Motor drive unit

1 .- 19 . (canceled) 20 . A motor assembly, comprising: a motor housing; an electrical motor within the motor housing and having a rotor; an end-plate disposed in-line with the motor housing, the end plate having a peripheral wall and an end wall that together at least partially define a cavity, the end-plate comprising one or more connectors that align with a terminal box on the motor housing; and a variable frequency drive electronics unit disposed within the cavity and configured to provide power to the motor, the variable frequency drive electronics unit comprising: a circuit board; and a plurality of power switching components mounted to the circuit board, wherein one or more wires of the variable frequency drive electronics unit are routed via the one or more connectors to the terminal box. 21 . The motor assembly of claim 20 , wherein the one or more connectors are spaced apart from the peripheral wall and the end wall that define the cavity. 22 . The motor assembly of claim 21 , wherein the one or more connectors are a pair of connectors. 23 . The motor assembly of claim 20 , further comprising a mid-plate disposed in-line with and proximate at least a portion of the motor housing, the mid-plate interposed between the motor housing and the end-plate. 24 . The motor assembly of claim 23 , wherein the mid-plate comprises a plurality of internal heat sink fins on an internal surface thereof that extend radially between a center of the mid-plate and a periphery of the mid-plate and are configured to direct heat to the periphery of the mid-plate. 25 . The motor assembly of claim 24 , wherein the mid-plate has an opening configured to receive at least partially therethrough the rotor, the rotor extending through a bearing assembly coupled to the mid-plate, the internal heat sink fins configured to direct heat from the rotor to the periphery of the mid-plate. 26 . The motor assembly of claim 20 , wherein the variable frequency drive electronics unit implements a matrix converter that converts an AC input signal to a converted AC output signal. 27 . The motor assembly of claim 20 , further comprising a plurality of power control components mounted to the circuit board about the center of the circuit board. 28 . The motor assembly of claim 20 , wherein the motor assembly drives a pump or rotary device. 29 . A motor assembly, comprising: a motor housing; an electrical motor within the motor housing and having a rotor; an end-plate disposed in-line with the motor housing, the end plate having a peripheral wall and an end wall that together at least partially define a cavity, the end-plate comprising a pair of spaced apart connectors for connecting to a terminal box on the motor housing; and a variable frequency drive electronics unit disposed within the cavity and configured to provide power to the motor, the variable frequency drive electronics unit comprising: a circuit board; and a plurality of power switching components mounted to the circuit board, wherein one or more wires of the variable frequency drive electronics unit are routed via the one or more connectors to the terminal box. 30 . The motor assembly of claim 29 , wherein the connectors are spaced apart from the peripheral wall and the end wall that define the cavity. 31 . The motor assembly of claim 29 , wherein each of the pair of spaced apart connectors include a channel via which the one or more wires are routed from the cavity. 32 . The motor assembly of claim 29 , further comprising a mid-plate disposed in-line with and proximate at least a portion of the motor housing, the mid-plate interposed between the motor housing and the end-plate. 33 . The motor assembly of claim 31 , wherein the mid-plate comprises a plurality of internal heat sink fins on an internal surface thereof that extend radially between a center of the mid-plate and a periphery of the mid-plate and are configured to direct heat to the periphery of the mid-plate. 34 . The motor assembly of claim 31 , wherein the mid-plate has an opening configured to receive at least partially therethrough the rotor, the rotor extending through a bearing assembly coupled to the mid-plate, the internal heat sink fins configured to direct heat from the rotor to the periphery of the mid-plate. 35 . The motor assembly of claim 29 , wherein the variable frequency drive electronics unit implements a matrix converter that converts an AC input signal to a converted AC output signal. 36 . An assembly, comprising: an end-plate housing configured to be disposed in-line with a motor housing, the end plate having a peripheral wall and an end wall that together at least partially define a cavity, the end-plate comprising one or more connectors configured for connection to a terminal box on the motor housing; and a variable frequency drive electronics unit disposed within the cavity and configured to provide power to the motor, the variable frequency drive electronics unit comprising: a circuit board; and a plurality of power switching components mounted to the circuit board; wherein one or more wires of the variable frequency drive electronics unit are routed via the one or more connectors to the terminal box. 37 . The assembly of claim 36 , wherein the one or more connectors are spaced apart from the peripheral wall and the end wall that define the cavity. 38 . The assembly of claim 36 , wherein the one or more connectors are a pair of connectors. 39 . The assembly of claim 36 , wherein the one or more connectors include a channel via which the one or more wires are routed from the cavity. 40 . The assembly of claim 36 , wherein the plurality of power switching components are distributed circumferentially about a center of the circuit board. 41 . The assembly of claim 36 , wherein the variable frequency drive electronics unit implements a matrix converter that converts an AC input signal to a converted AC output signal.