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16C771 A/D question

 
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SherpaDoug



Joined: 07 Sep 2003
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16C771 A/D question
PostPosted: Wed Jul 14, 2004 1:57 pm     Reply with quote

I am using ver 3.104 of PCW with the 16C771 and I am suspicous of the header file values for SETUP_ADC_PORTS(). Does anyone know if there were A/D problems with this combination? Looking at the version history only seems to offer this clue:
3.200 A/D built in functions overhauled to support the newest chips (see readme.txt)
But not having the readme.txt for version 3.200 I can't tell if it is relevant to my chip. Could someone send me the readme.txt or a modern 16c771.h?

Maybe it is time for an upgrade anyway...
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PostPosted: Thu Jul 15, 2004 10:06 am     Reply with quote

Is living your e-mail address (imetrix-related) yet?
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PostPosted: Thu Jul 15, 2004 10:14 am     Reply with quote

    Changes since the last manual:

    PIC18 parts with external ROM can direct the compiler to use the ROM
    like this:
    #build(memory=0x20000:0x2FFFF)

    The reset and interrupt vectors can be moved from the normal location
    using #build like this:

    #build(reset=0x200, interrupt=0x208)

    A larger than normal area may be reserved like this:

    #build(reset=0x200:0x207, interrupt=0x208:0x2ff)

    The ADC functions have been updated to support the newest chips. Many
    of the constants used for the functions have changed however for a couple
    of months the old constants will be included in the .h files. See your
    devices .h file for details.

    New PIC18 optimization has been added. To use the new optimization
    add:
    #opt 10
    or
    #opt 11

    A new directive has been added to specify the data to be used
    to fill unused ROM locations. For example:
    #fill_rom 0x0063

    New directive to prevent WRITE_EEPROM from hanging while
    the write takes place:
    #device WRITE_EEPROM=ASYNC
    If you use this do not write to the EERPOM from both an ISR
    and outside an ISR.

    A new function CLEAR_INTERRUPT has been added. For example:
    clear_interrupt( INT_EXT );

    The #ROM directive now creates a segment for the #ROM data. This means you
    will get an error if you #ORG over the same area. This was not previously an
    error. It also means #ROM data is counted as used program memory space. These
    changes only apply if the #ROM address is inside the program memory space.


    A new function has been added: SETUP_UART that works the same as SET_UART_SPEED.
    A new feature of this function is when a FALSE (or 0) is passed it turns off the UART
    and when a TRUE (or 1) is passed in it turns the UART on. Passing in a baud rate also
    turns on the UART. The following constants may also be used on chips with the advanced
    UART:
    UART_ADDRESS - UART only accepts data with 9th bit =1
    UART_DATA - UART accepts all data

    New options for #UASE RS232:
    SAMPLE_EARLY A getc() normally samples data in the middle of a bit time. This option causes the
    sample to be at the start of a bit time. May not be used with the UART.
    RETURN=pin For FLOAT_HIGH and MULTI_MASTER this is the pin used to read the signal back.
    The default for FLOAT_HIGH is the XMIT pin and for MULTI_MASTER the RCV pin.
    MULTI_MASTER Uses the RETURN pin to determine if another master on the bus is transmitting at
    the same time. If a collision is detected bit 6 is set in RS232_ERRORS and all
    future PUTC's are ignored until bit 6 is cleared. The signal is checked at the
    start and end of a bit time. May not be used with the UART.
    LONG_DATA Makes getc() return an int16 and putc accept an int16. This is for 9 bit data formats.
    DISABLE_INTS Will cause interrupts to be disabled when the routines get or put a character.
    This prevents character distortion for software implemented I/O and prevents interaction
    between I/O in interrupt handlers and the main program when using the UART.

    See RS485.C in the drivers directory for an example RS485 protocol implementation.

    A new function SETUP_OSCILLATOR controls and returns the state of the
    internal RC oscillator on some parts. See the devices .h file for
    valid options for a particular device. Note that is INTRC or INTRC_IO
    is specified in #fuses and a #USE DELAY is used for a valid speed option,
    then the compiler will do this setup automatically at the start of main().
    WARNING: If the speed is changed at run time the compiler
    may not generate the correct delays for some built
    in functions. The last #USE DELAY encountered in the
    file is always assumed to be the correct speed. You
    can have multiple #USE DELAY lines to control the
    compilers knowledge about the speed.

    To instruct the compiler to use the extermal program memory in a part
    add the following line after the devices .h file is included:
    #BUILD( memory=start:end )
    Where start and end represent the external address space.

    A new built in function OUTPUT_TOGGLE(pin) will toggle the state of
    a specified pin. The parameter is the same as OUTPUT_HIGH.

    A new preprocessor directive has been added to make serial numbers easier
    to implement. This new feature only works with the CCS ICD units. It is
    implemented by inserting comments in the hex file that the ICD.EXE program
    understands.

    #serialize(id=xxx, file="filename.txt", listfile="filename.txt",
    prompt="text", log="filename.txt", next="xxx")

    id=xxx Specify a C CONST identifier, may be int8,int16,int32 or char array

    Use only one of the next three options:
    file="x" The file x is used to read the serial number from, and this
    file is updated by the ICD programmer. It is asumed this is
    a one line file with the serial number. The programmer will
    increment the serial number.
    listfile="x" The file x is used to read the serial number from, and this
    file is updated by the ICD programmer. It is asumed this is
    a file one serial number per line. The programmer will read the
    first line then delete that line from the file.
    next="x" The serial number X is used for the first load, then the hex file
    is updated to increment x by one.

    prompt="text" This option is optional. If specified the user will be prompted
    for a serial number on each load. If used with one of the above
    three options then the default value the user may use is picked
    according to the above rules.

    log="xxx" A file may optionaly be specified to keep a log of the date, time,
    hex file name and serial number each time the part is programmed.
    If no id=xxx is specified then this may be used as a simple log
    of all loads of the hex file.

    #USE I2C now accepts an SMBUS option.

    The CCSC program will now accept a +DF command line option to enable the
    output of a COFF debug file. MPLAB 6 may work better with this new file
    format. The MPLAB plug-in will be updated to make this the default.

    A new capability has been added to define a memory region. For example:
    typemod <,,,0x110,0x16f> banktwo;
    Will define a memory space named banktwo. The first three options for
    the typemod are for future expansion. The new type specifier may be used
    like this:
    char banktwo buffer[20];

    The read_adc() function has an optional parameter to control what read_adc does.
    The default is ADC_START_AND_READ however you may also specify ADC_START_ONLY
    to start a conversion (read_adc() returns nothing) and ADC_READ_ONLY to read
    the last result. For example:
    read_adc(ADC_START_ONLY);
    sleep();
    value=read_adc(ADC_READ_ONLY);

    New capabilities for the 629,630,675,676 chips:
    The PORT_B_PULLUPS function accepts a number like SET_TRIS_B
    to enable specific pins. For some chips this function is
    named PORT_A_PULLUPS.

    enable/disable_interrupt() functions have constants (see .h file)
    defned to enable/disable change on specific pins. For example:
    enable_interrupts(INT_RA1);

    A new error file format is now available. This new format is invoked
    with the following command line options:
    +EW Show warning messages
    +EA Show all error messages and all warnings
    +EA -EW Show all error messages and no warnings
    This is invoked in PCW from OPTIONS > FILE FORMATS. This is not yet
    available in MPLAB 6. CCS has not yet removed warning conditions from
    the example programs and include files.

    A new pre-processor directive may be used to surpress certain warnings:
    #IGNORE_WARNINGS ALL
    #IGNORE_WARNINGS NONE
    #IGNORE_WARNINGS 201
    #IGNORE_WARNINGS 201,205,212

    A new function has been added to make program memory writes more effective
    for the variety parts now available:
    WRITE_PROGRAM_MEMORY( address, dataptr, count );

    address is a byte address in PIC18 and PIC16, the LSB should be 0
    dataptr points to the data to write
    count is a count of bytes to write

    Notes:
    1. This function is most effective when count is a multiple of FLASH_WRITE_SIZE.
    2. Whenever this function is about to write to a lcoation that is a multiple
    of FLASH_ERASE_SIZE then a erase is performed on the whole block.

    The following keywords have been added to the GETENV() function:
    FLASH_WRITE_SIZE Smallest number of bytes that can be written to FLASH
    FLASH_ERASE_SIZE Smallest number of bytes that can be erased in FLASH

    The SETUP_CCPx and SET_PWMx_DUTY functions now work for up to 5 CCP
    units on chips that have them.

    The built in function SET_UART_SPEED now accepts a stream identifier
    as the second parametter. For example:
    SET_UART_SPEED(9600,GPS);

    #ORG now accepts a DEFAULT option that will cause it to apply
    to all functions including hidden math functions until a #ORG DEFAULT
    (with no address) is reached. See loader.c for an example.


    We added some support for PIC18 priority interrupts. You can define
    one interrupt as priority like this:
    #INT_RTCC FAST
    isr() {
    ...
    }
    A fast interrupt can interrupt another interrupt handler. The compiler
    does no save/restore in a fast ISR. You should do as little as possible
    and save any registers that need to be saved on your own.


    The READ_PROGRAM_EEPROM and WRITE_PROGRAM_EEPROM functions for PIC18 now
    return 16 bits. The manual indicates it is 8 bits. New functions are
    comming that will will have more options.


    Arrays may be defined with [] in many cases. For example:
    const char id[] = {"Hi There"}; // Same as [9]
    int x[]; // Same as *x
    int x[] = {1,2,3}; // Same as [3]

    The #USE I2C option NOFORCE_SW is still accepted however the new FORCE_HW
    is what will appear in future documentation.

    #INT_???? directives now allow a NOCLEAR option to prevent the compiler
    from clearing the interrupt. For example:
    #INT_RTCC NOCLEAR
    isr() {
    ...
    }

    The compiler now accepts trigraph sequences for keyboards that do not have
    the following: # [ ] \ ^ { } | ~
    The following three character sequences are translated to the indicated one char:
    ??= #
    ??( [
    ??/ \
    ??) ]
    ??' ^
    ??< {
    ??! |
    ??> }
    ??- ~

    Some new functions have been added to allow for unorthodox jumps.
    x = label_address(label); Will return the ROM address of the label
    goto_address(x); Will jump to the ROM address x

    r = setjmp(env); Standard C function (requires setjmp.h)
    longjmp(env,val); Standard C function (requires setjmp.h)

    Use these functions with GREAT caution. Note as well that setjmp and
    longjmp do not clean up the stack on 12 and 14 bit parts.

    The standard functions iscntrl,isgraph,isprint and ispunct are now in ctype.h.

    The compiler now supports the offsetof() and offsetofbit() functions. offsetof()
    requires stddef.h be included. These functions return the offset (in bytes and
    bits) of the field within a structure.

    The defines __FILE__, __LINE__ and __TIME__ are now supported.

    #USE RS232 has been updated to allow a stream identifier for the port. This
    identifier may then be used in fgetc,fgets,fprintf,and fputc to indicate what
    port to use for the function. For example:
    #use rs232(baud=9600,xmit=pin_c6,rcv=pin_c7,stream=HOSTPC)
    #use rs232(baud=1200,xmit=pin_b1,rcv=pin_b0,stream=GPS)
    #use rs232(baud=9600,xmit=pin_b3,stream=DEBUG)
    ...
    while(TRUE) {
    c=fgetc(GPS);
    fputc(c,HOSTPC);
    if(c==13)
    fprintf(DEBUG,"Got a CR\r\n");
    }

    The following functions have been added to math.h: sinh, cosh, tanh, fabs,
    fmod, atan2, frexp, ldexp, modf

    The include file "errno.h" may be included to enable error checking in the
    math functions. Since this checking takes extra ROM the checking is only
    done if errno.h has been included before math.h. The function strerror()
    may be used to format an error message.

    The standard C header files float.h, limits.h, stddef.h and locale.h are provided
    to make these compiler constants available to those who would like to use them.

    The assert macro is now supplied in assert.h. It may be used to test for a condition
    and if false will output an error on STDERR. By defualt STDERR is the first RS232
    port defined in a program. If NODEBUG is #defined then no code is generated for the
    assert macro. Example:
    assert( number_of_entries < TABLE_SIZE );

    The built-in function SPRINTF has been added. For example:
    char s[10];
    long i;

    sprintf(s,"%lu",i);

    The built in function getenv() has been added. The syntax is
    value = getenv(cstring);
    cstring is a constant string with a recognised keyword
    as follows:
    FUSE_SET:fffff Returns 1 if fuse fffff is enabled
    FUSE_VALID:fffff Returns 1 if fuse fffff is valid
    INT:iiiii Returns 1 if the interrupt iiiii is valid
    ID Returns the device ID (set by #ID)
    DEVICE Returns the device name string (like "PIC16C74")
    CLOCK Returns the Osc clock value (from a #USE DELAY)
    VERSION Returns the compiler version as a float
    VERSION_STRING Returns the compiler version as a string
    PROGRAM_MEMORY Returns the size of memory for code (in words)
    STACK Returns the stack size
    DATA_EEPROM Returns the number of bytes of data EERPOM
    READ_PROGRAM Returns a 1 if the code memory can be read
    PIN:pb Returns a 1 if bit b on port p is on this part
    ADC_CHANNELS Returns the number of A/D channels
    ADC_RESOULTION Returns the number of bits returned from READ_ADC()
    ICD Returns a 1 if this is being compiled for a ICD
    SPI Returns a 1 if the device has SPI
    USB Returns a 1 if the device has USB
    CAN Returns a 1 if the device has CAN
    I2C_SLAVE Returns a 1 if the device has I2C slave H/W
    I2C_MASTER Returns a 1 if the device has I2C master H/W
    PSP Returns a 1 if the device has PSP
    COMP Returns a 1 if the device has a comparator
    VREF Returns a 1 if the device has a voltage reference
    LCD Returns a 1 if the device has direct LCD H/W
    UART Returns the number of H/W UARTs
    CCPx Returns a 1 if the device has CCP number x
    TIMERx Returns a 1 if the device has TIMER number x
    Examples:
    #IF getenv("VERSION")<3.050
    #ERROR Compiler version too old for this program
    #ENDIF

    for(i=0;i<getenv("DATA_EEPROM");i++)
    write_eeprom(i,0);

    #IF getenv("FUSE_VALID:BROWNOUT")
    #FUSE BROWNOUT
    #ENDIF

    The PCW IDE F4 command has been removed and replaced with a feature that
    allows you to move your cursor over a (,),{ or } and the matching item
    will highlight.


SherpaDoug



Joined: 07 Sep 2003
Posts: 1640
Location: Cape Cod Mass USA

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PostPosted: Thu Jul 15, 2004 2:45 pm     Reply with quote

Anonymous wrote:
Is living your e-mail address (imetrix-related) yet?


Alas Imetrix is long dead :-(

I am now a thrall of the mighty Benthos

Doug Butler, Staff Engineer
Benthos Inc.
49 Edgerton Dr.
N. Falmouth, MA 02556-2826 USA
508-563-1000x566
[email protected]

I need to update my profile
_________________
The search for better is endless. Instead simply find very good and get the job done.
SherpaDoug



Joined: 07 Sep 2003
Posts: 1640
Location: Cape Cod Mass USA

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PostPosted: Thu Jul 15, 2004 2:52 pm     Reply with quote

Thanks for the info, but none of it seems to relate to my problem. I have found one error in my code but haven't checked the corrected version yet. I get plausable readings but linearity is terrible. If the defines in the header were wrong I would expect only garbage.

Again thanks,
_________________
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PCM programmer



Joined: 06 Sep 2003
Posts: 21708

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PostPosted: Thu Jul 15, 2004 10:55 pm     Reply with quote

Post a sample program that demonstrates the problem and
give the symptoms that you see. I'll install PCM vs. 3.104
and look at it.
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