The Art of Doing: Electronics for Everyone

[0dayddl]

The Art of Doing: Electronics for Everyone
.MP4, AVC, 1280x720, 30 fps | English, AAC, 2 Ch | 11h 36m | 10.21 GB
Instructor: Michael Eramo​

Start designing, building, and playing with your own circuits today!

What you'll learn

• Fundamental electronic components such as resistors, capacitors, diodes, transistors, and integrated circuits. Learn how they operate and build!
• How to use various laboratory equipment such as power supplies, multimeters, function generators, and oscilloscopes.
• Both DC and AC applications of electronic circuits including transistor switches and amplifiers, RC timing circuits, and filters.
• The LM 358 Operational Amplifier - how to wire it up using a single supply as a crude comparator, non-inverting amplifier, and inverting amplifier.
• The LM 555 Timer - how to wire it up in bistable, monostable, and astable mode.
• The CD 4017 Decade Counter - how to wire it up as a 10 LED flasher and music sequencer.
• 10 "Circuit Challenge Problems" putting your knowledge (what you've learned in the course) to the test.
• 10 "Build Together Circuits" where we walk through, together, building 10 unique electronic circuits.
• Exciting circuits include: a working night light, sound to light show, volume meter, toy theremin, toy piano, 8 bit synthesizer, and 8 step music sequencer.

Requirements

• We will start at the ground level and work our way up in our knowledge and understanding.
• For best results, students should purchase the electronic components (parts list included) used in the videos so they can build along with me.
• I have designed the course to work with a breadboard, minimal components, a 9 volt battery, and a multimeter. There are times where I use a function generator or oscilloscope to teach. While they are helpful for you, they are not needed to complete the course.

Description

Years ago I bought an Arduino and I can remember how awesome it felt to hook it up, write a program, and blink an LED! My next question was "How on earth would you do that without an Arduino?!?". Don't get me wrong, I think Arduino's and all sorts of microcontrollers are awesome, but to me, it abstracted things a little too much. I'm an avid guitarist and a gear head; I love guitar effects pedals. Inside those stomp boxes, you won't find an Arduino. What you will find is the guts of an analog circuit: resistors, diodes, capacitors, transistors, and integrated circuit chips.all working together to create, bend, and shape a waveform.

I know there are tons of YouTube videos out there showing various analog circuits but the vast majority of them are the same: a time lapsed video of someone populating a breadboard or PCB with music playing in the background. No explanation of what they were doing or why they were doing it, no breakdown of the role of each and every component in the circuit, no conveying of understanding at not just a mathematical level but even a conceptual level. That is not learning and as someone who wanted to learn, to dive deeper into the subject, so I could figure out how to blink an LED without an Arduino and eventually more, it was a frustrating experience.

These are the reasons I decided to create this course. These are the reasons I hope you enroll in this course; because I can help lift those learning frustrations for you and help you gain an appreciation for analog electronics.

In this highly interactive course we will go through and cover the following circuit components. Exploring how they operate (with just enough math to hopefully convey understanding), interact with one another, and behave with DC and AC signals.

• Resistors
• Potentiometers
• Light Dependent Resistors
• Push Buttons
• Capacitors
• Diodes
• LEDs
• Speakers
• Microphones
• Transistors
• Operational Amplifiers
• 555 Timers
• Decade Counters
• And More!

We will build/explain/explore classic circuits and then have some fun with some more creative circuits through direct instruction, "Challenge Circuits" where you can test your knowledge at various points in the course, and "Build Together Circuits" where we will build and learn together. Example circuits include:

• Tri-Color LED Mixer
• Voltage Dividers
• Transistor Switches
• RC Timing Circuits
• Fading LED Circuits
• Astable Multivibrators
• RC Low Pass, High Pass, and Band Pass Filters
• Transistor Amplifiers (Common Emitter Amplifier)
• A Sound to Light Circuit
• Op Amp Comparators, Non-Inverting Amplifiers, and Inverting Amplifiers
• A Crude Motion Detector and Volume Meter
• 555 Timer Circuits in Bistable, Monostable, and Astable Mode
• A Toy Theremin, Toy Piano, and Atari Punk Console
• 4017 Decade Counter 10 LED Chaser
• Voltage Controlled Oscillators
• A 4 Step Music Sequencer
• An 8 Step Music Sequencer
• And More!!!

The presentation of material will constantly alternate from a slideshow shared directly from my computer screen with up close pictures of the circuit I am building for reference to live cameras with viewpoints of my breadboard, oscilloscope, and multimeters watching me build in real time. I will teach, then build, explain, then build with the hopes that you build along with me and at no point in the process experience confusion, frustration, or a lack of desire to continue.

The course was designed so a student could follow along with a breadboard, 9 volt battery, minimal components (parts list included), and a multimeter. There are times when I will use equipment such as a function generator or oscilloscope but I understand those are expensive items and they are not integral items to the course. There is also the option to follow along with various online circuit simulators.

I hope you enroll in this course today and together we can figure out "How the heck would I do that without and Arduino?!?"

Who this course is for:

• Tinkerers, hobbyists, and DIYers of all things electronic.
• People who are interested in designing circuits.
• Anyone who has used an Arduino to blink a light and asked, "How would I do that without code?!?!"
• Anyone interested in creating music from electronic circuits; bleeping and blooping.

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[0dayddl]

The Art of Doing: Electronics for Everyone
.MP4, AVC, 1280x720, 30 fps | English, AAC, 2 Ch | 11h 36m | 10.21 GB
Instructor: Michael Eramo​

Start designing, building, and playing with your own circuits today!

What you'll learn

• Fundamental electronic components such as resistors, capacitors, diodes, transistors, and integrated circuits. Learn how they operate and build!
• How to use various laboratory equipment such as power supplies, multimeters, function generators, and oscilloscopes.
• Both DC and AC applications of electronic circuits including transistor switches and amplifiers, RC timing circuits, and filters.
• The LM 358 Operational Amplifier - how to wire it up using a single supply as a crude comparator, non-inverting amplifier, and inverting amplifier.
• The LM 555 Timer - how to wire it up in bistable, monostable, and astable mode.
• The CD 4017 Decade Counter - how to wire it up as a 10 LED flasher and music sequencer.
• 10 "Circuit Challenge Problems" putting your knowledge (what you've learned in the course) to the test.
• 10 "Build Together Circuits" where we walk through, together, building 10 unique electronic circuits.
• Exciting circuits include: a working night light, sound to light show, volume meter, toy theremin, toy piano, 8 bit synthesizer, and 8 step music sequencer.

Requirements

• We will start at the ground level and work our way up in our knowledge and understanding.
• For best results, students should purchase the electronic components (parts list included) used in the videos so they can build along with me.
• I have designed the course to work with a breadboard, minimal components, a 9 volt battery, and a multimeter. There are times where I use a function generator or oscilloscope to teach. While they are helpful for you, they are not needed to complete the course.

Description

Years ago I bought an Arduino and I can remember how awesome it felt to hook it up, write a program, and blink an LED! My next question was "How on earth would you do that without an Arduino?!?". Don't get me wrong, I think Arduino's and all sorts of microcontrollers are awesome, but to me, it abstracted things a little too much. I'm an avid guitarist and a gear head; I love guitar effects pedals. Inside those stomp boxes, you won't find an Arduino. What you will find is the guts of an analog circuit: resistors, diodes, capacitors, transistors, and integrated circuit chips.all working together to create, bend, and shape a waveform.

I know there are tons of YouTube videos out there showing various analog circuits but the vast majority of them are the same: a time lapsed video of someone populating a breadboard or PCB with music playing in the background. No explanation of what they were doing or why they were doing it, no breakdown of the role of each and every component in the circuit, no conveying of understanding at not just a mathematical level but even a conceptual level. That is not learning and as someone who wanted to learn, to dive deeper into the subject, so I could figure out how to blink an LED without an Arduino and eventually more, it was a frustrating experience.

These are the reasons I decided to create this course. These are the reasons I hope you enroll in this course; because I can help lift those learning frustrations for you and help you gain an appreciation for analog electronics.

In this highly interactive course we will go through and cover the following circuit components. Exploring how they operate (with just enough math to hopefully convey understanding), interact with one another, and behave with DC and AC signals.

• Resistors
• Potentiometers
• Light Dependent Resistors
• Push Buttons
• Capacitors
• Diodes
• LEDs
• Speakers
• Microphones
• Transistors
• Operational Amplifiers
• 555 Timers
• Decade Counters
• And More!

We will build/explain/explore classic circuits and then have some fun with some more creative circuits through direct instruction, "Challenge Circuits" where you can test your knowledge at various points in the course, and "Build Together Circuits" where we will build and learn together. Example circuits include:

• Tri-Color LED Mixer
• Voltage Dividers
• Transistor Switches
• RC Timing Circuits
• Fading LED Circuits
• Astable Multivibrators
• RC Low Pass, High Pass, and Band Pass Filters
• Transistor Amplifiers (Common Emitter Amplifier)
• A Sound to Light Circuit
• Op Amp Comparators, Non-Inverting Amplifiers, and Inverting Amplifiers
• A Crude Motion Detector and Volume Meter
• 555 Timer Circuits in Bistable, Monostable, and Astable Mode
• A Toy Theremin, Toy Piano, and Atari Punk Console
• 4017 Decade Counter 10 LED Chaser
• Voltage Controlled Oscillators
• A 4 Step Music Sequencer
• An 8 Step Music Sequencer
• And More!!!

The presentation of material will constantly alternate from a slideshow shared directly from my computer screen with up close pictures of the circuit I am building for reference to live cameras with viewpoints of my breadboard, oscilloscope, and multimeters watching me build in real time. I will teach, then build, explain, then build with the hopes that you build along with me and at no point in the process experience confusion, frustration, or a lack of desire to continue.

The course was designed so a student could follow along with a breadboard, 9 volt battery, minimal components (parts list included), and a multimeter. There are times when I will use equipment such as a function generator or oscilloscope but I understand those are expensive items and they are not integral items to the course. There is also the option to follow along with various online circuit simulators.

I hope you enroll in this course today and together we can figure out "How the heck would I do that without and Arduino?!?"

Who this course is for:

• Tinkerers, hobbyists, and DIYers of all things electronic.
• People who are interested in designing circuits.
• Anyone who has used an Arduino to blink a light and asked, "How would I do that without code?!?!"
• Anyone interested in creating music from electronic circuits; bleeping and blooping.

Bitte Anmelden oder Registrieren um Links zu sehen.

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RapidGator

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[0dayddl]

The Art of Doing: Electronics for Everyone
Last updated 12/2022
Duration: 11h 36m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 10.2 GB
Genre: eLearning | Language: English​

Start designing, building, and playing with your own circuits today!

What you'll learn
Fundamental electronic components such as resistors, capacitors, diodes, transistors, and integrated circuits. Learn how they operate and build!
How to use various laboratory equipment such as power supplies, multimeters, function generators, and oscilloscopes.
Both DC and AC applications of electronic circuits including transistor switches and amplifiers, RC timing circuits, and filters.
The LM 358 Operational Amplifier - how to wire it up using a single supply as a crude comparator, non-inverting amplifier, and inverting amplifier.
The LM 555 Timer - how to wire it up in bistable, monostable, and astable mode.
The CD 4017 Decade Counter - how to wire it up as a 10 LED flasher and music sequencer.
10 "Circuit Challenge Problems" putting your knowledge (what you've learned in the course) to the test.
10 "Build Together Circuits" where we walk through, together, building 10 unique electronic circuits.
Exciting circuits include: a working night light, sound to light show, volume meter, toy theremin, toy piano, 8 bit synthesizer, and 8 step music sequencer.
Requirements
We will start at the ground level and work our way up in our knowledge and understanding.
For best results, students should purchase the electronic components (parts list included) used in the videos so they can build along with me.
I have designed the course to work with a breadboard, minimal components, a 9 volt battery, and a multimeter. There are times where I use a function generator or oscilloscope to teach. While they are helpful for you, they are not needed to complete the course.
Description
Years ago I bought an Arduino and I can remember how awesome it felt to hook it up, write a program, and blink an LED! My next question was
"How on earth would you do that without an Arduino?!?"
. Don't get me wrong, I think Arduino's and all sorts of microcontrollers are awesome, but to me, it abstracted things a little too much. I'm an avid guitarist and a gear head; I love guitar effects pedals. Inside those stomp boxes, you won't find an Arduino. What you will find is the guts of an analog circuit: resistors, diodes, capacitors, transistors, and integrated circuit chips.all working together to create, bend, and shape a waveform.
I know there are tons of YouTube videos out there showing various analog circuits but the vast majority of them are the same: a time lapsed video of someone populating a breadboard or PCB with music playing in the background. No explanation of what they were doing or why they were doing it, no breakdown of the role of each and every component in the circuit, no conveying of understanding at not just a mathematical level but even a conceptual level. That is not learning and as someone who wanted to learn, to dive deeper into the subject, so I could figure out how to blink an LED without an Arduino and eventually more, it was a frustrating experience.
These are the reasons I decided to create this course. These are the reasons I hope you enroll in this course; because I can help lift those learning frustrations for you and help you gain an appreciation for analog electronics.
In this highly interactive course we will go through and cover the following circuit components. Exploring how they operate (with just enough math to hopefully convey understanding), interact with one another, and behave with DC and AC signals.
Resistors
Potentiometers,
Light Dependent Resistors
Push Buttons
Capacitors
Diodes
LEDs
Speakers
Microphones
Transistors
Operational Amplifiers
555 Timers
Decade Counters
And More!
We will build/explain/explore classic circuits and then have some fun with some more creative circuits through direct instruction, "Challenge Circuits" where you can test your knowledge at various points in the course, and "Build Together Circuits" where we will build and learn together. Example circuits include:
Tri-Color LED Mixer
Voltage Dividers
Transistor Switches
RC Timing Circuits
Fading LED Circuits
Astable Multivibrators
RC Low Pass, High Pass, and Band Pass Filters,
Transistor Amplifiers (Common Emitter Amplifier)
A Sound to Light Circuit
Op Amp Comparators, Non-Inverting Amplifiers, and Inverting Amplifiers
A Crude Motion Detector and Volume Meter
555 Timer Circuits in Bistable, Monostable, and Astable Mode
A Toy Theremin, Toy Piano, and Atari Punk Console
4017 Decade Counter 10 LED Chaser
Voltage Controlled Oscillators
A 4 Step Music Sequencer
An 8 Step Music Sequencer
And More!!!
The presentation of material will constantly alternate from a slideshow shared directly from my computer screen with up close pictures of the circuit I am building for reference to live cameras with viewpoints of my breadboard, oscilloscope, and multimeters watching me build in real time.
I will teach, then build, explain, then build with the hopes that you build along with me
and at no point in the process experience confusion, frustration, or a lack of desire to continue.
The course was designed so a student could follow along with a breadboard, 9 volt battery, minimal components (parts list included), and a multimeter. There are times when I will use equipment such as a function generator or oscilloscope but I understand those are expensive items and they are not integral items to the course. There is also the option to follow along with various online circuit simulators.
I hope you enroll in this course today and together we can figure out "How the heck would I do that without and Arduino?!?"
Who this course is for:
Tinkerers, hobbyists, and DIYers of all things electronic.
People who are interested in designing circuits.
Anyone who has used an Arduino to blink a light and asked, "How would I do that without code?!?!"
Anyone interested in creating music from electronic circuits; bleeping and blooping.

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[0dayddl]

15.13 GB | 30min 59s | mp4 | 3840X2160 | 16:9
Genre:eLearning |Language:English​

Files Included :

Spoiler

FileName :001 Introduction.mp4 | Size: (168.49 MB)
FileName :002 Parts List.mp4 | Size: (116.36 MB)
FileName :003 The Starting Point.mp4 | Size: (84.42 MB)
FileName :001 Circuit Setup and Basics.mp4 | Size: (311.08 MB)
FileName :002 What is a Resistor.mp4 | Size: (264.18 MB)
FileName :003 Circuit Challenge 1 Bright Bright Lights.mp4 | Size: (143.24 MB)
FileName :004 How to Use Multimeters.mp4 | Size: (315 MB)
FileName :005 Circuit Challenge 2 Meter Mystery.mp4 | Size: (141.57 MB)
FileName :006 LEDs and Measuring Values.mp4 | Size: (123.31 MB)
FileName :007 Understanding Push Buttons.mp4 | Size: (226.46 MB)
FileName :008 Circuit Challenge 3 Turn the Lights Off.mp4 | Size: (77.43 MB)
FileName :009 Understanding Variable Resistors.mp4 | Size: (420.4 MB)
FileName :010 Circuit Challenge 4 Color the Rainbow.mp4 | Size: (306.8 MB)
FileName :001 What is a Diode.mp4 | Size: (148.94 MB)
FileName :002 Transistor Switches.mp4 | Size: (286.1 MB)
FileName :003 Voltage Dividers.mp4 | Size: (179.08 MB)
FileName :004 Circuit Challenge 5 The Night Light Company.mp4 | Size: (127.86 MB)
FileName :005 What is a Capacitor.mp4 | Size: (255.72 MB)
FileName :006 RC Timing Circuits.mp4 | Size: (388.86 MB)
FileName :007 Circuit Challenge 6 The Cascade Fade.mp4 | Size: (183.73 MB)
FileName :008 RC Timed Transistor Switches.mp4 | Size: (265.14 MB)
FileName :009 Circuit Challenge 7 Don't Make Me Wait.mp4 | Size: (161.81 MB)
FileName :010 Build Together 1 Ping Pong Flashers.mp4 | Size: (276.43 MB)
FileName :001 Understanding Alternating Current.mp4 | Size: (192.46 MB)
FileName :002 Capacitors and AC.mp4 | Size: (119.1 MB)
FileName :003 RC Low Pass Filters.mp4 | Size: (163.95 MB)
FileName :004 RC High Pass Filters.mp4 | Size: (124.23 MB)
FileName :005 Circuit Challenge 8 You Shall Not Pass.mp4 | Size: (200.17 MB)
FileName :006 Using a Microphone.mp4 | Size: (148.15 MB)
FileName :007 Transistor Amplifiers (Common Emitter Amplifier).mp4 | Size: (413.19 MB)
FileName :008 Circuit Challenge 9 I Can't Hear You.mp4 | Size: (510.41 MB)
FileName :009 Circuit Challenge 10 Rock and Roll Light Show.mp4 | Size: (219.85 MB)
FileName :001 What is an Op Amp.mp4 | Size: (121.34 MB)
FileName :002 The Op Amp Comparator.mp4 | Size: (276.06 MB)
FileName :003 The Non-Inverting Amplifier.mp4 | Size: (408.48 MB)
FileName :004 The Inverting Amplifier.mp4 | Size: (234.32 MB)
FileName :001 Build Together 2 The Motion Detector.mp4 | Size: (366.54 MB)
FileName :002 Build Together 3 Rock and Roll Light Show Part II.mp4 | Size: (466.76 MB)
FileName :003 Build Together 4 The Volume Meter.mp4 | Size: (777.61 MB)
FileName :001 What is a 555 Timer.mp4 | Size: (146.35 MB)
FileName :002 Bistable Mode.mp4 | Size: (275.78 MB)
FileName :003 Monostable Mode.mp4 | Size: (294.23 MB)
FileName :004 Astable Mode.mp4 | Size: (334.34 MB)
FileName :001 Build Together 5 The Toy Theremin.mp4 | Size: (433.58 MB)
FileName :002 Build Together 6 The Toy Piano.mp4 | Size: (493.8 MB)
FileName :003 Build Together 7 The Atari Punk Console.mp4 | Size: (501.16 MB)
FileName :004 The Magic of the Atari Punk Console.mp4 | Size: (148.83 MB)
FileName :001 What is a Decade Counter.mp4 | Size: (105.27 MB)
FileName :002 Manual LED Chaser.mp4 | Size: (360.71 MB)
FileName :003 Automatic LED Chaser.mp4 | Size: (226.4 MB)
FileName :004 A Decade is 10!.mp4 | Size: (163.48 MB)
FileName :001 Build Together 8 The Voltage Controlled Oscillator.mp4 | Size: (299.05 MB)
FileName :002 Build Together 9 The 4 Step Sequencer.mp4 | Size: (832.76 MB)
FileName :003 Build Together 10 The Improved 8 Step Sequencer.mp4 | Size: (979.06 MB)

]
Screenshot

Spoiler

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