Hochschule München
Shell Eco Fuelcell controller
Revision 0:adf68d4b873f, committed 2014-01-07
- Comitter:
- HMFK03LST1
- Date:
- Tue Jan 07 12:02:52 2014 +0000
- Commit message:
- work in Progress
Changed in this revision
diff -r 000000000000 -r adf68d4b873f FastPWM.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/FastPWM.lib Tue Jan 07 12:02:52 2014 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/Sissors/code/FastPWM/#a7b9f778c4b4
diff -r 000000000000 -r adf68d4b873f components.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/components.cpp Tue Jan 07 12:02:52 2014 +0000
@@ -0,0 +1,170 @@
+#include "mbed.h"
+
+typedef struct
+{
+ uint16_t voltage_act; // Actual CAP Voltage
+ uint16_t voltage_low; // Switch to full current
+ uint16_t voltage_mid; // Switch to medium current
+ uint16_t voltage_high; // Switch to minimum current
+ uint16_t voltage_max; // Stopp loading
+ uint16_t voltage_down; // reduce Voltage (CAP down)
+ uint16_t current_low; // minimum current
+ uint16_t current_mid; // medium current
+ uint16_t current_high; // high current
+} struct_cap;
+
+typedef struct
+{
+ uint16_t air_needed;
+ uint16_t current_act;
+ uint16_t current_load;
+ uint16_t temp_act;
+ uint16_t temp_max;
+ uint16_t voltage_act;
+ uint16_t voltage_max;
+} struct_fuelcell;
+
+typedef struct
+{
+ bool fan_override;
+ uint16_t fan_over_pwm; //name
+ uint16_t fan_p;
+ uint16_t fan_i;
+ uint16_t fan_thr;
+ short fan_up; //add
+ short fan_up_count; //add
+ short fan_pwm;
+ uint16_t fan_pwm_act;
+ bool pump_override;
+ uint16_t pump_over_pwm; //name
+ uint16_t pump_min;
+ uint16_t pump_p;
+ uint16_t pump_i;
+ short pump_up; //add
+ short pump_up_count; //add
+ short pump_pwm;
+ uint16_t pump_pwm_act;
+ uint16_t temp_out;
+} struct_h2o;
+
+typedef struct
+{
+ uint16_t current_act;
+ uint16_t current_delta;
+ uint16_t current_load;
+ uint16_t i; // added
+ uint16_t pwm;
+ uint16_t pwm_act;
+ uint16_t temp_act;
+ uint16_t temp_max;
+} struct_mosfet;
+
+typedef struct
+{
+ uint16_t air_current;
+ uint16_t air_needed;
+ uint16_t water_created; //name
+ uint16_t back_lower;
+ uint16_t delta_t;
+ uint16_t lambda;
+ uint16_t lambda_max;
+ uint16_t lambda_min;
+ short lambda_delta;
+ short lambda_delta_sum;
+ bool pump_on;
+ bool pump_override;
+ uint16_t pump_over_load; //name
+ uint16_t pump_load; //name
+ uint16_t pump_load_act; //name
+ short pump_up;
+ short pump_up_count;
+ uint16_t pump_pwm_1;
+ uint16_t pump_pwm_2;
+ bool pump_dual; //name
+ uint16_t pump_dual_on; //added
+ uint16_t pump_dual_off; //added
+ uint16_t rh_out_delta
+ uint16_t rh_pump_load;
+ uint16_t rh_pump_min;
+ uint16_t rh_pump_max;
+ uint16_t rh_out_min;
+ uint16_t rh_out_max;
+ uint16_t rh_back_p;
+ uint16_t rh_in;
+ uint16_t rh_out;
+ uint16_t temp_in;
+ uint16_t temp_out; // added
+ uint16_t temp_calc;
+ uint16_t water_extracted;
+ uint16_t water_in;
+ uint16_t water_out;
+
+} struct_o2;
+
+typedef struct
+{
+ bool capdown;
+ bool drive;
+ bool master;
+ bool safety;
+} struct_switch;
+
+typedef struct
+{
+ bool cap_down_load;
+ bool cap_down_reset;
+ bool cap_load;
+ bool cap_voltage_reset;
+ bool fuelcell;
+ bool fc_overtemp;
+ bool fc_overvoltage;
+ bool load;
+ bool load_act;
+ bool load_reset;
+ bool mosfet;
+ bool mos_overtemp;
+ bool run;
+ bool temp;
+ bool voltage;
+ uint16_t count;
+ uint16_t h2_analog;
+ uint16_t safety_V;
+ uint16_t current_out;
+} struct_system;
+
+typedef struct
+{
+ bool o2_in;
+ bool o2_out;
+ bool mosfet_temp;
+ bool fc_voltage;
+ bool cap_voltage;
+ bool mosfet_cur;
+ bool h2o_temp_out;
+ bool t_1;
+ bool t_2;
+ bool t_3;
+ bool t_4;
+ bool t_5;
+ bool t_6;
+ bool t_7;
+ bool t_8;
+ bool o_1;
+ bool o_2;
+ bool o_3;
+ bool o_4;
+ bool o_5;
+ bool o_6;
+ bool o_7;
+}struct_error;
+
+/*
+struct_cap cap;
+struct_fuelcell fuelcell;
+struct_h2o h2o;
+struct_mosfet mosfet;
+struct_o2 o2;
+struct_switch switches;
+struct_system sys;
+struct_error error;
+*/
diff -r 000000000000 -r adf68d4b873f main.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp Tue Jan 07 12:02:52 2014 +0000
@@ -0,0 +1,565 @@
+#include "mbed.h"
+#include "math.h"
+#include <string>
+#include "FastPWM.h"
+#include "components.cpp"
+
+
+const char I2C_IN = 4;
+const char I2C_OUT = 8;
+
+const int PWM_Frequenz = 10000;
+
+DigitalOut led_1(LED1);
+DigitalOut led_2(LED2);
+DigitalOut led_3(LED3);
+DigitalOut led_4(LED4);
+
+DigitalOut i2c_cs(p29);
+DigitalOut xb_rst(p11);
+DigitalOut mp_A(p15);
+DigitalOut mp_B(p16);
+
+AnalogIn current(p19);
+AnalogIn mp1yA(p20);
+AnalogIn mp2yA(p18);
+AnalogIn mp2xA(p17);
+DigitalIn mp2xD(p12);
+
+FastPWM pwm_6(p21,-1); //Mosfet
+DigitalOut h2_purge(p22);
+FastPWM pwm_4(p23,-1); //H2O Fan
+FastPWM pwm_3(p24,-1); //H20 Pump
+FastPWM pwm_2(p25,-1); //Air Pump 2
+FastPWM pwm_1(p26,-1); //Air Pump 2
+
+
+Serial xbee(p9,p10);
+Serial gps(p13,p14);
+Serial pc(USBTX,USBRX);
+
+SPI ext_spi(p5, p6, p7);
+
+I2C i2c(p28, p27);
+
+LocalFileSystem local("local"); //init Flashdrive for reading config file
+FILE *fp;
+
+struct_cap cap;
+struct_fuelcell fc;
+struct_h2o h2o;
+struct_mosfet mosfet;
+struct_o2 o2;
+struct_switch switches;
+struct_system sys;
+struct_error error;
+
+
+//Standard Funktions
+//----------------------------------------------------------------------------------------------
+void read_val(const char* name,const char* value);
+
+
+double clamp(double value, double val_min, double val_max, bool* has_clamped)
+{
+ *has_clamped = true;
+ if(value < val_min) return val_min;
+ if(value > val_max) return val_max;
+ *has_clamped = false;
+ return value;
+}
+
+
+
+
+void load_cfg()
+{
+ char name_val[2][20];
+ char i = 0;
+ char name = 1;
+ int c = 50;
+
+ fp = fopen("/local/power.cfg", "r");
+ if ( fp != NULL )
+ {
+ while(c != EOF)
+ {
+
+ c = fgetc(fp);
+
+ if (c == 10){
+ name_val[name][i+1] = '\0';
+ name = 1;
+ i = 0;
+ read_val(&name_val[1][0], &name_val[0][0]);
+ }
+ else
+ {
+ if (c == '='){
+ name_val[name][i+1] = '\0';
+ name = 0;
+ i = 0;
+ }
+ else
+ {
+ name_val[name][i] = c;
+ i++;
+ }
+ }
+ }
+ fclose(fp);
+ }
+}
+
+
+void read_val(const char* name,const char* value)
+{
+ float temp;
+
+ sscanf(value, "%f", &temp );
+ pc.printf("Input : %-18s Value : %6d ", name, int(temp));
+
+ if (string(&name[0]) == "O2_air_current" ){ o2.air_current = temp; pc.printf("Value read: %6d \n\r", o2.air_current );}
+ if (string(&name[0]) == "O2_water_created" ){ o2.water_created = temp; pc.printf("Value read: %6d \n\r", o2.water_created);}
+ if (string(&name[0]) == "O2_lambda_max" ) o2.lambda_max = temp;
+ if (string(&name[0]) == "O2_lambda_min" ) o2.lambda_min = temp;
+ if (string(&name[0]) == "O2_pump_over_load") o2.pump_over_load = temp;
+ if (string(&name[0]) == "O2_pump_up" ) o2.pump_up = temp;
+ if (string(&name[0]) == "O2_pump_dual_on" ) o2.pump_dual_on = temp;
+ if (string(&name[0]) == "O2_pump_dual_off" ) o2.pump_dual_off = temp;
+
+ if (string(&name[0]) == "CAP_voltage_low" ) cap.voltage_low = temp;
+ if (string(&name[0]) == "CAP_voltage_mid" ) cap.voltage_mid = temp;
+ if (string(&name[0]) == "CAP_voltage_high" ) cap.voltage_high = temp;
+ if (string(&name[0]) == "CAP_voltage_max" ) cap.voltage_max = temp;
+ if (string(&name[0]) == "CAP_voltage_down" ) cap.voltage_down = temp;
+ if (string(&name[0]) == "CAP_current_low" ) cap.current_low = temp;
+ if (string(&name[0]) == "CAP_current_mid" ) cap.current_mid = temp;
+ if (string(&name[0]) == "CAP_current_high" ) cap.current_high = temp;
+
+ if (string(&name[0]) == "FC_temp_max" ) fc.temp_max = temp;
+ if (string(&name[0]) == "FC_voltage_max" ) fc.voltage_max = temp;
+
+ if (string(&name[0]) == "H2O_fan_over_pwm" ) h2o.fan_over_pwm = temp;
+ if (string(&name[0]) == "H2O_fan_p" ) h2o.fan_p = temp;
+ if (string(&name[0]) == "H2O_fan_i" ) h2o.fan_i = temp;
+ if (string(&name[0]) == "H2O_fan_thr" ) h2o.fan_thr = temp;
+ if (string(&name[0]) == "H2O_fan_up" ) h2o.fan_up = temp;
+ if (string(&name[0]) == "H2O_pump_over_pwm") h2o.pump_over_pwm = temp;
+ if (string(&name[0]) == "H2O_pump_p" ) h2o.pump_p = temp;
+ if (string(&name[0]) == "H2O_pump_i" ) h2o.pump_i = temp;
+ if (string(&name[0]) == "H2O_pump_min" ) h2o.pump_min = temp;
+ if (string(&name[0]) == "H2O_pump_up" ) h2o.pump_up = temp;
+
+ if (string(&name[0]) == "MOSFET_temp_max" ) mosfet.temp_max = temp;
+}
+
+
+// T - Funktions
+//----------------------------------------------------------------------------------------------
+
+void T_1()
+ {
+ o2.water_in = 13235 * o2.rh_in / (o2.temp_in + 2731) * pow(10.0,(7.5 * o2.temp_in)/((2373 + o2.temp_in))-1);
+
+ o2.water_in = clamp(o2.water_in,0,4000,&error.t_1);
+ }
+
+void T_2()
+ {
+ if (o2.pump_load_act > 0) {
+ o2.delta_t = o2.temp_out - h2o.temp_out;
+ o2.temp_calc = o2.temp_out;
+ }
+ else
+ {
+ o2.temp_calc = o2.delta_t + h2o.temp_out;
+ }
+
+ o2.temp_calc = clamp(o2.temp_calc,0,800,&error.t_2);
+ }
+
+void T_3()
+ {
+ o2.water_out = 13235000 / (o2.temp_calc + 2731) * pow(10.0,(7.5 * o2.temp_calc)/((2373 + o2.temp_calc))-1);
+
+ o2.water_out = clamp(o2.water_out,0,30000,&error.t_3);
+ }
+
+void T_4()
+ {
+ o2.water_extracted = o2.water_out - o2.water_in;
+ o2.air_needed = o2.water_created * 10000 / o2.water_extracted;
+ o2.lambda = o2.air_needed * 100 / o2.air_current;
+
+ o2.lambda = clamp(o2.lambda,100,500,&error.t_4);
+ }
+
+void T_5()
+ {
+ o2.lambda_delta = ((o2.lambda_max + o2.lambda_min) / 2) - o2.lambda;
+
+ o2.lambda_delta_sum = o2.lambda_delta_sum + (o2.lambda_delta * 0.1);
+ o2.lambda_delta_sum = clamp(o2.lambda_delta_sum,-2000,7000,&error.t_5);
+
+ h2o.fan_pwm = ((h2o.fan_p * o2.lambda_delta) ) + ((h2o.fan_i * o2.lambda_delta_sum / 10) );
+ h2o.fan_pwm = clamp( h2o.fan_pwm,0,1000,&error.t_5);
+ }
+
+void T_6()
+ {
+ h2o.pump_pwm = ((h2o.pump_p * o2.lambda_delta) ) + ((h2o.pump_i * o2.lambda_delta_sum / 10) + h2o.pump_min );
+ h2o.pump_pwm = clamp( h2o.pump_pwm,h2o.pump_min,1000,&error.t_6);
+ }
+
+void T_7()
+ {
+ if(h2o.fan_override) {
+ h2o.fan_pwm_act = h2o.fan_over_pwm;
+ }
+ else
+ {
+ if ((h2o.fan_pwm_act == 0) && (h2o.fan_pwm >= h2o.fan_thr))
+ {
+ h2o.fan_up_count = h2o.fan_up;
+ }
+ else
+ {
+ h2o.fan_pwm_act = h2o.fan_pwm;
+ }
+ }
+
+ if (h2o.fan_up_count > 0) {h2o.fan_up_count--; h2o.fan_pwm_act = 1000;}
+
+ if (!((h2o.fan_pwm_act >= h2o.fan_thr) & sys.run)){h2o.fan_pwm_act = 0;}
+
+ h2o.fan_pwm_act = clamp( h2o.fan_pwm_act,0,1000,&error.t_7);
+
+ pwm_4.write(h2o.fan_pwm_act * 0.001);
+ }
+
+
+void T_8()
+{
+ if(h2o.pump_override){
+ h2o.pump_pwm_act = h2o.pump_over_pwm;
+ }
+ else
+ {
+ if ((h2o.pump_pwm_act == 0) && (h2o.pump_pwm > 0))
+ {
+ h2o.pump_up_count = h2o.pump_up;
+ }
+ else
+ {
+ h2o.pump_pwm_act = h2o.pump_pwm;
+ }
+ }
+
+ if (h2o.pump_up_count > 0) {h2o.pump_up_count--; h2o.pump_pwm_act = 1000;}
+
+ if (!(sys.run)){ h2o.pump_pwm_act = 0;}
+
+ h2o.pump_pwm_act = clamp( h2o.pump_pwm_act,0,1000,&error.t_8);
+
+ pwm_3.write(h2o.fan_pwm_act * 0.001);
+}
+
+void T_ALL(){
+ T_1();
+ T_2();
+ T_3();
+ T_4();
+ T_5();
+ T_6();
+ T_7();
+ T_8();
+ }
+
+// O - Funktions
+//----------------------------------------------------------------------------------------------
+
+
+
+
+void O_1()
+{
+ o2.rh_out_delta = ((o2.rh_out_soll) - o2.rh_out;
+ o2.rh_out_delta = clamp( o2.rh_out_delta,-100,100,&error.o_1);
+ o2.rh_pump_load = 02.rh_p * o2.rh_out_delta;
+ o2.rh_pump_load = clamp( o2.rh_pump_load,o2.rh_pump_min,o2.rh_pump_max,&error.o_2);
+}
+
+void O_2()
+{
+ if(cap.voltage_act < cap.voltage_mid)
+ {
+ if(cap.voltage_act < cap.voltage_low) fc.current_load = cap.current_low;
+ else fc.current_load = cap.current_mid;
+ }
+ else fc.current_load = cap.current_high;
+ return 0;
+}
+
+bool O_3()
+{
+ o2.lambda_min = 150;
+ fc.air_needed = fc.current_load * o2.lambda_min * 0.007;
+ return 0;
+}
+
+bool O_4()
+{
+ if(o2.pump_on == false) o2.pump_load = 0;
+ return 0;
+}
+
+bool O_5()
+{
+ if(o2.pump_override) o2.pump_load_act = o2.pump_over_load;
+ else o2.pump_load_act = o2.pump_load;
+ return 0;
+}
+
+bool O_6()
+{
+ if(o2.pump_load_act < o2.pump_dual_off){o2.pump_dual = false;}
+ if(o2.pump_load_act > o2.pump_dual_on ){o2.pump_dual = true;}
+
+ if (o2.pump_dual)
+ {
+ o2.pump_pwm_1 = o2.pump_load_act * 0.5;
+ o2.pump_pwm_2 = o2.pump_load_act * 0.5;
+ }
+ else
+ {
+ o2.pump_pwm_1 = o2.pump_load_act;
+ o2.pump_pwm_2 = 0;
+ }
+ return 0;
+}
+
+void O_ALL()
+{
+ O_1();
+ O_2();
+ O_3();
+ O_4();
+ O_5();
+ O_6();
+}
+
+
+// M - Funktions
+//----------------------------------------------------------------------------------------------
+
+bool M_1()
+{
+ if(o2.pump_on) mosfet.pwm = 0;
+ mosfet.pwm = mosfet.pwm + ( ((fc.current_load - fc.current_act) * mosfet.i) / 100000);
+ if(sys.load_act == false) mosfet.pwm = 0;
+ return 0;
+}
+
+bool M_2()
+{
+ sys.mos_overtemp = (mosfet.temp_act < mosfet.temp_max);
+ return 0;
+}
+
+bool M_3()
+{
+ if(sys.mosfet && sys.run) mosfet.pwm_act = mosfet.pwm;
+ else mosfet.pwm_act = 0;
+ return 0;
+}
+
+// S - Funktions
+//----------------------------------------------------------------------------------------------
+
+bool S_1()
+{
+ sys.run = (switches.master && switches.safety);
+ return 0;
+}
+
+bool S_2()
+{
+ sys.fc_overtemp = (fc.temp_act > fc.temp_max);
+ return 0;
+}
+
+bool S_3()
+{
+ sys.fc_overvoltage = (fc.voltage_act > fc.voltage_max);
+ return 0;
+}
+
+bool S_4()
+{
+ sys.fuelcell = (sys.temp && sys.voltage);
+ return 0;
+}
+
+// C - Funktions
+//----------------------------------------------------------------------------------------------
+
+bool C_1()
+{
+ sys.cap_load = (cap.voltage_act < cap.voltage_max);
+ return 0;
+}
+
+bool C_2()
+{
+ sys.cap_down_load = (cap.voltage_act < cap.voltage_down);
+ return 0;
+}
+
+bool C_3()
+{
+ sys.cap_voltage_reset = (cap.voltage_act > cap.voltage_max);
+ return 0;
+}
+
+bool C_4()
+{
+ sys.cap_down_reset = (cap.voltage_act > cap.voltage_down);
+ return 0;
+}
+
+bool C_5()
+{
+ sys.load = ((switches.drive) || (sys.cap_load && (!switches.capdown)) || (switches.capdown && sys.cap_down_load));
+ return 0;
+}
+
+bool C_6()
+{
+ sys.load_reset = (sys.cap_voltage_reset || (sys.cap_down_reset && switches.capdown));
+ return 0;
+}
+
+bool C_7()
+{
+ if(sys.load) sys.load_act = true;
+ if(sys.load_reset) sys.load_act = false;
+ return 0;
+}
+
+bool C_8()
+{
+ o2.pump_on = (sys.mosfet && sys.run && sys.fuelcell && sys.load_act);
+ return 0;
+}
+
+
+void read_inputs()
+{
+ char channel = sys.count%4;
+
+ switch (channel)
+ {
+ case 0 : switches.drive = mp2xD;
+ sys.h2_analog = mp2yA.read_u16() /2;
+ fc.voltage_act = mp1yA.read_u16() /1.638;
+ fc.current_act = current.read_u16()/4;
+ break;
+
+ case 1 : sys.safety_V = mp2xA.read_u16() /4;
+ switches.safety = (sys.safety_V > 8000);
+ sys.current_out = mp2yA.read_u16() /5;
+ cap.voltage_act = mp1yA.read_u16() /1.638;
+ fc.current_act = current.read_u16()/4;
+ break;
+
+ case 2 : switches.capdown = !mp2xD;
+ mosfet.temp_act = mosfet.temp_act + ((((59000-mp2yA.read_u16())/90) - mosfet.temp_act ) >> 3);
+ fc.voltage_act = mp1yA.read_u16() /1.638;
+ fc.current_act = current.read_u16()/4;
+ break;
+
+ case 3 : switches.master = mp2xD;
+ fc.temp_act = fc.temp_act + ((((61800-mp2yA.read_u16())/90) - fc.temp_act) >> 3);
+ h2o.temp_out = fc.temp_act;
+ cap.voltage_act = mp1yA.read_u16() /1.638;
+ fc.current_act = current.read_u16()/4;
+ break;
+ }
+
+ mp_A = ( (channel + 1) & 0x01); // A setzen
+ mp_B = (((channel + 1) >> 1) & 0x01); // B setzen
+
+ }
+
+void read_i2c_RHTMP(char ad)
+{
+ char input[4];
+ short RH = 0;
+ short TMP = 0;
+
+ i2c.write(ad<<1, 0x00 , 1); //wake up
+ i2c.read (ad<<1, input , 4); //read out
+
+ RH = (( 1000 * (((input[0]<<8) | (input[1] )) & 0x3FFF ))>> 14) ; //transform into 0 - 1000 as Integer represents 0.0 - 100.0 %
+
+ TMP = (( 1650 * (((input[2]<<6) | (input[3]>>2)) & 0x3FFF ))>> 14) -400; //transform into -400 - 1250 as Integer represents -40.0 - 125.0 °C
+
+ if (TMP > -50 && TMP < 800)
+ {
+ if (ad == I2C_IN ){o2.temp_in = TMP; o2.rh_in = RH;error.o2_in = false;};
+ if (ad == I2C_OUT){o2.temp_out = TMP; o2.rh_out = RH;error.o2_out = false;};
+ }
+ else
+ {
+ if (ad == I2C_IN ){error.o2_in = true;};
+ if (ad == I2C_OUT){error.o2_out = true;};
+ }
+}
+
+
+void timetable()
+{
+ switch (sys.count)
+ {
+ case 0: read_i2c_RHTMP(I2C_IN) ; break;
+ case 125: T_ALL() ; break;
+ case 250: read_i2c_RHTMP(I2C_OUT) ; break;
+ case 375: O_ALL() ; break;
+ case 500: read_i2c_RHTMP(I2C_IN) ; break;
+ case 625: T_ALL() ; break;
+ case 750: read_i2c_RHTMP(I2C_OUT) ; break;
+ case 875: O_ALL() ; break;
+ }
+
+ read_inputs();
+
+ sys.count ++;
+
+ if (sys.count >= 1000){sys.count=0; led_1 = !led_1;};
+
+}
+
+
+
+
+int main()
+{
+ pc.baud(115200);
+ i2c.frequency(400000);
+
+ pwm_6.pulsewidth(1.0/PWM_Frequenz); //Mosfet
+//pwm_5.pulsewidth(1.0/PWM_Frequenz); //H2 Purge
+ pwm_4.pulsewidth(1.0/PWM_Frequenz); //H2O Fan
+ pwm_3.pulsewidth(1.0/PWM_Frequenz); //H20 Pump
+ pwm_2.pulsewidth(1.0/PWM_Frequenz); //Air Pump 2
+ pwm_1.pulsewidth(1.0/PWM_Frequenz); //Air Pump 2
+
+
+ load_cfg();
+
+ while(1)
+ {
+ timetable();
+ }
+}
\ No newline at end of file
diff -r 000000000000 -r adf68d4b873f mbed.bld --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed.bld Tue Jan 07 12:02:52 2014 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/mbed_official/code/mbed/builds/a9913a65894f \ No newline at end of file
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Repository details
| Type: | Program |
|---|---|
| Mbed OS support: | Mbed 2 deprecated |
| Created: | 07 Jan 2014 |
| Imports: | 1 |
| Forks: | 0 |
| Commits: | 1 |
| Dependents: | 0 |
| Dependencies: | 2 |
| Followers: | 2 |
The code in this repository is Apache licensed.