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F103ZE st STM3210E arm cortex-M3 board jtag full set
STM32F103ZE (STM3210E) Board User Manual.pdf
STM32F103ZE (STM3210E) LCD240.pdf
Schematic of LCD240 module
STM32F103ZE (STM3210E) Board Schematic.pdf
STM32F101x Datasheet Rev1.pdf
Datasheet of STM32F101x6/x8/xB
STM32F103x Datasheet Rev1.pdf
Datasheet of STM32F103x6/x8/xB
Other pdf format files of datasheet
Datasheet of other components of the board such as ILI9325, ILI9320
STMicroelectronics is the world's fifth largest semiconductor company with net revenues of US$9.84 billion in 2008.
STMicroelectronics was created in 1987 by the merger of SGS Microelettronica of Italy and Thomson Semiconducteurs of France. Since its formation, ST has grown faster than the semiconductor industry as a whole and it has been one of the world's Top Five semiconductor suppliers since 2005.
The group totals over 50,000 employees, 16 advanced research and development units, 39 design and application centers, 15 main manufacturing sites and 78 sales offices in 36 countries.
Corporate Headquarters, as well as the headquarters for Europe, the Middle East and Africa, (EMEA) are in Geneva. The Company's U.S. Headquarters are in Carrollton (Texas); those for Asia-Pacific are based in Singapore and Japanese operations are headquartered in Tokyo. The Greater China region, which includes Hong Kong, China and Taiwan, is headquartered in Shanghai.
ST has a worldwide network of front-end (wafer fabrication) and back-end (assembly and test and packaging) plants. ST's principal wafer fabs are presently located in Agrate Brianza and Catania (Italy), Crolles, Rousset and Tours (France), and Singapore. The wafer fabs are complemented by highly efficient assembly and test facilities located in China, Malaysia, Malta, Morocco and Singapore.
ST aims to be the leader in multimedia convergence and power applications, offering one of the world's broadest product portfolios, including application-specific products containing a large proprietary IP (Intellectual Property) content and multi-segment products that range from discrete devices to high-performance microcontrollers, secure smart card chips and MEMS devices.
To maximize the benefit of scale that is becoming increasingly important in some semiconductor markets, ST completed the creation of two joint ventures in 2008. In the memory field, ST, Intel and Francisco Partners formed a new company, Numonyx, dedicated to providing non-volatile memory solutions, including NAND and NOR Flash memories as well as MCP (multi-chip package) memory solutions, for a wide variety of consumer and industrial applications. ST holds a 48% share in Numonyx.
ST has also been very active in the wireless arena. In mid 2008, ST and NXP combined their key wireless semiconductor operations in a joint venture, in which ST held 80%. In February 2009, ST acquired the minority stake from NXP and merged its wireless operations with Ericsson Mobile Platforms to create ST-Ericsson, a 50/50 joint venture focusing on semiconductors and platforms for mobile applications.
STMicroelectronics Cortex-M3 Products
STM32 (Cortex-M3) - 32-bit Microcontrollers
The STM32 family of 32-bit Flash Microcontrollers is based on the breakthrough ARM Cortex -M3 core - a core specifically developed for embedded applications. The STM32 family benefits from the Cortex-M3 architectural enhancements including the Thumb-2 instruction set to deliver improved performance with better code density, significantly faster response to interrupts, all combined with industry leading power consumption.
The STM32 family is built to offer new degrees of freedom to MCU users. It offers a complete 32-bit product range that combines high-performance, real-time, low-power and low-voltage operation, while maintaining full integration and ease of development.
Compatibility of pin-assignments, peripherals and software across all STM32 devices is a core technical feature throughout this family of microcontrollers.
Leading-edge architecture with the latest Cortex-M3 core from ARM
Excellent real-time behaviour
Oustanding power efficiency
Superior and innovative peripherals
Easy development, fast time to market
STMicroelectronics Cortex-M3 Product List
STM32F103ZE (STM3210E) Features
High-density Performance line, ARM-based 32-bit MCU with up to 512 KB Flash, USB, CAN, 11 timers, 3 ADCs and 13 communication interfaces.
The STM32F103ZE (STM3210E) Evaluation Board is a USB-powered device.
The STM32F103ZE (STM3210E) Evaluation Board connects directly to the Keil Vision Debugger using the USB-JTAG Adapter, such as ULink2 or Emlink for ARM, so no additional software is required on the board.
The STM32F103ZE (STM3210E) Evaluation Board connects to a PC via a standard USB cable that provides power to the board and USB communication.
The following illustration shows the important interface and hardware components of the STM32F103ZE (STM3210E) board.
The jumpers used to configure the STM32F103ZE (STM3210E) board are:
* VUSB: Allows USB device detection or detection and soft-connect of the USB device by issuing a software restart via PB14.
* BOOT0: Either grounds or drives the BOOT0 signal high.
* BOOT1: Either grounds or drives the BOOT1 signal (PB2) high.
* J3: Enables the on-board speaker.
The BOOT0 and BOOT1 jumpers configure the microcontroller startup (boot) mode. This setting tells the microprocessor the location (User Flash, System Memory or Embedded SRAM) of the boot code.
Setting up the STM32F103ZE (STM3210E) evaluation board is easy. Explanations for the board setup and its components are presented here. Details about the connecting and configuring procedures for the STM32F103ZE (STM3210E) board please read the user's manual in CDROM. The STM32F103ZE (STM3210E) board requires a power connection and a USB-JTAG adapter between your development PC and the JTAG connector.
Before you start to use, make sure you have satisfied the hardware and software requirements.
Connecting the STM32F103ZE (STM3210E)
To use the STM32F103ZE (STM3210E) Evaluation Board with USB-JTAG, you must:
* Connect the USB-JTAG adapter to the JTAG connector of the STM32F103ZE (STM3210E) board.
* Connect the USB-JTAG adapter to the PC via a standard USB cable.
* Connect power from your PC to the board using a standard USB A-B cable.
The following picture shows how to connect USB-JTAG to the STM32F103ZE (STM3210E) board.
USB Device Detection at Power-Up. LED PB14 shows the status of port pin PB14.
Allows soft-connect of the USB device by issuing a software restart via PB14. In this configuration, transistor T2 limits PB14 voltage, so LED PB14 does not turn on.
Board is not detected as a USB Device. LED PB14 shows the status of port pin PB14.
Maps User Flash to boot space.
Maps System Memory to boot space.
Maps on-chip SRAM to boot space.
Connects the on-board speaker to the output of the DAC.
*Factory setting of STM32F103ZE (STM3210E): User Flash Boot Mode; user code execution from on-chip Flash ROM, and USB is not detected.
The Writing Programs topics introduce you to the Keil development tools and show you, step-by-step, the process of using them with the STM32F103ZE (STM3210E) board. You will learn how to use uVision to create, compile, download, debug, and run a program on the STM32F103ZE (STM3210E) board.
Writing programs for the STM32F103ZE (STM3210E) board is easy (detailed in user s manual).
1.Create the Application Program using Vision IDE and the RealView C/C++ Compiler.
2.Download the program to the on-chip Flash of the STM32F103ZE (STM3210E) Board.
3.Debug the program using the Vision Debugger and USB-JTAG.
The STM32F103ZE (STM3210E) board comes with the Keil Development Tools CD-ROM that contains an Evaluation Version of the RealView Microcontroller Development Kit (MDK-ARM). If you are not already using the MDK-ARM, you may install the evaluation version from the CD-ROM.
The file STM32_Init.c is part of every example. It contains the initialization of the clocks, independent watchdog (IWDG), system timer (SysTick), realtime clock (RTC), Timers, USARTs, general purpose I/O (GPIO) and embedded Flash interface (EFI).
ST STM3210E Starter Kit contains all the necessary hardware and software and allows you to design, develop, integrate and test your applications:
* ST STM3210E ARM Cortex-M3 Board
* Keil MDK-ARM Development Kit, 32K evaluation edition
* Plenty of example programs, all in source code
ST STM3210E ARM Cortex-M3 Board:
* Includes one 2.4" TFT LCD
* STM32F103ZE, ARM Cortex-M3 based, 72MHz
* 512KB Flash memory and 64KB SRAM
* One USB Device Interface
* One MicroSD Card interface
* One 20pins JTAG Interface
* Four Push Buttons (Reset, Wake Up, Tampering, User)
* One Joystick with 4-direction control and selector
* One RTC Unit with backup Battery
* One Temperature Sensor
* One Analog Input (connected to potentiometer),
* One Analog Output (connected to speaker by default)
* Supply Voltage: 5 Volts DC (provided by USB Cable)
* Board Size: 110mm x 140mm (4.33" x 5.5")
Keil MDK-ARM Development Kit
* Vision IDE, debugger and simulation environment
* ARM industry-leading C/C++ compiler from ARM
* MicroLib highly optimized run-time library
* Real-Time Trace for Cortex-M3 processor based devices
* 60335a13.jpg picture by townzbz2
