please dont rip this site

PIC Micro Controller C Input / Output Routine

SPI to RS232 converter

John F. Fitter says:

These routines are written in Hi-Tech C and are for use with the 'F876. Specificly, they write to a MAX3100 spi->rs232 interface chip.
/*********************************************************************************************/
/* Program : SPI.C */
/* Function : MOI Machine Controller SPI Utility Control Procedures */
/* Author : John F. Fitter B.E. */
/* */
/* Rev No. Rev date Test date Test platform Description */
/* ------- -------- --------- --------------- ---------------------------------- */
/* 00 6jun98 Original in HiTech C */
/* */
/* Copyright © 1998 Eagle Air Australia Pty. Ltd. All rights reserved */
/*********************************************************************************************/
#define _SPI_C

#include "commdefs.h"
#include "moi.h"
#include "spi.h"

// Procedure to setup the spi and the spi port pin directions
void setup_spi(unsigned char mode) {

	sdo_dir = B_OUT;  // make SDO output
	sck_dir = (mode & SPI_SLAVE) ? B_IN : B_OUT;  // make SCK input(slave) or output
	sdi_dir = B_IN;  // make SDI input
	if(mode & SPI_SLAVE & 0xf) ss_dir = B_IN;  // set SS mode bit to input if required
	spi_enable(false);  // disable ssp
	SSPCON = mode;  // set ssp mode
	spi_enable(true);  // re-enable ssp
}

// Procedure to read and return data from the spi - could call spi_write
// but will trade rom for stack levels in this case.
// The argument is the data to be transmitted (use 0 if none is required)
#pragma interrupt_level 1
unsigned char
Ispi_read(unsigned char txdata) {  // write and return received data
	unsigned char rxdata;

	rxdata = SSPBUF;  // lose any data in buffer, clear BF
	SSPBUF = txdata;  // load transmit data
	while(!spi_data_is_in());  // wait until transmit complete
	return SSPBUF;  // get received data, clear BF
}

// Procedure to read and return data from the spi - could call spi_write
// but will trade rom for stack levels in this case.
// The argument is the data to be transmitted (use 0 if none is required)
unsigned char spi_read(unsigned char txdata)
{  // write and return received data
	unsigned char rxdata;

	rxdata = SSPBUF;  // lose any data in buffer, clear BF
	SSPBUF = txdata;  // load transmit data
	while(!spi_data_is_in());  // wait until transmit complete
	return SSPBUF;  // get received data, clear BF
}
// Procedure to write data to the spi
void spi_write(unsigned char txdata) {
	unsigned char rxdata;

	rxdata = SSPBUF;  // lose any data in buffer, clear BF
	SSPBUF = txdata;  // load transmit data
	while(!spi_data_is_in()); // wait until transmit complete
}

void
InitSPI(void)
{
union regs3140 Spi_Regs;
unsigned char c1, c2;

	//set EXT interrupt for falling edge,used for RCV from MAX3140
    INTEDG = 1;

	//setup SPI to work with external max3140 USART
	//(uses a non-standard mode)

  	TRISC4 = 1;   //SPI Slave In
  	TRISC5 = 0;   //SPI Slave Out
  	TRISC3 = 0;   //SPI Slave CLK In
  	TRISC0 = 0;   //SPI SS Enabled Out as chip select

  	SSPEN = 1;   //SPI port pins enabled

  	CKP = 0;   //Clock idle is low

  	STAT_SMP = 1;   //SPI master mode Sample at END
  	STAT_CKE = 1;   //Data on rising edge

  	SSPM0 = 0;   //Slave Mode SS pin Disabled
  	SSPM1 = 0;
  	SSPM2 = 0;
  	SSPM3 = 0;

	spi_cs = 0;
	Spi_Regs.word.high = spi_read( 0b11000100  ); //Write CFG - IRQ on RCV
	Spi_Regs.word.low = spi_read( 0b00001010 );  //19200 BPS @ 3.6864MHz
	spi_cs = 1;

	spi_cs = 0;
	c1 = spi_read( RDCFG1 );
	c2 = spi_read( RDCFG2 );
	spi_cs = 1;
}

void
WriteSPIByte(int byte)
{
unsigned char t, c;
union regs3140 Spi_Regs;

	t = (unsigned char)byte;

	spi_cs = 0;
	Spi_Regs.word.high = spi_read( 0b10000000 );
	if(Spi_Regs.flag.R)
		RADEnQueue(spi_read(t));
	else
		c = spi_read(t);
	spi_cs = 1;

	DelayMs(1);
}

void
WriteSPI(int p1, ...)
{
int temp=p1, temp1=0;
unsigned char numBytes;
va_list marker;

	if(p1 == -1)
		return;

    va_start(marker, int);
    while(temp != -1)
    {
		temp1+=temp;
        WriteSPIByte(temp);

        temp = va_arg(marker, int);
    }
    va_end(marker);
}

// ***** EOF SPI.C *****

// SPIINT.C
#pragma interrupt_level 1
void interrupt
isr(void)
{
unsigned char i=0;
union regs3140 Spi_Regs;

    if(INTF && INTE)
    {
		while(!RB0)
		{
			spi_cs=0;
			Spi_Regs.word.high = Ispi_read( 0x00 );

			if(Spi_Regs.flag.R)
				IRADEnQueue(Ispi_read(0x00));
			else
				i = Ispi_read( 0x00 );

			spi_cs=1;
		}
		INTF=0; // Turn off the interrupt
    }
}
// ****** EOF SPIINT.C

//Here are some data structures if you want to easily manage the configuration bits
struct flags3140
{  		//Bits 0 .. 15
         unsigned BAUD  : 4;         //Baud Rate - 1011=9600BPS
         unsigned L     : 1;             //0=8 Bit word
         unsigned PE    : 1;            //0=No parity
         unsigned ST    : 1;            //0=1 stop bit
         unsigned IR    : 1;            //0=not use IRDA timing
         unsigned RAM   : 1;
         unsigned PM    : 1;            //0=do not assert IRQ for parity
         unsigned RM    : 1;            //1=assert IRQ for data received
         unsigned TM    : 1;            //1=assert IRQ for transmit empty
         unsigned SHDN  : 1;
         unsigned FEN   : 1;
         unsigned T     : 1;
         unsigned R     : 1;
};

struct word3140
{       //Bits 0 .. 15
         unsigned char low;
         unsigned char high;
};

union regs3140
{
         struct flags3140 flag;
         struct word3140 word;
};

Questions:


file: /Techref/microchip/language/C/spi2serial-jff.htm, 6KB, , updated: 2008/5/18 07:41, local time: 2024/11/20 05:20,
TOP NEW HELP FIND: 
18.118.217.197:LOG IN

 ©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions?
Please DO link to this page! Digg it! / MAKE!

<A HREF="http://massmind.org/Techref/microchip/language/C/spi2serial-jff.htm"> PIC Micro Controller C Input / Output Routine - SPI to RS232 converter</A>

After you find an appropriate page, you are invited to your to this massmind site! (posts will be visible only to you before review) Just type a nice message (short messages are blocked as spam) in the box and press the Post button. (HTML welcomed, but not the <A tag: Instead, use the link box to link to another page. A tutorial is available Members can login to post directly, become page editors, and be credited for their posts.


Link? Put it here: 
if you want a response, please enter your email address: 
Attn spammers: All posts are reviewed before being made visible to anyone other than the poster.
Did you find what you needed?

 

Welcome to massmind.org!

 

Welcome to massmind.org!

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  .