Solar hybrid battery for powering network devices over extended time intervals

What is claimed is: 1 . A network device for installation at a geographic location, comprising: a rechargeable power cell having a first maximum storage capacity that stores a storage energy that is approximately 10 percent greater than a first amount of energy, wherein the first amount of energy comprises energy that is necessary to power the network device when performing network communications with one or more network devices over a wireless network during a longest night of a year at the geographic location without the rechargeable power cell being fully depleted; and a solar panel having a power generation rate that generates, within every day at the geographic location for which solar irradiance is 15% of an average amount of daytime solar irradiance at the geographic location, a second amount of energy that is sufficient to power the network device plus generate the first amount of energy. 2 . The network device of claim 1 , wherein the first amount of energy is insufficient to power the network device during two consecutive nights of the year at the geographic location. 3 . The network device of claim 1 , wherein the rechargeable power cell has an operational lifetime of at least 20 years. 4 . The network device of claim 1 , further comprising a voltage limiter that is coupled between the solar panel and the rechargeable power cell; wherein the voltage limiter is configured to: electrically isolate the solar panel from the rechargeable power cell during nights at the geographic location, and restrict a voltage level associated with the generated second amount of energy. 5 . The network device of claim 1 , further comprising a primary power cell configured to supplement power provided by the rechargeable power cell and the solar panel. 6 . A system comprising: a network subsystem configured to communicate with one or more network devices over a wireless network; and a power subsystem comprising: a rechargeable battery having a maximum storage capacity that stores a storage energy that is approximately 10 percent greater than a first amount of energy, wherein the first amount of energy comprises an energy that is necessary to power the network subsystem when performing network communications during a longest night of a year in a geographic region where the system is located without the rechargeable battery becoming fully depleted; and a solar power generation subsystem having a power generation rate that generates, within every day at the geographic region for which solar irradiance is 15% of an average amount of daytime solar irradiance in the geographic region where the system is located, a second amount of energy that is sufficient to power the network subsystem plus generate the first amount of energy. 7 . The system of claim 6 , wherein the solar power generation subsystem comprises one or more solar panels. 8 . The system of claim 6 , wherein the first amount of energy is insufficient to power the network subsystem during two consecutive nights of the year in the geographic region. 9 . The system of claim 6 , wherein the power subsystem comprises a primary battery configured to supply energy for at least one of: recharging the rechargeable battery when the solar power generation subsystem does not generate power for a threshold amount of time; powering the network subsystem during a temporary increase in power consumption by the network subsystem; powering the network subsystem when the network subsystem is downloading a firmware update; powering the network subsystem to prevent the rechargeable battery from becoming fully depleted; or powering the network subsystem when the network subsystem sends one or more status updates to another system. 10 . An energy supply system, comprising: one or more solar panels; and a rechargeable power cell having a first maximum storage capacity that stores a storage energy that is approximately 10 percent greater than a first amount of energy, wherein the first amount of energy comprises energy that is necessary to power a node when performing network communications with one or more network devices in a wireless network during a longest expected night at a location of the one or more solar panels without fully depleting the rechargeable power cell; wherein the one or more solar panels have a power generation rate that generates, within every day at the location of the one or more solar panels for which solar irradiance is 15% of an average amount of daytime solar irradiance at the location of the one or more solar panels, a second amount of energy that is sufficient to power the node plus generate the first amount of energy. 11 . The energy supply system of claim 10 , wherein the first amount of energy is insufficient to power the node during two consecutive nights at the location of the one or more solar panels. 12 . The energy supply system of claim 10 , further comprising an isolator coupled between the one or more solar panels and the rechargeable power cell, the isolator being configured to electrically isolate the one or more solar panels from the rechargeable power cell when the one or more solar panels are not generating power. 13 . The energy supply system of claim 10 , further comprising a voltage limiter coupled between the one or more solar panels and the rechargeable power cell, the voltage limiter being configured to control a voltage of the power generated by the one or more solar panels. 14 . The energy supply system of claim 10 , further comprising a primary power cell configured to supplement power provided to the node by the rechargeable power cell and the one or more solar panels.