Integrated power stages in power tool motor drive

What is claimed is: 1 . A power tool comprising: a motor; a power input; a switching network electrically connected between the power input and the motor, the switching network including an integrated circuit including a switching element and a gate driver for the switching element; and an electronic controller electrically connected to the switching network and configured to operate the motor by providing control signals to the integrated circuit. 2 . The power tool of claim 1 , wherein the integrated circuit includes an output electrically connected to a terminal of the motor. 3 . The power tool of claim 1 , wherein the switching network is a three-phase inverter and includes a plurality of integrated circuits, the plurality of integrated circuits including three high-side switching elements and three low-side switching elements and corresponding plurality of gate drivers, wherein the integrated circuit is one of the plurality of integrated circuits, and wherein the switching element is one of the three high-side switching elements or the three low-side switching elements. 4 . The power tool of claim 1 , wherein the integrated circuit includes a drain terminal connected to a drain of the switching element, a source terminal connected to a source of the switching element, a control terminal connected to a control input of the gate driver, and a power supply terminal connected to a power supply input of the gate driver, wherein the control terminal is electrically connected to an output pin of the electronic controller, and the power supply terminal is electrically connected to a housekeeping power supply. 5 . The power tool of claim 4 , wherein the drain terminal is electrically connected to a positive bus of the power input and the source terminal is electrically connected to a motor terminal. 6 . The power tool of claim 4 , wherein the source terminal is electrically connected to a negative bus of the power input and the drain terminal is electrically connected to a motor terminal. 7 . The power tool of claim 1 , wherein the integrated circuit is a first integrated circuit, wherein the switching element is a first high-side wide bandgap semiconductor field effect transistor (FET), wherein the gate driver is a first high-side gate driver, wherein the switching network is a the three-phase inverter including the first integrated circuit, a second integrated circuit, and a third integrated circuit, wherein the first integrated circuit further includes a first low-side wide bandgap semiconductor FET and a first low-side gate driver for the first low-side wide bandgap semiconductor FET, wherein the second integrated circuit includes a second high-side wide bandgap semiconductor FET, a second high-side gate driver for the second high-side wide bandgap semiconductor FET, a second low-side wide bandgap semiconductor FET, and a second low-side gate driver for the second low-side wide bandgap semiconductor FET, and wherein the third integrated circuit includes a third high-side wide bandgap semiconductor FET, a third high-side gate driver for the third high-side wide bandgap semiconductor FET, a third low-side wide bandgap semiconductor FET, and a third low-side gate driver for the third low-side wide bandgap semiconductor FET. 8 . The power tool of claim 7 , wherein the first integrated circuit includes a positive bus terminal, a negative bus terminal, a first control terminal for the first high-side gate driver, a second control terminal for the first low-side gate driver, a power supply terminal, and a pole terminal, the first high-side wide bandgap semiconductor FET is connected between the positive bus terminal and the pole terminal and the first low-side wide bandgap semiconductor FET is connected between the pole terminal and the negative bus terminal, and wherein the positive bus terminal is electrically connected to a positive bus of the power input and the negative bus terminal is electrically connected to negative bus of the power input. 9 . The power tool of claim 7 , further comprises: input circuitry electrically connected between the electronic controller and the switching network, the input circuitry configured to: receive control signals from the electronic controller and provide the control signals to the first integrated circuit, the second integrated circuit, and the third integrated circuit. 10 . The power tool of claim 9 , further comprises: output circuitry electrically connected between the switching network and the motor, the output circuitry configured to receive outputs from the first integrated circuit, the second integrated circuit, and the third integrated circuit and provide the outputs to the motor. 11 . The power tool of claim 1 , wherein the switching element is a Gallium Nitride Enhancement Mode High Electron Mobility Transistor (GaN E-HEMT). 12 . The power tool of claim 1 , wherein the switching network includes a plurality of integrated circuits connected in parallel between the power input and one terminal of the motor, wherein the plurality of integrated circuits includes the integrated circuit. 13 . A motor drive for a power tool, the motor drive comprising: a power bus; a switching network electrically connected to the power bus and including an integrated circuit including a switching element and a gate driver for the switching element; and an electronic controller electrically connected to the switching network and configured to operate the switching element by providing control signals to the integrated circuit. 14 . The motor drive of claim 13 , wherein the switching network is a three-phase inverter and includes a plurality of integrated circuits, the plurality of integrated circuits including three high-side switching elements and three low-side switching elements and corresponding plurality of gate drivers, wherein the integrated circuit is one of the plurality of integrated circuits, and wherein the switching element is one of the three high-side switching elements or the three low-side switching elements. 15 . The motor drive of claim 13 , wherein the integrated circuit includes a drain terminal connected to a drain of the switching element, a source terminal connected to a source of the switching element, a control terminal connected to a control input of the gate driver, and a power supply terminal connected to a power supply input of the gate driver, wherein the control terminal is electrically connected to an output pin of the electronic controller, and the power supply terminal is electrically connected to a housekeeping power supply. 16 . The motor drive of claim 15 , wherein the drain terminal is electrically connected to a positive bus of the power bus and the source terminal is electrically connected to a phase terminal of a motor. 17 . The motor drive of claim 15 , wherein the source terminal is electrically connected to a negative bus of the power bus and the drain terminal is electrically connected to a phase terminal of a motor. 18 . The motor drive of claim 13 , wherein the integrated circuit is a first integrated circuit, wherein the switching element is a first high-side wide bandgap semiconductor field effect transistor (FET), wherein the gate driver is a first high-side gate driver, wherein the switching network is a the three-phase inverter including the first integrated circuit, a second integrated circuit, and a third integrated circuit, wherein the first integrated circuit further includes a first low-side wide bandgap semiconductor FET and