Akhil Nair
/
Lab3p2
Lab3 part2 with DAC
main.cpp
- Committer:
- WilliamMarshQMUL
- Date:
- 2017-02-01
- Revision:
- 0:5307f49cd305
- Child:
- 1:18e0f8aef32f
File content as of revision 0:5307f49cd305:
// Lab 3 Example Program 2 // ----------------------- // Periodically write to the AnalogOut to create a sine wave // Alternate between two fixed frequencies every 5 sec // // THIS VERSION HAS DEBUGGING CODE USING THE SERIAL PORT #include "mbed.h" #include "rtos.h" #include "sineTable.h" Ticker tick ; // Creates periodic interrupt AnalogOut ao(PTE30) ; // Analog output // --- following code for debugging --- Thread debugT ; Serial pc(USBTX, USBRX); // tx, rx, useful for debugging // Put a simple reprsentation of the sine wave // to the serial output. ONLY at low frequency void debug(int index) { int sine4 = sine[index] >> 11 ; // get top 5 bits pc.putc('*') ; while (sine4--) pc.putc('*') ; pc.putc('\n') ; //pc.putc('\r') ; } volatile int index = 0 ; // this variable is not just for debugging!! void debugCallback() { while (true) { Thread::signal_wait(0x1) ; debug(index) ; // there is a race condition here } } // ---- end of debugging code --------- // Function called every periodically // Write new value to AnalogOut void writeAout() { ao.write_u16(sine[index]) ; debugT.signal_set(0x1) ; // DEBUGGING low frequency only index = (index + 1) % 64 ; } // Control the frequency of updates // Alternative between two frequencies int main() { int update_us = 100000 ; // 100ms debugT.start(&debugCallback) ; while (true) { pc.printf("Update at 64 x 100ms giving about 0.15Hz\n"); tick.attach_us(callback(&writeAout), update_us); // setup ticker to write to AnalogOut Thread::wait(30000) ; // wait 30 sec - 30000ms update_us = 150000 ; // 150ms pc.printf("Update at 64 x 150ms giving about 0.1Hz\n"); tick.attach_us(callback(&writeAout), update_us); // setup ticker to write to AnalogOut Thread::wait(30000) ; // wait 30 sec - 30000ms update_us = 100000 ; // 100ms } }