Sippakorn Saeng-aroon
/
PowerMon
Library for using with PowerMon module Rev1 25FEB,18
PowerMon.h
- Committer:
- sippasaeng
- Date:
- 2018-02-25
- Revision:
- 1:7a6a568c5c34
- Parent:
- main.cpp@ 0:6615da7486d0
File content as of revision 1:7a6a568c5c34:
#define i2c_sda D14 #define i2c_scl D15 #define SourceVH 0x58 #define SourceVL 0x59 #define SenseVH 0x54 #define SenseVL 0x55 #define PowerH 0x5B #define PowerL 0x5C I2C i2c_PM(i2c_sda, i2c_scl); class powerMon{ private: int w_addr,r_addr; public: powerMon(int addr_sel){ switch(addr_sel) { case 0: w_addr=0x98; break; case 100: w_addr=0x9A; break; case 180: w_addr=0x9C; break; case 300: w_addr=0x9E; break; case 430: w_addr=0x90; break; case 560: w_addr=0x92; break; case 750: w_addr=0x94; break; case 1270: w_addr=0x96; break; case 1600: w_addr=0x50; break; case 2000: w_addr=0x52; break; case 2700: w_addr=0x54; break; case 3600: w_addr=0x56; break; case 5600: w_addr=0x58; break; case 9100: w_addr=0x58; break; case 20000: w_addr=0x5A; break; case -1: w_addr=0x30; break; } r_addr=w_addr+0x01; } double V_Sense(){ double volt=0,mult_fac=1,offset=0; char buffer[2]; buffer[0]=SenseVL; i2c_PM.write(r_addr,buffer, 1,true); i2c_PM.read(r_addr, buffer,1); volt=buffer[0]/16; buffer[0]=SenseVH; i2c_PM.write(r_addr,buffer, 1,true); i2c_PM.read(r_addr, buffer,1); volt += (buffer[0] & 0x7f)*16; volt = (volt*mult_fac)+offset; return (buffer[0]&0x80)?-volt:volt; } double V_Source(){ double volt=0; char buffer[2]; buffer[0]=SourceVL; i2c_PM.write(r_addr,buffer, 1,true); i2c_PM.read(r_addr, buffer,1); volt=buffer[0]/32; buffer[0]=SourceVH; i2c_PM.write(r_addr,buffer, 1,true); i2c_PM.read(r_addr, buffer,1); volt += buffer[0]*8; return (volt/2048.0000)*23.9883; } double Current(){ return (V_Sense()/2047.0000)*(8.0000);} long Power_Ratio(){ long power_r=0; char buffer[2]; buffer[0]=PowerL; i2c_PM.write(r_addr,buffer, 1,true); i2c_PM.read(r_addr, buffer,1); power_r=buffer[0]; buffer[0]=PowerH; i2c_PM.write(r_addr,buffer, 1,true); i2c_PM.read(r_addr, buffer,1); power_r += buffer[0]*256; return power_r;} double Power(){ return (Power_Ratio()/65535.0000)*(8.0000*23.9883); } };