Compressor heating system

What is claimed is: 1. A compressor heating system, comprising: a compressor including a motor, wherein the motor includes a stator winding; a compressor drive controller electrically coupled to the compressor and configured to selectively provide a pulsed direct current (DC) to the stator winding of the motor of the compressor to impart heat into the compressor to prevent refrigerant migration to the compressor; and an outdoor unit controller electrically coupled to the compressor drive controller. 2. The compressor heating system of claim 1 , wherein the outdoor unit controller is configured to run a pulse width modulation algorithm. 3. The compressor heating system of claim 1 , wherein the outdoor unit controller is configured to selectively control the compressor drive controller to cause the compressor drive controller to deliver the pulsed DC. 4. The compressor heating system of claim 1 , wherein the outdoor unit controller is configured to selectively control the compressor drive controller to cause the compressor drive controller to deliver the pulsed DC using pulse width modulation. 5. The compressor heating system of claim 1 , wherein the outdoor unit controller is configured to maintain the temperature of the compressor at least 20 degrees Fahrenheit above the ambient outdoor temperature. 6. The compressor heating system of claim 1 , wherein the pulsed DC comprises a voltage of 320 volts DC. 7. The compressor heating system of claim 6 , wherein the stator winding is configured to provide 40 watts of heat into the compressor. 8. A heating, ventilation, and/or air conditioning (HVAC) system, comprising: a compressor heating system including: a compressor including a motor, wherein the motor includes a stator winding; a compressor drive controller electrically coupled to the compressor and configured to selectively provide a pulsed direct current (DC) to the stator winding of the motor of the compressor to impart heat into the compressor to prevent refrigerant migration to the compressor; and an outdoor unit controller electrically coupled to the compressor drive controller. 9. The HVAC system of claim 8 , wherein the outdoor unit controller is configured to run a pulse width modulation algorithm. 10. The HVAC system of claim 8 , wherein the outdoor unit controller is configured to selectively control the compressor drive controller to cause the compressor drive controller to deliver the pulsed DC current. 11. The HVAC system of claim 8 , wherein the outdoor unit controller is configured to selectively control the compressor drive controller to cause the compressor drive controller to deliver the pulsed DC current using pulse width modulation. 12. The HVAC system of claim 8 , wherein the outdoor unit controller is configured to maintain the temperature of the compressor at least 20 degrees Fahrenheit above the ambient outdoor temperature. 13. The HVAC system of claim 8 , wherein the pulsed DC comprises a voltage of 320 volts DC. 14. The HVAC system of claim 8 , wherein the stator winding is configured to provide at least 40 watts of heat into the compressor. 15. A method of heating a compressor of a heating, ventilation, and/or air conditioning (HVAC) system, the method comprising: providing a compressor heating system including a compressor, wherein the compressor includes a motor and wherein the motor includes a stator winding; providing a compressor drive controller electrically coupled to the compressor, and an outdoor unit controller electrically coupled to the compressor drive controller; selectively pulsing a direct current (DC) through the stator winding of the motor of the compressor to impart heat into the compressor to prevent refrigerant migration to the compressor; and, delivering DC from the compressor drive controller to the stator winding of the motor of the compressor. 16. The method of claim 15 , wherein the outdoor unit controller is configured to selectively control the compressor drive controller to cause the compressor drive controller to deliver the pulsed DC. 17. The method of claim 16 , wherein the selectively pulsing is accomplished by running a pulse width modulation algorithm in the outdoor unit controller.