Vehicle refrigerated compartment and method of controlling

What is claimed is: 1. A vehicle, comprising: a vehicle motor; a vehicle battery system; a refrigerated compartment comprising a chamber having an access opening; a door coupled with the refrigerated compartment and moveable between open and closed positions relative to the access opening; a weight sensor associated with the chamber that provides an output signal indicative of a weight of an item placed within the chamber; a powered cooling system fluidly coupled with the chamber; and a controller that controls a supply of power from the vehicle battery system to the cooling system based on at least one output signal received from a vehicle component, and wherein the controller further controls the supply of power to the cooling system based on the output signal from the weight sensor. 2. The vehicle of claim 1 , wherein the vehicle component comprises a navigation system of the vehicle that provides location and/or drive route information. 3. The vehicle of claim 1 , further comprising: a lift gate, and wherein the vehicle component comprises a sensor that provides an output signal indicative of an open or closed status of the lift gate, and wherein the controller controls the supply of power from the vehicle battery system to the cooling system based on the output signal from the sensor. 4. The vehicle of claim 1 , wherein the vehicle component comprises a sensor that provides an output signal indicative of a charge status of the vehicle battery system, and wherein the controller controls the supply of power from the vehicle battery system to the cooling system based on the output signal from the sensor. 5. The vehicle of claim 1 , wherein the vehicle component comprises at least one temperature sensor one of detects a body temperature of an occupant of the vehicle, detects a temperature of a passenger compartment of the vehicle, or both, and wherein the controller controls the supply of power from the vehicle battery system to the cooling system based on an output signal from the temperature sensor. 6. The vehicle of claim 1 , wherein the vehicle component comprises an electrical component that provides an output signal indicative of a power consumption of the cooling system, and wherein the controller controls the supply of power from the vehicle battery system to the cooling system based on the output signal from the electrical component. 7. A vehicle, comprising: a vehicle motor; a vehicle battery system; a refrigerated compartment comprising a chamber having an access opening; a door coupled with the refrigerated compartment and moveable between open and closed positions relative to the access opening; a door sensor that provides an output signal when the door is moved between the open and closed positions; a weight sensor associated with the chamber that provides an output signal indicative of a weight of an item placed within the chamber; a powered cooling system fluidly coupled with the chamber; and a controller communicably coupled with the door sensor, wherein the controller controls a supply of power from the vehicle battery system to the cooling system based on the output signal received from the door sensor, and wherein the controller further controls the supply of power to the cooling system based on the output signal from the weight sensor. 8. The vehicle of claim 7 , wherein the controller controls a supply of power from the vehicle battery system to the cooling system based on a length of time the cooling system draws power from the vehicle battery system subsequent to receiving the output signal from the door sensor. 9. The vehicle of claim 7 , further comprising: a vehicle battery sensor that provides an output signal indicative of a state of charge of the vehicle battery system, and wherein the controller controls a supply of power from the vehicle battery system to the cooling system based on the output signal received from the vehicle battery sensor. 10. The vehicle of claim 7 , wherein the cooling system comprises a compressor, and wherein the controller controls a supply of power from the vehicle battery system to the cooling system based on a length of time the compressor is operating. 11. The vehicle of claim 7 , wherein the controller maintains the supply of power to the cooling system when the vehicle motor is stopped when the following condition is satisfied: the cooling system has been operating for a time period less than a first threshold value. 12. The vehicle of claim 11 , further wherein the controller maintains the supply of power to the cooling system when the vehicle motor is stopped when the following conditions are satisfied: a state of charge of the vehicle battery system is above a second threshold value; and an elapsed time period since the vehicle motor was stopped is less than a third threshold value. 13. A method of controlling a refrigerated compartment in a vehicle, the method comprising: supplying power from a vehicle battery system of the vehicle to a powered cooling system of the refrigerated compartment; cooling a chamber of the refrigerated compartment with the cooling system; measuring a weight of an item placed within the chamber with a weight sensor that generates an output signal indicative of the weight; receiving, by a controller of the vehicle, at least one output signal from at least one vehicle component; and controlling the supply of power from the vehicle battery system to the cooling system based on the at least one output signal received by the controller from the at least one vehicle component, and further based on the output signal form the weight signal. 14. The method of claim 13 , wherein the receiving, by a controller of the vehicle, at least one output signal comprises receiving an output signal by the controller indicative of an elapsed time period that the cooling system has been operating since a door of the storage chamber was moved between open and closed positions. 15. The method of claim 14 , wherein the controlling the supply of power comprises continuing to supply power to the cooling system when a motor of the vehicle is stopped when at least one of the following conditions are satisfied: the elapsed time period that the cooling system has been operating since the door was moved between open and closed positions is less than a first threshold value; a state of charge of the vehicle battery system is above a second threshold value; and an elapsed time period since the vehicle motor was stopped is less than a third threshold value. 16. The method of claim 13 , wherein the receiving, by a controller of the vehicle, at least one output signal comprises receiving an output signal indicative of a lift gate of the vehicle being in an open position. 17. The method of claim 13 , wherein the receiving, by a controller of the vehicle, at least one output signal comprises receiving an output signal indicative of a geographical location of the vehicle. 18. The method of claim 13 , further comprising: receiving an input from a user regarding a destination of the vehicle, and wherein the receiving, by a controller of the vehicle, at least one output signal comprises receiving an output signal indicative of a distance of the vehicle from the destination. 19. The method of claim 13 , further comprising: determining a temperature of at least one occupant of the vehicle, and wherein the receiving, by a controller of the vehicle, at least one output signal comprises receiving an output signal indicative of a temperat