View previous topic :: View next topic |
Author |
Message |
soonc
Joined: 03 Dec 2013 Posts: 215
|
PIC18F67K22 Erased code What happened |
Posted: Fri Feb 28, 2014 8:39 pm |
|
|
Suddenly the code did not run anymore.
As this was experimental code I was able to read a good unit and the unit that stopped working.
The chip is a PIC18F67K22 .
The code that got clobbered is at the very start of code after the boot loader.
I looked at the boot loader code because it's the only way I could see that my code could erase a block.
However there are lots of conditions that have to be met before the boot loader code could possibly do this, and I can't see that could happen when no request to boot load was ever setup.
First: The unit has to be connected to by Bluetooth, and the Bluetooth module's "connected" pin has to be high. If it's NOT connected the boot load cannot proceed.
Second: The PC program has to send a two byte code (making it a 65535:1 chance of happening randomly.) to allow the boot load to proceed.
Third: Each line of the modified Intel HEX carries an extra ChkSum and the line is rejected if the calculated ChkSum does not match the sent ChkSum.
I find it hard to accept that all of the above conditions could be true for the loader code to proceed to do a Block Erase.
So my questions are:
Has anyone heard of code being unintentionally erased ?
What could cause such a problem ?
Yes! it could be my code, but I don't think so.
Thanks.
Good code: Normal Intel HEX
D <! :1008000048EFB0F0FFFFFFFF046ED8CF05F0E0CF58
D <! :1008100006F00001E9CF0CF0EACF07F0E1CF08F0D5
D <! :10082000E2CF09F0D9CF0AF0DACF0BF0F3CF12F014
D <! :10083000F4CF13F0FACF14F0F5CF15F0F6CF16F091
D <! :10084000F7CF17F0F8CF18F0FBCF19F000C00EF07B
D <! :1008500001C00FF002C010F003C011F09DA034EFF2
D <! :1008600004F09EB03FEF17F0A0A23AEF04F0A1B25F
D <! :1008700059EF17F0F0A640EF04F0F0B031EF17F0A9
Unit that Stopped working:
I !> :10080000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF8
I !> :10081000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFE8
I !> :10082000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFD8
I !> :10083000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFC8
I !> :10084000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFB8
I !> :10085000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFA8
I !> :10086000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF98
I !> :10087000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF88 |
|
|
PCM programmer
Joined: 06 Sep 2003 Posts: 21708
|
|
Posted: Fri Feb 28, 2014 9:22 pm |
|
|
1. Post your #fuses and #use delay() lines, and any #device lines.
2. Post if you're compiling in Debug or Release mode.
3. What is the Vdd voltage connected to your PIC ?
4. Do you have all required connections as shown in this section of the
18F67K22 data sheet, especially ENVREG and Vcap/VDDcore and all
the individual bypass caps on the Vdd pins:
Quote: | FIGURE 2-1: RECOMMENDED MINIMUM CONNECTIONS |
5. What's your compiler version ? |
|
|
Ttelmah
Joined: 11 Mar 2010 Posts: 19548
|
|
Posted: Sat Mar 01, 2014 1:57 am |
|
|
What is connected to your MCLR pin?.
Partial erasing _can_ sometimes occur if this pin goes above Vdd. There is no clamp diode on this pin, and if it is not protected by such a diode, and has some circuitry attached, and some RF, with nothing to pull it down, it can act as a radio receiver, and charge to a voltage above Vdd. Individual blocks then erase depending on the thresholds for different parts of the chip...
The 'minimum connections' shown in the page referred to by PCM_programmer, have it clamped to Vdd, and a capacitor to ground (I'd personally add a reverse biased diode across R1 - this is shown in many sheets for other chips), to ensure that it is never significantly above Vdd.
Best Wishes |
|
|
soonc
Joined: 03 Dec 2013 Posts: 215
|
|
Posted: Sat Mar 01, 2014 2:04 pm |
|
|
PCM Programmer and Ttelmah,
Thanks for your replies.
Vdd is 3.3V
100nF X7R caps at all Vdd pins (within 3-4mm of pin)
One Tantalum 10uF on Vdd very close to one of the uP Vdd pins.
ENVREG pin is Grounded because I'm not using the internal reg.
R1=33K R2=220 Ohm C1=1uF I always use the Extra Diode connected
across R1 Cathode to Vdd as suggested by Ttelmah.
Good solid copper ground plane for 0V and Vdd line is not very long to actual regulator (Linear LT1844-3V3) Reg. is decoupled as per Linear's recommendation. LT1844 get 3.65V from a (two D cell) MAXIM DC-DC capable of delivering 500mA.
The raw power is not noisy.
I need to check and see if there are any glitches at power up.
The DC-DC is always ON and only draws 30-40uA when unit is switched off.
So I feel sure it's ready to handle the switch on surge, but I did not look for glitches or V over shoots. I'll do that now.
Compiler: CCS V4.135 I also have the newest but most units were programed with V4.135.
FUSES: Not the unit that failed was programmed with no protection but protected units failed also. I needed to be able to read the uP and it took over 2 months of daily/use testing for the problem to happen.
Code is compiled for release.
Is it really needed to set WDTxxx to a value when NOWDT is used ?
Thanks again for your suggestions.
Code: | #ifdef _NOT_PROTECTED_
#fuses NOWDT, WDT128, HSM, PLLEN, NOPROTECT, SOSC_DIG, CCP2E7, NOBROWNOUT, BORV27, PUT, NOCPD, STVREN, NODEBUG, NOWRT, NOCPB, NOEBTR, NOWRTD, NOWRTC, NOWRTB
#else
#fuses NOWDT, WDT128, HSM, PLLEN, PROTECT, SOSC_DIG, CCP2E7, NOBROWNOUT, BORV27, PUT, NOCPD, STVREN, NODEBUG, WRT, CPB, NOEBTR, NOWRTD, WRTC, WRTB
#endif |
|
|
|
PCM programmer
Joined: 06 Sep 2003 Posts: 21708
|
|
Posted: Sat Mar 01, 2014 3:30 pm |
|
|
There was once a guy who PM'ed me about a very similar issue.
It was either bootloader code or internal eeprom that was being erased.
I think it was the program code.
I had him read the fuses from the PIC and in the affected units the
brownout voltage was set to 2.0v, and in the good units it was 4.5v.
Somehow some of his units were programmed with the wrong fuses
and shipped out into the field. He never came back so I think this
cured his problem.
I notice you don't have brownout enabled, probably because this is
a low power battery-operated device. According the the 18F67K22
data sheet, high-power brownout mode only requires 4.5ua at 3.3v.
In high-power brownout mode the trip levels for BORV30 are 2.82v
min and 3.18v max. So you could try enabling that one, or at least
try BORV27. |
|
|
soonc
Joined: 03 Dec 2013 Posts: 215
|
|
Posted: Sat Mar 01, 2014 4:08 pm |
|
|
PCM programmer wrote: | .... So you could try enabling that one, or at least
try BORV27. |
As this is Battery powered unit, and the On/Off switch is not a simple toggle switch, it is a push button that powers the uP and the uP sets a "keep alive" line high.
I had a problem when I had the BrownOut enabled because when the user selected Switch Off the unit Killed the "Keep Alive" line the BrownOut kicked in and the uP rebooted, so it could not power down.
I think this is the fuses that was read from the unit. Both the good and bad unit have the same values.
Is there a simple utility to decode the HEX value into FUSE values ?
:020000040030CA
:0E00000015D3681C01889100FFC0FFE0FF408F
:00000001FF
;PIC18F67K22 |
|
|
PCM programmer
Joined: 06 Sep 2003 Posts: 21708
|
|
Posted: Sat Mar 01, 2014 4:54 pm |
|
|
I can do that, but can you post your #use delay() statement and your
external crystal or oscillator frequency ? |
|
|
soonc
Joined: 03 Dec 2013 Posts: 215
|
|
Posted: Sat Mar 01, 2014 6:29 pm |
|
|
PCM programmer wrote: | I can do that, but can you post your #use delay() statement and your
external crystal or oscillator frequency ? |
Sorry I forget.
#use delay(clock=29491200) // basic crystal Frequency is 7,372,800Hz |
|
|
PCM programmer
Joined: 06 Sep 2003 Posts: 21708
|
|
Posted: Sat Mar 01, 2014 9:26 pm |
|
|
The Config bits from your hex file match what you put into you have in
your #fuses line.
These are the fuses reported at the end of the .LST file for a program
with your #fuses statements (with _NOT_PROTECTED_ defined).
I put the INTRC_HP in brackets because that's a bug in the compiler's
Config bits report. The bug is still there in vs. 5.020.
In some cases the settings may seem strange, for example with brownout
it has Zero Power Brownout mode selected, but that's the default if you
don't specify it, and you're not enabling brownout anyway so it doesn't
matter.
Code: | Configuration Fuses:
Word 1: D315 VREGSLEEP [INTRC_HP] SOSC_DIG NOXINST HSM PLLEN FCMEN IESO
Word 2: 1C68 PUT NOBROWNOUT BORV27 ZPBORM NOWDT WDT128
Word 3: 8801 RTCOSC_T1 CCP2E7 MSSPMSK7 MCLR
Word 4: 0091 STVREN BBSIZ2K NODEBUG
Word 5: C0FF NOPROTECT NOCPB NOCPD
Word 6: E0FF NOWRT NOWRTC NOWRTB NOWRTD
Word 7: 40FF NOEBTR NOEBTRB |
The numbers above are allocated as shown below. You can look in the
Config bits section of the 18F67K22 data sheet (in the Special Features
section) and see that they match the intended settings in your #fuses.
Code: |
Config1L 15
Config1H D3
Config2L 68
Config2H 1C
Config3L 01
Config3H 88
Config4L 91
Config4H N/A
Config5L FF
Config5H C0
Config6L FF
Config6H E0
Config7L FF
Config7H 40 |
I didn't intend that you think your #fuses were changed. That was a
problem with the other guy who accidently had some units programmed
with an old program, I suspect. I wanted to bring up the issue of
using Brownout. I answered your question but this whole post really
wasn't necessary. |
|
|
soonc
Joined: 03 Dec 2013 Posts: 215
|
|
Posted: Sat Mar 01, 2014 9:39 pm |
|
|
Thanks for decoding those fuses.
Is there a utility that can decode the HEX or did you do it all manually ?
Power Glitches:
There are no power glitches in excess of 3.3V BUT there is one big power glitch (dip) 1.3mS after power up. It dips about 1V.
Power up ramps up in 500uS. Clearly that's not good.
Power down is clean.
Thanks for all the help.
I'll post my finding if/when I get a result I can trust and repeat. |
|
|
PCM programmer
Joined: 06 Sep 2003 Posts: 21708
|
|
Posted: Sat Mar 01, 2014 9:51 pm |
|
|
I did the fuses manually.
The slow ramp up and the glitch in the power supply output are probably
causing the problem. |
|
|
soonc
Joined: 03 Dec 2013 Posts: 215
|
|
Posted: Sat Mar 01, 2014 10:27 pm |
|
|
I'll investigate the power glitch some more.
I appreciate you taking the time to decode the Fuses.
Perhaps it's a feature CCS could add to the IDE.
May be it's already "in there" but I have not seen it. |
|
|
PCM programmer
Joined: 06 Sep 2003 Posts: 21708
|
|
Posted: Sun Mar 02, 2014 8:14 pm |
|
|
You can import the hex file into MPLAB. First go to the Configure menu
and select the correct PIC. Then go to File/Import and import the Hex
file. Then got to Configure/Configuration bits and you'll see the Config
bit fields and their settings. |
|
|
soonc
Joined: 03 Dec 2013 Posts: 215
|
|
Posted: Sun Mar 02, 2014 8:33 pm |
|
|
Thanks that's a great tip.
BTW the power up ramp really was not an issue: What was NOT GOOD was the glitch that happened right after power up.
I've fixed that, and have rigged up a system to cycle the power ON and OFF every 120 Seconds. I'll leave it running for a few days.
Thanks again for the help. |
|
|
Ttelmah
Joined: 11 Mar 2010 Posts: 19548
|
|
Posted: Mon Mar 03, 2014 12:57 am |
|
|
Have to agree. The ramp time is well inside the figures allowed from the data sheet (yes this is specified). However the glitch is bad. Realistically, this _is_ a brownout, so I have to ask why the brownout fuse is 'off'. Even if you fix the core problem, worth possibly having the 'belt and braces' of enabling this as well.
Best Wishes |
|
|
|