min and max frequency of eMIOS for MPC5674F

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min and max frequency of eMIOS for MPC5674F

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snehakalkhair
Contributor III

Hi,

Can anyone please help me with the min and max frequency/frequency range in which eMIOS can work for MPC5674F?

I have a 40 MHz crystal.

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snehakalkhair
Contributor III

Hi Martin,

Following is the code for IPWM which you had shared.

I am unable to get the pulse width since the CSR flag for channel 0 is not being set.

while (!EMIOS.CH[0].CSR.B.FLAG)/* Wait for flag to be set */

pulse_width = EMIOS.CH[0].CBDR.R;/* read pulse width from register B */

Please correct me where ever i am wrong.

#include "mpc5674f.h"

#include "fs_gpio.h"

uint32_t pulse_width, count;

FMPLL_init(void);

void initEMIOSch0(void);

void initEMIOSch1(void);

void initEMIOSch23(void);

void initEMIOS(void);

static void FMPLL_init(void)

{

    /**** Use for 40 MHz crystal reference ****/

    // settings for 264 MHz

   SIU.ECCR.B.EBDF = 3; /* Divide sysclk by 3+1 for CLKOUT */

  FMPLL.ESYNCR2.R = 0x00000002;

  FMPLL.ESYNCR1.R = 0x70040032; // EPREDIV=4, EMFD=0x32=50

    while (FMPLL.SYNSR.B.LOCK != 1) {};

    FMPLL.ESYNCR2.R = 0x00000001; // ERFD=1

        // fextal=40 => fpll = 40*(50+16)/((4+1)*(1+1)) = 264MHz

        // fvco = 40*(50+16)/(4+1) = 528 < 600 and > 192 => correct

 

    #if 0

    // settings for 200 MHz

 

    SIU.ECCR.B.EBDF = 3; /* Divide sysclk by 3+1 for CLKOUT */

    FMPLL.ESYNCR2.R = 0x00000002;

    FMPLL.ESYNCR1.R = 0x70040022; // EPREDIV=4, EMFD=0x22=34

        // fextal=40 => fpll = 40*(34+16)/((4+1)*(1+1)) = 200MHz

        // fvco = 40*(34+16)/(4+1) = 400 < 600 and > 192 => correct

    while (FMPLL.SYNSR.B.LOCK != 1) {};

    FMPLL.ESYNCR2.R = 0x00000001;

    #endif

 

}

void main (void)

{

/* ------------------LED and Switch port init----------------------- */

SIU.PCR[65].R=0x0200;/* OBE on PE1 - LED connection */

SIU.GPDO[65].R = 0x01;

FMPLL_init();

initEMIOS();

initEMIOSch0();

initEMIOSch1();

initEMIOSch23();

while (1)

{

while (!EMIOS.CH[0].CSR.B.FLAG)/* Wait for flag to be set */

pulse_width = EMIOS.CH[0].CBDR.R;/* read pulse width from register B */

if (pulse_width == EMIOS.CH[1].CADR.R) /* Compare measured width at ch1 with original */

{

for (count=0; count<100000; count++)/* loops to toggle PE1, pulse width is correct */

SIU.GPDO[65].R = 0x01;

for (count=0; count<100000; count++)

SIU.GPDO[65].R = 0x00;

}

/* Clear flags and overruns */

EMIOS.CH[0].CSR.B.FLAG = 1;

EMIOS.CH[1].CSR.B.FLAG = 1;

EMIOS.CH[0].CSR.B.OVR = 1;

EMIOS.CH[1].CSR.B.OVR = 1;

}

}/* end of main() */

/**************************** Functions*******************************************/

void initEMIOSch23(void) /* EMIOS CH 23: Modulus Up Counter */

{

EMIOS.CH[23].CADR.R = 999; /* Period will be 999+1 = 1000 clocks (1 msec) */

EMIOS.CH[23].CCR.B.MODE = 0x50; /* Modulus Counter Buffered (MCB) */

EMIOS.CH[23].CCR.B.BSL = 0x3; /* Use internal counter */

EMIOS.CH[23].CCR.B.UCPRE=0; /* Set channel prescaler to divide by 1 */

EMIOS.CH[23].CCR.B.FREN = 1; /* Freeze channel counting when in debug mode */

EMIOS.CH[23].CCR.B.UCPREN = 1; /* Enable prescaler; uses default divide by 1 */

}

void initEMIOSch0(void) /* EMIOS CH 0: Input Pulse Width Measurement (IPWM) */

{

EMIOS.CH[0].CCR.B.BSL = 0x0; /* Use counter bus A (default) */

EMIOS.CH[0].CCR.B.EDPOL = 1; /* Polarity-leading edge sets output/trailing clears */

EMIOS.CH[0].CCR.B.EDSEL = 1; /* internal counter trigger by both edges */

EMIOS.CH[0].CCR.B.MODE = 0x04; /* Input pulse width measurement */

SIU.PCR[179].R = 0x0500; /* Initialize pad for eMIOS chan. 0 input */

}

void initEMIOSch1(void) /* EMIOS CH 1: Output Pulse Width Modulation (OPWMB) */

{

EMIOS.CH[1].CADR.R = 500; /* Leading edge when channel counter bus=500 */

EMIOS.CH[1].CBDR.R = 999; /* Trailing edge when channel's counter bus=999 */

EMIOS.CH[1].CCR.B.BSL = 0x0; /* Use counter bus A (default) */

EMIOS.CH[1].CCR.B.EDPOL = 1; /* Polarity-leading edge sets output/trailing clears */

EMIOS.CH[1].CCR.B.MODE = 0x60; /* MPC551x, MPC563x: Mode is OPWM Buffered */

SIU.PCR[180].R = 0x0600; /* Initialize pad for eMIOS chan. 1 output */

}

void initEMIOS(void)

{

EMIOS.MCR.B.GPRE= 131; /* Divide 40 MHz sysclk by 39+1 = 40 for 1MHz eMIOS clk */

EMIOS.MCR.B.GPREN = 1;/* Enable eMIOS clock */

EMIOS.MCR.B.GTBE = 1;/* Enable global time base */

EMIOS.MCR.B.FRZ = 1;/* Enable stopping channels when in debug mode */

}

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martin_kovar
NXP Employee
NXP Employee

Hi,

at first, please try the example I sent you and analyze the single steps. From the code you posted here I have no idea what you want to do. You are mixing two channels (OPWM and IPWM) together, so It cannot work correct.

If you want to measure the frequency of the generated OPWM, connect physically  the output pin from OPWM channel to input pin from IPWM channel.

Regards,

Martin

770 Views
martin_kovar
NXP Employee
NXP Employee

Hi,

after power on reset, FMPLL is set to 60MHz. With 40MHz crystal, it is possible to decrease the frequency to 4MHz or increase up to 264MHz.

Emios clock is half of the FMPLL clock and eMIOS itself enables prescaler 256. By simple calculation, you get:

Minimal frequency: 2MHz/256 = 0.0078125MHz = 7.8125KHz

Maximal frequency: 132MHz

And also each channel has it's own prescaler, which can be set from 0 to 4.

Regards,

Martin