Networkable sonar systems and methods

What is claimed is: 1. A system comprising: a sonar transducer assembly including a transducer module and a housing adapted to be mounted to a mobile structure; sonar electronics disposed within the housing and configured to control operation of the sonar transducer assembly, wherein the sonar electronics are configured to: generate an acoustic ensonification; receive acoustic returns, corresponding to the generated acoustic ensonification, from the transducer module; generate sonar data based, at least in part, on the acoustic returns; and transmit the sonar data to a logic device of the mobile structure over, at least in part, an Ethernet connection; and a second sonar transducer assembly including a second transducer module, a second housing adapted to be mounted to the mobile structure, and a second sonar electronics disposed within the second housing and configured to control operation of the second sonar transducer assembly, wherein: the sonar transducer assembly and the second sonar transducer assembly are configured to receive an ensonification schedule from the logic device over, at least in part, the Ethernet connection; and the ensonification schedule comprises at least first ensonification characteristics directing the sonar transducer assembly to generate the acoustic ensonification at a first ensonification time and second ensonification characteristics directing the second sonar transducer assembly to generate a second acoustic ensonification at the first ensonification time or at a second ensonification time different from the first ensonification time; and/or the ensonification schedule comprises at least first ensonification characteristics directing the sonar transducer assembly to receive the acoustic returns during a first receiver time period and second ensonification characteristics directing the second sonar transducer assembly to receive second acoustic returns during the first receiver time period or at a second receiver time period different from the first receiver time period. 2. The system of claim 1 , wherein: the transducer module comprises a single sonar transducer, multiple independent single sonar transducers, or an array of sonar transducers. 3. The system of claim 1 , wherein: the second transducer module comprises a single sonar transducer, multiple independent single sonar transducers, or an array of sonar transducers. 4. The system of claim 1 , wherein: the ensonification schedule comprises at least first ensonification characteristics directing the sonar transducer assembly to generate the acoustic ensonification at a first ensonification time and second ensonification characteristics directing the second sonar transducer assembly to generate a second acoustic ensonification at the first ensonification time or at a second ensonification time different from the first ensonification time. 5. The system of claim 1 , wherein: the ensonification schedule comprises at least first ensonification characteristics directing the sonar transducer assembly to receive the acoustic returns during a first receiver time period and second ensonification characteristics directing the second sonar transducer assembly to receive second acoustic returns during the first receiver time period or at a second receiver time period different from the first receiver time period. 6. The system of claim 1 , further comprising one or more additional sonar transducer assemblies, wherein: the sonar transducer assembly and the one or more additional sonar transducer assemblies are configured to transmit corresponding sonar data to one or more user interfaces of the mobile structure over, at least in part, corresponding Ethernet connections. 7. The system of claim 6 , wherein: the sonar transducer assembly and the one or more additional sonar transducer assemblies comprise Ethernet PHYs configured to support a Precision Time Protocol to synchronize operation of their respective transducer modules over, at least in part, the Ethernet connection. 8. The system of claim 1 , wherein: the sonar electronics comprises a water temperature sensor, a transducer temperature sensor, a water speed sensor, and/or and orientation and/or position sensor. 9. The system of claim 1 , further comprising a user interface configured to display the sonar data to a user of the watercraft, wherein: the mobile structure comprises a watercraft; the Ethernet connection comprises a power over Ethernet connection; and the sonar electronics are configured to receive power from the power over Ethernet connection. 10. The system of claim 1 , wherein: the Ethernet connection comprises a power-over-Ethernet connection; the sonar electronics comprise a charging circuit configured to provide at least a portion of the power to a power amplifier coupled to the transducer module to generate the acoustic ensonification; and the charging circuit is configured to charge reservoir circuitry while the acoustic returns are received. 11. The system of claim 1 , wherein: the Ethernet connection terminates into a wireless access point configured to transmit the sonar data wirelessly to one or more user interfaces of the mobile structure. 12. A method comprising: mounting a sonar transducer assembly to a mobile structure, wherein the sonar transducer assembly comprises a transducer module, a housing, and sonar electronics disposed within the housing and configured to control operation of the sonar transducer assembly; mounting a second sonar transducer assembly to the mobile structure, wherein the second sonar transducer assembly comprises a second transducer module, a second housing, and second sonar electronics disposed within the second housing and configured to control operation of the second sonar transducer assembly; and coupling an Ethernet connection to the sonar transducer assembly, wherein the sonar electronics are configured to transmit sonar data to a logic device of the mobile structure over, at least in part, the Ethernet connection, wherein: the sonar transducer assembly and the second sonar transducer assembly are configured to receive an ensonification schedule from the logic device over, at least in part, the Ethernet connection; and the ensonification schedule comprises at least first ensonification characteristics directing the sonar transducer assembly to generate the acoustic ensonification at a first ensonification time and second ensonification characteristics directing the second sonar transducer assembly to generate a second acoustic ensonification at the first ensonification time or at a second ensonification time different from the first ensonification time; and/or the ensonification schedule comprises at least first ensonification characteristics directing the sonar transducer assembly to receive the acoustic returns during a first receiver time period and second ensonification characteristics directing the second sonar transducer assembly to receive second acoustic returns during the first receiver time period or at a second receiver time period different from the first receiver time period. 13. The system of claim 12 , wherein: the Ethernet connection comprises a power over Ethernet connection; and the sonar electronics are configured to receive power from the power over Ethernet connection. 14. The method of claim 12 , wherein: the Ethernet connection comprises a power over Ethernet connection; the sonar electronics comprise a charging circuit configured to provide power to a power amplifier coupled to the transducer module; and the charging circuit is configured to charge one or more reservoir cap