Difference between revisions of "EFR32"

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(Tracing on SiLabs EFR32MG21xxx//EFR32MGM21xxx (SiLabs Wireless Gecko xGM210P022))
 
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* In future, a stalling mode version of the project will be added, using ARM stalling mode to halt the MCU in case of an overflow.<br>Please note, that any kind of stalling mode will affect the real time behavior.
 
* In future, a stalling mode version of the project will be added, using ARM stalling mode to halt the MCU in case of an overflow.<br>Please note, that any kind of stalling mode will affect the real time behavior.
   
=== Tracing on SiLabs EFR32MGM210 (SiLabs Wireless Gecko xGM210P022) ===
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=== Tracing on SiLabs EFR32MG21xxx/MGM21xxx (SiLabs Wireless Gecko xGM210P022) ===
 
==== Minimum requirements ====
 
==== Minimum requirements ====
In order to use trace on the ST EFR32MGM210 MCU devices, the following minimum requirements have to be met:
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In order to use trace on the ST EFR32MGxxx MCU devices, the following minimum requirements have to be met:
 
* J-Link software version V6.64c or later
 
* J-Link software version V6.64c or later
 
* Ozone V3.10f or later (if streaming trace and / or the sample project from below shall be used)
 
* Ozone V3.10f or later (if streaming trace and / or the sample project from below shall be used)

Latest revision as of 17:35, 26 March 2020

This article covers the Silicon Labs (SiLabs) EFR32 series device.

EFR32MG21xxx family

The SiLabs EFR32MG21xxx are Cortex-M33 MCUs.

Tracing on EFR32MG21xxx series

This section describes how to get started with trace on the SiLabs EFR32MG21xxx MCUs. This section 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).

Note:

  • The sample projects come with a pre-configured project file for Ozone that runs out-of-the box.
  • The following sample project is designed to be used with J-Trace PRO for streaming trace, J-Link Plus for buffer tracing (TMC/ETB trace) and Ozone to demonstrate streaming trace.
  • In order to rebuild the sample project, SEGGER Embedded Studio can be used.
  • All examples are shipped with a compiled .JLinkScriptfile (.pex), should you need the original source it can be requested at support@segger.com.
  • The EFR32MG21xxx device only support 1-bit tracing (1-pin trace). Therefore, overflows can happen when tracing this chip.
    Keep in mind: The higher the MCU clock speed, the higehr is the chance to get overflows.
  • In future, a stalling mode version of the project will be added, using ARM stalling mode to halt the MCU in case of an overflow.
    Please note, that any kind of stalling mode will affect the real time behavior.

Tracing on SiLabs EFR32MG21xxx/MGM21xxx (SiLabs Wireless Gecko xGM210P022)

Minimum requirements

In order to use trace on the ST EFR32MGxxx MCU devices, the following minimum requirements have to be met:

  • J-Link software version V6.64c or later
  • Ozone V3.10f 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 for streaming trace

Streaming trace

The project has been tested with the minimum requirements mentioned above and a SiLabs Wireless Gecko xGM210P022 which can be purchased on the SEGGER Website.

Example project: SiLabs_EFR32MG21_TracePins.zip

Reference trace signal quality

The following pictures show oscilloscope measurements of trace signals output by the "Tested Hardware" using the example project. All measurements have been performed using a Agilent InfiniiVision DSO7034B 350 MHz 2GSa/s oscilloscope and 1156A 1.5 GHz Active Probes. If your trace signals look similar on your trace hardware, chances are good that tracing will work out-of-the-box using the example project. More information about correct trace timing can be found at the following website.

Trace clock signal quality

The trace clock signal quality shows multiple trace clock cycles on the tested hardware as reference.

Trace clock signal quality
Rise time

The rise time of a signal shows the time needed for a signal to rise from logical 0 to logical 1. For this the values at 10% and 90% of the expected voltage level get used as markers. The following picture shows such a measurement for the trace clock signal.

TCLK rise time
Setup time

The setup time shows the relative setup time between a trace data signal and trace clock. The measurement markers are set at 50% of the expected voltage level respectively. The following picture shows such a measurement for the trace data signal 0 relative to the trace clock signal.

TD0 setup time

EFR32xG1x family

Bootloader

On EFR32xG1x series devices, a bootloader is executed after reset. The bootloader is stored in a separate section in the Information memory space of the device. The section is called Bootloader (BL) and located at memory address 0x0FE10000. The size depends on the device. Factory-fresh devices are pre-programmed with a simple bootloader which jumps to the start of the internal flash. However, customers are allowed to exchange the bootloader with a customized one which supports more complex tasks like SPI flash, crypto, etc... Therefore, the J-Link software supports erasing as well as programming of this section.

Problem

When issueing a chip erase, the bootloader section and therefore the bootloader will be erased as well. As a result, the device will no longer boot as no valid bootloader resides in the bootloader section.

Solution

Below, two different solutions are presented. Apart from this, the J-Link software may be adapted in the future to not erase the bootloader section by default.

  1. Do not perform a chip erase. Basically a separate is not necessary as the J-Link software always performs an implicit erase prior programming if required.
  2. Program the bootloader (see Files below) as part of the application or in a separate step after programming the application

Files