Erastus Coetzee
myeerste
main.cpp
- Committer:
- erastus
- Date:
- 2015-02-06
- Revision:
- 0:bacc0d57f6b9
- Child:
- 1:497211807af7
File content as of revision 0:bacc0d57f6b9:
#include "mbed.h"
#ifdef TARGET_UBLOX_C027
#include "C027_api.h"
#else
#error "This example is targeted for the C027 platform"
#endif
#define Generator = p36;
ifdef =
// PortIn p(Port2, 0x0000003F); // p21-p26
DigitalOut myled(LED);
int main() {
int PowerI, LoopCounterI, PowerStatusI, Inverot1I, Invertor2I, Inveror3I, Invertor4I;
int EnableInvertorsI, NoStartI;
float BattVoltageF;
PowerI = 0;
EnableInvertorsI = LoopCounterI = 0;
PowerStatusI, NoStartI = 0;
Invertor1I = Invertor2I = Invertor3I = Invertor4I = 0;
// sms ( "Startup");
DigitalOut( P3, 0xff) // set all relays off
while(1)
{
PowerStatusI = DigitalIn( P2_0); // get main power status
if ( PowerStatusI )
if ( GenStatusI)
{
if ( LoopCounterI++ > 6000) // If power is off for 10 minutes
{
// sms( poweroff);
wait( 300);
// sms ( starting gen);
do
{
myled = !myled;
myled( myled); // Toggle LED
if ( !GenStatusI ) // If no generator Voltage
DigitalOut( GenOn); // Start Generator
wait( 100);
GenStatusI = DigitalIn( P2_1);
if( GenStatusI) // check for generator Voltage = 220V
{
DigitalOut( GenOff); // stop starting generator
// sms( GenOn);
} else
if ( NoStartI ++ > 30) // try for 3 seconds
{
// sms( genrator not started);
do
{
DigtalOut( GenOff); // Set Generator off
wait ( 400); // Wait for 2 seconds
GenStatusI = DigitalIn( P2_1);
if ( GenStatusI )
NoStartI = 0;
} while ( NoStartI-- > 0);
}
} while ( GenStatusI == 0);
DigitalOut( GenOff); // set start to off
// sms( GenStarted);
if ( GenStatusI) // if Gen on close relays
{
// sms( "starting inv 1");
myled( myled); // set LED on
DigitalOut ( relay); // start invertor 1
wait ( 500);
// sms( "Starting inv 2");
DigitalOut( relay); // start invertor 2
wait ( 500);
// sms( "Starting inv 3");
DigitalOut(relay); // start invertor 3
wait ( 500);
// sms( "Starting inv 4");
DigitalOut( relay); // start invertor 4
wait ( 500)
// sms( "Starting Aircon");
DigitalOut( relay); // start aircon
}
}
} else if ( GenStausI)
{
if ( -- LoopCounter <= 0)
{
// sms( "Eskom On ");
// sms( "Aircon to Eskom");
DigitalOut( relay); // start aircon
wait ( 5000);
// sms( "Invertor 1 to Eskom");
myled( myled); // set LED on
DigitalOut ( relay); // start invertor 1
wait ( 1000);
// sms( "Invertor 2 to Eskom");
DigitalOut( relay); // start invertor 2
wait ( 1000);
// sms( "Invertor 3 to Eskom");
DigitalOut(relay); // start invertor 3
wait ( 1000);
// sms( "Invertoer 4 to Eskom");
DigitalOut( relay); // start invertor 4
}
} else
LoopCounterI = 0;
} else
{
BattVoltageF = (float) AnalogIn(BattV);
BattVoltageF *= 0.1039;
if ( BattVoltageF < 24.00)
{
// sms( Voltage low);
}
}
myled = !myled;
wait(1000); // wait 1 sec
myled( myled);
} // main loop while
}