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There have been 54 items by dab (Search limited from 25-September 23)
#58 Arduino wifi sheilds.
Posted by dab on 04 August 2010 - 10:35 PM in Netduino 2 (and Netduino 1)
I'm also very excited about the Netduino and the .NET goodness that it brings to the AVR microcontrollers .
Along the same lines as nirav's question - is there (or will there be) support for the XBee wireless Arduino shields?
For example:
http://www.sparkfun....roducts_id=8664
Thanks, and I can't wait until my Netduino board arrives!
#82 Arduino wifi sheilds.
Posted by dab on 05 August 2010 - 07:46 PM in Netduino 2 (and Netduino 1)
#64 Arduino wifi sheilds.
Posted by dab on 05 August 2010 - 06:15 AM in Netduino 2 (and Netduino 1)
#487 BlinkyTimer sample
Posted by dab on 15 August 2010 - 07:01 AM in Project Showcase
You beat me to it. Thanks again, Chris!I just updated it for you. Please let me know if you'd like me to change it back.
(And get some sleep, OK?)
#478 BlinkyTimer sample
Posted by dab on 15 August 2010 - 06:36 AM in Project Showcase
This basically does the same thing as the Blinky tutorial, but it uses a Timer object with a callback method to turn the LED on and off.
Here's the code. If you think of any cool variations, please share.
using System; using System.Threading; using Microsoft.SPOT; using Microsoft.SPOT.Hardware; using SecretLabs.NETMF.Hardware; using SecretLabs.NETMF.Hardware.Netduino; namespace BlinkyTimer { public class Program { const int blinkPeriod = 250; static bool ledState; static OutputPort led; public static void Main() { // Set the initial state of the LED to off (false). ledState = false; led = new OutputPort(Pins.ONBOARD_LED, ledState); // Create a System.Threading.Timer instance and pass it the timer callback method. Timer blinkTimer = new Timer( new TimerCallback(BlinkTimerCallback), null, blinkPeriod, blinkPeriod); Thread.Sleep(Timeout.Infinite); } public static void BlinkTimerCallback(Object obj) { // Invert the previous state of the LED. ledState = !ledState; // Set the LED to its new state. led.Write(ledState); } } }
#483 BlinkyTimer sample
Posted by dab on 15 August 2010 - 06:56 AM in Project Showcase
One quick note: you don't need to put the infinite sleep inside a loop. It will only execute once...so they while(true) is redundant...
Yeah, I keep meaning to fix that. It was in a sample program from the book "Embedded Programming with the Microsoft .NET Micro Framework", but I agree it seems redundant. It might also make the code a little smaller by removing the while loop(?).
#3129 Buying or Acquiring Parts
Posted by dab on 28 September 2010 - 06:24 PM in General Discussion
I'll add a couple more:
- Evil Mad Science Shop: This is the companion store for the Evil Mad Scientist Laboratories blog. A smaller but more eclectic shop. They mainly sell kits of their own design, and also have some good deals on components (like RGB LEDs). Also check out the EggBot.
- Adafruit Industries: The companion store for the LadyAda.net blog (aka Limor Fried). Like Evil Mad Science, the store carries a lot of kits designed by LadyAda, as well as lots of Arduino boards and shields. There's some overlap with MakerShed and SparkFun, but a lot of cool stuff.
#3209 Console Output??
Posted by dab on 29 September 2010 - 09:14 PM in General Discussion
Hi Shane and welcome!
The Debug.Print will appear in the Output window within Visual Studio or Express.
Cheers,
Matt.
And you need to have the debugger attached. In VS2010, go to Debug | Start Debugging, which will run the solution in the debugger.
If the debugger isn't attached, the Debug.Print() statements will have no effect.
#3237 Console Output??
Posted by dab on 30 September 2010 - 02:03 AM in General Discussion
Oh, cool - I didn't know that. Thanks for the tip!You can also view the Debug.Print statements through MFDeploy. If you're not running the app from Visual Studio, press F5 in MFDeploy to hook into the Netduino's Debug output.
Chris
#2602 Controlling a LED Intensity
Posted by dab on 22 September 2010 - 05:27 AM in General Discussion
#1404 Electronics Books
Posted by dab on 27 August 2010 - 06:16 AM in General Discussion
+1 on Make: Electronics. Very fun and easy read, with clear explanations and experiments that demonstrate the principles well.I'm in the same boat. This book has been fan-freakin-tastic: Make: Electronics
Stacy
Some of the old Radio Shack books by Forest M. Mims are also quite good. I believe you can still get his classic "Getting Started in Electronics", as well as reprints that combine several of the small "Engineer's Mini Notebook" titles in one book.
#476 Facebook
Posted by dab on 15 August 2010 - 06:01 AM in Netduino 2 (and Netduino 1)
#3178 How to use the SD card and StreamWriter
Posted by dab on 29 September 2010 - 06:48 AM in Netduino Plus 2 (and Netduino Plus 1)
I'm getting exactly the same error as Szymon when I try to read a file from the SD card. I actually wrote my sample before I saw this thread, but my code is almost the same.Chris,
Thanks for looking into this. If you change to use ReadToEnd() the behavior is the same. So this might be memory leak inside the StreamReader itself.
Here's the sample code where I use a StreamReader object to get the first line of a text file:
using System; using System.IO; using System.Threading; using Microsoft.SPOT; using Microsoft.SPOT.Hardware; using SecretLabs.NETMF.Hardware; using SecretLabs.NETMF.Hardware.Netduino; namespace SDCardSample { public class Program { public static void Main() { string currentDir = Directory.GetCurrentDirectory(); Debug.Print("Current directory: " + currentDir); string[] dirs = Directory.GetDirectories(currentDir); foreach (string d in dirs) { Debug.Print("dir: " + d); string[] files = Directory.GetFiles(d); foreach (string f in files) { Debug.Print("file: " + f); StreamReader reader = new StreamReader(f); Debug.Print(reader.ReadLine()); reader.Close(); } } } } }
And the exception that gets thrown:
Current directory: \ dir: \SD file: \SD\FOO.TXT Failed allocation for 685 blocks, 8220 bytes Failed allocation for 685 blocks, 8220 bytes #### Exception System.OutOfMemoryException - CLR_E_OUT_OF_MEMORY (1) #### #### Message: #### System.IO.StreamReader::ReadLine [IP: 000a] #### #### SDCardSample.Program::Main [IP: 005e] #### A first chance exception of type 'System.OutOfMemoryException' occurred in System.IO.dll An unhandled exception of type 'System.OutOfMemoryException' occurred in System.IO.dll
Note that this happens for both ANSI and UTF-8 encoded files (I created the files on the PC).
#3261 How to use the SD card and StreamWriter
Posted by dab on 30 September 2010 - 06:01 AM in Netduino Plus 2 (and Netduino Plus 1)
Cool - thanks for getting the new firmware out so quickly!We have posted updated firmware to address the SD card mounting and memory allocation issues.
http://forums.netdui...patch-4-beta-1/
SD card-related updates in the firmware update:
* Mounting invalid MicroSD cards now throws an exception
* Reduced memory usage when accessing SD cards
Please let me know if this new firmware fixes things for you...
Chris
This seems to fix the problem I was having with the StreamReader.ReadLine() method yesterday:
Current directory: \ dir: \SD file: \SD\FOO.TXT The quick brown fox jumps over the lazy dog.
Now I need to figure out what to do with 1.83 GB of storage.
#470 I love this thing, maybe too much...?
Posted by dab on 15 August 2010 - 04:07 AM in Netduino 2 (and Netduino 1)
2 wires: Constant speed
3 wires: Constant speed w/ tachometer output
4 wires: Variable speed w/ tachometer output and speed input (PWM)
I recently saw an article on the Make: blog where a guy had connected a 3-wire fan to an Arduino and it displayed the fan's speed on 7-segment displays. I think that would be a good re-make with the Netduino.
http://blog.makezine...th_arduino.html
#566 InterruptPort
Posted by dab on 16 August 2010 - 07:30 AM in Netduino 2 (and Netduino 1)
Quick update... We found the problem. A single line of code in the GPIO debouncer code was causing the glitch in the glitchfilter.
We have implemented the GlitchFilter fix in the v4.1.0.2 (4.1.0 patch 2) update along with the AnalogInput bugfix. The updated firmware will be posted by tomorrow.
Chris
Cool, I'll be sure to try it out (tomorrow).
#441 InterruptPort
Posted by dab on 14 August 2010 - 08:36 PM in Netduino 2 (and Netduino 1)
Hi Chris,
Yeah, I know how delegates and events work. I've been coding professional for 10+ years. I found out why my InterruptPort wasn't working!! It was the glitchFilter, I set it to true. I remember reading it somewhere that if you set the glitchFilter to true, that will automatically handle switch debouncing for you. Could you clarify the use of this parameter for me as I am confused now. And thanks for the quick reply. You guys are doing great job helping the Netduino community to get started.
xc2rx
Hi xc2rx,
I found the same thing that you did with the glitchFilter parameter. (BTW, I'm the guy who posted the ToggleButton sample that Chris referred to).
In the ToggleButton sample, if I set the InterruptPort's glitchFilter parameter to true, it seems that the interrupts don't fire (or the event associated with the interrupt doesn't fire - not sure which one).
@Chris - is there a way we can investigate this further?
#627 InterruptPort
Posted by dab on 17 August 2010 - 12:09 AM in Netduino 2 (and Netduino 1)
Or maybe you could award Fabulous PrizesTM to the top bug finders (like a Netduino board or a trip to Hawaii).Perhaps we could "dedicate" bug fixes to our community members?
#3180 Introducing Netduino Plus -- Notes
Posted by dab on 29 September 2010 - 06:58 AM in Netduino Plus 2 (and Netduino Plus 1)
I bought this one today, and it seems to work (well, I can read the directories and file names, but there seems to be a problem with reading file contents).Chris,
I have no microSD atm, so will need to buy one. Could you post a list of cards that are known to work?
SanDisk Mobile microSD Card 2GB
$9.99 at Office Depot in the US.
#2702 Out of memory error
Posted by dab on 23 September 2010 - 10:45 PM in Netduino 2 (and Netduino 1)
#3236 Power Questions - i.e. Voltage
Posted by dab on 30 September 2010 - 01:59 AM in General Discussion
Well, you could put two of the 6V batteries in series to get 12V.ummmm didnt think about that.... I dont really know. I guess what I'm asking is what can I do to get a battery with high amps and at least 9V... cuz they sell them for RC model airplanes, but those are crazy expensive
With a regulator, it's fairly easy to *decrease* the voltage. But, in general, it's not easy to increase the voltage of a DC source.
Increasing the voltage generally involves converting DC to AC (or a DC square wave), passing it through a step-up transformer, and converting back to DC.
But if you do that, then the current will decrease proportionally with the voltage increase (actually, you'll lose even more current due to losses in the transformer, etc.).
#1400 Pwm2Color Sample
Posted by dab on 27 August 2010 - 05:40 AM in Project Showcase
Here's a fun little project that builds on my previous PwmSample and PwmGamma programs.
The Pwm2Color sample controls a 2-color LED (or 2 individual LEDs, if you wish). It uses 2 pushbutton switches as input; one button controls the intensity of the Red LED, and the other button controls the Green LED.
The buttons gradually ramp the LED intensity up and back down, using Gamma correction to make the ramps more linear.
By using a 2-color LED (which is just 2 LED substrates in the same package), you can mix the red and green components in different proportions, creating intermediate shades of yellow and orange.
Please see the comments in the code for a description of the circuit. I'll try to post up a schematic later if there's interest.
I've made a few tweaks since the PwmGamma sample, and tried to streamline the code a bit:
- The code now makes use of the InterruptPort's glitchFilter parameter, so please make sure you are running Netduino firmware 4.1.0.2 or later.
- Since I'm now using the glitch filter, there's no need to disable and re-enable the interrupts in the interrupt callback method.
- Note that the same interrupt callback is used to handle the interrupts from both buttons. The interrupt callback uses the data1 parameter to determine which button generated the interrupt.
- The Channel class is used to encapsulate the PWM port (for the LED), the InterruptPort (for the corresponding pushbutton), and the state variables. This makes the code much simpler, since it can just iterate over Channel objects. It also makes it much easier to extend the sample to use a 3-color LED (literally a 2-line code change).
using System; using System.Threading; using Microsoft.SPOT; using Microsoft.SPOT.Hardware; using SecretLabs.NETMF.Hardware; using SecretLabs.NETMF.Hardware.Netduino; namespace Pwm2Color { // The Channel class encapsulates the PWM port for an LED, the InterruptPort // for the corresponding pushbutton switch, and some state variables. public class Channel { public bool ButtonState { get; set; } public int PwmIndex { get; set; } public int PwmIncrement { get; set; } public PWM Led { get { return _Led; } } private PWM _Led; public InterruptPort Button { get { return _Button; } } private InterruptPort _Button; public Channel(Cpu.Pin LedPin, Cpu.Pin ButtonPin) { ButtonState = false; PwmIndex = 0; PwmIncrement = 1; _Led = new PWM(LedPin); _Button = new InterruptPort( ButtonPin, true, Port.ResistorMode.Disabled, Port.InterruptMode.InterruptEdgeBoth ); } } public class Program { const int pwmPeriod = 50; const uint MaxDutyCyle = 100; // Lookup table for the LED brightness. The table contains the // gamma-corrected values (for gamma = 2.5). This approximates // a linear increase in the perceived brightness. // // Declaring it as a byte array makes the assembly a little smaller, // and the byte values automatically get promoted to uint when // setting the PWM duty cycle. static byte[] gammaTable = { 0, 0, 0, 0, 1, 1, 1, 2, 2, 3, 4, 5, 6, 7, 9, 10, 12, 14, 16, 18, 20, 22, 25, 28, 31, 34, 37, 41, 45, 49, 53, 57, 62, 67, 72, 77, 82, 88, 94, 100, }; static Channel[] channels; public static void Main() { // NOTE: You will need to connect 2 LEDs and an additional pushbutton switch // to the Netduino board. The circuit is as follows: // // 1. Connect a 100-ohm resistor between the anode of the Green LED and Digital Pin 5. // 2. Connect a 100-ohm resistor between the anode of the Red LED and Digital Pin 6. // 3. Connect the LED cathode(s) to GND on the Power header. // 4. Connect a 1K pull-up resistor between 3V3 on the Power header and Digital Pin 1. // 5. Connect one side of the SPST pushbutton switch to Digital Pin 1. (This switch // controls the Red LED). // 6. Connect the other side of the SPST pushbutton switch to GND on the Power header. // // I used a 2-color LED which has red and green LEDs in the same package. // Electrically, it's the same as 2 separate LEDs, so the circuit is virtually the same. // If you use a 2-color LED, be sure to get the common-cathode variety. // With a 2-color LED, you can "mix" the colors in varying proportions. // When both red and green are on, the resulting color is yellow or orange. // // It should be almost trivial to modify this program to handle a 3-color LED. ;) // Allocate the array to hold 2 Channel references. channels = new Channel[2]; // Create each Channel and add it to the channels[] array. channels[0] = new Channel(Pins.GPIO_PIN_D5, Pins.ONBOARD_SW1); // Green channel channels[1] = new Channel(Pins.GPIO_PIN_D6, Pins.GPIO_PIN_D1); // Red channel // Bind the interrupt handler to the pin's interrupt event. // The same interrupt handler is used for all the channels. // The data1 parameter in the handler will determine which button // generated the interrupt. foreach (Channel ch in channels) { ch.Button.OnInterrupt += new NativeEventHandler(SwitchInterruptHandler); } // Create a System.Threading.Timer instance and pass it the timer callback method. Timer pwmTimer = new Timer( new TimerCallback(PwmTimerCallback), null, pwmPeriod, pwmPeriod); Thread.Sleep(Timeout.Infinite); } public static void PwmTimerCallback(Object obj) { // Only change the LED brightness when the corresponding button is pushed (true). foreach (Channel ch in channels) { if (true == ch.ButtonState) { // Set the pin's new duty cycle. ch.Led.SetDutyCycle(gammaTable[ch.PwmIndex]); ch.PwmIndex += ch.PwmIncrement; Debug.Print(gammaTable[ch.PwmIndex].ToString()); if (((gammaTable.Length - 1) == ch.PwmIndex) || (0 == ch.PwmIndex)) { // The duty cycle has hit the min or max value. // Start ramping in the other direction. ch.PwmIncrement = -ch.PwmIncrement; } } } } // port: The pin number of the port that generated the interrupt // state: The logic state of the port // time: Time of the event public static void SwitchInterruptHandler(UInt32 port, UInt32 state, DateTime time) { foreach (Channel ch in channels) { if (port == (UInt32)ch.Button.Id) { ch.ButtonState = (0 == state); } } } } }
#734 PwmGamma Sample
Posted by dab on 18 August 2010 - 08:50 AM in Project Showcase
After a bit of research, I found that this is referred to as "gamma correction", and even found an application note that discusses using gamma correction with PWM:
http://www.maxim-ic....dex.mvp/id/3667
So, here's an update to PwmSample that uses a pre-computed LUT (lookup table) for the PWM output values. These are the gamma-corrected values (for gamma = 2.5) that produce a brightness ramp that looks linear (more or less) to our eye.
Here's the code:
using System; using System.Threading; using Microsoft.SPOT; using Microsoft.SPOT.Hardware; using SecretLabs.NETMF.Hardware; using SecretLabs.NETMF.Hardware.Netduino; namespace PwmGamma { public class Program { const int pwmPeriod = 50; // Lookup table for the LED brightness. The table contains the // gamma-corrected values (for gamma = 2.5). This approximates // a linear increase in the perceived brightness. static uint[] gammaTable = { 0, 0, 0, 0, 1, 1, 1, 2, 2, 3, 4, 5, 6, 7, 9, 10, 12, 14, 16, 18, 20, 22, 25, 28, 31, 34, 37, 41, 45, 49, 53, 57, 62, 67, 72, 77, 82, 88, 94, 100, }; static bool buttonState; static int pwmIndex; static int pwmIncrement; static InterruptPort button; static PWM led; public static void Main() { pwmIndex = 0; pwmIncrement = 1; buttonState = false; // NOTE: You will need to connect an LED to Digital Pin 5 on the Netduino board. // Use a 100-ohm (brown-black-brown) resistor between the LED anode (+) and Digital Pin 5. // Connect the LED cathode (-) to one of the GND pins on the Power header. // // You can use any other PWM-enabled pin (5, 6, 9 or 10), but also remember to change // the Pin parameter in the PWM constructor below. led = new PWM(Pins.GPIO_PIN_D5); button = new InterruptPort( Pins.ONBOARD_SW1, false, Port.ResistorMode.Disabled, Port.InterruptMode.InterruptEdgeBoth); // Bind the interrupt handler to the pin's interrupt event. button.OnInterrupt += new NativeEventHandler(SwitchInterruptHandler); // Create a System.Threading.Timer instance and pass it the timer callback method. Timer pwmTimer = new Timer( new TimerCallback(PwmTimerCallback), null, pwmPeriod, pwmPeriod); Thread.Sleep(Timeout.Infinite); } public static void PwmTimerCallback(Object obj) { // Only change the LED brightness when the button is pushed (true). if (true == buttonState) { // Set the pin's new duty cycle. led.SetDutyCycle(gammaTable[pwmIndex]); pwmIndex += pwmIncrement; Debug.Print(gammaTable[pwmIndex].ToString()); if (((gammaTable.Length - 1) == pwmIndex) || (0 == pwmIndex)) { // The duty cycle has hit the min or max value. // Start ramping in the other direction. pwmIncrement = -pwmIncrement; } } } public static void SwitchInterruptHandler(UInt32 data1, UInt32 data2, DateTime time) { button.DisableInterrupt(); buttonState = (0 == data2); button.EnableInterrupt(); } } }
#807 PwmGamma Sample
Posted by dab on 18 August 2010 - 09:49 PM in Project Showcase
You mean you actually take vacation?Nice! I'm glad I brought a Netduino with me on vacation so I can play with this
#563 PwmSample
Posted by dab on 16 August 2010 - 07:12 AM in Project Showcase
Here's a little sample that uses a PWM pin to control the brightness of an LED. I like to call it PwmSample, for lack of a better name.
What it does:
When you press and hold the pushbutton, a connected LED will gradually brighten and dim. If you release the pushbutton, the LED stays at its current brightness. Pushing the button again will resume the brighten/dim cycle from the current value.
How it works:
This sample combines several techniques from the previous samples. It uses an InterruptPort for the pushbutton input; the SwitchInterruptHandler() method is called when the InterruptPort detects a rising or falling edge due to the pushbutton.
The sample also uses a Timer callback to do the actual LED brightness control. Every 20 milliseconds, the PwmTimerCallback() method is called. This method checks whether the pushbutton is closed (the buttonState variable). If so, then it increments (or decrements) the PWM pin's duty cycle.
Circuit:
Note that you'll need to connect an external LED to the Netduino board (it won't work with the built-in LED, since it's not connected to a PWM-enabled pin).
I used Digital Pin 5 in the sample; you can use any PWM-enabled pin (5, 6, 9, or 10), but make sure to change the Pin definition on line 34.
I don't have a schematic editor handy, but the circuit is simple enough. Just connect one end of a 100-ohm resistor to Digital Pin 5. Connect the other end of the resistor to the anode (+) lead of your LED. Then connect the cathode (-) lead of the LED to one of the GND pins on the Netduino Power header.
Here's the code:
using System; using System.Threading; using Microsoft.SPOT; using Microsoft.SPOT.Hardware; using SecretLabs.NETMF.Hardware; using SecretLabs.NETMF.Hardware.Netduino; namespace PwmSample { public class Program { const int pwmPeriod = 20; const uint MaxDutyCyle = 100; static bool buttonState; static int pwmDutyCycle; static int pwmIncrement; static InterruptPort button; static PWM led; public static void Main() { pwmDutyCycle = 0; pwmIncrement = 1; buttonState = false; // NOTE: You will need to connect an LED to Digital Pin 5 on the Netduino board. // Use a 100-ohm (brown-black-brown) resistor between the LED anode (+) and Digital Pin 5. // Connect the LED cathode (-) to one of the GND pins on the Power header. // // You can use any other PWM-enabled pin (5, 6, 9 or 10), but also remember to change // the Pin parameter in the PWM constructor below. led = new PWM(Pins.GPIO_PIN_D5); button = new InterruptPort( Pins.ONBOARD_SW1, false, Port.ResistorMode.Disabled, Port.InterruptMode.InterruptEdgeBoth); // Bind the interrupt handler to the pin's interrupt event. button.OnInterrupt += new NativeEventHandler(SwitchInterruptHandler); // Create a System.Threading.Timer instance and pass it the timer callback method. Timer pwmTimer = new Timer( new TimerCallback(PwmTimerCallback), null, pwmPeriod, pwmPeriod); Thread.Sleep(Timeout.Infinite); } public static void PwmTimerCallback(Object obj) { // Only change the LED brightness when the button is pushed (true). if (true == buttonState) { // Set the pin's new duty cycle. pwmDutyCycle += pwmIncrement; led.SetDutyCycle((uint)pwmDutyCycle); Debug.Print(pwmDutyCycle.ToString()); if ((MaxDutyCyle == pwmDutyCycle) || (0 == pwmDutyCycle)) { // The duty cycle has hit the min or max value. // Start ramping in the other direction. pwmIncrement = -pwmIncrement; } } } public static void SwitchInterruptHandler(UInt32 data1, UInt32 data2, DateTime time) { button.DisableInterrupt(); buttonState = (0 == data2); button.EnableInterrupt(); } } }
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