Ultrasonic monitoring of electrical connections

What is claimed is: 1. An electrical connection sensor comprising: at least one transducer configured to be coupled to a power distribution block, to generate ultrasonic pulses in the power distribution block, and to receive ultrasonic signals based on the ultrasonic pulses; and a controller coupled to the at least one transducer and configured to determine a status of at least one electrical connection in the power distribution block based on at least one characteristic of the ultrasonic signals received by the at least one transducer, wherein the ultrasonic signals received by the at least one transducer include a series of reflections from the at least one electrical connection in the power distribution block, and wherein in determining the status of the at least one electrical connection, the controller is further configured to determine a round trip time of at least one of the series of reflections and determine the status of the at least one electrical connection based on the round trip time of the at least one of the series of reflections. 2. The electrical connection sensor of claim 1 , wherein in determining the round trip time of the at least one of the series of reflections, the controller is further configured to determine a round trip time of a most prominent reflection in the series of reflections. 3. The electrical connection sensor of claim 2 , wherein in determining the status of the at least one electrical connection, the controller is further configured to analyze the round trip time of the most prominent reflection in the series of reflections over time and determine the status of the at least one electrical connection based on variations in the round trip time of the most prominent reflection in the series of reflections. 4. The electrical connection sensor of claim 3 , wherein in determining the status of the at least one electrical connection, the controller is further configured to identify that the at least one electrical connection has loosened or been overtightened in response to determining that the round trip time of the most prominent reflection in the series of reflections has increased. 5. The electrical connection sensor of claim 4 , wherein the controller is further configured to provide an indication to an external system that the at least one electrical connection has loosened or been overtightened. 6. The electrical connection sensor of claim 2 , wherein in determining the round trip time of the at least one of the series of reflections, the controller is further configured to determine the round trip time of at least one secondary reflection in the series of reflections, and wherein in determining the status of the at least one electrical connection, the controller is further configured to determine the status of the at least one electrical connection based on the most prominent reflection and the at least one secondary reflection in the series of reflections. 7. The electrical connection sensor of claim 6 , wherein in determining the status of the at least one electrical connection based on the most prominent reflection and the at least one secondary reflection in the series of reflections, the controller is further configured to identify a torque characteristic of the at least one connection based on the most prominent reflection and the at least one secondary reflection in the series of reflections. 8. The electrical connection sensor of claim 1 , wherein the at least one transducer is further configured to receive the series of reflections from a first electrical connection and a second electrical connection in the power distribution block, and wherein the controller is further configured to determine a status of the first electrical connection and a status of the second electrical connection based on the round-trip time of the at least one of the series of reflections. 9. The electrical connection sensor of claim 8 , wherein the at least one transducer includes a first transducer configured to receive a first series of reflections from the first electrical connection and a second transducer configured to receive a second series of reflections from the second electrical connection, and wherein the controller is further configured to determine a first round-trip time of the first series of reflections, to determine a second round-trip time of the second series of reflections, to determine a status of the first electrical connection based on the first round-trip time, and to determine a status of the second electrical connection based on the second round-trip time. 10. The electrical connection sensor of claim 1 , wherein the at least one transducer includes a first transducer configured to generate the ultrasonic pulses in the power distribution block and monitor the series of reflections received from the at least one electrical connection in the power distribution block and at least one second transducer configured to monitor the ultrasonic pulses generated by the first transducer, and wherein the controller is further configured to determine the round-trip time of at least one of the series of reflections based on series of reflections monitored by the first transducer and the ultrasonic pulses monitored by the at least one second transducer. 11. The electrical connection sensor of claim 1 , wherein the at least one transducer is configured to be coupled to the power distribution block with one of an adhesive, a magnet, and a fastener. 12. The electrical connection sensor of claim 1 , wherein the at least one transducer is configured to be coupled to one of a portion of the power distribution block that is orthogonal to a set screw of the at least one electrical connection and a portion of the power distribution block that is in line with a set screw of the at least one electrical connection. 13. The electrical connection sensor of claim 1 , wherein the controller is an analog front end controller. 14. A method for monitoring at least one electrical connection in a power distribution block, the method comprising: generating, with at least one transducer, ultrasonic pulses in the power distribution block; receiving, with the at least one transducer, ultrasonic signals based on the ultrasonic pulses; and determining, with a controller coupled to the at least one transducer, a status of at least one electrical connection in the power distribution block based on at least one characteristic of the ultrasonic signals received by the at least one transducer, wherein receiving the ultrasonic signals includes receiving, with the at least one transducer, a series of reflections from the at least one electrical connection in the power distribution block; and wherein determining the status of the at least one electrical connection includes determining a round-trip time of at least one of the series of reflections and identifying whether the at least one electrical connection in the power distribution block has loosened or been overtightened based on the round-trip time of the at least one of the series of reflections. 15. The method of claim 14 , wherein determining the round-trip time of the at least one of the series of reflections includes determining a round-trip time of a most prominent reflection in the series of reflections, and wherein identifying includes analyzing the round-trip time of the most prominent reflection in the series of reflections over time and identifying that the at least one electrical connection in the power distribution block has loosened or been overtightened in response to a determination that the round-trip time of the most prominent reflection in the ser