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selector
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lincaigui 7 months ago
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3
readme.md
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## FPGA选择器
### 1.led指数示器
### 2.按键控制

131
rtl/key_filter.v
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//
module key_filter #(parameter KEY_W = 4,DELAY = 1000_000)(//20ms
input sys_clk ,
input sys_rst_n ,
input [KEY_W-1:0] key_in ,
output reg [KEY_W-1:0] key_out
);
//
localparam IDLE = 4'b0001,//
DOWN = 4'b0010,//沿
HOLD = 4'b0100,//
UP = 4'b1000;//沿
//
reg [19:0] cnt ;//20ms
wire add_cnt ;
wire end_cnt ;
reg [3:0] state_c ;//
reg [3:0] state_n ;//
reg [KEY_W-1:0] key_r0 ;//
reg [KEY_W-1:0] key_r1 ;
reg [KEY_W-1:0] key_r2 ;
wire [KEY_W-1:0] nedge ;//沿
wire [KEY_W-1:0] pedge ;//沿
wire idle2down;//
wire down2idle;
wire down2hold;
wire hold2up ;
wire up2idle ;
//
always @(posedge sys_clk or negedge sys_rst_n)begin
if(!sys_rst_n)begin
state_c <= IDLE;
end
else begin
state_c <= state_n;
end
end
always @(*)begin
case (state_c)
IDLE :begin
if(idle2down)
state_n = DOWN;
else
state_n = state_c;
end
DOWN :begin
if(down2idle)
state_n = IDLE;
else if(down2hold)
state_n = HOLD;
else
state_n = state_c;
end
HOLD :begin
if(hold2up)
state_n = UP;
else
state_n = state_c;
end
UP :begin
if(up2idle)
state_n = IDLE;
else
state_n = state_c;
end
default:state_n = IDLE;
endcase
end
assign idle2down = state_c == IDLE && (nedge );//(nedge != 0)
assign down2idle = state_c == DOWN && (pedge );//(pedge != 0)
assign down2hold = state_c == DOWN && (end_cnt);// && pedge == 0;
assign hold2up = state_c == HOLD && (pedge );//(pedge != 0)
assign up2idle = state_c == UP && (end_cnt);
//
always @(posedge sys_clk or negedge sys_rst_n)begin
if(!sys_rst_n)begin
cnt <= 0;
end
else if(add_cnt)begin
if(end_cnt)begin
cnt <= 0;
end
else begin
cnt <= cnt + 1;
end
end
end
assign add_cnt = (state_c == DOWN) || (state_c == UP);
assign end_cnt = add_cnt && (cnt == DELAY-1 || down2idle);
//
always @(posedge sys_clk or negedge sys_rst_n)begin
if(!sys_rst_n)begin
key_r0 <= {KEY_W{1'b1}};
key_r1 <= {KEY_W{1'b1}};
key_r2 <= {KEY_W{1'b1}};
end
else begin
key_r0 <= key_in; //
key_r1 <= key_r0; //
key_r2 <= key_r1;
end
end
//r1r2
assign nedge = ~key_r1 & key_r2;/*(~key_r1[0] & key_r2[0]) || (~key_r1[1] & key_r2[1]);*///
assign pedge = key_r1 & ~key_r2;/*(key_r1[0] & ~key_r2[0]) || (key_r1[1] & ~key_r2[1]);*/
//key_down
always @(posedge sys_clk or negedge sys_rst_n)begin
if(!sys_rst_n)begin
key_out <= 0;
end
else if(down2hold)begin
key_out <= ~key_r1; //~key_r2
//key_down <= down2hold?~key_r1:0;
end
else begin
key_out <= 0;
end
end
endmodule

38
rtl/selector.v
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module selector(
input wire sys_clk ,
input wire sys_rst_n ,
input wire [2: 0] key_in ,
output reg led
);
wire [2: 0] key_out;
reg flag ;
key_filter #(.KEY_W(3), .DELAY(1000_000)) key_filter_inst(//20
.sys_clk (sys_clk),
.sys_rst_n (sys_rst_n),
.key_in (key_in),
.key_out (key_out)
);
always @(posedge sys_clk or negedge sys_rst_n)begin
if(!sys_rst_n)begin
flag <= 1'b0;
end
else if(key_out[0])begin
flag <= ~flag;
end
else begin
flag <= flag;
end
end
always @(*)begin
case(flag)//0
1'b0 : led = ~key_in[1]; //1
1'b1 : led = ~key_in[2]; //2
default : led = 1'b0;
endcase
end
endmodule

114
tcl/C4_pin.tcl
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#
#
set_location_assignment PIN_E1 -to sys_clk
set_location_assignment PIN_E15 -to sys_rst_n
#UART
#set_location_assignment PIN_M2 -to uart_rx
#set_location_assignment PIN_G1 -to uart_tx
#LED
#set_location_assignment PIN_D16 -to led[3]
#set_location_assignment PIN_F15 -to led[2]
#set_location_assignment PIN_F16 -to led[1]
set_location_assignment PIN_G15 -to led
#
set_location_assignment PIN_M15 -to key_in[2]
set_location_assignment PIN_M16 -to key_in[1]
set_location_assignment PIN_E16 -to key_in[0]
#
# set_location_assignment PIN_B7 -to seg_led[0]
# set_location_assignment PIN_A8 -to seg_led[1]
# set_location_assignment PIN_A6 -to seg_led[2]
# set_location_assignment PIN_B5 -to seg_led[3]
# set_location_assignment PIN_B6 -to seg_led[4]
# set_location_assignment PIN_A7 -to seg_led[5]
# set_location_assignment PIN_B8 -to seg_led[6]
# set_location_assignment PIN_A5 -to seg_led[7]
#w·
# set_location_assignment PIN_A4 -to sel_led[0]
# set_location_assignment PIN_B4 -to sel_led[1]
# set_location_assignment PIN_A3 -to sel_led[2]
# set_location_assignment PIN_B3 -to sel_led[3]
# set_location_assignment PIN_A2 -to sel_led[4]
# set_location_assignment PIN_B1 -to sel_led[5]
#ds18b20
# set_location_assignment PIN_E6 -to dq
#
#set_location_assignment PIN_J1 -to buzzer
#SDRAM
#
#set_location_assignment PIN_T8 -to addr[0]
#set_location_assignment PIN_P9 -to addr[1]
#set_location_assignment PIN_T9 -to addr[2]
#set_location_assignment PIN_R9 -to addr[3]
#set_location_assignment PIN_L16 -to addr[4]
#set_location_assignment PIN_L15 -to addr[5]
#set_location_assignment PIN_N16 -to addr[6]
#set_location_assignment PIN_N15 -to addr[7]
#set_location_assignment PIN_P16 -to addr[8]
#set_location_assignment PIN_P15 -to addr[9]
#set_location_assignment PIN_R8 -to addr[10]
#set_location_assignment PIN_R16 -to addr[11]
#set_location_assignment PIN_T15 -to addr[12]
#
#set_location_assignment PIN_R5 -to dq[0]
#set_location_assignment PIN_T4 -to dq[1]
#set_location_assignment PIN_T3 -to dq[2]
#set_location_assignment PIN_R3 -to dq[3]
#set_location_assignment PIN_T2 -to dq[4]
#set_location_assignment PIN_R1 -to dq[5]
#set_location_assignment PIN_P2 -to dq[6]
#set_location_assignment PIN_P1 -to dq[7]
#set_location_assignment PIN_R13 -to dq[8]
#set_location_assignment PIN_T13 -to dq[9]
#set_location_assignment PIN_R12 -to dq[10]
#set_location_assignment PIN_T12 -to dq[11]
#set_location_assignment PIN_T10 -to dq[12]
#set_location_assignment PIN_R10 -to dq[13]
#set_location_assignment PIN_T11 -to dq[14]
#set_location_assignment PIN_R11 -to dq[15]
#bank
#set_location_assignment PIN_R7 -to bank[0]
#set_location_assignment PIN_T7 -to bank[1]
#dqm
#set_location_assignment PIN_N2 -to dqm[0]
#set_location_assignment PIN_T14 -to dqm[1]
#
#set_location_assignment PIN_R4 -to sdram_clk
#
#set_location_assignment PIN_R14 -to cke
#set_location_assignment PIN_T6 -to cs_n
#set_location_assignment PIN_R6 -to ras_n
#set_location_assignment PIN_T5 -to cas_n
#set_location_assignment PIN_N1 -to we_n
#flash
#set_location_assignment PIN_H2 -to miso
#set_location_assignment PIN_C1 -to mosi
#set_location_assignment PIN_H1 -to sclk
#set_location_assignment PIN_D2 -to cs_n
#EEPROM
#set_location_assignment PIN_L2 -to sda
#set_location_assignment PIN_L1 -to sclk
#VGA
#
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