Supporting Line Rates up to 10,137.6 Mb/s - 8.11 English

CPRI LogiCORE IP Product Guide (PG056)

Document ID
PG056
Release Date
2022-11-16
Version
8.11 English

This Figure shows the clock configuration for a CPRI core on a Virtex-7, Zynq-7000 SoC, and Kintex-7 device supporting 10,137.6 Mb/s operation. In master mode, the reference clock is generated from a crystal oscillator. In slave mode the reference is generated from the recovered clock by an external jitter-removal PLL.

Figure 4-4: Core Clock Configuration at 10,137.6 Mb/s (Virtex-7, Kintex-7, and Zynq-7000 SoC Devices)

X-Ref Target - Figure 4-4

X16394-k7_clock_10g_re_bufgmax.jpg

The quad PLL is used at 9,830.4 and 10,137.6 Mb/s. At 9,830.4 Mb/s, the quad PLL provides a 4,915.2 MHz clock to the transceiver. At 10,137.6 Mb/s, the quad PLL provides a 5,068.8 MHz clock to the transceiver. This is input to the transceiver through the QPLLCLK input. At line rates of 6144.0 Mb/s and lower the CPLL is used.

The transmitter clock for the transceiver channel block is provided through the clk_316_in port of the IP core. This runs at 316.8 MHz when operating at 10,137.6 Mb/s. The clock for the IP core logic, provided to the clk_in input of the core, runs at 307.2 MHz. The difference in clock frequencies allows for correct operation using the 64B/66B encoding system.

When running at lower rates with the 8B/10B encoding system, clk_316 and clk_in run at the same rate, from 245.76 MHz when operating at 9,830.4 Mb/s down to 15.36 MHz when operating at 614.4 Mb/s.

The recovered clock is routed to the CPRI core by a BUFR in Virtex-7 devices and by a BUFH in Kintex-7 and Zynq-7000 SoC devices. A BUFG is required on the TXOUTCLK output of the transceiver on Kintex-7 and Zynq-7000 SoC devices only.

In slave cores, rather than routing the recovered clock directly to the external jitter-removal PLL as shown in This Figure , the recovered clock can be prescaled within the FPGA to a constant nominal rate of 15.36 MHz for all line rates. The example design supplied with the core contains an example implementation of this prescaling technique.

Note: For slave cores the external jitter-removal PLL must free-run in the absence of a reference signal; a PLL that turns off in the absence of a reference causes the transceiver to fail to start up. Contact your local System I/O specialist for guidance in selecting a PLL for your application.