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3.1.1. HDMI RX-TX Retransmit With Integrated Transceiver Design Parameters
3.1.2. Integrated Transceiver With Dual Simplex Block Diagram
3.1.3. Integrated Transceiver Without Dual Simplex Block Diagram
3.1.4. Agilex™ 5 HDMI RX-TX Retransmit With Integrated Transceiver Design Example Top Level Common Blocks
3.1.5. Agilex™ 5 HDMI RX-TX Retransmit With Integrated Transceiver Design Example Interface Signals
3.2.1. HDMI RX-TX Retransmit Without Integrated Transceiver Design Parameters
3.2.2. Non-Integrated Transceiver With Dual Simplex Block Diagram
3.2.3. Non-Integrated Transceiver Without Dual Simplex block diagram
3.2.4. Agilex™ 5 HDMI RX-TX Retransmit Without Integrated Transceiver Design Example Top Level Common Blocks
3.2.5. Agilex™ 5 HDMI RX-TX Retransmit Without Integrated Transceiver Design Example Interface Signals
2.3. Requirement for Dual Simplex
Most HDMI applications use RX and TX in the same channel. Typically, RX and TX in this situation do not share an identical data rate. Therefore, combining the respective data rates of RX and TX in the same channel requires dual simplex mode.
Dual simplex mode allow you to create independent simplex TX IP and simplex RX IP (1 or more channels) and fit them into the duplex channels, which is called a dual simplex group. Dual simplex fully utilizes transceiver channels by combining simplex TX and simplex RX in the same channel.