Difference between revisions of "Tracing on NXP LPC1788"

From SEGGER Wiki
Jump to: navigation, search
(Created page with "__TOC__ This article describes how to get started with trace on the Infineon XMC4500 series. This article assumes that there is already a basic knowledge about trace in gener...")
 
Line 1: Line 1:
 
__TOC__
 
__TOC__
   
This article describes how to get started with trace on the Infineon XMC4500 series. This article assumes that there is already a basic knowledge about trace in general (what is trace, what different implementations of trace are there, etc.). If this is not the case, we recommend to read '''Trace''' chapter in the J-Link User Manual (UM08001).
+
This article describes how to get started with trace on the NXP LPC1788 series. This article assumes that there is already a basic knowledge about trace in general (what is trace, what different implementations of trace are there, etc.). If this is not the case, we recommend to read '''Trace''' chapter in the J-Link User Manual (UM08001).
The Infineon XMC4500 series implements tracing via pins only, so a J-Trace is needed to perform tracing on these devices.
+
The NXP LPC1788 series implements tracing via pins only, so a J-Trace is needed to perform tracing on these devices.
   
 
= Minimum requirements =
 
= Minimum requirements =
In order to use trace on the Infineon XMC4500 series devices, the following minimum requirements have to be met:
+
In order to use trace on the NXP LPC1788 series devices, the following minimum requirements have to be met:
 
* J-Link software version V6.13e (beta) or later
 
* J-Link software version V6.13e (beta) or later
 
* Ozone V2.22o or later (if streaming trace and / or the sample project from below shall be used)
 
* Ozone V2.22o or later (if streaming trace and / or the sample project from below shall be used)
Line 11: Line 11:
   
 
= Sample project =
 
= Sample project =
The following sample project is designed to be used with J-Trace PRO and Ozone to demonstrate streaming trace. The project has been tested with the minimum requirements mentioned above on a XMC4500_CPU_45A-V3 Kit (Hexagon Board). The sample project comes with a pre-configured project file for Ozone that runs out-of-the box. In order to rebuild the sample project, [https://www.segger.com/embedded-studio.html SEGGER Embedded Studio] can be used.
+
The following sample project is designed to be used with J-Trace PRO and Ozone to demonstrate streaming trace. The project has been tested with the minimum requirements mentioned above on a IAR LPC178x-SK Rev.C. The sample project comes with a pre-configured project file for Ozone that runs out-of-the box. In order to rebuild the sample project, [https://www.segger.com/embedded-studio.html SEGGER Embedded Studio] can be used.
   
  +
[[:File:NXP_LPC1788FB_TraceExample_60MHz_TCLK.zip | NXP_LPC1788FB_TraceExample_60MHz_TCLK.zip]]
[[:File:Infineon XMC4500-1024 CPU 45A-V3 120MHz TraceExample.zip | Infineon XMC4500-1024 CPU 45A-V3 120MHz TraceExample.zip]]
 

Revision as of 14:48, 23 February 2017

This article describes how to get started with trace on the NXP LPC1788 series. This article assumes that there is already a basic knowledge about trace in general (what is trace, what different implementations of trace are there, etc.). If this is not the case, we recommend to read Trace chapter in the J-Link User Manual (UM08001). The NXP LPC1788 series implements tracing via pins only, so a J-Trace is needed to perform tracing on these devices.

Minimum requirements

In order to use trace on the NXP LPC1788 series devices, the following minimum requirements have to be met:

  • J-Link software version V6.13e (beta) or later
  • Ozone V2.22o or later (if streaming trace and / or the sample project from below shall be used)
  • J-Trace PRO for Cortex-M HW version V1.0 or later

Sample project

The following sample project is designed to be used with J-Trace PRO and Ozone to demonstrate streaming trace. The project has been tested with the minimum requirements mentioned above on a IAR LPC178x-SK Rev.C. The sample project comes with a pre-configured project file for Ozone that runs out-of-the box. In order to rebuild the sample project, SEGGER Embedded Studio can be used.

NXP_LPC1788FB_TraceExample_60MHz_TCLK.zip