Oscilloscopes: A Manual for Students, Engineers, and Scientists

Oscilloscopes: A Manual for Students, Engineers, and Scientists

Author: David Herres

Publisher: Springer Nature

Published: 2020-10-06

Total Pages: 276

ISBN-13: 3030538850

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This text presents readers with an engaging while rigorous manual on the use of oscilloscopes in laboratory and field settings. It describes procedures for measuring and displaying waveforms, gives examples of how this information can be used for repairing malfunctioning equipment and developing new designs, and explains steps for debugging pre-production prototypes. The book begins by examining how the oscilloscope displays electrical energy as traces on X and Y co-ordinates, freely transitioning without loss of information between time and frequency domains, in accordance with the Fourier Transform and its modern correlate, the Fast Fourier Transform. The book continues with practical applications and case studies, describes how oscilloscopes are used in diagnosing pulse width modulation (PWM) problems--looking at serial data streaming and analyzing power supply noise and premises power quality issues—and emphasizes the great functionality of mixed-signal as opposed to mixed-domain oscilloscope, and earlier instruments. Featuring many descriptions of applications in applied science and physics, Oscilloscopes: A Manual for Students, Engineers, and Scientists is ideal for students, faculty, and practitioners.


Electronic Projects for Oscilloscopes

Electronic Projects for Oscilloscopes

Author: Joseph Berardi

Publisher: Createspace Independent Publishing Platform

Published: 2016-12-26

Total Pages: 350

ISBN-13: 9781540463715

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Electronic Projects for Oscilloscopes by Joseph Berardi There is a tutorial on how an oscilloscope works and the different types of waveforms that can be observed. The book starts out with the fundamentals of passive electronic components including: resistors, capacitors, inductors and transformers. More sophisticated components are presented with a comparison of different possible components used for making the circuits for a digital oscilloscope including: diodes, LED Displays, op-amps, timer integrated circuits, TTL logic family, voltage regulators, analog-to-digital converters and SRAM memory. There is a tutorial on the application of a human interface for controlling an electronic project. The first several projects are the building blocks for making your own oscilloscope including the following projects: a 5V DC Power Supply, variable DC Power Supply, 555-based oscillator and a voltage-controlled oscillator (VCO). Each project includes the design theory, schematics, parts list, PCB artwork and test results or corrections required to make the project work. The book culminates with several oscilloscope projects including a simple easy to build Oscilloscope 2 student version project, then onto a much more sophisticated Oscilloscope 5 broken into four individual projects to a high-speed A/D converter Oscilloscope 6 project. All of the book projects are standalone not requiring a computer, micro-controller or any software programming.


Patent Application Experimental Engines and Electric Devices: Over 300 Drawings

Patent Application Experimental Engines and Electric Devices: Over 300 Drawings

Author:

Publisher: Daniel Izzo

Published: 2024-08-12

Total Pages: 413

ISBN-13:

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Experimental Engines and Electric Devices: Over 300 Patent Application Drawings of Engines and Electric and other Devices. by Daniel Izzo 2024 THE COVER Figure 33b Polarization of Cosmic Radio Signals at Various Frequencies Cosmic radio signals, originating from distant regions of the universe, can exhibit polarization when observed at specific frequencies. This paper explores the fascinating phenomenon of cosmic radio signal polarization at various frequencies, including 91 MHz (FM radio), 160 MHz (VHF radio), and 610 MHz (UHF-TV channel 78). We delve into the methods used to polarize these signals and examine known cosmic radio sources. Additionally, we discuss the intriguing notion of naturally emitted radio pulses from celestial objects. RBT and energy The patent describes several devices intended to generate energy or improve efficiency in various ways. Here’s an analysis of whether these devices might save money on energy usage: 1. Thermionic Electron Electric Generator How it Works: This device converts heat energy into electrical energy. It uses a combination of materials like thorium, tungsten, cesium, and cobalt magnets to generate an amplified electric output. Energy Efficiency: The concept of amplifying a small input of energy into a larger output could theoretically save money by reducing the need for external energy sources. However, the practicality of this in a real-world scenario depends on the efficiency of the conversion process and the costs associated with the materials and maintenance. 2. Microwave Hot Water Boiler Heating System How it Works: This system converts energy from thorium/uranium into microwave energy to heat water. The patent suggests that the device can achieve a higher energy output compared to its input. Energy Efficiency: If the system can indeed produce more energy than it consumes, it could reduce heating costs. However, the use of radioactive materials like thorium and uranium brings safety concerns, regulatory issues, and potential high initial costs, which could offset any energy savings. 3. Hydraulic Leverage Engine How it Works: This engine uses a small input of energy to create a larger mechanical output through a system of pistons and levers. Energy Efficiency: The idea of multiplying a small energy input to achieve a greater output suggests potential for energy savings, especially in applications requiring significant mechanical work. However, the real-world efficiency of such a system depends on the engineering and the specific applications. 4. Artificial Muscle Robot and Other Robotic Systems How it Works: These robots are powered by artificial muscles that expand and contract using electrical energy. They are designed to perform tasks that could otherwise be energy-intensive if done by traditional machines or humans. Energy Efficiency: These systems could save energy if they are used to automate tasks more efficiently than human labor or conventional machines. The effectiveness and energy savings would depend on the specific applications and the efficiency of the robotic systems. General Considerations: Initial Costs vs. Long-Term Savings: The devices described in the patent involve advanced and potentially expensive materials and technologies. The initial setup costs might be high, which could negate some of the energy savings unless the systems are highly efficient and durable. Practicality and Scalability: The effectiveness of these devices in saving energy depends on how practically they can be implemented at scale. Some of the technologies mentioned (e.g., the use of radioactive materials) could be difficult to deploy widely due to safety and regulatory concerns. Conclusion: Some of the devices described in the patent could theoretically save money on energy usage if they perform as described and if the initial costs and safety concerns are manageable. However, the actual savings would depend on many factors, including the efficiency of the devices, the cost of implementation, and the specific applications they are used for. Further research, development, and testing would be necessary to determine their viability in real-world scenarios.


Information and Business Intelligence

Information and Business Intelligence

Author: Xilong Qu

Publisher: Springer

Published: 2012-04-25

Total Pages: 785

ISBN-13: 3642290841

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This two-volume set (CCIS 267 and CCIS 268) constitutes the refereed proceedings of the International Conference on Information and Business Intelligence, IBI 2011, held in Chongqing, China, in December 2011. The 229 full papers presented were carefully reviewed and selected from 745 submissions. The papers address topics such as communication systems; accounting and agribusiness; information education and educational technology; manufacturing engineering; multimedia convergence; security and trust computing; business teaching and education; international business and marketing; economics and finance; and control systems and digital convergence.