Verilog之SOS信号-仿顺序操作

SOS信号:. . . _ _ _ . . . 

1.

module sos_module                    
(                    
     CLK, RSTn, Pin_Out, SOS_En_Sig                    
);                    
                    
    input CLK;                    
     input RSTn;                
     input SOS_En_Sig;                
     output Pin_Out;                
                     
     /****************************************/                
                     
     parameter T1MS = 16'd49_999;//DB4CE15开发板使用的晶振为50MHz,50M*0.001-1=49_999                
                     
     /***************************************/                
                     
     reg [15:0]Count1;                
                    
     always @ ( posedge CLK or negedge RSTn )                
         if( !RSTn )                
              Count1 <= 16'd0;            
          else if( isCount && Count1 == T1MS )            
              Count1 <= 16'd0;            
          else if( isCount )            
              Count1 <= Count1 + 1'b1;            
          else if( !isCount )            
              Count1 <= 16'd0;            
                    
    /****************************************/                    
                    
    reg [9:0]Count_MS;                    
                        
     always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                    
              Count_MS <= 10'd0;            
          else if( isCount && Count1 == T1MS )            
              Count_MS <= Count_MS + 1'b1;            
          else if( !isCount )            
              Count_MS <= 10'd0;            
                    
    /******************************************/                
                    
    reg isCount;                
    reg rPin_Out;                
    reg [4:0]i;                
                    
    always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                
             begin            
                 isCount <= 1'b0;            
                    rPin_Out <= 1'b0;
                    i <= 5'd0;
              end        
         else             
            case( i )                
                      
                5'd0 :         
                    if( SOS_En_Sig ) i <= 5'd1;
                    
                    5'd1, 5'd3, 5'd5, 
                    5'd13, 5'd15, 5'd17 :  
                    if( Count_MS == 10'd100 ) begin isCount <= 1'b0; rPin_Out <= 1'b0; i <= i + 1'b1; end // short
                    else begin isCount <= 1'b1; rPin_Out <= 1'b1; end
                    
                    5'd7, 5'd9, 5'd11 :
                    if( Count_MS == 10'd300 ) begin isCount <= 1'b0; rPin_Out <= 1'b0; i <= i + 1'b1; end // long
                    else begin isCount <= 1'b1; rPin_Out <= 1'b1; end
                    
                    5'd2, 5'd4, 5'd6,  
                    5'd8, 5'd10, 5'd12,
                    5'd14, 5'd16, 5'd18 :
                    if( Count_MS == 10'd50 ) begin isCount <= 1'b0; i <= i + 1'b1; end// interval
                    else isCount <= 1'b1;
                    
                    5'd19 :
                    begin rPin_Out <= 1'b0; i <= 5'd0; end  // end
                    
              endcase        
                      
    /***************************************************/                    
                     
     assign Pin_Out = rPin_Out;                
                     
     /***************************************************/                
                    
                      
endmodule                    

 

2.

“Start_Sig”如同 C 语言中的调用指令,“Done_Sig”如同 C 语言的返回指令。这两个信号的存在就是为了控制模块的调用。

module sos_control_module                    
(                    
    CLK, RSTn,                    
     Start_Sig,                
     S_Done_Sig, O_Done_Sig,                
     S_Start_Sig, O_Start_Sig,                
     Done_Sig                
);                    
                    
    input CLK;                    
     input RSTn;                
     input Start_Sig;                
     input S_Done_Sig, O_Done_Sig;                
     output S_Start_Sig, O_Start_Sig;                
     output Done_Sig;                
                     
     /*************************************/                
                     
     reg [3:0]i;                
     reg isO;                
     reg isS;                
     reg isDone;                
                     
     always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                    
              begin            
                  i <= 4'd0;            
                     isO <= 1'b0;
                     isS <= 1'b0;
                     isDone <= 1'b0;
               end        
          else if( Start_Sig )            
              case( i )            
                        
                     4'd0:
                     if( S_Done_Sig ) begin isS <= 1'b0; i <= i + 1'b1; end
                     else isS <= 1'b1;
                     
                     4'd1:
                     if( O_Done_Sig ) begin isO <= 1'b0; i <= i + 1'b1; end
                     else isO <= 1'b1;
                     
                     4'd2:
                     if( S_Done_Sig ) begin isS <= 1'b0; i <= i + 1'b1; end
                     else isS <= 1'b1;
                     
                     4'd3:
                begin isDone <= 1'b1; i <= 4'd4; end                    
                     
                     4'd4:
                     begin isDone <= 1'b0; i <= 4'd0; end
                      
                endcase    
                    
    /*****************************************/                    
                    
    assign S_Start_Sig = isS;                    
    assign O_Start_Sig = isO;                    
    assign Done_Sig = isDone;                     
                     
     /*****************************************/                
                     
endmodule                    
module s_module                    
(                    
    CLK, RSTn,                    
     Start_Sig,                
     Done_Sig,                
     Pin_Out                
);                    
                    
     input CLK;                    
      input RSTn;                
      input Start_Sig;                
      output Done_Sig;                
      output Pin_Out;                
                      
      /****************************************/                
                     
     parameter T1MS = 16'd49_999;                
                     
     /***************************************/                
                     
     reg [15:0]Count1;                
                    
     always @ ( posedge CLK or negedge RSTn )                
         if( !RSTn )                
              Count1 <= 16'd0;            
          else if( Count1 == T1MS )            
              Count1 <= 16'd0;            
          else if( isCount )            
              Count1 <= Count1 + 1'b1;            
          else if( !isCount )            
              Count1 <= 16'd0;            
                    
    /****************************************/                    
                    
    reg [9:0]Count_MS;                    
                        
     always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                    
              Count_MS <= 10'd0;            
          else if( Count_MS == rTimes )            
              Count_MS <= 10'd0;            
          else if( Count1 == T1MS )            
              Count_MS <= Count_MS + 1'b1;            
                    
    /******************************************/                
                    
    reg [3:0]i;                
    reg rPin_Out;                
    reg [9:0]rTimes;                
    reg isCount;                
    reg isDone;                
                    
    always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                
             begin             
                  i <= 4'd0;        
                 rPin_Out <= 1'b0;            
                    rTimes <= 10'd1000;
                   isCount <= 1'b0;    
                   isDone <= 1'b0;    
              end        
         else if( Start_Sig )            
             case( i )            
                      
                  4'd0, 4'd2, 4'd4:        
                  if( Count_MS == rTimes ) begin rPin_Out <= 1'b0; isCount <= 1'b0; i <= i + 1'b1; end        
                   else begin isCount <= 1'b1; rPin_Out <= 1'b1; rTimes <= 10'd100; end    
                    
                    4'd1, 4'd3, 4'd5:
                    if( Count_MS == rTimes ) begin isCount <= 1'b0; i <= i + 1'b1; end
                    else  begin isCount <= 1'b1; rTimes <= 10'd50; end
                    
                    4'd6:
                    begin isDone <= 1'b1; i <= 4'd7; end
                    
                    4'd7:
                    begin isDone <= 1'b0; i <= 4'd0; end
                    
              endcase        
                    
    /******************************************/                
                    
    assign Done_Sig = isDone;                
    assign Pin_Out = !rPin_Out;                
                    
    /******************************************/                
                    
endmodule                    
module o_module                    
(                    
    CLK, RSTn,                    
     Start_Sig,                
     Done_Sig,                
     Pin_Out                
);                    
                    
     input CLK;                    
      input RSTn;                
      input Start_Sig;                
      output Done_Sig;                
      output Pin_Out;                
                      
      /****************************************/                
                     
     parameter T1MS = 17'd49_999;                
                     
     /***************************************/                
                     
     reg [16:0]Count1;                
                    
     always @ ( posedge CLK or negedge RSTn )                
         if( !RSTn )                
              Count1 <= 17'd0;            
          else if( Count1 == T1MS )            
              Count1 <= 17'd0;            
          else if( isCount )            
              Count1 <= Count1 + 1'b1;            
          else if( !isCount )            
              Count1 <= 17'd0;            
                    
    /****************************************/                    
                    
    reg [9:0]Count_MS;                    
                        
     always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                    
              Count_MS <= 10'd0;            
          else if( Count_MS == rTimes )            
              Count_MS <= 10'd0;            
          else if( Count1 == T1MS )            
              Count_MS <= Count_MS + 1'b1;            
                    
    /******************************************/                
                    
    reg [3:0]i;                
    reg rPin_Out;                
    reg [9:0]rTimes;                
    reg isCount;                
    reg isDone;                
                    
    always @ ( posedge CLK or negedge RSTn )                
        if( !RSTn )                
             begin             
                  i <= 4'd0;        
                 rPin_Out <= 1'b0;            
                    rTimes <= 10'd1000;
                   isCount <= 1'b0;    
                   isDone <= 1'b0;    
              end        
         else if( Start_Sig )            
             case( i )            
                      
                  4'd0, 4'd2, 4'd4:        
                  if( Count_MS == rTimes ) begin rPin_Out <= 1'b0; isCount <= 1'b0; i <= i + 1'b1; end        
                   else begin isCount <= 1'b1; rPin_Out <= 1'b1; rTimes <= 10'd400; end    
                    
                    4'd1, 4'd3, 4'd5:
                    if( Count_MS == rTimes ) begin isCount <= 1'b0; i <= i + 1'b1; end
                    else  begin isCount <= 1'b1; rTimes <= 10'd50; end
                    
                    4'd6:
                    begin isDone <= 1'b1; i <= 4'd7; end
                    
                    4'd7:
                    begin isDone <= 1'b0; i <= 4'd0; end
                    
              endcase        
                    
    /******************************************/                
                    
    assign Done_Sig = isDone;                
    assign Pin_Out = !rPin_Out;                
                    
    /******************************************/                
                    
endmodule                    
module sos_module        
(        
    CLK, RSTn,        
    Start_Sig,        
     Done_Sig,    
     Pin_Out    
);        
        
    input CLK;        
     input RSTn;    
     input Start_Sig;    
     output Done_Sig;    
     output Pin_Out;    
         
     /*****************************/    
         
     wire S_Done_Sig;    
     wire S_Pin_Out;    
         
     s_module U1    
     (    
         .CLK( CLK ),    
          .RSTn( RSTn ),
          .Start_Sig( S_Start_Sig ),  // input - from U3
          .Done_Sig( S_Done_Sig ),    // output - to U3
          .Pin_Out( S_Pin_Out )       // output - to selector
          
      ) ;    
         
     /*********************************/    
         
     wire O_Done_Sig;    
     wire O_Pin_Out;    
         
     o_module U2    
     (    
         .CLK( CLK ),    
          .RSTn( RSTn ),
          .Start_Sig( O_Start_Sig ),  // input - from U3
          .Done_Sig( O_Done_Sig ),    // output - to U3
          .Pin_Out( O_Pin_Out )       // output - to selector
     );    
         
     /*********************************/    
         
     wire S_Start_Sig;    
     wire O_Start_Sig;    
         
     sos_control_module U3    
     (    
         .CLK( CLK ),    
          .RSTn( RSTn ),
          .Start_Sig( Start_Sig ),      // input - from top
          .S_Done_Sig( S_Done_Sig ),    // input - from U1
          .O_Done_Sig( O_Done_Sig ),    // input - from U2
          .S_Start_Sig( S_Start_Sig ),  // output - to U1
          .O_Start_Sig( O_Start_Sig ),  // output - to U2
          .Done_Sig( Done_Sig )         // output - to top
     );    
         
     /*********************************/    
         
     //selector    
         
     reg Pin_Out;    
         
     always @ ( * )    
         if( S_Start_Sig ) Pin_Out = S_Pin_Out;      // select from U1    
          else if( O_Start_Sig ) Pin_Out = O_Pin_Out;  // select from U2
          else Pin_Out = 1'bx; 
          
    /*********************************/        
        
endmodule        

 

posted on 2014-11-26 15:55  s010101  阅读(752)  评论(0编辑  收藏  举报

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