RTOS/CC2640R2F: SmartRF Stuido Failed to create device object problem

erdem simsek

Expert 2165 points

Part Number: CC2640R2F
Other Parts Discussed in Thread: CC2640

Tool/software: TI-RTOS

Hello,

I am in trouble with SmartRF Flash Programmer 2 ver1.7.5

When I try to flash the my custom board which uses CC2640R2F, I get the following error messages.

>Initiate access to target: XDS-L500015C.

>Create XBAL object failed: Target connect failed

>Failed to create device object.

Here is story of the problem;

I disabled external crystal and enabled internal RC according to 'Running Bluetooth Low Energy on CC2640 without 32kHz crystal'
I build the project and loaded to the program into the custom board in successful way.
When I tried to flash the chip, I got the error message given in above.
I tried the following options in SmartRF Flash Programmer and I did not work.
- Loading new firmware into customboard
- CC26XX/CC13XX Forced Mass erase
By the way, SmartRF Flash Programmer can detect the TI's chip.

My problem is very similar to the post that I mentioned.

Also, I loaded the firmware several times to the CC2640R2F Launchpad. It seems that there is no problem flashing the CC2640R2F Launchpad.

over 6 years ago

0 TER over 6 years ago

TI__Guru**** 317180 points

It could sound like you by accident have managed to modify the CCFG file in a way that have locked the chip.

- Are you able to connect to the board and send packet(as an example) using SmartRF Studio?
- Have you modified the original CCFG file?
- Have you checked the .out/.hex file what is placed in the CCFG area to see if this area is overwritten with unwanted content?

0 erdem simsek over 6 years ago in reply to TER

Expert 2165 points

Q1: I am not able to connect to the board by using SmartRF Studio.

Q2:I made a few modifications to ccfg_app_ble_rcosc.c file. Here is the list of my modifications:

#ifndef SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING

//#define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING    0x0    // Alternative DC/DC setting enabled

#define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING 0x1    // Alternative DC/DC setting disabled

#endif

Q3: If the wrong content is written into CCFG area, how the launchpad operates ?

Best regards

0 TER over 6 years ago in reply to erdem simsek

TI__Guru**** 317180 points

Why do you modify this setting? If you want to turn off set DCDC you should modify
SET_CCFG_MODE_CONF_DCDC_RECHARGE and SET_CCFG_MODE_CONF_DCDC_ACTIVE

The critical is the "Debug access settings" part since if you modify one of these you risk looking the debug interface. But it should still be possible to run mass erase as long as you don't modify SET_CCFG_ERASE_CONF_CHIP_ERASE_DIS_N

Hence it would be interesting to see the content of the last flash page in the chip (contains CCFG) to see if this is changed. If you use wrong linker file or similar it could be that the real last page is overwritten if the hex file is too large/ too small.

0 erdem simsek over 6 years ago in reply to TER

Expert 2165 points

I modified because, I would like to turn off DCDC. It is good to know.

I tried to use simple_peripheral_on_chip_oad project with internal 32KHz crystal configuration.

I added my ccfg file in below.

Fullscreen ccfg_app_ble_rcosc.c Download

/******************************************************************************

 @file  ccfg_app_ble_rcosc.c

 @brief Customer Configuration for CC26xx device family (HW rev 2) using RCOSC

 Group: CMCU, SCS
 Target Device: CC2640R2

 ******************************************************************************
 
 Copyright (c) 2016-2017, Texas Instruments Incorporated
 All rights reserved.

 Redistribution and use in source and binary forms, with or without
 modification, are permitted provided that the following conditions
 are met:

 *  Redistributions of source code must retain the above copyright
    notice, this list of conditions and the following disclaimer.

 *  Redistributions in binary form must reproduce the above copyright
    notice, this list of conditions and the following disclaimer in the
    documentation and/or other materials provided with the distribution.

 *  Neither the name of Texas Instruments Incorporated nor the names of
    its contributors may be used to endorse or promote products derived
    from this software without specific prior written permission.

 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
 THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
 CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
 OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
 WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
 OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
 EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 ******************************************************************************
 Release Name: simplelink_cc2640r2_sdk_1_30_00_25
 Release Date: 2017-03-02 20:08:35
 *****************************************************************************/

#include <stdint.h>
#include <inc/hw_types.h>
#include <inc/hw_ccfg.h>
#include <inc/hw_ccfg_simple_struct.h>

//*****************************************************************************
//
// Introduction
//
// This file contains fields used by Boot ROM, startup code, and SW radio 
// stacks to configure chip behavior.
//
// Fields are documented in more details in hw_ccfg.h and CCFG.html in 
// DriverLib documentation (doc_overview.html -> CPU Domain Memory Map -> CCFG).
//
//*****************************************************************************

//*****************************************************************************
//
// Set the values of the individual bit fields.
//
//*****************************************************************************

//#####################################
// Alternative DC/DC settings
//#####################################

#ifndef SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING
//#define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING    0x0    // Alternative DC/DC setting enabled
#define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING 0x1    // Alternative DC/DC setting disabled
#endif

#ifndef SET_CCFG_MODE_CONF_1_ALT_DCDC_VMIN
#define SET_CCFG_MODE_CONF_1_ALT_DCDC_VMIN              0x8        // 2.25V
#endif

#ifndef SET_CCFG_MODE_CONF_1_ALT_DCDC_DITHER_EN
#define SET_CCFG_MODE_CONF_1_ALT_DCDC_DITHER_EN         0x0        // Disable
// #define SET_CCFG_MODE_CONF_1_ALT_DCDC_DITHER_EN      0x1        // Enable
#endif

#ifndef SET_CCFG_MODE_CONF_1_ALT_DCDC_IPEAK
#define SET_CCFG_MODE_CONF_1_ALT_DCDC_IPEAK             0x2        // 39mA
#endif

//#####################################
// XOSC override settings
//#####################################

#ifndef SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_XOSC_OVR
// #define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_XOSC_OVR     0x0        // Enable override
#define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_XOSC_OVR        0x1        // Disable override
#endif

#ifndef SET_CCFG_MODE_CONF_1_DELTA_IBIAS_INIT
#define SET_CCFG_MODE_CONF_1_DELTA_IBIAS_INIT           0x0        // Delta = 0
#endif

#ifndef SET_CCFG_MODE_CONF_1_DELTA_IBIAS_OFFSET
#define SET_CCFG_MODE_CONF_1_DELTA_IBIAS_OFFSET         0x0        // Delta = 0
#endif

#ifndef SET_CCFG_MODE_CONF_1_XOSC_MAX_START
#define SET_CCFG_MODE_CONF_1_XOSC_MAX_START             0x10       // 1600us
#endif

//#####################################
// Power settings
//#####################################

#ifndef SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_DELTA
#define SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_DELTA        0xF        // Signed delta value +1 to apply to the VDDR_TRIM_SLEEP target (0xF=-1=default=no compensation)
#endif

#ifndef SET_CCFG_MODE_CONF_DCDC_RECHARGE
#define SET_CCFG_MODE_CONF_DCDC_RECHARGE                0x0        // Use the DC/DC during recharge in powerdown
// #define SET_CCFG_MODE_CONF_DCDC_RECHARGE             0x1        // Do not use the DC/DC during recharge in powerdown
#endif

#ifndef SET_CCFG_MODE_CONF_DCDC_ACTIVE
#define SET_CCFG_MODE_CONF_DCDC_ACTIVE                  0x0        // Use the DC/DC during active mode
// #define SET_CCFG_MODE_CONF_DCDC_ACTIVE               0x1        // Do not use the DC/DC during active mode
#endif

#ifndef SET_CCFG_MODE_CONF_VDDS_BOD_LEVEL
// #define SET_CCFG_MODE_CONF_VDDS_BOD_LEVEL            0x0        // VDDS BOD level is 2.0V
#define SET_CCFG_MODE_CONF_VDDS_BOD_LEVEL               0x1        // VDDS BOD level is 1.8V (or 1.65V for external regulator mode)
#endif

#ifndef SET_CCFG_MODE_CONF_VDDR_CAP
#define SET_CCFG_MODE_CONF_VDDR_CAP                     0x3A       // Unsigned 8-bit integer representing the min. decoupling capacitance on VDDR in units of 100nF
#endif

#ifndef SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_TC
//#define SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_TC           0x1        // Temperature compensation on VDDR sleep trim disabled (default)
 #define SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_TC        0x0        // Temperature compensation on VDDR sleep trim enabled
#endif

//#####################################
// Clock settings
//#####################################

#ifndef SET_CCFG_MODE_CONF_SCLK_LF_OPTION
// #define SET_CCFG_MODE_CONF_SCLK_LF_OPTION          0x0        // LF clock derived from High Frequency XOSC
// #define SET_CCFG_MODE_CONF_SCLK_LF_OPTION          0x1        // External LF clock
//#define SET_CCFG_MODE_CONF_SCLK_LF_OPTION           0x2        // LF XOSC
 #define SET_CCFG_MODE_CONF_SCLK_LF_OPTION            0x3        // LF RCOSC
#endif

#ifndef SET_CCFG_MODE_CONF_XOSC_CAP_MOD
// #define SET_CCFG_MODE_CONF_XOSC_CAP_MOD              0x0        // Apply cap-array delta
#define SET_CCFG_MODE_CONF_XOSC_CAP_MOD                 0x1        // Don't apply cap-array delta 
#endif

#ifndef SET_CCFG_MODE_CONF_XOSC_CAPARRAY_DELTA
#define SET_CCFG_MODE_CONF_XOSC_CAPARRAY_DELTA          0xFF       // Signed 8-bit value, directly modifying trimmed XOSC cap-array value
#endif

#ifndef SET_CCFG_EXT_LF_CLK_DIO
#define SET_CCFG_EXT_LF_CLK_DIO                         0x01       // DIO number if using external LF clock
#endif

#ifndef SET_CCFG_EXT_LF_CLK_RTC_INCREMENT
#define SET_CCFG_EXT_LF_CLK_RTC_INCREMENT               0x800000   // RTC increment representing the external LF clock frequency
#endif

//#####################################
// Special HF clock source setting
//#####################################
#ifndef SET_CCFG_MODE_CONF_XOSC_FREQ
// #define SET_CCFG_MODE_CONF_XOSC_FREQ                 0x1        // Use HPOSC as HF source (if executing on a HPOSC chip, otherwise using default (=0x3))
// #define SET_CCFG_MODE_CONF_XOSC_FREQ                 0x2        // HF source is a 48 MHz xtal
#define SET_CCFG_MODE_CONF_XOSC_FREQ                    0x3        // HF source is a 24 MHz xtal (default)
#endif

//#####################################
// Bootloader settings
//#####################################

#ifndef SET_CCFG_BL_CONFIG_BOOTLOADER_ENABLE
#define SET_CCFG_BL_CONFIG_BOOTLOADER_ENABLE            0x00       // Disable ROM boot loader
// #define SET_CCFG_BL_CONFIG_BOOTLOADER_ENABLE         0xC5       // Enable ROM boot loader
#endif

#ifndef SET_CCFG_BL_CONFIG_BL_LEVEL
// #define SET_CCFG_BL_CONFIG_BL_LEVEL                  0x0        // Active low to open boot loader backdoor
#define SET_CCFG_BL_CONFIG_BL_LEVEL                     0x1        // Active high to open boot loader backdoor
#endif

#ifndef SET_CCFG_BL_CONFIG_BL_PIN_NUMBER
#define SET_CCFG_BL_CONFIG_BL_PIN_NUMBER                0xFF       // DIO number for boot loader backdoor
#endif

#ifndef SET_CCFG_BL_CONFIG_BL_ENABLE
// #define SET_CCFG_BL_CONFIG_BL_ENABLE                 0xC5       // Enabled boot loader backdoor
#define SET_CCFG_BL_CONFIG_BL_ENABLE                    0xFF       // Disabled boot loader backdoor
#endif

//#####################################
// Debug access settings
//#####################################

#ifndef SET_CCFG_CCFG_TI_OPTIONS_TI_FA_ENABLE
#define SET_CCFG_CCFG_TI_OPTIONS_TI_FA_ENABLE           0x00       // Disable unlocking of TI FA option.
// #define SET_CCFG_CCFG_TI_OPTIONS_TI_FA_ENABLE        0xC5       // Enable unlocking of TI FA option with the unlock code
#endif

#ifndef SET_CCFG_CCFG_TAP_DAP_0_CPU_DAP_ENABLE
// #define SET_CCFG_CCFG_TAP_DAP_0_CPU_DAP_ENABLE       0x00       // Access disabled
#define SET_CCFG_CCFG_TAP_DAP_0_CPU_DAP_ENABLE          0xC5       // Access enabled if also enabled in FCFG
#endif

#ifndef SET_CCFG_CCFG_TAP_DAP_0_PRCM_TAP_ENABLE
#define SET_CCFG_CCFG_TAP_DAP_0_PRCM_TAP_ENABLE         0x00       // Access disabled
// #define SET_CCFG_CCFG_TAP_DAP_0_PRCM_TAP_ENABLE      0xC5       // Access enabled if also enabled in FCFG
#endif

#ifndef SET_CCFG_CCFG_TAP_DAP_0_TEST_TAP_ENABLE
// #define SET_CCFG_CCFG_TAP_DAP_0_TEST_TAP_ENABLE      0x00       // Access disabled
#define SET_CCFG_CCFG_TAP_DAP_0_TEST_TAP_ENABLE         0xC5       // Access enabled if also enabled in FCFG
#endif

#ifndef SET_CCFG_CCFG_TAP_DAP_1_PBIST2_TAP_ENABLE
#define SET_CCFG_CCFG_TAP_DAP_1_PBIST2_TAP_ENABLE       0x00       // Access disabled
// #define SET_CCFG_CCFG_TAP_DAP_1_PBIST2_TAP_ENABLE    0xC5       // Access enabled if also enabled in FCFG
#endif

#ifndef SET_CCFG_CCFG_TAP_DAP_1_PBIST1_TAP_ENABLE
#define SET_CCFG_CCFG_TAP_DAP_1_PBIST1_TAP_ENABLE       0x00       // Access disabled
// #define SET_CCFG_CCFG_TAP_DAP_1_PBIST1_TAP_ENABLE    0xC5       // Access enabled if also enabled in FCFG
#endif

#ifndef SET_CCFG_CCFG_TAP_DAP_1_WUC_TAP_ENABLE
#define SET_CCFG_CCFG_TAP_DAP_1_WUC_TAP_ENABLE          0x00       // Access disabled
// #define SET_CCFG_CCFG_TAP_DAP_1_WUC_TAP_ENABLE       0xC5       // Access enabled if also enabled in FCFG
#endif

//#####################################
// Alternative IEEE 802.15.4 MAC address
//#####################################
#ifndef SET_CCFG_IEEE_MAC_0
#define SET_CCFG_IEEE_MAC_0                             0xFFFFFFFF // Bits [31:0]
#endif

#ifndef SET_CCFG_IEEE_MAC_1
#define SET_CCFG_IEEE_MAC_1                             0xFFFFFFFF // Bits [63:32]
#endif

//#####################################
// Alternative BLE address
//#####################################
#ifndef SET_CCFG_IEEE_BLE_0
#define SET_CCFG_IEEE_BLE_0                             0xFFFFFFFF // Bits [31:0]
#endif

#ifndef SET_CCFG_IEEE_BLE_1
#define SET_CCFG_IEEE_BLE_1                             0xFFFFFFFF // Bits [63:32]
#endif

//#####################################
// Flash erase settings
//#####################################

#ifndef SET_CCFG_ERASE_CONF_CHIP_ERASE_DIS_N
// #define SET_CCFG_ERASE_CONF_CHIP_ERASE_DIS_N         0x0        // Any chip erase request detected during boot will be ignored
#define SET_CCFG_ERASE_CONF_CHIP_ERASE_DIS_N            0x1        // Any chip erase request detected during boot will be performed by the boot FW
#endif

#ifndef SET_CCFG_ERASE_CONF_BANK_ERASE_DIS_N
// #define SET_CCFG_ERASE_CONF_BANK_ERASE_DIS_N         0x0        // Disable the boot loader bank erase function
#define SET_CCFG_ERASE_CONF_BANK_ERASE_DIS_N            0x1        // Enable the boot loader bank erase function
#endif

//#####################################
// Flash image valid
//#####################################
#ifndef SET_CCFG_IMAGE_VALID_CONF_IMAGE_VALID
#define SET_CCFG_IMAGE_VALID_CONF_IMAGE_VALID           0x00000000 // Flash image is valid
// #define SET_CCFG_IMAGE_VALID_CONF_IMAGE_VALID        <non-zero> // Flash image is invalid, call bootloader
#endif

//#####################################
// Flash sector write protection
//#####################################
#ifndef SET_CCFG_CCFG_PROT_31_0
#define SET_CCFG_CCFG_PROT_31_0                         0xFFFFFFFF
#endif

#ifndef SET_CCFG_CCFG_PROT_63_32
#define SET_CCFG_CCFG_PROT_63_32                        0xFFFFFFFF
#endif

#ifndef SET_CCFG_CCFG_PROT_95_64
#define SET_CCFG_CCFG_PROT_95_64                        0xFFFFFFFF
#endif

#ifndef SET_CCFG_CCFG_PROT_127_96
#define SET_CCFG_CCFG_PROT_127_96                       0xFFFFFFFF
#endif

//#####################################
// Select between cache or GPRAM
//#####################################
#ifndef SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_GPRAM
// #define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_GPRAM        0x0        // Cache is disabled and GPRAM is available at 0x11000000-0x11001FFF
#define SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_GPRAM           0x1        // Cache is enabled and GPRAM is disabled (unavailable)
#endif

//*****************************************************************************
//
// CCFG values that should not be modified.
//
//*****************************************************************************
#define SET_CCFG_SIZE_AND_DIS_FLAGS_SIZE_OF_CCFG        0x0058
#define SET_CCFG_SIZE_AND_DIS_FLAGS_DISABLE_FLAGS       0x3FFF

#define SET_CCFG_MODE_CONF_VDDR_EXT_LOAD                0x1
#define SET_CCFG_MODE_CONF_RTC_COMP                     0x1
#define SET_CCFG_MODE_CONF_HF_COMP                      0x1

#define SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TP45              0xFF
#define SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TP25              0xFF
#define SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TP5               0xFF
#define SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TM15              0xFF

#define SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP125             0xFF
#define SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP105             0xFF
#define SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP85              0xFF
#define SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP65              0xFF

#define SET_CCFG_RTC_OFFSET_RTC_COMP_P0                 0xFFFF
#define SET_CCFG_RTC_OFFSET_RTC_COMP_P1                 0xFF
#define SET_CCFG_RTC_OFFSET_RTC_COMP_P2                 0xFF

#define SET_CCFG_FREQ_OFFSET_HF_COMP_P0                 0xFFFF
#define SET_CCFG_FREQ_OFFSET_HF_COMP_P1                 0xFF
#define SET_CCFG_FREQ_OFFSET_HF_COMP_P2                 0xFF

//*****************************************************************************
//
// Concatenate bit fields to words.
// DO NOT EDIT!
//
//*****************************************************************************
#define DEFAULT_CCFG_O_EXT_LF_CLK        ( \
	 ( ((uint32_t)( SET_CCFG_EXT_LF_CLK_DIO           << CCFG_EXT_LF_CLK_DIO_S           )) | ~CCFG_EXT_LF_CLK_DIO_M           ) & \
	 ( ((uint32_t)( SET_CCFG_EXT_LF_CLK_RTC_INCREMENT << CCFG_EXT_LF_CLK_RTC_INCREMENT_S )) | ~CCFG_EXT_LF_CLK_RTC_INCREMENT_M ) )
     
#define DEFAULT_CCFG_MODE_CONF_1         ( \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_1_ALT_DCDC_VMIN      << CCFG_MODE_CONF_1_ALT_DCDC_VMIN_S      )) | ~CCFG_MODE_CONF_1_ALT_DCDC_VMIN_M      ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_1_ALT_DCDC_DITHER_EN << CCFG_MODE_CONF_1_ALT_DCDC_DITHER_EN_S )) | ~CCFG_MODE_CONF_1_ALT_DCDC_DITHER_EN_M ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_1_ALT_DCDC_IPEAK     << CCFG_MODE_CONF_1_ALT_DCDC_IPEAK_S     )) | ~CCFG_MODE_CONF_1_ALT_DCDC_IPEAK_M     ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_1_DELTA_IBIAS_INIT   << CCFG_MODE_CONF_1_DELTA_IBIAS_INIT_S   )) | ~CCFG_MODE_CONF_1_DELTA_IBIAS_INIT_M   ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_1_DELTA_IBIAS_OFFSET << CCFG_MODE_CONF_1_DELTA_IBIAS_OFFSET_S )) | ~CCFG_MODE_CONF_1_DELTA_IBIAS_OFFSET_M ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_1_XOSC_MAX_START     << CCFG_MODE_CONF_1_XOSC_MAX_START_S     )) | ~CCFG_MODE_CONF_1_XOSC_MAX_START_M     ) )

#define DEFAULT_CCFG_SIZE_AND_DIS_FLAGS  ( \
	 ( ((uint32_t)( SET_CCFG_SIZE_AND_DIS_FLAGS_SIZE_OF_CCFG         << CCFG_SIZE_AND_DIS_FLAGS_SIZE_OF_CCFG_S         )) | ~CCFG_SIZE_AND_DIS_FLAGS_SIZE_OF_CCFG_M         ) & \
	 ( ((uint32_t)( SET_CCFG_SIZE_AND_DIS_FLAGS_DISABLE_FLAGS        << CCFG_SIZE_AND_DIS_FLAGS_DISABLE_FLAGS_S        )) | ~CCFG_SIZE_AND_DIS_FLAGS_DISABLE_FLAGS_M        ) & \
	 ( ((uint32_t)( SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_GPRAM            << CCFG_SIZE_AND_DIS_FLAGS_DIS_GPRAM_S            )) | ~CCFG_SIZE_AND_DIS_FLAGS_DIS_GPRAM_M            ) & \
	 ( ((uint32_t)( SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING << CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING_S )) | ~CCFG_SIZE_AND_DIS_FLAGS_DIS_ALT_DCDC_SETTING_M ) & \
	 ( ((uint32_t)( SET_CCFG_SIZE_AND_DIS_FLAGS_DIS_XOSC_OVR         << CCFG_SIZE_AND_DIS_FLAGS_DIS_XOSC_OVR_S         )) | ~CCFG_SIZE_AND_DIS_FLAGS_DIS_XOSC_OVR_M         ) )

#define DEFAULT_CCFG_MODE_CONF           ( \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_DELTA << CCFG_MODE_CONF_VDDR_TRIM_SLEEP_DELTA_S )) | ~CCFG_MODE_CONF_VDDR_TRIM_SLEEP_DELTA_M ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_DCDC_RECHARGE         << CCFG_MODE_CONF_DCDC_RECHARGE_S         )) | ~CCFG_MODE_CONF_DCDC_RECHARGE_M         ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_DCDC_ACTIVE           << CCFG_MODE_CONF_DCDC_ACTIVE_S           )) | ~CCFG_MODE_CONF_DCDC_ACTIVE_M           ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_VDDR_EXT_LOAD         << CCFG_MODE_CONF_VDDR_EXT_LOAD_S         )) | ~CCFG_MODE_CONF_VDDR_EXT_LOAD_M         ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_VDDS_BOD_LEVEL        << CCFG_MODE_CONF_VDDS_BOD_LEVEL_S        )) | ~CCFG_MODE_CONF_VDDS_BOD_LEVEL_M        ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_SCLK_LF_OPTION        << CCFG_MODE_CONF_SCLK_LF_OPTION_S        )) | ~CCFG_MODE_CONF_SCLK_LF_OPTION_M        ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_VDDR_TRIM_SLEEP_TC    << CCFG_MODE_CONF_VDDR_TRIM_SLEEP_TC_S    )) | ~CCFG_MODE_CONF_VDDR_TRIM_SLEEP_TC_M    ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_RTC_COMP              << CCFG_MODE_CONF_RTC_COMP_S              )) | ~CCFG_MODE_CONF_RTC_COMP_M              ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_XOSC_FREQ             << CCFG_MODE_CONF_XOSC_FREQ_S             )) | ~CCFG_MODE_CONF_XOSC_FREQ_M             ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_XOSC_CAP_MOD          << CCFG_MODE_CONF_XOSC_CAP_MOD_S          )) | ~CCFG_MODE_CONF_XOSC_CAP_MOD_M          ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_HF_COMP               << CCFG_MODE_CONF_HF_COMP_S               )) | ~CCFG_MODE_CONF_HF_COMP_M               ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_XOSC_CAPARRAY_DELTA   << CCFG_MODE_CONF_XOSC_CAPARRAY_DELTA_S   )) | ~CCFG_MODE_CONF_XOSC_CAPARRAY_DELTA_M   ) & \
	 ( ((uint32_t)( SET_CCFG_MODE_CONF_VDDR_CAP              << CCFG_MODE_CONF_VDDR_CAP_S              )) | ~CCFG_MODE_CONF_VDDR_CAP_M              ) )

#define DEFAULT_CCFG_VOLT_LOAD_0         ( \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TP45 << CCFG_VOLT_LOAD_0_VDDR_EXT_TP45_S )) | ~CCFG_VOLT_LOAD_0_VDDR_EXT_TP45_M ) & \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TP25 << CCFG_VOLT_LOAD_0_VDDR_EXT_TP25_S )) | ~CCFG_VOLT_LOAD_0_VDDR_EXT_TP25_M ) & \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TP5  << CCFG_VOLT_LOAD_0_VDDR_EXT_TP5_S  )) | ~CCFG_VOLT_LOAD_0_VDDR_EXT_TP5_M  ) & \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_0_VDDR_EXT_TM15 << CCFG_VOLT_LOAD_0_VDDR_EXT_TM15_S )) | ~CCFG_VOLT_LOAD_0_VDDR_EXT_TM15_M ) )

#define DEFAULT_CCFG_VOLT_LOAD_1         ( \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP125 << CCFG_VOLT_LOAD_1_VDDR_EXT_TP125_S )) | ~CCFG_VOLT_LOAD_1_VDDR_EXT_TP125_M ) & \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP105 << CCFG_VOLT_LOAD_1_VDDR_EXT_TP105_S )) | ~CCFG_VOLT_LOAD_1_VDDR_EXT_TP105_M ) & \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP85  << CCFG_VOLT_LOAD_1_VDDR_EXT_TP85_S  )) | ~CCFG_VOLT_LOAD_1_VDDR_EXT_TP85_M  ) & \
	 ( ((uint32_t)( SET_CCFG_VOLT_LOAD_1_VDDR_EXT_TP65  << CCFG_VOLT_LOAD_1_VDDR_EXT_TP65_S  )) | ~CCFG_VOLT_LOAD_1_VDDR_EXT_TP65_M  ) )

#define DEFAULT_CCFG_RTC_OFFSET          ( \
	 ( ((uint32_t)( SET_CCFG_RTC_OFFSET_RTC_COMP_P0 << CCFG_RTC_OFFSET_RTC_COMP_P0_S )) | ~CCFG_RTC_OFFSET_RTC_COMP_P0_M ) & \
	 ( ((uint32_t)( SET_CCFG_RTC_OFFSET_RTC_COMP_P1 << CCFG_RTC_OFFSET_RTC_COMP_P1_S )) | ~CCFG_RTC_OFFSET_RTC_COMP_P1_M ) & \
	 ( ((uint32_t)( SET_CCFG_RTC_OFFSET_RTC_COMP_P2 << CCFG_RTC_OFFSET_RTC_COMP_P2_S )) | ~CCFG_RTC_OFFSET_RTC_COMP_P2_M ) )

#define DEFAULT_CCFG_FREQ_OFFSET         ( \
	 ( ((uint32_t)( SET_CCFG_FREQ_OFFSET_HF_COMP_P0 << CCFG_FREQ_OFFSET_HF_COMP_P0_S )) | ~CCFG_FREQ_OFFSET_HF_COMP_P0_M ) & \
	 ( ((uint32_t)( SET_CCFG_FREQ_OFFSET_HF_COMP_P1 << CCFG_FREQ_OFFSET_HF_COMP_P1_S )) | ~CCFG_FREQ_OFFSET_HF_COMP_P1_M ) & \
	 ( ((uint32_t)( SET_CCFG_FREQ_OFFSET_HF_COMP_P2 << CCFG_FREQ_OFFSET_HF_COMP_P2_S )) | ~CCFG_FREQ_OFFSET_HF_COMP_P2_M ) )

#define DEFAULT_CCFG_IEEE_MAC_0          SET_CCFG_IEEE_MAC_0
#define DEFAULT_CCFG_IEEE_MAC_1          SET_CCFG_IEEE_MAC_1
#define DEFAULT_CCFG_IEEE_BLE_0          SET_CCFG_IEEE_BLE_0
#define DEFAULT_CCFG_IEEE_BLE_1          SET_CCFG_IEEE_BLE_1

#define DEFAULT_CCFG_BL_CONFIG           ( \
	 ( ((uint32_t)( SET_CCFG_BL_CONFIG_BOOTLOADER_ENABLE << CCFG_BL_CONFIG_BOOTLOADER_ENABLE_S )) | ~CCFG_BL_CONFIG_BOOTLOADER_ENABLE_M ) & \
	 ( ((uint32_t)( SET_CCFG_BL_CONFIG_BL_LEVEL          << CCFG_BL_CONFIG_BL_LEVEL_S          )) | ~CCFG_BL_CONFIG_BL_LEVEL_M          ) & \
	 ( ((uint32_t)( SET_CCFG_BL_CONFIG_BL_PIN_NUMBER     << CCFG_BL_CONFIG_BL_PIN_NUMBER_S     )) | ~CCFG_BL_CONFIG_BL_PIN_NUMBER_M     ) & \
	 ( ((uint32_t)( SET_CCFG_BL_CONFIG_BL_ENABLE         << CCFG_BL_CONFIG_BL_ENABLE_S         )) | ~CCFG_BL_CONFIG_BL_ENABLE_M         ) )

#define DEFAULT_CCFG_ERASE_CONF          ( \
	 ( ((uint32_t)( SET_CCFG_ERASE_CONF_CHIP_ERASE_DIS_N << CCFG_ERASE_CONF_CHIP_ERASE_DIS_N_S )) | ~CCFG_ERASE_CONF_CHIP_ERASE_DIS_N_M ) & \
	 ( ((uint32_t)( SET_CCFG_ERASE_CONF_BANK_ERASE_DIS_N << CCFG_ERASE_CONF_BANK_ERASE_DIS_N_S )) | ~CCFG_ERASE_CONF_BANK_ERASE_DIS_N_M ) )

#define DEFAULT_CCFG_CCFG_TI_OPTIONS     ( \
	 ( ((uint32_t)( SET_CCFG_CCFG_TI_OPTIONS_TI_FA_ENABLE << CCFG_CCFG_TI_OPTIONS_TI_FA_ENABLE_S )) | ~CCFG_CCFG_TI_OPTIONS_TI_FA_ENABLE_M ) )

#define DEFAULT_CCFG_CCFG_TAP_DAP_0      ( \
	 ( ((uint32_t)( SET_CCFG_CCFG_TAP_DAP_0_CPU_DAP_ENABLE  << CCFG_CCFG_TAP_DAP_0_CPU_DAP_ENABLE_S  )) | ~CCFG_CCFG_TAP_DAP_0_CPU_DAP_ENABLE_M  ) & \
	 ( ((uint32_t)( SET_CCFG_CCFG_TAP_DAP_0_PRCM_TAP_ENABLE << CCFG_CCFG_TAP_DAP_0_PRCM_TAP_ENABLE_S )) | ~CCFG_CCFG_TAP_DAP_0_PRCM_TAP_ENABLE_M ) & \
	 ( ((uint32_t)( SET_CCFG_CCFG_TAP_DAP_0_TEST_TAP_ENABLE << CCFG_CCFG_TAP_DAP_0_TEST_TAP_ENABLE_S )) | ~CCFG_CCFG_TAP_DAP_0_TEST_TAP_ENABLE_M ) )

#define DEFAULT_CCFG_CCFG_TAP_DAP_1      ( \
	 ( ((uint32_t)( SET_CCFG_CCFG_TAP_DAP_1_PBIST2_TAP_ENABLE << CCFG_CCFG_TAP_DAP_1_PBIST2_TAP_ENABLE_S )) | ~CCFG_CCFG_TAP_DAP_1_PBIST2_TAP_ENABLE_M ) & \
	 ( ((uint32_t)( SET_CCFG_CCFG_TAP_DAP_1_PBIST1_TAP_ENABLE << CCFG_CCFG_TAP_DAP_1_PBIST1_TAP_ENABLE_S )) | ~CCFG_CCFG_TAP_DAP_1_PBIST1_TAP_ENABLE_M ) & \
	 ( ((uint32_t)( SET_CCFG_CCFG_TAP_DAP_1_WUC_TAP_ENABLE    << CCFG_CCFG_TAP_DAP_1_WUC_TAP_ENABLE_S    )) | ~CCFG_CCFG_TAP_DAP_1_WUC_TAP_ENABLE_M    ) )

#define DEFAULT_CCFG_IMAGE_VALID_CONF    ( \
	 ( ((uint32_t)( SET_CCFG_IMAGE_VALID_CONF_IMAGE_VALID << CCFG_IMAGE_VALID_CONF_IMAGE_VALID_S )) | ~CCFG_IMAGE_VALID_CONF_IMAGE_VALID_M ) )

#define DEFAULT_CCFG_CCFG_PROT_31_0      SET_CCFG_CCFG_PROT_31_0  
#define DEFAULT_CCFG_CCFG_PROT_63_32     SET_CCFG_CCFG_PROT_63_32 
#define DEFAULT_CCFG_CCFG_PROT_95_64     SET_CCFG_CCFG_PROT_95_64 
#define DEFAULT_CCFG_CCFG_PROT_127_96    SET_CCFG_CCFG_PROT_127_96

//*****************************************************************************
//
// Customer Configuration Area in Lock Page
//
//*****************************************************************************
#if defined(__IAR_SYSTEMS_ICC__)
__root const ccfg_t __ccfg @ ".ccfg" =
#elif defined(__TI_COMPILER_VERSION__)
#pragma DATA_SECTION(__ccfg, ".ccfg")
#pragma RETAIN(__ccfg)
const ccfg_t __ccfg =
#else
const ccfg_t __ccfg __attribute__((section(".ccfg"))) __attribute__((used)) =
#endif
{                                     // Mapped to address
    DEFAULT_CCFG_O_EXT_LF_CLK       , // 0x50003FA8 (0x50003xxx maps to last
    DEFAULT_CCFG_MODE_CONF_1        , // 0x50003FAC  sector in FLASH.
    DEFAULT_CCFG_SIZE_AND_DIS_FLAGS , // 0x50003FB0  Independent of FLASH size)
    DEFAULT_CCFG_MODE_CONF          , // 0x50003FB4
    DEFAULT_CCFG_VOLT_LOAD_0        , // 0x50003FB8 
    DEFAULT_CCFG_VOLT_LOAD_1        , // 0x50003FBC
    DEFAULT_CCFG_RTC_OFFSET         , // 0x50003FC0
    DEFAULT_CCFG_FREQ_OFFSET        , // 0x50003FC4
    DEFAULT_CCFG_IEEE_MAC_0         , // 0x50003FC8
    DEFAULT_CCFG_IEEE_MAC_1         , // 0x50003FCC
    DEFAULT_CCFG_IEEE_BLE_0         , // 0x50003FD0
    DEFAULT_CCFG_IEEE_BLE_1         , // 0x50003FD4
    DEFAULT_CCFG_BL_CONFIG          , // 0x50003FD8
    DEFAULT_CCFG_ERASE_CONF         , // 0x50003FDC
    DEFAULT_CCFG_CCFG_TI_OPTIONS    , // 0x50003FE0
    DEFAULT_CCFG_CCFG_TAP_DAP_0     , // 0x50003FE4
    DEFAULT_CCFG_CCFG_TAP_DAP_1     , // 0x50003FE8
    DEFAULT_CCFG_IMAGE_VALID_CONF   , // 0x50003FEC
    DEFAULT_CCFG_CCFG_PROT_31_0     , // 0x50003FF0
    DEFAULT_CCFG_CCFG_PROT_63_32    , // 0x50003FF4
    DEFAULT_CCFG_CCFG_PROT_95_64    , // 0x50003FF8
    DEFAULT_CCFG_CCFG_PROT_127_96   , // 0x50003FFC
};

0 TER over 6 years ago in reply to erdem simsek

TI__Guru**** 317180 points

OAD requires that you load more than one image and do things in a given order. Have you followed dev.ti.com/.../README.html to the letter (or a similar readme if using a different project?)

0 erdem simsek over 6 years ago in reply to TER

Expert 2165 points

My project has been working very well before adding internal RC configuration and I am using hexmerge to merge BIM, STACK, TARGET_APP and MY_APP hex files to produce production hex. When I load the production hex into flash, the project runs.

I added internal RC configuration to the my working project and I generated a production hex file in a way that I mentioned. I did not work in my custom board. However, when I flash the production hex file which contains internal RC configuration into the CC2640R2F Launchpad. I can debug the code and run successfully.

Best regards.

0 TER over 6 years ago in reply to erdem simsek

TI__Guru**** 317180 points

So to understand you correct, the only change you have done between a working and non working project is the RC configuration? Could you send the diff between the hex files with the addresses where the diffs are?

0 erdem simsek over 6 years ago in reply to TER

Expert 2165 points

--- internal_crystal.hex
+++ external_crystal.hex

1FF80 -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- | |
1FF90 -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- | |
1FFA0 -- -- -- -- -- -- -- -- 00 00 80 01 10 00 82 FF | ........|
-1FFB0 FF FF 58 00 3A FF DF F3 FF FF FF FF FF FF FF FF |..X.:...........|
+1FFB0 FD FF 58 00 3A FF BF F7 FF FF FF FF FF FF FF FF |..X.:...........|
1FFC0 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF |................|
1FFD0 FF FF FF FF FF FF FF FF FF FF FF 00 FF FF FF FF |................|
-1FFE0 00 FF FF FF C5 00 C5 FF 00 00 00 FF 00 00 00 00 |................|
+1FFE0 00 FF FF FF C5 00 C5 FF 00 00 00 FF 00 F0 01 00 |................|
1FFF0 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF |................|

The difference of CCFG section between working and non-working project.

Best regards

0 TER over 6 years ago in reply to erdem simsek

TI__Guru**** 317180 points

Do you know why you have a difference here:

-1FFE0 00 FF FF FF C5 00 C5 FF 00 00 00 FF 00 00 00 00 |................|
+1FFE0 00 FF FF FF C5 00 C5 FF 00 00 00 FF 00 F0 01 00 |................|

It looks like you have a non zero 'valid image' in one of the images, why?

0 erdem simsek over 6 years ago in reply to TER

Expert 2165 points

Hello TER,

I will tell you what I did step by step and I hope that, you are able to produce the issue on your side.

Import simple_peripheral_cc2640r2lp_app_oad_onchip project from CC2640R2F SDK1.35
Import bim_oad_onchip_cc2640r2lp_app project from CC2640R2F SDK1.35
Build the bim_oad_onchip_cc2640r2lp_app project
Build oad_target_cc2640r2lp_stack project
Add the following post build definition to oad_target_cc2640r2lp_app
${TI_BLE_SDK_BASE}/tools/blestack/oad/oad_image_tool
oad_target_cc2640r2lp_app.hex
${PROJECT_LOC}/../oad_target_cc2640r2lp_stack/FlashROM/oad_target_cc2640r2lp_stack.hex
${PROJECT_LOC}/../bim_oad_onchip_cc2640r2lp_app/FlashOnly/bim_oad_onchip_cc2640r2lp_app.hex
-t onchip -i production -v 0 --usrId AAAA -o ${ProjName}_oad_onchip_production.hex -m 0x0000 --r 0x0000
Build the oad_target_cc2640r2lp_app project
Load the oad_target_cc2640r2lp_app_oad_onchip_production.hex into the CC2640R2F Launchpad
Check the device is broadcasting or not
The launchpad is broadcasting with name of OAD Target Image A

Now, let's add internal RCOSC configuration and try to run the project and I followed SWRA499B documentation.

Exclude from build the ccfg_app_ble.c file in bim_oad_onchip_cc2640r2lp_app/Application
Copy ccfg_app_ble_rcosc.c file in simplelink_cc2640r2_sdk_1_35_00_33\source\ti\blestack\common\cc26xx\rcosc to bim_oad_onchip_cc2640r2lp_app/Application
Build the bim_oad_onchip_cc2640r2lp_app project
Copy rcosc_calibration.h and rcosc_calibration.c files in simplelink_cc2640r2_sdk_1_35_00_33\source\ti\blestack\common\cc26xx\rcosc to the oad_target_cc2640r2lp_app/Application
Do step3.4 and 5 in section 3.2 Software Configuration in SWRA499B documentation.
Build oad_target_cc2640r2lp_app project and you will get an linker error.
To solve linker error add the #include "icall_api.h" into rcosc_calibration.c file
Build the oad_target_cc2640r2lp_app project and load the oad_target_cc2640r2lp_app_oad_onchip_production.hex into flash
Check the device is broadcasting or not
The launchpad is not broadcasting

What is the wrong part ? How can I solve the problem ?

Best regards.

0 Christin Lee over 6 years ago in reply to erdem simsek

TI__Guru 56275 points

Hi,

The ccfg_app_ble.c has the following content which are the ones you are missing when you pulled in ccfg_app_ble_rcosc.c

#ifdef __TI_COMPILER_VERSION__
//BIM OAD Offchip reset vector is located in pg 30, ROM code should jump there.
#define SET_CCFG_IMAGE_VALID_CONF_IMAGE_VALID 0x1E000
#elif defined(__IAR_SYSTEMS_ICC__)
//BIM OAD Offchip reset vector is located in pg 31, ROM code should jump there.
#define SET_CCFG_IMAGE_VALID_CONF_IMAGE_VALID 0x1F000
#endif

What you should do instead of excluding ccfg_app_ble.c is to remove the

#include <startup_files/ccfg.c>

And copy the content of ccfg_app_ble_rcosc.c after all ifdet arguments.

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