Embedded IR Remote Control with NEC Protocol

  • CategoryOther
  • TypeTutorials
  • LanguageEnglish
  • Total size3 GB
  • Uploaded Bytutsnode
  • Downloads43
  • Last checkedNov. 07th '22
  • Date uploadedNov. 06th '22
  • Seeders 25
  • Leechers26

Infohash : 50DB953BBFB620B452A27B6FBFDC29CADFA9A1AE


Description

Welcome to the Embedded IR Remote Control with NEC Protocol course.

This course teaches you how develop bare-metal drivers and libraries to enable you to control your embedded device using IR remote controls. Essentially, you should be able to control your embedded device using any remote control you have lying around at home.

If this is a skill you want to add to your embedded skillset, then take a look at our Embedded IR Remote Control with NEC Protocol course.

So with that understood, let me tell you…

Exactly What You’re Getting

This course can be divided into 4 major sections.

First Section

The first section is theoretical. In this section we learn about IR remote control modulation and encoding theory, and also the structure and features of the NEC protocol. Over here we shall deal l with topics such as

Amplitude Shift Keying (ASK) modulation vs Frequency Shift Keying Modulation (FSK)

Pulse Position Encoding

Pulse Width Encoding

Pulse Distancing Encoding

Frame Format of the NEC protocol

Second Section

In the second section we shall develop all the divers to help us debug and implement some realword applications once we have developed all modules of the system. Over here we shall develop

A Timebase to help us generate precise delays

An ADC driver to help us sample sensor data when a particular key is pressed on the IR Remote control

A UART driver to help us to print out debug information

A GPIO driver to turn on the light when a particular key is pressed on the IR Remote control

Third Section

In the third section we shall develop the drivers and library required for interfacing the IR receiver to our microcontroller and decoding the received pulses. Over here we shall develop

An external interrupt driver for detecting edge changes from our IR receiver pin

A timer driver for measuring pulse length

An then we shall develop the library for fully decoding the pulses received by the IR receiver

Final Section

Once all the system drivers and library are fully developed, we then develop some real-world applications.

We shall develop firmware application for turning on the light based on the key pressed on the remote control

We shall develop firmware application for sampling and displaying sensor data based on the key pressed

We shall develop firmware application for displaying the time based on the key pressed.

We shall develop firmware application for displaying the key pressed on any remote control we have at home, the reason this will work is because most remote controls are based on the NEC protocol.

As always, no copy/paste. We write each line code from scratch.

Please take a look at the full course curriculum. I hope to see you in the course.
Who this course is for

If you are an absolute beginner to embedded systems, then take this course.
If you are an experienced embedded developer and want to learn how to professionally develop embedded applications for ARM processors, then take this course.

Requirements

No programming experience needed – I’ll teach you everything you need to know.
NUCLOE-F411 Development Board
Infrared (IR) Receiver – A type of black LED, very easy to find.
A Remote Control – You can use the one you have at home

Last Updated 10/2022

Files:

Embedded IR Remote Control with NEC Protocol [TutsNode.net] - Embedded IR Remote Control with NEC Protocol 5. Developing the NEC Decoder Library
  • 10. Programming Decoding IR Pulses (Part 3).mp4 (214.6 MB)
  • 2. Programming Defining the Timing Parameters (Part 2).mp4 (130.6 MB)
  • 6. Programming Detecting Ones and Zeroes.mp4 (101.7 MB)
  • 9. Programming Decoding IR Pulses (Part 2).mp4 (98.4 MB)
  • 7. Programming Implementing the NEC Timer Interrupt Handler.mp4 (78.2 MB)
  • 4. Programming Implementing the Timer Init. function.mp4 (72.1 MB)
  • 8. Programming Decoding IR Pulses (Part 1).mp4 (71.7 MB)
  • 1. Programming Defining the Timing Parameters (Part 1).mp4 (68.4 MB)
  • 3. Programming The Timing Control Functions.mp4 (35.1 MB)
  • 5. Programming Implementing the rest of the Timer functions.mp4 (28.7 MB)
4. Developing Drivers for Interfacing Infrared(IR) Receivers to STM32 Microcontroll
  • 5. Programming Developing the RCC Driver - The Clock Config function.mp4 (194.1 MB)
  • 2. Programming Developing the EXTI Driver- Implementing the Init. function.mp4 (125.8 MB)
  • 6. Programming Developing the RCC Driver - Testing the Clock Configuration.mp4 (74.2 MB)
  • 4. Programming Developing the RCC Driver - Analyzing the Clock Tree.mp4 (55.7 MB)
  • 1. Programming Developing the EXTI Driver- Listing Out the Steps.mp4 (55.0 MB)
  • 3. Programming Developing the EXTI Driver- The Callback function.mp4 (48.1 MB)
3. Developing some System Drivers for Implementing Real World Examples
  • 4. Programming Developing a UART Driver - Implementing the Initialization functi.mp4 (174.3 MB)
  • 19. Programming Developing an ADC Driver - The Read function.mp4 (103.2 MB)
  • 1. Programming Enabling the Floating Point Unit (FPU).mp4 (92.1 MB)
  • 18. Programming Developing an ADC Driver - The Initialization function.mp4 (91.6 MB)
  • 2. Programming Developing a UART Driver - Analyzing the Documentation.mp4 (83.3 MB)
  • 9. Programming Developing the System Timebase - The rest of the functions.mp4 (78.4 MB)
  • 8. Programming Developing the System Timebase - Implementing the Init. function.mp4 (60.0 MB)
  • 7. Programming Developing the System Timebase - Analyzing the Documentation.mp4 (58.5 MB)
  • 6. Programming Developing a UART Driver - Testing the Driver.mp4 (49.0 MB)
  • 11. Programming Developing a BSP for the Dev Board - Required functions.mp4 (48.4 MB)
  • 10. Programming Developing the System Timebase - Testing the Timebase.mp4 (43.2 MB)
  • 16. Programming Developing an ADC Driver - Analyzing the Documentation.mp4 (42.5 MB)
  • 5. Programming Developing a UART Driver - Implementing the Write function.mp4 (41.7 MB)
  • 12. Programming Developing a BSP for the Dev Board - The LED Driver.mp4 (31.6 MB)
  • 17. Programming Developing an ADC Driver - Listing out the steps..mp4 (28.0 MB)
  • 15. Programming Developing a BSP for the Dev Board - Testing the BSP.mp4 (24.7 MB)
  • 13. Programming Developing a BSP for the Dev Board - The Button Driver.mp4 (24.3 MB)
  • 14. Programming Developing a BSP for the Dev Board - Testing the BSP.mp4 (24.3 MB)
  • 3. Programming Developing a UART Driver - Listing out the steps.mp4 (15.2 MB)
1. Getting Started
  • 4. Getting the required package for bare-metal development.mp4 (141.5 MB)
  • 5. Testing the project setup.mp4 (99.2 MB)
  • 3. Getting the required documentation.mp4 (50.5 MB)
  • 1. Downloading CubeIDE.mp4 (16.2 MB)
  • 2. Installing CubeIDE.mp4 (13.1 MB)
2. IR Remote Control Modulation and Encoding Theory
  • 5. Overview of the NEC Protocol.mp4 (42.6 MB)
  • 2. How Infrared(IR) Remote Controls Work.mp4 (27.2 MB)
  • 4. Amplitude Shift Keying (ASK) Encoding Methods.mp4 (24.4 MB)
  • 3. The Modulation and Encoding of IR Remote Controls.mp4 (16.4 MB)
  • 1. Modulation and Encoding.mp4 (12.9 MB)
  • TutsNode.net.txt (0.1 KB)
  • [TGx]Downloaded from torrentgalaxy.to .txt (0.6 KB)
  • .pad
    • 0 (365.2 KB)
    • 1 (898.2 KB)
    • 2 (666.3 KB)
    • 3 (498.4 KB)
    • 4 (389.4 KB)
    • 5 (226.8 KB)
    • 6 (801.8 KB)
    • 7 (327.4 KB)
    • 8 (853.2 KB)
    • 9 (597.2 KB)
    • 10 (886.1 KB)
    • 11 (455.4 KB)
    • 12 (729.4 KB)
    • 13 (614.7 KB)
    • 14 (854.8 KB)
    • 15 (783.7 KB)
    • 16 (882.9 KB)
    • 17 (275.5 KB)
    • 18 (575.3 KB)
    • 19 (975.4 KB)
    • 20 (505.2 KB)
    • 21 (265.4 KB)
    • 22 (1.3 KB)
    • 23 (465.6 KB)
    • 24 (2.8 KB)
    • 25 (603.5 KB)
    • 26 (940.2 KB)
    • 27 (852.1 KB)
    • 28 (432.7 KB)
    • 29 (472.5 KB)
    • 30 (336.9 KB)
    • 31 (903.4 KB)
    • 32 (371.3 KB)
    • 33 (293.0 KB)
    • 34 (2.0 KB)
    • 35 (776.3 KB)
    • 36 (330.6 KB)
    • 37 (615.2 KB)
    • 38 (746.3 KB)
    • 39 (746.4 KB)
    • 40 (636.7 KB)
    • 41 (868.3 KB)
    • 42 (813.3 KB)
    • 43 (951.5 KB)

Code:

  • udp://open.stealth.si:80/announce
  • udp://tracker.tiny-vps.com:6969/announce
  • udp://fasttracker.foreverpirates.co:6969/announce
  • udp://tracker.opentrackr.org:1337/announce
  • udp://explodie.org:6969/announce
  • udp://tracker.cyberia.is:6969/announce
  • udp://ipv4.tracker.harry.lu:80/announce
  • udp://tracker.uw0.xyz:6969/announce
  • udp://opentracker.i2p.rocks:6969/announce
  • udp://tracker.birkenwald.de:6969/announce
  • udp://tracker.torrent.eu.org:451/announce
  • udp://tracker.moeking.me:6969/announce
  • udp://tracker.dler.org:6969/announce
  • udp://9.rarbg.me:2970/announce