Full-duplex communication link using TDM

The invention claimed is: 1. An automotive communication link, comprising: a first communication device configured to serve as a master device of the automotive communication link; and a second communication device configured to serve as a slave device of the automotive communication link, wherein the first communication device and the second communication device are configured to be installed in a vehicle and to communicate with one another over a full-duplex point-to-point Ethernet link in a time-division multiplexing (TDM) protocol comprising unidirectional master-to-slave transmission periods and unidirectional slave-to-master transmission periods that are separate from the master-to-slave transmission periods, the slave device being configured to: during the master-to-slave transmission periods, lock a local oscillator of the slave device on a clock signal generated by the master device; and during the slave-to-master transmission periods, transmit data using the local oscillator that was locked on the clock signal of the master device during the master-to-slave transmission periods. 2. The automotive communication link according to claim 1 , wherein the first communication device and the second communication device are configured to perform Ethernet physical-layer (PHY) functions. 3. The automotive communication link according to claim 1 , wherein the full-duplex point-to-point Ethernet link is a single twisted-pair link. 4. The automotive communication link according to claim 1 , wherein a ratio between durations of the master-to-slave transmission periods and durations of the slave-to-master transmission periods is different from 0.5. 5. The automotive communication link according to claim 1 , wherein a ratio between durations of the master-to-slave transmission periods and durations of the slave-to-master transmission periods is greater than 0.75. 6. The automotive communication link according to claim 1 , wherein a ratio between durations of the master-to-slave transmission periods and durations of the slave-to-master transmission periods is configurable. 7. A method for communication on an automotive communication link, the method comprising: operating a first communication device, in a vehicle, as a master device of the automotive communication link; operating a second communication device, in the vehicle, as a slave device of the automotive communication link; communicating between the first communication device and the second communication device over a full-duplex point-to-point Ethernet link in a time-division multiplexing (TDM) protocol comprising unidirectional master-to-slave transmission periods and unidirectional slave-to-master transmission periods that are separate from the master-to-slave transmission periods; and in the slave device: during the master-to-slave transmission periods, locking a local oscillator of the slave device on a clock signal generated by the master device; and during the slave-to-master transmission periods, transmitting data using the local oscillator that was locked on the clock signal of the master device during the master-to-slave transmission periods. 8. The method for communication according to claim 7 , wherein operating the first communication device and the second communication device comprises performing Ethernet physical-layer (PHY) functions. 9. The method for communication according to claim 7 , wherein communicating over the full-duplex point-to-point Ethernet link comprises communicating over a single twisted-pair link. 10. The method for communication according to claim 7 , wherein a ratio between durations of the master-to-slave transmission periods and durations of the slave-to-master transmission periods is different from 0.5. 11. The method for communication according to claim 7 , wherein a ratio between durations of the master-to-slave transmission periods and durations of the slave-to-master transmission periods is greater than 0.75. 12. The method for communication according to claim 7 , wherein a ratio between durations of the master-to-slave transmission periods and durations of the slave-to-master transmission periods is configurable.