consejos para el servicio técnico a fuentes conmutadas
The document discusses nuclear batteries, which convert radioactive decay into electricity. It begins with an introduction explaining the need for small, light-weight power sources. The history of nuclear batteries is then summarized, noting early research from 1913-1960 focused on long-life power sources for space. The document outlines two main energy conversion techniques - thermal and non-thermal. Specific conversion methods like radioisotope thermoelectric generators, betavoltaics, and thermionics are described. Applications discussed include use in space missions, medical devices, and potential future uses in automobiles and military equipment. In conclusion, nuclear batteries show promise but require further research regarding feasibility, disposal, and radiation safety standards.
This document summarizes different types of batteries, including their characteristics and applications. It discusses vented lead acid batteries, sealed maintenance free batteries, and nickel cadmium batteries. It provides details on their typical lifespans, nominal voltages, charging requirements, and suitable applications. The document concludes with advice to think big, think fast, think first, but not to claim exclusivity over thoughts.
This document describes a footstep power generation system that converts the kinetic energy from human footsteps into usable electricity. The system uses an array of piezoelectric sensors that generate voltage when pressure is applied. The voltage is stored in a lead-acid battery and can be used to power small DC loads. A microcontroller and LCD display are used to indicate the voltage level being stored in the battery. The system was designed and implemented to harvest wasted energy from human locomotion and demonstrate piezoelectric energy harvesting.
Este documento trata sobre controladores lógicos programables (PLC). Explica brevemente qué es un PLC, su desarrollo histórico y sus aplicaciones industriales. Luego describe los fundamentos del control lógico, incluyendo sistemas numéricos como el binario, y conceptos como compuertas lógicas. Finalmente, detalla la estructura de un PLC, lenguajes de programación, y ejemplos de programación y aplicaciones.
Este documento describe la fuente de alimentación de un reproductor DVD Philips DVD703. Explica el funcionamiento del circuito integrado UC3842A que controla la fuente conmutada de baja potencia. Describe las secciones de entrada, arranque, secundario y protecciones de la fuente, incluyendo el limitador de sobrecorriente y la protección de baja y alta tensión. También incluye enlaces a los manuales y esquemáticos del DVD703 para obtener más detalles.
A seminar report on Nuclear Micro BatteryUtkarsh Kumar
This document is a seminar report submitted by Utkarsh Kumar to fulfill the requirements for a Bachelor of Technology degree. The report discusses nuclear micro-batteries, which could potentially power microelectromechanical systems by harnessing energy from radioactive decay. It describes several proposed designs for nuclear micro-batteries, including a junction-type battery that uses charged particles to induce a voltage, and a self-reciprocating cantilever design that uses particle collection to power oscillating motion. The report also addresses isotope selection, safety considerations, advantages, disadvantages and applications of nuclear micro-batteries.
1. The document describes a proposed footstep power generation system that would convert the mechanical energy of human footsteps into electrical energy.
2. The system would use a responsive sub-floor with blocks that depress under footsteps, generating power through a dynamo that converts motion to electricity.
3. While not enough for home use, the system has potential in crowded areas like transportation hubs where thousands of daily footsteps could generate meaningful amounts of electricity through a "crowd farm" approach.
Nuclear batteries generate electricity through radioactive decay without nuclear fission. They can operate for 10-100 years. Common radioactive isotopes used include tritium, nickel-63, promethium-147, and plutonium-238. There are two main types - thermal converters that use heat from decay and non-thermal converters that use charged particles. Applications include power sources for spacecraft, pacemakers, and remote scientific stations due to their extremely long life and high energy density. Advantages are long lifespan, reliable power, and use of nuclear waste as fuel, while disadvantages include high production costs and regulatory hurdles.
How Created Sub-Atomic Quantum Electron Energy Currently Performs Negative Work in Electricity Generation and Electric Mobility
and
How this Created Sub-Atomic Quantum Electron Energy can now
be Harnessed to Perform Positive Work in Electric Power Generation
and in Electric Mobility
This article explains how Sub-Atomic Quantum Electron Energy is created, why it performs Negative Work and how this created energy can now be used to perform Positive Work in electricity generation and electric mobility - when it is Delayed Sufficiently in the Time Domain.
And how this new knowledge will eventually help eliminate 100% of the C02, air pollution and human mortality created during fossil-fuel electricity generation and transportation in 2022 and beyond...
“The history of science shows that all theories are perishable. With every new truth that is revealed we get a better understanding of Nature and our conceptions and our views are modified.”
~ Nikola Tesla
1) The document describes a self-generator flywheel system that aims to generate electricity using a flywheel rotated by a motor.
2) The system works by using a motor to spin a flywheel at high speeds, storing rotational kinetic energy. An alternator is then used to convert the mechanical energy of the spinning flywheel into electrical energy.
3) The goal is to produce enough excess electrical energy from the system to power itself and provide additional power without using any fuel, making it a self-sustaining "free energy" system.
This document is a seminar report on nuclear micro-batteries submitted by Vishnu M T. It discusses the historical developments of nuclear batteries dating back to the 1950s. It describes how nuclear batteries harvest energy from radioactive isotopes through alpha and beta particle emissions without nuclear fission or fusion. The report examines various isotopes considered for batteries and mechanisms to incorporate radioactive sources. It outlines advantages like high energy density and lifetime measured in decades, as well as challenges. Applications discussed include powering pacemakers, sensors, and future mobile devices.
Nuclear batteries use the incredible amount of energy released naturally by tiny bits of radio active material without any fission or fusion taking place inside the battery. These devices use thin radioactive films that pack in energy at densities thousands of times greater than those of lithium-ion batteries. Because of the high energy density nuclear batteries are extremely small in size. Considering the small size and shape of the battery the scientists who developed that battery fancifully call it as "DAINTIEST DYNAMO". The word 'dainty' means pretty.
Este manual cubre los principios básicos de electricidad residencial. Explica conceptos como cargas eléctricas, formas de generar electricidad, parámetros eléctricos como voltaje, corriente y resistencia, y la ley de Ohm. También describe componentes de circuitos eléctricos como conductores, interruptores, tomacorrientes y protecciones. Además, cubre temas como sistemas de puesta a tierra, distribución de energía, tableros eléctricos y medición con multímetro. El manual proporciona
The document presents information on nuclear batteries. It begins with an introduction that describes nuclear batteries as a small, compact, reliable and lightweight power source that converts radioactive energy into electrical energy. It then discusses the historical developments of nuclear batteries and how they were introduced in the 1950s. The main section describes the energy production mechanism of betavoltaics and lists some of the main radioactive fuels used in nuclear batteries like nickel-63. The document outlines advantages such as long lifespan, safety, and efficiency, as well as applications in space, medical devices, and the military. It concludes by stating that nuclear batteries can help meet the growing global energy needs.
Este documento resume las bioseñales, que son señales eléctricas generadas por el cuerpo humano que pueden medirse para obtener información sobre el funcionamiento de los órganos. Describe que las bioseñales más comúnmente medidas son los biopotenciales eléctricos, y explica que las mediciones biomédicas incluyen electrocardiogramas, electroencefalogramas, y medidas de presión, flujo y volumen en los sistemas cardiovascular, respiratorio y nervioso.
Este documento presenta un cursillo de electrónica práctica que incluye temas sobre soldadura con estaño, componentes electrónicos, diseño de circuitos impresos y uso del laboratorio electrónico. El cursillo enseña habilidades prácticas importantes para la electrónica como soldadura, identificación de componentes y diseño de circuitos.
Este documento trata sobre armónicos e interarmónicos en la energía eléctrica. Explica que los armónicos son frecuencias múltiplos enteros de la frecuencia fundamental, mientras que los interarmónicos son múltiplos no enteros. Describe las principales fuentes de generación de interarmónicos, como cargas de arco eléctrico, motores eléctricos y convertidores estáticos.
2. Gliederung
• Allgmeine Definition der EMV
• Norm für medizinische Geräte
• Lösungsmöglichkeiten auf Leiterplatten
• Praktische Anwendungen
3. Allgemeine Definition
• ElektromagnetischeVerträglichkeit (kurz EMV)
• EMV besteht aus zweiTeilen
1. Störquelle
2. Störsenke
• Fähigkeit einer Anlage in einem elektromagnetischen Umfeld problemlos zu
arbeiten
• Anlage soll selber keine Störeinflüsse erzeugen
4. Norm für medizinische Geräte
• Definiert nach EN 60601-1-2:2007
• Beschreibt die Anforderungen im Bezug auf die EMV
5. Lösungsmöglichkeiten bei Leiterplatten
• Versorgungsspannung eine der wichtigsten Größen
• Durch schnelle Zustandsänderungen bei IC‘s kann Spannung schwanken
• Entsteht durch Induktivität der Leiterbahnen
• Verschiedene Lösungsmöglichkeiten
7. Pufferkondensatoren
• Um Überspannungen oder Spannungseinbrüchen entgegenzuwirken
• Sollte so nah wie möglich parallel zwischenVcc und GND liegen
• Verschiedene Größen je nach Frequenz
• z.B. <10MHz = 33 – 100nF
• Außerdem Elektrolyt-Kondensatoren um Schwankungen im
Nanosekundenbereich zu beheben
8. Praktische Anwendungen
• Um Geräte zu optimieren kann man z.B. Filterschaltungen oder
Kabelschirmung nutzen
• Bei hohen Frequenzen können Störungen über Spalte eintreten
• Hierfür gibt es spezielle Dichtungen zum aufkleben