Frank Duignan
This project can be used to measure UV light levels. It uses an ML8511 UV sensors and outputs its value over BLE in units of mW/cm^2
Diff: UVSensor.h
- Revision:
- 1:ab9f0e572c98
diff -r 6d4b6c56a7ad -r ab9f0e572c98 UVSensor.h
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/UVSensor.h Thu Aug 27 12:42:55 2020 +0000
@@ -0,0 +1,51 @@
+#ifndef __UVSENSOR_H
+#define __UVSENSOR_H
+#include <mbed.h>
+#include <BLE.h>
+AnalogIn UVSignalIn(P0_28);
+
+class UVService {
+public:
+ const static uint16_t UV_SERVICE_UUID = 0xA012;
+ const static uint16_t UV_CHARACTERISTIC_UUID = 0xA013;
+
+ UVService(BLE &_ble, int16_t initialUVValue) :
+ ble(_ble), UVValue(UV_CHARACTERISTIC_UUID, &initialUVValue)
+ {
+ GattCharacteristic *charTable[] = {&UVValue};
+ GattService uvservice(UV_SERVICE_UUID, charTable, sizeof(charTable) / sizeof(GattCharacteristic *));
+ ble.addService(uvservice);
+ }
+
+ GattAttribute::Handle_t getValueHandle() const {
+ return UVValue.getValueHandle();
+ }
+ void updateUVValue(uint16_t newValue) {
+ ble.gattServer().write(UVValue.getValueHandle(), (uint8_t *)&newValue, sizeof(uint16_t));
+ }
+
+ void poll()
+ {
+ uint16_t ADCIn = UVSignalIn.read_u16();
+ // Need to scale this to mW/cm^2
+ // To convert to a voltage : * 3.6/4095
+ // To convert voltage to mW/cm^2 see page 8 of datasheet for ML8511 sensor
+ // This graph is for 3.0V, but the supply in this example is 3.3V.
+ // I'm ASSUMING that the device output is not a function of voltage supply (within reason)
+ // From Graph : UV power / area is roughly given by:
+ // Power = (Voltage - 1) * 7;
+ // Need to avoid unsigned overflow
+ // An input of 1V should give an ADC Value of (1/3.6)*4095 = 1137.5 (1138)
+ if (ADCIn >= 1137 )
+ ADCIn = ADCIn - 1137;
+ else
+ ADCIn = 0;
+ ADCIn = ADCIn / 163; // 4095 / (7*3.6) = 163
+ updateUVValue(ADCIn);
+ }
+private:
+ BLE &ble;
+ ReadOnlyGattCharacteristic<int16_t> UVValue;
+
+};
+#endif
\ No newline at end of file