Library for using multiple SI1142 sensor
Fork of SI1141 by
Diff: SI1143.cpp
- Revision:
- 5:3fadc61598bc
- Parent:
- 4:af8f820733e0
- Child:
- 7:f1303b85db58
diff -r af8f820733e0 -r 3fadc61598bc SI1143.cpp --- a/SI1143.cpp Thu Oct 17 23:23:33 2013 +0000 +++ b/SI1143.cpp Mon Oct 21 20:12:56 2013 +0000 @@ -36,7 +36,7 @@ { wait_ms(30); i2c_ = new I2C(sda, scl); - //3.4MHz, as specified by the datasheet, but DO NOT USE. + // 3.4MHz, as specified by the datasheet, but DO NOT USE. //i2c_->frequency(3400000); restart(); @@ -47,7 +47,8 @@ command(RESET); wait_ms(30); - write_reg(HW_KEY,HW_KEY_VAL0); // Setting up LED Power to full + // Setting up LED Power to full + write_reg(HW_KEY,HW_KEY_VAL0); write_reg(PS_LED21,0xAA); write_reg(PS_LED3,0x0A); write_reg(PARAM_WR, ALS_IR_TASK + ALS_VIS_TASK + PS1_TASK + PS2_TASK + PS3_TASK); @@ -99,80 +100,119 @@ void SI1143::write_reg(char address, char num_data) // Write a resigter { char tx[2]; - + + //i2c_->start(); tx[0] = address; tx[1] = num_data; - - //i2c_->start(); i2c_->write((IR_ADDRESS << 1) & 0xFE, tx, 2); wait_ms(1); //i2c_->stop(); } -void SI1143::bias() +void SI1143::bias(int ready, int repeat) { - sample(0); - bias1 = PS1; - bias2 = PS2; - bias3 = PS3; + wait(ready); + bias1 = get_ps1(repeat); + bias2 = get_ps2(repeat); + bias3 = get_ps3(repeat); } -int SI1143::sample(int point) +int SI1143::get_ps1(int repeat) // Read the data for the first LED { - //int data[5]; + int stack = 0; + command(PSALS_FORCE); - LowB = read_reg(ALS_VIS_DATA0,1); // Read the data for ambient light - HighB = read_reg(ALS_VIS_DATA1,1); - VIS = (HighB * 256) + LowB; - - LowB = read_reg(ALS_IR_DATA0,1); // Read the data for infrared light - HighB = read_reg(ALS_IR_DATA1,1); - IR = (HighB * 256) + LowB; - - LowB = read_reg(PS1_DATA0,1); // Read the data for the first LED - HighB = read_reg(PS1_DATA1,1); - PS1 = (HighB * 256) + LowB; - - LowB = read_reg(PS2_DATA0,1); // Read the data for the second LED - HighB = read_reg(PS2_DATA1,1); - PS2 = (HighB * 256) + LowB; - - LowB = read_reg(PS3_DATA0,1); // Read the data for the third LED - HighB = read_reg(PS3_DATA1,1); - PS3 = (HighB * 256) + LowB; + for(int r=repeat; r>0; r=r-1) + { + LowB = read_reg(PS1_DATA0,1); + HighB = read_reg(PS1_DATA1,1); + stack = stack + (HighB * 256) + LowB; + } + PS1 = stack / repeat; if(PS1 > bias1) PS1 = PS1 - bias1; else PS1 = 0; + + return PS1; +} + +int SI1143::get_ps2(int repeat) // Read the data for the second LED +{ + int stack = 0; + + command(PSALS_FORCE); + + for(int r=repeat; r>0; r=r-1) + { + LowB = read_reg(PS2_DATA0,1); + HighB = read_reg(PS2_DATA1,1); + stack = stack + (HighB * 256) + LowB; + } + PS2 = stack / repeat; + if(PS2 > bias2) PS2 = PS2 - bias2; else PS2 = 0; + + return PS2; +} + +int SI1143::get_ps3(int repeat) // Read the data for the third LED +{ + int stack = 0; + + command(PSALS_FORCE); + + for(int r=repeat; r>0; r=r-1) + { + LowB = read_reg(PS3_DATA0,1); + HighB = read_reg(PS3_DATA1,1); + stack = stack + (HighB * 256) + LowB; + } + PS3 = stack / repeat; + if(PS3 > bias3) PS3 = PS3 - bias3; else PS3 = 0; - switch(point) - { - case 1: return PS1; - case 2: return PS2; - case 3: return PS3; - case 4: return VIS; - case 5: return IR; - default: return 0; - } - //data[0] = VIS; - //data[1] = IR; - //data[2] = PS1; - //data[3] = PS2; - //data[4] = PS3; - - //return data; - - //return PS1; + return PS3; } +int SI1143::get_vis(int repeat) // Read the data for ambient light +{ + int stack = 0; + + command(PSALS_FORCE); + + for(int r=repeat; r>0; r=r-1) + { + LowB = read_reg(ALS_VIS_DATA0,1); + HighB = read_reg(ALS_VIS_DATA1,1); + VIS = stack + (HighB * 256) + LowB; + } + VIS = stack / repeat; + + return VIS; +} +int SI1143::get_ir(int repeat) // Read the data for infrared light +{ + int stack = 0; + + command(PSALS_FORCE); + + for(int r=repeat; r>0; r=r-1) + { + LowB = read_reg(ALS_IR_DATA0,1); + HighB = read_reg(ALS_IR_DATA1,1); + IR = stack + (HighB * 256) + LowB; + } + IR = stack / repeat; + + return IR; +}