// *************************************************************************** // *************************************************************************** // Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved. // // Each core or library found in this collection may have its own licensing terms. // The user should keep this in in mind while exploring these cores. // // Redistribution and use in source and binary forms, // with or without modification of this file, are permitted under the terms of either // (at the option of the user): // // 1. The GNU General Public License version 2 as published by the // Free Software Foundation, which can be found in the top level directory, or at: // https://www.gnu.org/licenses/old-licenses/gpl-2.0.en.html // // OR // // 2. An ADI specific BSD license as noted in the top level directory, or on-line at: // https://github.com/analogdevicesinc/hdl/blob/dev/LICENSE // // *************************************************************************** // *************************************************************************** // This is the LVDS/DDR interface, note that overrange is independent of data path, // software will not be able to relate overrange to a specific sample! // Alternative is to concatenate sample value and or status for data. `timescale 1ns/100ps module axi_ad9643_if #( parameter DEVICE_TYPE = 0, parameter IO_DELAY_GROUP = "adc_if_delay_group") ( // adc interface (clk, data, over-range) input adc_clk_in_p, input adc_clk_in_n, input [13:0] adc_data_in_p, input [13:0] adc_data_in_n, input adc_or_in_p, input adc_or_in_n, // interface outputs output adc_clk, output reg [13:0] adc_data_a, output reg [13:0] adc_data_b, output reg adc_or_a, output reg adc_or_b, output reg adc_status, // processor control signals input adc_ddr_edgesel, input adc_pin_mode, // delay control signals input up_clk, input [14:0] up_dld, input [74:0] up_dwdata, output [74:0] up_drdata, input delay_clk, input delay_rst, output delay_locked); // internal registers reg [13:0] adc_data_p = 'd0; reg [13:0] adc_data_n = 'd0; reg [13:0] adc_data_p_d = 'd0; reg adc_or_p = 'd0; reg adc_or_n = 'd0; reg adc_or_p_d = 'd0; reg [13:0] adc_data_mux_a = 'd0; reg [13:0] adc_data_mux_b = 'd0; reg adc_or_mux_a = 'd0; reg adc_or_mux_b = 'd0; // internal signals wire [13:0] adc_data_p_s; wire [13:0] adc_data_n_s; wire adc_or_p_s; wire adc_or_n_s; genvar l_inst; // two data pin modes are supported- // mux - across clock edges (rising or falling edges), // mux - within clock edges (lower 7 bits and upper 7 bits) always @(posedge adc_clk) begin adc_status <= 1'b1; adc_data_p <= adc_data_p_s; adc_data_n <= adc_data_n_s; adc_data_p_d <= adc_data_p; adc_or_p <= adc_or_p_s; adc_or_n <= adc_or_n_s; adc_or_p_d <= adc_or_p; end always @(posedge adc_clk) begin if (adc_ddr_edgesel == 1'b1) begin adc_data_mux_a <= adc_data_p_d; adc_data_mux_b <= adc_data_n; adc_or_mux_a <= adc_or_p_d; adc_or_mux_b <= adc_or_n; end else begin adc_data_mux_a <= adc_data_n; adc_data_mux_b <= adc_data_p; adc_or_mux_a <= adc_or_n; adc_or_mux_b <= adc_or_p; end end always @(posedge adc_clk) begin if (adc_pin_mode == 1'b1) begin adc_data_a <= adc_data_mux_a; adc_data_b <= adc_data_mux_b; adc_or_a <= adc_or_mux_a; adc_or_b <= adc_or_mux_b; end else begin adc_data_a <= { adc_data_mux_b[13], adc_data_mux_a[13], adc_data_mux_b[12], adc_data_mux_a[12], adc_data_mux_b[11], adc_data_mux_a[11], adc_data_mux_b[10], adc_data_mux_a[10], adc_data_mux_b[ 9], adc_data_mux_a[ 9], adc_data_mux_b[ 8], adc_data_mux_a[ 8], adc_data_mux_b[ 7], adc_data_mux_a[ 7]}; adc_data_b <= { adc_data_mux_b[ 6], adc_data_mux_a[ 6], adc_data_mux_b[ 5], adc_data_mux_a[ 5], adc_data_mux_b[ 4], adc_data_mux_a[ 4], adc_data_mux_b[ 3], adc_data_mux_a[ 3], adc_data_mux_b[ 2], adc_data_mux_a[ 2], adc_data_mux_b[ 1], adc_data_mux_a[ 1], adc_data_mux_b[ 0], adc_data_mux_a[ 0]}; adc_or_a <= adc_or_mux_a; adc_or_b <= adc_or_mux_b; end end // data interface generate for (l_inst = 0; l_inst <= 13; l_inst = l_inst + 1) begin : g_adc_if ad_lvds_in #( .DEVICE_TYPE (DEVICE_TYPE), .IODELAY_CTRL (0), .IODELAY_GROUP (IO_DELAY_GROUP)) i_adc_data ( .rx_clk (adc_clk), .rx_data_in_p (adc_data_in_p[l_inst]), .rx_data_in_n (adc_data_in_n[l_inst]), .rx_data_p (adc_data_p_s[l_inst]), .rx_data_n (adc_data_n_s[l_inst]), .up_clk (up_clk), .up_dld (up_dld[l_inst]), .up_dwdata (up_dwdata[((l_inst*5)+4):(l_inst*5)]), .up_drdata (up_drdata[((l_inst*5)+4):(l_inst*5)]), .delay_clk (delay_clk), .delay_rst (delay_rst), .delay_locked ()); end endgenerate // over-range interface ad_lvds_in #( .DEVICE_TYPE (DEVICE_TYPE), .IODELAY_CTRL (1), .IODELAY_GROUP (IO_DELAY_GROUP)) i_adc_or ( .rx_clk (adc_clk), .rx_data_in_p (adc_or_in_p), .rx_data_in_n (adc_or_in_n), .rx_data_p (adc_or_p_s), .rx_data_n (adc_or_n_s), .up_clk (up_clk), .up_dld (up_dld[14]), .up_dwdata (up_dwdata[74:70]), .up_drdata (up_drdata[74:70]), .delay_clk (delay_clk), .delay_rst (delay_rst), .delay_locked (delay_locked)); // clock ad_lvds_clk #( .DEVICE_TYPE (DEVICE_TYPE)) i_adc_clk ( .rst (1'b0), .locked (), .clk_in_p (adc_clk_in_p), .clk_in_n (adc_clk_in_n), .clk (adc_clk)); endmodule // *************************************************************************** // ***************************************************************************