Rev0
Dependencies: PID QEI-Intruptinmode-set SB1602E mbed
Fork of PreHeater-Rev2 by
プリヒータ基板のファームウェアです。 Rev2基板用ですので、温度センサーなどが変更になっています。
This is Pre Heater device firmware. This firmware is Rev2 PCB design.
main.cpp
- Committer:
- Hapi_Tech
- Date:
- 2015-07-29
- Revision:
- 2:6315824f8a29
- Parent:
- 1:1440321bc326
- Child:
- 3:e4253d33ff0c
File content as of revision 2:6315824f8a29:
/*The MIT License (MIT) Copyright (c) <2015> <Kazumichi Aoki> Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "mbed.h" #include "PID.h" #include "math.h" #include "SB1602E.h" #include "QEI.h" //GPIO initilaize AnalogIn THAI(dp4); PwmOut out(dp18); DigitalOut ledR(dp17),ledG(dp25),ledB(dp26); DigitalIn RunPB(dp10); Serial pc(dp16, dp15); // tx, rx Ticker Timer_ticker; /* PID constant initialize Kc, Ti, Td, interval */ #define P 5.0 //propotional band #define I 2.0 //Integral #define D 0.0 //Devide #define RATE 0.1 //update time sec #define InitialSP 45.0 // Boot Setpoint initial temeprature PID TIC(P, I, D, RATE); /*LCD I2C pin initialize */ char *init_massage = "Hello!"; SB1602E lcd(dp5, dp27, init_massage); // SDA, SCL /*QEI initialize */ #define ROTATE_PER_REVOLUTIONS 24 QEI wheel(dp11, dp13, NC, PullUp, ROTATE_PER_REVOLUTIONS, QEI::X2_ENCODING); //Initial float temp_sv_input, waittime,OV_LL,ticout,qei,Bias; bool Run(false); double temp_pv,temp_cal; #define EncoderDiv 20.0 //Celcius coefficient encoder 25Pulse to 1℃ #define RangeSPL 30.0 //Celcius low side temperature #define RangeSPH 100.0 //Celcius high side temperature int encPulseCnt = ( (InitialSP - RangeSPL) * EncoderDiv ); int encPulses = 0; int end_getPulses_old = 0; /*PB control*/ void runmode() { Run = !Run; } void TimerCall_10ms() { static bool old_RunPB=0; bool tmp_RunPB=0; tmp_RunPB = RunPB; if( (old_RunPB != tmp_RunPB) && (tmp_RunPB == 1) ) { runmode(); } old_RunPB = tmp_RunPB; } void cal_temp() { /*input for change to 0 to 100% range by 30C to 100C */ /*Temperature setpoint low high range */ encPulseCnt = encPulseCnt + (encPulses - end_getPulses_old); if( encPulseCnt < 0 ) //Lower Limit { encPulseCnt = 0; } if( encPulseCnt > ( (RangeSPH-RangeSPL) * EncoderDiv) ) //Upper Limit { encPulseCnt = (RangeSPH-RangeSPL) * EncoderDiv; } temp_sv_input = encPulseCnt / EncoderDiv + RangeSPL; //calc encoder Pulse to SetPoint /*six order polynomial calculation value Thermister pull up resiter 560R Thermister B value 3380K Thermister Resistance 10K ohm at 25C This NTC is NCP18XH103F03RB muRata */ //temp_cal = THAI.read() * 3.3; //temp_pv =-0.7964*pow(temp_cal,6.0) - 2.5431*pow(temp_cal,5.0) +63.605*pow(temp_cal,4.0) - 274.1*pow(temp_cal,3.0) + 522.57*pow(temp_cal,2.0) - 539.26*temp_cal + 405.76; /*LCD Display section */ lcd.printf(0,0, "SP %.1f", temp_sv_input); //lcd.printf(1, "OUT %.2f", out.read() * 100); //lcd.printf(1, "PB %s\n", Run); /*Tenperature indicater */ /* 1.5C high temperature */ } int main() { Timer_ticker.attach_us(&TimerCall_10ms, 10000); RunPB.mode(PullDown); #define LCDCont 0x32 //LCD contrast set from 00 to 3f 64resolution defult set is 32step lcd.contrast(LCDCont); out.period(0.02); cal_temp(); while (1) { encPulses = wheel.getPulses(); if(end_getPulses_old != encPulses) { cal_temp(); } end_getPulses_old = encPulses; /*LM26LVCISDX-115 Factory Preset Temperature Switch and Temperature Sensor Gain3 115C trip sensor calculation value.*/ temp_cal = THAI.read() * 3300; temp_pv = -0.00000000007*pow(temp_cal,3.0)-0.000002*pow(temp_cal,2.0)-0.091*temp_cal+201.5; lcd.printf(0,1, "PV %.1f\n", temp_pv); if (Run == true) { if ((temp_pv - temp_sv_input) >= 1.5) { ledR = 0; ledG = 1; ledB = 1; /* 1.5C low temperature */ } else if ((temp_sv_input - temp_pv ) >= 1.5 ) { ledR = 1; ledG = 1; ledB = 0; } else { /* control green */ ledR = 1; ledG = 0; ledB = 1; } } else { ledR = 1; ledG = 1; ledB = 1; } printf("\033[1;1H"); printf("OUT %.6f", out.read() * 100); printf("\033[1;20H"); printf("PB %d\n", Run); printf("\033[2;1H"); printf("PV %.6f\n", temp_pv); printf("\033[2;20H"); printf("SP %.6f", temp_sv_input); printf("\033[3;1H"); printf("PV %.6f\n", THAI.read()); /*PID control*/ #define SV_LL 0.0 //PID setpoint % value for lo limit #define SV_HL 100.0 //PID setpoint % value for high limit TIC.setInputLimits(SV_LL, SV_HL); #define OV_LL 0.0 //PID calcurate output value 0.0 = 0% #define OV_HL 100.0 //PID calcurate output value 1.0 = 100% if (Run == true) { TIC.setOutputLimits(OV_LL, OV_HL); TIC.setSetPoint(temp_sv_input); TIC.setProcessValue(temp_pv); TIC.setBias(Bias); //control output bias TIC.setMode(1); out = TIC.compute() /100; TIC.setInterval(RATE); } else if (Run == false) { TIC.setMode(0); TIC.reset(); out = 0.0; } } }