Go Down

Topic: funny A/D channel readings with Bobuino-1284 ??? (Read 4108 times) previous topic - next topic

oric_dan

Would you check whether the problem talked about on this thread is real, or if I
only dreamed it?

Eg, put a voltage on one of the A/D channels of the Bobuino 1284 bootloader chip
and then try to read it using analogRead().


retrolefty


Would you check whether the problem talked about on this thread is real, or if I
only dreamed it?

Eg, put a voltage on one of the A/D channels of the Bobuino 1284 bootloader chip
and then try to read it using analogRead().




Yes, it seems to be messed up with or without the proposed changes to pins_arduino.h file you suggested.

I'll post what my pins read Vs what pins they should read a little later, have to go pick up wife at her
art lessons.

Lefty

retrolefty

#17
Jan 23, 2013, 01:35 am Last Edit: Jan 23, 2013, 01:41 am by retrolefty Reason: 1
OK, I'm using a 644P chip with the bobuino variant pins_arduino.h file being used. So using the example sketch Basics/AnalogReadSerial, I tried each analog channel number using both their Ax value and their digital pin alias (14-21) I got the following results:

sketch software pin name used               valid voltage reading shows up on shield pin

A0 (or14)                                                A1 (15)
A1 (or15)                                                A0 (14)
A2 (or16)                                                A7 (21)
A3 (or17)                                                A6 (20)
A4 (or18)                                                A5 (19)
A5 (or19)                                                A4 (18)
A6 (or20)                                                A3 (17)
A7 (or21)                                                A2 (16)

I tested the digital pin numbers using digitalRead command and sending them out the serial port and manipulated the pins with a ground after having enabled their internal pull-ups, and see no problem, pin mapping is correct for Bobuino D0 through D31 for digitalRead commands.

So the problem seems to be in the mapping of the analog channels numbers 0-7 to the correct digital pin numbers. Or maybe the mapping is correct but the analog mux selection bits are backwards or something?

Lefty

Variant pins_arduino.h file being used
Code: [Select]

#ifndef Pins_Arduino_h
#define Pins_Arduino_h

#include <avr/pgmspace.h>

// ATMEL ATMEGA1284P on Bobuino
//
//                       +---\/---+
//           (D 4) PB0 1 |        | 40 PA0 (D 21) AI 7
//           (D 5) PB1 2 |        | 39 PA1 (D 20) AI 6
//      INT2 (D 6) PB2 3 |        | 38 PA2 (D 19) AI 5
//       PWM (D 7) PB3 4 |        | 37 PA3 (D 18) AI 4
//   PWM/SS (D 10) PB4 5 |        | 36 PA4 (D 17) AI 3
//     MOSI (D 11) PB5 6 |        | 35 PA5 (D 16) AI 2
// PWM/MISO (D 12) PB6 7 |        | 34 PA6 (D 15) AI 1
//  PWM/SCK (D 13) PB7 8 |        | 33 PA7 (D 14) AI 0
//                 RST 9 |        | 32 AREF
//                VCC 10 |        | 31 GND
//                GND 11 |        | 30 AVCC
//              XTAL2 12 |        | 29 PC7 (D 29)
//              XTAL1 13 |        | 28 PC6 (D 28)
//      RX0 (D 0) PD0 14 |        | 27 PC5 (D 27) TDI
//      TX0 (D 1) PD1 15 |        | 26 PC4 (D 26) TDO
// INT0 RX1 (D 2) PD2 16 |        | 25 PC3 (D 25) TMS
// INT1 TX1 (D 3) PD3 17 |        | 24 PC2 (D 24) TCK
//     PWM (D 30) PD4 18 |        | 23 PC1 (D 23) SDA
//      PWM (D 8) PD5 19 |        | 22 PC0 (D 22) SCL
//      PWM (D 9) PD6 20 |        | 21 PD7 (D 31) PWM
//                       +--------+
//

#define NUM_DIGITAL_PINS            32
#define NUM_ANALOG_INPUTS           8
#define analogInputToDigitalPin(p)  ((p < NUM_ANALOG_INPUTS) ? 21 - (p) : -1)
extern const uint8_t digital_pin_to_pcint[NUM_DIGITAL_PINS];
extern const uint16_t __pcmsk[];
extern const uint8_t digital_pin_to_timer_PGM[NUM_DIGITAL_PINS];

#define ifpin(p,what,ifnot)    (((p) >= 0 && (p) < NUM_DIGITAL_PINS) ? (what) : (ifnot))
#define digitalPinHasPWM(p)         ifpin(p,pgm_read_byte(digital_pin_to_timer_PGM + (p)) != NOT_ON_TIMER,1==0)

#define digitalPinToAnalogPin(p)    ( (p) >= 14 && (p) <= 21 ? (p) - 14 : -1 )
#define analogPinToChannel(p)    ( (p) < NUM_ANALOG_INPUTS ? NUM_ANALOG_INPUTS - (p) : -1 )

static const uint8_t SS   = 10;
static const uint8_t MOSI = 11;
static const uint8_t MISO = 12;
static const uint8_t SCK  = 13;

static const uint8_t SDA = 23;
static const uint8_t SCL = 22;
static const uint8_t LED = 13;

static const uint8_t A0 = 14;
static const uint8_t A1 = 15;
static const uint8_t A2 = 16;
static const uint8_t A3 = 17;
static const uint8_t A4 = 18;
static const uint8_t A5 = 19;
static const uint8_t A6 = 20;
static const uint8_t A7 = 21;

#define digitalPinToPCICR(p)    ifpin(p,&PCICR,(uint8_t *)0)
#define digitalPinToPCICRbit(p) ifpin(p,digital_pin_to_pcint[p] >> 3,(uint8_t *)0)
#define digitalPinToPCMSK(p)    ifpin(p,__pcmsk[digital_pin_to_pcint[]],(uint8_t *)0)
#define digitalPinToPCMSKbit(p) ifpin(p,digital_pin_to_pcint[p] & 0x7,(uint8_t *)0)

#ifdef ARDUINO_MAIN

#define PA 1
#define PB 2
#define PC 3
#define PD 4

const uint8_t digital_pin_to_pcint[NUM_DIGITAL_PINS] =
{
 24, // D0 PD0
 25, // D1 PD1
 26, // D2 PD2
 27, // D3 PD3
 8, // D4 PB0
 9, // D5 PB1
 10, // D6 PB2
 11, // D7 PB3
 29, // D8 PD5
 30, // D9 PD6
 12, // D10 PB4
 13, // D11 PB5
 14, // D12 PB6
 15, // D13 PB7
 7, // D14 PA7
 6, // D15 PA6
 5, // D16 PA5
 4, // D17 PA4
 3, // D18 PA3
 2, // D19 PA2
 1, // D20 PA1
 0, // D21 PA0
 16, // D22 PC0
 17, // D23 PC1
 18, // D24 PC2
 19, // D25 PC3
 20, // D26 PC4
 21, // D27 PC5
 22, // D28 PC6
 23, // D29 PC7
 28, // D30 PD4
 31, // D31 PD7
};

const uint16_t __pcmsk[] =
{
 (uint16_t)&PCMSK0,
 (uint16_t)&PCMSK1,
 (uint16_t)&PCMSK2,
 (uint16_t)&PCMSK3
};

// these arrays map port names (e.g. port B) to the
// appropriate addresses for various functions (e.g. reading
// and writing)
const uint16_t PROGMEM port_to_mode_PGM[] =
{
NOT_A_PORT,
(uint16_t) &DDRA,
(uint16_t) &DDRB,
(uint16_t) &DDRC,
(uint16_t) &DDRD,
};

const uint16_t PROGMEM port_to_output_PGM[] =
{
NOT_A_PORT,
(uint16_t) &PORTA,
(uint16_t) &PORTB,
(uint16_t) &PORTC,
(uint16_t) &PORTD,
};

const uint16_t PROGMEM port_to_input_PGM[] =
{
NOT_A_PORT,
(uint16_t) &PINA,
(uint16_t) &PINB,
(uint16_t) &PINC,
(uint16_t) &PIND,
};

const uint8_t PROGMEM digital_pin_to_port_PGM[NUM_DIGITAL_PINS] =
{
 PD, // D0
 PD, // D1
 PD, // D2
 PD, // D3
 PB, // D4
 PB, // D5
 PB, // D6
 PB, // D7
 PD, // D8
 PD, // D9
 PB, // D10
 PB, // D11
 PB, // D12
 PB, // D13
 PA, // D14
 PA, // D15
 PA, // D16
 PA, // D17
 PA, // D18
 PA, // D19
 PA, // D20
 PA, // D21
 PC, // D22
 PC, // D23
 PC, // D24
 PC, // D25
 PC, // D26
 PC, // D27
 PC, // D28
 PC, // D29
 PD, // D30
 PD, // D31
};

const uint8_t PROGMEM digital_pin_to_bit_mask_PGM[NUM_DIGITAL_PINS] =
{
 _BV(0), // D0 PD0
 _BV(1), // D1 PD1
 _BV(2), // D2 PD2
 _BV(3), // D3 PD3
 _BV(0), // D4 PB0
 _BV(1), // D5 PB1
 _BV(2), // D6 PB2
 _BV(3), // D7 PB3
 _BV(5), // D8 PD5
 _BV(6), // D9 PD6
 _BV(4), // D10 PB4
 _BV(5), // D11 PB5
 _BV(6), // D12 PB6
 _BV(7), // D13 PB7
 _BV(7), // D14 PA7
 _BV(6), // D15 PA6
 _BV(5), // D16 PA5
 _BV(4), // D17 PA4
 _BV(3), // D18 PA3
 _BV(2), // D19 PA2
 _BV(1), // D20 PA1
 _BV(0), // D21 PA0
 _BV(0), // D22 PC0
 _BV(1), // D23 PC1
 _BV(2), // D24 PC2
 _BV(3), // D25 PC3
 _BV(4), // D26 PC4
 _BV(5), // D27 PC5
 _BV(6), // D28 PC6
 _BV(7), // D29 PC7
 _BV(4), // D30 PD4
 _BV(7), // D31 PD7
};

const uint8_t PROGMEM digital_pin_to_timer_PGM[NUM_DIGITAL_PINS] =
{
 NOT_ON_TIMER, // D0 PD0
 NOT_ON_TIMER, // D1 PD1
 NOT_ON_TIMER, // D2 PD2
 NOT_ON_TIMER, // D3 PD3
 NOT_ON_TIMER, // D4 PB0
 NOT_ON_TIMER, // D5 PB1
 NOT_ON_TIMER, // D6 PB2
 TIMER0A, // D7 PB3
 TIMER1A, // D8 PD5
 TIMER2B, // D9 PD6
 TIMER0B, // D10 PB4
 NOT_ON_TIMER, // D11 PB5
 TIMER3A, // D12 PB6
 TIMER3B, // D13 PB7
 NOT_ON_TIMER, // D14 PA0
 NOT_ON_TIMER, // D15 PA1
 NOT_ON_TIMER, // D16 PA2
 NOT_ON_TIMER, // D17 PA3
 NOT_ON_TIMER, // D18 PA4
 NOT_ON_TIMER, // D19 PA5
 NOT_ON_TIMER, // D20 PA6
 NOT_ON_TIMER, // D21 PA7
 NOT_ON_TIMER, // D22 PC0
 NOT_ON_TIMER, // D23 PC1
 NOT_ON_TIMER, // D24 PC2
 NOT_ON_TIMER, // D25 PC3
 NOT_ON_TIMER, // D26 PC4
 NOT_ON_TIMER, // D27 PC5
 NOT_ON_TIMER, // D28 PC6
 NOT_ON_TIMER, // D29 PC7
 TIMER1B, // D30 PD4
 TIMER2A, // D31 PD7
};

#endif // ARDUINO_MAIN

#endif // Pins_Arduino_h
// vim:ai:cin:sts=2 sw=2 ft=cpp


oric_dan

I had earlier checked the signals going to digital pins D0..D31, and they all matched
ok. However, try changing to the following line in Bobuino variant pins_arduino.h,

Code: [Select]
#define analogPinToChannel(p)   ( (p) < NUM_ANALOG_INPUTS ?
  (NUM_ANALOG_INPUTS-1) - (p) : -1 )


The original produces 8..1 for p=0..7, while this one produces 7..0 for p=0..7.



retrolefty


I had earlier checked the signals going to digital pins D0..D31, and they all matched
ok. However, try changing to the following line in Bobuino variant pins_arduino.h,

Code: [Select]
#define analogPinToChannel(p)   ( (p) < NUM_ANALOG_INPUTS ?
  (NUM_ANALOG_INPUTS-1) - (p) : -1 )


The original produces 8..1 for p=0..7, while this one produces 7..0 for p=0..7.





That made no change to the results of prior test, same weird ordering. However this ugly hack does fix it if using just the Ax name, but of course doesn't fix using the digital pin number work correctly.

Code: [Select]

static const uint8_t A0 = 15;
static const uint8_t A1 = 14;
static const uint8_t A2 = 21;
static const uint8_t A3 = 20;
static const uint8_t A4 = 19;
static const uint8_t A5 = 18;
static const uint8_t A6 = 17;
static const uint8_t A7 = 16;



Lefty

cyclegadget

   Using this sketch to test my Bobuino analogpins:

Code: [Select]
void setup() {
  // declare the ledPin as an OUTPUT:
  Serial.begin(9600);
}

void loop() {
  // read the value from the sensor:
  for (int i=0; i < 8; i++){
    int sensorValue = analogRead(i);   
    Serial.print("A");   
    Serial.print(i);
    Serial.print( " = ");
    Serial.println(sensorValue);
    delay(500);
  }
}


My results:
printed name              Actual pin
    A0                              A0
    A1                              A7
    A2                              A6
    A3                              A5
    A4                              A4
    A5                              A3
    A6                              A2
    A7                              A1
Good links: Eagle tutorial= http://www.youtube.com/playlist?list=PLDE1858BD83D19C70
General Arduion tutorials = http://tronixstuff.wordpress.com
http://www.gammon.com.au/forum/bbshowpost.php?bbtopic_id=123

retrolefty

#21
Jan 23, 2013, 04:02 am Last Edit: Jan 23, 2013, 04:09 am by retrolefty Reason: 1
That appears to work for you. Doesn't for me, Could you post the contents of your Bobuino variant pins_arduino.h file?

That is one way of testing I didn't try, using numbers 0 to 7 to refeer to the analog pin names A0 to A7 or by using their digital pin numbers 14 to 21. All forms should work the same. However when I tried your sketch I see 0 reading A7, 1 reading A6, etc, so a symmetrical flip of 0-7 to 7-0. Not the same results I see when I'm using A0 or 14.

I'm sure it's Bob's fault for not testing his analog input pins before sending his PCBs out for production.  :D

Lefty

CrossRoads

Indeed.  I only tested for digital functionality, never tried a pot on each analog pin.

Maniacbug flipped the analog pin mappings end for end for me, so that ADC7 (near the middle of the chip) went direct to the A0 header near the middle of the board, the way a Duemilanove/Uno has them. (whereas ADC0 is near the middle on a '328).

The line identified in pins_arduino.h
Code: [Select]

#define analogPinToChannel(p)   ( (p) < NUM_ANALOG_INPUTS ?   (NUM_ANALOG_INPUTS-1) - (p) : -1 )
might be the key.
Designing & building electrical circuits for over 25 years.  Screw Shield for Mega/Due/Uno,  Bobuino with ATMega1284P, & other '328P & '1284P creations & offerings at  my website.

cyclegadget


@retrolefty

Code: [Select]
#ifndef Pins_Arduino_h
#define Pins_Arduino_h

#include <avr/pgmspace.h>

// ATMEL ATMEGA1284P on Bobuino
//
//                       +---\/---+
//           (D 4) PB0 1 |        | 40 PA0 (D 21) AI 7
//           (D 5) PB1 2 |        | 39 PA1 (D 20) AI 6
//      INT2 (D 6) PB2 3 |        | 38 PA2 (D 19) AI 5
//       PWM (D 7) PB3 4 |        | 37 PA3 (D 18) AI 4
//   PWM/SS (D 10) PB4 5 |        | 36 PA4 (D 17) AI 3
//     MOSI (D 11) PB5 6 |        | 35 PA5 (D 16) AI 2
// PWM/MISO (D 12) PB6 7 |        | 34 PA6 (D 15) AI 1
//  PWM/SCK (D 13) PB7 8 |        | 33 PA7 (D 14) AI 0
//                 RST 9 |        | 32 AREF
//                VCC 10 |        | 31 GND
//                GND 11 |        | 30 AVCC
//              XTAL2 12 |        | 29 PC7 (D 29)
//              XTAL1 13 |        | 28 PC6 (D 28)
//      RX0 (D 0) PD0 14 |        | 27 PC5 (D 27) TDI
//      TX0 (D 1) PD1 15 |        | 26 PC4 (D 26) TDO
// INT0 RX1 (D 2) PD2 16 |        | 25 PC3 (D 25) TMS
// INT1 TX1 (D 3) PD3 17 |        | 24 PC2 (D 24) TCK
//     PWM (D 30) PD4 18 |        | 23 PC1 (D 23) SDA
//      PWM (D 8) PD5 19 |        | 22 PC0 (D 22) SCL
//      PWM (D 9) PD6 20 |        | 21 PD7 (D 31) PWM
//                       +--------+
//

#define NUM_DIGITAL_PINS            32
#define NUM_ANALOG_INPUTS           8
#define analogInputToDigitalPin(p)  ((p < NUM_ANALOG_INPUTS) ? 21 - (p) : -1)

extern const uint8_t digital_pin_to_pcint[NUM_DIGITAL_PINS];
extern const uint16_t __pcmsk[];
extern const uint8_t digital_pin_to_timer_PGM[NUM_DIGITAL_PINS];

#define ifpin(p,what,ifnot)     (((p) >= 0 && (p) < NUM_DIGITAL_PINS) ? (what) : (ifnot))
#define digitalPinHasPWM(p)         ifpin(p,pgm_read_byte(digital_pin_to_timer_PGM + (p)) != NOT_ON_TIMER,1==0)

#define digitalPinToAnalogPin(p)    ( (p) >= 14 && (p) <= 21 ? (p) - 14 : -1 )
#define analogPinToChannel(p)     ( (p) < NUM_ANALOG_INPUTS ? NUM_ANALOG_INPUTS - (p) : -1 )

static const uint8_t SS   = 10;
static const uint8_t MOSI = 11;
static const uint8_t MISO = 12;
static const uint8_t SCK  = 13;

static const uint8_t SDA = 23;
static const uint8_t SCL = 22;
static const uint8_t LED = 13;

static const uint8_t A0 = 14;
static const uint8_t A1 = 15;
static const uint8_t A2 = 16;
static const uint8_t A3 = 17;
static const uint8_t A4 = 18;
static const uint8_t A5 = 19;
static const uint8_t A6 = 20;
static const uint8_t A7 = 21;

#define digitalPinToPCICR(p)    ifpin(p,&PCICR,(uint8_t *)0)
#define digitalPinToPCICRbit(p) ifpin(p,digital_pin_to_pcint[p] >> 3,(uint8_t *)0)
#define digitalPinToPCMSK(p)    ifpin(p,__pcmsk[digital_pin_to_pcint[]],(uint8_t *)0)
#define digitalPinToPCMSKbit(p) ifpin(p,digital_pin_to_pcint[p] & 0x7,(uint8_t *)0)

#ifdef ARDUINO_MAIN

#define PA 1
#define PB 2
#define PC 3
#define PD 4

const uint8_t digital_pin_to_pcint[NUM_DIGITAL_PINS] =
{
  24, // D0 PD0
  25, // D1 PD1
  26, // D2 PD2
  27, // D3 PD3
  8, // D4 PB0
  9, // D5 PB1
  10, // D6 PB2
  11, // D7 PB3
  29, // D8 PD5
  30, // D9 PD6
  12, // D10 PB4
  13, // D11 PB5
  14, // D12 PB6
  15, // D13 PB7
  7, // D14 PA7
  6, // D15 PA6
  5, // D16 PA5
  4, // D17 PA4
  3, // D18 PA3
  2, // D19 PA2
  1, // D20 PA1
  0, // D21 PA0
  16, // D22 PC0
  17, // D23 PC1
  18, // D24 PC2
  19, // D25 PC3
  20, // D26 PC4
  21, // D27 PC5
  22, // D28 PC6
  23, // D29 PC7
  28, // D30 PD4
  31, // D31 PD7
};

const uint16_t __pcmsk[] =
{
  (uint16_t)&PCMSK0,
  (uint16_t)&PCMSK1,
  (uint16_t)&PCMSK2,
  (uint16_t)&PCMSK3
};

// these arrays map port names (e.g. port B) to the
// appropriate addresses for various functions (e.g. reading
// and writing)
const uint16_t PROGMEM port_to_mode_PGM[] =
{
NOT_A_PORT,
(uint16_t) &DDRA,
(uint16_t) &DDRB,
(uint16_t) &DDRC,
(uint16_t) &DDRD,
};

const uint16_t PROGMEM port_to_output_PGM[] =
{
NOT_A_PORT,
(uint16_t) &PORTA,
(uint16_t) &PORTB,
(uint16_t) &PORTC,
(uint16_t) &PORTD,
};

const uint16_t PROGMEM port_to_input_PGM[] =
{
NOT_A_PORT,
(uint16_t) &PINA,
(uint16_t) &PINB,
(uint16_t) &PINC,
(uint16_t) &PIND,
};

const uint8_t PROGMEM digital_pin_to_port_PGM[NUM_DIGITAL_PINS] =
{
  PD, // D0
  PD, // D1
  PD, // D2
  PD, // D3
  PB, // D4
  PB, // D5
  PB, // D6
  PB, // D7
  PD, // D8
  PD, // D9
  PB, // D10
  PB, // D11
  PB, // D12
  PB, // D13
  PA, // D14
  PA, // D15
  PA, // D16
  PA, // D17
  PA, // D18
  PA, // D19
  PA, // D20
  PA, // D21
  PC, // D22
  PC, // D23
  PC, // D24
  PC, // D25
  PC, // D26
  PC, // D27
  PC, // D28
  PC, // D29
  PD, // D30
  PD, // D31
};

const uint8_t PROGMEM digital_pin_to_bit_mask_PGM[NUM_DIGITAL_PINS] =
{
  _BV(0), // D0 PD0
  _BV(1), // D1 PD1
  _BV(2), // D2 PD2
  _BV(3), // D3 PD3
  _BV(0), // D4 PB0
  _BV(1), // D5 PB1
  _BV(2), // D6 PB2
  _BV(3), // D7 PB3
  _BV(5), // D8 PD5
  _BV(6), // D9 PD6
  _BV(4), // D10 PB4
  _BV(5), // D11 PB5
  _BV(6), // D12 PB6
  _BV(7), // D13 PB7
  _BV(7), // D14 PA7
  _BV(6), // D15 PA6
  _BV(5), // D16 PA5
  _BV(4), // D17 PA4
  _BV(3), // D18 PA3
  _BV(2), // D19 PA2
  _BV(1), // D20 PA1
  _BV(0), // D21 PA0
  _BV(0), // D22 PC0
  _BV(1), // D23 PC1
  _BV(2), // D24 PC2
  _BV(3), // D25 PC3
  _BV(4), // D26 PC4
  _BV(5), // D27 PC5
  _BV(6), // D28 PC6
  _BV(7), // D29 PC7
  _BV(4), // D30 PD4
  _BV(7), // D31 PD7
};

const uint8_t PROGMEM digital_pin_to_timer_PGM[NUM_DIGITAL_PINS] =
{
  NOT_ON_TIMER, // D0 PD0
  NOT_ON_TIMER, // D1 PD1
  NOT_ON_TIMER, // D2 PD2
  NOT_ON_TIMER, // D3 PD3
  NOT_ON_TIMER, // D4 PB0
  NOT_ON_TIMER, // D5 PB1
  NOT_ON_TIMER, // D6 PB2
  TIMER0A, // D7 PB3
  TIMER1A, // D8 PD5
  TIMER2B, // D9 PD6
  TIMER0B, // D10 PB4
  NOT_ON_TIMER, // D11 PB5
  TIMER3A, // D12 PB6
  TIMER3B, // D13 PB7
  NOT_ON_TIMER, // D14 PA0
  NOT_ON_TIMER, // D15 PA1
  NOT_ON_TIMER, // D16 PA2
  NOT_ON_TIMER, // D17 PA3
  NOT_ON_TIMER, // D18 PA4
  NOT_ON_TIMER, // D19 PA5
  NOT_ON_TIMER, // D20 PA6
  NOT_ON_TIMER, // D21 PA7
  NOT_ON_TIMER, // D22 PC0
  NOT_ON_TIMER, // D23 PC1
  NOT_ON_TIMER, // D24 PC2
  NOT_ON_TIMER, // D25 PC3
  NOT_ON_TIMER, // D26 PC4
  NOT_ON_TIMER, // D27 PC5
  NOT_ON_TIMER, // D28 PC6
  NOT_ON_TIMER, // D29 PC7
  TIMER1B, // D30 PD4
  TIMER2A, // D31 PD7
};

#endif // ARDUINO_MAIN

#endif // Pins_Arduino_h
// vim:ai:cin:sts=2 sw=2 ft=cpp
Good links: Eagle tutorial= http://www.youtube.com/playlist?list=PLDE1858BD83D19C70
General Arduion tutorials = http://tronixstuff.wordpress.com
http://www.gammon.com.au/forum/bbshowpost.php?bbtopic_id=123

retrolefty

Thanks I see no difference in the contents, must be something else going on.

Lefty

retrolefty

So in summation of problems addressing analog input pins of bobuino varieant board, there seems to be two
different symptoms:

1. If using analogRead() addressing names of 0 to 7 see a symmetrical reversal to 7 to 0.

2. If using analogRead() addressing names of A0 to A7 or 14 to 21 get:

Quote

sketch software pin name used               valid voltage reading shows up on shield pin

A0 (or14)                                                A1 (15)
A1 (or15)                                                A0 (14)
A2 (or16)                                                A7 (21)
A3 (or17)                                                A6 (20)
A4 (or18)                                                A5 (19)
A5 (or19)                                                A4 (18)
A6 (or20)                                                A3 (17)
A7 (or21)                                                A2 (16)



Strange stuff, no?

Lefty



oric_dan

#26
Jan 23, 2013, 05:54 am Last Edit: Jan 23, 2013, 05:56 am by oric_dan Reason: 1
At least we're making some progress, as it's not just a dream I had.

Mine work in perfect order for "both" 0..7 and A0.., although I'm using a loop on A0...,
so I don't know what the problem is over there. ??? I'm not using Bob's board, just connecting
directly to the pins.

Here is my current test. I compiled the code with the Bobuino arduino_pins.h file
patched as I indicated above. All ADC Channels are floating here, and I am moving a
gnd wire from pin to pin after each set of readings, starting at 33 [AD0]. You
see the zero reading follows along exactly correctly.

My entire sketch is included below.
Quote

A0..A7:  0 301 275 290 320 352 360 602
0...7:  0 152 226 272 313 362 365 479
A0..A7:  419 0 138 232 308 384 400 425
0...7:  403 0 103 181 229 261 272 275
A0..A7:  420 428 0 123 243 309 323 304
0...7:  305 319 0 97 166 191 210 254
A0..A7:  306 319 295 0 111 211 266 308
0...7:  339 351 338 0 136 243 307 385
A0..A7:  398 392 360 345 0 166 262 379
0...7:  396 398 382 375 0 149 240 338
A0..A7:  360 370 351 343 346 0 169 271
0...7:  317 338 336 332 335 0 121 204
A0..A7:  370 381 361 348 357 356 0 154
0...7:  235 282 292 294 305 312 0 111
A0..A7:  146 257 306 351 393 476 443 0
0...7:  95 183 227 255 279 295 296 0
A0..A7:  125 223 252 269 293 311 312 0
0...7:  104 196 235 260 286 313 321 0


Code: [Select]
/**********************************************************
file: analog_test1284
revised: 01/22/13, orig 01/21/13.

Tests Bobuino-1284 ADC channels.
***********************************************************/

/*****************************************/
void setup()
{      
 Serial.begin(57600);
 Serial.println("\n1284 Analog Test ...");

 a_print("defines: A0=",A0);
 a_print(", A7=",A7);
}

/******************************************/
void a_print( char *s, int num )
{
 Serial.print(s);  Serial.print(num);
}

/*****************************************************/
void loop()
{
 test_adc();
}

#define INTV   5000   // ADC repeat interval.

/**************************************************/
void test_adc()
{
 static unsigned long prev=0;   // last time LED was updated
 unsigned long current=millis();
 static int cnt=0;
 int i, val=0;
 
 if( (current - prev) > INTV) {
   prev = current;   // schedule next tick.
   
   nl();
   Serial.print("A0..A7: ");  
   for( i=0; i<8; i++) {
     val = analogRead(A0+i);
//     val = analogRead(A0+i);
     a_print(" ",val);
     delay(100);
   }
   nl();
   Serial.print(" 0...7: ");  
   for( i=0; i<8; i++) {
     val = analogRead(i);
//      val = analogRead(i);
     a_print(" ",val);
     delay(100);
   }
 }    
}

void nl() {  Serial.println("");  }

CrossRoads

Was wiring_analog.c updated from 1.0 to 1.01, .02, .03?
Wondering when the 1284 support came in.
Designing & building electrical circuits for over 25 years.  Screw Shield for Mega/Due/Uno,  Bobuino with ATMega1284P, & other '328P & '1284P creations & offerings at  my website.

oric_dan

AAMOF, I had already looked at that, but must have been in 1.0 only. However, my sketch
from last time gives me exactly the same results with both IDE 1.0 and 1.03. Likewise
for ERW 1.03. Go figure.

Have you tried running my sketch from last time? Maybe something is weird there.

IDE 1.0
Quote
int analogRead(uint8_t pin)
{
   uint8_t low, high;

#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
   if (pin >= 54) pin -= 54; // allow for channel or pin numbers
#elif defined(__AVR_ATmega32U4__)
   if (pin >= 18) pin -= 18; // allow for channel or pin numbers
#else
   if (pin >= 14) pin -= 14; // allow for channel or pin numbers
#endif


IDE 1.02
Quote
int analogRead(uint8_t pin)
{
   uint8_t low, high;

#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
   if (pin >= 54) pin -= 54; // allow for channel or pin numbers
#elif defined(__AVR_ATmega32U4__)
   if (pin >= 18) pin -= 18; // allow for channel or pin numbers
#elif defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__)
   if (pin >= 24) pin -= 24; // allow for channel or pin numbers
#else
   if (pin >= 14) pin -= 14; // allow for channel or pin numbers
#endif


IDE 1.03
Quote
int analogRead(uint8_t pin)
{
   uint8_t low, high;

#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
   if (pin >= 54) pin -= 54; // allow for channel or pin numbers
#elif defined(__AVR_ATmega32U4__)
   if (pin >= 18) pin -= 18; // allow for channel or pin numbers
#elif defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__)
   if (pin >= 24) pin -= 24; // allow for channel or pin numbers
#else
   if (pin >= 14) pin -= 14; // allow for channel or pin numbers
#endif

retrolefty

#29
Jan 23, 2013, 07:32 am Last Edit: Jan 23, 2013, 07:34 am by retrolefty Reason: 1
Quote
Have you tried running my sketch from last time? Maybe something is weird there.


Well I seem to be straighten out finally. What I was fighting I guess is a older or different version of maniacbug's hardware files setup for the sanguino/644P chip which I had downloaded and modified to use the bobuino pins_arduino.h, added a optiboot bootloader file for the 644P, etc.

However there seems to be too many differences between some of the hardware core files between the two different maniacbug's hardware folder I had downloaded and installed. So I dumped all the sanguino hardware folders and just added a new bobuino 644P/optiboot board to the maniacbug-mighty-1284p hardware folders. Then I added your suggested fix to the pins_arduino.h and then recompiled/uploaded the various analog test sketches and all is well in bobuino 644P land for me now, yea.

Thanks for your help, I had never actually tested out my analog pins for this bubuino/644P setup (just like Bob I guess  ;) ) so it's good to have that checked off. Still waiting for my 1284P chip to show up, I hope it has at least crossed the international date line by now.

Lefty

Go Up