实验现象:
核心代码:
int main(void)
{
int i,n;
char buffer[];
char spi_buffer[]; HAL_Init();
system_clock.initialize(); led.initialize();
usart1.initialize();
spi.initialize(); usart1.printf("Hello! I am iCore1S!\r\n");
while()
{
if(usart1.receive_ok_flag)
{
usart1.receive_ok_flag = ;
for(i = ;i < ;i++)
{
buffer[i] = tolower(usart1.receive_buffer[i]);
}
n = strlen(buffer); if(memcmp(buffer,"ledr",strlen("ledr")) == )
{ LED_RED_ON;
LED_GREEN_OFF;
LED_BLUE_OFF;
}
if(memcmp(buffer,"ledg",strlen("ledg")) == )
{ LED_RED_OFF;
LED_GREEN_ON;
LED_BLUE_OFF;
}
if(memcmp(buffer,"ledb",strlen("ledb")) == )
{ LED_RED_OFF;
LED_GREEN_OFF;
LED_BLUE_ON;
}
buffer[]=;
n=strlen(buffer);
spi.write_nbyte(n,buffer);
for(i=;i<;i++)
{
spi_buffer[i] = spi.write_byte(0x00);
} usart1.printf("%s\n",spi_buffer);
}
}
}
module SPI(
input CLK_12M,
input spi_clk,
input spi_mosi,
input spi_cs,
output spi_miso, output FPGA_LEDR,
output FPGA_LEDG,
output FPGA_LEDB
); //-------------------------rst_n---------------------------//
/*复位信号*/
reg [:]rst_cnt = 'd0;
reg rst_n = 'd0; always @(posedge CLK_12M)
if(rst_cnt == 'd50)
begin
rst_n <= 'd1;
rst_cnt <= rst_cnt;
end
else rst_cnt <= rst_cnt + 'd1; //-------------------------parameter---------------------------//
parameter ledr = {'d108,8'd101,'d100,8'd114},
ledg = {'d108,8'd101,'d100,8'd103},
ledb = {'d108,8'd101,'d100,8'd98},
hello = {'d104,8'd101,'d108,8'd108,'d111}; //--------------------------spi_mosi---------------------------//
/*接收模块*/
reg [:]i;
reg [:]data_in;
reg [:]temp_data,data; always@(posedge spi_clk or negedge rst_n)
if(!rst_n)
begin
i <= 'd0;
temp_data <= 'd0;
data <= 'd0;
data_in <= 'd0;
end
else case(i) //从高位开始接收数据,每8个spi_clk时钟接收一个Byte
'd0:
begin
i <= i + 'd1;
data_in <= {data_in[:],spi_mosi};
temp_data <= {temp_data[:],data_in};
if(data_in == 'd13)
begin
data <= temp_data;
end
else
begin
data <= data;
end
end
'd1,4'd2,'d3,4'd4,'d5,4'd6:
begin
i <= i + 'd1;
data_in <= {data_in[:],spi_mosi};
end
'd7:begin
i <= 'd0;
data_in <= {data_in[:],spi_mosi};
end
default: i <= 'd0;
endcase //--------------------------data----------------------------//
/*对比接收数据*/
reg [:]led; always@(posedge CLK_12M or negedge rst_n)
if(!rst_n)
begin
led <= 'b111;
end
else if (data == ledr)
led <= 'b011; //红灯亮
else if (data == ledg)
led <= 'b101; //绿灯亮
else if (data == ledb)
led <= 'b110; //蓝灯亮 assign {FPGA_LEDR,FPGA_LEDG,FPGA_LEDB} = led; //--------------------------spi_miso----------------------------//
/*发送模块*/
reg [:]data_out;
reg [:]j;
reg MISO; always@(negedge spi_clk or negedge rst_n)
if(!rst_n)
begin
data_out <= hello;
j <= 'd0;
end
else case(j) //连续40个spi_clk_r时钟发送“hello”字符串
'd0:
begin
{MISO,data_out[:]} <= data_out;
j <= j + 'd1;
end
'd39:
begin
{MISO,data_out[:]} <= data_out;
data_out <= hello;
j <= 'd0;
end
default:
begin
{MISO,data_out[:]} <= data_out;
j <= j + 'd1;
end
endcase assign spi_miso = MISO; //--------------------------endmodule----------------------------//
endmodule
实验方法及指导书:
链接:http://pan.baidu.com/s/1jImpPRo 密码:c4s0
