Modified for compatibility with Rev.E. hardware
Fork of AkmSensor by
ak7451ctrl.cpp@49:c8f8946129b6, 2018-05-01 (annotated)
- Committer:
- tkstreet
- Date:
- Tue May 01 21:31:15 2018 +0000
- Revision:
- 49:c8f8946129b6
- Parent:
- 47:221ec4b404ec
Modified for Rev.E. compatibility.
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
masahikofukasawa | 11:cef8dc1cf010 | 1 | #include "ak7451ctrl.h" |
masahikofukasawa | 11:cef8dc1cf010 | 2 | |
masahikofukasawa | 11:cef8dc1cf010 | 3 | /** |
masahikofukasawa | 11:cef8dc1cf010 | 4 | * Constructor. |
masahikofukasawa | 11:cef8dc1cf010 | 5 | * |
masahikofukasawa | 11:cef8dc1cf010 | 6 | */ |
masahikofukasawa | 27:41aa9fb23a2f | 7 | Ak7451Ctrl::Ak7451Ctrl() : AkmSensor(){ |
masahikofukasawa | 11:cef8dc1cf010 | 8 | ak7451 = NULL; |
masahikofukasawa | 11:cef8dc1cf010 | 9 | } |
masahikofukasawa | 11:cef8dc1cf010 | 10 | |
masahikofukasawa | 11:cef8dc1cf010 | 11 | /** |
masahikofukasawa | 11:cef8dc1cf010 | 12 | * Destructor. |
masahikofukasawa | 11:cef8dc1cf010 | 13 | * |
masahikofukasawa | 11:cef8dc1cf010 | 14 | */ |
masahikofukasawa | 11:cef8dc1cf010 | 15 | Ak7451Ctrl::~Ak7451Ctrl(){ |
masahikofukasawa | 11:cef8dc1cf010 | 16 | if (ak7451) delete ak7451; |
masahikofukasawa | 11:cef8dc1cf010 | 17 | } |
masahikofukasawa | 11:cef8dc1cf010 | 18 | |
masahikofukasawa | 11:cef8dc1cf010 | 19 | AkmSensor::Status Ak7451Ctrl::init(const uint8_t id, const uint8_t subid){ |
masahikofukasawa | 11:cef8dc1cf010 | 20 | primaryId = id; |
masahikofukasawa | 11:cef8dc1cf010 | 21 | subId = subid; |
masahikofukasawa | 11:cef8dc1cf010 | 22 | |
masahikofukasawa | 11:cef8dc1cf010 | 23 | if(subId == SUB_ID_AK7451){ |
tkstreet | 25:76c11ab5060e | 24 | SPI* mSpi; // SPI connection |
tkstreet | 25:76c11ab5060e | 25 | DigitalOut* mCs; // Chip select pin |
tkstreet | 25:76c11ab5060e | 26 | |
tkstreet | 25:76c11ab5060e | 27 | // Initialize SPI connection |
masahikofukasawa | 11:cef8dc1cf010 | 28 | AK7451::Status status = AK7451::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 29 | mSpi = new SPI(SPI_MOSI, SPI_MISO, SPI_SCK); |
masahikofukasawa | 11:cef8dc1cf010 | 30 | mSpi->format(8,1); // 8bit, Mode=1 |
masahikofukasawa | 11:cef8dc1cf010 | 31 | mSpi->frequency(1000000); |
tkstreet | 25:76c11ab5060e | 32 | |
tkstreet | 25:76c11ab5060e | 33 | // Initialize chip select pin |
masahikofukasawa | 11:cef8dc1cf010 | 34 | mCs = new DigitalOut(SPI_CS); |
masahikofukasawa | 11:cef8dc1cf010 | 35 | ak7451 = new AK7451(); |
masahikofukasawa | 11:cef8dc1cf010 | 36 | ak7451->begin(mSpi, mCs); |
masahikofukasawa | 13:d008249f0359 | 37 | sensorName = "AK7451"; |
masahikofukasawa | 11:cef8dc1cf010 | 38 | |
tkstreet | 25:76c11ab5060e | 39 | // Set to User Mode |
masahikofukasawa | 11:cef8dc1cf010 | 40 | status = ak7451->setOperationMode(AK7451::AK7451_USER_MODE); |
masahikofukasawa | 11:cef8dc1cf010 | 41 | if( status != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 42 | MSG("#Error: AK7451 user mode failed.\r\n"); |
masahikofukasawa | 11:cef8dc1cf010 | 43 | return AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 44 | } |
masahikofukasawa | 11:cef8dc1cf010 | 45 | MSG("#AK7451 user mode succeed.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 46 | |
masahikofukasawa | 30:5a241d9b3262 | 47 | // E_RD 0x1 clockwise rotation |
masahikofukasawa | 30:5a241d9b3262 | 48 | // E_Z_MODE 0x0 normal output |
masahikofukasawa | 30:5a241d9b3262 | 49 | // E_ABZ_E 0x1 ABZ Output enable |
masahikofukasawa | 30:5a241d9b3262 | 50 | // E_ABZ_HYS 0x2 ABZ Hysteresis=1LSB |
masahikofukasawa | 30:5a241d9b3262 | 51 | // ABZ_RES 0x0 ABZ phase resolution = 1024ppr |
masahikofukasawa | 30:5a241d9b3262 | 52 | char data[2] = {0x02,0xA0}; |
tkstreet | 25:76c11ab5060e | 53 | |
masahikofukasawa | 11:cef8dc1cf010 | 54 | status = ak7451->writeEEPROM(0x07,data); // set clockwise |
masahikofukasawa | 11:cef8dc1cf010 | 55 | if( status != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 56 | MSG("#Error: AK7451 write EEPROM failed.\r\n"); |
masahikofukasawa | 11:cef8dc1cf010 | 57 | return AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 58 | } |
masahikofukasawa | 39:3821886c902e | 59 | MSG("#Error: AK7451 write EEPROM succeed.\r\n"); |
tkstreet | 34:1ea3357c8d9a | 60 | |
masahikofukasawa | 30:5a241d9b3262 | 61 | /* |
tkstreet | 25:76c11ab5060e | 62 | // Set to Normal Mode |
masahikofukasawa | 11:cef8dc1cf010 | 63 | status = ak7451->setOperationMode(AK7451::AK7451_NORMAL_MODE); |
masahikofukasawa | 11:cef8dc1cf010 | 64 | if( status != AK7451::SUCCESS ){ |
masahikofukasawa | 11:cef8dc1cf010 | 65 | MSG("#AK7451 normal mode failed.\r\n"); |
masahikofukasawa | 11:cef8dc1cf010 | 66 | return AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 67 | } |
masahikofukasawa | 11:cef8dc1cf010 | 68 | MSG("#AK7451 normal mode succeed.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 69 | */ |
masahikofukasawa | 11:cef8dc1cf010 | 70 | interval = SENSOR_SAMPLING_RATE; // 10Hz |
masahikofukasawa | 11:cef8dc1cf010 | 71 | } |
masahikofukasawa | 11:cef8dc1cf010 | 72 | else{ |
masahikofukasawa | 11:cef8dc1cf010 | 73 | return AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 74 | } |
masahikofukasawa | 11:cef8dc1cf010 | 75 | |
masahikofukasawa | 11:cef8dc1cf010 | 76 | return AkmSensor::SUCCESS; |
masahikofukasawa | 11:cef8dc1cf010 | 77 | } |
masahikofukasawa | 11:cef8dc1cf010 | 78 | |
masahikofukasawa | 11:cef8dc1cf010 | 79 | AkmSensor::Status Ak7451Ctrl::startSensor(){ |
masahikofukasawa | 30:5a241d9b3262 | 80 | AK7451::Status status = ak7451->setOperationMode(AK7451::AK7451_NORMAL_MODE); |
masahikofukasawa | 30:5a241d9b3262 | 81 | if( status != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 82 | MSG("#Error: AK7451 normal mode failed.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 83 | return AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 84 | } |
masahikofukasawa | 29:b488d2c89fba | 85 | ticker.attach(callback(this, &AkmSensor::setEvent), interval); |
masahikofukasawa | 11:cef8dc1cf010 | 86 | return AkmSensor::SUCCESS; |
masahikofukasawa | 11:cef8dc1cf010 | 87 | } |
masahikofukasawa | 11:cef8dc1cf010 | 88 | |
masahikofukasawa | 11:cef8dc1cf010 | 89 | AkmSensor::Status Ak7451Ctrl::startSensor(const float sec){ |
masahikofukasawa | 30:5a241d9b3262 | 90 | AK7451::Status status = ak7451->setOperationMode(AK7451::AK7451_NORMAL_MODE); |
masahikofukasawa | 30:5a241d9b3262 | 91 | if( status != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 92 | MSG("#Error: AK7451 normal mode failed.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 93 | return AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 94 | } |
masahikofukasawa | 30:5a241d9b3262 | 95 | |
masahikofukasawa | 11:cef8dc1cf010 | 96 | interval = sec; |
masahikofukasawa | 29:b488d2c89fba | 97 | ticker.attach(callback(this, &AkmSensor::setEvent), interval); |
masahikofukasawa | 29:b488d2c89fba | 98 | MSG("#Start sensor %s.\r\n",sensorName); |
masahikofukasawa | 11:cef8dc1cf010 | 99 | return AkmSensor::SUCCESS; |
masahikofukasawa | 11:cef8dc1cf010 | 100 | } |
masahikofukasawa | 11:cef8dc1cf010 | 101 | |
masahikofukasawa | 11:cef8dc1cf010 | 102 | AkmSensor::Status Ak7451Ctrl::stopSensor(){ |
masahikofukasawa | 30:5a241d9b3262 | 103 | AK7451::Status status; |
masahikofukasawa | 30:5a241d9b3262 | 104 | status = ak7451->setOperationMode(AK7451::AK7451_USER_MODE); |
masahikofukasawa | 30:5a241d9b3262 | 105 | if( status != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 106 | MSG("#Error: AK7451 user mode failed.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 107 | return AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 108 | } |
masahikofukasawa | 11:cef8dc1cf010 | 109 | ticker.detach(); |
masahikofukasawa | 29:b488d2c89fba | 110 | AkmSensor::clearEvent(); |
masahikofukasawa | 11:cef8dc1cf010 | 111 | return AkmSensor::SUCCESS; |
masahikofukasawa | 11:cef8dc1cf010 | 112 | } |
masahikofukasawa | 11:cef8dc1cf010 | 113 | |
masahikofukasawa | 11:cef8dc1cf010 | 114 | AkmSensor::Status Ak7451Ctrl::readSensorData(Message* msg){ |
masahikofukasawa | 29:b488d2c89fba | 115 | AkmSensor::clearEvent(); |
masahikofukasawa | 29:b488d2c89fba | 116 | |
masahikofukasawa | 11:cef8dc1cf010 | 117 | char angle[2] = {0x00,0x00}; |
masahikofukasawa | 11:cef8dc1cf010 | 118 | AK7451::Status status = ak7451->readAngle(angle); |
masahikofukasawa | 11:cef8dc1cf010 | 119 | |
masahikofukasawa | 11:cef8dc1cf010 | 120 | msg->setCommand(Message::CMD_START_MEASUREMENT); |
masahikofukasawa | 11:cef8dc1cf010 | 121 | msg->setArgument( 0, status ); |
masahikofukasawa | 11:cef8dc1cf010 | 122 | msg->setArgument( 1, angle[0] ); |
masahikofukasawa | 11:cef8dc1cf010 | 123 | msg->setArgument( 2, angle[1] ); |
masahikofukasawa | 11:cef8dc1cf010 | 124 | |
masahikofukasawa | 47:221ec4b404ec | 125 | if( status != AK7451::SUCCESS){ |
masahikofukasawa | 11:cef8dc1cf010 | 126 | return AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 127 | } |
masahikofukasawa | 11:cef8dc1cf010 | 128 | return AkmSensor::SUCCESS; |
masahikofukasawa | 11:cef8dc1cf010 | 129 | } |
masahikofukasawa | 11:cef8dc1cf010 | 130 | |
masahikofukasawa | 11:cef8dc1cf010 | 131 | AkmSensor::Status Ak7451Ctrl::requestCommand(Message* in, Message* out){ |
masahikofukasawa | 11:cef8dc1cf010 | 132 | AkmSensor::Status status = AkmSensor::SUCCESS; |
masahikofukasawa | 11:cef8dc1cf010 | 133 | |
masahikofukasawa | 11:cef8dc1cf010 | 134 | Message::Command cmd = in->getCommand(); |
masahikofukasawa | 11:cef8dc1cf010 | 135 | |
masahikofukasawa | 11:cef8dc1cf010 | 136 | switch(cmd){ |
masahikofukasawa | 30:5a241d9b3262 | 137 | case Message::CMD_ANGLE_READ: |
masahikofukasawa | 30:5a241d9b3262 | 138 | { |
masahikofukasawa | 30:5a241d9b3262 | 139 | // read angle |
masahikofukasawa | 30:5a241d9b3262 | 140 | char angle[2] = {0x00,0x00}; |
masahikofukasawa | 30:5a241d9b3262 | 141 | char density = 0x00; |
masahikofukasawa | 30:5a241d9b3262 | 142 | char abnormal = 0x00; |
masahikofukasawa | 30:5a241d9b3262 | 143 | |
masahikofukasawa | 30:5a241d9b3262 | 144 | if( ak7451->readAngleMeasureCommand(angle, &density, &abnormal) != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 145 | MSG("#Error: read angle\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 146 | status = AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 147 | } |
masahikofukasawa | 30:5a241d9b3262 | 148 | out->setCommand(Message::CMD_ANGLE_READ); |
masahikofukasawa | 30:5a241d9b3262 | 149 | out->setArgument( 0, (abnormal != 0x03)|(status == AkmSensor::ERROR) ? 0x01 : 0x00 ); |
masahikofukasawa | 30:5a241d9b3262 | 150 | out->setArgument( 1, angle[0] ); |
masahikofukasawa | 30:5a241d9b3262 | 151 | out->setArgument( 2, angle[1] ); |
masahikofukasawa | 30:5a241d9b3262 | 152 | out->setArgument( 3, density ); |
masahikofukasawa | 30:5a241d9b3262 | 153 | break; |
masahikofukasawa | 30:5a241d9b3262 | 154 | } |
masahikofukasawa | 11:cef8dc1cf010 | 155 | case Message::CMD_ANGLE_ZERO_RESET: |
masahikofukasawa | 11:cef8dc1cf010 | 156 | { |
masahikofukasawa | 30:5a241d9b3262 | 157 | AK7451::Status st; |
masahikofukasawa | 30:5a241d9b3262 | 158 | /* |
masahikofukasawa | 30:5a241d9b3262 | 159 | AK7451::OperationMode mode = AK7451::AK7451_USER_MODE; |
masahikofukasawa | 11:cef8dc1cf010 | 160 | |
masahikofukasawa | 30:5a241d9b3262 | 161 | // check the mode |
masahikofukasawa | 30:5a241d9b3262 | 162 | char data[1]; |
masahikofukasawa | 30:5a241d9b3262 | 163 | if( ak7451->readRegister(0x00, data) != AK7451::SUCCESS) { |
masahikofukasawa | 30:5a241d9b3262 | 164 | MSG("#NORMAL MODE detected. Set into USER mode.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 165 | mode = AK7451::AK7451_NORMAL_MODE; |
masahikofukasawa | 30:5a241d9b3262 | 166 | st = ak7451->setOperationMode(AK7451::AK7451_USER_MODE); |
masahikofukasawa | 30:5a241d9b3262 | 167 | if( st != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 168 | MSG("#Error: when set user mode\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 169 | status = AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 170 | } |
masahikofukasawa | 11:cef8dc1cf010 | 171 | } |
masahikofukasawa | 30:5a241d9b3262 | 172 | */ |
masahikofukasawa | 11:cef8dc1cf010 | 173 | st = ak7451->setAngleZero(); // reset ZP data |
masahikofukasawa | 11:cef8dc1cf010 | 174 | if( st != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 175 | MSG("#Error: setAngleZero: code=%d\r\n",st); |
masahikofukasawa | 11:cef8dc1cf010 | 176 | status = AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 177 | } |
masahikofukasawa | 30:5a241d9b3262 | 178 | /* |
masahikofukasawa | 30:5a241d9b3262 | 179 | st = ak7451->setOperationMode(mode); |
masahikofukasawa | 11:cef8dc1cf010 | 180 | if( st != AK7451::SUCCESS ){ |
masahikofukasawa | 39:3821886c902e | 181 | MSG("#Error: when set mode:%d\r\n",mode); |
masahikofukasawa | 11:cef8dc1cf010 | 182 | status = AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 183 | } |
masahikofukasawa | 30:5a241d9b3262 | 184 | */ |
masahikofukasawa | 11:cef8dc1cf010 | 185 | if( status == AkmSensor::ERROR ){ |
masahikofukasawa | 11:cef8dc1cf010 | 186 | out->setArgument(0,1); |
masahikofukasawa | 11:cef8dc1cf010 | 187 | }else{ |
masahikofukasawa | 11:cef8dc1cf010 | 188 | out->setArgument(0,0); |
masahikofukasawa | 11:cef8dc1cf010 | 189 | } |
masahikofukasawa | 11:cef8dc1cf010 | 190 | break; |
masahikofukasawa | 11:cef8dc1cf010 | 191 | } |
masahikofukasawa | 30:5a241d9b3262 | 192 | case Message::CMD_REG_WRITE: |
masahikofukasawa | 30:5a241d9b3262 | 193 | case Message::CMD_REG_WRITEN: |
masahikofukasawa | 30:5a241d9b3262 | 194 | { |
masahikofukasawa | 30:5a241d9b3262 | 195 | char address = in->getArgument(0); |
masahikofukasawa | 46:5938ad2039b0 | 196 | const int len = in->getArgument(1); |
masahikofukasawa | 30:5a241d9b3262 | 197 | if(len != 2){ |
masahikofukasawa | 39:3821886c902e | 198 | MSG("#Error: length=%d. Only support 2byte length\r\n",len); |
masahikofukasawa | 30:5a241d9b3262 | 199 | status = AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 200 | return status; |
masahikofukasawa | 30:5a241d9b3262 | 201 | } |
masahikofukasawa | 30:5a241d9b3262 | 202 | if(in->getArgNum() != len+2){ |
masahikofukasawa | 39:3821886c902e | 203 | MSG("#Error: argument num. Args=%d\r\n",in->getArgNum()); |
masahikofukasawa | 30:5a241d9b3262 | 204 | status = AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 205 | out->setArgument(0,(char)status); |
masahikofukasawa | 30:5a241d9b3262 | 206 | return status; |
masahikofukasawa | 30:5a241d9b3262 | 207 | } |
masahikofukasawa | 30:5a241d9b3262 | 208 | |
masahikofukasawa | 30:5a241d9b3262 | 209 | char data[len]; |
masahikofukasawa | 30:5a241d9b3262 | 210 | for(int i=0; i<len; i++){ |
masahikofukasawa | 30:5a241d9b3262 | 211 | data[i] = in->getArgument(i+2); |
masahikofukasawa | 30:5a241d9b3262 | 212 | } |
masahikofukasawa | 30:5a241d9b3262 | 213 | if( ak7451->writeRegister(address, data) != AK7451::SUCCESS) { |
masahikofukasawa | 30:5a241d9b3262 | 214 | status = AkmSensor::ERROR; |
masahikofukasawa | 39:3821886c902e | 215 | MSG("#Error: register write.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 216 | } |
masahikofukasawa | 30:5a241d9b3262 | 217 | if( ak7451->writeEEPROM(address, data) != AK7451::SUCCESS) { |
masahikofukasawa | 30:5a241d9b3262 | 218 | status = AkmSensor::ERROR; |
masahikofukasawa | 39:3821886c902e | 219 | MSG("#Error: EEPROM write.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 220 | } |
masahikofukasawa | 30:5a241d9b3262 | 221 | out->setArgument(0,(char)status); |
masahikofukasawa | 30:5a241d9b3262 | 222 | break; |
masahikofukasawa | 30:5a241d9b3262 | 223 | } |
masahikofukasawa | 30:5a241d9b3262 | 224 | case Message::CMD_REG_READ: |
masahikofukasawa | 30:5a241d9b3262 | 225 | case Message::CMD_REG_READN: |
masahikofukasawa | 30:5a241d9b3262 | 226 | { |
masahikofukasawa | 30:5a241d9b3262 | 227 | if(in->getArgNum() != 2){ |
masahikofukasawa | 39:3821886c902e | 228 | MSG("#Error: argument num. Args=%d\r\n",in->getArgNum()); |
masahikofukasawa | 30:5a241d9b3262 | 229 | status = AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 230 | return status; |
masahikofukasawa | 30:5a241d9b3262 | 231 | } |
masahikofukasawa | 30:5a241d9b3262 | 232 | |
masahikofukasawa | 30:5a241d9b3262 | 233 | char address = in->getArgument(0); |
masahikofukasawa | 46:5938ad2039b0 | 234 | const int len = in->getArgument(1); |
masahikofukasawa | 30:5a241d9b3262 | 235 | if(len != 2){ |
masahikofukasawa | 39:3821886c902e | 236 | MSG("#Error: length=%d. Only support 2byte length\r\n",len); |
masahikofukasawa | 30:5a241d9b3262 | 237 | status = AkmSensor::ERROR; |
masahikofukasawa | 30:5a241d9b3262 | 238 | return status; |
masahikofukasawa | 30:5a241d9b3262 | 239 | } |
masahikofukasawa | 30:5a241d9b3262 | 240 | char data[len]; |
masahikofukasawa | 30:5a241d9b3262 | 241 | if( ak7451->readRegister(address, data) != AK7451::SUCCESS) { |
masahikofukasawa | 30:5a241d9b3262 | 242 | status = AkmSensor::ERROR; |
masahikofukasawa | 39:3821886c902e | 243 | MSG("#Error: register read.\r\n"); |
masahikofukasawa | 30:5a241d9b3262 | 244 | } |
masahikofukasawa | 30:5a241d9b3262 | 245 | for(int i=0; i<len; i++){ |
masahikofukasawa | 30:5a241d9b3262 | 246 | out->setArgument(i, data[i]); |
masahikofukasawa | 30:5a241d9b3262 | 247 | } |
masahikofukasawa | 30:5a241d9b3262 | 248 | break; |
masahikofukasawa | 30:5a241d9b3262 | 249 | } |
masahikofukasawa | 11:cef8dc1cf010 | 250 | default: |
masahikofukasawa | 11:cef8dc1cf010 | 251 | { |
masahikofukasawa | 39:3821886c902e | 252 | MSG("#Error: no command.\r\n"); |
masahikofukasawa | 11:cef8dc1cf010 | 253 | status = AkmSensor::ERROR; |
masahikofukasawa | 11:cef8dc1cf010 | 254 | break; |
masahikofukasawa | 11:cef8dc1cf010 | 255 | } |
masahikofukasawa | 11:cef8dc1cf010 | 256 | } |
masahikofukasawa | 11:cef8dc1cf010 | 257 | |
masahikofukasawa | 11:cef8dc1cf010 | 258 | return status; |
masahikofukasawa | 11:cef8dc1cf010 | 259 | } |
masahikofukasawa | 11:cef8dc1cf010 | 260 |