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The one way how to set TAD shell is to use current example shell for e.g. FRDM-K64F, modified it and use it.   1. Open demo Shell (located at C:\Freescale\KSDK_1.2.0\middleware\tcpip\rtcs\examples\shell\build\kds\shell_frdmk64f) in KDS, as .wsd file 2. Open demo_cmd.c (located at /shell_frdmk64f/Source/demo_cmd.c) and add the line for shell tad, { "echosrv",   Shell_echosrv},     { "echo",      Shell_echo},     { "email",     Shell_smtp },     { "gate",      Shell_gate },     { "gethbn",    Shell_get_host_by_name },     { "getname",   Shell_getname },     { "getrt",     Shell_getroute },     { "ipconfig",  Shell_ipconfig },     { "llmnr",  Shell_llmnrsrv }, { "tad",  Shell_tad },   3. Open tad.c (located at /mqx_frdmk64f/MQX_Generic/tad/tad.c) and remove at the first line:         #if MQX_USE_IO_OLD and last line        #endif // MQX_USE_IO_OLD and included fio library       #include <fio.h>    4. Build libraries first, then build demo shell_frdmk64 5. Set the Tera Term and after typing tad in Tera Term, you will see the output:   Enjoy!   Iva
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Hi all,   Please find attached document describing how to get started with FreeRTOS and KSDK1.2 using KDS3.0.   For information about creating a new KSDK project with MQX please see the following document. How To: Create a New MQX RTOS for KSDK Project in KDS   Regards, Carlos
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Hello community,   This document shows the ease of use of the peripheral drivers from Kinetis SDK applied to the Freescale Cup smart car. This time I bring to you a document which explains how to make the line scan camera with KSDK works step-by-step. This document is intended to be an example for the ADC, the PIT and the GPIO peripheral drivers usage.   The required material to run this project is: Line scan camera (the project supports up to two cameras). FRDM-KL25Z based on the Kinetis Microcontroller KL25Z. FRDM-TFC shield. Mini-USB cable. TFC camera wire.   This material can be bought in The Freescale Cup Intelligent Car Development.              The document Create a new KSDK 1.2.0 project in KDS 3.0.0 explains how to create a new KSDK project for the KL25Z MCU. The result of this document is the project BM-KSDK-FRDM_KL25Z. The document Line scan camera with KSDK [ADC + PIT + GPIO] explains how to implement an application to acquire the data provided by the line scan camera. The result of this document is the project BM-KSDK-FRDM_KL25Z-LINE_SCAN_CAMERA.   The video below shows the line scan camera working.     If you are interested in participate in the Freescale Cup you could take a look into the groups University Programs, The NXP Cup Technical Reports The NXP Cup - Mexico, The NXP Cup - Brazil, The NXP Cup - China, The NXP Cup - Malaysia, The specified item was not found., The NXP Cup - North America, The specified item was not found., The NXP Cup - Taiwan, The NXP Cup EMEA.       Best regards, Earl Orlando Ramírez-Sánchez Technical Support Engineer Freescale Semiconductor
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Hello KSDK fans:   As you may know, KSDK provides comprehensive software support for Kinetis MCUs to accelerate application development. Besides providing Hardware abstraccion layer and peripherals drivers it can be Processor Expert capable.   Here is an example on how to create a new project with KSDK and Processor Expert support.   It shows a simple USB HID example that is ready to add your application code by using either KSDK drivers or Processor Expert support.   I hope this can help you.   Regards,   Isaac Avila
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This video shall guide you on how to build and run the demo applications provided by Kinetis SDK.   Overview: Classes of software examples Importing and building library file project Importing, building and running a demo application   Software/Tools used: Kinetis Design Studio V3.0.0 Kinetis SDK V1.2.0 FRDM-K64F Board   Related Documents: Getting Started with Kinetis SDK v.1.2 - http://cache.freescale.com/files/soft_dev_tools/doc/support_info/KSDK12GSUG.pdf Kinetis SDK v.1.2 Demo Applications User’s Guide - http://cache.freescale.com/files/soft_dev_tools/doc/support_info/KSDK12DEMOUG.pdf Kinetis SDK FAQ - https://community.freescale.com/docs/DOC-102926   Related videos: Installation of KDS and Kinetis SDK - https://community.freescale.com/videos/3281 Installation of OpenSDA Firmware on Freedom Board - https://community.freescale.com/videos/3282 Debugging with Kinetis Design Studio - https://community.freescale.com/videos/3283 Using Processor Expert in KDS - https://community.freescale.com/videos/3297 KSDK GPIO driver with Processor Expert - https://community.freescale.com/videos/3195
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Hello KSDK friends:   This time I want to share with the community a project using FatFs and the SDHC + I2C drivers provided with the Kinetis SDK platform. This is a baremetal project with no RTOS.   If you are a follower of colleague Erich Styger's MCU_on_Eclipse blog, then you might be familiar with the demo application, which consists of a data logger to store the accelerometer values of a FRDM-K64F on-board FXOS8700CQ (accelerometer/magnetometer) to a Micro SD Card.   The difference is that this demo project is implemented with KSDK v1.2 platform, using the next components:   - FatFs: Generic File System used in embedded systems. - SDHC peripheral driver: To handle the SD Card commands. - SD Card driver: Part of the KSDK composite drivers. - I2C peripheral driver: Used to communicate with the on-board FXOS8700CQ. - other peripheral drivers and systems: Clock System, GPIO driver, etc.   2 attachments are included with this post:   1) Demo project for KDS (created with KDS v3.0.0). 2) Document with a detailed description of how the project was created.   If when importing the project KDS asks you to add compiler search paths, just select "No". Paths are already configured.   IMPORTANT: The project can be placed in any location, but the next conditions must be met before building the project:   - Build the K64F KSDK platform library KDS project. The "Debug" build configuration is used. If not familiar with this, please refer to "Getting Started with Kinetis SDK (KSDK) v.1.2.pdf" in KSDK doc folder: C:\Freescale\KSDK_1.2.0\doc.   - Check that the build variable {KSDK_PATH} is pointing to your KSDK v1.2 installation (Project -> Properties -> C/C++ Build -> Build Variables):       RUNNING THE DEMO   1- Load the application to the FRDM-K64F. 2- Connect the PC to the FRDM-K64F OpenSDA micro USB port. 3- Open a terminal software and connect to the OpenSDA Virtual COM port. Configure the terminal for a baud of 115200. 4- Reset the board. You will see this message:     5- Insert micro SD Card. Now terminal should look like this:     6-  Accelerometer values will start to be printed to terminal and logged to SD Card each second.   A safe remove mechanism is implemented. Press SW3 in FRDM-K64F until you see the message shown below:     Keep SW3 pressed until SD Card is removed.   7- Now with a PC you can open the file LOG_DATA.txt:     The file can also be opened by a software such as Excel to graph the results:     I hope you like this demo!   Regards. Jorge Gonzalez
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This patch adds Segment LCD (SLCD) examples for the Kinetis Tower boards with the TWRPI-SLCD module.  It reuses the SLCD driver included in the "Kinetis SDK 1.2.0 Standalone for KL33Z for the FRDM-KL43Z", and ports the example to boards using the TWRPI-SLCD module.    The patch was written for KSDK v1.2.0, found at www.freescale.com/KSDK.  To install the patch, unzip to the KSDK installation directory, by default it is C:\Freescale\KSDK_1.2.0.  Only the Debug Build Configurations in the libraries and example applications were updated for these examples.  The Release Build Configurations will need to be updated before using.  The boards supported with these examples are:   TWR-KL46Z48M   TWR-KL43Z48M   TWR-KL46Z48M board example is provided with a project for Kinetis Development Studio (KDS) toolchain, and tested with KDS v3.0.0.  The path for this example is at  \KSDK_1.2.0\examples\twrkl46z48m\demo_apps\slcd_low_power_demo\kds.  The example also includes the KDS .WSD working set file.  When this is imported to KDS, it imports both the platform library and example application.  The example is written to display time on the TWRPI-SLCD, and will display mm:ss.   TWR-KL43Z48M board example is provided with a project for Kinetis Development Studio (KDS) toolchain, and tested with KDS v3.0.0.  The path for this example is at \KSDK_1.2.0\examples\twrkl43z48m\demo_apps\slcd_low_power_demo\kds.  The example also includes the KDS .WSD working set file.  When this is imported to KDS, it imports both the platform library and example application.  The example is written to display time on the TWRPI-SLCD, and will display mm:ss.
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Hardware and software configuration: FRDM-K22F, SCH-28164 REV D OpenSDA: J-Link firmware KDS 3.0 with SDK 1.2.0 Eclipse update installed KSDK 1.2 provides an Eclipse update for those who want to use the Kinetis SDK with Eclipse and Processor Expert. and with this update , users may find MSD Class component has been supported, and there is a simple USB mass storage demo available directly in this PEx USB component, so that customers may easily build this demo and develop their own application based on that. Here I will start to illustrate how to implement this demo step by step. As FRDM-K22F is used in this test, so I directly choose this board and make the following configuration: After above steps, we have a PEx project with some pre-installed components as shown below: clockMan1 components has 6 configurations , and one of it is for USB application, you may set it as the init configuration right now, or it would be set automatically when you add the USB MSD components. Now I find the MSD component from KSDK 1.2 and add it to my project: This component will add 4 more reference components into this project, and we only have to configure the component "fsl_debug_console" to get rid of the error mark. For FRDM-K22 board, UART1 is used as the debug console, and PTE0 and PTE1 are used as the TXD and RXD, so I set up this components as below: The simple MSD demo is a RAM disk demo, and it is disabled by default, so we have to enable it in the fsl_usb_device_msd_class component, and the demo code will be automatically added into the project afterwards: and then set the correct PID and VID information in the component of fsl_usb_descriptors. so far looks like all components are configured correctly , but if we directly download this application, we will have an enumeration issue like below: This is due to USB descriptors are placed to Flash memory area by default . You know , USB descriptors contain constant values so storing them in flash would leave more RAM for user application. The highlighted option in the following figure determines this . but USB module in Kinetis doesn't have the permission for flash out of reset, so we still have something to do before going ahead. There are several solutions for it, the most easiest way is setting the above option to "no", but we may do it in a PEx-like way by using the "Init_FMC" component. Please note USB is the M4 of K22's crossbar-lite. so we give it the "read only" permission. Init_FMC() is placed in Peripherals_Init() which is called right before  Components_Init() where USB_Class_MSC_Init () is in, so it guarantees USB have the flash access permission before it starts up. Now the demo can work well with the PC host, just as shown below: So far only HID and MSD Class components are supported, and if you go through a similar process as above, you may easily implement a HID demo by yourself. Here I attach both the MSD and HID mouse demo for your reference. Hope that helps,
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For installation standalone KSDK packages please follow these instructions:   Go to www.freescale.com/ksdk and click to download Is needed to be signed in After that is seen standalone package for FRDM-KL43Z and KL33Z Agree with Software Terms and Conditions Choose installation package according to platform Save file and install it After installation, final folder appears at C:\Freescale\KSDK1.2.0_KL33Z_1.0.0 and Eclipse update - import package to KDS from C:\Freescale\KSDK1.2.0_KL33Z_1.0.0\tools\eclipse_update   Eclipse Update In KDS choose Install New Software Click Add Choose Archive Choose the Eclipse Update zip file located at C:\Freescale\KSDK1.2.0_KL33Z_1.0.0\tools\eclipse_update Select update for KL33Z and KL43Z Accept terms of the license agreement   🙂 Enjoy!
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Just today release new KSDK version 1.2. and KDS 3.0! Download here   For more details please visit our websites Software Development Kit for Kinetis MCUs|Freescale and Kinetis Design Studio Integrated Development |Freescale   What´s new   Added device family support:   MK10D10 MK66F18 MKL34Z4 MK11DA5 MKL02Z4 MKL36Z4 MK20D10 MKL14Z4 MKL43Z4 MK21DA5 MKL15Z4 MKV40F15 MK21FA12 MKL16Z4 MKV43F15 MK26F18 MKL17Z4 MKV44F15 MK30D10 MKL17Z644 MKV45F15 MK40D10 MKL24Z4 MKV46F15 MK50D10 MKL25Z4 MKW01Z4 MK51D10 MKL26Z4 MKW21D5 MK52D10 MKL27Z4 MKW22D5 MK53D10 MKL27Z644 MKW24D5 MK65F18 MKL33Z4 MK24F12 MK63F12   Added Peripheral support: AOI ENC FLEXBUS FLEXIO LMEM VREF XBAR PWM   Documentation   Kinetis SDK v.1.2.0 Release Notes http://cache.freescale.com/files/soft_dev_tools/doc/support_info/KSDK120RN.pdf?fsrch=1 Kinetis SDK v.1.2 API Reference Manual http://cache.freescale.com/files/soft_dev_tools/doc/support_info/KSDK12APIRM.pdf?fsrch=1 Kinetis SDK v.1.2 Demo Applications User's Guide http://cache.freescale.com/files/soft_dev_tools/doc/support_info/KSDK12DEMOUG.pdf?fsrch=1 Getting Started with Kinetis SDK (KSDK) v.1.2 http://cache.freescale.com/files/soft_dev_tools/doc/support_info/KSDK12GSUG.pdf?fsrch=1 MQX™ RTOS for Kinetis SDK 1.2.0 Release Notes http://cache.freescale.com/files/soft_dev_tools/doc/support_info/MQXKSDK120RN.pdf?fsrch=1   Porting an MQX RTOS Application to MQX RTOS for Kinetis SDK http://www.freescale.com/files/soft_dev_tools/doc/support_info/MQXKSDKPUG.pdf   for KDS 3.0. please don´t forget visit New Kinetis Design Studio V3.0.0 available   Enjoy! Iva
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I created easy tutorial for UART KSDK blocking demo which works as echo. The demo works with KSDK 1.1. and is created for KDS 2.0.   Because it could be problem if was used this pin by this reason was chosen UART 3, which is available to use and is routed to PTC16,PTC17 connection on Arduino header for this case is use ALT3 function (PTC16, PTC17)   Final output from terminal Physical connection between FRDM-K64F and USB to Serial Converter The unzipped folder must be located in example folder at C:\Freescale\KSDK_1.1.0\demos\
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This video shows how to use Processor Expert to configure the KSDK GPIO Peripheral Driver with the component fsl_gpio in Kinetis Design Studio. The steps show how to blink the red and blue LEDs while reading the SW2 button input of a FRDM-K64F. The procedure can be replicated for any KSDK supported board and also with PE Driver Suite. Enjoy!
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Hello KSDK community:   The Kinetis Software Development Kit is intended to ease evaluation, prototyping and development with Kinetis MCUs. Apart from the Peripheral Drivers, HAL layer, System Services, RTOS abstraction and software stacks, KSDK implements a robust hardware interrupt mechanism.   The attached document is intended to explain the interrupt handling mechanism of KSDK platform and how to use it for baremetal KSDK or "MQX for KSDK" projects. Some of the topics covered are:   >> Interrupt manager >> Installing vector table in Flash or RAM >> Interrupt priorities >> Peripheral IRQ files (fsl_<peripheral>_irq.c) >> Installing, defining or registering ISRs >> Callbacks >> MQX hardware interrupts system >> Interrupts and callbacks with Processor Expert   The last chapter explains the considerations of interrupt handling when using Kinetis Design Studio in 4 different cases:   1) KSDK baremetal project 2) KSDK baremetal + Processor Expert project 3) MQX for KSDK project 4) MQX for KSDK + Processor Expert project   I hope this document is useful for all of you who have already adopted KSDK as development solution.     /*** UPDATE July 1, 2015 ***/   Document updated for KSDK v1.2 and KDS v3.0.0     Regards! Jorge Gonzalez
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The tutorial shows how to toggle LED with KSDK 1.1.0 in KDS 2.0 and Processor Expert using a Timer Output for FRDM-KL03Z. Guide is prepared for red LED which is connected to Timer/PWM Module 0 (TPM0), channel 1. Create new project Create new project in KDS 2.0 with KSDK 1.1.0 Type the project name, choose board. e.g. FRDM-KL03Z, mark off options Kinetis SDK and Processor Expert Now, the structure looks like this: Set Processor Expert Settings Now, go to Components Library, find fsl_tpm component and by double click add the component to Component View. Rename the component tpmTmr:fsl_tpm to e.g. RedLed. Double click on RedLed:fsl_tpm in Components View and see Component Inspector Follow these steps: Set frequency and duty cycle. Debug configuration DONE!
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Because of proliferating questions to “how can I work with copy of KSDK example” or “I am not successful with creation new MQX project with SDK, what I do wrong?”   I decided to do this this short step by step tutorial.   To do this procedure is needed the script, which creates Anthony Huereca and bat file created by me. Thanks to it is possible to create copy of any example which is based on KSDK. This script allows to work with real copy of KSDK example, which is choosen. It can be called like working copy. It is possible to edit any example and  build on this demo user´s own application. It is also much easier than e.g. creating new MQX project, which is quite lengthy process – always must think of correct settings paths, including libraries etc. In this situation is everything copyied (compiler settings, linker, preprocessor…) First of all is describe the utilization of the script. The script renames the original name of the demo to new one. So, user gets full-fledged copy. The main essence of the matter is that the script must be in location with other examples. I hope it helps a lot of us. Iva
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Hi all Kinetis lovers,   Freescale has launched the Kinetis SDK and I believe this is a great opportunity for us to start our new applications using these drivers. The information contained on this post will show you how to use the SPI drivers based on simple master and slave examples.   The examples attached here were developed for KDS IDE using KSDK. To build and run the example you may need to consider the following: Install KSDK: You need to have  KSDK v1.1.0 installed on your machine. You can find it HERE. Build the KSDK library and import the examples: In the KSDK install folder go to the doc folder and look for the Getting Started with Kinetis SDK (KSDK) document. Follow the instructions of the section 5 Run a demo using Kinetis Design Studio IDE. To know how to build and import projects. If you have further question you may find useful information in this posts: OpenSDAv2 Complete information for the OpenSDA v2. Writing my first KSDK1.2 Application in KDS3.0 - Hello World and Toggle LED with GPIO Interrupt excellent post from colleague Carlos_Musich   I hope you can benefit from this post.   If you have questions please let me know   If this post was useful for you do not hesitate to click the Like button.   Best Regards, Adrian Sanchez Cano Technical Support Engineer  
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Recently one of our customers reported an issue when he tried to run "dspi_edma_demo" with KSDK 1.0 on K22F freedom board. He connected SPI signals between master and slave according to the demo user guide on freedom board, but the demo was not working.   I reproduced the issue on freedom and found this is due to incorrect documentation in demo user guide.   The connection table shown in demo user guide for K22F freedom board is as follows. This is not correct.   It should be the following table instead.  Master Connects to Slave Signal Pin Name Board Location Pin Name Board Location SS PTD0 J6 Pin 8 -> PTD4 J2 Pin 6 SCK PTD1 J6 Pin 5 -> PTD5 J2 Pin 12 Data Out PTD2 J6 Pin 6 -> PTD7 J2 Pin 10 Data In PTD3 J6 Pin7 -> PTD6 J2 Pin 8   Also, the associated pin mux configuration in pin_mux.c file should be changed from the original workaround one in red to the original commented one.   void pin_mux_SPI(uint32_t instance)   {     switch(instance) {       case 0:                             /* SPI0 */         /* PORTD_PCR0 */         PORT_HAL_SetMuxMode(g_portBaseAddr[3],0u,kPortMuxAlt2);         //PORT_HAL_SetMuxMode(g_portBaseAddr[2],4u,kPortMuxAlt2);   /*** Temporary work around until next board spin. ***/         /* PORTD_PCR3 */         PORT_HAL_SetMuxMode(g_portBaseAddr[3],3u,kPortMuxAlt2);         //PORT_HAL_SetMuxMode(g_portBaseAddr[2],5u,kPortMuxAlt2);   /*** Temporary work around until next board spin. ***/         /* PORTD_PCR1 */         PORT_HAL_SetMuxMode(g_portBaseAddr[3],1u,kPortMuxAlt2);         //PORT_HAL_SetMuxMode(g_portBaseAddr[2],6u,kPortMuxAlt2);   /*** Temporary work around until next board spin. ***/         /* PORTD_PCR2 */         PORT_HAL_SetMuxMode(g_portBaseAddr[3],2u,kPortMuxAlt2);         //PORT_HAL_SetMuxMode(g_portBaseAddr[2],7u,kPortMuxAlt2);   /*** Temporary work around until next board spin. ***/         break;   }   }  
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The latest Kinetis SDK 1.1.0 supported HID bi-directional communication, the new API USB_Class_HID_Recv_Data() can be used to receive data from USB HOST. But without demo and test tool, customer still has no idea about how to enstablish such kind of communication in their application. I create a simple demo derived from existed hid_keyboard project, together with basic endpoint read/write test by Bus Hound. The demo is built and tested on my FRDM-K64F and can be port to other USB Kinetis device as well. Working steps: 1) Unzip attached code and project to C:\Freescale\KSDK_1.1.0\usb\example\device\hid folder. 2) Compile project (IAR) and download to FRDM-K64F via CMSIS-DAP debugger. 3) Open Bus hound, enter "Devices" table and uncheck all box and check "auto select hot plugged devices". 4) Plug USB cable and connects to PC, will found the device is checked in bus hound device tree. 5) Double click device, and select OUT endpoint to send 16 bytes to device. 6) Observe the g_OUT_ep_buf[]'s change in firmware (Demostrate receive function only)
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Hi all,   Please find attached the new version of this document using KDS3.0 and KSDK1.2.0.   For more information about using Interrupts please see the following document from Jorge_Gonzalez Interrupt handling with KSDK and Kinetis Design Studio   For information about creating a new KSDK project with MQX please see the following document. How To: Create a New MQX RTOS for KSDK Project in KDS   For information about creating a new C++ project in MQX for KSDK1.2 please see the following document. How to Create a C++ Project Using MQX RTOS for KSDK1.2   For information about getting started with FreeRTOS and KSDK1.2 see the following document. How to: Create a New FreeRTOS for KSDS1.2 Project in KDS3.0     I hope it is useful.   Regards, Carlos Technical Support Engineer
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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.
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