Charles Tritt / Mbed OS 21_Speaker_v5

First version. Demo of PWM setup and speaker operation. Fine grain control of the PWM parameters is an advantage Mbed has over the Arduino environment.

Files at this revision

API Documentation at this revision

Revision 111:ac492142f160, committed 2021-10-28

Comitter:
CSTritt
Date:
Thu Oct 28 02:28:59 2021 +0000
Parent:
110:e80444a6fe3a
Commit message:
First version. Demo of PWM setup and speaker operation.

Changed in this revision

main.cpp Show annotated file Show diff for this revision Revisions of this file 
--- a/main.cpp	Tue Oct 05 13:18:23 2021 +0000
+++ b/main.cpp	Thu Oct 28 02:28:59 2021 +0000
@@ -1,45 +1,32 @@
 /*
-    Project: 21_BC_Improved_v5 (Improved Binary Counter (while loop) Version)
+    Project: 21_Speaker_v5
     File: main.cpp
-    
-    Displays 8-bit binary count on bar graph display. This version uses a while 
-    loop which provides a much better starting point for an Up/Down counter.
-    
-    Error in pow function use corrected in v. 1.0.
-    
-    Note: I tried to use count for the loop counter but this resulted in an 
-    ambiguous name error.
-        
+
+    Use PWM to sound speaker audio alarm.
+
     Written by: Dr. C. S. Tritt
-    Created: 10/5/21 (v. 1.1)
+    Created: 10/27/21 (v. 1.0)
 */
 #include "mbed.h"
 
-DigitalIn uB(USER_BUTTON); // Button is active low (up = 1, down = 0).
-const int bits = 8; // Number of bits to use.
-const int c_max = pow(2, bits) - 1; // Maximum count. pow is type double.
-const int sleepTime = 100; // Sleep time in milliseconds.
-int myCount = 0; // Count to be displayed. Loop counter.
-BusOut barGraph(D2, D3, D4, D5, D6, D7, D8, D9);  // The display.
+DigitalIn uB(USER_BUTTON); // The user button input (normally high).
+PwmOut spkrOut(D12); // The speaker output.
 
-int main() {
-    // Test the wiring.
-    ThisThread::sleep_for(400); // For 0.4 seconds.
-    barGraph = 0b01010101;  // Odd bars on (binary).
-    ThisThread::sleep_for(400); // Test even bars for 0.4 seconds. 
-    barGraph = 0b10101010;  // Even bars on (binary).   
-    ThisThread::sleep_for(400); // Test even bars for 0.4 seconds.
-    barGraph = 0xFF;  // All bars on. Hex.
-    ThisThread::sleep_for(400); // For 0.4 seconds.  
-
-    barGraph = myCount; // Initialize the display to myCount.
-    // Enter main loop. 
+const int SLP_TIME = 100; // 0.1 s sample interval.
+// PWM period: 2500 uS = 2.5 mS --> 400 Hz.
+const int PWM_PRD = 2500; 
+const float DUTY_CYCLE = 0.5f; // Duty cycle as a fraction.
+int main(void)
+{
+    // Setup.
+    spkrOut.period_us(PWM_PRD);
+    // Enter main loop.
     while(true) {
-        while (myCount >= 0 && myCount <= c_max) {
-            barGraph = myCount; // Set display to myCount.
-            ThisThread::sleep_for(sleepTime);  // Display value for 0.1 seconds.
-            myCount++;
+        if (uB) {
+            spkrOut.write(0); // No sound.
+        } else {
+            spkrOut.write(DUTY_CYCLE); // Set duty cycle to sound speaker.            
         }
-        myCount = 0;
+        ThisThread::sleep_for(SLP_TIME);  // Display value for 0.1 seconds.            
     }
 }
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