Battery management system and method for extending time until a battery reaches an over-discharged state during storage of an information handling system

What is claimed is: 1 . A computer implemented method to extend a time until a battery reaches an over-discharged state during storage of an information handing system, the method comprising: determining if a first battery parameter is outside an associated first battery parameter specification; in response to the first battery parameter being outside the associated first battery parameter specification, a power management controller turning off a charge/discharge field effect transistor (FET), wherein turning off the charge/discharge FET reduces power consumption and extends the time until the battery reaches the over-discharged state; determining if the first battery parameter is outside an associated second battery parameter specification; and in response to the first battery parameter being outside the associated second battery parameter specification, triggering the controller to enter into a minimum power state, wherein the controller entering into the minimum power state further reduces power consumption and further extends the time until the battery reaches the over-discharged state. 2 . The method of claim 1 , further comprising: monitoring a first elapsed time after a last detected system management bus communication; comparing the first elapsed time to a first elapsed time threshold; in response to the first elapsed time being greater than the first elapsed time threshold, retrieving the first battery parameter; monitoring a second elapsed time after a last detected system management bus communication; comparing the second elapsed time to a second elapsed time threshold; and in response to the second elapsed time being greater than the second elapsed time threshold, triggering the controller to enter the storage mode. 3 . The method of claim 1 , wherein the first battery parameter comprises at least one of a battery charge value, a battery capacity value, a battery voltage value and the first elapsed time. 4 . The method of claim 1 , wherein the first battery parameter specification comprises at least one of a battery charge threshold, a battery capacity threshold, a battery voltage threshold, a first battery elapsed time threshold, and a second battery elapsed time threshold. 5 . The method of claim 1 , further comprising: determining if another system management bus communication has occurred; and in response to the other system management bus communication occurring, triggering the power management controller to exit the minimum power state and enter into an on state. 6 . The method of claim 1 , further comprising: determining if a power switch has been cycled; and in response to the power switch being cycled, triggering the power management controller to exit the minimum power state and enter into an on state. 7 . The method of claim 1 , further comprising: determining if the battery has been disconnected from the information handling system for greater than a first time period; in response to the battery being disconnected for greater than the first time period, determining if the battery has been reconnected; and in response to the battery being reconnected, triggering the power management controller to exit the minimum power state and enter an on state. 8 . A battery management system for extending a time until a battery reaches an over-discharged state during storage, the battery management system comprising: a battery; a charge/discharge field effect transistor coupled to the battery; a power management controller coupled to the battery and to the charge/discharge field effect transistor (FET), the controller having firmware executing thereon to enable extending the time until the battery reaches the over-discharged state, wherein the firmware configures the controller to: determine if a first battery parameter is outside an associated first battery parameter specification; in response to the first battery parameter being outside the associated first battery parameter specification, turn off the charge/discharge FET, wherein turning off the charge/discharge FET reduces power consumption and extends the time until the battery reaches the over-discharged state; determine if the first battery parameter is outside an associated second battery parameter specification; and in response to the first battery parameter being outside the associated second battery parameter specification, trigger the controller to enter into a minimum power state, wherein the controller entering into the minimum power state further reduces power consumption and further extends the time until the battery reaches an over-discharged state. 9 . The battery management system of claim 8 , wherein the firmware further configures the power management controller to: monitor a first elapsed time after a last detected system management bus communication; compare the first elapsed time to a first elapsed time threshold; in response to the first elapsed time being greater than the first elapsed time threshold, retrieve the first battery parameter; monitor a second elapsed time after a last detected system management bus communication; compare the second elapsed time to a second elapsed time threshold; and in response to the second elapsed time being greater than the second elapsed time threshold, trigger the power management controller to enter the storage mode. 10 . The battery management system of claim 8 , wherein the first battery parameter comprises at least one of a battery charge value, a battery capacity value, a battery voltage value and the first elapsed time. 11 . The battery management system of claim 8 , wherein the first battery parameter specification comprises at least one of a battery charge threshold, a battery capacity threshold, a battery voltage threshold, a first battery elapsed time threshold, and a second battery elapsed time threshold. 12 . The battery management system of claim 8 , wherein the firmware further configures the power management controller to: determine if another system management bus communication has occurred; and in response to the other system management bus communication occurring, trigger the power management controller to exit the minimum power state and enter into an on state. 13 . The battery management system of claim 8 , wherein the firmware further configures the power management controller to: determine if a power switch has been cycled; and in response to the power switch being cycled, trigger the power management controller to exit the minimum power state and enter into an on state. 14 . The battery management system of claim 8 , wherein the firmware further configures the power management controller to: determine if the battery has been disconnected from the information handling system for greater than a first time period; in response to the battery being disconnected for greater than the first time period, determine if the battery has been reconnected; and in response to the battery being reconnected, trigger the power management controller to exit the minimum power state and enter an on state. 15 . An information handling system (IHS) comprising: a battery operable to supply power to the information handling system; a charge/discharge field effect transistor (FET) coupled to the battery; a power management controller coupled to the battery and to the charge/discharge field effect transistor, the controller having firmware executing thereon to enable extending the time until the battery reaches an over-discharged state during storage, wherein the firmware configures the power management controlle