Marine multibeam sonar device

What is claimed is: 1. A marine multibeam sonar device comprising: a transmitter including a plurality of transmit channel circuits, each transmit channel circuit configured to receive a transmit transducer electronic signal and including a low pass filter; a plurality of transmit transducers, each transmit transducer connected to one of the plurality of transmit channel circuits, oriented in a linear array that is configured to form a transmit acoustic beam based on shaped transmit transducer electronic signals; a memory element; and a processing element in communication with the transmitter and the memory element, the processing element being configured to— generate the transmit transducer electronic signals, each including a serial binary bitstream formed from a single bitstream pattern of a series of ones and zeros corresponding to a sine wave shape; wherein the low pass filter is configured to shape the transmit transducer electronic signal as a sine wave. 2. The marine multibeam sonar device of claim 1 , wherein the single bitstream pattern is stored in the memory element. 3. The marine multibeam sonar device of claim 2 , wherein the processing element communicates the bitstream pattern to each transmit channel circuit with an offset determined by a position of the associated transmit transducer in the array, the offset being a point in the pattern at which the bitstream is started. 4. The marine multibeam sonar device of claim 3 , wherein each bitstream pattern forms a periodic signal with a phase that is adjusted to control an angle at which the transmit beam is generated and the processing element is further configured to adjust the phase by adjusting the offset for each transmit channel circuit. 5. The marine multibeam sonar device of claim 1 , wherein each transmit channel circuit includes a low pass filter configured to adjust a shape of a voltage waveform of one of the transmit transducer electronic signals. 6. The marine multibeam sonar device of claim 1 , further comprising: a receiver configured to receive reflections of the transmit acoustic beam, the receiver including— a plurality of receive channels, each receive channel including a receive transducer configured to generate a receive transducer electronic signal, and electronic circuitry configured to receive the receive transducer electronic signals and generate a receive signal including a stream of binary data packets each packet including data from a time sliced portion of one of the receive transducer electronic signals, and the processing element is further configured to— receive and deserialize the receive signal, retrieve the binary data packet for each receive channel contained in the receive signal, and generate sonar data from the binary data packets. 7. The marine multibeam sonar device of claim 5 , wherein the electronic circuitry of the receiver further comprises— a multiplexer configured to receive the receive transducer electronic signal from each receive transducer and generate a multiplexer signal that includes a time sliced portion of each of the receive transducer electronic signals in successive order, an analog to digital converter configured to receive the multiplexer signal and generate a parallel multibit binary output that is a digital value corresponding to an analog voltage of the multiplexer signal, and a serializer configured to receive the analog to digital converter output and generate a serializer signal that is a conversion of the parallel output of the analog to digital converter to a serial bitstream. 8. The marine multibeam sonar device of claim 7 , wherein the electronic circuitry of the receiver further comprises a low voltage differential swing circuit configured to receive the serializer signal and generate the receive signal that is a differential voltage form of the serializer signal. 9. A marine multibeam sonar device comprising: a receiver configured to receive reflections of a transmit acoustic beam, the receiver including— a plurality of receive channels, each receive channel coupled to a receive transducer configured to generate a receive transducer electronic signal, and electronic circuitry configured to receive the receive transducer electronic signals from each receive transducer and generate a receive signal including a serial bitstream of binary data packets, the electronic circuitry including: a multiplexer configured to selectively output one of the receive transducer electronic signals at a time by generating a multiplexer signal that includes a time sliced portion of each of the receive transducer electronic signals in successive order for consecutive time slots, a low pass filter having a cutoff frequency, and an analog to digital converter configured to receive the multiplexer signal and generate a parallel multibit binary output that is a digital value corresponding to an analog voltage of the multiplexer signal; a memory element; and a processing element in communication with the receiver and the memory element, the processing element being configured to— receive and deserialize the receive signal based on the time slot corresponding to each receive transducer electronic signal, retrieve the binary data packet for each receive channel contained in the receive signal, and generate sonar data corresponding to the analog voltage of the multiplexer signal from the binary data packets for each receive channel; wherein the number of receive channels is greater than the number of analog to digital converters. 10. The marine multibeam sonar device of claim 9 , wherein the electronic circuitry of the receiver further comprises a serializer configured to receive the analog to digital converter output and generate a serializer signal that is a conversion of the parallel output of the analog to digital converter to a serial bitstream. 11. The marine multibeam sonar device of claim 10 , wherein the electronic circuitry of the receiver further comprises a low voltage differential swing circuit configured to receive the serializer signal and generate the receive signal that is a differential voltage form of the serializer signal. 12. The marine multibeam sonar device of claim 9 , further comprising: a transmitter including a plurality of transmit channel circuits, each connected to one of a plurality of transmit transducers, wherein each transmit channel circuit is configured to receive a transmit transducer electronic signal and the transmit transducers are oriented in a linear array that is configured to form a transmit acoustic beam, and the processing element is further configured to generate the transmit transducer electronic signals, each including a binary bitstream. 13. The marine multibeam sonar device of claim 12 , wherein each binary bitstream is formed from a single bitstream pattern that is stored in the memory element. 14. The marine multibeam sonar device of claim 13 , wherein the processing element communicates the bitstream pattern to each transmit channel circuit with an offset determined by a position of the associated transmit transducer in the array, the offset being a point in the pattern at which the bitstream is started. 15. The marine multibeam sonar device of claim 14 , wherein each bitstream pattern forms a periodic signal with a phase that is adjusted to control an angle at which the transmit beam is generated and the processing element is further configured to adjust the phase by adjusting the offset for each transmit channel circuit. 16. The marine multibeam sonar device of claim 9 , wherein the cutoff frequency