Dynamic allocation of power modules for charging electric vehicles

What is claimed is: 1. An apparatus, comprising: a housing; a plurality of power modules included within the housing, wherein each of the power modules is capable of supplying an amount of power to a dispenser; a first power bus that is coupled to a first dispenser and switchably connected to the plurality of power modules; a second power bus that is coupled to a second dispenser and switchably connected to the plurality of power modules; and a control unit that is coupled to the plurality of power modules, the first dispenser, and the second dispenser, wherein the control unit is configured to: receive instructions from one or both of the first dispenser and the second dispenser that are relayed to the plurality of power modules, wherein the relayed instructions include commands that instruct the plurality of power modules to switchably connect and disconnect from the first power bus and the second power bus to dynamically allocate the plurality of power modules between the first dispenser and the second dispenser, wherein a dynamic allocation of the plurality of power modules between the first and second dispensers is determined by the first dispenser and the second dispenser based on a set of factors including one or more properties of active charging sessions on the first and second dispensers, and wherein the properties include, for each active charging session, a duration that an electric vehicle connected to a respective one of the first and second dispensers has been charging. 2. The apparatus of claim 1 , wherein the properties of the active charging sessions further include for each active charging session a type of account associated with the active charging session. 3. The apparatus of claim 1 , wherein the properties of the active charging sessions further include for each active charging session one or more of: a duration that the electric vehicle has been parked in proximity to the respective one of the first and second dispensers, a time remaining on the active charging session, an amount of current drawn by the electric vehicle, a percentage of charge complete of the electric vehicle, a percentage of charge remaining of the electric vehicle, a battery temperature of the electric vehicle, a type of the electric vehicle, and a reservation status of the electric vehicle. 4. The apparatus of claim 1 , wherein the set of factors further includes one or more of: a maximum rate of power that can be dispensed by each of the first and second dispensers and a load supply condition. 5. The apparatus of claim 1 , wherein the control unit is further configured to transmit, to the first dispenser and the second dispenser, a status of the plurality of power modules. 6. The apparatus of claim 5 , wherein the status of the plurality of power modules specifies an amount of operating time of each of the plurality of power modules. 7. The apparatus of claim 1 , wherein the set of factors further includes a use history of the first and second dispensers, and wherein the power modules are allocated equally between the first and second dispensers during historically busy time periods. 8. A non-transitory machine-readable storage medium that stores code that, when executed by a processor, is capable of causing the processor to perform operations in a power cabinet, the operations comprising: responsive to receiving instructions from one or both of a first dispenser and a second dispenser directed to a plurality of power modules for charging electric vehicles, relay the received instructions to the plurality of power modules, wherein the relayed instructions include commands instructing the plurality of power modules to dynamically allocate power between the plurality of power modules, wherein the received instructions include: selecting the first dispenser to have one or more power modules deallocated and reallocated to the second dispenser, wherein the first dispenser is connected to the power cabinet and currently allocated at least one of the plurality of power modules, selecting to be deallocated and reallocated to the second dispenser a number of power modules from the at least one of the plurality of power modules that are currently allocated to the first dispenser, wherein the number of power modules to be deallocated and reallocated is based upon a set of factors including a duration that an electric vehicle connected to a respective one of the first and second dispensers has been charging, deallocating the selected number of power modules from the first dispenser, the deallocating including switchably disconnecting the selected number of power modules from a first power bus, and reallocating the deallocated power modules to the second dispenser, the reallocating including switchably connecting the switchably disconnected power modules to a second power bus. 9. The non-transitory machine-readable storage medium of claim 8 , wherein the set of factors further includes a type of account associated with each charging session. 10. The non-transitory machine-readable storage medium of claim 8 , wherein the set of factors further includes one or more of: a duration that the electric vehicle has been parked in proximity to the respective one of the first and second dispensers, a time remaining on each active charging session, an amount of current drawn by the electric vehicle, a percentage of charge complete of the electric vehicle, a percentage of charge remaining of the electric vehicle, a battery temperature of the electric vehicle, a type of the electric vehicle, and a reservation status of the electric vehicle. 11. The non-transitory machine-readable storage medium of claim 8 , wherein the set of factors further includes one or more of: a rate of power dispensed by each of the first dispenser and the second dispenser, and load condition information. 12. The non-transitory machine-readable storage medium of claim 8 , wherein dynamically allocating power between the plurality of power modules is further a result of a sum of a requested power draw of the first and second dispensers exceeding a maximum amount supported by the power cabinet. 13. The non-transitory machine-readable storage medium of claim 8 , wherein the deallocating the selected number of power modules from the first dispenser includes the power cabinet relaying a message from the first dispenser to at least one of the power modules to be deallocated that instructs that power module to switchably disconnect from the first power bus. 14. The non-transitory machine-readable storage medium of claim 8 , wherein the set of factors further includes a use history of the first and second dispensers, and wherein the power modules are allocated equally between the first and second dispensers during historically busy time periods.