📄 i2c_master_byte_ctrl.v
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///////////////////////////////////////////////////////////////////////// //////// WISHBONE rev.B2 compliant I2C Master byte-controller //////// //////// //////// Author: Richard Herveille //////// richard@asics.ws //////// www.asics.ws //////// //////// Downloaded from: http://www.opencores.org/projects/i2c/ //////// ///////////////////////////////////////////////////////////////////////////// //////// Copyright (C) 2001 Richard Herveille //////// richard@asics.ws //////// //////// This source file may be used and distributed without //////// restriction provided that this copyright statement is not //////// removed from the file and that any derivative work contains //////// the original copyright notice and the associated disclaimer.//////// //////// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY //////// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED //////// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS //////// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR //////// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, //////// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES //////// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE //////// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR //////// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF //////// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT //////// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT //////// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE //////// POSSIBILITY OF SUCH DAMAGE. //////// /////////////////////////////////////////////////////////////////////////// CVS Log//// $Id: i2c_master_byte_ctrl.v,v 1.7 2004/02/18 11:40:46 rherveille Exp $//// $Date: 2004/02/18 11:40:46 $// $Revision: 1.7 $// $Author: rherveille $// $Locker: $// $State: Exp $//// Change History:// $Log: i2c_master_byte_ctrl.v,v $// Revision 1.7 2004/02/18 11:40:46 rherveille// Fixed a potential bug in the statemachine. During a 'stop' 2 cmd_ack signals were generated. Possibly canceling a new start command.//// Revision 1.6 2003/08/09 07:01:33 rherveille// Fixed a bug in the Arbitration Lost generation caused by delay on the (external) sda line.// Fixed a potential bug in the byte controller's host-acknowledge generation.//// Revision 1.5 2002/12/26 15:02:32 rherveille// Core is now a Multimaster I2C controller//// Revision 1.4 2002/11/30 22:24:40 rherveille// Cleaned up code//// Revision 1.3 2001/11/05 11:59:25 rherveille// Fixed wb_ack_o generation bug.// Fixed bug in the byte_controller statemachine.// Added headers.//// synopsys translate_off`include "timescale.v"// synopsys translate_on`include "i2c_master_defines.v"module i2c_master_byte_ctrl ( clk, rst, nReset, ena, clk_cnt, start, stop, read, write, ack_in, din, cmd_ack, ack_out, dout, i2c_busy, i2c_al, scl_i, scl_o, scl_oen, sda_i, sda_o, sda_oen ); // // inputs & outputs // input clk; // master clock input rst; // synchronous active high reset input nReset; // asynchronous active low reset input ena; // core enable signal input [15:0] clk_cnt; // 4x SCL // control inputs input start; input stop; input read; input write; input ack_in; input [7:0] din; // status outputs output cmd_ack; reg cmd_ack; output ack_out; reg ack_out; output i2c_busy; output i2c_al; output [7:0] dout; // I2C signals input scl_i; output scl_o; output scl_oen; input sda_i; output sda_o; output sda_oen; // // Variable declarations // // statemachine parameter [4:0] ST_IDLE = 5'b0_0000; parameter [4:0] ST_START = 5'b0_0001; parameter [4:0] ST_READ = 5'b0_0010; parameter [4:0] ST_WRITE = 5'b0_0100; parameter [4:0] ST_ACK = 5'b0_1000; parameter [4:0] ST_STOP = 5'b1_0000; // signals for bit_controller reg [3:0] core_cmd; reg core_txd; wire core_ack, core_rxd; // signals for shift register reg [7:0] sr; //8bit shift register reg shift, ld; // signals for state machine wire go; reg [2:0] dcnt; wire cnt_done; // // Module body // // hookup bit_controller i2c_master_bit_ctrl bit_controller ( .clk ( clk ), .rst ( rst ), .nReset ( nReset ), .ena ( ena ), .clk_cnt ( clk_cnt ), .cmd ( core_cmd ), .cmd_ack ( core_ack ), .busy ( i2c_busy ), .al ( i2c_al ), .din ( core_txd ), .dout ( core_rxd ), .scl_i ( scl_i ), .scl_o ( scl_o ), .scl_oen ( scl_oen ), .sda_i ( sda_i ), .sda_o ( sda_o ), .sda_oen ( sda_oen ) ); // generate go-signal assign go = (read | write | stop) & ~cmd_ack; // assign dout output to shift-register assign dout = sr; // generate shift register always @(posedge clk or negedge nReset) if (!nReset) sr <= #1 8'h0; else if (rst) sr <= #1 8'h0; else if (ld) sr <= #1 din; else if (shift) sr <= #1 {sr[6:0], core_rxd}; // generate counter always @(posedge clk or negedge nReset) if (!nReset) dcnt <= #1 3'h0; else if (rst) dcnt <= #1 3'h0; else if (ld) dcnt <= #1 3'h7; else if (shift) dcnt <= #1 dcnt - 3'h1; assign cnt_done = ~(|dcnt); // // state machine // reg [4:0] c_state; // synopsis enum_state always @(posedge clk or negedge nReset) if (!nReset) begin core_cmd <= #1 `I2C_CMD_NOP; core_txd <= #1 1'b0; shift <= #1 1'b0; ld <= #1 1'b0; cmd_ack <= #1 1'b0; c_state <= #1 ST_IDLE; ack_out <= #1 1'b0; end else if (rst | i2c_al) begin core_cmd <= #1 `I2C_CMD_NOP; core_txd <= #1 1'b0; shift <= #1 1'b0; ld <= #1 1'b0; cmd_ack <= #1 1'b0; c_state <= #1 ST_IDLE; ack_out <= #1 1'b0; end else begin // initially reset all signals core_txd <= #1 sr[7]; shift <= #1 1'b0; ld <= #1 1'b0; cmd_ack <= #1 1'b0; case (c_state) // synopsys full_case parallel_case ST_IDLE: if (go) begin if (start) begin c_state <= #1 ST_START; core_cmd <= #1 `I2C_CMD_START; end else if (read) begin c_state <= #1 ST_READ; core_cmd <= #1 `I2C_CMD_READ; end else if (write) begin c_state <= #1 ST_WRITE; core_cmd <= #1 `I2C_CMD_WRITE; end else // stop begin c_state <= #1 ST_STOP; core_cmd <= #1 `I2C_CMD_STOP; end ld <= #1 1'b1; end ST_START: if (core_ack) begin if (read) begin c_state <= #1 ST_READ; core_cmd <= #1 `I2C_CMD_READ; end else begin c_state <= #1 ST_WRITE; core_cmd <= #1 `I2C_CMD_WRITE; end ld <= #1 1'b1; end ST_WRITE: if (core_ack) if (cnt_done) begin c_state <= #1 ST_ACK; core_cmd <= #1 `I2C_CMD_READ; end else begin c_state <= #1 ST_WRITE; // stay in same state core_cmd <= #1 `I2C_CMD_WRITE; // write next bit shift <= #1 1'b1; end ST_READ: if (core_ack) begin if (cnt_done) begin c_state <= #1 ST_ACK; core_cmd <= #1 `I2C_CMD_WRITE; end else begin c_state <= #1 ST_READ; // stay in same state core_cmd <= #1 `I2C_CMD_READ; // read next bit end shift <= #1 1'b1; core_txd <= #1 ack_in; end ST_ACK: if (core_ack) begin if (stop) begin c_state <= #1 ST_STOP; core_cmd <= #1 `I2C_CMD_STOP; end else begin c_state <= #1 ST_IDLE; core_cmd <= #1 `I2C_CMD_NOP; // generate command acknowledge signal cmd_ack <= #1 1'b1; end // assign ack_out output to bit_controller_rxd (contains last received bit) ack_out <= #1 core_rxd; core_txd <= #1 1'b1; end else core_txd <= #1 ack_in; ST_STOP: if (core_ack) begin c_state <= #1 ST_IDLE; core_cmd <= #1 `I2C_CMD_NOP; // generate command acknowledge signal cmd_ack <= #1 1'b1; end endcase endendmodule⌨️ 快捷键说明
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