Differences

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--- digispark:tutorials:rgb [2013/03/29 07:06]
PeterMortensen [Parts:] Unit symbols (e.g. A) are in uppercase, but not if spelled out (ampere).
+++ digispark:tutorials:rgb [2015/06/03 00:21]
oscomputing [Assembly:]
@@ Line 34: / Line 34: @@
-Empty kit bag (or if using a raw PCB, aquire parts) and verify contents.
+Empty kit bag (or if using a raw PCB, acquire parts) and verify contents.
 **Note for Kickstarter Backers and Pre-orders:** Headers are not included in each kit bag, but the entire order came with more than enough headers for all kits.
@@ Line 43: / Line 43: @@
 [[https://s3.amazonaws.com/digispark/images/m/rgb5.jpg|{{https://s3.amazonaws.com/digispark/images/t/rgb5.jpg}}]]
-When inserting the LED into the board ensure the longest lead of the LED goes through the hole marked ground - this ensure you ahve the LED oriented properly. Solder the LED leads and clip off the excess.
+When inserting the LED into the board ensure the longest lead of the LED goes through the hole marked ground - this will ensure you have the LED oriented properly. Solder the LED leads and clip off the excess.
 [[https://s3.amazonaws.com/digispark/images/m/rgb4.jpg|{{https://s3.amazonaws.com/digispark/images/t/rgb4.jpg}}]]
-Cut a length of male headers 6 pins long and one 3 pins long. Insert into corresponding positions (on the bottom of the board) and solder each pin.
+Cut two lengths of male headers, one 6 pins long and another 3 pins long. Insert into corresponding positions (on the bottom of the board) and solder each pin.
-**Tip:** Inseting the headers into a breadboard and then placing the board on top can make this process easier.
+**Tip:** Inserting the headers into a breadboard and then placing the board on top can make this process easier.
 **Note:** If you are using stackable headers, use them here instead of the standard male headers.
@@ Line 63: / Line 63: @@
 =====Programming:=====
-**Note:** The programming sections assumes you've installed the Arduino IDE and the Digispark Add-ons: [[digispark:tutorials:connecting|Connecting and Programming Your Digispark]]
+**Note:** The programming sections assumes you've installed the Arduino IDE and the Digispark Add-ons: [[digispark:tutorials:connecting|Connecting and Programming Your Digispark]].
-The RGB shield uses the following pins to control the LEDS:
+The RGB shield uses the following pins to control the LEDs:
-Pin 0 -> Red
+Pin 0 -> Red LED
-Pin 1 -> Green
+Pin 1 -> Green LED
-Pin 2 -> Blue
+Pin 2 -> Blue LED
 Turning a color on or off is as simple as this:
 <code arduino>
 void setup() {
-  // initialize the LED pins as outputs
+    // Initialize the LED pins as outputs
-  pinMode(0, OUTPUT);
+    pinMode(0, OUTPUT);
-  pinMode(1, OUTPUT);
+    pinMode(1, OUTPUT);
-  pinMode(2, OUTPUT);
+    pinMode(2, OUTPUT);
 }
 void loop() {
-  digitalWrite(0, HIGH);   	// turn the Red LED On
+    digitalWrite(0, HIGH);  // Turn the red LED On
-  delay(1000);              // wait for a second
+    delay(1000);            // Wait for a second
-  digitalWrite(1, HIGH);   	// turn the Green LED On
+    digitalWrite(1, HIGH);  // Turn the green LED On
-  delay(1000);              // wait for a second
+    delay(1000);            // Wait for a second
-  digitalWrite(2, HIGH);   	// turn the Blue LED On
+    digitalWrite(2, HIGH);  // Turn the blue LED On
-  delay(1000);              // wait for a second
+    delay(1000);            // Wait for a second
-  digitalWrite(0, LOW);    	// turn the Red LED off
+    digitalWrite(0, LOW);   // Turn the red LED off
-  digitalWrite(1, LOW);     // turn the Green LED off
+    digitalWrite(1, LOW);   // Turn the green LED off
-  digitalWrite(2, LOW);     // turn the Blue LED off
+    digitalWrite(2, LOW);   // Turn the blue LED off
-  delay(1000);              // wait for a second
+    delay(1000);            // Wait for one second
 }
 </code>
-**PWM Note:** While Red and green are connected to pins that support PWM, Blue is not - this is because the 3rd PWM pin is used by the USB communications and we figure most will want to use the RGB shield with USB communication. See Examples->DigisparkRGB->DigisparkRGB or Examples->DigisparkUSB->DigiBlink for examples of using software PWM for pin 2 (Blue).
+**PWM Note:** While the red and green LEDs are connected to pins that support PWM, the blue LED is not - this is because the third PWM pin is used by the USB communications and we figure most will want to use the RGB shield with USB communication. See Examples->DigisparkRGB->DigisparkRGB or Examples->DigisparkUSB->DigiBlink for examples of using software PWM for pin 2 (blue LED).
-If you are not planning to use USB communication: If you want to connect blue to P4 instead of P2 - flip the shield over and you'll see two solder jumpers, one has a little trace connecting its two pads, the other does't - cut the one with the trace and bridge the other with solder this will disconnect blue from P2 and connect it to P4.
+If you are not planning to use USB communication: If you want to connect the blue LED to P4 instead of P2 - flip the shield over and you'll see two solder jumpers, one has a little trace connecting its two pads, the other does't - cut the one with the trace and bridge the other with solder this will disconnect the blue LED from P2 and connect it to P4.
+In the Arduino IDE, take a look at the Examples -> DigisparkRGB -> DigisparkRGB example for more advanced usage. When using that example you must set your board type as Digispark (Tiny Core) for it to work.
-Take a look at the Examples->DigisparkRGB->DigisparkRGB example for more advanced usage. When using that example you must set your board type as Digispark (Tiny Core) for it to work.

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