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1. Intel® Stratix® 10 High-Speed LVDS I/O Overview
2. Intel® Stratix® 10 High-Speed LVDS I/O Architecture and Features
3. Stratix 10 High-Speed LVDS I/O Design Considerations
4. Intel® Stratix® 10 High-Speed LVDS I/O Implementation Guides
5. LVDS SERDES Intel® FPGA IP References
6. Intel® Stratix® 10 High-Speed LVDS I/O User Guide Archives
7. Document Revision History for the Intel® Stratix® 10 High-Speed LVDS I/O User Guide
3.1. PLLs and Clocking for Intel® Stratix® 10 Devices
3.2. Source-Synchronous Timing Budget
3.3. Guideline: LVDS SERDES IP Core Instantiation
3.4. Guideline: LVDS SERDES Pin Pairs for Soft-CDR Mode
3.5. Guideline: LVDS Transmitters and Receivers in the Same I/O Bank
3.6. Guideline: LVDS SERDES Limitation for Intel® Stratix® 10 GX 400, SX 400, and TX 400
3.1.1. Clocking Differential Transmitters
3.1.2. Clocking Differential Receivers
3.1.3. Guideline: LVDS Reference Clock Source
3.1.4. Guideline: Use PLLs in Integer PLL Mode for LVDS
3.1.5. Guideline: Use High-Speed Clock from PLL to Clock LVDS SERDES Only
3.1.6. Guideline: Pin Placement for Differential Channels
3.1.7. LVDS Interface with External PLL Mode
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3.2.4.1. RSKM Equation
The RSKM equation expresses the relationship between RSKM, TCCS, and SW.
Figure 29. RSKM Equation
Conventions used for the equation:
- RSKM—the timing margin between the clock input of the receiver and the data input sampling window, and the jitter induced from core noise and I/O switching noise.
- Time unit interval (TUI)—time period of the serial data.
- SW—the period of time that the input data must be stable to ensure that the LVDS receiver samples the data successfully. The SW is a device property and varies according to device speed grade.
- TCCS—the timing difference between the fastest and the slowest output edges across channels driven by the same PLL. The TCCS measurement includes the tCO variation, clock, and clock skew.
Note: If there is additional board channel-to-channel skew, consider the total receiver channel-to-channel skew (RCCS) instead of TCCS. .
You must calculate the RSKM value, based on the data rate and device, to determine if the LVDS receiver can sample the data:
- A positive RSKM value, after deducting transmitter jitter, indicates that the LVDS receiver can sample the data properly.
- A negative RSKM value, after deducting transmitter jitter, indicates that the LVDS receiver cannot sample the data properly.
Figure 30. Differential High-Speed Timing Diagram and Timing Budget for Non-DPA Mode This figure shows the relationship between the RSKM, TCCS, and the SW of the receiver.