Inverter including wide-bandgap semiconductor devices in a power tool

What is claimed is: 1 . A power tool comprising: a motor; a power source; and a printed circuit board (“PCB”) electrically connected to the motor and the power source, the PCB mounted to the motor, the PCB including a plurality of wide band gap semiconductor switches configured as an inverter for controlling power supplied by the power source to the motor. 2 . The power tool of claim 1 , wherein the motor includes a frame, and wherein the PCB is mounted directly to the frame. 3 . The power tool of claim 2 , wherein the motor is configured to act as a heat sink for the inverter. 4 . The power tool of claim 1 , further comprising a heat sink, wherein the PCB is mounted to the heat sink and the heat sink is mounted to the motor. 5 . The power tool of claim 4 , wherein the heat sink is air cooled. 6 . The power tool of claim 4 , further comprising input capacitors, wherein the input capacitors and the inverter are mounted on the same side of the PCB. 7 . The power tool of claim 1 , further comprising a heat plate connected to the motor. 8 . The power tool of claim 7 , wherein the heat plate is connected to a heat pipe and the heat pipe is connected to a heat sink. 9 . The power tool of claim 8 , wherein the motor, the PCB, and the heat plate are housed in a fully-sealed construction. 10 . The power tool of claim 1 , wherein the PCB includes at least one ceramic surface mount capacitor. 11 . The power tool of claim 1 , wherein the motor is configured to rotate at 75,000 rotations per minute or more. 12 . The power tool of claim 11 , wherein the motor is configured to rotate at 100,000 rotations per minute or more. 13 . A power tool comprising: a motor; a battery pack interface configured to receive a battery pack; an inverter electrically connected to the motor and the battery pack interface, the inverter including a plurality of wide band gap semiconductor switches, the inverter configured to control power supplied by the battery pack to the motor, wherein the plurality of wide band gap semiconductor switches have an energy band gap of about 3 electronvolts (“eV”) or greater. 14 . The power tool of claim 13 , wherein the motor is configured to act as a heat sink for the inverter. 15 . The power tool of claim 13 , further comprising: a heat sink, wherein the inverter is mounted to the motor via the heat sink. 16 . The power tool of claim 13 , further comprising a heat plate connected to the motor. 17 . A power tool comprising: a motor configured to rotate at 75,000 rotations per minute or more; a power source; a printed circuit board (“PCB”) electrically connected to the motor and the power source, the PCB including: a plurality of wide band gap semiconductor switches configured as an inverter for controlling power supplied by the power source to the motor. 18 . The power tool of claim 17 , wherein the motor includes a frame, and wherein the PCB is mounted directly to the frame. 19 . The power tool of claim 17 , further comprising a heat sink, wherein the PCB is mounted to the heat sink and the heat sink is mounted to the motor. 20 . The power tool of claim 17 , further comprising a heat plate connected to the motor, wherein the heat plate is connected to a heat pipe and the heat pipe is connected to a heat sink. 21 . The power tool of claim 17 , wherein the PCB includes at least one ceramic surface mount capacitor. 22 . The power tool of claim 17 , wherein the PCB is mounted to the motor. 23 . The power tool of claim 17 , wherein the inverter is a five-level flying capacitor multilevel inverter.