Public Member Functions | Public Attributes
SensorsInfo Struct Reference

This data structure holds the values of the robot's sensors. More...

#include <Definition>

List of all members.

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.

Detailed Description

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.


Member Function Documentation

void SensorsInfo::InitStruct ( ) [inline]

This method will initialises all the values to 0

Definition at line 490 of file KinovaTypes.h.


Member Data Documentation

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.

This is the main power supply's current. Unit is A.

Definition at line 424 of file KinovaTypes.h.

This is the value read by the temperature sensor on the finger 1. Unit is C°.

Definition at line 474 of file KinovaTypes.h.

This is the value read by the temperature sensor on the finger 2. Unit is C°.

Definition at line 479 of file KinovaTypes.h.

This is the value read by the temperature sensor on the finger 3. Unit is C°.

Definition at line 484 of file KinovaTypes.h.

This is the main power supply voltage. (24 V) Unit is V.

Definition at line 419 of file KinovaTypes.h.


The documentation for this struct was generated from the following file:


jaco_driver
Author(s): Ilia Baranov (Clearpath) , Jeff Schmidt (Clearpath) , Alex Bencz (Clearpath) , Matt DeDonato (WPI), Braden Stenning
autogenerated on Mon Mar 2 2015 16:21:03