The SAR-ADC of KM family supports using 4 triggering signals to trigger SAR-ADC, for the KM sub-family with PDB, it is okay to use PDB. But for the KM family without PDB module, it is difficult to generate  4 triggering signals to trigger SAR-ADC. The DOC introduce how to use quadTimer to generate 4 sequential triggering signals to trigger SAR-ADC so taht the SAR-ADC can get 4 samples in one conversion.

This example project shows how to use CMSIS DSP functions to implement a digital filter. The project is based on Kinetis KV31F512.   It first generates a mixed signal which is composed by two sine waves.  Then it uses PDB to trigger DAC every 200 microsecond and output the signal through DAC, so that the mixed signal can be displaying on oscilloscope.   With QEDesign tool, a lowpass filter is designed, the filter coefficients are used directly to initialize the FIR function supplied by CMSIS DSP library. This example calls the FIR functions in CMSIS DSP lib, and the filtered signal is output though DAC module.

Very simple, but very often asked question - how can I import example in KSDK general? The easiest way is import .wsd file, it is a set of all needed files for your project.   1. Open KDS, go to Project Explorer Window and by right click select Import option 2. Choose Existing Projects Sets option 3. Click on Browse and select the project, which you would like to work. In case of KSDK 2.0 go to C:\Freescale\<ksdk2.0_package>\boards\frdmk64f\demo_apps\lwip\lwip_tcpecho\freertos\kds   4. You will see the demo project successfully imported in your Project Explorer window and now you can compile and execute demo project.   Enjoy! Iva

This document includes two chapters , chapter 1 is about how to use printf() to print string in KSDK1.3 project , the usage in project without MQX has been introduced on another document, you can find it here : https://community.freescale.com/docs/DOC-104349 , so in this DOC I only introduce how to use the printf() in KSDK MQX- Lite and KSDK MQX-Standard project .   Chapter 2 introduces how to check which UART port is used when use printf() to print string on the FRDM board and TOWER board .   In sum, only the project of “MQX standard” use it own driver for printf(), so we need delete the driver “fsl_debug_console”. In other SDK+PE projects , they all use the driver of “fsl_debug_console” for printf().

Kinetis SDK 1.1.0 is now officially released! You can download it via the big "Download" button on the KSDK website at http://freescale.com/ksdk   There are Windows and Linux 32-bit and 64-bit installers available. KSDK 1.1 will install in a new directory, which by default is C:\Freescale\KSDK_1.1.0, and will not interfere with previous installations of KSDK except to (optionally) update the Windows KSDK_PATH variable used by Kinetis Design Studio.   A high-level overview of what's new in KSDK 1.1 can be found in the Kinetis SDK 1.1 Release Notes but the most significant changes are: Additional devices supported Atollic TRUEStudio 5.2 is now supported Driver, HAL, and Platform Updates   There were also some other notable changes: GCC Make System Directory layout CMSIS-DAP/OpenOCD debug configurations now provided by default for KDS MQX for KSDK now included as option in the KSDK installer MQX Kernel 5.0.1 now supports lightweight configuration option   Details: 1)      Additional Devices The following devices are supported by Kinetis SDK 1.1 FRDM-K22F FRDM-K22F-K02* FRDM-K22F-K02 64* FRDM-K64F FRDM-KL03Z FRDM-KL46Z TWR-K22F120M TWR-K22F120M-K02* TWR-K24F120M TWR-K60D100M TWR-K64F120M TWR-KV10Z75M TWR-KV31F120M TWR-KV31F120M-KV30*   *These boards do not physically exist, but you can use the associated board to develop code for the subset devices listed. So for instance, if you're interested in the K02 device, use the FRDM-K22F for evaluation but use the K02 libraries provided to write code which will run on the K22F since it is a superset device.   2)      Atollic TRUEStudio 5.2 support   3)      Driver, HAL, and Platform Updates The HAL, Driver, and Platform code was updated with additional features, bug fixes, and enhancements. Several new peripherals are also supported which are listed in the Kinetis SDK 1.1 Release Notes. The Kinetis SDK v.1.1 API Reference Manual.pdf contains the latest KSDK API, and look at the updated demo projects for how to use the updated features like the power manager. There is now also the option to copy or not copy the vector table from ROM to RAM based on the linker file configuration using the ‘__ram_vector_table__’  argument in your IDE linker settings.   4)      GCC Make Changes Compiling with GCC now uses CMAKE.  Details on how to setup your system for compiling with GCC can be found in the GCC section of the <KSDK_path>/doc/Getting Started with Kinetis SDK (KSDK).pdf document. If you have "C:\MinGW\msys\x.x\bin" in your PATH variable (as required by KSDK 1.0.0), remove it to ensure that the new GCC build system works correctly.   5)      Directory Layout The HAL, Driver, and platform directory layout was slightly changed so that all the include files are now in a single directory instead of separate directories. This makes it simpler to add the include path into projects, and can also improve library compile times (by up to 50%). The KSDK platform library has also been slightly renamed to libksdk_platform.a   6)      CMSIS-DAP Debug Configuration OpenOCD debug configurations in Kinetis Design Studio are now provided by default for boards that use OpenSDAv2. OpenOCD makes use of the CMSIS-DAP debug protocol.   7)      MQX for KSDK Installer The Kinetis SDK 1.1 installer now includes options to install full MQX for KSDK support. The installation screen has also made it clearer during installation on how to select this option. There will no longer be a separate MQX for KSDK installer like there was for KSDK 1.0.   😎      MQX 5.0.1 Kernel Support of MQX Lite configuration and new example application rtos/mqx/examples/. There are provided options for creating tasks from statically allocated memory and application can define these tasks before MQX RTOS starts (using create_task() API). More changes are detailed in the MQX Release Notes in <KSDK_Path>/rtos/mqx/doc/Freescale MQX RTOS for Kinetis SDK Release Notes.pdf   This is just a high level overview of the changes, and should make developing applications using Kinetis SDK easier than ever.

The USB stack in ksdk 1.3 has provided a macro of “USBCFG_DEV_ADVANCED_SUSPEND_RESUME” , while the RM says “suspend/resume is not implemented yet.”, but if you looks into the source code, you may find APIs like USB_Suspend_Service() which is reserved for further implementation, so users may use these APIs as a starting point to add suspend and resume feature in ksdk 1.3. The test is based on FRDM-KL27Z, dev_hid_mouse_bm demo. And before we modify the device stack, we have to clone a copy of this demo. Set USBCFG_DEV_ADVANCED_SUSPEND_RESUME to 1 to releases APIs related with suspend and resume features. But we will have the following errors after compile, that is because remote resume function is not supported by KL27. so we should disable it for this device, with the help of #if USBCFG_DEV_ADVANCED_SUSPEND_RESUME == 1 && FSL_FEATURE_USB_KHCI_HOST_ENABLED == 1. For example, like below: 2.Further implement USB_Suspend_Service() and USB_Resume_Service() to let them notify the upper layer application on the event of suspend/resume. With reference of USB_Error_Service() and Don’t forget to add two more events for suspend and resume. 3.USB module has two types of resume interrupt , one is sync resume , issued by the bit of ISTAT[RESUME] bit, the other is async resume, issued by the bit of TRC0[USB_RESUME_INT], so we have to monitor these two interrupt status flag in the ISR, as below: And so we have modify the resume and sleep interrupt services for supporting the async resume interrupt as below: 4.Modify application and add code to handle suspend and resume event, in this case, such kind of events are handled in USB_App_Device_Callback() 5.Verify the hid_mouse demo with USB 2 CV tool from usb.org Select the FS device with VID 15a2 from the list. Test passed! if you print some messages on the event of suspend and resume, you will see something like below from the Terminal channel. 6. Now we can add low power mode switch function in the main application code to meet the suspend current limitation specified by USB spec, with reference of power_manager_hal_demo for frdmkl27z, and for this case, add code in USB_App_Device_Callback() of mouse.c to tell the main application when to enter low power mode. Please also note Don’t enter low power mode in this callback function, as it is called by the interrupt service, so if the device enter low power mode during interrupt, that would prevent the following resume interrupt happen, so the device never wake up! For more details on the implementation, please refer to the attached mouse.c 7.Test low power mode current:   Before test, please do the following modification to the FRDM-KL27Z board: Please note, if your board has the following jumpers, no need to remove R7,R21 and R83, just keep J19 and J22 open during the test. Select the low power mode you are going to test from the Ternimal: Leave KL27 USB port (J10) open and power the board with USB SDA port, that would make the device enter suspend interrupt out of reset. And you may also see the current vary with power mode switch with the help of USB 2 CV tool. I have tested wait, stop and vlps modes, the current measured under these modes are shown as below: Wait: Stop: VLPS: So it is recommend using VLPS mode during USB suspend mode as it far below the suspend current specified in USB spec (500uA). 8. Patch and demo code Please replace the following files with the attached one, as well as the mouse.c in dev_hid_mouse_bm demo. Recompile the stack and application code. C:\Freescale\KSDK_1.3.0\usb\usb_core\device\include\MKL27Z644 usb_device_config.h C:\Freescale\KSDK_1.3.0\usb\usb_core\device\sources\controller usb_dev.h usb_dev.c usb_framework.c C:\Freescale\KSDK_1.3.0\usb\usb_core\device\sources\controller\khci device_khci_interface.c khci_dev.c khci_dev.h C:\Freescale\KSDK_1.3.0\usb\usb_core\device\include usb_device_stack_interface.h C:\Freescale\KSDK_1.3.0\examples\frdmkl27z\demo_apps\usb\device\hid\hid_mouse mouse.c