This data structure holds the values of the robot's sensors. More...
#include <Definition>
Public Member Functions | |
| void | InitStruct () |
Public Attributes | |
| float | AccelerationX |
| This is the value read by the acceleration sensor on the X axis. Unit is G. | |
| float | AccelerationY |
| This is the value read by the acceleration sensor on the Y axis. Unit is G. | |
| float | AccelerationZ |
| This is the value read by the acceleration sensor on the Z axis. Unit is G. | |
| float | ActuatorTemp1 |
| This is the value read by the temperature sensor on the actuator 1. Unit is C°. | |
| float | ActuatorTemp2 |
| This is the value read by the temperature sensor on the actuator 2. Unit is C°. | |
| float | ActuatorTemp3 |
| This is the value read by the temperature sensor on the actuator 3. Unit is C°. | |
| float | ActuatorTemp4 |
| This is the value read by the temperature sensor on the actuator 4. Unit is C°. | |
| float | ActuatorTemp5 |
| This is the value read by the temperature sensor on the actuator 5. Unit is C°. | |
| float | ActuatorTemp6 |
| This is the value read by the temperature sensor on the actuator 6. Unit is C°. | |
| float | Current |
| This is the main power supply's current. Unit is A. | |
| float | FingerTemp1 |
| This is the value read by the temperature sensor on the finger 1. Unit is C°. | |
| float | FingerTemp2 |
| This is the value read by the temperature sensor on the finger 2. Unit is C°. | |
| float | FingerTemp3 |
| This is the value read by the temperature sensor on the finger 3. Unit is C°. | |
| float | Voltage |
| This is the main power supply voltage. (24 V) Unit is V. | |
This data structure holds the values of the robot's sensors.
If the robot is a Jaco, the 3 finger values will be filled but if the robot is a Mico, the finger 3 will not be filled.
Definition at line 414 of file KinovaTypes.h.
| void SensorsInfo::InitStruct | ( | ) | [inline] |
This method will initialises all the values to 0
Definition at line 490 of file KinovaTypes.h.
This is the value read by the acceleration sensor on the X axis. Unit is G.
Definition at line 429 of file KinovaTypes.h.
This is the value read by the acceleration sensor on the Y axis. Unit is G.
Definition at line 434 of file KinovaTypes.h.
This is the value read by the acceleration sensor on the Z axis. Unit is G.
Definition at line 439 of file KinovaTypes.h.
This is the value read by the temperature sensor on the actuator 1. Unit is C°.
Definition at line 444 of file KinovaTypes.h.
This is the value read by the temperature sensor on the actuator 2. Unit is C°.
Definition at line 449 of file KinovaTypes.h.
This is the value read by the temperature sensor on the actuator 3. Unit is C°.
Definition at line 454 of file KinovaTypes.h.
This is the value read by the temperature sensor on the actuator 4. Unit is C°.
Definition at line 459 of file KinovaTypes.h.
This is the value read by the temperature sensor on the actuator 5. Unit is C°.
Definition at line 464 of file KinovaTypes.h.
This is the value read by the temperature sensor on the actuator 6. Unit is C°.
Definition at line 469 of file KinovaTypes.h.
| float SensorsInfo::Current |
This is the main power supply's current. Unit is A.
Definition at line 424 of file KinovaTypes.h.
| float SensorsInfo::FingerTemp1 |
This is the value read by the temperature sensor on the finger 1. Unit is C°.
Definition at line 474 of file KinovaTypes.h.
| float SensorsInfo::FingerTemp2 |
This is the value read by the temperature sensor on the finger 2. Unit is C°.
Definition at line 479 of file KinovaTypes.h.
| float SensorsInfo::FingerTemp3 |
This is the value read by the temperature sensor on the finger 3. Unit is C°.
Definition at line 484 of file KinovaTypes.h.
| float SensorsInfo::Voltage |
This is the main power supply voltage. (24 V) Unit is V.
Definition at line 419 of file KinovaTypes.h.