Tu Hoang
EEPROMTEST
Fork of
Test_nucleo_MCUUU
by 
BAP TUDelft
Diff: main.cpp
- Revision:
- 13:9bd3083f02d4
- Parent:
- 12:c0a99de7c6d3
- Child:
- 14:be6538b80545
--- a/main.cpp Wed May 16 13:31:51 2018 +0000
+++ b/main.cpp Thu May 17 08:48:49 2018 +0000
@@ -57,34 +57,34 @@
vector<int> S_data(8);
i2c.frequency(i2c__frequency); // Set frequency for i2c connection to sensorplate (variable is declared in config part).
- usb_serial.baud(baud_rate); // Set serial USB connection baud rate (variable is declared in config part).
-
- usb_serial.printf("MCUs rule the World !\n");
-
- piezo_resistive_adc1.setGain(GAIN_TWOTHIRDS); // Set ranges of ADC to +/-6.144V (end is marked with #):
- piezo_resistive_adc2.setGain(GAIN_TWOTHIRDS);
-
- usb_serial.printf("Gains set.\n");
-
- timer.start();
- while(1){
- while(timer.read_us() < 2000){}; timer.reset(); //Set readout frequency
-
- myled = !myled;
- //usb_serial.printf("Piezo electric 0_1 dif %d \n", piezo_electric_adc.readADC_Differential_0_1()); // First PE readout.
-// usb_serial.printf("Piezo electric 2_3 dif %d \n", piezo_electric_adc.readADC_Differential_2_3());
-
- for (uint8_t t=0; t<4; ++t){ //Save sensor data into array
- S_data[t] = (int16_t) piezo_resistive_adc1.readADC_SingleEnded(t); //Put first 4 PR sensor data into first 4 S_data array
- S_data[t+4]= (int16_t) piezo_resistive_adc2.readADC_SingleEnded(t); //Put next 4 PR sensor data into first 4 S_data array
- }
-
- checkzero(S_data,S_data.size()); //Check whether any sensor values are zero
- for (uint8_t k = 0; k < 4; ++k) {
- usb_serial.printf("R %d Ar %d: %d\n", k, 1, S_data[k]); // First 4 PR readout.
- usb_serial.printf("R %d Ar %d: %d\n", k, 2, S_data[k+4]); // Next 4 PR readout.
- }
-
-
- }
+ //usb_serial.baud(baud_rate); // Set serial USB connection baud rate (variable is declared in config part).
+//
+// usb_serial.printf("MCUs rule the World !\n");
+//
+// piezo_resistive_adc1.setGain(GAIN_TWOTHIRDS); // Set ranges of ADC to +/-6.144V (end is marked with #):
+// piezo_resistive_adc2.setGain(GAIN_TWOTHIRDS);
+//
+// usb_serial.printf("Gains set.\n");
+//
+// timer.start();
+// while(1){
+// while(timer.read_us() < 2000){}; timer.reset(); //Set readout frequency
+//
+// myled = !myled;
+// //usb_serial.printf("Piezo electric 0_1 dif %d \n", piezo_electric_adc.readADC_Differential_0_1()); // First PE readout.
+//// usb_serial.printf("Piezo electric 2_3 dif %d \n", piezo_electric_adc.readADC_Differential_2_3());
+//
+// for (uint8_t t=0; t<4; ++t){ //Save sensor data into array
+// S_data[t] = (int16_t) piezo_resistive_adc1.readADC_SingleEnded(t); //Put first 4 PR sensor data into first 4 S_data array
+// S_data[t+4]= (int16_t) piezo_resistive_adc2.readADC_SingleEnded(t); //Put next 4 PR sensor data into first 4 S_data array
+// }
+//
+// checkzero(S_data,S_data.size()); //Check whether any sensor values are zero
+// for (uint8_t k = 0; k < 4; ++k) {
+// usb_serial.printf("R %d Ar %d: %d\n", k, 1, S_data[k]); // First 4 PR readout.
+// usb_serial.printf("R %d Ar %d: %d\n", k, 2, S_data[k+4]); // Next 4 PR readout.
+// }
+//
+//
+// }
}
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