The popularity of electrified transportation is rising at a sharp pace due to environmental concerns over IC engines. Researchers are nowadays looking for a brushless and permanent magnet-less solution for electric vehicle motors. Wound-field synchronous motor (WFSM) is a potential solution for EV and is being used in Renault Zoe EV and BMW iX3 e-drive model. Brushless Induction excited Synchronous Motor (BINSYM) is a WFSM where the exciter, an induction machine (IM), is embedded inside the synchronous machine (SM) frame. Two machines (SM and IM) are configured for different numbers of poles to achieve magnetic decoupling, which facilitates independent control of both machines. The purpose of IM is to maintain the excitation requirement of SM. The IM is controlled in deep-plugging mode at a constant slip frequency over the entire speed range to minimize its reactive power demand. The maximum torque per ampere (MTPA) and root mean square (rms) current minimization algorithm are used to control the SM. Simulation of the BINSYM-based system under dynamic conditions (MTPA with varying field current and load transient) has been carried out in MATLAB/Simulink to validate the control strategies. Experimental findings from the laboratory prototype machine closely match the simulation results.