Difference between revisions of "NXP S32K144EVB-Q100"
(Created page with "__TOC__ = Connecting an external J-Link = The eval board provides 2 debug connectors: * J12 SDA (Connects to the OpenSDA on the board. Usually not needed by the user. Only ne...") |
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= Connecting via on-board OpenSDA = |
= Connecting via on-board OpenSDA = |
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− | The eval board provides an on-board debug circuit called OpenSDA. This debug circuit can run a firmware to make it behave like a J-Link. |
+ | The eval board provides an on-board debug circuit called [https://www.segger.com/products/debug-probes/j-link/models/other-j-links/opensda-sda-v2/ OpenSDA]. This debug circuit can run a firmware to make it behave like a J-Link. The firmware (OpenSDA V1 Bootloader) can be downloaded here: [https://www.segger.com/downloads/jlink/#JLinkOpenSDAGenericFirmwares Download - OpenSDA firmwares] |
+ | For more information how to flash the firmware onto the OpenSDA, please refer to here: [https://www.segger.com/products/debug-probes/j-link/models/other-j-links/opensda-sda-v2/ SEGGER website - OpenSDA] |
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[[File:S32K144EVB-Q100.png]] |
[[File:S32K144EVB-Q100.png]] |
Revision as of 15:59, 16 November 2020
Connecting an external J-Link
The eval board provides 2 debug connectors:
- J12 SDA (Connects to the OpenSDA on the board. Usually not needed by the user. Only needed to reflash the bootloader of OpenSDA if needed)
- J14 SWD (Connects to the S32K144 device)
J14 SWD can be used to connect an external J-Link to the S32K144 device. A J-Link 9-pin Cortex-M adapter is needed to adapt to J14 SWD.
Connecting via on-board OpenSDA
The eval board provides an on-board debug circuit called OpenSDA. This debug circuit can run a firmware to make it behave like a J-Link. The firmware (OpenSDA V1 Bootloader) can be downloaded here: Download - OpenSDA firmwares For more information how to flash the firmware onto the OpenSDA, please refer to here: SEGGER website - OpenSDA