Dynamic generator voltage control for high power drilling and logging-while-drilling

What is claimed is: 1. A power generation system for a drilling tool, comprising: a turbine adapted to be driven by a fluid flow in a well; an alternator coupled to the turbine and to generate an alternative current (AC); a first converter to convert the AC to direct current (DC) and to carry out active rectification; a capacitor bank coupled to the first converter; a second converter coupled to the capacitor bank and carrying out an active rectification; a load of the drilling tool coupled to the second converter; a first active rectifier control (ARC) to control the active rectification of the first converter, wherein the first ARC controls the active rectification based on the AC and a winding temperature from the alternator and the DC from the first converter; and a first resolver associated with the alternator, wherein the first ARC controls the active rectification further based on a feedback from the first resolver, wherein the first ARC controls the active rectification further based on regenerated energy from the load. 2. The power generation system of claim 1 , wherein the first ARC comprises a space and position estimator that estimates a back-electromotive force (EMF). 3. The power generation system of claim 2 , wherein the first ARC automatically controls the rectifying further based on a back-electromotive force (EMF) estimation. 4. The power generation system of claim 1 , further comprising a second ARC that controls the active rectification of the second converter. 5. The power generation system of claim 4 , wherein the second ARC controls the active rectification of the second converter based on a DC output from the second converter. 6. The power generation system of claim 5 , wherein the load comprises a motor and a second resolver associated with the motor, and wherein the second ARC controls the active rectification of the second converter further based on a feedback from the second resolver and a winding temperature from the motor. 7. The power generation system of claim 6 , wherein the first and second converters comprise a pulse width modulation (PWM) rectifier that carries out the active rectification. 8. The power generation system of claim 5 , wherein the second ARC comprises a motor or tool face control. 9. The power generation system of claim 5 , wherein the second ARC comprises a space and position estimator that estimates one or more of a rotor flux and a rotor position. 10. The power generation system of claim 1 , wherein the first converter is an AC to DC converter and the second converter is one of a DC to AC converter and a DC to DC converter. 11. A power generation method for a drilling tool, comprising: spinning a turbine of the drilling tool using a fluid flow within a well, the turbine coupled to an alternator; converting mechanical energy generated by the spinning of the turbine to electrical energy comprising a first alternating current (AC) at the alternator; rectifying the first AC to convert to a direct current (DC); and automatically controlling the rectifying based on the first AC, the DC and a winding temperature of the alternator. 12. The power generation method of claim 11 , wherein the rectifying is automatically controlled further based on a feedback from a resolver associated to the alternator. 13. The power generation method of claim 12 , further comprising: converting the DC to a second AC; powering a motor of the drilling tool with the second AC; and automatically controlling the converting the DC to the second AC based on the first AC and a winding temperature of the motor. 14. The power generation method of claim 13 , wherein the DC is converted to the second AC further based on a feedback from a second resolver associated with the motor. 15. The power generation method of claim 14 , wherein the DC is converted to the second AC further based on a back-EMF estimation. 16. The power generation method of claim 11 , wherein the rectifying is automatically controlled further based on regenerated energy from a load of the drilling tool.