(原创)汽车尾灯电路设计(Digital Logic)(DE2)

 

Abstract

在DE2上用FSM实现汽车尾灯控制电路。

Introduction

使用环境:Quartus II 9.1 web edition + DE2

假设汽车尾部左右两侧各有3个指示灯,要求设计一个电路实现如下功能:

1. 汽车正常行驶时,尾部两侧的6个灯全灭;

2. 刹车时,尾部两侧的灯全亮,即紧急状态;

3. 右转弯时,右侧3个灯按向右的顺序循环点亮,每次只有一个灯亮,左侧灯全灭;

4. 左转弯时,左侧3个灯按向左的顺序循环点亮,每次只有一个灯亮,右侧灯全灭;

5. 右转弯刹车时,右侧的3个灯顺序循环点亮,左侧的灯全亮;左转弯刹车时,左侧的3个灯顺序循环点亮,右侧的灯全亮;

6. 倒车时,尾部两侧的6个灯不停的按一定频率闪烁。

假设电路的输入钟信号为cp,cp的频率等于汽车尾灯所要求的闪烁频率。Specification

State diagram

1. 输出状态表

状态(功能)

LC LB LA RA RB RC

IDLE(6个灯全灭)

0 0 0 0 0 0

L1(左拐一个灯亮)

0 0 1 0 0 0

L2

0 1 0 0 0 0

L3

1 0 0 0 0 0

R1(右拐一个灯亮)

0 0 0 1 0 0

R2

0 0 0 0 1 0

R3

0 0 0 1 0 0

FULL(6个灯全亮)

1 1 1 1 1 1

BL1(左拐刹车)

0 0 1 1 1 1

BL2

0 1 0 1 1 1

BL3

1 0 0 1 1 1

BR1(右拐刹车)

1 1 1 1 0 0

BR2

1 1 1 0 1 0

BR3

1 1 1 0 0 1

2. 状态图如图 1 汽车尾灯状态图

clip_image002

1 汽车尾灯状态图

完成状态图后,这个系统的设计就完成一大部分,剩下的工作就是用HDL描述电路,仿真、下载、验证功能。

完整代码

/*

(C) yf.x 2010 http://halflife.cnblogs.com/

Filename : part1.v

Compiler : Quartus II 9.1 Web Edition

Description : Demo how to use Switch and led

Release : 03/23/2010 1.0

*/

 

taillight.v
//tailight.v
module taillight(nrst,haz,left,right,brake,
lc,lb,la,ra,rb,rc,CLOCK_50);
input haz,left,right,brake;//warning,turn left,turn right,braking
input nrst,CLOCK_50;
output lc,lb,la,ra,rb,rc;//6 light
wire lc,lb,la,ra,rb,rc;
wire cp;//2 HZ
reg [19:0]state,next_state;

//14 states
parameter [19:0]idle=20'b00_0000_0000_0001_000_000,
l1=20'b00_0000_0000_0010_001_000,
l2=20'b00_0000_0000_0100_010_000,
l3=20'b00_0000_0000_1000_100_000,
r1=20'b00_0000_0001_0000_000_100,
r2=20'b00_0000_0010_0000_000_010,
r3=20'b00_0000_0100_0000_000_001,
full=20'b00_0000_1000_0000_111_111,
bl1=20'b00_0001_0000_0000_001_111,
bl2=20'b00_0010_0000_0000_010_111,
bl3=20'b00_0100_0000_0000_100_111,
br1=20'b00_1000_0000_0000_111_100,
br2=20'b01_0000_0000_0000_111_010,
br3=20'b10_0000_0000_0000_111_001;

//position of each state
parameter [4:0] idle_pos=5'd6,
l1_pos=5'd7,
l2_pos=5'd8,
l3_pos=5'd9,
r1_pos=5'd10,
r2_pos=5'd11,
r3_pos=5'd12,
full_pos=5'd13,
bl1_pos=5'd14,
bl2_pos=5'd15,
bl3_pos=5'd16,
br1_pos=5'd17,
br2_pos=5'd18,
br3_pos=5'd19;

//store status
always @(posedge cp ,negedge nrst)
if(!nrst)
state
<=idle;
else
state
<=next_state;

//state transition ***
always @(haz,left,right,brake)
begin
next_state
=idle;

case(1'b1)
state[idle_pos]:if(left&~haz&~right&~brake)
next_state
=l1;
else if(right&~haz&~left&~brake)
next_state
=r1;
else if(brake|haz|left&right)
next_state
=full;
else
next_state
=idle;

state[l1_pos]:
if(brake)
next_state
=bl1;
else if(haz&~brake)
next_state
=full;
else
next_state
=l2;


state[l2_pos]:
if(brake)
next_state
=bl1;
else if(haz&~brake)
next_state
=full;
else
next_state
=l3;

state[l3_pos]:next_state
=idle;

state[full_pos]:
if(~brake)
next_state
=idle;
else
next_state
=full;

state[r1_pos]:
if(brake)
next_state
=br1;
else if(haz&~brake)
next_state
=full;
else
next_state
=r2;

state[r2_pos]:
if(brake)
next_state
=br1;
else if(haz&~brake)
next_state
=full;
else
next_state
=r3;

state[r3_pos]:next_state
=idle;

state[br1_pos]:
if(~brake)
next_state
=r1;
//else if(~brake&haz)
//next_state=full;
else
next_state
=br2;

state[br2_pos]:
if(~brake)
next_state
=r1;
//else if(~brake&haz)
//next_state=full;
else
next_state
=br3;

state[br3_pos]:
if(~brake)
next_state
=r1;
else
next_state
=br1;

state[bl1_pos]:
if(~brake)
next_state
=l1;
//else if(~brake&haz)
//next_state=full;
else
next_state
=bl2;

state[bl2_pos]:
if(~brake)
next_state
=l1;
//else if(~brake&haz)
//next_state=full;
else
next_state
=bl3;

state[bl3_pos]:
if(~brake)
next_state
=l1;
else
next_state
=bl1;

default:next_state=idle;
endcase
end

//output logic
assign la=state[3],
lb
=state[4],
lc
=state[5],
ra
=state[2],
rb
=state[1],
rc
=state[0];

//2hz clock
divn # (.WIDTH(25), .N(25000000))
u0 (
.clk(CLOCK_50),
.rst_n(nrst),
.o_clk(cp)
);
endmodule

 

 

指定

SW0

haz

SW1

Left

SW2

Right

SW3

Brake

LEDR[5…0]

Lc,lb,la,ra,rb,rc

Conclusion

整个设计最具创意也是最难的部分就是设计状态图,在状态转移描述的部分,我采用了独热码(one-hot code)同时在状态编码的后6位包含输出状态,这样做的优点是简化了译码电路,同时避免毛刺。因为针对DE2上的fpga设计,所以相对占用触发器的资源比其他编码方式要多。但fpga的优点就是触发器资源多。J

目前验证已知存在的问题,汽车尾灯作为一个经典的课设,在John.F wakerly的《数字设计—原理与实践》的第7章有详细的描述,但不包括第5条(转弯时刹车),所以设计状态图,还是不确定足够完美。在DE2上验证时,转弯时刹车必须先转弯(激活转弯的信号)再刹车才会正常显示上述输出状态表的状态。当然这也是刹车的优先级最高决定的,还没发现大问题,但总觉得不够完美,希望有兴趣的同好,能测试一下,看如何改进。

Reference

1. John,F, Wakerly 《数字设计原理与实践(4th)》 机工

2. 罗杰 《Verilog HDL与数字ASIC设计基础》 华科

posted on 2010-03-24 10:14  yf.x  阅读(2605)  评论(1编辑  收藏  举报

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