GUIDE - NRF5 / NRF51 / NRF52 for beginners

ileneken3

@omemanti

1. I wired the DK to the target exactly as described in the article, and as drawn in the picture:
   https://devzone.nordicsemi.com/f/nordic-q-a/20536/programming-external-custom-nrf52832-board-using-nrf52-dk
   I am assuming everything is correct in the wiring, because I was able to flash the blinky pre-compiled hex file and it works.
2. When selecting J-Link as the programmer, the error from the Arduino IDE is:

C:\Users\krakman\AppData\Local\Arduino15\packages\sandeepmistry\tools\openocd\0.10.0-dev.nrf5/bin/openocd.exe -d2 -f interface/jlink.cfg -c transport select swd; set WORKAREASIZE 0; -f target/nrf52.cfg -c program {{C:\Users\krakman\AppData\Local\Temp\arduino_build_268238/MyBoardNRF5tst.ino.hex}} verify reset; shutdown;
Open On-Chip Debugger 0.10.0-dev-00254-g696fc0a (2016-04-10-10:13)
Licensed under GNU GPL v2
For bug reports, read
http://openocd.org/doc/doxygen/bugs.html
debug_level: 2
0
adapter speed: 10000 kHz
cortex_m reset_config sysresetreq
jaylink: Failed to open device: LIBUSB_ERROR_NOT_FOUND.
Info : No device selected, using first device.
Error: No J-Link device found.
Error: No Valid JTAG Interface Configured.
Error: No Valid JTAG Interface Configured.

/*
  If you don't use an nRF5 board, you can ignore this file.
  
  This file was part of the "My Sensors nRF5 Boards" board repository
  available at https://github.com/mysensors/ArduinoBoards If you have
  questions, please refer the documentation at
  https://github.com/mysensors/ArduinoHwNRF5 first.
  
  This file is compatible with ArduinoHwNRF5 >= 0.2.0

  This file allows you to change the relation between pins referenced in
  the Arduino IDE (0..31) and pins of the nRF5 MCU (P0.00..P0.31).
  
  If you can live with addressing the GPIO pins by using the Arduino pins
  0..31 instead of a custom mapping, don't change this file. If you have
  a lot of Arduino code with fixed pin numbers and you need to map these
  pins to specific pins of the nRF5 MCU; you need to change this file.
  
  If you fill the "g_APinDescription" Array with numbers between 0..31,
  the Arduino pins 0..31 are assigned to pins P0.00..P0.31 of the MCU.
  
  As an example, if you need to change the pin mapping for Arduino pin 5
  to P0.12 of the MCU, you have to write the 12 after PORT0 into the sixth
  position in the  "g_APinDescription" Array.
   
  The extended attributes only affects the nRF5 variants provided with
  official Arduino boards. The arduino-nrf5 variant ignores the extended
  attributes.
    
  The pin mapping effects commands like "pinMode()", "digitalWrite()",
  "analogRead()" and "analogWrite()".
  
  If you change the pin mapping, you have to modify the pins in
  "MyBoardNRF5.h". Especially the analog pin mapping must be replaced with
  your pin numbers by replacing PIN_AIN0..7 with a number of your mapping
  array. You can use the constants PIN_AIN0..7 in the "g_APinDescription"
  Array if you want to reference analog ports MCU independent. You cannot
  use the pins P0.00 and P0.01 for GPIO, when the 32kHz crystal is connected.

  
  ###########################################################################

  Copyright (c) 2014-2015 Arduino LLC.  All right reserved.
  Copyright (c) 2016 Arduino Srl.  All right reserved.
  Copyright (c) 2017 Sensnology AB. All right reserved.

  This library is free software; you can redistribute it and/or
  modify it under the terms of the GNU Lesser General Public
  License as published by the Free Software Foundation; either
  version 2.1 of the License, or (at your option) any later version.

  This library is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
  See the GNU Lesser General Public License for more details.

  You should have received a copy of the GNU Lesser General Public
  License along with this library; if not, write to the Free Software
  Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
*/



#ifdef MYBOARDNRF5
#include <variant.h>

/*
 * Pins descriptions. Attributes are ignored by arduino-nrf5 variant. 
 * Definition taken from Arduino Primo Core with ordered ports
 */
const PinDescription g_APinDescription[]=
{
  { NOT_A_PORT, 0, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // LFCLK
  { NOT_A_PORT, 1, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // LFCLK
  { PORT0,  2, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A0, PWM4, NOT_ON_TIMER},
  { PORT0,  3, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A1, PWM5, NOT_ON_TIMER},
  { PORT0,  4, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A2, PWM6, NOT_ON_TIMER},
  { PORT0,  5, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A3, PWM7, NOT_ON_TIMER},
  { PORT0,  6, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT3
  { PORT0,  7, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT4
  { PORT0,  8, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM10, NOT_ON_TIMER},    //USER_LED
  { PORT0,  9, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // NFC1
  { PORT0, 10, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // NFC2
  { PORT0, 11, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // TX
  { PORT0, 12, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // RX
  { PORT0, 13, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SDA
  { PORT0, 14, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SCL
  { PORT0, 15, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SDA1
  { PORT0, 16, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SCL1
  { PORT0, 17, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // TP4
  { PORT0, 18, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // TP5
  { PORT0, 19, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT2
  { PORT0, 20, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT1
  { PORT0, 21, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT1
  { PORT0, 22, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM9, NOT_ON_TIMER},
  { PORT0, 23, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM8, NOT_ON_TIMER},
  { PORT0, 24, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT
  { PORT0, 25, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM11, NOT_ON_TIMER},   //RED_LED
  { PORT0, 26, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM11, NOT_ON_TIMER},  //GREEN_LED
  { PORT0, 27, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM11, NOT_ON_TIMER},  //BLUE_LED
  { PORT0, 28, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A4, PWM3, NOT_ON_TIMER},
  { PORT0, 29, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A5, PWM2, NOT_ON_TIMER},
  { PORT0, 30, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A6, PWM1, NOT_ON_TIMER},
  { PORT0, 31, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A7, PWM0, NOT_ON_TIMER}
};

// Don't remove this line
#include <compat_pin_mapping.h>

#endif

/*
  If you don't use an nRF5 board, you can ignore this file.

  This file was part of the "My Sensors nRF5 Boards" board repository
  available at https://github.com/mysensors/ArduinoBoards If you have
  questions, please refer the documentation at
  https://github.com/mysensors/ArduinoHwNRF5 first.

  This file is compatible with ArduinoHwNRF5 >= 0.2.0

  This file allows you to change the pins of internal hardware, like the
  serial port, SPI bus or Wire bus.

  All pins referenced here are mapped via the "g_ADigitalPinMap" Array
  defined in "MyBoardNRF5.cpp" to pins of the MCU.
  
  As an example, if you have at the third position in "g_ADigitalPinMap" the
  12, then all ports referenced in Arduino with 2 are mapped to P0.12. If you
  don't change the "g_ADigitalPinMap" Array, the Arduino pins 0..31 are
  translated to P0.00..P0..31.
   
  ###########################################################################
 
  This file is compatible with ArduinoHwNRF5 > 0.1.0
  Copyright (c) 2014-2015 Arduino LLC.  All right reserved.
  Copyright (c) 2016 Sandeep Mistry. All right reserved.
  Copyright (c) 2017 Sensnology AB. All right reserved.

  This library is free software; you can redistribute it and/or
  modify it under the terms of the GNU Lesser General Public
  License as published by the Free Software Foundation; either
  version 2.1 of the License, or (at your option) any later version.
  This library is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
  See the GNU Lesser General Public License for more details.
  You should have received a copy of the GNU Lesser General Public
  License along with this library; if not, write to the Free Software
  Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
*/

#ifndef _MYBOARDNRF5_H_
#define _MYBOARDNRF5_H_

#ifdef __cplusplus
extern "C"
{
#endif // __cplusplus

// Number of pins defined in PinDescription array
#define PINS_COUNT           (32u)
#define NUM_DIGITAL_PINS     (32u)
#define NUM_ANALOG_INPUTS    (8u)
#define NUM_ANALOG_OUTPUTS   (8u)

/* 
 *  LEDs
 *  
 *  This is optional
 *  
 *  With My Sensors, you can use
 *  hwPinMode() instead of pinMode()
 *  hwPinMode() allows to use advanced modes like OUTPUT_H0H1 to drive LEDs.
 *  https://github.com/mysensors/MySensors/blob/development/drivers/NRF5/nrf5_wiring_constants.h
 *
 */
#define PIN_LED1                (8)
// #define PIN_LED2                (25)
// #define PIN_LED3                (26)
// #define PIN_LED4                (27)
// #define PIN_LED5                (12)
// #define PIN_LED6                (14)
// #define PIN_LED7                (15)
// #define PIN_LED8                (16)
// #define USER_LED             	 (PIN_LED2)
// #define RED_LED                 (PIN_LED3)
// #define GREEN_LED            	 (PIN_LED4)
// #define BLUE_LED			           (PIN_LED1)
// #define BLE_LED                 BLUE_LED
#define LED_BUILTIN          PIN_LED1

/* 
 *  Buttons
 *  
 *  This is optional
 */
// #define PIN_BUTTON1             (3)
// #define PIN_BUTTON2             (4)
// #define PIN_BUTTON3             (5)
// #define PIN_BUTTON4             (6)
// #define PIN_BUTTON5             (7)
// #define PIN_BUTTON6             (8)
// #define PIN_BUTTON7             (9)
// #define PIN_BUTTON8             (10)

/* 
 * Analog ports
 *  
 * If you change g_APinDescription, replace PIN_AIN0 with
 * port numbers mapped by the g_APinDescription Array.
 * You can add PIN_AIN0 to the g_APinDescription Array if
 * you want provide analog ports MCU independed, you can add
 * PIN_AIN0..PIN_AIN7 to your custom g_APinDescription Array
 * defined in MyBoardNRF5.cpp
 */
static const uint8_t A0  = ADC_A0;
static const uint8_t A1  = ADC_A1;
static const uint8_t A2  = ADC_A2;
static const uint8_t A3  = ADC_A3;
static const uint8_t A4  = ADC_A4;
static const uint8_t A5  = ADC_A5;
static const uint8_t A6  = ADC_A6;
static const uint8_t A7  = ADC_A7;

/*
 * Serial interfaces
 * 
 * RX and TX are required.
 * If you have no serial port, use unused pins
 * CTS and RTS are optional.
 */
 /*
#define PIN_SERIAL_RX       (12)
#define PIN_SERIAL_TX       (11) 
*/
// I changed this....
#define PIN_SERIAL_RX       (13)
#define PIN_SERIAL_TX       (14)
// #define PIN_SERIAL_CTS      (13)
// #define PIN_SERIAL_RTS      (14)

/*
 * SPI Interfaces
 * 
 * This is optional
 * 
 * If SPI is defined MISO, MOSI, SCK are required
 * SS is optional and can be used in your sketch.
 */
#define SPI_INTERFACES_COUNT 1

#define PIN_SPI_MISO         (2)
#define PIN_SPI_MOSI         (3)
#define PIN_SPI_SCK          (4)
#define PIN_SPI_SS           (5)

static const uint8_t SS   = PIN_SPI_SS;
static const uint8_t MOSI = PIN_SPI_MOSI;
static const uint8_t MISO = PIN_SPI_MISO;
static const uint8_t SCK  = PIN_SPI_SCK;

/*
 * Wire Interfaces
 *
 * This is optional
 */
#define WIRE_INTERFACES_COUNT 2

#define PIN_WIRE_SDA         (13u)
#define PIN_WIRE_SCL         (14u)

#define PIN_WIRE_SDA1        (15u)
#define PIN_WIRE_SCL1        (16u)

static const uint8_t SDA = PIN_WIRE_SDA;
static const uint8_t SCL = PIN_WIRE_SCL;

#ifdef __cplusplus
}
#endif

#endif

ileneken3

@ileneken3
OK, I fixed one layer of the problem! I removed the JLINK driver using Device Manager, then re-installed using Zadig. Now the Arduino IDE tells me it is programmed without a problem.
But the next layer of the problem still exists, the programmed board doesn't seem to send anything to the gateway. I am monitoring this from the logs of mysgw, and from Domoticz. I am expecting the gateway to see something from the node, at least the registration.

Thanks again

Omemanti

@ileneken3 Have you considered building a new gateway with a nrf52?
You know now that the IDE is programming correctly. Try combining a ftdi and nrf52 to get a serial gateway.

Also I would hook up the gateway and prototype board to a serial monitor. ( So both boards onto my PC)
You can both monitor the node and the gateway directly from the RX and use https://www.mysensors.org/controller/myscontroller to act as controller.
I find it handy to cut out things like domoticz when troubleshooting (the less variables the better)

ileneken3

@omemanti
I was looking at the output of mysgw running on a Raspberry PI - so Domoticz is not really in the picture. But - your advise made me think I should try programming the chip on the development board directly before using an external one. And it works! I can see the registration of the Mysensors device.
So I guess everything is OK in terms of IDE and Mysensors code, and there must be something wrong with my external board. I will have to try a different one, and/or look over the soldering.

Happy Holidays!

NeverDie

Just paste your hex file to the JLINK drive that appears when you connect your DK. That will handle the upload for you. It's as simple as that.

ileneken3

@neverdie
Unfortunately, nothing is that simple - at least for me. I have gone in circles with the J-LINK drivers. In order to use the Arduino IDE for programming, you must use the WinUSB driver installed by Zadig. But if you do that, the nRFgo Studio no longer recognizes any J-LINK device. So I re-install RFgo Studio, and then I can't use the Arduino IDE anymore!

But I can work around those issues, because everything programs and works right when programming the device on the NRF DK board. The problem is I can't do anything with the two external boards I tried. With one, I was able to unlock it with a "Recover" in nRFgo Studio, but the programming doesn't seem to cause the chip to do anything (nothing logged by the gateway). With the other, I can't unlock the board - it always says: "Recover failed: Unknown error".
Both boards are E73 - but one is marked as E73-2G4M04S and the other is E73-2G4M04S1B.

Any ideas?

Omemanti

@ileneken3

the difference between E73-2G4M04S and E73-2G4M04S1B is that the last one seems to be from a new batch. I got both, the only difference was that the last one I needed to recover and the other one (old) I only had to "burn bootloader".

your problem with the Arduino IDE seems to have something to do with the Sandeep installation, see the comment of @Toyman: https://forum.mysensors.org/topic/6961/nrf5-action/1749

NeverDie

@ileneken3 What I meant was just export your .hex file and then drop it on the virtual JLINK drive to do the chip programming, not try to burn it directly from the IDE. That way you only depend on the DK doing it's job, not on an arduino IDE, where some versions don't seem to work well. Anyhow, that's how I do it now, and, at least for me, it seems to work the most reliably.

That said, I haven't tried the E73-2G4M04S1B, so can't really say regarding that one specifically. On the inside they should all be the same chip though, so I'm surprised to hear that it may have different requirements.

These days I'm largely focused on the nRF52840 and driving it with Forth. Maybe later I may circle back to the 832.

ileneken3

@neverdie

Yes, I understood what you meant. I will only do the "Export compiled Binary" from the IDE, and leave the drivers as J-Link commander or nrfGo Studio wants them.

In: https://www.openhardware.io/view/376/MySensors-NRF5-Platform it says:
"Currently, the nRF52832 and nRF51822 are supported so we recommend sticking with those for now."

I noticed that my board: (E73-2G4M04S) is labeled "NRF52810". So is that why after programming it nothing works (nothing seen on gateway) :( ?

If so, I messed up on that order.

But I am also trying the E73 2G4M04S1B, which at least from the AliExpress order
https://www.aliexpress.com/item/CDEBYTE-E73-2G4M04S-BLE-4-2-5-0-long-distance-100m-2-4GHz-SMD-ARM-Core/32820692238.html?spm=a2g0s.9042311.0.0.27424c4dSKBLn7

says it is nRF52832. (It isn't labeled on the board though). For this module, I can't unlock it using "Recover" from nRfgoStudio. It always fails with a message "Recover failed: Unknown error".

From the command line, if I do

nrfjprog.exe -f NRF52 --recover --log

and it comes back immediately with:

Recovering device. This operation might take 30s.
ERROR: Recover failed. Please make sure that the correct device family is given
ERROR: and try again.

The key error from the log seems to be:

2018-Dec-27 12:25:22 . . . . . nRF52_power_debug_and_system_regions
2018-Dec-27 12:25:22 . . . . . . nRF52_write_debug_port_register
2018-Dec-27 12:25:22 . . . . . . nRF52_write_debug_port_register: JLink: JLINK_CORESIGHT_WriteAPDPReg(DP reg 0x02, 0x00000000)
2018-Dec-27 12:25:22 . . . . . . nRF52_write_debug_port_register: JLink: returns -1
2018-Dec-27 12:25:23 . . . . . . nRF52_write_debug_port_register: JLink: (0005ms, 0288ms total)
2018-Dec-27 12:25:23 . . . . . . nRF52_write_debug_port_register: JLinkARM.dll CORESIGHT_WriteAPDPReg returned error -1.

2018-Dec-27 12:25:23 . . . . . nRF52_power_debug_and_system_regions: JLinkARM.dll CORESIGHT_WriteAPDPReg returned error -102.

If I do: nrfjprog.exe -f NRF51 --recover --log

it actually makes LD5 on the DK board flash for 30 seconds, but still returns failure with the exact same message.

Any other tricks for "recover/unlock" of those boards?

Thanks!

NeverDie

@ileneken3 I suggest posting a query on the nordic devzone forum. A Nordic engineer will get assigned to it and give you an answer. I've tried this a few times, and I had good luck with it. Generally 24 hour turnaround on weekdays, and no answers on weekends. So, if you post it now, you may get an answer tomorrow. It's in Nordic's interest to help developers unlock these chips, and if there are any secrets to doing so, Nordic will certainly know them.

It sounds as though once you get past the unlock issue, it will be easier for you.

Omemanti

@ileneken3 sorry, can't help you anymore.

I can only tell that I installed the segger drivers, and everything as described by @d00616

Most issues I have, happen when I did some soldering wrong or when I've been messing around with drivers. A clean setup almost always solve my problems

I used both old and new ebyte modules and they work like a charm.

Sancho119

Hi,

I'm trying to begin with nrf52832.
I have follow advice, with soldering 4 wires. I use STlink v2, downloading soft before use it.
When i try to erase the nrf52832, with sketch "mass_erase" in exemple, i have the following error :

Arduino : 1.8.7 (Windows 10), Carte : "MyBoardNRF5 nRF52832, None, Crystal Oscillator, Don't enable"

C:\Users\Sancho\AppData\Local\Arduino15\packages\sandeepmistry\tools\openocd\0.10.0-dev.nrf5/bin/openocd.exe -d2 -f interface/stlink-v2.cfg -c transport select hla_swd; set WORKAREASIZE 0x4000; -f target/nrf52.cfg -c init; halt; nrf51 mass_erase; program {{{build.core.path}/SDK/components/softdevice/none/hex/none_nrf52_{softdeviceversion}_softdevice.hex}} verify reset; shutdown;
Open On-Chip Debugger 0.10.0-dev-00254-g696fc0a (2016-04-10-10:13)
Licensed under GNU GPL v2
For bug reports, read
http://openocd.org/doc/doxygen/bugs.html
debug_level: 2
0x4000
Info : The selected transport took over low-level target control. The results might differ compared to plain JTAG/SWD
adapter speed: 10000 kHz
Info : Unable to match requested speed 10000 kHz, using 4000 kHz
Info : Unable to match requested speed 10000 kHz, using 4000 kHz
Info : clock speed 4000 kHz
Info : STLINK v2 JTAG v29 API v2 SWIM v7 VID 0x0483 PID 0x3748
Info : using stlink api v2
Info : Target voltage: 3.280426
Error: init mode failed (unable to connect to the target)
in procedure 'init'
in procedure 'ocd_bouncer'

Erreur lors de la gravure de la séquence d'initialisation.

I try to upload an empty sketch (MyBoardNRF5), and have this message :

Arduino : 1.8.7 (Windows 10), Carte : "MyBoardNRF5 nRF52832, None, Crystal Oscillator, Don't enable"

Le croquis utilise 10508 octets (2%) de l'espace de stockage de programmes. Le maximum est de 524288 octets.
C:\Users\Sancho\AppData\Local\Arduino15\packages\sandeepmistry\tools\openocd\0.10.0-dev.nrf5/bin/openocd.exe -d2 -f interface/stlink-v2.cfg -c transport select hla_swd; set WORKAREASIZE 0x4000; -f target/nrf52.cfg -c program {{C:\Users\Sancho\AppData\Local\Temp\arduino_build_74329/MyBoardNRF5.ino.hex}} verify reset; shutdown;
Open On-Chip Debugger 0.10.0-dev-00254-g696fc0a (2016-04-10-10:13)
Licensed under GNU GPL v2
For bug reports, read
http://openocd.org/doc/doxygen/bugs.html
debug_level: 2
0x4000
Info : The selected transport took over low-level target control. The results might differ compared to plain JTAG/SWD
adapter speed: 10000 kHz
Une erreur est survenue lors du transfert du croquis
Info : Unable to match requested speed 10000 kHz, using 4000 kHz
Info : Unable to match requested speed 10000 kHz, using 4000 kHz
Info : clock speed 4000 kHz
Info : STLINK v2 JTAG v29 API v2 SWIM v7 VID 0x0483 PID 0x3748
Info : using stlink api v2
Info : Target voltage: 3.280426
Error: init mode failed (unable to connect to the target)
in procedure 'program'
in procedure 'init' called at file "embedded:startup.tcl", line 473
in procedure 'ocd_bouncer'
** OpenOCD init failed **
shutdown command invoked

Can you help me please ?

monte

@sancho119 what exact model of a board do you have? Did you try to switch SWDIO and SWCLK, maybe they are messed up? Or lose connection? To erase softdevice you can simply chose Tools>Softdevice>"None" and then press "Burn bootloader" button.

Sancho119

Hello
it's a E73 2G4M04S1B from EBYTE
When i switch SWDIO and SWCLK, i can see the led of STLink V2 changing from red to blue, but when i try to uplod empty sketch (MyBoardNRF5), i have this error :

C:\Users\Sancho\AppData\Local\Arduino15\packages\sandeepmistry\tools\openocd\0.10.0-dev.nrf5/bin/openocd.exe -d2 -f interface/stlink-v2.cfg -c transport select hla_swd; set WORKAREASIZE 0x4000; -f target/nrf52.cfg -c program {{C:\Users\Sancho\AppData\Local\Temp\arduino_build_432557/MyBoardNRF5.ino.hex}} verify reset; shutdown;
Open On-Chip Debugger 0.10.0-dev-00254-g696fc0a (2016-04-10-10:13)
Licensed under GNU GPL v2
For bug reports, read
http://openocd.org/doc/doxygen/bugs.html
debug_level: 2
0x4000
Info : The selected transport took over low-level target control. The results might differ compared to plain JTAG/SWD
adapter speed: 10000 kHz
Info : Unable to match requested speed 10000 kHz, using 4000 kHz
Info : Unable to match requested speed 10000 kHz, using 4000 kHz
Info : clock speed 4000 kHz
Info : STLINK v2 JTAG v29 API v2 SWIM v7 VID 0x0483 PID 0x3748
Info : using stlink api v2
Info : Target voltage: 3.283200
Info : nrf52.cpu: hardware has 0 breakpoints, 2 watchpoints
Error: timed out while waiting for target halted
TARGET: nrf52.cpu - Not halted
in procedure 'program'
in procedure 'reset' called at file "embedded:startup.tcl", line 478
in procedure 'ocd_bouncer'

embedded:startup.tcl:454: Error: ** Unable to reset target **
in procedure 'program'
in procedure 'program_error' called at file "embedded:startup.tcl", line 479
at file "embedded:startup.tcl", line 454
le port série sélectionné at file "embedded:startup.tcl", line 454
n'existe pas ou votre Arduino n'est pas connectée

ncollins

@sancho119 No matter what I tried, I could not unlock the E73 with the STLink.

I had to buy a jlink clone, download a bunch of segger debugging tools, use the segger tools to override the lock flag. After that I could flash the bootloader.

https://github.com/micooke/arduino-nRF5-smartwatches/blob/master/nrf52_disable_read_protection.txt

#To share my experience with the nRF52832.
#I was unable to disable the read protection / flash lock with a BMP or ST-Link V2, but i was successful with a J-Link.

#When nRF52832 chip is read protected / locked, the first step is to try:
nrfjprog –recover -f nrf52

#This performs the same task as:
Jlink -if swd -device nrf52
J-Link>SWDSelect
J-Link>SWDWriteDP 1, 0x50000000
J-Link>SWDWriteDP 2, 0x01000000
J-Link>SWDWriteAP 1, 0x00000001

#Wait until AP 2 is 0, and the operation is complete
J-Link>SWDReadAP 2

#If two successive reads from AP 3 produce 0, then 1 then protection is disabled
J-Link>SWDReadAP 3
J-Link>SWDReadAP 3

#Tested with JLink v6.20b

monte

@ncollins have you tried this: https://github.com/AndruPol/nrf52832-recover ?

ncollins

At the time, I did not have a BMP or any STM32 capable of being flashed as a programmer.

I figured the jlink clone might be useful in the future, but I definitely think the BMP / diy programmer is the way I would have gone if I had one sitting around.

Sancho119

@ncollins
@monte
thx for these advices.
I think i will try with BMP clone (STM32F103C8T6), cheaper than J-link (i must only wait 1 month to have it, buying it in china...)
is it possible to erase E73 with BMP in win10 ?

berkseo

https://translate.google.ru/translate?sl=auto&tl=en&u=http%3A%2F%2Fmysensors.ru%2Fforum%2Fviewtopic.php%3Ff%3D5%26t%3D456

https://www.nordicsemi.com/Software-and-Tools/Development-Tools/nRFgo-Studio/Download#infotabs

Sancho119

Hello,

Some news !
i buy a Jlink, and success in erase my nrf52832 with nrf prog, using method of berkseo.

Next i try to upload a basic sketch (blink) :

#define MY_RADIO_NRF5_ESB
#include <nrf.h>
#include <MySensors.h>

void setup() {
Serial.begin(9600);
hwPinMode(LED_BUILTIN,OUTPUT_H0H1);
}

void loop() {
digitalWrite(LED_BUILTIN, HIGH); // turn the LED on (HIGH is the voltage level)
delay(1000); // wait for a second
digitalWrite(LED_BUILTIN, LOW); // turn the LED off by making the voltage LOW
delay(1000); // wait for a second
}

I have this :

Open On-Chip Debugger 0.10.0-dev-00254-g696fc0a (2016-04-10-10:13)
Licensed under GNU GPL v2
For bug reports, read
http://openocd.org/doc/doxygen/bugs.html
debug_level: 2
0
adapter speed: 10000 kHz
cortex_m reset_config sysresetreq
Info : No device selected, using first device.
Info : J-Link ARM-OB STM32 compiled Aug 22 2012 19:52:04
Info : Hardware version: 7.00
Info : VTarget = 3.300 V
Info : clock speed 10000 kHz
Info : SWD IDCODE 0x2ba01477
Info : nrf52.cpu: hardware has 6 breakpoints, 4 watchpoints
nrf52.cpu: target state: halted
target halted due to debug-request, current mode: Thread
xPSR: 0x01000000 pc: 0x0000051c msp: 0x20010000
** Programming Started **
auto erase enabled
Warn : Unknown device (HWID 0x00000139)
Warn : not enough working area available(requested 32)
Warn : no working area available, falling back to slow memory writes
wrote 12288 bytes from file C:\Users\Sancho\AppData\Local\Temp\arduino_build_76789/NRF5_blink_led8.ino.hex in 4.155332s (2.888 KiB/s)
** Programming Finished **
** Verify Started **
Warn : not enough working area available(requested 52)
verified 10812 bytes in 0.165932s (63.632 KiB/s)
** Verified OK **
** Resetting Target **
shutdown command invoked

I think its good, but when i put a led with a resistance on P0.08, nothing :(

could you help me more ?