Visible to Intel only — GUID: bhc1410937326854
Ixiasoft
1. SDI II Intel® FPGA IP Quick Reference
2. SDI II IP Core Overview
3. SDI II IP Core Getting Started
4. SDI II IP Core Parameters
5. SDI II IP Core Functional Description
6. SDI II IP Core Signals
7. SDI II IP Core Design Considerations
8. SDI II IP Core Testbench and Design Examples
9. SDI II Intel® FPGA IP User Guide Archives
10. Document Revision History for the SDI II Intel® FPGA IP User Guide
5.3.1. Insert Line
5.3.2. Insert/Check CRC
5.3.3. Insert Payload ID
5.3.4. Match TRS
5.3.5. Scrambler
5.3.6. TX Sample
5.3.7. Clock Enable Generator
5.3.8. RX Sample
5.3.9. Detect Video Standard
5.3.10. Detect 1 and 1/1.001 Rates
5.3.11. Transceiver Controller
5.3.12. Descrambler
5.3.13. TRS Aligner
5.3.14. 3Gb Demux
5.3.15. Extract Line
5.3.16. Extract Payload ID
5.3.17. Detect Format
5.3.18. Sync Streams
5.3.19. Convert SD Bits
5.3.20. Insert Sync Bits
5.3.21. Remove Sync Bits
5.4.1. HD-SDI Dual Link to 3G-SDI (Level B) Conversion
5.4.2. 3G-SDI (Level B) to HD-SDI Dual Link Conversion
5.4.3. SMPTE RP168 Switching Support
5.4.4. SD 20-Bit Interface for Dual/Triple Rate
5.4.5. Dynamic TX Clock Switching for Arria V, Cyclone V, and Stratix V Devices
5.4.6. Intel FPGA Video Streaming Interface
7.1.2.1. Changing RX CDR Reference Clock in Transceiver Native PHY IP Core
7.1.2.2. Merging Simplex Mode Transceiver in the Same Channel
7.1.2.3. Using Generated Reconfiguration Management for Triple and Multi Rates
7.1.2.4. Ensuring Independent RX and TX Operations in the Same Channel
7.1.2.5. Potential Routing Problem During Fitter Stage in Arria® 10 and Cyclone® 10 GX Devices
7.1.2.6. Unconstrained Clocks in SDI Multi-Rate RX Using Arria® 10 and Cyclone® 10 GX Devices
7.1.2.7. Unused Transceiver Channels
7.1.2.8. Routing Transceiver Reference Clock Pins to Core Logic in Stratix® 10 Devices
Visible to Intel only — GUID: bhc1410937326854
Ixiasoft
5.1.1. Transmitter
The transmitter performs the following functions:
- HD-SDI LN insertion
- Sync bit insertion
- HD-SDI CRC generation and insertion
- Payload ID insertion
- Matching timing reference signal (TRS) word
- Clock enable signal generation
- Scrambling and non-return-zero inverted (NRZI) coding
The block diagrams below illustrate the SDI II IP core transmitter (simplex) data path for each supported video standard.
For more information about the function of each submodule, refer to the Submodules section.
Figure 5. SD-SDI Transmitter Data Path Block Diagram
Figure 6. HD/3G-SDI Transmitter Data Path Block Diagram
Figure 7. Dual Rate SDI Transmitter Data Path Block Diagram
Figure 8. Dual Link HD-SDI Transmitter Data Path Block Diagram
Figure 9. Triple Rate SDI Transmitter Data Path Block Diagram
Figure 10. Multi Rate (up to 12G-SDI) Transmitter Data Path Block Diagram
Note: The transmit block shown in the diagram is the simplified version of the transmit block in the Triple Rate SDI Transmitter Data Path Block Diagram.
Related Information