Hey Dave, just wanted to point out that Sedra/Smith does go into the basics of op-amps. It starts in Chapter 2 (in the textbook I have). You were going over Chapter 13, which dives deeper into op-amps, granted that the person reading has already reviewed Chapter 2. I think they start out much better than the other textbooks with the ideal op-amp, what happens when you add feedback, inverting/non-inverting amps, very similar to how you described it in your op-amp basics video. Cheers!
@@EEVblog it definitely is too focused on the raw mathematics. It was one of the complaints I had about the book when I used it for my electronics courses a few years back. Glad to know it wasn't just me.
Text book I used back in the late 80s. In the end, the issue isn't which text book is best, it is HOW MUCH DID YOU GRASP FROM YOUR NETWORK CLASSES....you remember, Ohm's Law, Kirchov's Law, etc. Using Spice (or whatever they use today for nodal analysis), etc.
You missed my personal favorite: Practical Electronics for Inventors, by Paul Scherz and Simon Monk. Easy to understand, good practical examples, starts at a beginner level and works up to fairly advanced topics. Highly recommended.
I agree, it's excellent. I think because it starts out at a more basic level than the ones covered here, it probably belongs on a different list. It is absolutely a great book though! I think it's up to it's fourth edition? I have a copy of the third, not sure how much difference there is between the two.
I think it belongs in a different list. I kind of combines a basic book on circuit analysis with an electronics book like this ones, but the lighter approach is great for the hobbyist IMHO. It's my preferred book for learning too, after that one you can just get the Art of electronics and you're golden.
Practical Electronics for Inventors is great but it isn't really a textbook, more like a reference guide for hobbyists. It doesn't have problems and other things to really practice designing and understanding circuits having these components
I was in JR. High School (In the mid 70's) when I caught the Electronics Bug. I used to carry around the National Semiconductor Analog Data Book and the Signetics TTL Book. The Signetics TTL White hard bound data Book was so beautifully illustrated, I still have it today.
Electronic Principles has by far been my favorite. Something about the way the information is communicated is so clear to me. I also wanted to point out that the stiff voltage and stiff current sections were really simple to understand and helped to deepen my understanding of electronics, so it's definitely a win for me.
It's one of the finest textbooks on electronics ever written. Albert Malvino put his heart and soul into this text. He wanted it to be crystal clear and accessible for all.
Taking a look throgh my Sedra-Smith there are no pictures of components, test equipment or datasheets. The other books seem like a better choice for learning electronics outside an engineering education.
@@FormulaXFD I find it great to learn from. The problem is the language, if you can't speak it ... you can't understand. But at least the language IS THERE and it is CORRECT. And yes, my copy is the 2nd Edition. ;)
i got that book from my library the 2nd edition and it was to mush for some learning from scratch!! but I am going to buy it coz it is great.. would understand a lot more of its content now but it was to much a year ago.. I loved how it had schematics of good circuits and bad circuits.. that was cool. if your brand new to this,, electronics for dummies!! and make electronics by Charles Platt 2nd edition is good, shows you circuits built on solder less bread boards.. very good and easy to follow and understand. do what I do and try and get them out of your library before committing to buying....
UPDATE: Turns out that Sedra/Smith does have an introductory OpAmps section which is out of place near the start which is why I missed it. It's still fairly maths oriented though.
Dave you should also disccus ARRL Handbook 2019, this book is amazing. It is a level of ART of Electronics. I have both and in some topics handbook is better. It is very comprehensive, over 1280 pages. ARRL Handbook 2019 and ART of Electronics are must for my everyday work.
do you know....hell!...you speak blasphemous words...even in jest....they will send you to the unpleasant place....can you hear?...or will you remain ignorant?
I'm a theoretical physicist who has spent plenty of time with Maxwell's equations and quantum electrodynamics already (including having had conversations with EEs that boil down to "if we could just reduce it to some trivial problem where we could Fourier-Laplace transform it"), but admittedly don't know much about practical electronic circuit design. So Sedra/Smith looks like a live option for me. The Art of Electronics is looking interesting too. Math doesn't scare and I certainly don't want another damn cartoon picture of the atom! Admittedly that's a rather niche market... By the way, I did like your op-amp videos too!
It was the "the art of electronics " for me. Recomended by chief engineer in R&D lab, still got it and use it today, now the grey cells are getting on a bit.
I second this, I was shown this book 15+ years ago and I bought a copy. It's got everything and was also called the "electronics bible" too, bit heavy for starters but does go into what voltage, current and everything else is. Perfect!
I've chosen AoE as my starter weapon (well, besides EEVblog and the Electronics Stack Exchange) and I have not had very much trouble at all. I am an autodidact in a few different subjects already, though, which surely prevents some amount of friction.
I agree about Sedra/Smith being too math heavy. My school (or the Dr. teaching all the electronics courses) leaned heavily on it. Up until senior year I couldn't tell you how anything we learned worked, but I could rattle off the math from memory because if you didn't, you'd fail the exam. It wasn't until I got senior level courses with professors that focused on "intuitively understanding" the devices and circuits that it all started to make some sense instead of just being numbers. The types who would ramble on about random stories and make jokes taught me more than the department heads who would drone on for an hour about the math. Still a fantastic resource, though. My "favorite" part of the S/S experience was the 30 minutes of marker squeak in front of a dead silent classroom while the professor filled the every bit of the whiteboard with equations and diagrams. the moment he turned around and started talking, there was a good 60 seconds of everyone scrambling to get ready to take notes again
I started my electrical education as a kid, using a completely metal screwdriver - including handle - and the mains electrical socket in my bedroom. I can still smell the burned skin like it was yesterday. Those are the lessons you just can't find in books these days.. :)
ha, similar experience here. one year for christmas I was bought a basic set of tools with a breadboard and resistors, transistors, diodes, wire, batteries, bulbs etc. and little book of circuits to make. it was a starter kit thing from Maplin I think, and I was given it on the condition that I never touch anything with a mains plug on it because one day my mum had come into my bedroom to find that I'd taken my portable black and white TV apart (while plugged in) to find out how it worked
Great video! I taught electronics engineering technology (EET) and engineering (for EE and ME students) in circuit analysis for 40 years at the university (Purdue) and at at community college (Rock Valley College) levels. I also worked (concurrently) as an EE at an aerospace company for 31 years. The dual experiences gave me a unique perspective. I taught from Floyd, Malvino, and Boylstadt at various times. I would rank them in that order from friendly to not so friendly. Sedra is in a totally different class (hostile). I believes this agrees with your assessment. You were spot on. The Art of Electronics is a popular reference book. If I were teaching an electronics class, it suitable only as a recommended reference.
The book I recommend to people is Foundation's of Electronics Circuits & Devices by Russell Meade. Comes in two flavors, electron flow or conventional flow. Common book around here for technical / vocational schools and local community colleges. Covers all the basic theory and components which all the ones you showed seem to skip.
I am both an Electrical Technologist and an Electrical Engineer. The Malvino text is primary for technology/technician students. The Sedra/Smith is for university students in electrical and computer engineering, designed to cover all the core electronic courses as well as additional 4th year topics. Both are amazing texts and will help you seriously excel and learn if you take the time to work through them.
Hi, did go to EE after realizing during your EET that you like this field? I’m thinking about doing the same. I’m going through a EET Associates in Science.
Dave, thanks for your "Electronics Textbook Shootout." It helps me understand how others might see things. I'm a recently retired professor of electrical engineering and also worked in the electronics industry designing NMOS chips (this was the early 1980's when CMOS was not yet dominant) for a well known company that, "started up in a garage." When I was a student myself Sedra and Smith's book did not yet exist and the TTL 7400 type logic BJT stuff) was state-of-the art. When I started teaching, Sedra and Smith is the book I gravitated to because it was rigorous and included things that I had to deal with industry. For a rigorous and robust presentation, IMHO Sedra and Smith stands out with margin from the other books. I'd also like to point out that Sedra and Smith has a "FETs first" approach to semiconductor theory. This seemed weird to me when they first introduced it (at about 5th edition) because I had been taught "BJTs first" when I was a student. But the more I used Sedra and Smith, the more I appreciated that "FETs first" is what is happening in industry and more directly covered the types of work I did in industry. I now think it is a superior way to teach students. Well, that's just my two bits. But I see your point about the graphics, especially the good graphics in Floyd's book. Sedra and Smith could do better there for sure. I greatly appreciate your videos. Keep 'em coming!
I still have my second edition of Malvino it looks very different from the one you were showing. I was taking classes in Silicon Valley during the late 70s and both Malvino and Grob were teaching classes around the Bay Area. I was in a program that used Grob’s book but I went to another campus to buy a copy of Malvino’s book because I found easier to read. On another note my father worked the telephone company; after he died I was cleaning out the garage for my mother and found a box of books that were the course material for his lineman classes. I was very impressed with level of theory in these books especially the parts about isolation transforms. I learned quite a bit that later put to uses in a telecom equipment manufacture I worked for.
I used the 3rd edition of Malvino in Ulster Community College in upstate New York in mid '80s. I believe we covered the book in 2 or 3 semester with lab. I went beyond course requirement and designed and built an audio amplifier with pre-amp stage. With a summer job I brought a new Tektronix oscilloscope. I had a complete lab setup at home. Before that I used junkie 2nd hand scopes from a surplus store. I spend more time working on the junkie scope than tested the circuit. One thing that broke my heart was working with other guys that had no interest in electronics. Most of them studied electronics in the Navy to have a career when they got out. The Navy guys were good at hooking stuff up, but couldn't even quote Ohm's Law.
I am currently learning about amplifiers from Malvino's book. According to me it by far one of the most understandable books regarding amplifiers and transistors in these times too. Also, I like the troubleshooting parts too that makes it so practical as well, not just theory stuff :)
Well put Dave. I have found that you cannot limit yourself to one source. Over the years of post graduation. I found many excellent resources. Downloaded The Art of Electronics yesterday.
I'm an ECE Student from Greece and for the introduction in electronics we use a textbook book from a greek professor but we also use Sedra-Smith for the more advanced courses and even though it seems convoluted it's an amazing textbook. It has helped me not only for the university courses but for personal projects as well.
One thing that makes The Art Of Electronics textbook-like is the fact that there is a lab manual for it also (which has info in it not in the main book).
I'm going through Boylestad and its fantastic. He literally states that he doesn't want to go into extensive math. Love it! "The primary purpose of this text is to develop a general knowledge of the behavior, capabilities, and possible areas of application of a device in a manner that will minimize the need for extensive mathematical developments."
I was self-taught through high school, and I started with Forrest M. Mims book (Getting Started in Electronics), then Make: Electronics, then Practical Electronics for Inventors, then Art of Electronics. I started reading AoE in senior year of HS, but I'm still going through it five years later, there's just so much good stuff you can miss. I kept the Markus Sourcebook of Electronic Circuits around a lot through high school and college, and then one of my favorites, Grey and Meyer! I've actually had the 1st edition for years now, and still learn from it (though I keep the updated version as a PDF, old editions completely neglect CMOS and MOSFET circuits in analog). I have a copy of Sedra and Smith now, which I use often, though it certainly feels like a textbook rather than an electronics book. The material is thorough and solid. Then from coursework I have books like Streetman and Banerjee (Solid State Electronic Devices), and Weste and Harris (CMOS VLSI Design) which can be exceedingly dense (wall-of-text) but they are very valuable. Then there's the speciality books on RF and microwave (Bowick, Pozar, Jackson), high speed digital (Black Magic is a must), signal processing (Oppenheim), and communications (Lathi, Proakis). This is of course not to mention app notes and datasheets, which are how I learned much of what I know about embedded systems, as well as the number of great writers of notes and articles, like Jim Williams and Bob Pease. I could go on! Nothing like a good book on circuits, there's so much creativity.
Did you read Oppenheim's Signals & Systems book? I tried to last year, but the man is just so dang wordy. Jonathan Valvano has some excellent embedded books btw.
Came here just to mention the mighty Forrest Mims. His books were so instrumental to my initial self-taught electronics education. In college, I took Forrest Mims-style notes in all my classes. (I still have those somewhere…)
@@me000 It is really wordy and dense, no doubt. I didn't really 'read' so much as skim and do practice problems and check derivations! I still reference it though
Lots of people focusing on the mathyness of the Serra/Smith book but as someone who’s literally using that textbook (and bought it so i could retain my copy), it’s fantastic to be able to understand how the hell you can arrive at say, a small signal model, from the more obvious equations, along with how you would actually try adjusting parameters to make specific impacts. It’s one of the few references that actually goes deep enough to make itself valuable over the (surprisingly detailed) Wikipedia pages on various subjects. Coupled with Art of Electronics, you get a really good cross reference domain knowledge. Another super useful resource is the (FREE!!) book by the designer of the 555 timer IC, which you can get online and it covers IC circuits in detail as well, while spending a decent amount of time on the practicals. Found out about it recently and can’t recommend it enough.
Camenzind book is really good, although I would use it as an additional resorce only. Camenzind also wrote a book on the history of electronics that is worth reading.
For my E.E. degree at the Technical University of Denmark, I used Hambly as an introduction followed by Sedra/Smith. Didnt really like Sedra/Smith, but I got through it. Also, I placed an order for the X-chapters - really looking forward to this! 🤟
Hit the nail on the head, a single book that covers all of electronics would be 250,000 pages long. I've got the older versions of Sedra/Smith and Boylestad, et al. These books are usually studied in the 3rd year of EE study, after you have all the math and physics background needed to understand these advanced concepts. I've also got several dozen other books on electrical engineering, as I worked through and obtained my B.Sc. in EE. I'm still saving up for "The Art of Electronics", a great book on the application of electronics, but not much theory, hoping to get it in the next year or so.
I don't think Harvard uses The Art of Electronics for any EE course but instead for an "electronics for non EEs". Where the course is intended for those working in experimental physics, chemistry, computer science, etc... Physics programs in the USA often use it for a one semester course on electronics in the 3rd year. By then students know electromagnetics, seen basic AC/DC circuits, and taken a fair amount of maths courses. Having all that really helps get over the initial steepness of it's learning curve that many self studiers experience.
The main textbook I used for the subdject at that time (90's @ Universidade Coimbra - FCTUC) was "Microelectronics" 2nd edition by Jacob Millman and Arvin Grabel There was a portuguese version of it, divided into 2 books, all black printing (missing the original shades of blue in some graphics and schematics) and each book cost nearly as much as the single original textbook in english. I still have mine, like Dave's "Electronic Devices" 2nd edition, with the contact transparent plastic protection cover. :)
One thing I've noticed about the Millman books is that the older they are the better they get. I believe "Electronic devices and circuits" to be the best of them all.
This is an interesting subject to me. I started in electronics as a technician in the USMC, so I’ve always been trying to improve my understanding over the past 30 years. I’ve recently been purchasing historical books on electronics. Some of my favorites are Bode’s Network Analysis and Feedback Amplifier Design, Henney’s Radio Engineering Handbook, Terman’s Radio Engineer’s Handbook and Servomechanisms and Regulating System Design by Chestnut and Mayer. Except for Bode, I picked these up for less that $15 each. It’s amazing how much of the theory of electronics was already fully developed back in the tube era, even before the end of WWII.
If you are a student there are lots and lots of electronics books in pdf format online that you can download for free. They just seem to be available if you google the book title. This is a great way for students who may not have a lot of money to acquire good books. If you are old school like me and you like to have the physical book then there are loads of used books out there that you can buy online for very very cheap. They may only be 3rd or 4th editions but the fundamentals of electronics don't change so buy up some of these books and start you own little collection. Oh and to anyone just starting out studying electronics, best of luck and stick at it. I am halfway through my 3rd year of college and still learning so much new stuff everyday.
Bang for the buck, it's hard to beat practical electronics for inventors by Scherz and Monk. It's a great intro into electronics that's written in easy to understand language. The newest edition is only $20.
I learned basic electronics via Malvino Electronic principles 5th edition and Digital electronics via Floyd Digital fundamentals 8th edition. I love both authors.
I read the Sedra textbook cover to cover during undergrad. I agree with Dave mostly. In the context of my program, the math wasn't a barrier and complimented my other classes. With that said, in some places it felt like Sedra was just wedging in complexity to no practical gain. The worst example was the chapter on semiconductor physics (CH3). Yeeeesh. In an introductory design textbook, we don't need more then simple transistor modeling. An intro to semiconductor physics belongs in several semester long courses, not crammed into one chapter of an basic EE book.
Yeah, I had my sedra/smith class last year and I couldn't just jump into the BJT/MOSFET chapters, its almost like it was presented in a way that you're forced to read the semiconductor physics chapter first, and it was incredibly frustrating. Of course, we had no exam or homework questions about semiconductor physics. I would've been so much happier if they just started with the model. I don't even mind the emphasis on math, but the book wasn't very good at exposing the material.
A lot of professors and departments LIKE a math-heavy, push you in the deep end of the pool -type books for their starting core classes. It lets them weed out early the ones that likely won't complete the curriculum for the major. That is a very different approach than you want to take with people trying to get up the learning curve for the enjoyment of a hobby. That may be why some of the books seem "harder" than is needed, and more likely to push people away from the field. Some of the people choosing text books want it that way.
I have both the Malvino and Floyd books from when I did my EE in the early 2000's. Both great books, but I found the Floyd had a more practical approach. Found the chapter on FETs and OPAmps to be easier to understand.
OMG! I recognize ALL of these texts! I had Floyd for a text at West LA College, Boyelstad AND Malvino at Univ. of Ark. at Little Rock, and my professor at UALR gave my friend and lab partner Abdallah the Sedra and Smith text as a gift for excelling in his class work!! These, as well as THE ART OF ELECTRONICS are some of the best text books in EE! Personally, I think Malvino's text is the best at explaining complicated circuits with a minimum of fuss. Sedra and Smith is best for gifted students.
"Paynter's Intro to Electronic Devices and Circuits" and "Cook Intro DC/AC Electronics". These are textbooks I used when I was a student in electronics technician school.
I'll take Floyd any day of the week. I used the Floyd book shown in this video when I started learning about electronic devices in a community college course for my AS EET degree, and it made sense to most of the class. I also found them easy to read, easy to understand. My university uses the Sedra/Smith book. I see other students struggle with that book and it makes me glad I got to use Floyd instead to learn the material.
I may be biased but I liked the more systematic mathematical approach of Sedra/Smith for university level electronics intro. It isn't really that hard to read, assuming you have taken classes in mathematical analysis, signals & systems, control theory, etc.
Sedra is in another class wrt the other three. It is aimed at Ic designers. The other ones are for people who want to design with discrete components and ICs as black boxes. Sedra is like a simplified version of Gray Meyer: it teaches you how to design what is in the black box .
In my 1st year we were using Boylstad's Introductory Circuit Analysis 13th edition for the Circuit Analysis I & II classes. Although I learned a great deal from it, I wasn't a big fan. My professors weren't either, and that lead them to choose another textbook for the following year. I was afforded the opportunity to peruse the book, and certainly found it more insightful. We also used Floyd's Digital Fundamentals 11th edition for the Digital Circuits class, and it will also be used for the Advanced Digital class. Good book, but the material was/is a little heavy. I consider myself more of an analog man (and enjoy analog a little more than digital), as my professors also noted as they observed how well I excelled in Circuit Analysis and Electronics. We also used Malvino's Electronic Principles 8th edition (same as used in this video) for the Electronics I class, and are currently using it for Electronics II. I do like the book, but I would like to see (w/all the books) a little more descriptive detail of practical applications. However, I have found that along with the textbooks, the resources available elsewhere (like your AWESOME channel) have helped me to excel in these subjects! I love electronics! AWESOME CHANNEL!
aaah nice to see my TAFE lecturer recommended the goodies! Hey Dave, I'm a newbie and loving learning electronics; especially when there's legends like you out there showing us real world demonstrations of things. I love the way you walk through tear downs as it's really helpful! I wondered if you would consider stooping low for us and do a video for all the noobs out there; on how to troubleshoot failed solar christmas lights? (that obviously have something more than the battery wrong with them!) It's a simple circuit compared to your usual shenanigans but I reckon heaps will benefit from it!
Excavatoree to professor: "I don't know who chose this text, but " Professor, Interrupting: "I did." Excavatoree: Uh..................... For those that remember him, it was Dr. Marshall Leach. No, he didn't hold it against me.
The beginning of your video highlights something a lot of students miss regardless of the subject being learned. That is the importance of understanding how your own brain responds to the way information is presented. Some people are heavy visual learners, others are practical, some can consume vast tomes of text with minimal need for illustrations or practice. Learning your strengths and weaknesses in this way allows you to learn more quickly and effectively.
I suspect there is still only one answer to "What is the best electronics textbook?" and that's "The Art of Electronics". I don't think it's down to personal preference; it's the clarity of explanation that counts (which Dave doesn't really address at all). Few books on any subject are as clearly explained as A of E. Nor do I think it's especially advanced. If you have a Physics 'O' Level (maybe an 'A' Level these days for a similar quantity of knowledge) then that's plenty enough to get you through it. Having said that - and believing A of E would never be knocked off its perch, I recently found something that I think may be better. It is "A Practical Introduction to Electronics" by Martin Hartley-Jones. This one does probably start at college level but there's nothing in it that a bright, and motivated, 15 year-old couldn't manage. It was written a couple of years before Horowitz & Hill and, I would say, benefits from not simplifying the subject so as to make bite-sized pieces. It aspires to a higher quality of learning that is unafraid to address complexities, and is more thorough as a result. It has the best introduction/explanation of transistor action that I have yet seen, in spite of not looking at the Ebers Moll model early on (as H&H do). If you wanted to design discrete circuits, and not just reach straight for an op amp, then this book wins hands down on how to set your quiescent conditions and what techniques are available for setting bias voltages. It also matches H&H for clarity. Anyway, I have bought a second copy as a Xmas present for a former pupil (I teach friends' children from time to time) and we'll see what he makes of it. May I put in a shout for Lancaster's Active Filter Cookbook while I'm here? My copy is in about six different pieces it's so well thumbed, but while it supposedly covers filters (which it does admirably) it also gives you a great grounding in how to use op amps. If you ever do a video on books that you MUST have in your library, few are likely to be as deserving of inclusion as this one.
@@helmuthschultes9243 please can you help me with the title of the best books that deals on SMPS thoroughly and clearly. Please I am really interested in SMPS, help me out 🙏. Looking forward to hearing from you.
@@Pemmanator While there are a number of excellent reference books on SMPS. As in the other comment I made, the book available direct from Texas Instruments seems hard to beat. It covers the entire range of information and formulas you are ever likely to need in clear detailed form. It is simple reading, no need for degree level prior knowledge yet cover everything needed. I do not know if easily found other than direct from TI , say Amazon. The title is "Fundamentals of Power Supply Design" by Robert A Mammano brougth out by Unitrode/Texas Instruments. No worries about supplier or parts specific orientation keeps away from self promotion. Nothing pushes the products, it covers theory very consisely and clearly, in easily understood terms. From types of Switch mode topologies, voltage regulation, control algorithms, digital control, ancilliary power, electromagnetic noise, fault management, , to magnetic components, feedback & feedback compensation and more. Cost when I added this to my book library was under US$60, much less than most other worthwhile books on this and other topics. It is far easier reading than some SMPS references I have read.
We used Sedra/Smith in my Microelectronics I class (op-amps, diodes, BJTs, MOSFETs, amps, Part 2 of that book IIRC) and I kind of hated it. I think it suffered from a very common problem in undergrad engineering textbooks where they only make sense after you understand the material. Once you learn something, you can never un-learn it, so fully looking at something from the perspective of newcomer must be very hard for a 70 year old engineer. I think that this results in textbooks that make total sense to the author but just don’t click with those who are totally new to the concepts in question. Another fault is that the didn’t use KCL or KVL once in the book. Meanwhile, our professor teaches the class by using KCL to analyze every single circuit he presents. When I was reading the textbook, I didn’t even realize why it felt so different until a few chapters in. And I definitely think it makes the book harder to read and learn from. Were they really not expecting students to know basic techniques? Or did they avoid them to avoid getting too “systematic?” Systematic problem solving is perfectly fine, and its usually better to start that way before attempting to ”Really Understand It”. This is coming from a 22 year old undergrad who has learned mostly from reading the textbooks. (I'm an old soul, I guess) It’s like teaching piano to someone and telling them you want them to really understand it so you don’t let them use a metronome. I don’t think learning works that way, I think brains are actually much more comfortable with the rote and systematic. Things tend to click AFTER you know you can handle them. Weird rant but, ugh, if they intentionally eschewed KCL in that book, that’s incredibly frustrating.
I guess I agree with the general gist, but I have to wonder, is there any other way? I mean, of course you understand things once you understand them, and you don't when you don't. And it's a given it's harder to empathize with someone who doesn't understand when you're "in the know" for so long you don't even know how it was before. But... Who else should write those textbooks if not people who understand the topics so well? I guess that there will always be "growing pains" when learning new concepts. Let's face it, these aren't always intuitive things (until you teach your intuition... Much later on), these aren't easy things, and we're all a bit different. I guess finding the best way to learn is _our_ responsibility as students, and the teachers can only do their best as they understand it, they do a lot of work to make it easier for us to be sure, but it's still on us to work through it and fight out any "incompatibilities" between our preferred ways of learning and their preferred ways of teaching. Eh, I guess I ranted a bit too...
@@tomaszwota1465 I think engineers should keep writing textbooks but maybe they should also hire people who are good at explaining things to undergrads to help out and do peer reviews with them. And maybe some kind of beta testing the chapters to first time learners. Or if nothing else a big sign above their desks that says "This will be MUCH harder for the 20 year old reading what you're writing."
@@me000 I agree (and I hope it happens) but as I do so I'm beginning to think about how much this has to prolong the process, which is long and hard as it is. It takes years for groups of people to write a good textbook, and of I'm not mistaken most of those groups don't even finalize their books, not because of lack of trying either. It's just that hard.
What we need is the EEVBlog Publishing House. Dave should write electronics textbooks from the beginning basics to the advanced stuff with comprehensive information ordered in a way that’s best for learning the material.
Forrest M. Mims III has written many beginners electronics books. I learned my first electronics from his books and it began a lifelong job in electronics and computers. My love of all things electronic began with his help. His simple introduction and book layout make learning electronics enjoyable. They are hand written with clear text, schematics and diagrams are drawn by hand. I own and treasure many of his books still today. I bought mine from Radio Shack in the 1970's. They are still being sold online. Search for his name to find them. I eventually graduated to "The Art Of Electronics". I hope this helps someone. May God Bless you all.
Boylestad Electricity, great book as well. Floyd Digital fundementals is simply awesome. The problem with scientists and mathematicians is that they cannot communicate with people even on literature. Floyd and Stroud are two authors that could communicate to the reader.
Dave, I would also suggest "Practical Electronics for Inventors, Fourth Edition" by Paul Scherz and Simon Monk. Great condensed coverage of all basics and circuits with an emphasis on building stuff :-)
My university a decade ago used Sedra/Smitha, fortunately supplemented heavily with labs and practical material. By god, everyone in the class hated that textbook and sought out various other means to learn the material because it’s just impenetrable.
I have started in Argentina at 8 years old, reading a comic very little monthly magazine called Lupin. I think that very simple magazine has inspire thousands of engineers in Argentina. Now we know that those circuits were very rudimentary, but taught us the essential: the curiosity.... IN UNIVERSITY BOYLESTAD
While I myself originally learned with Albert Paul Melvino Electronic Principals ( 4th edition) and Foundations of Electronics by Russell L. Meade, the Floyd book is a great recommendation. Digital electronics: a practical approach with VHDL/William Kleitz.-9th ed. is a great choice for digital, as well as Floyd's Digital Fundamentals, Global Edition. While old school, the Heathkit series were amongst the very best and let's not forget electricity one-seven, Hayden.
I know they are old, but all the Electrical and Engineering Series of Mcgraw Hill (specially all the books by Terman, like Radio and Electronic Engineering and Electronic Measurements) I absolutely love.
I'm a nonprofessional, but I like to design circuits from the ground up. That means that I need to use design equations to pick components and component values that will work once the topology is defined. Math doesn't scare me. So, It sounds like Sedra/Smith might be the best for me. What does scare me about technical books is the errors. Some books, eg. Monk, "Practical Electronics for Inventors" or some such title, are so full of them that in places I really can't understand what the book is saying. There are outright contradictory statements in the descriptions of the various types of capacitors. Otherwise, I like Monk's approach to the more basic stuff, though the treatments of circuit designs are a bit spotty. And there no errata sheets in the 2nd edition. Doesn't he review his own book before coming out with a new edition. Anyway, Dave, I think that the frequency of errors in a book is a very important consideration that you overlooked.
Very nice memories, I also have my electronic books still in my shelf as an degreed engineer technical informatics (computer engineering?) 1990. Now considering getting AoE & ARRL when now playing with Raspberry Pi. I started electronics as a german pupil in the late 1970s with Philips Electronics Kit (up to AM + FM Receiver) before becoming 1984 a professional Electronics Service Technician (Radios, HiFi-Stereo, TV, own build speaker boxes, alarm devices and their installation and camera monitoring devices) with german books from publisher Franzis & Elektor. In advance I studied electrical engineering + technical informatics with engineering books (publisher Vieweg, Hanser, Teubner, Springer), Analogue Multimeter and self built Analog Oscilloscope, Commodore C64 (extra 2nd ROM, userport I/O extensions), Sharp PC-1403 pocket computer (BASIC and matrix calculations), Atari ST1024 (Motorola mc68000) with graphical user interface and mouse and 3.5 " floppy discs - cheaper than Apples McIntosh & 1st Amiga 2000 and cheaper & better than all IBM PC clones to that time.
I am looking for a good list of the basic circuits you need to know as a reference to use. Like filtering circuits, amplifying circuits etc. Preferably with a way to search by application or purpose. SO if you want to remove noise from a signal it will lead you to examples of filtering circuits etc. I think it would be useful for teaching beginners and even more advanced electronics.
If you want the very basics (e.g. what is a capacitor), you really need an introductory physics textbook. Even electrical engineers start out taking intro to physics. Cause, let's face it, electronics is physics in action (which is what makes it cool ;).
Your correct. Electronics is just applied physics. I’m currently studying vacuum tubes and appreciate how the mobile charge carriers are derived from a heated cathode. In semiconductor the mobile charge carriers are derived from doping semiconductors with impurities to create the n type and p type material.
The video host Dave said Sedra and smith is bad as it contains lot of math. I think it is really easy book with lot of "tools". It is easy for any person who has done some math in linear algebra and ODE's and differentiation and integration. The tools above are mini circuits which can be connected to form bigger circuits. The book teaches you how to build circuits, amplifiers in this way. I had been reading this book and it seems fairly easy. Some design problems take time as you need to be inventive in making circuits. The video host seems to come to conclusions quickly. For somebody who has completed Electronics/Electrical engineering degree twenty or thirty years ago, it may seem hard at first but if you re-aquaint yourself with engineering circuit analysis with books like Hayt, kemmerly Durbin and phillips and a Engineering math book like Kreyszing and a signals and systems book, the Sedra and Smith book is easy and also fun. The same might be said about Boylestad or others. This is my sincere review of the Sedra and smith book.
The AC & DC Circuits classes at my school (ACC Austin) use Introductory Circuit Analysis (13th Ed.) by Boylestad. I've really enjoyed the book. We have a lot of lab time and it's helped tons. For the digital stuff we use Digital Systems (12th Ed.) by Tocci and that book was superbly illuminating.
I learned all that without going through a single page of the textbook. I didn't even go to the lectures. I don't even know how I passed all my exams with distinctions.
Yes! I just got one of his books as a gift last year. Brought back a lot of memories. I used to hit up Radio Shack every week when I was a kid. Even started my path into computing on the TSR80.
In my EE courses at Waterloo (where Sedra currently teaches), they didn't follow the order of the textbook at all. Also, it was great to watch Dave's explanations juxtaposing Sedra Smith when I was learning this stuff in uni. Made much more sense to my brain
At 11:42, I am going to say that programming and automated testing is a good idea because deciding how you are going to test what you design is, or should be, part of design.
I had a very rare book (rare in the UK, because it was an australian book) that was made even rarer because the entire time I was at one school I had it from the school library on a permanent loan and although it wasn't a reference book, I had very little resources to other suitable other books so I used it as such. Dick Smith would have been proud. His "Dick Smith's Fun Way into Electronics" was a winner for early learning during the 80's for a teenager. The only other books I'd have used as a companion to these was the complete collection of Forrest Mims Mini-Notebooks", and most importantly his "Getting Started in Electronics" book. However the books covered in the video are probably more suitable for someone a little older or with a better understanding of science/maths. I just take my time to understand why something is working in a certain way or why cause + cause = effect. Much too much for a 12-14 year old in most cases.
The Art of Electronics is a great book, but not for beginners. For them I'd recommend Grob's Basic Electronics. Really teaches the essentials from the ground up. In the second half it has some shortcomings, after which you're better off switching to TAOE.
The very 2 books that I taught myself electronics from. With only a HS education I went from installing CB's to work with HP, then TRW, and on to IBM, and finally retiring after 30 years of electronics work as a senior R&D tech for SONY. Everything else I needed to know I learned on the job after getting started with those 2 books as my foundation. I kept copies of them close at hand at every job I ever had. In fact, I'm 73 now, and I still have copies of them close at hand for my ham radio work, for which I added to them copies of the ARRL Handbook for Radio Amateurs for 3 different years over the last 30 in order to follow the advances in the hobby.
Lovely :) For the really poor among us, most text books can be found as free downloads if you do a advanced search in google. You still need a future even though you can hardly afford to eat. :/ Hard copies are great and I prefer them for reading, but after a while the pile of books gets high and heavy, and expensive.
@@cesaru3619, if you're going back to the origin of the magic smoke you will be going back a LONG WAY. I heard that back when I was in high school electronics class in 1966. That seems like work for archeologists.
I am more of a Sedra Smith guy... but then again... I come from a physics department... Got to admit though... Floyd guy has a very good medium of presentation. Got to have it now!
Hey Dave, just wanted to point out that Sedra/Smith does go into the basics of op-amps. It starts in Chapter 2 (in the textbook I have). You were going over Chapter 13, which dives deeper into op-amps, granted that the person reading has already reviewed Chapter 2. I think they start out much better than the other textbooks with the ideal op-amp, what happens when you add feedback, inverting/non-inverting amps, very similar to how you described it in your op-amp basics video.
Cheers!
Yep, totally missed that! Still fairly math oriented though, but yes does the ideal opamp thing.
Ado Man is right. After all, this textbook is Barby Certified™.
@@mauriswinata5628 Can confirm. Barby swore by this book.
@@EEVblog it definitely is too focused on the raw mathematics. It was one of the complaints I had about the book when I used it for my electronics courses a few years back.
Glad to know it wasn't just me.
Text book I used back in the late 80s. In the end, the issue isn't which text book is best, it is HOW MUCH DID YOU GRASP FROM YOUR NETWORK CLASSES....you remember, Ohm's Law, Kirchov's Law, etc. Using Spice (or whatever they use today for nodal analysis), etc.
I think a lot of people would be surprised by just how good the ARRL handbook can be for a lot of this.
2nd time I heard this today!
You missed my personal favorite: Practical Electronics for Inventors, by Paul Scherz and Simon Monk. Easy to understand, good practical examples, starts at a beginner level and works up to fairly advanced topics. Highly recommended.
Yes I LOVE that one.
I agree, it's excellent. I think because it starts out at a more basic level than the ones covered here, it probably belongs on a different list. It is absolutely a great book though! I think it's up to it's fourth edition? I have a copy of the third, not sure how much difference there is between the two.
I think it belongs in a different list. I kind of combines a basic book on circuit analysis with an electronics book like this ones, but the lighter approach is great for the hobbyist IMHO. It's my preferred book for learning too, after that one you can just get the Art of electronics and you're golden.
I just ordered the 3rd edition for half the price of the 4th. Hope this was a good recommendation
Practical Electronics for Inventors is great but it isn't really a textbook, more like a reference guide for hobbyists. It doesn't have problems and other things to really practice designing and understanding circuits having these components
I've been working in electronics for 50 years and I am still learning the basics. 😄
1K = 1mA per volt
Please share good basic books names and links
Maybe that's a sign that you should try a different hobby.
@@typedeaf LOL
He said work not hobby...
@@pravinsengottaiyan9244 - The books listed in the video are an excellent starting point - highly recommended, especially Malvino!!
I like "Practical Electronics for Inventors" by Paul Scherz and Simon Monk
I was in JR. High School (In the mid 70's) when I caught the Electronics Bug. I used to carry around the National Semiconductor Analog Data Book and the Signetics TTL Book. The Signetics TTL White hard bound data Book was so beautifully illustrated, I still have it today.
Electronic Principles has by far been my favorite. Something about the way the information is communicated is so clear to me. I also wanted to point out that the stiff voltage and stiff current sections were really simple to understand and helped to deepen my understanding of electronics, so it's definitely a win for me.
It's one of the finest textbooks on electronics ever written. Albert Malvino put his heart and soul into this text. He wanted it to be crystal clear and accessible for all.
To pass engineering exams, Sedra-Smith. To just learn, any other.
Fair call.
Taking a look throgh my Sedra-Smith there are no pictures of components, test equipment or datasheets. The other books seem like a better choice for learning electronics outside an engineering education.
So much this, I did my EE undergrad from the school where Adel Sedra teaches and boy were their electronics courses so mathy
Tortillin0077 UofW pride ❤️
I found this comment very helpful.
The Art of Electronics by Horowitz-Hill is amazing for learning applied electronics, great book!
First book I got at work, was always going to it
It's a fine reference. It's crap to learn from. I was greatly dissatisfied with the 2nd edition I bought when I was first trying to learn.
@@FormulaXFD I find it great to learn from. The problem is the language, if you can't speak it ... you can't understand. But at least the language IS THERE and it is CORRECT. And yes, my copy is the 2nd Edition. ;)
Current edition is far better than second edition, much has been added. The 2020 X chapters should be good based on past edition
i got that book from my library the 2nd edition and it was to mush for some learning from scratch!! but I am going to buy it coz it is great.. would understand a lot more of its content now but it was to much a year ago.. I loved how it had schematics of good circuits and bad circuits.. that was cool. if your brand new to this,, electronics for dummies!! and make electronics by Charles Platt 2nd edition is good, shows you circuits built on solder less bread boards.. very good and easy to follow and understand. do what I do and try and get them out of your library before committing to buying....
UPDATE: Turns out that Sedra/Smith does have an introductory OpAmps section which is out of place near the start which is why I missed it. It's still fairly maths oriented though.
Dave you should also disccus ARRL Handbook 2019, this book is amazing. It is a level of ART of Electronics. I have both and in some topics handbook is better. It is very comprehensive, over 1280 pages. ARRL Handbook 2019 and ART of Electronics are must for my everyday work.
do you know....hell!...you speak blasphemous words...even in jest....they will send you to the unpleasant place....can you hear?...or will you remain ignorant?
@@MrTwige take your meds
@@astronola you too shall perish in your sin and your ignorance...
@@MrTwige this is an electronics channel not a channel for you to post your insanity. Go take your meds and put on your helmet
I'm a theoretical physicist who has spent plenty of time with Maxwell's equations and quantum electrodynamics already (including having had conversations with EEs that boil down to "if we could just reduce it to some trivial problem where we could Fourier-Laplace transform it"), but admittedly don't know much about practical electronic circuit design. So Sedra/Smith looks like a live option for me. The Art of Electronics is looking interesting too.
Math doesn't scare and I certainly don't want another damn cartoon picture of the atom! Admittedly that's a rather niche market...
By the way, I did like your op-amp videos too!
It was the "the art of electronics " for me. Recomended by chief engineer in R&D lab, still got it and use it today, now the grey cells are getting on a bit.
I second this, I was shown this book 15+ years ago and I bought a copy. It's got everything and was also called the "electronics bible" too, bit heavy for starters but does go into what voltage, current and everything else is. Perfect!
I've chosen AoE as my starter weapon (well, besides EEVblog and the Electronics Stack Exchange) and I have not had very much trouble at all. I am an autodidact in a few different subjects already, though, which surely prevents some amount of friction.
Dave, the best textbook out there is your back catalog of fundamentals friday videos.
The Art Of Electronics. Amen.
No
Worst book to start with. 😂
Crap
I agree about Sedra/Smith being too math heavy. My school (or the Dr. teaching all the electronics courses) leaned heavily on it. Up until senior year I couldn't tell you how anything we learned worked, but I could rattle off the math from memory because if you didn't, you'd fail the exam.
It wasn't until I got senior level courses with professors that focused on "intuitively understanding" the devices and circuits that it all started to make some sense instead of just being numbers. The types who would ramble on about random stories and make jokes taught me more than the department heads who would drone on for an hour about the math.
Still a fantastic resource, though.
My "favorite" part of the S/S experience was the 30 minutes of marker squeak in front of a dead silent classroom while the professor filled the every bit of the whiteboard with equations and diagrams. the moment he turned around and started talking, there was a good 60 seconds of everyone scrambling to get ready to take notes again
I started my electrical education as a kid, using a completely metal screwdriver - including handle - and the mains electrical socket in my bedroom.
I can still smell the burned skin like it was yesterday. Those are the lessons you just can't find in books these days.. :)
In the days when there was no RCD ...😂😂😂😂⚡🌌 👍
ouch !
I did something similar grounding the spark plug on dad's old lawnmower...Flew about 10 feet across the garage!
ha, similar experience here. one year for christmas I was bought a basic set of tools with a breadboard and resistors, transistors, diodes, wire, batteries, bulbs etc. and little book of circuits to make. it was a starter kit thing from Maplin I think, and I was given it on the condition that I never touch anything with a mains plug on it because one day my mum had come into my bedroom to find that I'd taken my portable black and white TV apart (while plugged in) to find out how it worked
For textbooks I like picking up used copies (semi-recent editions), it's a cheap way to see if the book speaks to me or not.
For sure, much cheaper option.
Great video! I taught electronics engineering technology (EET) and engineering (for EE and ME students) in circuit analysis for 40 years at the university (Purdue) and at at community college (Rock Valley College) levels. I also worked (concurrently) as an EE at an aerospace company for 31 years. The dual experiences gave me a unique perspective. I taught from Floyd, Malvino, and Boylstadt at various times. I would rank them in that order from friendly to not so friendly. Sedra is in a totally different class (hostile). I believes this agrees with your assessment. You were spot on. The Art of Electronics is a popular reference book. If I were teaching an electronics class, it suitable only as a recommended reference.
Thank you sir. As the teacher you are, I just learned a good path from you.
The book I recommend to people is Foundation's of Electronics Circuits & Devices by Russell Meade. Comes in two flavors, electron flow or conventional flow. Common book around here for technical / vocational schools and local community colleges. Covers all the basic theory and components which all the ones you showed seem to skip.
I am both an Electrical Technologist and an Electrical Engineer. The Malvino text is primary for technology/technician students. The Sedra/Smith is for university students in electrical and computer engineering, designed to cover all the core electronic courses as well as additional 4th year topics. Both are amazing texts and will help you seriously excel and learn if you take the time to work through them.
Hi, did go to EE after realizing during your EET that you like this field? I’m thinking about doing the same. I’m going through a EET Associates in Science.
Dave, thanks for your "Electronics Textbook Shootout." It helps me understand how others might see things. I'm a recently retired professor of electrical engineering and also worked in the electronics industry designing NMOS chips (this was the early 1980's when CMOS was not yet dominant) for a well known company that, "started up in a garage." When I was a student myself Sedra and Smith's book did not yet exist and the TTL 7400 type logic BJT stuff) was state-of-the art. When I started teaching, Sedra and Smith is the book I gravitated to because it was rigorous and included things that I had to deal with industry. For a rigorous and robust presentation, IMHO Sedra and Smith stands out with margin from the other books. I'd also like to point out that Sedra and Smith has a "FETs first" approach to semiconductor theory. This seemed weird to me when they first introduced it (at about 5th edition) because I had been taught "BJTs first" when I was a student. But the more I used Sedra and Smith, the more I appreciated that "FETs first" is what is happening in industry and more directly covered the types of work I did in industry. I now think it is a superior way to teach students. Well, that's just my two bits. But I see your point about the graphics, especially the good graphics in Floyd's book. Sedra and Smith could do better there for sure.
I greatly appreciate your videos. Keep 'em coming!
Professor Steve Menhart at the Univ. of Ark at Little Rock recommended Sedra and Smith for his most gifted students.
I still have my second edition of Malvino it looks very different from the one you were showing. I was taking classes in Silicon Valley during the late 70s and both Malvino and Grob were teaching classes around the Bay Area. I was in a program that used Grob’s book but I went to another campus to buy a copy of Malvino’s book because I found easier to read. On another note my father worked the telephone company; after he died I was cleaning out the garage for my mother and found a box of books that were the course material for his lineman classes. I was very impressed with level of theory in these books especially the parts about isolation transforms. I learned quite a bit that later put to uses in a telecom equipment manufacture I worked for.
I used the 3rd edition of Malvino in Ulster Community College in upstate New York in mid '80s. I believe we covered the book in 2 or 3 semester with lab. I went beyond course requirement and designed and built an audio amplifier with pre-amp stage. With a summer job I brought a new Tektronix oscilloscope. I had a complete lab setup at home. Before that I used junkie 2nd hand scopes from a surplus store. I spend more time working on the junkie scope than tested the circuit. One thing that broke my heart was working with other guys that had no interest in electronics. Most of them studied electronics in the Navy to have a career when they got out. The Navy guys were good at hooking stuff up, but couldn't even quote Ohm's Law.
I am currently learning about amplifiers from Malvino's book. According to me it by far one of the most understandable books regarding amplifiers and transistors in these times too. Also, I like the troubleshooting parts too that makes it so practical as well, not just theory stuff :)
Well put Dave. I have found that you cannot limit yourself to one source. Over the years of post graduation. I found many excellent resources. Downloaded The Art of Electronics yesterday.
good video liked how you went through each book and showed what they looked like and their contents. must save this one to my favorites..
I'm an ECE Student from Greece and for the introduction in electronics we use a textbook book from a greek professor but we also use Sedra-Smith for the more advanced courses and even though it seems convoluted it's an amazing textbook. It has helped me not only for the university courses but for personal projects as well.
One thing that makes The Art Of Electronics textbook-like is the fact that there is a lab manual for it also (which has info in it not in the main book).
I'm going through Boylestad and its fantastic. He literally states that he doesn't want to go into extensive math. Love it!
"The primary purpose of this text is to develop a general knowledge of the behavior, capabilities, and possible areas of application of a device in a manner that will minimize the need for extensive mathematical developments."
Hey, i like your youtube channel!
I was self-taught through high school, and I started with Forrest M. Mims book (Getting Started in Electronics), then Make: Electronics, then Practical Electronics for Inventors, then Art of Electronics. I started reading AoE in senior year of HS, but I'm still going through it five years later, there's just so much good stuff you can miss. I kept the Markus Sourcebook of Electronic Circuits around a lot through high school and college, and then one of my favorites, Grey and Meyer! I've actually had the 1st edition for years now, and still learn from it (though I keep the updated version as a PDF, old editions completely neglect CMOS and MOSFET circuits in analog). I have a copy of Sedra and Smith now, which I use often, though it certainly feels like a textbook rather than an electronics book. The material is thorough and solid. Then from coursework I have books like Streetman and Banerjee (Solid State Electronic Devices), and Weste and Harris (CMOS VLSI Design) which can be exceedingly dense (wall-of-text) but they are very valuable. Then there's the speciality books on RF and microwave (Bowick, Pozar, Jackson), high speed digital (Black Magic is a must), signal processing (Oppenheim), and communications (Lathi, Proakis). This is of course not to mention app notes and datasheets, which are how I learned much of what I know about embedded systems, as well as the number of great writers of notes and articles, like Jim Williams and Bob Pease. I could go on! Nothing like a good book on circuits, there's so much creativity.
That Mims book is awesome for a basic intro. Still one of the best.
Did you read Oppenheim's Signals & Systems book? I tried to last year, but the man is just so dang wordy. Jonathan Valvano has some excellent embedded books btw.
Came here just to mention the mighty Forrest Mims. His books were so instrumental to my initial self-taught electronics education. In college, I took Forrest Mims-style notes in all my classes. (I still have those somewhere…)
@@me000 It is really wordy and dense, no doubt. I didn't really 'read' so much as skim and do practice problems and check derivations! I still reference it though
Lots of people focusing on the mathyness of the Serra/Smith book but as someone who’s literally using that textbook (and bought it so i could retain my copy), it’s fantastic to be able to understand how the hell you can arrive at say, a small signal model, from the more obvious equations, along with how you would actually try adjusting parameters to make specific impacts. It’s one of the few references that actually goes deep enough to make itself valuable over the (surprisingly detailed) Wikipedia pages on various subjects. Coupled with Art of Electronics, you get a really good cross reference domain knowledge.
Another super useful resource is the (FREE!!) book by the designer of the 555 timer IC, which you can get online and it covers IC circuits in detail as well, while spending a decent amount of time on the practicals. Found out about it recently and can’t recommend it enough.
@Iris Johnson which is the title/ISBN of the 555 book you mentioned?
@@gbfiore www.designinganalogchips.com/
ISBN-13: 978-1589397187
The free download is on the site
Camenzind book is really good, although I would use it as an additional resorce only. Camenzind also wrote a book on the history of electronics that is worth reading.
For my E.E. degree at the Technical University of Denmark, I used Hambly as an introduction followed by Sedra/Smith. Didnt really like Sedra/Smith, but I got through it.
Also, I placed an order for the X-chapters - really looking forward to this! 🤟
The missing diode graphics in Floyd - are what you see in the pirated version of the PDF.
We used Sedra/Smith in our class and your reaction is absolutely spot on. It was not a smooth learning experience.
Hit the nail on the head, a single book that covers all of electronics would be 250,000 pages long. I've got the older versions of Sedra/Smith and Boylestad, et al. These books are usually studied in the 3rd year of EE study, after you have all the math and physics background needed to understand these advanced concepts. I've also got several dozen other books on electrical engineering, as I worked through and obtained my B.Sc. in EE. I'm still saving up for "The Art of Electronics", a great book on the application of electronics, but not much theory, hoping to get it in the next year or so.
First learned electron flow in school in the 70s and it took a great deal of effort to relearn electronics with conventional flow.
Just as a reference the U.S. military electronic courses taught using electron flow only.
Oooh! Thanks for bringing the X-Chapters to my attention I have been waiting a long time for an update to TAOE.
I don't think Harvard uses The Art of Electronics for any EE course but instead for an "electronics for non EEs". Where the course is intended for those working in experimental physics, chemistry, computer science, etc...
Physics programs in the USA often use it for a one semester course on electronics in the 3rd year. By then students know electromagnetics, seen basic AC/DC circuits, and taken a fair amount of maths courses. Having all that really helps get over the initial steepness of it's learning curve that many self studiers experience.
The main textbook I used for the subdject at that time (90's @ Universidade Coimbra - FCTUC) was "Microelectronics" 2nd edition by Jacob Millman and Arvin Grabel
There was a portuguese version of it, divided into 2 books, all black printing (missing the original shades of blue in some graphics and schematics) and each book cost nearly as much as the single original textbook in english. I still have mine, like Dave's "Electronic Devices" 2nd edition, with the contact transparent plastic protection cover. :)
One thing I've noticed about the Millman books is that the older they are the better they get. I believe "Electronic devices and circuits" to be the best of them all.
@@copernicofelinis - Millman is a highly respected author and an excellent writer.
This is an interesting subject to me. I started in electronics as a technician in the USMC, so I’ve always been trying to improve my understanding over the past 30 years. I’ve recently been purchasing historical books on electronics. Some of my favorites are Bode’s Network Analysis and Feedback Amplifier Design, Henney’s Radio Engineering Handbook, Terman’s Radio Engineer’s Handbook and Servomechanisms and Regulating System Design by Chestnut and Mayer. Except for Bode, I picked these up for less that $15 each. It’s amazing how much of the theory of electronics was already fully developed back in the tube era, even before the end of WWII.
If you are a student there are lots and lots of electronics books in pdf format online that you can download for free. They just seem to be available if you google the book title. This is a great way for students who may not have a lot of money to acquire good books. If you are old school like me and you like to have the physical book then there are loads of used books out there that you can buy online for very very cheap. They may only be 3rd or 4th editions but the fundamentals of electronics don't change so buy up some of these books and start you own little collection. Oh and to anyone just starting out studying electronics, best of luck and stick at it. I am halfway through my 3rd year of college and still learning so much new stuff everyday.
THE BEST ADVICE I HAVE HEARD AND,MAKES THE MOST SENSE
Bang for the buck, it's hard to beat practical electronics for inventors by Scherz and Monk.
It's a great intro into electronics that's written in easy to understand language. The newest edition is only $20.
I learned basic electronics via Malvino Electronic principles 5th edition and Digital electronics via Floyd Digital fundamentals 8th edition. I love both authors.
1:05 I think the PIC vs Atmel debate was definitively settled when Microchip acquired Atmel.
Tell that to the Atmel fanboys.
Yes, microchip had to acquire atmel in order to stay relevant.
@@mrcomment5544 Haha! Quite! That gave me a happy little laugh. :)
@Mai Mariarti ESP32 and it's variants are so much bang for buck for most hobbyists. It's amazing what you can get for $5 now days.
I miss the fights at PicList @ MIT,.... the [OT] subjects were colorful.
I read the Sedra textbook cover to cover during undergrad. I agree with Dave mostly. In the context of my program, the math wasn't a barrier and complimented my other classes. With that said, in some places it felt like Sedra was just wedging in complexity to no practical gain. The worst example was the chapter on semiconductor physics (CH3). Yeeeesh. In an introductory design textbook, we don't need more then simple transistor modeling. An intro to semiconductor physics belongs in several semester long courses, not crammed into one chapter of an basic EE book.
Agreed
Yeah, I had my sedra/smith class last year and I couldn't just jump into the BJT/MOSFET chapters, its almost like it was presented in a way that you're forced to read the semiconductor physics chapter first, and it was incredibly frustrating. Of course, we had no exam or homework questions about semiconductor physics. I would've been so much happier if they just started with the model. I don't even mind the emphasis on math, but the book wasn't very good at exposing the material.
Looking forward to seeing your book list for beginners
*Crickets chirping
A lot of professors and departments LIKE a math-heavy, push you in the deep end of the pool -type books for their starting core classes. It lets them weed out early the ones that likely won't complete the curriculum for the major. That is a very different approach than you want to take with people trying to get up the learning curve for the enjoyment of a hobby. That may be why some of the books seem "harder" than is needed, and more likely to push people away from the field. Some of the people choosing text books want it that way.
I have both the Malvino and Floyd books from when I did my EE in the early 2000's. Both great books, but I found the Floyd had a more practical approach. Found the chapter on FETs and OPAmps to be easier to understand.
OMG! I recognize ALL of these texts! I had Floyd for a text at West LA College, Boyelstad AND Malvino at Univ. of Ark. at Little Rock, and my professor at UALR gave my friend and lab partner Abdallah the Sedra and Smith text as a gift for excelling in his class work!! These, as well as THE ART OF ELECTRONICS are some of the best text books in EE! Personally, I think Malvino's text is the best at explaining complicated circuits with a minimum of fuss. Sedra and Smith is best for gifted students.
"Paynter's Intro to Electronic Devices and Circuits" and "Cook Intro DC/AC Electronics". These are textbooks I used when I was a student in electronics technician school.
I'll take Floyd any day of the week. I used the Floyd book shown in this video when I started learning about electronic devices in a community college course for my AS EET degree, and it made sense to most of the class. I also found them easy to read, easy to understand.
My university uses the Sedra/Smith book. I see other students struggle with that book and it makes me glad I got to use Floyd instead to learn the material.
I may be biased but I liked the more systematic mathematical approach of Sedra/Smith for university level electronics intro. It isn't really that hard to read, assuming you have taken classes in mathematical analysis, signals & systems, control theory, etc.
When i did my degree the course books were written by the tutors and the course built around them, nice little second income for them.
Sedra is in another class wrt the other three. It is aimed at Ic designers. The other ones are for people who want to design with discrete components and ICs as black boxes. Sedra is like a simplified version of Gray Meyer: it teaches you how to design what is in the black box .
Thank you for the all the work you do and all these content you share EEVBlog :). I can't put it in words how useful these videos are to us!
In my 1st year we were using Boylstad's Introductory Circuit Analysis 13th edition for the Circuit Analysis I & II classes. Although I learned a great deal from it, I wasn't a big fan. My professors weren't either, and that lead them to choose another textbook for the following year. I was afforded the opportunity to peruse the book, and certainly found it more insightful. We also used Floyd's Digital Fundamentals 11th edition for the Digital Circuits class, and it will also be used for the Advanced Digital class. Good book, but the material was/is a little heavy. I consider myself more of an analog man (and enjoy analog a little more than digital), as my professors also noted as they observed how well I excelled in Circuit Analysis and Electronics. We also used Malvino's Electronic Principles 8th edition (same as used in this video) for the Electronics I class, and are currently using it for Electronics II. I do like the book, but I would like to see (w/all the books) a little more descriptive detail of practical applications. However, I have found that along with the textbooks, the resources available elsewhere (like your AWESOME channel) have helped me to excel in these subjects! I love electronics! AWESOME CHANNEL!
aaah nice to see my TAFE lecturer recommended the goodies!
Hey Dave, I'm a newbie and loving learning electronics; especially when there's legends like you out there showing us real world demonstrations of things. I love the way you walk through tear downs as it's really helpful!
I wondered if you would consider stooping low for us and do a video for all the noobs out there; on how to troubleshoot failed solar christmas lights? (that obviously have something more than the battery wrong with them!) It's a simple circuit compared to your usual shenanigans but I reckon heaps will benefit from it!
Norri Buvari what are you studying at TAFE?
@@HenryYong Hey Henry! Electronics and communications cert 3 😁
Norri Buvari Cool. I have just completed my Cert IV. All the best!
@@HenryYong oh sweet! Congratulations!! That's awesome! Hope I can do the cert IV next year! Fingers crossed 😁😁😁
Excavatoree to professor:
"I don't know who chose this text, but "
Professor, Interrupting:
"I did."
Excavatoree:
Uh.....................
For those that remember him, it was Dr. Marshall Leach. No, he didn't hold it against me.
xD
The beginning of your video highlights something a lot of students miss regardless of the subject being learned. That is the importance of understanding how your own brain responds to the way information is presented. Some people are heavy visual learners, others are practical, some can consume vast tomes of text with minimal need for illustrations or practice. Learning your strengths and weaknesses in this way allows you to learn more quickly and effectively.
I suspect there is still only one answer to "What is the best electronics textbook?" and that's "The Art of Electronics". I don't think it's down to personal preference; it's the clarity of explanation that counts (which Dave doesn't really address at all). Few books on any subject are as clearly explained as A of E. Nor do I think it's especially advanced. If you have a Physics 'O' Level (maybe an 'A' Level these days for a similar quantity of knowledge) then that's plenty enough to get you through it.
Having said that - and believing A of E would never be knocked off its perch, I recently found something that I think may be better. It is "A Practical Introduction to Electronics" by Martin Hartley-Jones. This one does probably start at college level but there's nothing in it that a bright, and motivated, 15 year-old couldn't manage. It was written a couple of years before Horowitz & Hill and, I would say, benefits from not simplifying the subject so as to make bite-sized pieces. It aspires to a higher quality of learning that is unafraid to address complexities, and is more thorough as a result. It has the best introduction/explanation of transistor action that I have yet seen, in spite of not looking at the Ebers Moll model early on (as H&H do). If you wanted to design discrete circuits, and not just reach straight for an op amp, then this book wins hands down on how to set your quiescent conditions and what techniques are available for setting bias voltages. It also matches H&H for clarity. Anyway, I have bought a second copy as a Xmas present for a former pupil (I teach friends' children from time to time) and we'll see what he makes of it.
May I put in a shout for Lancaster's Active Filter Cookbook while I'm here? My copy is in about six different pieces it's so well thumbed, but while it supposedly covers filters (which it does admirably) it also gives you a great grounding in how to use op amps. If you ever do a video on books that you MUST have in your library, few are likely to be as deserving of inclusion as this one.
Thanks to you, I've read the High Speed Digital Design. So much learned there. Even just for SMPS.
On SMPs the Texas Instruments book can not be beaten
@@helmuthschultes9243 cool thx. I will check it out.
@@helmuthschultes9243 please can you help me with the title of the best books that deals on SMPS thoroughly and clearly. Please I am really interested in SMPS, help me out 🙏. Looking forward to hearing from you.
@@Pemmanator
While there are a number of excellent reference books on SMPS. As in the other comment I made, the book available direct from Texas Instruments seems hard to beat. It covers the entire range of information and formulas you are ever likely to need in clear detailed form. It is simple reading, no need for degree level prior knowledge yet cover everything needed.
I do not know if easily found other than direct from TI , say Amazon. The title is "Fundamentals of Power Supply Design" by Robert A Mammano brougth out by Unitrode/Texas Instruments.
No worries about supplier or parts specific orientation keeps away from self promotion. Nothing pushes the products, it covers theory very consisely and clearly, in easily understood terms. From types of Switch mode topologies, voltage regulation, control algorithms, digital control, ancilliary power, electromagnetic noise, fault management, , to magnetic components, feedback & feedback compensation and more.
Cost when I added this to my book library was under US$60, much less than most other worthwhile books on this and other topics. It is far easier reading than some SMPS references I have read.
@@helmuthschultes9243 Thank you very much for your quick and detailed response 🤝 I am glad.
We used Sedra/Smith in my Microelectronics I class (op-amps, diodes, BJTs, MOSFETs, amps, Part 2 of that book IIRC) and I kind of hated it. I think it suffered from a very common problem in undergrad engineering textbooks where they only make sense after you understand the material. Once you learn something, you can never un-learn it, so fully looking at something from the perspective of newcomer must be very hard for a 70 year old engineer. I think that this results in textbooks that make total sense to the author but just don’t click with those who are totally new to the concepts in question.
Another fault is that the didn’t use KCL or KVL once in the book. Meanwhile, our professor teaches the class by using KCL to analyze every single circuit he presents. When I was reading the textbook, I didn’t even realize why it felt so different until a few chapters in. And I definitely think it makes the book harder to read and learn from. Were they really not expecting students to know basic techniques? Or did they avoid them to avoid getting too “systematic?” Systematic problem solving is perfectly fine, and its usually better to start that way before attempting to ”Really Understand It”. This is coming from a 22 year old undergrad who has learned mostly from reading the textbooks. (I'm an old soul, I guess) It’s like teaching piano to someone and telling them you want them to really understand it so you don’t let them use a metronome. I don’t think learning works that way, I think brains are actually much more comfortable with the rote and systematic. Things tend to click AFTER you know you can handle them. Weird rant but, ugh, if they intentionally eschewed KCL in that book, that’s incredibly frustrating.
I guess I agree with the general gist, but I have to wonder, is there any other way?
I mean, of course you understand things once you understand them, and you don't when you don't.
And it's a given it's harder to empathize with someone who doesn't understand when you're "in the know" for so long you don't even know how it was before.
But... Who else should write those textbooks if not people who understand the topics so well?
I guess that there will always be "growing pains" when learning new concepts. Let's face it, these aren't always intuitive things (until you teach your intuition... Much later on), these aren't easy things, and we're all a bit different.
I guess finding the best way to learn is _our_ responsibility as students, and the teachers can only do their best as they understand it, they do a lot of work to make it easier for us to be sure, but it's still on us to work through it and fight out any "incompatibilities" between our preferred ways of learning and their preferred ways of teaching.
Eh, I guess I ranted a bit too...
@@tomaszwota1465 I think engineers should keep writing textbooks but maybe they should also hire people who are good at explaining things to undergrads to help out and do peer reviews with them. And maybe some kind of beta testing the chapters to first time learners. Or if nothing else a big sign above their desks that says "This will be MUCH harder for the 20 year old reading what you're writing."
@@me000 I agree (and I hope it happens) but as I do so I'm beginning to think about how much this has to prolong the process, which is long and hard as it is.
It takes years for groups of people to write a good textbook, and of I'm not mistaken most of those groups don't even finalize their books, not because of lack of trying either. It's just that hard.
What we need is the EEVBlog Publishing House. Dave should write electronics textbooks from the beginning basics to the advanced stuff with comprehensive information ordered in a way that’s best for learning the material.
We used Malvino as a High School text and Sedra and Smith as a University 1st year EE text.
Malvino is awesome, my teacher changed from teaching EE to robotics and so he gave me a spare copy for free. Phenomenal book, taught me loads.
Looking forward for episode about beginner textbooks! Despite the fact that learning basics from the web + some practice is probably the way to go.
Forrest M. Mims III has written many beginners electronics books.
I learned my first electronics from his books and it began a lifelong job in electronics and computers. My love of all things electronic began with his help.
His simple introduction and book layout make learning electronics enjoyable. They are hand written with clear text, schematics and diagrams are drawn by hand.
I own and treasure many of his books still today. I bought mine from Radio Shack in the 1970's. They are still being sold online. Search for his name to find them.
I eventually graduated to "The Art Of Electronics".
I hope this helps someone.
May God Bless you all.
It's an enjoyable introduction, when you realize you get some of it.
Great little books.
Thanks Dave, may show my professors this in hopes they adopt the floyd book vs the sedra.
Boylestad Electricity, great book as well.
Floyd Digital fundementals is simply awesome.
The problem with scientists and mathematicians is that they cannot communicate with people even on literature. Floyd and Stroud are two authors that could communicate to the reader.
Dave, I would also suggest "Practical Electronics for Inventors, Fourth Edition" by Paul Scherz and Simon Monk. Great condensed coverage of all basics and circuits with an emphasis on building stuff :-)
My university a decade ago used Sedra/Smitha, fortunately supplemented heavily with labs and practical material. By god, everyone in the class hated that textbook and sought out various other means to learn the material because it’s just impenetrable.
I have started in Argentina at 8 years old, reading a comic very little monthly magazine called Lupin. I think that very simple magazine has inspire thousands of engineers in Argentina. Now we know that those circuits were very rudimentary, but taught us the essential: the curiosity.... IN UNIVERSITY BOYLESTAD
While I myself originally learned with Albert Paul Melvino Electronic Principals ( 4th edition) and Foundations of Electronics by Russell L. Meade, the Floyd book is a great recommendation. Digital electronics: a practical approach with VHDL/William Kleitz.-9th ed. is a great choice for digital, as well as Floyd's Digital Fundamentals, Global Edition. While old school, the Heathkit series were amongst the very best and let's not forget electricity one-seven, Hayden.
I know they are old, but all the Electrical and Engineering Series of Mcgraw Hill (specially all the books by Terman, like Radio and Electronic Engineering and Electronic Measurements) I absolutely love.
Terman was a classic author of microwave and radar electronics texts.
Nearly spit out my tea when you held up the X chapters, been waiting for that one for years!
I'm a nonprofessional, but I like to design circuits from the ground up. That means that I need to use design equations to pick components and component values that will work once the topology is defined. Math doesn't scare me. So, It sounds like Sedra/Smith might be the best for me.
What does scare me about technical books is the errors. Some books, eg. Monk, "Practical Electronics for Inventors" or some such title, are so full of them that in places I really can't understand what the book is saying. There are outright contradictory statements in the descriptions of the various types of capacitors. Otherwise, I like Monk's approach to the more basic stuff, though the treatments of circuit designs are a bit spotty. And there no errata sheets in the 2nd edition. Doesn't he review his own book before coming out with a new edition.
Anyway, Dave, I think that the frequency of errors in a book is a very important consideration that you overlooked.
Very nice memories, I also have my electronic books still in my shelf as an degreed engineer technical informatics (computer engineering?) 1990. Now considering getting AoE & ARRL when now playing with Raspberry Pi.
I started electronics as a german pupil in the late 1970s with Philips Electronics Kit (up to AM + FM Receiver) before becoming 1984 a professional Electronics Service Technician (Radios, HiFi-Stereo, TV, own build speaker boxes, alarm devices and their installation and camera monitoring devices) with german books from publisher Franzis & Elektor.
In advance I studied electrical engineering + technical informatics with engineering books (publisher Vieweg, Hanser, Teubner, Springer), Analogue Multimeter and self built Analog Oscilloscope, Commodore C64 (extra 2nd ROM, userport I/O extensions), Sharp PC-1403 pocket computer (BASIC and matrix calculations), Atari ST1024 (Motorola mc68000) with graphical user interface and mouse and 3.5 " floppy discs - cheaper than Apples McIntosh & 1st Amiga 2000 and cheaper & better than all IBM PC clones to that time.
I am looking for a good list of the basic circuits you need to know as a reference to use. Like filtering circuits, amplifying circuits etc. Preferably with a way to search by application or purpose. SO if you want to remove noise from a signal it will lead you to examples of filtering circuits etc. I think it would be useful for teaching beginners and even more advanced electronics.
The Art of Electronics. By Paul Horowitz
If you want the very basics (e.g. what is a capacitor), you really need an introductory physics textbook. Even electrical engineers start out taking intro to physics. Cause, let's face it, electronics is physics in action (which is what makes it cool ;).
Your correct. Electronics is just applied physics. I’m currently studying vacuum tubes and appreciate how the mobile charge carriers are derived from a heated cathode. In semiconductor the mobile charge carriers are derived from doping semiconductors with impurities to create the n type and p type material.
The video host Dave said Sedra and smith is bad as it contains lot of math. I think it is really easy book with lot of "tools". It is easy for any person who has done some math in linear algebra and ODE's and differentiation and integration. The tools above are mini circuits which can be connected to form bigger circuits. The book teaches you how to build circuits, amplifiers in this way. I had been reading this book and it seems fairly easy. Some design problems take time as you need to be inventive in making circuits. The video host seems to come to conclusions quickly. For somebody who has completed Electronics/Electrical engineering degree twenty or thirty years ago, it may seem hard at first but if you re-aquaint yourself with engineering circuit analysis with books like Hayt, kemmerly Durbin and phillips and a Engineering math book like Kreyszing and a signals and systems book, the Sedra and Smith book is easy and also fun. The same might be said about Boylestad or others. This is my sincere review of the Sedra and smith book.
Electronic Circuits: Handbook for Design and Application by Ulrich Tietze (Author), Christoph Schenk (Author)
The AC & DC Circuits classes at my school (ACC Austin) use Introductory Circuit Analysis (13th Ed.) by Boylestad. I've really enjoyed the book. We have a lot of lab time and it's helped tons. For the digital stuff we use Digital Systems (12th Ed.) by Tocci and that book was superbly illuminating.
I'll believe the X-chapters are real when I see it before my own eyes. None of this video editing tricky magicky can convince me!
I learned all that without going through a single page of the textbook. I didn't even go to the lectures. I don't even know how I passed all my exams with distinctions.
We used Sedra and Smith in college and I found it really impenetrable.
i learned basics from the Forest Mimms books from Radio Shack . Tandy for you Aussie Blokes
I learned from Forrest Mimms books, along with Radio Electronics and Popular Electronics magazines.
Yes! I just got one of his books as a gift last year. Brought back a lot of memories. I used to hit up Radio Shack every week when I was a kid. Even started my path into computing on the TSR80.
At undergraduate level they use Hambley (Electrical Engineering: Principles & Applications, Global Edition), seems to work well for the basics.
In my EE courses at Waterloo (where Sedra currently teaches), they didn't follow the order of the textbook at all. Also, it was great to watch Dave's explanations juxtaposing Sedra Smith when I was learning this stuff in uni. Made much more sense to my brain
Are you talking about waterloo Canada (kw) ???
@@LutzSchafer yes, University of Waterloo in Ontario
@@timmui123 That's interesting. I live in kitchener and didn't know
At 11:42, I am going to say that programming and automated testing is a good idea because deciding how you are going to test what you design is, or should be, part of design.
I still have my Bob Boylestad book from 25 years ago. As far as I know, Superposition is still relevant.
Quantum particle states: "I agree wholeheartedly..."
Adel Sedra was my 2nd year ECE 242 prof at Waterloo back in 2017
I had a very rare book (rare in the UK, because it was an australian book) that was made even rarer because the entire time I was at one school I had it from the school library on a permanent loan and although it wasn't a reference book, I had very little resources to other suitable other books so I used it as such. Dick Smith would have been proud. His "Dick Smith's Fun Way into Electronics" was a winner for early learning during the 80's for a teenager.
The only other books I'd have used as a companion to these was the complete collection of Forrest Mims Mini-Notebooks", and most importantly his "Getting Started in Electronics" book.
However the books covered in the video are probably more suitable for someone a little older or with a better understanding of science/maths. I just take my time to understand why something is working in a certain way or why cause + cause = effect. Much too much for a 12-14 year old in most cases.
Looking forward to the book review on electronic basics, DC/AC, circuits analyses.
The Art of Electronics is a great book, but not for beginners. For them I'd recommend Grob's Basic Electronics. Really teaches the essentials from the ground up. In the second half it has some shortcomings, after which you're better off switching to TAOE.
Huh, interesting that there is still a Grob book out there. We used his book when I was in Electronics school in 1980.
The very 2 books that I taught myself electronics from. With only a HS education I went from installing CB's to work with HP, then TRW, and on to IBM, and finally retiring after 30 years of electronics work as a senior R&D tech for SONY. Everything else I needed to know I learned on the job after getting started with those 2 books as my foundation. I kept copies of them close at hand at every job I ever had. In fact, I'm 73 now, and I still have copies of them close at hand for my ham radio work, for which I added to them copies of the ARRL Handbook for Radio Amateurs for 3 different years over the last 30 in order to follow the advances in the hobby.
@@johnwest7993 fantastic, thanks for sharing!
The best book used to be the back of the Dick Smith catalogue in the 70-80's when learning electronics. 😄 it's how a lot of us got started.
A TOTAL cop-out line would be "It's ALL derived from Ohm's Law! Learn THAT!"
Sedra/Smith, my favorite authors from undergrad days !
theelectronics course in university used Sedra and Smith and I felt exactly as you do about it, Dave
It's a bit maths how-ya-doing
Lovely :)
For the really poor among us, most text books can be found as free downloads if you do a advanced search in google. You still need a future even though you can hardly afford to eat. :/ Hard copies are great and I prefer them for reading, but after a while the pile of books gets high and heavy, and expensive.
Well that's true coming from a shithole like Romania where two of this books can represent your wage.So I know what you are saying.
New project for 2020 The Principles of Electronics by Dave Jones a textbook done the right way.
Explaining World's First, the meaning and origin of the "Magic Smoke"!
20 pages just on the importance of the right tongue angle.
There is a book called electronics 101 written by D. Jones and it is a pretty good book too.
@@lukeflaxman9728 It would be a great book... also chapters on Solar Roadways, Internet Dating, Dumpster Room retrieval, Multi-meter Canyoning, ...
@@cesaru3619, if you're going back to the origin of the magic smoke you will be going back a LONG WAY. I heard that back when I was in high school electronics class in 1966. That seems like work for archeologists.
I am more of a Sedra Smith guy... but then again... I come from a physics department...
Got to admit though... Floyd guy has a very good medium of presentation. Got to have it now!
Glad to see my hoarding tendencies have supplied me with 2 of 4 of these books without ever requiring them for school.
I also like Floyd the best.
i learned from malvinos book and accompanying workbook. found it quite easy to learn form