T14 - Masses - V 3.3

See also

V 4.0 | V 3.3 | V 3.2

NAO T14 | Masses


Legend

This page details, for each solid (S) of a robot, the Mass, Center of Mass and Inertial matrix.

\text{Mass (kg)}

\text{CoM(S)} = \left[\begin{array}{c}
X_G \\ Y_G \\ Z_G
\end{array} \right]_{(o, R)} \text{(m)}

\left[I_o(S)\right]_R = \left[\begin{array}{ccc}
I_{xx} & I_{xy} & I_{xz} \\
I_{yx} & I_{yy} & I_{yz} \\
I_{zx} & I_{zy} & I_{zz}
\end{array}\right]_R (\text{kg}*\text{m}^2)

The Center of Mass position and the Inertial matrix are described relative to the local coordinate system of the current solid (S) (o, R).

All solids (S) and local coordinate system are described relative to the zero posture: with straight arms pointing forwards.

Whole robot

\text{Mass} = 2.6

Torso

(o, R) is located on: Torso.

../../_images/torso_t.png

\text{Mass} = 1.05767

\text{CoM(S)} = \left[
                \begin{array}{c}
                  -0.00544 \\
                  0.00005 \\
                  -0.01049
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          0.00407798983 & 0.00001905036 & -0.00009699419 \\
                          0.00001905036 & 0.00383666587 & -0.00000729520 \\
                          -0.00009699419 & -0.00000729520 & 0.00191346075 \\
                        \end{array}
                        \right]_R

Arms

Right Shoulder

(o, R) is located on the joint: RShoulderPitch.

../../_images/hardware_rshouldermass_3.3.png

\text{Mass} = 0.06996

\text{CoM(S)} = \left[
                \begin{array}{c}
                  -0.00178 \\
                  +0.02496 \\
                  +0.00018
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00007102499 & +0.00000202467 & +0.00000001722 \\
                          +0.00000202467 & +0.00001405799 & -0.00000000841 \\
                          +0.00000001722 & -0.00000000841 & +0.00007316600
                        \end{array}
                        \right]_R

Left Shoulder

(o, R) is located on the joint: LShoulderPitch.

\text{Mass} = 0.06996

\text{CoM(S)} = \left[
                \begin{array}{c}
                  -0.00178 \\
                  -0.02496 \\
                  +0.00018
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00007102499 & -0.00000202467 & +0.00000001722 \\
                          -0.00000202467 & +0.00001405799 & +0.00000000841 \\
                          +0.00000001722 & +0.00000000841 & +0.00007316600
                        \end{array}
                        \right]_R

Right Bicep

(o, R) is located on the joint: RShoulderRoll.

../../_images/hardware_rbicepmass_3.3.png

\text{Mass} = 0.12309

\text{CoM(S)} = \left[
                \begin{array}{c}
                  +0.01885 \\
                  -0.00577 \\
                  +0.00065
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00008228413 & +0.00003978057 & -0.00000752601 \\
                          +0.00003978057 & +0.00029001445 & +0.00000152945 \\
                          -0.00000752601 & +0.00000152945 & +0.00026842331
                        \end{array}
                        \right]_R

Left Bicep

(o, R) is located on the joint: LShoulderRoll.

\text{Mass} = 0.12309

\text{CoM(S)} = \left[
                \begin{array}{c}
                  +0.01885 \\
                  +0.00577 \\
                  +0.00065
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00008228413 & -0.00003978057 & -0.00000752601 \\
                          -0.00003978057 & +0.00029001445 & -0.00000152945 \\
                          -0.00000752601 & -0.00000152945 & +0.00026842331
                        \end{array}
                        \right]_R

Right Elbow

(o, R) is located on the joint: RElbowYaw.

../../_images/hardware_relbowmass_3.3.png

\text{Mass} = 0.05971

\text{CoM(S)} = \left[
                \begin{array}{c}
                  -0.02560 \\
                  +0.00001 \\
                  -0.00019
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00000550319 & +0.00000002243 & +0.00000001534 \\
                          +0.00000002243 & +0.00006225405 & -0.00000000559 \\
                          +0.00000001534 & -0.00000000559 & +0.00006325124
                        \end{array}
                        \right]_R

Left Elbow

(o, R) is located on the joint: LElbowYaw.

\text{Mass} = 0.05971

\text{CoM(S)} = \left[
                \begin{array}{c}
                  -0.02560 \\
                  -0.00001 \\
                  -0.00019
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00000550319 & -0.00000002243 & +0.00000001534 \\
                          -0.00000002243 & +0.00006225405 & +0.00000000559 \\
                          +0.00000001534 & +0.00000000559 & +0.00006325124
                        \end{array}
                        \right]_R

Right Motorized ForeArm

(o, R) is located on the joint: RElbowRoll.

../../_images/hardware_rmotorizedforearmmass_3.3.png

\text{Mass} = 0.07724

\text{CoM(S)} = \left[
                \begin{array}{c}
                  +0.02556 \\
                  -0.00273 \\
                  +0.00096
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00002519483 & +0.00000216293 & -0.00000071846 \\
                          +0.00000216293 & +0.00008890315 & +0.00000010809 \\
                          -0.00000071846 & +0.00000010809 & +0.00008686867
                        \end{array}
                        \right]_R

Left Motorized ForeArm

(o, R) is located on the joint: LElbowRoll.

\text{Mass} = 0.07724

\text{CoM(S)} = \left[
                \begin{array}{c}
                  +0.02556 \\
                  +0.00273 \\
                  +0.00096
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00002519483 & -0.00000216293 & -0.00000071846 \\
                          -0.00000216293 & +0.00008890315 & -0.00000010809 \\
                          -0.00000071846 & -0.00000010809 & +0.00008686867
                        \end{array}
                        \right]_R

Hands - motorized

Right Motorized Hand

(o, R) is located on the joint: RWristYaw.

../../_images/hardware_rmotorizedhandmass_3.3.png

\text{Mass} = 0.16653

\text{CoM(S)} = \left[
                \begin{array}{c}
                  +0.03180 \\
                  -0.00083\\
                  +0.00477
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00006105675 & +0.00000503640 & -0.00003895369 \\
                          +0.00000503640 & +0.00027947351 & +0.00000293076 \\
                          -0.00003895369 & +0.00000293076 & +0.00027998803
                        \end{array}
                        \right]_R

Left Motorized Hand

(o, R) is located on the joint: LWristYaw.

\text{Mass} = 0.16653

\text{CoM(S)} = \left[
                \begin{array}{c}
                  +0.03180 \\
                  +0.00083\\
                  +0.00477
                \end{array}
                \right]_{(o, R)}

\left[I_o(S)\right]_R = \left[
                        \begin{array}{ccc}
                          +0.00006105675 & -0.00000503640 & -0.00003895369 \\
                          -0.00000503640 & +0.00027947351 & -0.00000293076 \\
                          -0.00003895369 & -0.00000293076 & +0.00027998803
                        \end{array}
                        \right]_R