06
Jan
2019
Par admin_fabien_f4ctz
dans Uncategorized
Tags: ARM, beaglebone, DsPIC, embarqué, embedded, Linux, logiciel, microchip, OpenWRT, PIC, PIC32, software, STM32
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25
Jun
2012
Par admin_fabien_f4ctz
dans Uncategorized
Tags: blinking, code source, DsPIC, DsPIC30, DsPIC30F4012, microchip, microcontroleur
This is a sample code showing a minimal configuration of a DsPIC30F4012 to get on RE0 a high level (logical 1) of a duration of one cycle at 20MIPS from an external crystal of 5MHz. The aim is to validate a simple design by verifying :
- The MPU is well powered,
- Its main oscillator is working and the PLL is well configured.
To do that, one file have to be added to a blank project in MPLABX using C30 or XC16 compilers :
#include <p30fxxxx.h>;
_FOSC(CSW_FSCM_OFF && XT_PLL16);
_FWDT(WDT_OFF);
_FBORPOR(PBOR_OFF && MCLR_EN);
_FGS(CODE_PROT_OFF);
_FICD( ICS_PGD );
int main(void) {
OSCCONbits.POST = 0b01; // Datasheet page 7-14
TRISE = 0; // Port E en sortie
LATE = 0; // Initialisation du port E à 0
while(1) {
LATEbits.LATE0 = 1;
LATEbits.LATE0 = 0;
}
return 0;
}
25
Jun
2012
Par admin_fabien_f4ctz
dans Uncategorized
Tags: blinking, code source, microchip, microcontroleur, PIC32, PIC32MX, PIC32MX795F512L
This is a sample code showing a minimal configuration of a PIC32MX795F512L to get on RA1 a high level (logical 1) of a duration of one cycle at 80MIPS. The aim is to validate a simple design by verifying :
- The MPU is well powered,
- Its main oscillator is working and the PLL is well configured.
To do that, two files have to be added to a blank project in MPLABX using C32 or XC32 compilers :
#include "HardwareProfile.h"
void CPUInit(void) {
SYSTEMConfigPerformance(SYS_FREQ);
DDPCONbits.JTAGEN = 0; // Disable JTAG
DDPCONbits.TROEN = 0; // Disable trace
PORTSetPinsDigitalOut(IOPORT_A,BIT_1);
}
int main(void) {
CPUInit();
while(1) {
mPORTASetBits(BIT_1);
mPORTAClearBits(BIT_1);
}
return 0;
}
#include <p32xxxx.h>
#include <plib.h>
//////////////////////////////////////////////////////////////////////////////////////////
// Configuration processeur //
// //
// Informations disponibles dans le fichier d'aide : //
// - hlpPIC32MXConfigSet.chm //
// - http://ww1.microchip.com/downloads/en/DeviceDoc/61156G.pdf //
// page 165 Section 28.1 - Configuration bits //
//////////////////////////////////////////////////////////////////////////////////////////
#pragma config FSRSSEL = PRIORITY_0 // Toutes les interruptions utilisent le shadow register
#pragma config FMIIEN = OFF // Interface Ethernet en mode RMII pour DP83848
#pragma config FETHIO = OFF // Configuration alternative des signaux du module Ethernet
#pragma config FCANIO = ON, FUSBIDIO = OFF, FVBUSONIO = OFF //Autres modules inutilises
#pragma config WDTPS = PS1, FWDTEN = OFF
#pragma config ICESEL = ICS_PGx1, DEBUG = OFF
#pragma config PWP = OFF, BWP = OFF, CP = OFF
////////// Configuration de l'oscillateur pour un quartz de 8MHz externe /////////////////
#pragma config FNOSC = PRIPLL // Choix de l'oscillateur primaire avec utilisation de la PLL
#pragma config POSCMOD = XT // Quartz < 10Mhz donc XT
#pragma config OSCIOFNC = ON
#pragma config FPLLIDIV = DIV_2, FPLLMUL = MUL_20, FPLLODIV = DIV_1 // 80Mips
#pragma config UPLLEN = ON, UPLLIDIV = DIV_2 // PLL USB
#pragma config FSOSCEN = OFF, IESO = OFF, FCKSM = CSDCMD // Autres parametres de l'oscillateur
#pragma config FPBDIV = DIV_1 // Horloge peripherique
//////////////////////////////////////////////////////////////////////////////////////////
// Definitions generiques //
// //
//////////////////////////////////////////////////////////////////////////////////////////
#define SYS_FREQ 80000000UL
#define GetPeripheralClock() (SYS_FREQ/(1 << OSCCONbits.PBDIV))
#define GetInstructionClock() (SYS_FREQ)
25
Jun
2012
Par admin_fabien_f4ctz
dans Uncategorized
Tags: blinking, code source, microchip, microcontroleur, PIC12F, PIC12F683
This is a sample code showing a minimal configuration of a PIC12F683 to get on GPIO2 a high level (logical 1) of a duration of one cycle of 500ns (8MHz = 2MIPS on 8bits architecture). The aim is to validate a simple design by verifying :
- The MPU is well powered,
- Its main oscillator is working.
To do that, one file have to be added to a blank project in MPLABX using Hi-Tech PICC compilers :
#include <htc.h>
/////////// Bits de configuration : Voir datasheet page 84, 12.1 Configuration bits //////////////
__CONFIG(FCMEN_OFF \
& IESO_OFF \
& BOREN_OFF \
& CPD_OFF \
& CP_OFF \
& MCLRE_ON \
& PWRTE_ON \
& WDTE_OFF \
& FOSC_INTOSCIO);
void main(void) {
//// Configuration de l'oscillateur interne (datasheet page 20, 3.2 Oscillator control) //////////
OSCCONbits.IRCF = 0b111; // 8Mhz
OSCCONbits.SCS = 0; // Configuration de l'horloge systeme
// définie par les bits de configuration
///// Configuration de entrees/sorties numeriques ////////////////////////////////////////////////
ANSELbits.ANS2 = 0; // GPIO2 est numerique
TRISIObits.TRISIO2 = 0; // GPIO2 est une sortie
while(1) {
GPIObits.GP2 = 1;
GPIObits.GP2 = 0;
}
}