Water control
/
Water_pump
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
Diff: salinity.cpp
- Revision:
- 1:924bead61d21
diff -r aa60e0772af6 -r 924bead61d21 salinity.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/salinity.cpp Tue Jun 27 20:54:33 2017 +0000
@@ -0,0 +1,165 @@
+#include "salinity.h"
+#include "general_control.h"
+#include "TextLCD.h"
+#include "motors.h"
+
+AnalogIn sal(p20);
+extern Serial pc;
+extern float cbV; extern int bC; extern int pw_csv; extern int sw_csv;
+extern int pwTC; extern int pwTV; extern int swTC; extern int swTV;
+extern bool rfl_flag, sal_suspension;
+extern TextLCD lcd;
+
+
+//Salinity calculation
+float calc_sal(float voltage) {
+ return 15.1747217178 * voltage - 2.89491343498;
+}
+
+float calc_sal2(float voltage) {
+ return 16.3 * voltage;
+}
+
+float calc_finalsal(float s1, float s2) {
+ return 14.259 + 6.795*s1 -5.148*s2 -1.3;
+}
+
+float calc_salinity(){
+ float s1, s2, sfinal, sensor_volt = 1.6 * 3.3 * sal.read();;
+ s1=calc_sal(sensor_volt);
+ s2=calc_sal2(sensor_volt);
+ sfinal=calc_finalsal(s1,s2);
+ return sfinal;
+}
+
+void print_water_limits() {
+ pc.printf("MAX volume of water that can be added: %.3f ml\n", bC-cbV);
+ pc.printf("MAX volume of water that can be extracted: %.3f ml\n", cbV);
+}
+
+void syringe_capacity_control(char motor, int target) {
+ if (motor=='a' && pw_csv<target) { //Pure water syringe does not currently have target ml of water
+ while (!rfl_flag) {wait(0.1);} //Refill needed - Wait untill rfl_flag is raised
+ rfl_flag = false;
+ move_motors(motor, "left", SDC - pw_csv); //Refill the syringe with 25ml with water
+ }
+ if (motor=='b' && sw_csv<target) { //Pure water syringe does not currently have target ml of water
+ while (!rfl_flag) {wait(0.1);} //Refill needed - Wait untill rfl_flag is raised
+ rfl_flag = false;
+ move_motors(motor, "left", SDC - sw_csv); //Refill the syringe with water
+ }
+}
+
+void valve_warning_messages(int vol, bool pure, int pos, bool refill) {
+ if(refill) pc.printf("Refill of the %s water syringe is needed\n", pure ? "pure":"salted");
+ else pc.printf("Going to add %d ml of %s water to the beaker\n", SDC, pure ? "pure":"salted");
+ pc.printf("Make sure the %s water valve is at designated position %d!!\n", pure ? "pure":"salted", pos);
+ pc.printf("Operation has been suspended. Press switch 3 to resume\n");
+}
+
+void add_water(int vol, bool pure) {
+ int i;
+ char motor = pure ? 'a':'b'; //select the proper motor
+ syringe_capacity_control(motor, SDC); //make sure that the syringe has enough water
+ if (vol>SDC) { //if more than SDC ml are needed, refill will be required
+ for (i=0; i<vol/SDC; i++) { //vol div SDC refills needed
+ valve_warning_messages(SDC, pure, 1, false); //print valve warning messages
+ pc.printf("rfl_flag in add_water = %s\n", rfl_flag ? "true":"false");
+ while (!rfl_flag) {wait(0.1);} //Wait until switch 3 has been pressed
+ pc.printf("Operation has been resumed\n");
+ rfl_flag = false;
+ move_motors(motor, "right", SDC); //add SDC ml of water to the beaker
+ cbV += SDC; //Update current beaker volume
+ pc.printf("New beaker volume: %.3f\n",cbV);
+ print_water_limits(); //Print the new water limits
+ valve_warning_messages(SDC, pure, 1, true); //print valve warning messages
+ while (!rfl_flag) {wait(0.1);} //Wait untill switch 3 has been pressed
+ pc.printf("Operation has been resumed\n");
+ rfl_flag = false; //Reset flag
+ move_motors(motor, "left", SDC); //Refill the syringe with 25ml with water
+ capacity_control(); //Capacity control
+ }
+ move_motors(motor, "right", vol % SDC); //Add the remaining vol modulo SDC ml with water - no syringe capacity control needed because already full
+ cbV += vol % SDC; //Update current beaker volume
+ print_water_limits(); //Print the water limits
+ capacity_control(); //Capacity control
+ }
+ else {
+ move_motors(motor, "right", vol); //Add the needed water (no refill needed)
+ cbV += vol; //Update current beaker volume
+ print_water_limits(); //Print the water limits
+ capacity_control(); //Capacity control
+ }
+}
+
+void print_salinity(float sal) {
+ pc.printf("Salinity = %.3f\n", sal);
+ lcd.cls();
+ lcd.printf("Sal: %.3f\n", sal);
+}
+
+void print_system_status() {
+ pc.printf("bC = %d\n", bC);
+ pc.printf("cbV = %.3f\n", cbV);
+ pc.printf("pwTC = %d\n", pwTC);
+ pc.printf("pwTV = %d\n", pwTV);
+ pc.printf("swTC = %d\n", swTC);
+ pc.printf("swTV = %d\n", swTV);
+}
+
+bool sal_sensor_out_of_water_check(float sl) {
+ if(sl<SSOOW) {
+ pc.printf("Salinity extremely low. Highly likely that the sensor is out of the water\n");
+ pc.printf("Please check the salinity sensor position\n");
+ sal_suspension = true; //Suspend heater
+ pc.printf("For safety reasons, system operation has been suspended. If everything is OK, resume operation by pressing switch 4\n");
+ while(sal_suspension) {wait(0.1);} //Wait until switch 4 is pressed
+ return false;
+ }
+ return true;
+}
+
+bool sal_connection_check(float sl) {
+ if(SCLLL<sl && sl<SCLUL) {
+ pc.printf("Salinity really low! Highly likely that the salinity sensor connection is lost\n");
+ pc.printf("Please check the salinity sensor connection\n");
+ sal_suspension = true; //Suspend heater
+ pc.printf("For safety reasons, system operation has been suspended. If everything is OK, resume operation by pressing switch 4\n");
+ while(sal_suspension) {wait(0.1);} //Wait until switch 4 is pressed
+ return false;
+ }
+ return true;
+}
+
+/*bool sal_malfunction_check(float sl) {
+ ////
+ return true;
+}*/
+
+bool salinity_control() {
+ bool sal_state = true;
+ float pwv = 0, swv = 0, salt; //pwv=Pure Water Volume (ml), swv = Salted Water Volume (ml), salt (gr)
+ float cbs = calc_salinity(); //Current salinity
+ print_salinity(cbs);
+ sal_state = sal_connection_check(cbs); //connection check
+ //sal_state = sal_malfunction_check(cbs); //Malfunction check
+ sal_state = sal_sensor_out_of_water_check(cbs); //Sensor out of water check
+ cbs = calc_salinity(); //Everything ok, take the value of salinity now
+
+ if (cbs>=SSUL) { //pw case
+ sal_state = false;
+ pwv = cbs*cbV/DS - cbV; //how many ml?
+ pc.printf("%.3f ml of pure water need to be added to the beaker\n", pwv);
+ pc.printf("rfl_flag right before adding water = %s\n", rfl_flag ? "true":"false");
+ add_water(pwv,true); //add pure water
+ }
+ else if (cbs<=SSLL) { //sw case
+ sal_state = false;
+ salt = cbV*cbs/1000;
+ swv = cbV-50*salt/4.8; ///how many ml? (Applicable ONLY for DS=20)
+ pc.printf("%.3f ml of salted water need to be added to the beaker\n", swv);
+ add_water(swv,false); //add salted water
+ }
+ pc.printf("\n");
+ return sal_state;
+}
\ No newline at end of file