麻烦大家问个棘手的问题,代码是根据CP输入信号分频,输出PCI1_CLK和PCI2_CLK,已经分频的间隔时间。PCI2_CLK是PCI1_CLK的延时复制。
为什么PCI2_CLK仿真出来和示波器打出来波形都不对。麻烦哪位高手 解救下。
module bmq (
clk,rst_n,bmq20_int,cp,time_dir_20,pci1_clk,pci2_clk
);
input clk; //时钟信号,50MHz
input rst_n; //复位信号,低电平有效
input cp; //编码器输入
output pci1_clk; //输入采集卡1方波
output [31:0] time_dir_20; //输出间隔20个编码器方波时间
output bmq20_int; // 给串口发送触发
output pci2_clk; //输出采集卡2方波
reg cp_rx0,cp_rx1; //接收数据寄存器,滤波用
wire cp_rx;
always @ (posedge clk or negedge rst_n) begin
if(!rst_n) begin
cp_rx0 <= 1'b0;
cp_rx1 <= 1'b0;
end
else begin
cp_rx0 <= cp;
cp_rx1 <= cp_rx0;
end
end
assign cp_rx =cp_rx1 ^ cp_rx0;
reg out_int;
reg out_int1;
assign bmq20_int= out_int;
reg [4:0] bmq_count;
reg [39:0] time_20_inc;
reg[31:0] time_dir_20;
reg[39:0] time_dir_20_3;
reg[39:0] time_dir_20_buf;
parameter delay_time= 500000 ;
reg pci2_int;
reg [3:0] num_delay_2;
wire pci2_clk;
always @ (posedge cp_rx or negedge rst_n) begin
if(!rst_n) begin
bmq_count <=5'h0;
time_dir_20 <= 32'h0;
out_int <=1'h0;
out_int1<=1'h0;
end
else begin
if(time_20_inc - time_dir_20_3 > 40'h1dcd6500) begin //这部分代码是为了速度很小很小,编码器间隔时间过长,不发送间隔时间及触发采集
time_dir_20 <= 32'h0;
time_dir_20_buf <= 40'h0;
time_dir_20_3 <= time_20_inc;
bmq_count <=5'h0;
end
else if(bmq_count==20) begin
out_int <=~out_int;
out_int1=~out_int1;
bmq_count <=5'h1;
time_dir_20_3 <= time_20_inc; //时间间隔取32位
time_dir_20_buf <= time_20_inc -time_dir_20_3;
time_dir_20 <=time_dir_20_buf[31:0];
end else
bmq_count <= bmq_count+1'h1;
end
end
assign pci1_clk=out_int ;
always@ (posedge clk or negedge rst_n) begin
if(!rst_n) time_20_inc <= 40'h0;
else
if(bmq_count)
time_20_inc <= time_20_inc +1'h1;
end
////////////////////////以下代码是PCI2采集卡,是PCI1采集卡触发波形的延时复制
//取了10个寄存器 设计成一个环形队列,每次延时值是固定的,所以延时比较的寄存器都是从队头到队尾 循环比较。
reg out_int2;
always@ (posedge clk or negedge rst_n) begin
if(!rst_n) out_int2<=1'h0 ;
else out_int2<= out_int1;
end
wire neg_pci2_int1;
assign neg_pci2_int1 =out_int2^out_int1;
reg[39:0] delay_count_1;
reg[39:0] delay_count_2;
reg[39:0] delay_count_3;
reg[39:0] delay_count_4;
reg[39:0] delay_count_5;
reg[39:0] delay_count_6;
reg[39:0] delay_count_7;
reg[39:0] delay_count_8;
reg[39:0] delay_count_9;
reg[39:0] delay_count_10;
reg [3:0] num_delay;
always @ (posedge neg_pci2_int1 or negedge rst_n) begin
if(!rst_n) begin
delay_count_1 <= 40'h0;
delay_count_2 <= 40'h0;
delay_count_3 <= 40'h0;
delay_count_4 <= 40'h0;
delay_count_5 <= 40'h0;
delay_count_6 <= 40'h0;
delay_count_7 <= 40'h0;
delay_count_8 <= 40'h0;
delay_count_9 <= 40'h0;
delay_count_10 <= 40'h0;
num_delay <= 4'h0;
end
else begin
case (num_delay)
4'd0: begin delay_count_1 <= time_20_inc; num_delay <=4'h1; end
4'd1: begin delay_count_2 <= time_20_inc; num_delay <=4'h2; end
4'd2: begin delay_count_3 <= time_20_inc; num_delay <=4'h3; end
4'd3: begin delay_count_4 <= time_20_inc; num_delay <=4'h4; end
4'd4: begin delay_count_5 <= time_20_inc; num_delay <=4'h5; end
4'd5: begin delay_count_6 <= time_20_inc; num_delay <=4'h6; end
4'd6: begin delay_count_7 <= time_20_inc; num_delay <=4'h7; end
4'd7: begin delay_count_8 <= time_20_inc; num_delay <=4'h8; end
4'd8: begin delay_count_9 <= time_20_inc; num_delay <=4'h9; end
4'd9: begin delay_count_10 <= time_20_inc; num_delay <=4'h0; end
default: num_delay <= 1'h0;
endcase
end
end
reg [39:0] time_20_inc_1;
always@ (posedge clk or negedge rst_n) begin
if(!rst_n) begin
num_delay_2 <= 4'h0;
pci2_int <=1'h0;
time_20_inc_1 <=40'h0;
end else begin
time_20_inc_1 <=time_20_inc;
case (num_delay_2)
4'd0: if (time_20_inc_1 - delay_count_1 == delay_time) begin
num_delay_2 <= 4'h1;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd1: if (time_20_inc_1 - delay_count_2 ==delay_time ) begin
num_delay_2 <= 4'h2;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd2: if (time_20_inc_1 -delay_count_3 == delay_time ) begin
num_delay_2 <= 4'h3;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd3: if (time_20_inc_1 -delay_count_4 == delay_time ) begin
num_delay_2 <= 4'h4;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd4: if (time_20_inc_1 -delay_count_5==delay_time ) begin
num_delay_2 <= 4'h5;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd5: if (time_20_inc_1 -delay_count_6 ==delay_time ) begin
num_delay_2 <= 4'h6;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd6: if (time_20_inc_1 -delay_count_7==delay_time ) begin
num_delay_2 <= 4'h7;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd7: if (time_20_inc_1 -delay_count_8 == delay_time ) begin
num_delay_2 <= 4'h8;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd8: if (time_20_inc_1 -delay_count_9 == delay_time )begin
num_delay_2 <= 4'h9;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
4'd9: if (time_20_inc_1 -delay_count_10 == delay_time ) begin
num_delay_2 <= 4'h0;
pci2_int<= ~pci2_int;
end else pci2_int<= pci2_int;
default: pci2_int<= 1'b0;
endcase
end
end
assign pci2_clk = pci2_int;
endmodule
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