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Transmit IR NEC Raw Data and Decode -- Ameba Arduino


MENG XI
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Transmit IR NEC Raw Data and Decode

 

Materials

  • Ameba x2 (one for IR transmitting, the other one for IR receiving)
  • Grove – Infrared Emitter x1 (Figure 1)
  • Grove – Infrared Receiver x1 (Figure 2)

Example

In this example, we use two Ameba RTL8722 modules that connecting with an infrared (IR) Emitter and an IR Receiver separately to transmit and receive IR NEC Raw data.

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Figure 1: Grove – Infrared Receiver

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Figure 2: Grove – Infrared Emitter

On the transmission side, the transmitter will send IR NEC raw data. The raw data can be seen as consecutive durations of “marks” and “spaces” (Figure 3) in microseconds (us).
• Mark: a specific period of sending pulses
• Space: a specific period of sending nothing

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Figure 3: A typical IR transmission and reception setup implementation

For more details, please refer to SB-Projects’ topic of IR Remote Control Theory to learn the theory of IR remote controls operation and a collection of IR protocol descriptions. In this example, we are going to use NEC (Now Renesas, also known as Japanese Format) as the transmission protocol.

NEC Features
• 8-bit address and 8-bit command length.
• Extended mode available, doubling the address size.
• Address and command are transmitted twice for reliability.
• Pulse distance modulation.
• The carrier frequency of 38kHz.
• Bit time of 1.125ms or 2.25ms.

Modulation
NEC protocol uses Pulse Distance Encoding of the bits for data communication (Figure 4). A logical “1” is represented by total duration of 2250us, with 560us of “marks” and (2250-560) us of “spaces”. While logical ”0” is represented by total duration of 1120us, with 560us “marks” and (1120-560) us of “spaces”.

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Figure 4: Modulation of NEC

Since a total number of 32-bit data together with the header and the end-bit will be transferred (Figure 5). If we separate the data in the time-frame (in us), there will be ( 2 + 32 ) x 2 + 1 = 69 “marks” / “spaces” to be transmitted (Figure 6), which forms the raw NEC data we would like to transmit in our Arduino “*.ino” file. This part of the code can be modified by users. Details of how to obtain raw data code for your remote devices, you may refer to Ken Shirriff’s blog, where it provides multiple libraries provided online.

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Figure 5: Sample of a Full NEC Data (in logic1 or 0)

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Figure 6: Sample of a Full NEC RAW Data (in us)

Figure 7 and 8 shows the pin configuration of IR Emitter and Receiver with Ameba RTL8722 board.

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Figure 7: Pin configuration of IR Emitter and Ameba RTL8722

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Figure 8: Pin configuration of the IR Receiver and Ameba RTL8722

After the connection is being set up correctly, we will move to the coding part for this example. First, make sure the correct Ameba development board is selected in Arduino IDE: “Tools” -> “Board” -> “RTL8722CSM/RTL8722DM”.

Open the “IRSendRAW” example in “File” -> “Examples” -> “AmebaIRDevice” -> “IRSendRAW” (Figure 9) and upload to 1st board connected with IR Emitter:

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Figure 9: Example Location of IRSendRaw and IRRecvNEC

After successfully upload the sample code for IRSendRaw, you might need to upload the IRRecvNEC example for the 2nd board connected with IR Receiver from “File” -> “Examples” -> “AmebaIRDevice” -> “IRRecvNEC”.

After opening the serial monitor on the IR Receiver side and press the reset buttons on two boards, the data “48” will be received every 3 seconds (due to the delays () function, not compulsory to wait). After decoding the signal from the receiving Pin D8 and transmitting Pin D9 with Logic Analyser and Pulse View (Figure 10), the result is also shown as “48” after decoding the receiving data with IR NEC Protocol.

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Figure 10: Pulse View results from sending and receiving pin

Code Reference

      [1] Seeed Official website for Grove – Infrared Receiver
      https://wiki.seeedstudio.com/Grove-Infrared_Receiver/

[2] Seed Official website for Grove – Infrared Emitter
https://wiki.seeedstudio.com/Grove-Infrared_Emitter/

[3] Ken SHirriff’s blog on A Multi-Protocol Infrared Remote Library for the Arduino
http://www.righto.com/2009/08/multi-protocol-infrared-remote-library.html

[4] SB-Projects: IR Remote Control Project
https://www.sbprojects.net/knowledge/ir/index.php

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