Intel® Cyclone® 10 GX Transceiver PHY User Guide

ID 683054
Date 4/14/2023
Public
Document Table of Contents

3.1.3.2. fPLL IP Core

Table 159.  fPLL IP Core Configuration Options, Parameters, and Settings
Parameters Range Description

fPLL Mode

Core

Cascade Source

Transceiver

Specifies the fPLL mode of operation.

Select Core to use fPLL as a general purpose PLL to drive the FPGA core clock network.

Select Cascade Source to connect an fPLL to another PLL as a cascading source.

Select Transceiver to use an fPLL as a transmit PLL for the transceiver block.

Protocol Mode

Basic

PCIe* Gen1

PCIe Gen2

SDI_direct

SATA TX

Governs the internal setting rules for the VCO.

This parameter is not a preset. You must set all parameters for your protocol.

Enable fractional mode

On/Off

Enables the fractional frequency mode.

This enables the PLL to output frequencies which are not integral multiples of the input reference clock.

Enable manual counter configuration

On/Off

Selecting this option allows you to manually specify M, N, C and L counter values.

Enable clklow and fref ports 31

On/Off

Enables fref and clklow clock ports for external lock detector. In Transceiver mode when "enable fractional mode" and "SDI_direct" prot_mode are selected, pll_locked port is not available and user can create external lock detector using fref and clklow clock ports.

Desired Reference clock frequency

Refer to the GUI

Specifies the desired PLL input reference clock frequency.

Actual reference clock frequency

Read-only

Displays the actual PLL input reference clock frequency.

Number of PLL reference clocks

1 to 5

Specify the number of input reference clocks for the fPLL.

Selected reference clock source

0 to 4

Specifies the initially selected reference clock input to the fPLL.

Bandwidth

Low

Medium

High

Specifies the VCO bandwidth.

Higher bandwidth reduces PLL lock time, at the expense of decreased jitter rejection.

Operation mode

Direct

Feedback compensation bonding

Specifies the feedback operation mode for the fPLL.

Multiply factor (M-counter)

8 to 127 (integer mode)

11 to 123 (fractional mode)

Specifies the multiply factor (M-counter).

Divide factor (N-counter)

1 to 31

Specifies the divide factor (N-counter).

Divide factor (L-counter)

1, 2, 4, 8

Specifies the divide factor (L-counter).

Divide factor (K-counter)

User defined

Specifies the divide factor (K-counter).

PLL output frequency

Read-only

Displays the target output frequency for the PLL.

PLL Datarate

Read-only

Displays the PLL datarate.

Table 160.  fPLL—Master Clock Generation Block Parameters and Settings
Parameters Range Description

Include Master Clock Generation Block

On/Off

When enabled, includes a master CGB as a part of the fPLL IP core. The PLL output drives the master CGB.

This is used for x6/xN bonded and non-bonded modes.

Clock division factor

1, 2, 4, 8

Divides the master CGB clock input before generating bonding clocks.

Enable x6/xN non-bonded high-speed clock output port

On/Off

Enables the master CGB serial clock output port used for x6/xN non-bonded modes.

Enable PCIe clock switch interface

On/Off

Enables the control signals used for PCIe clock switch circuitry.

MCGB input clock frequency

Read only

Displays the master CGB’s required input clock frequency. You cannot set this parameter.

MCGB output data rate

Read only

Displays the master CGB’s output data rate. You cannot set this parameter.

This value is calculated based on MCGB input clock frequency and MCGB clock division factor.

Enable bonding clock output ports

On/Off

Enables the tx_bonding_clocks output ports of the Master CGB used for channel bonding.

You must enable this parameter for bonded designs.

Enable feedback compensation bonding

On/Off

Enables the feedback output path of the master CGB used for feedback compensation bonding. When enabled, the feedback connections are automatically handled by the PLL IP.

PMA interface width

8, 10, 16, 20, 32, 40, 64

Specifies the PMA-PCS interface width.

Match this value with the PMA interface width selected for the Native PHY IP core. You must select a proper value for generating bonding clocks for the Native PHY IP core.

Table 161.  fPLL—Dynamic Reconfiguration Parameters and Settings
Parameter Range Description

Enable dynamic reconfiguration

On/Off

Enables the PLL reconfiguration interface. Enables the simulation models and adds more ports for reconfiguration.

Enable Native PHY Debug Master Endpoint

On/Off

When you turn this option ON, the transceiver PLL IP core includes an embedded Native PHY Debug Master Endpoint (NPDME) that connects internally to the Avalon® memory-mapped interface slave interface for dynamic reconfiguration. The NPDME can access the reconfiguration space of the transceiver. It can perform certain test and debug functions via JTAG using the System Console. Refer to the Reconfiguration Interface and Dynamic Reconfiguration chapter for more details.

Separate reconfig_waitrequest from the status of AVMM arbitration with PreSICE

On/Off

When enabled, the reconfig_waitrequest does not indicate the status of Avalon® memory-mapped interface arbitration with PreSICE. The Avalon® memory-mapped interface arbitration status is reflected in a soft status register bit. (Only available if "Enable control and status registers feature" is enabled).

Enable capability registers

On/Off

Enables capability registers that provide high-level information about the fPLL's configuration.

Set user-defined IP identifier  

Sets a user-defined numeric identifier that can be read from the user_identifier offset when the capability registers are enabled.

Enable control and status registers

On/Off

Enables soft registers for reading status signals and writing control signals on the PLL interface through the embedded debug logic.

Configuration file prefix

Enter the prefix name for the configuration files to be generated.

Generate SystemVerilog package file  

On/Off

Generates a SystemVerilog package file containing all relevant parameters used by the PLL.

Generate C header file

On/Off

Generates a C header file containing all relevant parameters used by the PLL.

Generate MIF (Memory Initialize File)  

On/Off

Generates a MIF file that contains the current configuration.

Use this option for reconfiguration purposes in order to switch between different PLL configurations.

Table 162.  Clock Switchover (between Dynamic Reconfiguration and General Options)
Clock Switchover Parameter Range Description
Create a second input clock pllrefclk1

On/Off

Turn on this parameter to have a backup clock attached to your fPLL that can switch with your original reference clock

Second Reference Clock Frequency

User Defined

Specifies the second reference clock frequency for fPLL

Switchover Mode

Automatic Switchover

Manual Switchover

Automatic Switchover with Manual Override

Specifies how Input frequency switchover is handled. Automatic Switchover uses built in circuitry to detect if one of your input clocks has stopped toggling and switch to the other.

Manual Switchover creates an EXTSWITCH signal which can be used to manually switch the clock by asserting high for at least 3 cycles.

Automatic Switchover with Manual Override acts as Automatic Switchover until the EXTSWITCH goes high, in which case it switches and ignores any automatic switches as long as EXTSWITCH stays high.

Switchover Delays

0 to 7

Adds a specific amount of cycle delay to the Switchover Process.

Create an active_clk signal to indicate the input clock in use

On/Off

This parameter creates an output that indicates which input clock is currently in use by the PLL. Low indicates refclk, High indicates refclk1.
Create a clkbad signal for each of the input clocks

On/Off

This parameter creates two clkbad outputs, one for each input clock. Low indicates the CLK is working, High indicates the CLK is not working.

Table 163.  fPLL - Generation Options
Parameter Direction Description
Generates parameter documentation file On/Off Generates a .csv file that contains descriptions of all the fPLL parameters and values.
Table 164.  fPLL IP Core Ports
Port Direction Clock Domain Description

pll_powerdown

input

Asynchronous

Resets the PLL when asserted high. Needs to be connected to a dynamically controlled signal (the Transceiver PHY Reset Controller pll_powerdown output if using this Intel FPGA IP).

pll_refclk0

input

N/A

Reference clock input port 0.

There are five reference clock input ports. The number of reference clock ports available depends on the Number of PLL reference clocks parameter.

pll_refclk1

input

N/A

Reference clock input port 1.

pll_refclk2

input

N/A

Reference clock input port 2.

pll_refclk3

input

N/A

Reference clock input port 3.

pll_refclk4

input

N/A

Reference clock input port 4.

tx_serial_clk

output

N/A

High speed serial clock output port for GX channels. Represents the x1 clock network.

pll_locked

output

Asynchronous

Active high status signal which indicates if PLL is locked.

hssi_pll_cascade_clk

output

N/A

fPLL cascade clock output port

pll_pcie_clk

output

N/A

Used for PCIe.

reconfig_clk0

input

N/A

Optional Avalon® interface clock. Used for PLL reconfiguration.

reconfig_reset0

input

reconfig_clk0

Used to reset the Avalon® interface. Asynchronous to assertion and synchronous to deassertion.

reconfig_write0

input

reconfig_clk0

Active high write enable signal.

reconfig_read0

input

reconfig_clk0

Active high read enable signal.

reconfig_address0[9:0]

input

reconfig_clk0

10-bit address bus used to specify address to be accessed for both read and write operations.

reconfig_writedata0[31:0]

input

reconfig_clk0

32-bit data bus. Carries the write data to the specified address.

reconfig_readdata0[31:0]

output

reconfig_clk0

32-bit data bus. Carries the read data from the specified address.

reconfig_waitrequest0

output

reconfig_clk0

Indicates when the Avalon® interface signal is busy. When asserted, all inputs must be held constant.

pll_cal_busy

output

Asynchronous

Status signal which is asserted high when PLL calibration is in progress.

Perform logical OR with this signal and the tx_cal_busy port on the reset controller IP.

mcgb_rst

input

Asynchronous

Master CGB reset control.

Deassert this reset at the same time as pll_powerdown .

tx_bonding_clocks[5:0]

output

N/A

Optional 6-bit bus which carries the low speed parallel clock outputs from the Master CGB.

Used for channel bonding, and represents the x6/xN clock network.

mcgb_serial_clk

output

N/A

High speed serial clock output for x6/xN non-bonded configurations.

pcie_sw[1:0]

input

Asynchronous

2-bit rate switch control input used for PCIe protocol implementation.

pcie_sw_done[1:0]

output

Asynchronous

2-bit rate switch status output used for PCIe protocol implementation.

fpll_to_fpll_cascade_clk

output

N/A

fPLL to fPLL cascade output port (only in Core mode)
active_clk

output

N/A

Creates an output signal that indicates the input clock being used by the PLL. A logic Low on this signal indicates refclk0 is being used and a logic High indicates refclk1 is being used (only in Core mode with Clock Switchover enabled)

outclk0

output

N/A

Core output clock 0. (only in Core mode)

ext_lock_detect_clklow 32

output

N/A

Clklow output for external lock detection. It can be exposed by selecting the Enable clklow and fref port.

ext_lock_detect_fref 32

output

N/A

Fref output for external lock detection It can be exposed by selecting the Enable clklow and fref port.

31 The fPLL fref and clklow signals should only be used with the Intel® external soft lock detection logic.
32 The fPLL fref and clklow signals should only be used with the Intel® external soft lock detection logic.