DisplayPort IP User Guide

ID 683273
Date 7/15/2025
Public
Document Table of Contents

5.8.5. Transceiver Reconfiguration Interface

You can reconfigure the transceiver to accept a single reference clock. The transceiver reference clocks for the different data rates are shown below:

Table 33.  Transceiver Reconfiguration for Different Design Variants
Devices Data Rate Reference Clock Frequency Description
Cyclone 10, Arria 10 RBR, HBR, HBR2, HBR3 135 MHz Single reference clock for all HBR* data rates
Stratix 10 RBR, HBR, HBR2, HBR3 135 MHz Reference clock switching required between HBR* rate and UHBR* rate
UHBR10, UHBR13.5, UHBR20 100 MHz
Agilex™ 7 (F-Tile) RBR, HBR, HBR2, HBR3, UHBR10, UHBR13.5, UHBR20 150 MHz Single reference clock for all HBR* and UHBR* data rates
Agilex™ 5E (GTS) RBR, HBR, HBR2, HBR3, UHBR10, UHBR13 150 MHz Single reference clock for all data rates

*Refer to the respective Design Example User Guides for more details.

During run-time, you can reconfigure the transceiver to operate in either one of the bit rates by changing TX PLL divide ratio.

When the IP makes a request, the tx_reconfig_req port goes high. The user logic asserts tx_reconfig_ack and then reconfigures the transceiver. During reconfiguration, the user logic holds tx_reconfig_busy high. The user logic drives it low when reconfiguration completes.

Note: The transceiver requires a reconfiguration controller. Reset the transceiver to a default state upon power-up.