MPC5746R Clock Mode Switch causes reset

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MPC5746R Clock Mode Switch causes reset

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ronlewis
Contributor III

I am having an issue where a mode switch is causing the processor to reset.  The odd thing is that with the debugger attached and a breakpoint after the transition the processor does not reset.  See Code below, which was generated with the "MPC574xR_Clock_Calculator_Rev3"  excel doc.  I also don't find any relevant info in the exception registers?  Is there another place to look for clock configuration faults/errors?

//Enable XOSC, PLL0, PLL1, and enter RUN0 with PLL1_PHI as the system clock (200 MHz).
void Sysclk_Init(void)
{
         MC_CGM.AC3_SC.R = 0x01000000;  //Connect XOSC to the PLL0 input.
         MC_CGM.AC4_SC.R = 0x03000000;  //Connect PLL0_PHI1 to the PLL1 input.
     
        MC_ME.RUN_PC[0].B.DRUN = 1;     
        MC_ME.RUN_PC[0].B.RUN0 = 1;
        
        //Enable external oscilator
        MC_ME.DRUN_MC.B.XOSCON = 1;

        // Set PLL0 as system clock
        MC_ME.DRUN_MC.R = 0x00130071;
     
        PLLDIG.PLL0DV.R = 0x50022028;  //PREDIV = 2, MFD = 40, RFDPHI = 2, RFDPHI1 = 10
        
         //Mode transition to enter RUN0 mode:
         MC_ME.MCTL.R = 0x30005AF0;  //Enter RUN0 Mode & Key
         MC_ME.MCTL.R = 0x3000A50F;  //Enter RUN0 Mode & Inverted Key
 
        while(!MC_ME.GS.B.S_XOSC);              //ME_GS Wait for PLL stabilization.
        while(!MC_ME.GS.B.S_PLL0);              //ME_GS Wait for PLL stabilization.
         while(MC_ME.GS.B.S_MTRANS){};  //Wait for mode transition to complete
         while(MC_ME.GS.B.S_CURRENT_MODE != 3){};  //Verify RUN0 is the current mode
     
        
        //Set PLL0 to 400 MHz with 20 MHz XOSC reference.
         PLLDIG.PLL0DV.R = 0x50012028;  //PREDIV = 2, MFD = 40, RFDPHI = 1, RFDPHI1 = 10

        MC_ME.RUN_MC[0].R = 0x001300F4;
         //Set PLL1 to 200 MHz with 40 MHz PLL0_PHI1 input.
         PLLDIG.PLL1DV.R = 0x00020014;  //MFG = 20, RFDPHI = 2
         PLLDIG.PLL1FD.R = 0x00000000;  //Disable PLL1 fractional divider.
     
        //Mode transition to enter RUN0 mode:
         MC_ME.MCTL.R = 0x40005AF0;  //Enter RUN0 Mode & Key
         MC_ME.MCTL.R = 0x4000A50F;  //Enter RUN0 Mode & Inverted Key

        //Reset occurs after this line, but does not reset if debuggin and breakpoint on next line  
        while(!MC_ME.GS.B.S_XOSC);              //ME_GS Wait for PLL stabilization.
        while(!MC_ME.GS.B.S_PLL0);              //ME_GS Wait for PLL stabilization.
        while(!MC_ME.GS.B.S_PLL1);              //ME_GS Wait for PLL stabilization.
         while(MC_ME.GS.B.S_MTRANS){};  //Wait for mode transition to complete
         while(MC_ME.GS.B.S_CURRENT_MODE != 4){};  //Verify RUN0 is the current mode
        
        // Reset occurs before the call to InitPeriClkGen()
        InitPeriClkGen();
}
void InitPeriClkGen(void)
{
         //SYS_CLK is 200 MHz.
         MC_CGM.SC_DC[0].R = 0x80000000;  //CHKR_CLK, COMP_CLK, FXBAR_CLK, BD_CLK at system clock divided by 1 (200 MHz).
         MC_CGM.SC_DC[1].R = 0x80010000;  //SXBAR_CLK and LINCLK (synchronous) at system clock divided by 2 (100 MHz).
         MC_CGM.SC_DC[2].R = 0x80030000;  //PBRIDGE_x_CLK at system clock divided by 4 (50 MHz).
     
        MC_CGM.AC0_SC.R = 0x02000000;  //Select PLL0_PHI as source of Auxiliary Clock 0
         MC_CGM.AC0_DC0.R = 0x80040000;  //PER_CLK: Enabled at Auxiliary Clock 0 divided by 5 (80 MHz).
         MC_CGM.AC0_DC1.R = 0x80070000;  //SD_CLK: Enabled at Auxiliary Clock 0 divided by 8 (50 MHz).
         MC_CGM.AC0_DC2.R = 0x80040000;  //SAR_CLK: Enabled at Auxiliary Clock 0 divided by 5 (80 MHz).
         MC_CGM.AC0_DC3.R = 0x80040000;  //DSPI_CLK0: Enabled at Auxiliary Clock 0 divided by 
         MC_CGM.AC0_DC4.R = 0x80040000;  //DSPI_CLK1 and LINCLK (asynchronous): Enabled at Auxiliary Clock 0 divided by 5 (80 MHz).
     
         MC_CGM.AC1_SC.R = 0x01000000;  //Select XOSC as source of Auxiliary Clock 1
         MC_CGM.AC1_DC0.R = 0x80000000;  //RF_REF: Enabled at Auxiliary Clock 1 divided by 1 (20 MHz).
     
         MC_CGM.AC2_SC.R = 0x02000000;  //Select PLL0_PHI as source of Auxiliary Clock 2
         MC_CGM.AC2_DC0.R = 0x80070000;  //SENT_CLK: Enabled at Auxiliary Clock 2 divided by 8 (50 MHz).
     
         //PLL0 and PLL1 are configured in SysClk_Init function.
     
         MC_CGM.AC5_SC.R = 0x02000000;  //Select PLL0_PHI as source of Auxiliary Clock 5
         MC_CGM.AC5_DC0.R = 0x80030000;  //eTPU_CLK: Enabled at Auxiliary Clock 5 divided by4 (100 MHz).
         MC_CGM.AC5_DC1.R = 0x80030000;  //eMIOS_CLK: Enabled at Auxiliary Clock 5 divided by 4 (100 MHz).
     
         MC_CGM.AC6_SC.R = 0x02000000;  //Select PLL0_PHI as source of Auxiliary Clock 6
         MC_CGM.AC6_DC0.R = 0x00130000;  //CLKOUT: Disabled.
     
         MC_CGM.AC8_SC.R = 0x01000000;  //Select XOSC as source of Auxiliary Clock 8
         MC_CGM.AC8_DC0.R = 0x80000000;  //CAN_CLK: Enabled at Auxiliary Clock 8 divided by 1 (20 MHz).
     
         MC_CGM.AC9_SC.R = 0x01000000;  //Select XOSCas source of Auxiliary Clock 9
         MC_CGM.AC9_DC0.R = 0x80000000;  //RTI_CLK: Enabled at Auxiliary Clock 9 divided by 1 (20 MHz).
     
         MC_CGM.AC10_SC.R = 0x00000000;  //Select IRCOSC as source of Auxiliary Clock 10
         MC_CGM.AC10_DC0.R = 0x000F0000;  //FEC clocks: Disabled.
         
}
15 Replies

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merlinz
Contributor II

I also had a same problem trying to put it to 100Mhz, I solved it by putting this part at the end of the InitPeriClkGen and not at the beginning

         //SYS_CLK is 200 MHz.
         MC_CGM.SC_DC[0].R = 0x80000000;  //CHKR_CLK, COMP_CLK, FXBAR_CLK, BD_CLK at system clock divided by 1 (200 MHz).
         MC_CGM.SC_DC[1].R = 0x80010000;  //SXBAR_CLK and LINCLK (synchronous) at system clock divided by 2 (100 MHz).
         MC_CGM.SC_DC[2].R = 0x80030000;  //PBRIDGE_x_CLK at system clock divided by 4 (50 MHz).

If it helps you comment on it to know if it's just my problem or also yours

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norbertunterber
Contributor II

Without looking at the code and the CPU type... 

We had exaclty the same problem with an MPC5777c CPU. It turned out that we need to use the progressive clock switch. Switching the CPU from the slow startup clock to high speed required more current than the power supply was able to handle. Using the prgressive clock switch reduces the power spikes.

Regards

Norbert

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jamesmurray
Contributor V

I'm very late to the party on this, but posting for future info - progressive clock switch is very beneficial. There are NXP videos about this that show the exact problem where you can get a big voltage dip on the core supply (e.g. 1.25V drops to 1.17V) that causes a LVD reset.

I had the same issue on one board. Enabling the progressive clock switching resolved the problems.

James

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ronlewis
Contributor III

Can you elaborate on what you mean by by progressive clock switch?  The code I have first switches to the XOSC and and PLL0, it then switched to use PLL0 and PLL1, in a separate mode switch.  

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petervlna
NXP TechSupport
NXP TechSupport

And what about this 400MHz? This micro does not support more than 200MHz

//Set PLL0 to 400 MHz with 20 MHz XOSC reference.
         PLLDIG.PLL0DV.R = 0x50012028;  //PREDIV = 2, MFD = 40, RFDPHI = 1, RFDPHI1 = 10

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ceciliac
Contributor III

According to the datasheet and the AN12020 the max limit for PLL0_PHI is 400MHz.

Regards,

Cecilia

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petervlna
NXP TechSupport
NXP TechSupport

Hi,

I expect that the reason for your reset is SWT as you code is stuck on while loop.

When debugger is connected SWT is disabled by debugger.

Peter

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ronlewis
Contributor III

petervlna   I don't believe it is the SWT, as I disable that in the startup code.  Also If I step over the SysClk_Init function call with the debugger attached I still get the reset, only if I put a break point on line 41 of the above does it pass without reset (Very Frustrating).  And once it is able to pass the clk init with out resetting it seems the software will run as expected until a complete power cycle.   

Also according to the datasheet and the "MPC574xR_Clock_Calculator_Rev3,"  400Mhz is the max for PLL0_PHI.  I am running at 400Mhz to be able to set the PER_CLK to 80MHz,

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petervlna
NXP TechSupport
NXP TechSupport

ok, in this case you should look into the RGM [DES/FES] registers for reset reason.

There is logged last reset source.

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ronlewis
Contributor III

So looking at the RGM_FES I see that both F_EXR and F_ST_DONE are set.  Looking at the STCU_ERR_STAT, I see that WDTO and RFSF are set.  I am also seeing the external RESET pin toggle.

Is this indicating that the self test is Resting the Processor?

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petervlna
NXP TechSupport
NXP TechSupport

Hmm,

and do you run online self tests?

Because reset from offline self test is correct flag, this reset is called during reset sequence. So it has no influence on SW.

What about FES register? Is it reporting any flag?

Peter

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ronlewis
Contributor III

I am not running the online self tests, The FES is reporting both F_EXR and F_ST_DONE.  

-Ron

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petervlna
NXP TechSupport
NXP TechSupport

I can check your issue if you can share with me your compiled  code or just binary file.

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ronlewis
Contributor III

The issue is isolated to a single prototype.  IE we have 3 prototypes and two of them function with the code above but one continuously resets during the clock initialization code.  On that prototype we are also seeing the external reset pin toggle to low, but I do not see any other reason in the reset status registers to indicate the reason, other than external reset status is true.  It does seem to run with the PLL0_PHI at 200mhz.

I am not sure if you would see the issue on a dev board, as I do not see the issue on my dev board, only on this one prototype. 

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petervlna
NXP TechSupport
NXP TechSupport

Ok,
what about voltages, are they in correct range all the time?

If your reset pin is toggling then either you have periodic fault in your SW, or you have issue with power supply in some corner case. For example if CRC test is executed (high current withdraw).

Do the measurement to see if the powers are correct all the time.

If there is a significant drop, not event RGM can capture it as this module gets reset also.

Peter