Difference between revisions of "Silicon Labs EFR32xG25"
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+ | [[Category:Device families]] |
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− | The '''Silicon Labs EFR32xG25''' are wireless SoCs based on Cortex-M33. |
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+ | The '''Silicon Labs EFR32xG25''' are wireless SoCs based on Cortex-M33 microcontrollers. |
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+ | These MCUs are part of the [[Silicon Labs EFx32 Series 2 | EFx32 Series 2]] devices. |
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+ | |||
__TOC__ |
__TOC__ |
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+ | |||
+ | == EFx32 Series 2 specifics == |
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+ | Please refer to the [[Silicon Labs EFx32 Series 2]] article. |
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==Flash Banks== |
==Flash Banks== |
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! Flash Bank || Base address !! Size || J-Link Support |
! Flash Bank || Base address !! Size || J-Link Support |
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|- |
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− | | |
+ | | Internal flash || 0x08000000 || Up to 1920 KB || style="text-align:center;"| {{YES}} |
− | |} |
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− | |||
− | ====ECC Flash [OPTIONAL]==== |
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− | *Describe ECC Flash restriction here. |
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− | |||
− | ===QSPI Flash=== |
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− | QSPI flash programming requires special handling compared to internal flash. For more information about this, please see the [[QSPI Flash Programming Support | QSPI Flash Programming Support article]].<br> |
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− | J-Link supports multiple pin configurations for [DEVICE]. The default loader is marked in '''bold'''. |
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− | {| class="seggertable" |
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− | |- |
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− | ! Device !! Base address !! Maximum size !! Supported pin configuration |
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|- |
|- |
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+ | | User Data || 0x0FE00000 ||1 KB || style="text-align:center;"| {{YES}} |
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− | | [DEVICE]|| [BANK_BASE_ADDRESS] || [MAX_SPI_FLASH_SIZE] MB || |
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− | *'''[LOADER_NAME]''' |
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− | *[LOADER_NAME] |
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− | *[LOADER_NAME] |
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|} |
|} |
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− | |||
− | ==ECC RAM [OPTIONAL]== |
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− | *Describe ECC RAM restriction here. |
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− | |||
− | ==Vector Table Remap [OPTIONAL]== |
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− | *Describe Vector Table Remap here.. |
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==Watchdog Handling== |
==Watchdog Handling== |
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+ | *The device has 2 Watchdogs, they are feed during programming, if they are enabled. |
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− | *The device does not have a watchdog. |
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− | *The device has a watchdog [WATCHDOGNAME]. |
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− | *The watchdog is fed during flash programming. |
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− | *If the watchdog is enabled, it is turned off during flash programming and turned back on afterwards. |
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+ | == Device Specific Handling == |
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− | |||
− | ==Multi-Core Support [OPTIONAL]== |
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− | Before proceeding with this article, please check out the generic article regarding Multi-Core debugging [[Multi-Core_Debugging | here]].<br> |
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− | The [DeviceFamily]family comes with a variety of multi-core options.<br> |
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− | Some devices from this family feature a secondary core which is disabled after reset / by default.<br> |
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− | Some of the are available with enabled ''lockstep'' mode, only. <br> |
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− | In below, the debug related multi-core behavior of the J-Link is described for each core: |
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− | ===Main core=== |
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− | ====Init/Setup==== |
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− | *Initializes the ECC RAM, see [[XXX | XXX]] |
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− | *Enables debugging |
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− | ====Reset==== |
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− | *Device specific reset is performed, see [[XXX | XXX]] |
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− | ====Attach==== |
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− | *Attach is not supported because the J-Link initializes certain RAM regions by default |
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− | ===Secondary core(s)=== |
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− | ====Init/Setup==== |
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− | *If the main core session has not been started / debugging is not enabled yet, the secondary core executes the enable debug sequence. |
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− | *If the secondary core is not enabled yet, it will be enabled / release from reset |
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− | ====Reset==== |
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− | No reset is performed. |
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− | ====Attach==== |
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− | *Attach is supported / desired |
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− | |||
− | ==Device Specific Handling== |
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− | ===Connect=== |
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===Reset=== |
===Reset=== |
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*The devices uses normal Cortex-M reset, no special handling necessary, like described [[J-Link_Reset_Strategies#Type_0:_Normal | here]]. |
*The devices uses normal Cortex-M reset, no special handling necessary, like described [[J-Link_Reset_Strategies#Type_0:_Normal | here]]. |
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− | *The devices uses Cortex-M Core reset, no special handling necessary, like described [[J-Link_Reset_Strategies#Type_1:_Core | here]]. |
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− | *The devices uses Cortex-M Rest Pin, no special handling necessary, like described [[J-Link_Reset_Strategies#Type_2:_ResetPin | here]]. |
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− | *The device uses custom reset:..... |
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− | == |
+ | === Security === |
+ | See: [[Silicon Labs EFx32 Series 2#Debug lock | Silicon Labs EFx32 Series 2]] article. |
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− | ===Dual Core Support=== |
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+ | |||
− | Some XXX devices feature a second core. Right now, the J-Link software does support the main core, only. Support for the second core is planned for future versions. |
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− | === |
+ | === Secure boot === |
+ | See: [[Silicon Labs EFx32 Series 2#Secure boot specific | Silicon Labs EFx32 Series 2]] article. |
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− | Attach is not supported by default because the J-Link initializes certain RAM regions by default. |
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− | ===Security=== |
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==Evaluation Boards== |
==Evaluation Boards== |
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+ | *[[Silicon Labs BRD4271A]] |
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− | *[SiliconVendor] [EvalBoardName] evaluation board: http://techwiki.segger.local/WikiTemplateEvalBoard |
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==Example Application== |
==Example Application== |
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+ | *[[Silicon Labs BRD4271A#Example_Project | Silicon Labs BRD4271A]] |
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− | *[SiliconVendor] [EvalBoardName] evaluation board: http://techwiki.segger.local/WikiTemplateEvalBoard#Example_Project |
Latest revision as of 13:23, 15 May 2024
The Silicon Labs EFR32xG25 are wireless SoCs based on Cortex-M33 microcontrollers. These MCUs are part of the EFx32 Series 2 devices.
Contents
EFx32 Series 2 specifics
Please refer to the Silicon Labs EFx32 Series 2 article.
Flash Banks
Internal Flash
Flash Bank | Base address | Size | J-Link Support |
---|---|---|---|
Internal flash | 0x08000000 | Up to 1920 KB | |
User Data | 0x0FE00000 | 1 KB |
Watchdog Handling
- The device has 2 Watchdogs, they are feed during programming, if they are enabled.
Device Specific Handling
Reset
- The devices uses normal Cortex-M reset, no special handling necessary, like described here.
Security
See: Silicon Labs EFx32 Series 2 article.
Secure boot
See: Silicon Labs EFx32 Series 2 article.