Difference between revisions of "Simple Embedded System Project"

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== Objective ==
 
== Objective ==
Work together as a class to create a wireless network of interactive devicesAn example would be one controller responsible for lights, another controller responsible for motion sensor, and a central control can interact with these controllers to perform tasks such as turning on lights when motion has been detected.
+
Work together as a group to create an LED lighting systemYou will create hardware that controls power to a 12v LED light (or LED strip), and then write the software to control the LED light.
  
Your board contains wireless mesh network allowing you to freely connect many boards together and they can all communicate with each other.  You will exploit this capability to do something creative, and ultimately learn, and have fun.
+
Think outside the box; you can do much more :
 +
*  You can create an alarm clock and turn on LEDs on/off
 +
*  Orientation or rotation can turn on/off lights or change colors.
 +
* You can combine your group with another group to make your project look better!
  
[[File:cmpe_proj_wireless_nodes.png|right|frame|link=Sample Wireless Nodes]]
+
Note that your board contains wireless mesh network allowing you to freely connect many boards together and they can all communicate with each other.  This can be useful if you wish to earn extra credit by interacting with multiple boards.  For example, a motion sensor on one board can turn on the lights on multiple boards.  The API is documented at your board's wikipedia page.
  
== Structure ==
+
== Tools Needed ==
There are minimum three nodes to be designed by a team of 6; you can add more nodes and more people in a team if you project is challenging enough. Each team is then split into smaller sub-team for the design of each of the nodes. Each team will also compete with the other teams in your class and your grade will be assigned relative to each other with the best team earning the best grade.
+
# Wire wrapping tool - https://www.youtube.com/watch?v=8SSOKppwpAE
 
+
# Wire wrapping wire - http://www.adafruit.com/product/1446
== Example Nodes ==
+
# LED strip
The nodes listed below are just examples.  You can and should create your own node with its own purpose that goes above and beyond the examples listed in this article.  Four unique features are required per node, and some hints are provided in the latter part of this document.  '''Do not worry about the "how"; let the class instructors help you.  Just think about the "what"'''.
+
# 12 V Power Supply
 +
# SJOne Board(s)
 +
# Resistors
 +
# MOSFET
  
=== Lights Node ===
+
== Connecting the MOSFET ==
This node shall act like a wireless node that is responsible to turn on and off lights.  This will involve some hardware design such that you can connect your board to some high-power LEDs. Look-up “super bright led” at sparkfun.com for examples.
+
Read the datasheet for the MOSFET - http://www.mouser.com/ds/2/308/on%20semiconductor_ntd5865n-d-327059.pdf
  
=== Sensor Node ===
+
[[File:Cmpe30_Mosfet_Pin_Connections.JPG]]
This node shall act like a sense point for the commander node.  The objective is not just to provide the on-board sense points such as temperature and light, but also implement features such that you can report other creative sense points such as a motion sensor, and distance sensor.
 
  
=== Commander Node ===
+
Also, [http://www.falstad.com/circuit/#%24+1+5.0E-6+10.20027730826997+50+5.0+50%0Af+288+240+384+240+0+1.5%0Ar+288+240+288+336+0+10000.0%0Aw+384+336+384+256+0%0Ag+384+336+384+384+0%0AR+384+112+384+80+0+0+40.0+12.0+0.0+0.0+0.5%0Ar+240+240+240+304+0+1000.0%0A162+240+304+240+336+1+2.1024259+1.0+0.0+0.0%0Ag+288+336+288+384+0%0Ag+240+336+240+384+0%0Aw+240+240+288+240+0%0AL+240+240+176+240+0+0+false+5.0+0.0%0Ax+112+322+223+325+0+12+This+LED+is+optional%0Ax+119+195+221+201+0+24+GPIO+Pin%0Ax+405+247+550+250+0+12+Note+D%2CG%2CS+pin+of+MOSFET%0Ar+384+112+384+176+0+100.0%0A162+384+176+384+224+1+2.1024259+1.0+0.0+0.0%0Ax+404+132+593+135+0+12+Calculate+R+value+based+on+Power%0Ax+94+223+247+229+0+24+Click+to+toggle%0A Please click on this demonstration link], and wire-up the GATE, SOURCE, and DRAIN as demonstrated. More details are '''[[GPIO Interface | at this article]]'''
This node shall be responsible to put it all together and serve as a single commanding node to get sensor input and control the lights.  This node shall provide the interface for the user, so try to provide user options to configure features such as automatic lights, or remote controlled operation.
 
  
<BR/>
+
== LED Strip ==
 +
Current limiting resistors as shown in circuit may not be needed if using LED strip instead of single LED.
 +
LED strip usually has 2 wires: one for supply (12V) and the other for ground. If you have an RGB LED strip, it will have 4 wires Power supply, Red, Green and Blue. All the Red, Green and Blue are Grounds. Ground the color that you want to use: example: Ground RED to turn on LED strip as RED. Ground all the three colors to get white.
  
== Requirements ==
+
Do NOT use strips that are longer than a meter. cut them to required length before using.
=== Technical ===
 
*  You must use a '''<code>switch / case </code>''' code section in your code.
 
*  You must use a state machine in you code.
 
*:  This could be as simple as a state machine for "Manual Lights" vs. "Automatic Lights"
 
*  You must utilize functions that use pass-by-value and pass-by-reference.
 
*  Project should be self-contained
 
*:  Project should be enclosed, with no wires visible.
 
*:  Should not require the Hecules Terminal to operate
 
*:  All buttons should be labeled.
 
 
 
=== Deliverables ===
 
At the end of the project, the following items need to be submitted :
 
*  Full source-code of all the projects
 
*  Individual evaluations about team members and their contribution
 
*:  This will be confidential, and you can submit as one per person (at Canvas).
 
  
<BR/>
 
== Challenges ==
 
Over the course of the project, you will encounter some real-world problems such as :
 
  
*  How will you design your project to be user friendly?
+
LED strips: http://www.adafruit.com/search?q=LED+strip&b=1
*  How will you collaborate in your large team?
 
*  How will you balance your budget and keep parts cost to a minimum?
 
*  How will you design your network protocol such that each team understands a command and response system well?
 
*  How will you make your project more creative?  How will it stand out?
 
*  What if you command a light output node that is not responding?
 
*: How will you report this to the user and what would you do?
 
  
<BR/>
+
== Power Supply ==
== Sample Code ==
+
Purchase a 12V/2A adaptor. Cut the power cord at a suitable length to reveal Power and ground lines. Use wire wrapping to connect these lines to the circuit.
=== Light Sensor Node ===
 
<syntaxhighlight lang="c">
 
#include "wireless.h"
 
  
void process_command(char command);
+
Alternate way: Purchase this (http://www.adafruit.com/product/368) component and use wires to connect to the + and - terminals .
  
int main(void)
+
== Connections ==
{
+
The connections for an LED, MOSFET, board and power supply are shown below:
    char our_addr = 100;
+
[[File:project_schematic.png|500px]]
    mesh_set_node_addr(our_addr);
 
  
    while (1) {
+
All connections can be made using the wire wrapping tool. A video describing wire wrapping procedure is given above under the Tools needed section.
        /* Check if we get a packet within 1 second : */
 
        mesh_packet_t wireless_pkt;
 
        if (wireless_get_pkt_received(&wireless_pkt, 1000)) {
 
            /* Assuming first data byte is our command: */
 
            process_command(pkt.data[0]);
 
        }
 
    }
 
    return 0;
 
}
 
  
void process_command(char command)
+
== Electronic Parts Companies and Useful Engineering Resources ==
{
+
http://www.socialledge.com/sjsu/index.php?title=Electronic_Parts_Companies_and_Useful_Engineering_Resources
    enum {
 
        lights_on = 1;
 
        lights_off = 2;
 
    }
 
  
    switch(command) {
+
== Using the SJOne Board and connecting external components ==
        case lights_on:
+
http://www.socialledge.com/sjsu/index.php?title=SJ_One_Board
            /* TODO Turn on lights */
 
        break;
 
  
        case lights_off:
+
This page also has a section for using wireless communication between multiple SJOne boards. In order to use the wireless functionality, an SMA connector needs to be soldered on the board. An antenna can be attached to the SMA connector.
            /* TODO Turn off lights */
 
        break;
 
  
        default:
+
== Structure ==
            /* TODO Take action for invalid command */
+
For simplicity, the minimum requirement is that a team of three is able to have control for an LED strip. It has to be interactive, for example: turning on the LEDs upon light sensor or another trigger.
        break;
 
    }
 
}
 
</syntaxhighlight>
 
  
 
<BR/>
 
<BR/>
=== Commander Node ===
 
<syntaxhighlight lang="c">
 
#include "wireless.h"
 
  
int main(void)
+
== Requirements ==
{
+
=== Technical ===
    /* Same enum as lights controller */
+
Your grade will depend on how well you follow the following requirements :
    enum {
+
#  You must use a '''<code>switch / case </code>''' code section in your code.
        lights_on = 1;
+
#  You must use a state machine in at least one of your nodes.
        lights_off = 2;
+
#:  This could be as simple as a state machine for "Manual Lights" vs. "Automatic Lights"
    }
+
#  All functions used shall be no larger than 50 lines of code.
 +
#:  Split into smaller sub-functions.
 +
#  You must utilize functions that use pass-by-value and pass-by-reference.
 +
#  Project should be self-contained
 +
#* Project should be enclosed, with no wires visible.
 +
#*  Project should not require the Hercules Terminal to operate.
 +
#*  Project should preferably operate with its own independent power source (or battery pack).
 +
# All buttons should be labeled.
 +
#:  An operator should be able to operate without reading an instruction manual.
  
    char our_addr = 200;
+
=== Items to Submit ===
    char lights_addr = 100;
+
At the end of the project, the following items need to be submitted :
    mesh_set_node_addr(our_addr);
+
*  Full source-code of all the projects
 +
*  Individual evaluations about team members and their contribution
 +
*:  This will be confidential, and you can submit as one per person (at Canvas).
  
    while (1) {
+
==== Project Report ====
        /* Turn lights on/off every 3 seconds */
+
You must submit a full, documented report for your project (one per group of six).  The following are minimum sections required in your PDF submitted report:
        char cmd = 0;
+
#  Introduction
 +
#* What does your project do?
 +
#* Try to sell your project in this section.
 +
#*  Add a sub-section called "Features & Communication Table"
 +
#*:  List the features of each node and the communication table.
 +
#*:  At least four unique features per node should be listed.
 +
#  Schematics
 +
#*  List the hardware you used.
 +
#*  Use "LibreOffice Draw" to draw the schematics
 +
#  Implementation
 +
#*  Show your software workings using a flow-chart
 +
#*  Use bullets and pictures to show the "how" part.
 +
#*  Show what Software you used to control your Hardware.
 +
#  Testing
 +
#*  What kind of tests did you perform?
 +
#*  What kind of problems did you solve?
 +
#  Conclusion
 +
#*  What did you learn?
 +
#*  What worked, and what didn't work?
 +
#*  How would you improve your project?
  
        cmd = lights_on;
+
<BR/>
        wireless_send(lights_addr, mesh_pkt_ack, &cmd, 1);
+
== Challenges & Hints ==
        if (wireless_get_ack_pkt(&pkt, 100)) {
+
=== Challenges ===
            // We got an acknowledge from lights_addr
+
Over the course of the project, you will encounter some real-world problems such as :
        }
 
        else {
 
            printf("ERROR: No acknowledge from %i (lights)\n", lights_addr);
 
        }
 
        delay_ms(3000);
 
  
        cmd = lights_off;
+
*  How will you design your project to be user friendly?
        wireless_send(lights_addr, mesh_pkt_ack, &cmd, 1);
+
*  How will you collaborate in your team?
        /* TODO Check if we got an ACK */
+
* How will you balance your budget and keep parts cost to a minimum?
        delay_ms(3000);
+
* How will you make your project more creative?  How will it stand out?
    }
 
    return 0;
 
}
 
</syntaxhighlight>
 

Latest revision as of 22:37, 21 November 2014

Objective

Work together as a group to create an LED lighting system. You will create hardware that controls power to a 12v LED light (or LED strip), and then write the software to control the LED light.

Think outside the box; you can do much more :

  • You can create an alarm clock and turn on LEDs on/off
  • Orientation or rotation can turn on/off lights or change colors.
  • You can combine your group with another group to make your project look better!

Note that your board contains wireless mesh network allowing you to freely connect many boards together and they can all communicate with each other. This can be useful if you wish to earn extra credit by interacting with multiple boards. For example, a motion sensor on one board can turn on the lights on multiple boards. The API is documented at your board's wikipedia page.

Tools Needed

  1. Wire wrapping tool - https://www.youtube.com/watch?v=8SSOKppwpAE
  2. Wire wrapping wire - http://www.adafruit.com/product/1446
  3. LED strip
  4. 12 V Power Supply
  5. SJOne Board(s)
  6. Resistors
  7. MOSFET

Connecting the MOSFET

Read the datasheet for the MOSFET - http://www.mouser.com/ds/2/308/on%20semiconductor_ntd5865n-d-327059.pdf

Cmpe30 Mosfet Pin Connections.JPG

Also, Please click on this demonstration link, and wire-up the GATE, SOURCE, and DRAIN as demonstrated. More details are at this article

LED Strip

Current limiting resistors as shown in circuit may not be needed if using LED strip instead of single LED. LED strip usually has 2 wires: one for supply (12V) and the other for ground. If you have an RGB LED strip, it will have 4 wires Power supply, Red, Green and Blue. All the Red, Green and Blue are Grounds. Ground the color that you want to use: example: Ground RED to turn on LED strip as RED. Ground all the three colors to get white.

Do NOT use strips that are longer than a meter. cut them to required length before using.


LED strips: http://www.adafruit.com/search?q=LED+strip&b=1

Power Supply

Purchase a 12V/2A adaptor. Cut the power cord at a suitable length to reveal Power and ground lines. Use wire wrapping to connect these lines to the circuit.

Alternate way: Purchase this (http://www.adafruit.com/product/368) component and use wires to connect to the + and - terminals .

Connections

The connections for an LED, MOSFET, board and power supply are shown below: Project schematic.png

All connections can be made using the wire wrapping tool. A video describing wire wrapping procedure is given above under the Tools needed section.

Electronic Parts Companies and Useful Engineering Resources

http://www.socialledge.com/sjsu/index.php?title=Electronic_Parts_Companies_and_Useful_Engineering_Resources

Using the SJOne Board and connecting external components

http://www.socialledge.com/sjsu/index.php?title=SJ_One_Board

This page also has a section for using wireless communication between multiple SJOne boards. In order to use the wireless functionality, an SMA connector needs to be soldered on the board. An antenna can be attached to the SMA connector.

Structure

For simplicity, the minimum requirement is that a team of three is able to have control for an LED strip. It has to be interactive, for example: turning on the LEDs upon light sensor or another trigger.


Requirements

Technical

Your grade will depend on how well you follow the following requirements :

  1. You must use a switch / case code section in your code.
  2. You must use a state machine in at least one of your nodes.
    This could be as simple as a state machine for "Manual Lights" vs. "Automatic Lights"
  3. All functions used shall be no larger than 50 lines of code.
    Split into smaller sub-functions.
  4. You must utilize functions that use pass-by-value and pass-by-reference.
  5. Project should be self-contained
    • Project should be enclosed, with no wires visible.
    • Project should not require the Hercules Terminal to operate.
    • Project should preferably operate with its own independent power source (or battery pack).
  6. All buttons should be labeled.
    An operator should be able to operate without reading an instruction manual.

Items to Submit

At the end of the project, the following items need to be submitted :

  • Full source-code of all the projects
  • Individual evaluations about team members and their contribution
    This will be confidential, and you can submit as one per person (at Canvas).

Project Report

You must submit a full, documented report for your project (one per group of six). The following are minimum sections required in your PDF submitted report:

  1. Introduction
    • What does your project do?
    • Try to sell your project in this section.
    • Add a sub-section called "Features & Communication Table"
      List the features of each node and the communication table.
      At least four unique features per node should be listed.
  2. Schematics
    • List the hardware you used.
    • Use "LibreOffice Draw" to draw the schematics
  3. Implementation
    • Show your software workings using a flow-chart
    • Use bullets and pictures to show the "how" part.
    • Show what Software you used to control your Hardware.
  4. Testing
    • What kind of tests did you perform?
    • What kind of problems did you solve?
  5. Conclusion
    • What did you learn?
    • What worked, and what didn't work?
    • How would you improve your project?


Challenges & Hints

Challenges

Over the course of the project, you will encounter some real-world problems such as :

  • How will you design your project to be user friendly?
  • How will you collaborate in your team?
  • How will you balance your budget and keep parts cost to a minimum?
  • How will you make your project more creative? How will it stand out?