Aftertreatment heater power electronics

What is claimed is: 1 . An aftertreatment system of a vehicle, comprising: an electric heater device; a power converter structured to provide power to the electric heater device, the power converter including at least one phase converter, each phase converter including: a first plurality of switching devices coupled together in parallel; and a second plurality of switching devices coupled together in parallel, wherein the second plurality of switching devices is coupled in series with the first plurality of switching devices, and wherein a number of the first plurality of switching devices is different from a number of the second plurality of switching devices. 2 . The aftertreatment system of claim 1 , further comprising: a converter controller structured to apply a first duty cycle to the first plurality of switching devices and a second duty cycle to the second plurality of switching devices. 3 . The aftertreatment system of claim 2 , wherein the first duty cycle is a 25% duty cycle and the second duty cycle is a 75% duty cycle. 4 . The aftertreatment system of claim 2 , wherein the controller applies the first duty cycle and the second duty cycle independently. 5 . The aftertreatment system of claim 2 , wherein the controller applies the first duty cycle and the second duty cycle such that the first plurality of switching devices is on when the second plurality of switching devices is off, and the first plurality of switching devices is off when the second plurality of switching devices is on. 6 . The aftertreatment system of claim 1 , wherein: each of the first plurality of switching devices are coupled together in parallel between an input terminal of the power converter and an output terminal of the power converter; and each of the second plurality of switching devices are coupled together in parallel between the output terminal and a ground. 7 . The aftertreatment system of claim 6 , wherein the power converter is structured to receive power having a first voltage at the input terminal, decrease the first voltage to a second voltage, and provide a converted power having the second voltage at the output terminal. 8 . The aftertreatment system of claim 1 , wherein the electric heater device includes a resistive heater. 9 . The aftertreatment system of claim 1 , wherein the number of the first plurality of switching devices is greater than the number of the second plurality of switching devices. 10 . The aftertreatment system of claim 1 , wherein a ratio of the number of the first plurality of switching devices to the number of the second plurality of switching devices is 2:1. 11 . The aftertreatment system of claim 3 , wherein the number of the first plurality of switching devices is four, and the number of the second plurality of switching devices is two. 12 . The aftertreatment system of claim 1 , wherein the power converter includes a plurality of the phase converters. 13 . The aftertreatment system of claim 12 , wherein the power converter includes four or six of the phase converters. 14 . The aftertreatment system of claim 12 , wherein the power converter is structured to operate a subset of the plurality of phase converters in response to at least one of a converter condition or a condition of the electric heater device. 15 . The aftertreatment system of claim 14 , wherein: the power converter is structured to operate the subset of the plurality of phase converters in response to the converter condition; and the converter condition is based on at least one of a current balance threshold or a ripple threshold. 16 . The aftertreatment system of claim 14 , wherein the power converter is structured to time shift a duty cycle for one phase converter of the plurality of phase converters relative to a duty cycle of another phase converter of the plurality of phase converters. 17 . The aftertreatment system of claim 1 , wherein each of the first plurality of switching devices and each of the second plurality of switching devices is a field effect transistor (FET).