// *************************************************************************** // *************************************************************************** // Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved. // // This core is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR // A PARTICULAR PURPOSE. // // Redistribution and use of source or resulting binaries, with or without modification // of this file, are permitted under one of the following two license terms: // // 1. The GNU General Public License version 2 as published by the // Free Software Foundation, which can be found in the top level directory of // the repository (LICENSE_GPL2), and at: // // OR // // 2. An ADI specific BSD license as noted in the top level directory, or on-line at: // https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD // This will allow to generate bit files and not release the source code, // as long as it attaches to an ADI device. // // *************************************************************************** // *************************************************************************** `timescale 1 ns / 100 ps //Use a timescale that is best for simulation. //------------------------------------------------------------------------------ //----------- Module Declaration ----------------------------------------------- //------------------------------------------------------------------------------ module dec256sinc24b ( input reset_i, input mclkout_i, input mdata_i, output data_rdy_o, // signals when new data is available output reg [15:0] data_o // outputs filtered data ); //------------------------------------------------------------------------------ //----------- Registers Declarations ------------------------------------------- //------------------------------------------------------------------------------ reg [23:0] ip_data1; reg [23:0] acc1; reg [23:0] acc2; reg [23:0] acc3; reg [23:0] acc3_d1; reg [23:0] acc3_d2; reg [23:0] diff1; reg [23:0] diff2; reg [23:0] diff3; reg [23:0] diff1_d; reg [23:0] diff2_d; reg [7:0] word_count; reg word_clk; //------------------------------------------------------------------------------ //----------- Assign/Always Blocks --------------------------------------------- //------------------------------------------------------------------------------ assign data_rdy_o = word_clk; /* Perform the Sinc ACTION */ always @(mdata_i) begin if(mdata_i == 0) begin ip_data1 <= 0; end else begin ip_data1 <= 1; end end /*ACCUMULATOR (INTEGRATOR) * Perform the accumulation (IIR) at the speed of the modulator. * mclkout_i = modulators conversion bit rate */ always @(negedge mclkout_i or posedge reset_i) begin if( reset_i == 1'b1 ) begin /*initialize acc registers on reset*/ acc1 <= 0; acc2 <= 0; acc3 <= 0; end else begin /*perform accumulation process*/ acc1 <= acc1 + ip_data1; acc2 <= acc2 + acc1; acc3 <= acc3 + acc2; end end /*DECIMATION STAGE (MCLKOUT_I/ WORD_CLK) */ always@(posedge mclkout_i or posedge reset_i ) begin if(reset_i == 1'b1) begin word_count <= 0; end else begin word_count <= word_count + 1; end end always @(word_count) begin word_clk <= word_count[7]; end /*DIFFERENTIATOR (including decimation stage) * Perform the differentiation stage (FIR) at a lower speed. WORD_CLK = output word rate */ always @(posedge word_clk or posedge reset_i) begin if(reset_i == 1'b1) begin acc3_d2 <= 0; diff1_d <= 0; diff2_d <= 0; diff1 <= 0; diff2 <= 0; diff3 <= 0; end else begin diff1 <= acc3 - acc3_d2; diff2 <= diff1 - diff1_d; diff3 <= diff2 - diff2_d; acc3_d2 <= acc3; diff1_d <= diff1; diff2_d <= diff2; end end /* Clock the Sinc output into an output register Clocking Sinc Output into an Output Register WORD_CLK = output word rate */ always @(posedge word_clk) begin data_o[15] <= diff3[23]; data_o[14] <= diff3[22]; data_o[13] <= diff3[21]; data_o[12] <= diff3[20]; data_o[11] <= diff3[19]; data_o[10] <= diff3[18]; data_o[9] <= diff3[17]; data_o[8] <= diff3[16]; data_o[7] <= diff3[15]; data_o[6] <= diff3[14]; data_o[5] <= diff3[13]; data_o[4] <= diff3[12]; data_o[3] <= diff3[11]; data_o[2] <= diff3[10]; data_o[1] <= diff3[9]; data_o[0] <= diff3[8]; end endmodule