BLDC motor control system and method for solar tracking motorized window treatment operation

What is claimed is: 1. A motorized shade for selectively covering an architectural opening based on a position of the sun, comprising: a roller tube; a shade material comprising and extending between a first end connected to the roller tube and a second end; and a motor drive unit operably connected to the roller tube and comprising: a motor adapted to rotate the roller tube to raise or lower the shade material between an upper limit and a lower limit, wherein the motor comprises a rotor and a stator comprising at least one phase; and a controller for controlling the motor, wherein for at least one motor phase the controller is adapted to: receive a control command to move the motor, wherein the control command is generated in response to a solar tracking algorithm; drive the motor phase according to an amplitude ramping curve comprising amplitude that increases from an initial amplitude to a startup amplitude; drive the motor phase from the startup amplitude according to a sinusoidal waveform comprising a set maximum amplitude and an initial frequency; ramp up frequency of the sinusoidal waveform from the initial frequency to the drive frequency; and drive the motor phase according to the sinusoidal waveform at the set maximum amplitude and the drive frequency to move the shade material. 2. The motorized shade of claim 1 , wherein the control command is generated by at least one of the controller that implements the solar tracking algorithm and an external control processor that implements the solar tracking algorithm, and any combinations thereof. 3. The motorized shade of claim 1 , wherein the solar tracking algorithm is adapted to determine the position of the sun based at least one selected from the group consisting of a location, a time of day, a time of year, a direction of the architectural opening, an elevation of the architectural opening from a floor, an elevation of the architectural opening from sea level, a light sensor, and any combinations thereof. 4. The motorized shade of claim 1 , wherein the received control command comprises a drive distance, wherein the controller drives the motor phase according to the sinusoidal waveform at the set maximum amplitude and the drive frequency to move the shade material by the drive distance. 5. The motorized shade of claim 4 , wherein the received control command comprises a drive speed, wherein the controller determines the drive frequency based on the drive speed. 6. The motorized shade of claim 5 , wherein at least one of the drive distance and the drive speed is determined based on at least one parameter of the motorized shade or the architectural opening, wherein the at least one parameter of the motorized shade or the architectural opening comprises at least one selected from the group consisting of a size of architectural opening, an elevation of the architectural opening from a floor, an elevation of the architectural opening from sea level, a size of the shade material, a weight of the shade material, a determined angle of the architectural opening with respect to the sun, a distance of how far light should enter a space, a position of the shade material between the upper and the lower limit, and any combinations thereof. 7. The motorized shade of claim 1 , wherein for each motor phase the controller is adapted to determine the startup amplitude based on prior recorded position of the rotor with respect to the stator. 8. The motorized shade of claim 7 , wherein the motor drive unit further comprises at least one position detector adapted to detect the position of the rotor with respect to the stator. 9. The motorized shade of claim 1 , wherein the amplitude ramping curve comprises at least one selected from the group consisting of a linear curve, a non-linear curve, a positive logarithmic curve, a negative logarithmic curve, and any combinations thereof. 10. The motorized shade of claim 1 , wherein at least one of the initial amplitude and the initial frequency comprises zero, a nominal value, or any combination thereof. 11. The motorized shade of claim 1 , wherein the controller ramps up the frequency of the sinusoidal waveform according to a frequency ramping curve. 12. The motorized shade of claim 11 , wherein the frequency ramping curve comprises at least one selected from the group consisting of a linear curve, a non-linear curve, a positive logarithmic curve, a negative logarithmic curve, and any combinations thereof. 13. The motorized shade of claim 1 , wherein after driving the motor phase to move the shade material, the controller is further adapted to: reduce the frequency of the sinusoidal waveform from the drive frequency to an end frequency; and drive the motor phase according to an amplitude relaxing curve comprising amplitude that decreases from a wind down amplitude to an end amplitude. 14. The motorized shade of claim 13 , wherein for each motor phase the controller is adapted to determine the wind down amplitude based on a then determined current position of the rotor with respect to the stator. 15. The motorized shade of claim 14 , wherein the motor drive unit further comprises at least one position detector adapted to detect the position of the rotor with respect to the stator. 16. The motorized shade of claim 13 , wherein the amplitude relaxing curve comprises at least one selected from the group consisting of a linear curve, a non-linear curve, a positive logarithmic curve, a negative logarithmic curve, and any combinations thereof. 17. The motorized shade of claim 13 , wherein at least one of the end amplitude and the end frequency comprises zero. 18. The motorized shade of claim 13 , wherein the controller reduces the frequency of the sinusoidal waveform according to a frequency wind down curve. 19. The motorized shade of claim 18 , wherein the frequency wind down curve comprises at least one selected from the group consisting of a linear curve, a non-linear curve, a positive logarithmic curve, a negative logarithmic curve, and any combinations thereof. 20. The motorized shade of claim 1 , wherein the controller is further adapted to determine the startup amplitude based on a previously converged to amplitude of the motor phase. 21. The motorized shade of claim 1 , wherein the set maximum amplitude is determined based on at least one selected from the group consisting of a parameter of the motor, a maximum level of torque anticipated to be driven by the motor, a load parameter on the motor of the motorized shade, and any combinations thereof. 22. The motorized shade of claim 21 , wherein the load parameter comprises at least one selected from the group consisting of a size of the shade material, a weight of the shade material, a size of a hem bar attached to the shade material, a weight of the hem bar, and any combinations thereof. 23. A motorized shade for selectively covering an architectural opening based on a position of the sun, comprising: a roller tube; a shade material comprising and extending between a first end connected to the roller tube and a second end; and a motor drive unit operably connected to the roller tube and comprising: a motor adapted to rotate the roller tube to raise or lower the shade material between an upper limit and a lower limit, wherein the motor comprises a rotor and a stator comprising at least one phase; and a controller for controlling the motor, wherein for at least one motor phase the controller is adapted to: receive a contr