Tz200 HSIO Configured as LVDS

You can configure each HSIO block in RX, TX, or bidirectional LVDS mode. As LVDS, the HSIO has these features:
  • Programmable VOD, depending on the I/O standard used.
  • Programmable pre-emphasis.
  • Up to 1.3 Gbps.
  • Programmable 100 Ω termination to save power (you can enable or disable it at runtime).
  • LVDS input enable to dynamically enable/disable the LVDS input.
  • Support for full rate or half rate serialization.
  • Up to 10-bit serialization to support protocols such as 8b10b encoding.
  • Programmable delay chains.
  • Optional 8-word FIFO for crossing from the parallel (slow) clock to the user’s core clock to help close timing (RX only).
  • Dynamic phase alignment (DPA) that automatically eliminates skew for clock to data channels and data to data channels by adjusting a delay chain setting so that data is sampled at the center of the bit period. The DPA supports full-rate serialization mode only.
Table 1. Full and Half Rate Serialization
Mode Description Example
Full rate clock In full rate mode, the fast clock runs at the same frequency as the data and captures data on the positive clock edge.
Data rate: 800 Mbps
Serialization/Deserialization factor: 8
Slow clock frequency: 100 Mhz (800 Mbps / 8)
Fast clock frequency: 800 Mhz
Half rate clock In half rate mode, the fast clock runs at half the speed of the data and captures data on both clock edges.
Data rate: 800 Mbps
Serialization / Deserialization factor: 8
Slow clock frequency: 100 Mhz (800 Mbps / 8)
Fast clock frequency: 400 Mhz (800 / 2 )

You use a PLL to generate the serial (fast) and parallel (slow) clocks for the LVDS pins. The slow clock runs at the data rate divided by the serialization factor.

LVDS RX

You can configure an HSIO block as one LVDS RX signal.

Figure 1. LVDS RX Interface Block Diagram
Table 2. LVDS RX Signals (Interface to FPGA Fabric)
Signal Direction Clock Domain Description
I[9:0] Output SLOWCLK Parallel input data to the core. The width is programmable.
ALT Output Alternate input, only available for an LVDS RX resource in bypass mode (deserialization width is 1; alternate connection type). Alternate connections are PLL_CLKIN, PLL_EXTFB, GCLK, and RCLK.
SLOWCLK Input Parallel (slow) clock.
FASTCLK Input Serial (fast) clock.
FIFO_EMPTY Output FIFOCLK This signal is required when you turn on the Enable Clock Crossing FIFO option. Indicates that the FIFO is empty.
FIFOCLK Input This signal is required when you turn on the Enable Clock Crossing FIFO option. Core clock to read from the FIFO.
FIFO_RD Input FIFOCLK This signal is required when you turn on the Enable Clock Crossing FIFO option. Enables FIFO to read.
RST Input FIFOCLK
SLOWCLK
 (Optional) This signal is available when deserialization is enabled. Asynchronous. Resets the FIFO and deserializer. If the FIFO is enabled, it is relative to FIFOCLK; otherwise it is relative to SLOWCLK.
ENA Input Dynamically enable or disable the LVDS input buffer. Can save power when disabled.
1: Enabled
0: Disabled
TERM Input The signal is available when dynamic termination is enabled. Enables or disables termination in dynamic termination mode.
1: Enabled
0: Disabled
LOCK Output (Optional) This signal is available when you set Delay Mode to dpa. Indicates that the DPA has achieved training lock and data can be passed.
DLY_ENA Input SLOWCLK This signal is required when you set Delay Mode to dynamic or dpa. Enable the dynamic delay control or the DPA circuit, depending on the LVDS RX delay settings.
DLY_INC Input SLOWCLK This signal is required when you set Delay Mode to dynamic. Dynamic delay control. Cannot be used with DPA enabled. When DLY_ENA is 1:
1: Increments
0: Decrements
DLY_RST Input SLOWCLK (Optional) This signal is available when you set Delay Mode to dpa or dynamic. Reset the delay counter or the DPA circuit, depending on the LVDS RX delay settings.
DBG[5:0] Output SLOWCLK DPA debug pin. Outputs the final delay chain settings when DPA achieved lock.

The following waveform shows the relationship between the fast clock, slow clock, RX data coming in from the pad, and byte-aligned data to the core.

Figure 2. LVDS RX Timing Example Serialization Width of 8 (Half Rate)
Note: For LVDS RX interfaces with multiple LVDS RX lanes and an LVDS RX clock input, use the LVDS RX blocks from the same side of the FPGA to minimize skew between data lanes and RX clock input.

LVDS TX

You can configure an HSIO block as one LVDS TX signal. LVDS TX can be used in the serial data output mode or reference clock output mode.

Figure 3. LVDS TX Interface Block Diagram
Table 3. LVDS TX Signals (Interface to FPGA Fabric)
Signal Direction Clock Domain Description
O[9:0] Input SLOWCLK Parallel output data from the core. The width is programmable.
SLOWCLK Input Parallel (slow) clock.
FASTCLK Input Serial (fast) clock.
RST Input SLOWCLK (Optional) This signal is available when serialization is enabled. Resets the serializer.
OE Input (Optional) Output enable signal.

The following waveform shows the relationship between the fast clock, slow clock, TX data going to the pad, and byte-aligned data from the core.

Figure 4. LVDS Timing Example Serialization Width of 8 (Half Rate)
Note: For LVDS TX interfaces with multiple LVDS TX lanes and an LVDS TX reference clock output, use the LVDS TX blocks from the same side of the FPGA to minimize skew between data lanes and TX reference clock output.

LVDS Bidirectional

You can configure an HSIO block as one LVDS bidirectional signal. You must use the same serialization for the RX and TX.

Figure 5. LVDS Bidirectional Interface Block Diagram
Table 4. LVDS Bidirectional Signals (Interface to FPGA Fabric)
Signal Direction Clock Domain Description
I[9:0] Output SLOWCLK Parallel input data to the core. The width is programmable.
INSLOWCLK Input Parallel (slow) clock for RX.
INFASTCLK Input Serial (fast) clock for RX.
FIFO_EMPTY Output FIFOCLK This signal is required when you turn on the Enable Clock Crossing FIFO option. Indicates that the FIFO is empty.
FIFOCLK Input This signal is required when you turn on the Enable Clock Crossing FIFO option. Core clock to read from the FIFO.
FIFO_RD Input FIFOCLK This signal is required when you turn on the Enable Clock Crossing FIFO option. Enables FIFO to read.
INRST Input FIFOCLK
SLOWCLK
 This signal is available when deserialization is enabled. Asynchronous. Resets the FIFO and RX deserializer. If the FIFO is enabled, it is relative to FIFOCLK; otherwise it is relative to SLOWCLK.
ENA Input Dynamically enable or disable the LVDS input buffer. Can save power when disabled.
1: Enabled
0: Disabled
TERM Input The signal is available when dynamic termination is enabled. Enables or disables termination in dynamic termination mode.
1: Enabled
0: Disabled
LOCK Output (Optional) This signal is available when you set Delay Mode to dpa. Indicates that the DPA has achieved training lock and data can be passed.
DLY_ENA Input SLOWCLK This signal is required when you set Delay Mode to dynamic or dpa. Enable the dynamic delay control or the DPA circuit, depending on the bidirectional LVDS delay settings.
DLY_INC Input SLOWCLK This signal is required when you set Delay Mode to dynamic. Dynamic delay control. Cannot be used with DPA enabled. When DLY_ENA is 1,
1: Increments
0: Decrements
DLY_RST Input SLOWCLK (Optional) This signal is available when you set Delay Mode to dpa or dynamic. Reset the delay counter or the DPA circuit, depending on the bidirectional LVDS delay settings.
DBG[5:0] Output SLOWCLK DPA debug pin. Outputs the final delay chain settings when DPA achieved lock.
O[9:0] Input SLOWCLK Parallel output data from the core. The width is programmable.
OUTSLOWCLK Input Parallel (slow) clock for TX.
OUTFASTCLK Input Serial (fast) clock for TX.
OUTRST Input SLOWCLK This signal is available when serialization is enabled. Resets the TX serializer.
OE Input Output enable signal.

LVDS Pads

Table 5. LVDS Pads
Signal Direction Description
P Output Differential pad P.
N Output Differential pad N.