Method and system for control of a hybrid power system for powering a transport climate control system

What is claimed is: 1 . A method for controlling a power system that powers a load, the power system including a prime mover, an electrical machine coupled to the prime mover, a battery source, an inverter coupled to the battery source, and a power system controller configured to control operation of the power system, the method comprising: monitoring a power demand on the power system from the load; comparing the monitored power demand with a load threshold value; determining that the monitored power demand is less than the load threshold value; and upon determining that the monitored power demand is less than the load threshold value: inactivating the prime mover, and instructing the battery source with the inverter to supply power to the load. 2 . The method of claim 1 , further comprising determining that the monitored power demand is not less than the load threshold value; and upon determining that the monitored power demand is not less than the load threshold value instructing the prime mover with the electrical machine to supply power to the load. 3 . The method of claim 2 , wherein, upon determining that the monitored power demand is not less than the load threshold value, the electrical machine sending power to the battery source for charging the battery source 4 . The method of claim 1 , wherein the power system is a generator set, the prime mover is a diesel engine configured to provide mechanical power to the electrical machine, and the electrical machine is a three phase alternating current (AC) generator that is configured to convert the mechanical power from the diesel engine into three phase AC electrical power. 5 . The method of claim 1 , wherein the load is a transport climate control system that includes a compressor configured to compress a working fluid. 6 . The method of claim 1 , wherein monitoring the power demand on the power system from the load includes monitoring a percent prime mover load indicating a percentage of peak available torque of the prime mover, and wherein comparing the monitored power demand with a load threshold value includes comparing the monitored percent prime mover load to a percent prime mover load threshold. 7 . The method of claim 6 , wherein the percent prime mover load threshold is twenty percent. 8 . A power system for supplying power to a load, the power system comprising: a prime mover configured to generate mechanical power; an electrical machine coupled to the prime mover, wherein the electrical machine is configured to convert the mechanical power from the prime mover into a first electrical power for powering the load; a battery source configured to supply a second electrical power to the inverter; an inverter coupled to the battery source, wherein the inverter is configured to convert the second electrical power from the battery source into the first electrical power that is supplied to the load; and a power system controller configured to control operation of the power system, wherein the power system controller is configured to: monitor a power demand on the power system from the load, compare the monitored power demand with a load threshold value, determine whether the monitored power demand is less than the load threshold value, and upon determination that the monitored power demand is less than the load threshold value: inactivate the prime mover, and instruct the battery source with the inverter to supply the first electrical power to the load. 9 . The power system of claim 8 , wherein the power system controller is configured to, upon determination that the monitored power demand is not less than the load threshold value, instruct the prime mover with the electrical machine to supply the first electrical power to the load. 10 . The power system of claim 8 , further comprising a battery management system configured to convert the first electrical power into the second electrical power, wherein the power system controller is configured to, upon determination that the monitored power demand is not less than the load threshold value: instruct the electrical machine to send the first electrical power to the battery management system, instruct the battery management system to convert the first electrical power into the second electrical power, and instruct the battery management system to send the second electrical power to the battery source for charging the battery source. 11 . The power system of claim 8 , wherein the power system is a generator set, the prime mover is a diesel engine configured to provide mechanical power to the electrical machine, and the electrical machine is a generator that is configured to convert the mechanical power from the diesel engine into the first electrical power. 12 . The power system of claim 8 , wherein the load is a transport climate control system that includes a compressor configured to compress a working fluid. 13 . The power system of claim 8 , wherein the power system controller being configured to monitor the power demand on the power system from the load includes the power system controller being configured to monitor a percent prime mover load indicating a percentage of peak available torque of the prime mover, and wherein the power system controller being configured to compare the monitored power demand with a load threshold value includes the power system controller being configured to compare the monitored percent prime mover load to a percent prime mover load threshold. 14 . The power system of claim 13 , wherein the percent prime mover load threshold is twenty percent. 15 . The power system of claim 8 , wherein the first electrical power is a three phase alternating current (AC) electrical power and the second electrical power is a single phase direct current (DC) electrical power.