This tutorial covers the details of Blinking an LED on the Kinetis K40 using the TWR-K40X256-KIT evaluation board. It will introduce the evaluation board, and some basic CodeWarrior features. Overview 1. Hardware 2. Set up the Software Development Environment A. Download and Install Codewarrior B. Download and Install Drivers 3. Set up the Hardware: Twr K40x256 Hardware Setup 4. Import the LED Project 5. Build the Code 6. Download/Debug/Run 7. Learning Step: LED Code Description Read/Write Functions Variables Header File Definitions Initialize the GPIO Blink the LED: Other K40 Tutorials: K40 Related Pages Credits / References Overview In this exercise students will explore a Freescale Cup Car application which targets a Freescale K40 board attached to the Tower System. Students will: Configure the Software Development Environment Configure the evaluation board hardware Learn how to import example files into a CodeWarrior project Build a project Download and run the code on a Kinetis K40 Tower System board Learn how to utilize the GPIO Peripheral to blink a LED To successfully complete this exercise, students will need the following board and development environment. The K40 Tower card, TWR-K40x256 CodeWarrior for Microcontrollers USB Cord 1. Hardware Read the Blink LED overview article for general information on LED circuits, GPIO pins and reference manuals. 2. Set up the Software Development Environment There are several steps necessary to prepare the evaluation board and PC for microcontroller programming and development. Interfacing the evaluation board with a PC requires downloading and Install the CodeWarrior IDE, as well as the device drivers for programming the microcontroller via USB. A. Download and Install Codewarrior Before completing this example project, download-and-install-codewarrior-10-1 or the latest version compatible with the twr-k40x256-kit. B. Download and Install Drivers In addition to CodeWarrior, it may(needs verified) be necessary to install one or both of the following tools: RAppID initialization tool- RAppID comes on the DVD provided with your evaluation board. In the main directory of the DVD, click on the "TRK_MPC5604B.html" file to open the DVD interface which provides user manuals, software, schematics and documentation for the evaluation board. P&E Microcomputer Systems, Inc drivers- P&E is a a computer driver for the TRK-MPC5604B and Kinetis Tower system device, enabling evaluation board programming via USB through the CodeWarrior debug OSJTAG interface. This driver can be downloaded here in case this isn't found on the disk. 3. Set up the Hardware: Twr K40x256 Hardware Setup There are several Twr K40x256 hardware configuration steps. Follow the twr-k40x256-hardware-setup instructions before importing the LED Project. 4. Import the LED Project After the software is successfully downloaded and installed, the next step is to import an existing project into your Workspace. in this case, the LED_BLINK_96MHZ Project. Follow the instructions on the codewarrior-project-import page to import the LED_BLINK_96MHZ project into CodeWarrior. If errors are encountered, look in the Problems view and resolve them. Ignore any warnings. 5. Build the Code If there is more than one project in your project view, make sure the proper project is the focus. The most reliable way to do this is to right click the project and choose Build Project as shown below. You can also go to the Project menu and choose the same command. By default, the application is set to link to RAM. If you want your program in FLASH, make sure that you have that build configuration enabled: Make sure you do a "Clean" operation (under the project menu) after you make the configuration change. If you encounter errors, look in the problems view and resolve them. You can ignore any warnings. 6. Download/Debug/Run If the project builds correctly, it is time to download to the board and watch it work. Ensure that the USB cable that came with the board connects the board to the host computer’s USB port. There are multiple ways to issue the Debug command. Right click the project in the projects view and choose Debug As->CodeWarrior Download. Alternatively, y go to the Run menu and choose Debug (F11). Click the Resume button and your should see the LED blinking! Click the Pause button to stop execution. Click the Terminate button to end debugging. 7. Learning Step: LED Code Description Read/Write If the LED was on Port C, Bit 7 we might have code like: #define LED_E1_Location(1<<7) For example, to toggle a pin the following code might be used: GPIOC_PSOR=LED_E1_LOC "Sets" the LED located at "E1" high. the syntax means the following GPIOC refers to Port C "Set" is one of three commonly utilized commands for GPIO control. There are also commands for "Clear" and "Toggle." Command: "GPIOC_PSOR" literally means PORT SET OUTPUT REGISTER which SETS a pin high Command: "GPIOC_PCOR" clears a pin, PORT CLEAR OUTPUT REGISTER which CLEARS a pin to the "low" state Command: "GPIOC_PTOR" toggles a pin opposite of the current state the « is a "shift" command which is discussed in the c-programming-for-embedded-systems. You can alter the raw register as well using a MASK but the dedicated set/clear/toggle registers are more straightforward. **NEEDS UPDATED ** Hardware Chip Port/Pin Comment SW3 PT cell-content SW4 cell-content cell-content Functions The following functions can access the LED; //Where n is the LED number LED_En_TOGGLE; //will toggle a LED to a different state LED_En_ON; // turns the LED ON LED_En_OFF // turns the LED OFF Variables Locations of the LED's LED_E1_LOC LED_E2_LOC LED_E3_LOC LED_E4_LOC Header File Definitions from k40_TOWER_BOARD_SUPPORT.h //The E1 LED is on Port C, Bit 7 #define LED_E1_LOC (1<<7) #define LED_E2_LOC (1<<8) #define LED_E3_LOC (1<<9) #define LED_E4_LOC (1<<11) //There are dedicated set and clear registers. //Write a one to PSOR Sets the Bits, Writing to PCOR clears bits. //Toggling a bit can be done with the PTOR register //You can access the raw register as well -> PDOR |= My Bit //but the dedicated bit set/clear/toggle registers are easier! //Also, The cathode of the LEDs are towards the port pin! This means //you have to turn the port off to get the LED to turn the pin on. #define LED_E1_OFF GPIOC_PSOR=LED_E1_LOC #define LED_E1_ON GPIOC_PCOR=LED_E1_LOC #define LED_E1_TOGGLE GPIOC_PTOR=LED_E1_LOC #define LED_E2_OFF GPIOC_PSOR=LED_E2_LOC #define LED_E2_ON GPIOC_PCOR=LED_E2_LOC #define LED_E2_TOGGLE GPIOC_PTOR=LED_E2_LOC #define LED_E3_OFF GPIOC_PSOR=LED_E3_LOC #define LED_E3_ON GPIOC_PCOR=LED_E3_LOC #define LED_E3_TOGGLE GPIOC_PTOR=LED_E3_LOC #define LED_E4_OFF GPIOB_PSOR=LED_E4_LOC #define LED_E4_ON GPIOB_PCOR=LED_E4_LOC #define LED_E4_TOGGLE GPIOB_PTOR=LED_E4_LOC Initialize the GPIO From K40_TOWER_BOARD_SUPPORT.c void InitK40GPIO() { SIM_SCGC5 = SIM_SCGC5_PORTA_MASK | SIM_SCGC5_PORTB_MASK | SIM_SCGC5_PORTC_MASK | SIM_SCGC5_PORTD_MASK | SIM_SCGC5_PORTE_MASK; //To use a Port, its Clock must be enabled!! //Lets just enable the clocks for ALL of the ports //Important! Each IO pin has a dedicated 32-bit Register to set it up (Selection GPIO vs peripheral, IRQ, Etc.) //Setup port C7,C8,C9 and B11 as GPIO and enable High Drive Strength PORTC_PCR7 = PORT_PCR_MUX(1) | PORT_PCR_DSE_MASK; //Enable GPIO on on the pin PORTC_PCR8 = PORT_PCR_MUX(1) | PORT_PCR_DSE_MASK; //Enable GPIO on on the pin PORTC_PCR9 = PORT_PCR_MUX(1) | PORT_PCR_DSE_MASK; //Enable GPIO on on the pin PORTB_PCR11 = PORT_PCR_MUX(1) | PORT_PCR_DSE_MASK; //Enable GPIO on on the pin PORTC_PCR18 = PORT_PCR_MUX(1) | PORT_PCR_DSE_MASK; PORTE_PCR28 = PORT_PCR_MUX(1) | PORT_PCR_DSE_MASK; //Make Sure the GPIO is setup to be an output GPIOC_PDDR |= LED_E1_LOC | LED_E2_LOC | LED_E3_LOC; GPIOB_PDDR |= LED_E4_LOC; LED_E1_OFF; LED_E2_OFF; LED_E3_OFF; LED_E4_OFF; } Blink the LED: Within Main.c or any other C file created, Blink the LED's using the following functions: LED_E1_TOGGLE; LED_E1_ON; LED_E2_OFF; Other K40 Tutorials: K40 Related Pages K40: Turning A Servo Tutorial K40: Drive DC Motor Tutorial Kinetis K40 TWR-K40X256 K40: Blinking LED Credits / References Some of the content from this tutorial originated from: Shawn Moffit: Electrical Engineering, Penn State University for - K40 Code Processor Expert Hands-On Lab Rev. 1.0, 05/2011 by Jim Trudeau, Freescale Semiconductor, Inc. for - some text descriptions of steps Original Attachment has been moved to: LED_BLINK_96MHZ.zip
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