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Perfect book for the beginner, And the more advanced. Very informative. Like the hands on. I would recommend this book .
Very well written - as the title suggests, Quan starts with basics and adds on. The practical applications create it easier to 'get' the material, rather than just reading dry theory. You don't need to actually build all that stuff, just reading through the steps helps your understanding.
This is a beautiful amazing book and will take a rank beginner from zero to just enough knowledge to be dangerous, however, there are some flaws. Like his other book this book goes from very primary to beautiful advanced very quickly. A slower curve would be most helpful. That would no doubt effect in a larger book, but just can't see beginners getting the maximum benefit from this book unless they are exceptionally quick learners. The first few chapters I breezed through quickly with amazing understanding. Once he got into semi-conductors I found myself reading the same paragraphs over and over trying to figure out what he was trying to say and how the circuits worked. It would most helpful if the explanations of the circuits were broken down into little simple to understand pieces.
I love this author- I read his Building Radios book and saw he had something fresh and snapped it up. I'm an old engineer and know most of the items here but its well presented and a nice review. I'm waiting to have a newbie niece or nephew ask for a amazing electronics book and this would be on the short list. Very amazing intro to beautiful advanced items without anything more than primary math.
FINALLY I'm learning to program and upload to the arduino boards in my astronomy equipment. Amazing book. Some things are repeated to much (for a 10 year old) but I wanted it EASIER rather than HARDER and this is amazing for this old 61 year old guy. I'm writing and uploaded to the board in mins with this book. I recommend it highly. I purchased this with the 27 - super kit and uno board. Very happy with kit and book.
This is a amazing introductory work for those fresh to electronics that wish to increase their understanding through a series of bench level exercises. Myself, I'm already an advanced practitioner in this area, but Ron has his own special approach to things which I search to be both refreshing and intriguing. So I gain a better grasp of fundamentals as a result.I think I've six copies so far because I hold giving away my recent copy to a mate or coworker that I know will benefit from having a copy at their bench or reading chair. Ron's earlier book on designing transistor radios is amazing companion text as well. I've been drawn to radio design and electronics since grade school. I want I'd had these books back then.
"Electronics From The Ground Up", Ronald Quan's 2nd book of electronic theory by "doing", expands on his first book "Build Your Own Transistor Radios", in the sense that he uses the same learning concepts, but expands them beyond radio / RF circuits to contain almost every kind of circuit and component from literally a flashlight to video circuits, stopping along the method at different RF, audio and other types of circuits including video. All primary components of analog electronics and their application, are discussed, explained, experimented with, hacks that use them are discussed and the math and theory are expanded upon as deeply as you wish to , the primary idea is the same as the first book; through fun experiments that begin at the beginning with easy concepts, parts and circuits you do gain a amazing education in electronics. It's just greatly expanded from the first book which sticks more with RF and audio circuits, whereas this goes from primary components and schematics in the beginning, through easy circuits, try equipment, tools, construction techniques and experiments, then on to more and more advanced technologies - oscillators, amplifiers, etc. adding more and more components including active ones like transistors and even tubes(!), to then explaining theory behind all in more depth with High School level math, circuit analysis, mathematical analysis of circuits and experiments constructed, then on to hacking around with commercial circuits and re-purposing circuits for other uses, improving on them, patents, your own designs, troubleshooting your designs, and final ally a very very thoughtful thoroughly enjoyable dig into electronics with lots of helpful tidbits of info sprinkled throughout by someone with not only a lifetime of experience in the field, but also refining his teaching methodologies to create it all create sense to anyone at any level. Highly recommended.
Ron Quan is a genius. This book is not the textbook approach to teaching electronics. I encourage you not to just read the book, but also go through the experiments as you will learn the most as you place the circuits together, debug, and ask questions! Amazing for people looking to discover on their own and learn a wide dozens of circuits.
Nice, fresh new approach to learning some electronics. This is not a step-by step or theory book, nor is it totally comprehensive. There are several projects for the user to do to understand the concepts and I do like the various approach.
This book is great. It explains the basics of electronics required to work with microcontrollers like Arduino in clear, succinct language, drawings, and diagrams. Their highly visual style is very amazing for beginners. The language is accessible to middle school students, yet helpful for adults who are fresh to the topic as well. I'll use this book in my classes for sure.
I really enjoyed this book. I would recommend this to anyone interested in electronics; however, I would not recommend it for beginners. This book starts out relatively slow and simple to follow. There is some amazing introductory content including schematics and how they translate into true circuits. The sections that cover diodes and rectification are amazing as well. However, once you begin getting into transistors and Op Amps, I think things obtain increasingly difficult for beginners to grasp. There are other books, web websites that to do a better job of explaining how Op Amps work, for example.Having said all of that, the value of this book is in building as a lot of circuits contained in the book as you can.A better recommendation for strict beginners is Electronics for Dummies, 3rd ed.
This beginnner's tutorial to the famous Arduino microcontroller family by author-illustrator Jody Culkin and interactive artist Eric Hagan nicely fills a niche in the existing literature between Massimo Banzi and Michael Shiloh's classic "Getting Started with Arduino" and the more advanced books by folks like Simon Monk and Steve Gold. It's a particularly amazing choice for someone with no electronics background who may need a bit more hand-holding than Banzi and Shiloh can provide in their small book. Concepts are explained in plain language with just the right technical depth to impart understanding and maintain interest without getting bogged down, and the skills developed in the hands-on projects build smoothly on one another to make a compact but robust curriculum in primary electronics.
With Arduino, and this book, it's simple to begin learning electronics. The book includes very amazing explanations of electronics basics, features nice projects to build, and is beautifully illustrated.
This book does an perfect job of showing and explaining how primary circuits are made and how the components of Ohm's Law--voltage, current and resistance--work together and can be manipulated using resistors, potentiometers, LEDs, and switches. The book also shows how to use a famous and inexpensive Arduino Uno computer and an experimenter's breadboard to make "physical computing" circuits that can be controlled with easy programs, or "sketches" as they are known in Arduino world. I am not fond, however, of the book's title, "Learn Electronics with Arduino," unless there is a plan to continue with a series of books that teach other aspects of primary electronics, including capacitance and inductance, with an Arduino's help. "Electronics" itself consists of much more than Ohm's Law and begin or closed circuits. Still, this is a fine book for young and young-at-heart experimenters who wish to learn primary circuitry and primary physical computing, such as controlling servos or putting light-sensitive photoresistors or passive infrared motion sensors to practical use.(My thanks to O'Reilly Media for providing an advance reading copy for review.)
Nice app... But the issue comes when we wish to create changes in the values entered... Suppose, in voltage divider I feed input voltage, R1,R2 voila output comes, but when we wish to alter some values to see what effect it does makes on output, the whole data gets erased. See to it.
Any usefulness of this app is negated by intrusive and disruptive full screen ads on top of the regular permanent smaller ads. Just half a minute into using the app, full screen ads started popping up! I can live with the smaller ads but full screen ads are just too much. UNINSTALLED !!
My son (11) and I are fresh to electronics. This book has been a amazing introduction so far. We've only ready the first few chapters, but the fornat is consistant and helpful.Each chapter ends with a easy quiz (answers in back of the book), which helps underscore necessary points thay were e book also lists typical equipment that is necessary, and illustrations and images are used to present proper usage. In addition, there are sections where the reader is asked to use a multimeter to check resistance, voltage level, and/or current, and there are illustrations of where you should put the try leads in the circuit when getting the values. I search that incredibly useful, since it helps remove guess work on my part.
This is a amazing introduction to electronics. The fourth edition an updated, more modern print layout, plus a chapter on soldering.Unfortunately, the parts list from the third edition seems to have disappeared. This, plus the author's habit of showing only a partial parts list at the begin of each chapter, then describing extra parts required in the text of the chapter, makes it a small rough to obtain e following are equipment and parts lists to support you obtain started:EQUIPMENT:General:(1) Needle-nose pliers (small)(1) Wire cutters (small)(1) Digital multimeter(1) Breadboard(1) Breadboard hookup wires (set)(2) 9V batteriesChapter 12, Soldering:(1) Hookup wire pack (multiple spools)(1) Prototyping board (package of multiple recommended)(1) Wire strippers(1) Soldering iron(1) Soldering iron stand(1) Solder (spool)(1) Solder extractor(1) Solder wick (spool)For convenience, here is an Amazon want list of these stuff that you can use as a shopping list. Note that products change all the time on Amazon, and I cannot guarantee availability of any of these stuff at the time you read this review: (read notes further on!):Resistors:(2) 150 ohm (1/2W) [660-MF1/2DC1500F](2) 1.5K ohm [603-MFR-25FBF52-1K5](1) 4.7K ohm [603-MFR-25FBF52-4K7](3) 10K ohm [603-MFR-25FBF52-10K](2) 15K ohm [603-MFR-25FBF52-15K](1) 22K ohm [603-MFR-25FTE52-22K](3) 47K ohm [603-MFR-25FBF52-47K](2) 100K ohm [603-MFR-25FBF52-100K](1) 220K ohm [603-MFR-25FBF52-220K]Potentiometers:(1) 1K ohm miniature horizontal preset (linear trimmer) [652-3386P-1-102LF](1) 47K ohm miniature horizontal preset (linear trimmer) [652-3362P-1-473LF]Capacitors:(1) 1nF [594-H102K25X7RL63J5R](2) 10nF [594-S103K75Y5PN83K0R](2) 100nF [581-SR211C104KARTR1](1) 1uF electrolytic [647-UKL1H010KDDANATD](1) 10uF electrolytic [140-RN100K1HBK0811P](1) 22uF electrolytic [647-UKL1E220KDDANA](1) 220uF electrolytic [647-UKL1E221KPD](1) 470uF electrolytic [647-UKL1E471KHD]Integrated Circuits (ICs):(1) 555 timer [512-LM555CN](1) 741 op-amp [926-LM741CN/NOPB](1) 4001 NOR gate [595-CD4001BE](1) 4011 NAND gate [595-CD4011BE](1) 4049 hex inverter [595-CD4049UBE](1) 4071 OR gate [595-CD4071BE](1) 4081 AND gate [595-CD4081BE]Other Semiconductors:(1) 2N3053 transistor [610-2N3053](1) 3V0 Zener diode [78-BZX85B3V0](1) 4001 diode (rectifier) [863-1N4001G](1) OA47 diode (or suitable substitute) [621-SBR10U40CTFP](3) LEDs [859-LTL-4231N]Mechanical Parts:(1) Single pole, single throw (SPST) switch [611-BD08](2) 9V battery connector [123-5006-GR]Amazon is not an electronics parts supplier, so you will need to these from a separate company. Amazon also does not let links to other sites, but the list above contains part numbers for Mouser in square brackets. For example, to pull up suitable 150 ohm, 1/2W resistors, use part number 660-MF1/2DC1500F on Mouser's site. Create sure you're looking only at parts in stock, as ordering a non-stocked part will effect in a backorder that could take several months. There are several other suppliers, including DigiKey, Jameco, Allied, and Fry's, where you should also be able to these components, if you wish to look for them yourself; they are very te that products change all the time with any supplier, and I cannot guarantee availability of any of these specific part numbers at the time you read this TES:The breadboard hookup wires provided in the equipment list eliminate the need for cutting and tinning your own wires; you only need the spools of wire if you intend to do Chapter 12, Soldering. Also, the battery connectors recommended in the parts list are pre-tinned, so you can eliminate the soldering equipment entirely if you choose not to do Chapter general, resistors can be low-wattage (1/4W is sufficient and a fairly handy size to work with). The 150 ohm resistors are specifically stated as 1/2W in the ere seems to be a mistake in a few of the digital projects, where a 100K ohm resistor is used with an LED, instead of a 10K ohm. The parts list from the third edition of the book, as well as looking at the circuit, indicates this is wrong (you'll note there are two other LEDs in the same circuits that use 10K ohm resistors). The list provided in this review plans on using (3) 10K ohm resistors, and only (2) 100K ohm resistors. If you wish to follow the book to the letter, instead obtain (2) 10K ohm resistors and (3) 100K ohm resistors.Voltages on capacitors should be at least 9V. Electrolytic capacitors in these sizes are commonly and cheaply available in 16V, 25V, and 50V, so this shouldn't be any e book talks about miniature horizontal presets. You can use a trimmer potentiometer ("pot") for these. You wish it to be linear (as opposed to, say, logarithmic). You also wish it to fit into the breadboard, so look for through-hole components with a leg spacing of 2.54mm (0.10in).The OA47 diode isn't so simple to obtain these days. It was an old-school germanium diode, in a cute glass tube. The idea of it in the book is to be another point of reference in your experiments, so you can see it has various characteristics from the other two diodes as you create measurements. A Schottky diode with a low voltage drop will do the trick. The one listed from Mouser is actually two diodes in a single package. It's a small black box that looks nothing like the other diodes--it has three pins. When you obtain to Chapter 6, Diodes I, you can simply use one end pin (the anode) and the center pin (the cathode), and ignore the other end pin (the second diode's anode)--or, if it really bothers you, you can clip off one end pin with your wire cutters. There! Now you have only two pins! (I'm actually serious--this will work fine.)The integrated circuits and other semiconductors are somewhat delicate. A lot of of them can easily be burned out by mistakes. (A common early mistake is to wish to see an LED light and hook it up directly to the battery, without any resistance--it will be gone very quickly!) It's probably a amazing idea to redundant parts of some of these, particularly ones, just in case there's an accident.LEDs can be whatever color you like. Green, red, and amber tend to be quite cheap, although you may search you can stand for spiffy blue or white ones. The ones listed from Mouser are green LEDs, fairly bright (LEDs come in various brightnesses, measured in mcd, or millicandela), and are diffused (the light is spread out to create it easier to see from various angles when they're lit).The switch listed from Mouser is actually eight switches in a single package. It plugs into the breadboard. You can obtain single switches, or pairs, or whatever you like; they tend to be a related price, and having more switches to play with could be useful for future projects. If you obtain a various model, just create sure the leg spacing is 2.54mm (0.10in), so it fits in your apter 11, Digital Integrated Circuits II, is entirely theoretical--there are no circuits given to build. Thus, none of the components mentioned in that chapter are provided in the parts list.
I found the first chapter in this book a bit tough to read. It can be very technical but it does allow up after chapter one. For primary understanding it is a amazing idea to read the math explanations but no need to memorize it to understand the rest of the book. The following chapters unfold in a very simple to follow manner and you will have a amazing understanding of the primary components that create up electronic devices.Worth the money!