Yeah. When I started tinkering with electronics (when the word internet didn't even exist) I used mostly books with circuits and the Philips experiments boxes. Just build something and then modify (or figure out why it doesn't work).
Yeah. When I started tinkering with electronics (when the word internet didn't even exist) I used mostly books with circuits and the Philips experiments boxes. Just build something and then modify (or figure out why it doesn't work).
I learned transistor/semiconductor theory in that GE "Transistor Manual" in the first chapter which went into
serious detail about the holes and electrons with those valance bands. Those Radio Shack kits where awesome , they had everything to build circuits and learn theory
https://www.technicalaudio.com/pdf/GE/GE_Transistor_Manual_6thEd_ocr.pdf
Around 6:59 in the video Dave addresses the fact that these books are not for beginners, nor for people whose approach is entirely hands-on. These are academic textbooks for people who want to understand electronic theory and connect it to their knowledge of mathematics and physics. He says he'd need to do another video about hands-on introductions for experimenters.
Around 6:59 in the video Dave addresses the fact that these books are not for beginners, nor for people whose approach is entirely hands-on. These are academic textbooks for people who want to understand electronic theory
Which I stated above that you need advanced algebra and calculus to complement the theory behind the
electronics engineering that's within those books
A beginner to electronics , is not going to have that in most cases. Advanced AC theory blew my mind when I learned trigonometry , without that I didn't have a clue .
A electronic technician job is not going to need a lot of that deep theory , learning all those highly advanced equations .
I think the Sedra/Smith book is positioned for a different niche than the others. It's one step more advanced.
Good morning, as David says it is not possible to define a book as the best but each of us has one that we like best. In my particular case I studied Malvino among others but my surprise was to discover "Modern Electronic Communication" (Jeffrey S. Beasley - Gary M. Miller) with which I was amazed; It is leased to telecommunications and as I mentioned, I consider it the bible of telecommunications. It is very structured, touches many themes and is so well designed that it is a pleasure to consult it (the paper version) ... I love this book ... ;-)
I've had better luck with more focused textbooks. E.g. a good analog CMOS design book gives better milage than the MOSFET coverage in any of those examples. These make better referance books than learning material for those wanting to deep dive, IMO.
Let me toss out a slightly different question. What kind of book do you wish you had found when you first got seriously interested in electronics? How would it have started and what would it have covered?
I've already stated the below in another thread on the SAME vlog (1270 --- why are there two threads???)
Dave,
I think you've mixed both types of textbooks into the bunch... at least from the USA perspective....
Here in the U.S., Floyd is for community college (2-yr college, Associates degree, ASEE), and Boylestad is for 4-yr degree (BSEE, university). Not sure what other countries' college/univ. systems use. I do recall that exchange students from non-US countries noted Floyd-like textbooks from their country's BSEE coursework (i.e., less mathy).
About Floyd ... there is a companion LAB Manual (author not Floyd: by Berlin) .
Also, Floyd had other texts, like Principles of Electric Circuits and Digital Fundamentals (both excellent!!).
I've already stated the below in another thread on the SAME vlog (1270 --- why are there two threads???)
Here in the U.S., Floyd is for community college (2-yr college, Associates degree, ASEE),
About Floyd ... there is a companion LAB Manual (author not Floyd: by Berlin) .
Also, Floyd had other texts, like Principles of Electric Circuits and Digital Fundamentals (both excellent!!).
Would you say, then, that the Floyd text and companion lab manual would be more appropriate for a novice looking to get into the hobby?
Here in the U.S., Floyd is for community college (2-yr college, Associates degree, ASEE)
Eh really? Mostly undergrad books get lumped into one category. Almost everybody that does community college at least aims for a bachelors.
Would you say, then, that the Floyd text and companion lab manual would be more appropriate for a novice looking to get into the hobby?
Doesen't matter IMO. A noob is a noob whether student or hobbyist. There are both ambitious hobbyists and students that just want a grade with minimum effort.
Electronics for Your Future
by Daniel L. Metzger
This little-known paperback from 1994 is one I highly recommend.
It looks a bit primitive and unassuming ... but its somewhat "comic book" approach is unique. And it's fun, like Horowitz AoE.
0963947109 (ISBN13: 9780963947109)
303 pages
Here in the U.S., Floyd is for community college (2-yr college, Associates degree, ASEE)
Eh really? Mostly undergrad books get lumped into one category. Almost everybody that does community college at least aims for a bachelors.
I'm aware of no 4-year US
university "BSEE" program that uses Floyd. Any topical textbook at the univ. level "must" be pretty mathy and use a moderate level of calculus.
Some US colleges (but not most
universities) do offer Bachelor's (4-year) degrees in "Electronics Technology" (BSET). Student's with ASEE (2-year) degrees can transfer to BSET programs ... but it's not as intense as BSEE. I.e., way less math, theory, electromagnetics, etc.
BTW: If you see the word "Theory" in the title of a US electronics course textbook, it's for BSEE.