我正在尝试实现我自己的从 FPGA 到 STM 的 SPI 通信,其中我的 FPGA 作为 MASTER 并生成用于通信的芯片启用和时钟。FPGA在其上升沿发送数据并在其下降沿接收数据我的FPGA代码正常工作。
在 STM 端,我在中断时捕获这个主时钟并在其上升沿接收数据并在其下降沿传输,但如果我将时钟速度从 250khz 提高到通信将无法正常工作
据我了解,STM 在 168 兆赫兹下工作,我根据 168 兆赫兹设置时钟设置,处理 1 兆赫兹中断不是一个大问题,所以你能指导我如何在 STM 中处理这个高速时钟
我的代码写在下面
/*
* Project name:
EXTI_interrupt (EXTI interrupt test)
* Copyright:
(c) Mikroelektronika, 2011.
* Revision History:
20111226:
- Initial release;
* Description:
This code demonstrates how to use External Interrupt on PD10.
PD10 is external interrupt pin for click1 socket.
receive data from mosi line in each rising edge.
* Test configuration:
MCU: STM32F407VG
http://www.st.com/st-web-
ui/static/active/en/resource/technical/document/datasheet/DM00037051.pdf
dev.board: EasyMX PRO for STM32
http://www.mikroe.com/easymx-pro/stm32/
Oscillator: HSI-PLL, 140.000MHz
Ext. Modules: -
SW: mikroC PRO for ARM
http://www.mikroe.com/mikroc/arm/
* NOTES:
receive 32 bit data from mosi line in each rising edge
*/
//D10 clk
//D2 ss
//C0 MOSI
//C1 FLAG
int read=0;
int flag_int=0;
int val=0;
int rec_data[32];
int index_rec=0;
int display_index=0;
int flag_dint=0;
void ExtInt() iv IVT_INT_EXTI15_10 ics ICS_AUTO {
EXTI_PR.B10 = 1; // clear flag
flag_int=1; //Flag on interrupt
}
TFT_Init_ILI9340();
void main() {
GPIO_Digital_Input(&GPIOD_BASE, _GPIO_PINMASK_10);
GPIO_Digital_Output(&GPIOD_BASE, _GPIO_PINMASK_13); // Set PORTD as
digital output
GPIO_Digital_Output(&GPIOD_BASE, _GPIO_PINMASK_12); // Set PORTD as
digital output
GPIO_Digital_Output(&GPIOD_BASE, _GPIO_PINMASK_14); // Set PORTD as
digital output
GPIO_Digital_Output(&GPIOD_BASE, _GPIO_PINMASK_15); // Set PORTD as
digital output
GPIO_Digital_Input(&GPIOA_IDR, _GPIO_PINMASK_0); // Set PA0 as
digital input
GPIO_Digital_Input(&GPIOC_IDR, _GPIO_PINMASK_0); // Set PA0 as
digital input
GPIO_Digital_Input(&GPIOC_IDR, _GPIO_PINMASK_2); // Set PA0 as
digital input
GPIO_Digital_Output(&GPIOC_IDR, _GPIO_PINMASK_1); // Set PA0 as
digital input
//interupt register
SYSCFGEN_bit = 1; // Enable clock for alternate pin
functions
SYSCFG_EXTICR3 = 0x00000300; // Map external interrupt on PD10
EXTI_RTSR = 0x00000000; // Set interrupt on Rising edge
(none)
EXTI_FTSR = 0x00000400; // Set Interrupt on Falling edge
(PD10)
EXTI_IMR |= 0x00000400; // Set mask
//NVIC_IntEnable(IVT_INT_EXTI15_10); // Enable External interrupt
while(1)
{
//interrupt is not enable until i push the button
if((GPIOD_ODR.B2==0)&&(flag_dint==0))
{ if (Button(&GPIOA_IDR, 0, 1, 1))
{
Delay_ms(100);
GPIOC_ODR.B1=1; //Status for FPGA
NVIC_IntEnable(IVT_INT_EXTI15_10); // Enable External interrupt
}
}
if(flag_int==1)
{
//functionality on rising edge
flag_int=0;
if(index_rec<31)
{
//display data on led
GPIOD_ODR.B13= GPIOC_IDR.B0;
//save data in an array
rec_data[index_rec]= GPIOC_IDR.B0;
//read data
index_rec=index_rec+1;
}
else
{
flag_dint=1;
NVIC_IntDisable(IVT_INT_EXTI15_10);
}
} // Infinite loop
}
}