As the 800Gb/1.6Tb Ethernet ecosystem develops, a need for single-lane interface speeds beyond 200Gb/s arises. With the first 224Gb/s transmitter and receiver architectures demonstrated in [1] and [2], required energy efficiency per bit and flexibility of silicon proven 112Gb/s designs [3] –[5] have yet to be reached. Doubling the data-rate puts stringent challenges on the circuit design due to the extra analog bandwidth required, together with the necessary improvement of both random and deterministic jitter performance. This article describes a 224Gb/s transmitter based on a 7b DAC driver (4b binary, 3b thermometer-coded) with 9-tap FFE capable of both PAM-4 and PAM-6 modulations. The architecture and design are optimized for power efficiency at all supported data rates.