Toshiba 公司的TMPM360F20FG是基于ARM Cortex-M3 的32位MCU,集成了2048KB Flash ROM和128KB SRAM,時(shí)鐘高達(dá)64MHz,具有四路存儲(chǔ)器控制器,1路Watchdoc計(jì)時(shí)器,12路UART,5路I2C,1路CEC,1路遙控信號(hào)處理器,97個(gè)中斷,120 GPIO引腳,待機(jī)模式,時(shí)鐘發(fā)生器和片上調(diào)試(SWD,ETM),主要用于MCU市場(chǎng).而Keil公司的MCBTMPM360評(píng)估板為你提供了創(chuàng)建和測(cè)試基于ARM Cortex-M3的TMPM360系列的工作程序.本文介紹了Cortex-M3處理器主要特性和優(yōu)勢(shì),框圖,TMPM360F20FG方框圖和主要特性,以及MCBTMPM360評(píng)估板主要特性,框圖和電路圖.
The Toshiba TMPM360F20FG is a Cortex-M3 based Microcontroller, 2048KB Flash ROM, 128KB SRAM, clock up to 64MHz, 4 channels Memory Controller, 2 channels DMA Controller 16 channels 16-bit Timer, 1 channel Real timer clock, 1 channel Watchdoc Timer, 12 channels UART, 5 channels I2C, 1 channel CEC, 1 channel Remote Control Signal Preprocessor, 97 Interrupts, 120 GPIO Pins, Standby mode, Clock generator (PLL), and On-Chip debugging (SWD, ETM).
The Cortex-M3 processor is a high performance 32-bit processor designed for the microcontroller market. It offers significant benefits to developers, including:
• outstanding processing performance combined with fast interrupt handling
• enhanced system debug with extensive breakpoint and trace capabilities
• efficient processor core, system and memories
• ultra-low power consumption with integrated sleep mode and an optional deep sleep Mode
• platform security robustness, with an optional integrated Memory Protection Unit (MPU).
The Cortex-M3 processor is built on a high-performance processor core, with a 3-stage pipeline Harvard architecture, making it ideal for demanding embedded applications. The processor delivers exceptional power efficiency through an efficient instruction set and extensively optimized design, providing high-end processing hardware including optional IEEE754-compliant single-precision floating-point computation, a range of single-cycle and SIMD multiplication and multiply-with-accumulate capabilities, saturating arithmetic and dedicated hardware division.
To facilitate the design of cost-sensitive devices, the Cortex-M3 processor implements tightly-coupled system components that reduce processor area while significantly improving interrupt handling and system debug capabilities. The Cortex-M3 processor implements a version of the Thumb® instruction set based on Thumb-2 technology, ensuring high code density and reduced program memory requirements. The Cortex-M3 instruction set provides the exceptional performance expected of a modern 32-bit architecture, with the high code density of 8-bit and 16-bit microcontrollers.
The Cortex-M3 processor closely integrates a configurable NVIC, to deliver industry-leading interrupt performance. The NVIC includes a Non-Maskable Interrupt (NMI) that can provide up to 256 interrupt priority levels. The tight integration of the processor core and NVIC provides fast execution of Interrupt Service Routines (ISRs), dramatically reducing the interrupt latency.
Cortex-M3處理器主要特性和優(yōu)勢(shì):
• tight integration of system peripherals reduces area and development costs
• Thumb instruction set combines high code density with 32-bit performance
• code-patch ability for ROM system updates
• power control optimization of system components
• integrated sleep modes for low power consumption
• fast code execution permits slower processor clock or increases sleep mode time
• hardware division and fast digital-signal-processing orientated multiply accumulate
• deterministic, high-performance interrupt handling for time-critical applications
• optional MPU for safety-critical applications
• extensive implementation-defined debug and trace capabilities:
— Serial Wire Debug and Serial Wire Trace reduce the number of pins required for debugging, tracing, and code profiling.
圖1.Cortex-M3處理器框圖
TMPM360F20FG主要特性:
ARM® Cortex-M3 CPU Core
Operating voltage: 2.7 to 3.6V (Single supply)
Maximum operating frequency: 64 MHz (8 MHz x 8 by PLL)
Built-in Functions
DMA controller: 2 channels
Memory controller: 1 channel Chip Select/Wait controller: 4 channels
10-bit DA converter : 2 channels
16-bit timer: 16 channels
SIO/UART: 12 channels
I2C/SIO: 5 channels
SSP (SPI/MicroWire mode): 1 channel
RTC: 1 channel
CEC: 1 channel
Remote control signal preprocessor: 2 channels
Debug circuit (SWD/SWV): 1 channel
Trace function (ETM): 4-bit
圖2.TMPM360F20FG方框圖
MCBTMPM360評(píng)估板
The Keil MCBTMPM360 Evaluation Boards enable you to create and test working programs based on the Toshiba TMPM360 family of ARM Cortex-M3 processor-based devices.
The MCBTMPM360 Evaluation Board is available in two configurations:
The MCBTMPM362 Evaluation Board is populated with a Toshiba TMPM362F10 device
The MCBTMPM364 Evaluation Board is populated with a Toshiba TMPM364F10 device providing the additional functionality of CAN and USB
MCBTMPM360評(píng)估板主要特性:
64MHz ARM Cortex-M3 processor-based MCU in 144-pin LQFP
On-Chip Flash: 1MB (TMPM362/TMPM364)
On-Chip RAM: 64KB (TMPM362/TMPM364)
USB 2.0 Host (TMPM364 only)
CAN 2.0 Interface (TMPM364 only)
UART, I2C, and 120 GPIO via PCB headers
Potentiometer for ADC Input
5 LEDs and 6 push-buttons
Power via USB connector
Debug Interface Connectors
10-pin Cortex debug (0.05 inch connector)
20-pin Cortex debug + ETM Trace (0.05 inch connector)
MCBTMPM360/2/4評(píng)估板技術(shù)指標(biāo):
Feature |
|
||
MCBTMPM360 |
MCBTMPM362 |
MCBTMPM364 |
|
Board |
|||
MCU Vendor |
Toshiba |
Toshiba |
Toshiba |
MCU |
TMPM360F20FG |
TMPM362F10FG |
TMPM364F10FG |
XTAL |
12MHz |
12MHz |
12MHz |
ARM Processor |
Cortex-M3 |
Cortex-M3 |
Cortex-M3 |
MCU Clock |
64MHz |
64MHz |
64MHz |
Prototyping Area |
|
|
|
Dimensions |
5.375 x 2.375 |
5.375 x 2.375 |
5.375 x 2.375 |
Dimensions |
135 x 60 |
135 x 60 |
135 x 60 |
Memory |
|||
On-Chip RAM |
128KB |
64KB |
64KB |
On-Chip FLASH |
2MB |
1MB |
1MB |
I/O |
|||
Push Buttons |
6 |
6 |
6 |
I/O Port LEDs |
5 |
5 |
5 |
Analog Input |
|
|
|
CAN Ports |
|
|
1 |
USB Host/OTG |
|
|
|
Debug Interface |
|||
JTAG Interface |
|
|
|
SWD Interface |
|
|
|
ETM Interface |
|
|
|
10-pin Cortex Connector |
|
|
|
20-pin Cortex Connector |
|
|
|
Power |
|||
Connector |
USB |
USB |
USB |
Supply |
5VDC |
5VDC |
5VDC |
Current |
~ 15 mA |
~ 15 mA |
~ 15 mA |
Current |
~ 25 mA |
~ 25 mA |
~ 25 mA |
You may use the Cortex-M3 based MCBTMPM360 Evaluation Boards to generate and test application programs for the Toshiba TMPM360Fxxx microcontroller family. With this hands-on process, you can determine the hardware and software requirements for current and future product development.
This board is available in two variants: the MCBTMPM360 and the MCBTMPM364.
The MCBTMPM360 is populated with the Toshiba TMPM360F20FG microcontroller.
The MCBTMPM364 is populated with the Toshiba TMPM364F10FG microcontroller.
The MCBTMPM364 board has more RAM and Flash memory than the MCBTMPM360 board, and supports USB Host and CAN interfaces.
圖3.MCBTMPM360評(píng)估板外形圖
MCBTMPM360評(píng)估板主要特性:
USB 2.0 Full Speed Interface
A standard USB "A" connector for applications requiring USB Host capabilities.
CAN Port
A standard DB9 connector for applications requiring CAN communications.
Analog Voltage Control for ADC Input
An adjustable analog voltage source for testing the Analog to Digital converter built into the TMPM360F20FG.
Cortex/ETM Download and Debug
The MCBTMPM360 board incorporates both a JTAG interface and a Cortex Debug + ETM interface. When coupled with the ULINK2 USB-JTAG adapter, the 10-pin Serial Wire JTAG interface allows flash programming and debugging. With the ULINKPro adapter, the 20-pin Cortex Debug/ETM interface allows flash programming and instruction trace debugging.
MCBTMPM360 board components.
圖4.MCBTMPM360評(píng)估板方框圖
MCBTMPM360評(píng)估板技術(shù)數(shù)據(jù):
Parameter |
Description |
Supply Voltage |
5 Volts DC (provided by the USB bus of a PC) |
Supply Current |
15mA typical, 25mA maximum |
XTAL Frequency |
12 MHz |
Microcontroller |
Toshiba TMPM360F20FG or TMPM364F10FG |
Peripherals |
1 × Cortex Serial Wire JTAG Interface, |
Board Size |
135mm x 60mm (5.375" x 2.375"). |
圖5.MCBTMPM360評(píng)估板電路圖(1)
圖6.MCBTMPM360評(píng)估板電路圖(2)
圖7.MCBTMPM360評(píng)估板電路圖(3)
詳情請(qǐng)見:
http://www.keil.com/dd/docs/datashts/arm/cortex_m3/r2p1/dui0552a_cortex_m3_dgug.pdf
和
http://www.keil.com/mcbtmpm360/mcbtmpm360_schematics.pdf