4.6.2. Receiver Signals
Figure 25. Receiver Signal DiagramL denotes the number of lanes.
| Signal |
Width |
Direction |
Description |
|---|---|---|---|
| Clocks and Resets | |||
| pll_ref_clk | 1 |
Input |
Transceiver reference clock signal. |
| rxlink_clk | 1 |
Input |
RX link clock signal used by the Avalon® streaming interface. This clock is equal to RX data rate divided by 40. For Subclass 1, you cannot use the output of rxphy_clk signal as rxlink_clk signal. To sample SYSREF correctly, the core PLL must provide the rxlink_clk signal and must be configured as normal operating mode. |
| rxlink_rst_n_reset_n | 1 |
Input |
Reset for the RX link clock signal. This reset is an active low signal. |
| rxphy_clk[] | L |
Output |
Recovered clock signal. This clock is derived from the clock data recovery (CDR) and the frequency depends on the JESD204B IP core data rate.
|
| rx_digitalreset[] 33 | L |
Input |
Reset for the transceiver PCS block. This reset is an active high signal.
Note: This signal is not applicable for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| rx_digitalreset_stat[] | L | Output | TX PCS digital reset status port connected to the transceiver reset controller.
Note: This signal is applicable only for Intel® Stratix® 10 L-tile and H-tile devices.
|
| rx_analogreset[] 33 | L |
Input |
Reset for the CDR and transceiver PMA block. This reset is an active high signal.
Note: This signal is not applicable for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| rx_analogreset_stat[] | L | Output | TX PMA analog reset status port connected to the transceiver reset controller.
Note: This signal is applicable only for Intel® Stratix® 10 L-tile and H-tile devices.
|
| rx_islockedtodata[] 33 | L |
Output |
This signal is asserted to indicate that the RX CDR PLL is locked to the RX data and the RX CDR has changed from LTR to LTD mode. |
| rx_cal_busy[] 33 | L |
Output |
RX calibration in progress signal. This signal is asserted to indicate that the RX transceiver calibration is in progress.
Note: This signal is not applicable for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| Signal |
Width |
Direction |
Description |
| Transceiver Interface | |||
| rx_serial_data[] | L |
Input |
Differential high-speed serial input data. The clock is recovered from the serial data stream. |
| rx_serial_data_n | L |
Input |
Differential high-speed serial input data. The clock is recovered from the serial data stream.
Note: This signal is applicable only for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| reconfig_to_xcvr[] | L*70 |
Input |
Dynamic reconfiguration input for the hard transceiver. This signal is only applicable for for Arria V, Cyclone V, and Stratix V devices. You must connect these signals to the Transceiver Reconfiguration Controller IP core regardless of whether run-time reconfiguration is enabled or disabled. The Transceiver Reconfiguration Controller IP core also supports various calibration function during transceiver power up. |
| reconfig_from_xcvr[] | L*46 |
Output |
Dynamic reconfiguration output for the hard transceiver. This signal is only applicable for for Arria V, Cyclone V, and Stratix V devices You must connect these signals to the Transceiver Reconfiguration Controller IP core regardless of whether run-time reconfiguration is enabled or disabled. The Transceiver Reconfiguration Controller IP core also supports various calibration function during transceiver power up. |
| reconfig_clk reconfig_clk[] reconfig_clk_ch<0..L-1> |
|
Input |
The Avalon® memory-mapped clock input. The frequency range is 100–125 MHz. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_reset reconfig_reset[] reconfig_reset_ch<0..L-1> |
|
Input |
Reset signal for the Transceiver Reconfiguration Controller IP core. This signal is active high and level sensitive. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_avmm_address[] reconfig_avmm_address_ch<0..L-1>[] |
Intel® Arria® 10 and Intel® Cyclone® 10 GX
Intel® Stratix® 10
|
Input |
The Avalon® memory-mapped address. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_avmm_writedata[] reconfig_avmm_writedata_ch<0..L-1>[] |
For all devices except Intel Agilex® 7 and Intel® Stratix® 10 E-tile.
For Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
Input |
The input data. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_avmm_readdata[] reconfig_avmm_readdata_ch<0..L-1>[] |
For all devices except Intel Agilex® 7 and Intel® Stratix® 10 E-tile.
For Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
Output |
The output data. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_avmm_write reconfig_avmm_write[] reconfig_avmm_write_ch<0..L-1> |
|
Input |
Write signal. This signal is active high. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_avmm_read reconfig_avmm_read[] reconfig_avmm_read_ch<0..L-1> |
|
Input |
Read signal. This signal is active high. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| reconfig_avmm_waitrequest reconfig_avmm_waitrequest[] reconfig_avmm_waitrequest_ch<0..L-1> |
|
Output |
Wait request signal. This signal is only available if you enable dynamic reconfiguration for Intel® Arria® 10, Intel® Cyclone® 10 GX, and Intel® Stratix® 10 devices. |
| phy_rx_ready | L | Output | Signal to indicate the transceiver RX is ready.
Note: This signal is applicable only for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| phy_rx_pma_ready | L | Output | Signal to indicate the transceiver RX PMA is ready. This signal must be asserted before you assert or deassert any RX resets.
Note: This signal is applicable only for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| phy_rx_rst_n | 1 | Input | Active-high hard reset signal that resets the transceiver RX interface. Asserting this signal does not reset the transceiver PMA. Refer to the E-tile Transceiver PHY User Guide about how to reset PMA through the Avalon® memory-mapped reconfiguration interface.
Note: This signal is applicable only for Intel Agilex® 7 and Intel® Stratix® 10 E-tile devices.
|
| Signal |
Width |
Direction |
Description |
| Avalon® Streaming Interface | |||
| jesd204_rx_link_data[] | L*32 |
Output |
Indicates a 32-bit data from the DLL to the transport layer. The data format is big endian, where the earliest octet is placed in bit [31:24] and the latest octet is placed in bit [7:0]. |
| jesd204_rx_link_valid | 1 |
Output |
Indicates whether the data to the transport layer is valid or invalid. The Avalon® streaming source interface in the RX core cannot be backpressured and transmits the data when the jesd204_rx_data_valid signal is asserted.
|
| jesd204_rx_link_ready | 1 |
Input |
Indicates that the Avalon® streaming sink interface in the transport layer is ready to receive data. |
| jesd204_rx_frame_error | 1 |
Input |
Indicates an empty data stream due to invalid data. This signal is asserted high to indicate an error during data transfer from the RX core to the transport layer. |
| Signal |
Width |
Direction |
Description |
| Avalon® Memory-Mapped Interface | |||
| jesd204_rx_avs_clk | 1 |
Input |
The Avalon® memory-mapped interface clock signal. This clock is asynchronous to all the functional clocks in the JESD204B IP core. The JESD204B IP core can handle any cross clock ratio and therefore the clock frequency can range from 75 MHz to 125 MHz. |
| jesd204_rx_avs_rst_n | 1 |
Input |
This reset is associated with the jesd204_rx_avs_clk signal. This reset is an active low signal. You can assert this reset signal asynchronously but must deassert it synchronously to the jesd204_rx_avs_clk signal. After you deassert this signal, the CPU can configure the CSRs. |
| jesd204_rx_avs_chipselect | 1 |
Input |
When this signal is present, the slave port ignores all Avalon® memory-mapped signals unless this signal is asserted. This signal must be used in combination with read or write. If the Avalon® memory-mapped bus does not support chip select, you are recommended to tie this port to 1. |
| jesd204_rx_avs_address[] | 8 |
Input |
For Avalon® memory-mapped slave, the interconnect translates the byte address into a word address in the address space so that each slave access is for a word of data. For example, address = 0 selects the first word of the slave and address = 1 selects the second word of the slave. |
| jesd204_rx_avs_writedata[] | 32 |
Input |
32-bit data for write transfers. The width of this signal and the jesd204_rx_avs_readdata[31:0] signal must be the same if both signals are present. |
| jesd204_rx_avs_read | 1 |
Input |
This signal is asserted to indicate a read transfer. This is an active high signal and requires the jesd204_rx_avs_readdata[31:0] signal to be in use. |
| jesd204_rx_avs_write | 1 |
Input |
This signal is asserted to indicate a write transfer. This is an active high signal and requires the jesd204_rx_avs_writedata[31:0] signal to be in use. |
| jesd204_rx_avs_readdata[] | 32 |
Output |
32-bit data driven from the Avalon® memory-mapped slave to master in response to a read transfer. |
| jesd204_rx_avs_waitrequest | 1 |
Output |
This signal is asserted by the Avalon® memory-mapped slave to indicate that it is unable to respond to a read or write request. The JESD204B IP core ties this signal to 0 to return the data in the access cycle. |
| Signal |
Width |
Direction |
Description |
| JESD204 Interface | |||
| sysref | 1 |
Input |
SYSREF signal for JESD204B Subclass 1 implementation. For Subclass 0 and Subclass 2 mode, tie-off this signal to 0. |
| dev_sync_n | 1 |
Output |
Indicates a SYNC~ from the receiver. This is an active low signal and is asserted 0 to indicate a synchronization request. Instead of reporting the link error through this signal, the JESD204B IP core uses the jesd204_rx_int signal to interrupt the CPU. For multilink synchronization, you can optionally connect the DEV_SYNC_N from each IP core to the input of an AND gate. The output of the AND gate is exported to the FPGA pins for connection to the analog-to-digital converters. Refer to AN803 and AN804 for more information about the connection guidelines. |
| sof[] | 4 |
Output |
Indicates a start of frame.
|
| somf[] | 4 |
Output |
Indicates a start of multiframe.
|
| dev_lane_aligned | 1 |
Output |
Indicates that all lanes for this device are aligned. |
| alldev_lane_aligned | 1 |
Input |
Aligns all lanes for this device. For multidevice synchronization, input all the dev_lane_aligned signals to an AND gate and connect the AND gate output to this pin. For single device support, connect the dev_lane_aligned signal back to this signal. |
| Signal |
Width |
Direction |
Description |
| CSR | |||
| csr_l[] | 5 |
Output |
Indicates the number of active lanes for the link. The transport layer can use this signal as a run-time parameter. |
| csr_f[] | 8 |
Output |
Indicates the number of octets per frame. The transport layer can use this signal as a run-time parameter. |
| csr_k[] | 5 |
Output |
Indicates the number of frames per multiframe. The transport layer can use this signal as a run-time parameter. |
| csr_m[] | 8 |
Output |
Indicates the number of converters for the link. The transport layer can use this signal as a run-time parameter. |
| csr_cs[] | 2 |
Output |
Indicates the number of control bits per sample. The transport layer can use this signal as a run-time parameter. |
| csr_n[] | 5 |
Output |
Indicates the converter resolution. The transport layer can use this signal as a run-time parameter. |
| csr_np[] | 5 |
Output |
Indicates the total number of bits per sample. The transport layer can use this signal as a run-time parameter. |
| csr_s[] | 5 |
Output |
Indicates the number of samples per converter per frame cycle. The transport layer can use this signal as a run-time parameter. |
| csr_hd | 1 |
Output |
Indicates the high density data format. The transport layer can use this signal as a run-time parameter. |
| csr_cf[] | 5 |
Output |
Indicates the number of control words per frame clock period per link. The transport layer can use this signal as a run-time parameter. |
| csr_lane_powerdown[] | L |
Output |
Indicates which lane is powered down. You need to set this signal if you have configured the link and want to reduce the number of active lanes. |
| Signal |
Width |
Direction |
Description |
| Out-of-band (OOB) | |||
| jesd204_rx_int | 1 |
Output |
Interrupt pin for the JESD204B IP core. Interrupt is asserted when any error is detected. Configure the rx_err_enable register to set the type of error that can trigger an interrupt. |
| Signal |
Width |
Direction |
Description |
| Debug or Testing | |||
| jesd204_rx_dlb_data[] | L*32 |
Input |
Optional signal for parallel data to the DLL in TX to RX loopback testing. 34 |
| csr_rx_testmode[] | 4 |
Output |
Indicates the test mode for the JESD204B IP core and the test pattern for the test pattern checker in the design example.
Note: The test pattern checker is a component of the design example and is not a part of the JESD204B IP core.
Refer to the rx_test register in the register map. |
| jesd204_rx_dlb_data_valid[] | L |
Input |
Optional signal to indicate valid data for each byte in TX to RX loopback testing. 34 |
| jesd204_rx_dlb_kchar_data[] | L*4 |
Input |
Optional signal to indicate the K character value for each byte in TX to RX loopback testing. 34 |
| jesd204_rx_dlb_errdetect[] | L*4 |
Input |
Optional signal to indicate 8B/10B error. 34 |
| jesd204_rx_dlb_ disperr[] | L*4 |
Input |
Optional signal to indicate running disparity. 34 |
33 The Transceiver PHY Reset Controller IP Core controls this signal.
34 This signal is only for internal testing purposes. Tie this signal to low.