Jim Cooke
Slight Mod
Fork of
Hat_Board_v5
by 
John Scharf
SI_LIS.cpp@0:34bad5aca893, 2014-03-20 (annotated)
- Committer:
- drnow
- Date:
- Thu Mar 20 02:50:57 2014 +0000
- Revision:
- 0:34bad5aca893
- Child:
- 1:2efeed26d93a
works with x
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| drnow | 0:34bad5aca893 | 1 | |
| drnow | 0:34bad5aca893 | 2 | #include "SI_LIS.h" |
| drnow | 0:34bad5aca893 | 3 | |
| drnow | 0:34bad5aca893 | 4 | I2C i2c(p9, p10); // (SDA,SCL) |
| drnow | 0:34bad5aca893 | 5 | int bias1,bias2,bias3,PS1,PS2,PS3,VIS; |
| drnow | 0:34bad5aca893 | 6 | unsigned char LowB,HighB; |
| drnow | 0:34bad5aca893 | 7 | unsigned int IR; |
| drnow | 0:34bad5aca893 | 8 | extern char rx_data[4]; |
| drnow | 0:34bad5aca893 | 9 | extern char accel_2_data[2]; |
| drnow | 0:34bad5aca893 | 10 | extern char accel_data; |
| drnow | 0:34bad5aca893 | 11 | |
| drnow | 0:34bad5aca893 | 12 | void restart() |
| drnow | 0:34bad5aca893 | 13 | { |
| drnow | 0:34bad5aca893 | 14 | wait_ms(30); |
| drnow | 0:34bad5aca893 | 15 | i2c.frequency(400000); |
| drnow | 0:34bad5aca893 | 16 | command(RESET); |
| drnow | 0:34bad5aca893 | 17 | wait_ms(30); |
| drnow | 0:34bad5aca893 | 18 | |
| drnow | 0:34bad5aca893 | 19 | write_reg(HW_KEY,HW_KEY_VAL0); |
| drnow | 0:34bad5aca893 | 20 | write_reg(PS_LED21,0x41); // values when Si1142 and LED's put into hat |
| drnow | 0:34bad5aca893 | 21 | write_reg(PS_LED3,0x00); |
| drnow | 0:34bad5aca893 | 22 | |
| drnow | 0:34bad5aca893 | 23 | // CHLIST Parameter |
| drnow | 0:34bad5aca893 | 24 | write_reg(PARAM_WR, PS1_TASK + PS2_TASK); //use PS1, PS2 to fire LED's |
| drnow | 0:34bad5aca893 | 25 | command(PARAM_SET + (CHLIST & 0x1F)); |
| drnow | 0:34bad5aca893 | 26 | |
| drnow | 0:34bad5aca893 | 27 | // PS Gain: by factor of (2 ^ PS_ADC_GAIN). Max gain: 128 (0x7). |
| drnow | 0:34bad5aca893 | 28 | write_reg(PARAM_WR, 0x03); |
| drnow | 0:34bad5aca893 | 29 | command(PARAM_SET + (PS_ADC_GAIN & 0x1F)); |
| drnow | 0:34bad5aca893 | 30 | |
| drnow | 0:34bad5aca893 | 31 | // PS_ADC_COUNTER (Recommend one’s complement of PS_ADC_GAIN.) |
| drnow | 0:34bad5aca893 | 32 | write_reg(PARAM_WR, 0x40); |
| drnow | 0:34bad5aca893 | 33 | command(PARAM_SET + (PS_ADC_COUNTER & 0x1F)); |
| drnow | 0:34bad5aca893 | 34 | |
| drnow | 0:34bad5aca893 | 35 | // ADC_OFFSET (adds to reported so there's no confusion with 0xFFFF overrange indicator) reset: 0x80 |
| drnow | 0:34bad5aca893 | 36 | write_reg(PARAM_WR, 0x00); |
| drnow | 0:34bad5aca893 | 37 | command(PARAM_SET + (ADC_OFFSET & 0x1F)); |
| drnow | 0:34bad5aca893 | 38 | |
| drnow | 0:34bad5aca893 | 39 | // PS_Encoding (Bit 5: When set, ADC reports least significant 16 bits of 17-bit ADC |
| drnow | 0:34bad5aca893 | 40 | // Current Concept: don't set, but gain it up by another 2x |
| drnow | 0:34bad5aca893 | 41 | |
| drnow | 0:34bad5aca893 | 42 | write_reg(INT_CFG,1); //set bit 0 to 1. Requires clearing interrupt pin |
| drnow | 0:34bad5aca893 | 43 | |
| drnow | 0:34bad5aca893 | 44 | // IRQ_ENABLE 0x04: Bit 3: PS2_IE Bit 2: PS1_IE |
| drnow | 0:34bad5aca893 | 45 | write_reg(IRQ_ENABLE,0x04); |
| drnow | 0:34bad5aca893 | 46 | |
| drnow | 0:34bad5aca893 | 47 | //IRQ_MODE1: 00: PS1_INT is set whenever a PS1 measurement has completed. |
| drnow | 0:34bad5aca893 | 48 | write_reg(IRQ_MODE1,0); |
| drnow | 0:34bad5aca893 | 49 | write_reg(IRQ_MODE2,0); |
| drnow | 0:34bad5aca893 | 50 | |
| drnow | 0:34bad5aca893 | 51 | wait_ms(30); |
| drnow | 0:34bad5aca893 | 52 | |
| drnow | 0:34bad5aca893 | 53 | write_reg(MEAS_RATE,0x20); //0x84 should be every 10 ms. Need calcs if less than that |
| drnow | 0:34bad5aca893 | 54 | wait_ms(30); |
| drnow | 0:34bad5aca893 | 55 | write_reg(PS_RATE,0x08); //this should be a multiplier of 1 |
| drnow | 0:34bad5aca893 | 56 | wait_ms(30); |
| drnow | 0:34bad5aca893 | 57 | } |
| drnow | 0:34bad5aca893 | 58 | |
| drnow | 0:34bad5aca893 | 59 | void command_test() |
| drnow | 0:34bad5aca893 | 60 | { |
| drnow | 0:34bad5aca893 | 61 | write_reg(COMMAND,NOP); |
| drnow | 0:34bad5aca893 | 62 | } |
| drnow | 0:34bad5aca893 | 63 | |
| drnow | 0:34bad5aca893 | 64 | void command(char cmd) |
| drnow | 0:34bad5aca893 | 65 | { |
| drnow | 0:34bad5aca893 | 66 | int val; |
| drnow | 0:34bad5aca893 | 67 | |
| drnow | 0:34bad5aca893 | 68 | val = read_reg(RESPONSE,1); |
| drnow | 0:34bad5aca893 | 69 | while(val!=0) { |
| drnow | 0:34bad5aca893 | 70 | write_reg(COMMAND,NOP); |
| drnow | 0:34bad5aca893 | 71 | val = read_reg(RESPONSE,1); |
| drnow | 0:34bad5aca893 | 72 | } |
| drnow | 0:34bad5aca893 | 73 | do { |
| drnow | 0:34bad5aca893 | 74 | write_reg(COMMAND,cmd); |
| drnow | 0:34bad5aca893 | 75 | if(cmd==RESET) break; |
| drnow | 0:34bad5aca893 | 76 | val = read_reg(RESPONSE,1); |
| drnow | 0:34bad5aca893 | 77 | } while(val==0); |
| drnow | 0:34bad5aca893 | 78 | } |
| drnow | 0:34bad5aca893 | 79 | |
| drnow | 0:34bad5aca893 | 80 | int command2(char cmd) |
| drnow | 0:34bad5aca893 | 81 | { |
| drnow | 0:34bad5aca893 | 82 | int val; |
| drnow | 0:34bad5aca893 | 83 | int i = 0; |
| drnow | 0:34bad5aca893 | 84 | do { |
| drnow | 0:34bad5aca893 | 85 | write_reg(COMMAND,cmd); |
| drnow | 0:34bad5aca893 | 86 | val = read_reg(RESPONSE,1); |
| drnow | 0:34bad5aca893 | 87 | i = i+1; |
| drnow | 0:34bad5aca893 | 88 | } while(val==0); |
| drnow | 0:34bad5aca893 | 89 | return val; |
| drnow | 0:34bad5aca893 | 90 | } |
| drnow | 0:34bad5aca893 | 91 | |
| drnow | 0:34bad5aca893 | 92 | void command3(char cmd) |
| drnow | 0:34bad5aca893 | 93 | { |
| drnow | 0:34bad5aca893 | 94 | write_reg(COMMAND,cmd); |
| drnow | 0:34bad5aca893 | 95 | } |
| drnow | 0:34bad5aca893 | 96 | |
| drnow | 0:34bad5aca893 | 97 | char read_reg2 (/*unsigned*/ char address) // Read a register |
| drnow | 0:34bad5aca893 | 98 | { |
| drnow | 0:34bad5aca893 | 99 | char tx[1]; |
| drnow | 0:34bad5aca893 | 100 | tx[0] = address; |
| drnow | 0:34bad5aca893 | 101 | i2c.write((IR_ADDRESS << 1) & 0xFE, tx, 1); |
| drnow | 0:34bad5aca893 | 102 | |
| drnow | 0:34bad5aca893 | 103 | i2c.read((IR_ADDRESS << 1) | 0x01, rx_data, 4); |
| drnow | 0:34bad5aca893 | 104 | return 0; |
| drnow | 0:34bad5aca893 | 105 | } |
| drnow | 0:34bad5aca893 | 106 | |
| drnow | 0:34bad5aca893 | 107 | |
| drnow | 0:34bad5aca893 | 108 | char read_reg (/*unsigned*/ char address, int num_data) // Read a register |
| drnow | 0:34bad5aca893 | 109 | { |
| drnow | 0:34bad5aca893 | 110 | char tx[1]; |
| drnow | 0:34bad5aca893 | 111 | char rx[1]; |
| drnow | 0:34bad5aca893 | 112 | tx[0] = address; |
| drnow | 0:34bad5aca893 | 113 | i2c.write((IR_ADDRESS << 1) & 0xFE, tx, num_data); |
| drnow | 0:34bad5aca893 | 114 | |
| drnow | 0:34bad5aca893 | 115 | i2c.read((IR_ADDRESS << 1) | 0x01, rx, num_data); |
| drnow | 0:34bad5aca893 | 116 | return rx[0]; |
| drnow | 0:34bad5aca893 | 117 | } |
| drnow | 0:34bad5aca893 | 118 | |
| drnow | 0:34bad5aca893 | 119 | void write_reg(char address, char num_data) // Write a resigter |
| drnow | 0:34bad5aca893 | 120 | { |
| drnow | 0:34bad5aca893 | 121 | char tx[2]; |
| drnow | 0:34bad5aca893 | 122 | |
| drnow | 0:34bad5aca893 | 123 | tx[0] = address; |
| drnow | 0:34bad5aca893 | 124 | tx[1] = num_data; |
| drnow | 0:34bad5aca893 | 125 | i2c.write((IR_ADDRESS << 1) & 0xFE, tx, 2); |
| drnow | 0:34bad5aca893 | 126 | } |
| drnow | 0:34bad5aca893 | 127 | |
| drnow | 0:34bad5aca893 | 128 | void Init_Accel (char Reg_Num, char Reg_Val) |
| drnow | 0:34bad5aca893 | 129 | { |
| drnow | 0:34bad5aca893 | 130 | char data[2]; |
| drnow | 0:34bad5aca893 | 131 | data[0] = Reg_Num; //register to be written to |
| drnow | 0:34bad5aca893 | 132 | data[1] = Reg_Val; //data |
| drnow | 0:34bad5aca893 | 133 | |
| drnow | 0:34bad5aca893 | 134 | i2c.write((LIS_Addr << 1) & 0xFE, data, 2); |
| drnow | 0:34bad5aca893 | 135 | } |
| drnow | 0:34bad5aca893 | 136 | |
| drnow | 0:34bad5aca893 | 137 | void Get_Accel_Register (char Reg_Num) |
| drnow | 0:34bad5aca893 | 138 | { |
| drnow | 0:34bad5aca893 | 139 | char data; |
| drnow | 0:34bad5aca893 | 140 | char reg; |
| drnow | 0:34bad5aca893 | 141 | |
| drnow | 0:34bad5aca893 | 142 | reg = Reg_Num; |
| drnow | 0:34bad5aca893 | 143 | |
| drnow | 0:34bad5aca893 | 144 | i2c.write((LIS_Addr << 1) & 0xFE , ®, 1 ); // Write register number |
| drnow | 0:34bad5aca893 | 145 | i2c.read ((LIS_Addr << 1) | 0x01, &data, 1 ); // Receive Byte from Slave |
| drnow | 0:34bad5aca893 | 146 | accel_data = data; |
| drnow | 0:34bad5aca893 | 147 | } |
| drnow | 0:34bad5aca893 | 148 | |
| drnow | 0:34bad5aca893 | 149 | void Get_Accel_Register_2 (char Reg_Num) // Read 2 registers |
| drnow | 0:34bad5aca893 | 150 | /* |
| drnow | 0:34bad5aca893 | 151 | In order to read multiple bytes, it is necessary to assert the most significant bit of the subaddress |
| drnow | 0:34bad5aca893 | 152 | field. In other words, SUB(7) must be equal to 1 while SUB(6-0) represents the |
| drnow | 0:34bad5aca893 | 153 | address of first register to be read. |
| drnow | 0:34bad5aca893 | 154 | */ |
| drnow | 0:34bad5aca893 | 155 | { |
| drnow | 0:34bad5aca893 | 156 | char reg; |
| drnow | 0:34bad5aca893 | 157 | reg = Reg_Num | 0x80; // set bit 7 high |
| drnow | 0:34bad5aca893 | 158 | i2c.write((LIS_Addr << 1) & 0xFE, ®, 1); |
| drnow | 0:34bad5aca893 | 159 | i2c.read((LIS_Addr << 1) | 0x01, accel_2_data, 2); |
| drnow | 0:34bad5aca893 | 160 | } |
| drnow | 0:34bad5aca893 | 161 | |
| drnow | 0:34bad5aca893 | 162 | void i2c_start() // also set by photodiode setup/reset |
| drnow | 0:34bad5aca893 | 163 | { |
| drnow | 0:34bad5aca893 | 164 | i2c.frequency(400000); |
| drnow | 0:34bad5aca893 | 165 | } |
| drnow | 0:34bad5aca893 | 166 |