TWR-VF65GS10Quick Start Guide
Contents
1. Quick Start Guide TWR VF65GS10 For Vybrid Controller Solutions Based on ARM Cortex A5 and Cortex M4 Processors with the DS 5 Toolchain P 2 freescale TOWER SYSTEM Quick Start Guide Get to Know the TWR VF65GS10 Dual Quad SPI K20 JTAG Header UART Selection Primary Connector CANOT E ETH EO ite T oe Power OpenSDA Micro USB _ a EE sari Yes Vybrid JTAG Reset Header Te ripe 38 pin Mictor Dual USB aban WHEE Trace Debug External NPN Accelerometer Ballast LEDs Micro SD ae ie Secondary General Purpose A t TWRPI Plug In Connector Y DDR3 Boot Config Reset Configuration Pushbuttons Front Side of eee TWR VF65GS10 Module TWR VF65GS10 Freescale Tower System The TWR VF65GS10 module is a part of the Freescale Tower System a modular development platform that enables rapid prototyping and tool re use through reconfigurable hardware Elevate your design to the next level and begin constructing your Tower System today Get to Know the TWR VF65GS810 Battery Receptacle VBAT Back Side of TWR VF65GS10 Module K20 OpenSDA Device NAND Flash Potentiometer TWR VF65G810 Features e Vybrid MVF61NS151CMK50 controller dual core Cortex A5 at 500 MHz Cortex M4 at 167 MHz 1 5 MB SRAM dual Ethernet dual USB advanced security e Kinetis K20DX128VFM5 MCU based OpenSDA circuit e 1 Gb x 16 128 MB DDR3 in 96 FBGA package e 2 Gb x 16 256 MB NAND flash e Two2. 128 MB 16 MB quad I O serial flash e Dual USB with on chip PHY e Interfaces to TWR LCD RGB graphical LCD module e Four user controlled status LEDs e Three mechanical push buttons for user input and one for reset e Potentiometer and three axis digital accelerometer e Micro SD card slot e Independent battery operated power supply for real time clock and tamper detection module Step by Step Installation Instructions This Quick Start Guide details how to set up the TWR VF65GS10 module and run some demo projects on the device 2 Configure the Hardware 1 Download Software and Tools Download installation software e Assemble your Tower System development platform per the and documentation under instructions found in the TWR ELEV Jump Start Your Design module package unless the board will at freescale com TWR VF65GS10 be used standalone e Insert the dual headed USB A side of the provided USB cable into the PC and insert the micro B end into the OpenSDA USB port J3 on the TWR VF65GS10 module Allow the PC to automatically configure the USB drivers if needed Quick Start Guide Step by Step Installation Instructions 3 Locate and Install CDC Device Drivers e The module will enumerate as a composite Mass Storage and Serial CDC Device The drivers for the CDC functionality can be found on the enumerated drive for example F TWR VF65GS e Go to that drive to find the CDC drivers and insta
3. Tower System 3 3 V power rails untied not powered with 5 V 8 continued from previous page Jumper Option Setting Description 1 2 P5V comes from USB Micro B connector J3 J19 Onboard aV sous only option when OpenSDA operates 2 3 P5V comes from Peripheral USB OTG Micro B J8 1 2 Self powered USBO_VBUS tied to P5V J20 Power source for Vybrid USBO PHY 2 3 Bus powered USBO_VBUS tied to VBUS of Peripheral USB OTG Micro B J8 ON USB1_VBUS tied to VBUS of Host USB Type A J12 Jot Power source for one REV OFF USB1 PHY unpowered 12_345 Switch Settings Detail Boot configuration ON INSTALLED 1 10_000 QuadSPI Boot J22 OFF 0 10_110 SD Card Boot Pins 1 to 10 1 2 3 4 5 10001 NAND Boot 2 6 8 10 1 3 517 9 O1_xxx UART USB Boot OO_xxx Boot From Fuses 1 2 SCI1_TX connected to ELEV_UART1_TX SCI1_TX and 1 3 SCl1_TX connected to OpenSDA_UART_RX dad SCI2_TX select 2 4 SCI2_TX connected to ELEV_UART1_TX 3 4 SCI2_TX connected to OpenSDA_UART_RX Quick Start Guide TWR VF65GS10 Jumper Settings continued from previous page Jumper Option Setting Description 7 8 SClI1_RX connected to ELEV_UART1_RX J23 SCI1_RX and 7 9 SCl1_RX connected to OpenSDA_UART_TX continued SCl2_RX select 8 10 SCI2_RX connected to ELEV_UART1_RX 9 10 SCI2_RX connected to OpenSDA_UART_TX ON P5V tied to PSV_ELEV J
4. 25 Elevator 5 V supply OFF Board and Tower System 5 V power rails untied A Connected to Peripheral USB OTG Micro B R164 USBO multiplexer connector J8 R165 selection Connected to Tower System elevator R21 Optional Ethernet MII A RMII CLK interface MIIO TXCLK R175 to Optional Ethernet MII None RMII Interfaces used R181 interface 0 Ohm MIIO Interface used R182 Optional Ethernet MII A SAI RX BCLK interlace B MIIO RXCLK ene Vybrid SDRAM Shorted Power pins tied directly to onboard 1 5 V source controller power Cut Current measuring device connected across 10 e Peo Z freescale Quick Start Guide Visit freescale com TWR VF65GS10 for information on the TWR VF65GS10 including e TWR VF65GS10 user manual e TWR VF65GS10 Introduction to the Vybrid Tower System Module video clip e TWR VF65GS10 schematics e Vybrid family fact sheets e Tower System fact sheet Support Visit freescale com support for a list of phone numbers within your region Warranty One 1 year limited warranty Please visit us at freescale com warranty for complete warranty information For more information visit freescale com Tower or freescale com Vybrid Join the online Tower community at towergeeks org Freescale the Freescale logo and Kinetis are trademarks of Freescale Semiconductor Inc Reg U S Pat amp Tm Off Vybrid and Tower are trademarks of Freescale Semiconductor Inc All other product or service names are the prope
5. ll them 4 Set up Serial Communication e A USB to serial bridge is supported through the USB CDC functionality The serial port number is viewable in the Device Manager right click My Computer gt Properties gt Device Manager gt Port Settings This allows for serial communication between the Tower module and a terminal program running on the PC via the USB connection Setup a terminal program to use this COM port with the following settings 115200 baud eight data bits no parity one stop bit Alternatively you may use the TWR SER or TWR SER2 serial module for serial communication See the Introduction to the Vybrid Tower System Module video clip at freescale com TWR VF65GS10 for more details 5 Tilt the 6 Explore the Board Features e After the TWR VF65GS10 module e Follow the Introduction to the Vybrid powers up the U Boot bootloader will Tower System Module video clip at load the out of box demo from the freescale com TWR VF65GS10 SD card The Cortex A5 core runs the to further explore the features and Linux operating system and uses the capabilities of the out of box demo Open SDA USB to serial bridge The Cortex M4 core runs the Freescale Start MQX RTOS and uses the TWR 7 Debugging SER or TWR SER2 serial module for serial communication Both operating e To start debugging with DS 5 systems operate independently of each the OpenSDA firmware needs to other on their respective cores but can be u
6. pdated with the CMSIS DAP communicate via software APIs and application For more detail please shared memory refer to the Jump Start Your Design documentation located at freescale com TWR VF65GS10 e Tilt the module to see different LEDs light up the accelerometer data is being read by MQX on the M4 core and transferred to Linux on the A5 core You will also see Linux output on the OpenSDA serial connection set up in Step 3 Quick Start Guide TWR VF65GS10 Jumper Options The following is a list of all jumper options on the TWR VF65GS10 The default settings are shown in bold Jumper Option Setting Description Vybrid VBAT power 1 2 VBAT tied to main Vybrid 3 3 V VCC_3V3_MCU ji source SecureRTC Salle Naa ae 2 3 VBAT tied to Coin Cell Tamper and Monitors P3V3 f board 3 3 V regulator tied directl J4 main Vybrid 3 3 V __ supply VDD33 pins OFF Current measuring device installed instead of jumper OFF Pin 11 amp 13 of JTAG connector floating J6 JTAG 5 V supply ON Pin 11 amp 13 of JTAG connecter tied to 5 V ON EXT_WM0_TAMPER_IN tied to EXT_WM0O_TAMPER_OUT J7 Tamper loopback OFF EXT_WMO_TAMPER_IN open EXT_WMO0O_TAMPER_OUT open ie Accelerometer ON MCU PTB9 pin tied to INT1 of accelerometer interrupt OFF Accelerometer Interrupt input untied 3 3 V from Vybrid ON _ P3V3 tied to P3V3_ELEV board to Tower J18 system applicable only when Elevator OFF Board and
7. rty of their respective owners ARM and Cortex are registered trademarks of ARM Limited or its subsidiaries in the EU and or elsewhere All rights reserved 2013 2014 Freescale Semiconductor Inc Doc Number TWRVF65GS10QSG REV 2 Agile Number 926 27442 Rev D
Download Pdf Manuals
Related Search