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= '''MY-SAMA5-CB200视图''' = ---- == '''正面视图''' == [[文件:MY-SAMA5-CB200_1.1.0.1.png|642px]] == '''背面视图''' == [[文件:MY-SAMA5-CB200_1.2.0.1.png|642px]] = '''SAMA5D3 MPU概览''' = ---- == '''SAMA5D3简介''' == Atmel | SMART SAMA5D3 MPU 能在低于 150mW 的功耗下提供高达 850DMIPS 的处理能力,是所有高性能、低功耗、成本敏感型工业应用的理想之选。其应用包括控制面板、智能电网设备和条形码扫描仪,即,需要高级别的连接性、增强的用户界面、稳定可靠的安全性或电池供电的任何设备。SAMA5D3 还是低功耗、小尺寸都至关重要的穿戴式计算应用和移动应用的理想之选。SAMA5D3 系列包括支持 -40/+105°C 温度范围以及 12x12mm BGA324 封装(间距为 0.5mm)的器件。<br> Atmel | SMART™ SAMA5D3 系列以 536 Mhz 提供高达 850DMIPS 的处理能力,功耗水平市场领先(在工作模式下低于 150 mW;在低功耗模式下低于 0.5 mW)。通过支持高精度计算和快速数据处理的 FPU,以及 64 位内部总线架构和 32 位宽 DDR 控制器(能够以高达 166 MHz 的频率运行,提供高达 1328 MB/s 的带宽),实现了高性能。功能强大的外设包括多达三个的高速 USB 端口、千兆位和 10/100 以太网、双 CAN、TFT LCD 控制器、相机接口、三个 SDIO/SD/MMC、UART、SPI、TWI、软调制解调器、12 位 ADC、32 位定时器等。稳定可靠的安全性和防假冒由硬件加密引擎(如 AES/3DES、TRNG、SHA)和安全引导提供。这些器件随附免费 Atmel Linux® 分发包、Android 分发包、Qt SDK 以及一套完整的面向非操作系统用户的 C 示例。来自多个软件和硬件合作伙伴的 SOM(模块系统)、PMIC(电源管理IC)、内存和套件令本产品更加完整。<br> == '''SAMA5D3优势''' == *ARM® Cortex®-A5 内核以 536MHz (850DMIPS) 运行。<br> *用于高精度计算和快速数据处理的浮点运算单元 (FPU)。<br> *市场领先的低功耗优势<br> **在激活所有外设的情况下,以低于 150mW 的功耗(在工作模式下)提供高达 536MHz 的工作频率。<br> **在具有 SRAM 和寄存器保留的情况下,低功耗模式下的功耗低于 0.5mW。<br> **双 CAN 控制器。<br> *支持 IEEE1588 的千兆位以太网 MAC 和 10/100 MAC。<br> *三个 HS 高速 USB 端口(可配置为三个主机或两个主机和一个器件端口)。<br> *CMOS 图像传感器接口。<br> *图形 LCD 控制器,具有图像合成叠加<br> *AES/3DES 硬件加密引擎和安全引导。<br> *BGA324(15x15,间距为 0.8)封装,以及小封装选项 BGA(12x12mm,间距为 0.5)。<br> *扩展的工业温度范围:-40°C 到 105°C。<br> == '''SAMA5D3简图''' == [[文件:MY-SAMA5-CB200_2.3.0.1.png|642px]] == '''SAMA5D3框图 ''' == [[文件:MY-SAMA5-CB200_2.4.0.1.png|642px]] == '''SAMA5D3 MPU差异''' == [[文件:MY-SAMA5-CB200_2.5.0.1.png|642px]] == '''SAMA5D36关键参数''' == {| class="wikitable" |- |Parameter |Value |- |Pin Count: |324 |- |Max. Operating Freq. (MHz): |536 MHz |- |CPU: |Cortex-A5 |- |Max I/O Pins: |160 |- |Ext Interrupts: |160 |- |USB Transceiver: |3 |- |USB Speed: |Hi-Speed |- |USB Interface: |Host, Device |- |SPI: |6 |- |TWI (I2C): |3 |- |UART: |7 |- |CAN: |2 |- |LIN: |4 |- |SSC: |2 |- |Ethernet: |2 |- |SD / eMMC: |3 |- |Graphic LCD: |Yes |- |Camera Interface: |Yes |- |ADC Channels: |12 |- |ADC Resolution (bits): |12 |- |ADC Speed (ksps): |1000 |- |Resistive Touch Screen: |Yes |- |Crypto Engine: |AES/DES/SHA/TRNG |- |SRAM (Kbytes): |128 |- |External Bus Interface: |1 |- |DRAM Memory: |DDR2/LPDDR/LPDDR2 |- |NAND Interface: |Yes |- |Temp. Range (deg C): |-40 to 105 |- |I/O Supply Class: |1.8/3.3 |- |Operating Voltage (Vcc): |1.08 to 1.32 |- |FPU: |Yes |- |Timers: |6 |- |Output Compare Channels: |6 |- |Input Capture Channels: |6 |- |PWM Channels: |4 |- |32kHz RTC: |Yes |- |MPU / MMU: |No / Yes |- |Quadrature Decoder Channels: |0 |- |Video Decoder: |No |} = '''MY-IMX6-CB200配置''' = == '''硬件配置''' == ---- {| class="wikitable" |- |CPU |SAMA5D3x |工业级/扩展工业级 |- |内存 |256MB |可扩展到512MB |- |存储 |256MB |最大可支持到2GB |- |SPI Flash |2M |支持烧录 |- |启动模式 |SPI启动 |确保产品的稳定可靠 |} == '''工作温度范围''' == *工业级<br> -40°C ~ 85°C<br> *扩展工业级<br> -40°C ~ 105°C<br> == '''操作系统支持''' == *内核:Linux-3.18<br> *界面:命令行,QT5<br> == '''型号命令''' == === 型号名称组成 === MY-SAMA5-CB200-MPU规格-内存容量-存储容量<br> === MPU规格 === D36ACN, D36ACNR: 工业扩展级<br> D36ACU, D36ACUR: 工业级<br> === 内存容量 === 256MB: 256兆内存<br> === 存储容量 === 256MB: 256兆存储<br> === 型号举例 === MY-SAMA5-CB200-D36ACN-256M-256M <br> = '''MY-SAMA5-CB200定义''' = {| class="wikitable" |- |序号<br>Num||引脚<br>Pin ||默认信号<br>Default signal||默认接口<br>Default Interface||可复用的信号<br>Multiplex|| ||可复用的信号<br>Multiplex||默认接口<br>Default Interface||默认信号<br>Default signal||引脚<br>Pin||序号<br>Num. |- |1 ||GND_POWER || || || || || || || ||GND_POWER ||2 |- |3 ||PC1 ||ETX1 ||rowspan=10|EMAC ||TIOB3 || ||LCDDAT19 |rowspan=6|MCI2 |MCI2_DA0 |PC11 |4 |- |5 ||PC8 ||EMDC |TCLK5 | |LCDDAT18|TIOA1 |MCI2_DA1 |PC12 |6 |- |7 |PC3 |ERX1 |TIOA4 | |LCDDAT21|PCK2 |MCI2_CK |PC15 |8 |- |9 |PC6 |ERXER |TIOA5 | |LCDDAT17|TIOB1 |MCI2_DA2 |PC13 |10 |- |11 |PC4 |ETXEN |TIOB4 | |LCDDAT20 |MCI2_CDA |PC10 |12 |- |13 |PC7 |EREFCK |TIOB5 | |LCDDAT16|TCLK1 |MCI2_DA3 |PC14 |14 |- |15 |PC0 |ETX0 |TIOA3 | | |rowspan=6|SSC0 |RK0 |PC19 |16 |- |17 ||PC2 ||ERX0 ||TCLK3 || || ||TF0 ||PC17 ||18 |- |19 |PC5 |ECRSDV |TCLK4 | | |RF0 |PC20 |20 |- |21 |PC9 |EMDIO | | | |RD0 |PC21 |22 |- |23 |PC30 |UTXD0 |rowspan=2|UART0 |ISI_PCK | | |TK0 |PC16 |24 |- |25 |PC29 |URXD0 |ISI_D8|PWMFI2 | | |TD0 |PC18 |26 |- |27 |GND_POWER | | | | | | | |GND_POWER |28 |- |29 |PC31 | | |PWMFI1|FIQ | | |rowspan=2|LCDC |LCDVSYNC |PA26 |30 |- |31 ||PC23 ||SPI1_MOSI ||rowspan=5|SPI1 || || || ||LCDDISP ||PA25 ||32 |- |33 ||PC25 ||SPI1_NPCS0 || || || || || ||GND_POWER ||34 |- |35 ||PC22 ||SPI1_MISO || || || ||LCDC ||LCDHSYNC ||PA27 ||36 |- |37 ||PC24 ||SPI1_SPCK || || || || || ||GND_POWER ||38 |- |39 ||PC28 ||SPI1_NPCS3 ||ISI_D9|PWMFI0 || || ||rowspan=15|LCDC ||LCDDEN ||PA29 ||40 |- |41 ||PA4 ||LCDDAT4 ||rowspan=12|LCDC || || || ||LCDDAT2 ||PA2 ||42 |- |43 ||PA10 ||LCDDAT10 || || || ||LCDDAT15 ||PA15 ||44 |- |45 ||PA14 ||LCDDAT14 || || ||ISI_D1 ||LCDDAT17 ||PA17 ||46 |- |47 ||PA12 ||LCDDAT12 || || || ||LCDDAT1 ||PA1 ||48 |- |49 ||PA24 ||LCDPWM || || || ||LCDDAT0 ||PA0 ||50 |- |51 ||PA22 ||LCDDAT22 ||ISI_D6|PWMH1 || || ||LCDDAT3 ||PA3 ||52 |- |53 ||PA28 ||LCDPCK || || || ||LCDDAT8 ||PA8 ||54 |- |55 ||PA20 ||LCDDAT20 ||ISI_D4|PWMH0 || || ||LCDDAT6 ||PA6 ||56 |- |57 ||PA21 ||LCDDAT21 ||ISI_D5|PWML0 || ||ISI_D2|TWD2 ||LCDDAT18 ||PA18 ||58 |- |59 ||PA23 ||LCDDAT23 ||ISI_D7|PWML1 || ||ISI_D0 ||LCDDAT16 ||PA16 ||60 |- |61 ||PA5 ||LCDDAT5 || || ||ISI_D3|TWCK2 ||LCDDAT19 ||PA19 ||62 |- |63 ||PA7 ||LCDDAT7 || || || ||LCDDAT11 ||PA11 ||64 |- |65 ||PA30 ||TWD0 ||rowspan=2|TWI0 ||URXD1|ISI_VSYNC || || ||LCDDAT9 ||PA9 ||66 |- |67 ||PA31 ||TWCK0 ||UTXD1|ISI_HSYNC || || ||LCDDAT13 ||PA13 ||68 |- |69 ||PD31 || || ||PCK1|AD11 || ||ISI_D10|SPI1_NPCS2 ||rowspan=2|TWI1 ||TWCK1 ||PC27 ||70 |- |71 ||PD30 ||PCK0 ||SSC0:CLK ||AD10 || ||ISI_D11|SPI1_NPCS1 ||TWD1 ||PC26 ||72 |- |73 ||PD29 ||AD9 ||rowspan=10|AD || || || ||rowspan=8|MCI0 ||MCI0_DA3 ||PD4 ||74 |- |75 ||PD28 ||AD8 || || || ||MCI0_DA1 ||PD2 ||76 |- |77 ||PD27 ||AD7 || || || ||MCI0_CDA ||PD0 ||78 |- |79 ||PD26 ||AD6 || || || ||MCI0_CK ||PD9 ||80 |- |81 ||PD23 ||AD3 || || || ||MCI0_DA2 ||PD3 ||82 |- |83 ||PD22 ||AD2 || || || ||MCI0_DA0 ||PD1 ||84 |- |85 ||PD24 ||AD4 || || ||PWML2|TIOB0 ||MCI0_DA5 ||PD6 ||86 |- |87 ||PD21 ||AD1 || || ||PWML3 ||MCI0_DA7 ||PD8 ||88 |- |89 ||PD25 ||AD5 || || ||SPI0_NPCS2|CTS0 ||rowspan=2|CAN0 ||CANTX0 ||PD15 ||90 |- |91 ||PD20 ||AD0 || || ||SPI0_NPCS1|SCK0 ||CANRX0 ||PD14 ||92 |- |93 ||PD5 ||PWMH2 ||rowspan=2|PWM ||MCI0_DA4|TIOA0 || || ||UART0 ||TXD0 ||PD18 ||94 |- |95 ||PD7 ||PWMH3 ||MCI0_DA6|TCLK0 || || || ||RXD0 ||PD17 ||96 |- |97 ||PD19 || ||GPIO ||ADTRG || || ||rowspan=3|SPI0 ||SPI0_MISO ||PD10 ||98 |- |99 ||PB0 ||GTX0 ||rowspan=15|GMAC ||PWMH0 || || ||SPI0_SPCK ||PD12 ||100 |- |101 ||PB7 ||GRX3 ||RK1 || || ||SPI0_MOSI ||PD11 ||102 |- |103 ||PB13 ||GRXER ||PWML3 || ||PWMH3|GRXDV ||GMAC:INTRP || ||PB12 ||104 |- |105 ||PB17 ||GMDIO || || ||GCOL ||rowspan=2|CAN0 ||CANTX1 ||PB15 ||106 |- |107 ||PB11 ||GRXCK ||RD1 || ||GCRS ||CANRX1 ||PB14 ||108 |- |109 ||PB18 ||G125CK || || ||GTX7 ||rowspan=6|MCI1 ||MCI1_DA2 ||PB22 ||110 |- |111 ||PB1 ||GTX1 ||PWML0 || ||GRX5 ||MCI1_CK ||PB24 ||112 |- |113 ||PB4 ||GRX0 ||PWMH1 || ||GTX5 ||MCI1_DA0 ||PB20 ||114 |- |115 ||PB3 ||GTX3 ||TF1 || ||GTX6 ||MCI1_DA1 ||PB21 ||116 |- |117 ||PB8 ||GTXCK ||PWMH2 || ||GTX4 ||MCI1_CDA ||PB19 ||118 |- |119 ||PB9 ||GTXEN ||PWML2 || ||GRX4 ||MCI1_DA3 ||PB23 ||120 |- |121 ||PB2 ||GTX2 ||TK1 || ||G125CKO ||rowspan=4|USART1 ||RTS1 ||PB27 ||122 |- |123 ||PB6 ||GRX2 ||TD1 || || ||RXD1 ||PB28 ||124 |- |125 ||PB5 ||GRX1 ||PWML1 || || ||TXD1 ||PB29 ||126 |- |127 ||PB16 ||GMDC || || ||GRX7 ||CTS1 ||PB26 ||128 |- |129 ||PB25 || || ||SCK1|GRX6 || ||RF1|GTXER ||EMAC:INT_N || ||PB10 ||130 |- |131 ||BMS || || || || || || || ||DIBN ||132 |- |133 ||NRST || || || || || || || ||DIBP ||134 |- |135 ||TDI || || || || || ||rowspan=2|DEBUG ||DTXD ||PB31 ||136 |- |137 ||JTAGSEL || || || || || ||DRXD ||PB30 ||138 |- |139 ||TCK ||SWCLK || || || ||PWMFI3|SPI0_NPCS3|RTS0 ||SSC0:IRQ || ||PD16 ||140 |- |141 ||TMS ||SWDIO || || || || || || ||GND_POWER ||142 |- |143 ||TDO || || || || || ||USBA ||DHSDP ||HHSDPA ||144 |- |145 ||NTRST || || || || || || ||DHSDM ||HHSDMA ||146 |- |147 ||WKUP || || || || || ||USBB || ||HHSDPB ||148 |- |149 ||SHDN || || || || || || || ||HHSDMB ||150 |- |151 ||D7 || ||rowspan=8|EBI:Dx || || || ||USBC || ||HHSDMC ||152 |- |153 ||D6 || || || || || || ||HHSDPC ||154 |- |155 ||D5 || || || ||LCDDAT23|TIOB2 ||rowspan=10|EBI ||NCS2 ||PE28 ||156 |- |157 ||D4 || || || ||LCDDAT22|TIOA2 ||NCS1 ||PE27 ||158 |- |159 ||D3 || || || ||USART2:CTS2 ||A23 ||PE23 ||160 |- |161 ||D2 || || || ||USART2:RXD2 ||A25 ||PE25 ||162 |- |163 ||D1 || || || ||USART2:TXD2 ||NCS0 ||PE26 ||164 |- |165 ||D0 || || || || ||A20 ||PE20 ||166 |- |167 ||PE3 ||A3 ||rowspan=11|EBI:Ax ||GPIO:LED || ||USART2:RTS2 ||A24 ||PE24 ||168 |- |169 ||PE5 ||A5 || || ||TCLK2 ||NWR1/NBS1 ||PE29 ||170 |- |171 ||PE6 ||A6 || || ||USART3:RXD3 ||A18 ||PE18 ||172 |- |173 ||PE13 ||A13 || || ||USART3:TXD3 ||A19 ||PE19 ||174 |- |175 ||PE15 ||A15 ||SCK3 || ||PWML1|IRQ ||MMC1:VDD_EN || ||PE31 ||176 |- |177 ||PE8 ||A8 || || ||NWAIT ||MMC1:CD || ||PE30 ||178 |- |179 ||PE10 ||A10 || || ||GPIO:LED ||rowspan=7|EBI:Ax ||A4 ||PE4 ||180 |- |181 ||PE14 ||A14 || || ||GPIO:LED ||A2 ||PE2 ||182 |- |183 ||PE16 ||A16 ||CTS3 || ||GPIO:LED ||A1 ||PE1 ||184 |- |185 ||PE0 ||A0/NBS0 || || || ||A7 ||PE7 ||186 |- |187 ||PE11 ||A11 || || ||RTS3 ||A17 ||PE17 ||188 |- |189 ||GND_POWER || || || || || ||A9 ||PE9 ||190 |- |191 ||GND_POWER || || || || || ||A12 ||PE12 ||192 |- |193 ||GND_POWER || || || || || || || ||VCC_3V3 ||194 |- |195 ||GND_POWER || || || || || || || ||VCC_3V3 ||196 |- |197 ||GND_POWER || || || || || || || ||VCC_3V3 ||198 |- |199 ||GND_POWER || || || || || || || ||VCC_3V3 ||200 |- |colspan=11|说明1:“可复用的信号”栏中黄色背景表示在MY-SAMA5-EK200上实现的信号。 |- |colspan=11|说明2:MY-SAMA5-CB200-D36引出的管脚主要有PA0~PA31、PB0~PB31、PC0~PC31、PD0~PD12、PD14~PD31、PE0~PE20、PE23~PE31。 |} = '''SAMA5D3 MPU介绍''' = ---- == '''SAMA5关键亮点''' == === 高性能 === SAMA5 系列是专为弥补 ARM Cortex-A5 内核在功率方面的不足而设计,包括的器件能以低至 150 mW 的功耗提供高达 945DMIPS 的处理能力。<br> :*1.58 DMIPS/MHz ARM Cortex-A5 内核<br> :*高达 600 MHz 的最大工作频率 (945DMIPS)<br> :*64 位内部总线架构、可提供高达 1600 MB/s 带宽的 32 位宽 DDR 控制器<br> :*用于高精度计算和快速数据处理的 Neon 和浮点运算单元 (FPU)<br> :*ARM Cortex-A5 FPU 的性能是 ARM Cortex-A8 FPU 的三倍<br> :*L2 缓存,用于提高整体系统性能<br> === 低功耗 === SAMA5 器件采用创新技术以降低所有模式下的功耗,并且可实现:<br> :*在激活所有外设的情况下,以低于 150mW 的功耗(在工作模式下)提供高达 536MHz 的工作频率<br> :*在运行 SRAM 和 寄存器保留的低功耗模式下,功耗低于 0.5mW 且唤醒时间短于 0.5ms。在运行 RTC(实时时钟)的备份模式下功耗约为 1.2µA<br> :*电池供电系统的理想之选<br> === 连接性 === SAMA5 器件嵌入了各种高级通信外设,因此是网桥和网关的理想之选。<br> :*支持 IEEE1588 的以太网 MAC 和千兆位以太网 MAC、双 CAN 端口<br> :*可配置为三个主机或两个主机及一个器件端口的三个高速 USB 端口<br> :*多个 SDIO/SD/MMC 端口、UART、SPI、TWI、软调制解调器、CMOS 图像传感器接口、ADC、32 位定时器等。有关更多详细信息,请参阅“器件概述”选项卡<br> === 增强的用户界面 === 使用 SAMA5 MPU,可以创建当今应用所需的时尚、平稳的用户界面。<br> :*图形 LCD 控制器具有图像合成叠加和集成功能(如 α 混合、缩放、颜色转换和旋转)<br> :*720p 硬件视频解码器,用于加快支持当今主流视频标准的视频回放<br> :*电阻式触摸屏界面<br> :*CMOS 图像传感器接口<br> === 安全 === SAMA5 系列包括防止克隆、确保真实性以及保护应用的通信和数据存储安全的功能。<br> :*安全引导<br> :*硬件加密引擎,如高级加密标准 (AES)/三重数据加密标准 (DES)、RSA (Rivest-Shamir-Adleman) 和 ECC(椭圆曲线加密)以及安全哈希算法 (SHA) 和真正的随机号码生成器 (TRNG)<br> :*通过外部 DDR 内存即时加密/解密代码<br> :*管脚篡改检测,以保护系统免受物理入侵<br> :*密钥和数据的安全存储<br> :*ARM 信任区域,用于对系统、外设和内存资源进行分区,以将安全关键型软件与开放环境操作系统隔离<br> === 安全性 === SAMA5 系列具有的功能可轻松简便地实施如 IEC61508 等安全标准。<br> :*主晶体振荡器时钟具有故障检测器<br> :*上电复位<br> :*独立的看门狗定时器<br> :*寄存器写保护<br> :*内存管理单元 (MMU) 允许在内存内设置区域保护<br> :*基于 SHA 的 ICM(完整性检查监控器),用于验证内存内容的完整性<br> :*Arm 信任区域<br> === 低系统成本 === SAMA5 凭借高度的系统集成,在实现最大灵活性的同时还减少了对其他昂贵组件的需求。<br> :*0.8mm 球间距封装简化了 PCB 设计并降低了成本<br> :*最低功耗方案,需要芯片离散的电源或低成本 PMIC<br> :*三个高速 USB 端口节省了外部集线器的成本<br> :*DDR(双数据速率)内存线路上的阻抗控件节省了外部电阻器<br> :*嵌入式 RTC 节省了外部组件<br> :*集成的软调制解调器解决方案节省了外部调制解调器设备的成本<br> == '''SAMA5D3 Features''' == === Core === :*ARM® Cortex®-A5 Processor with ARM v7-A Thumb2® Instruction Set<br> :**CPU Frequency up to 536 MHz <br> :*32 Kbyte Data Cache, 32 Kbyte Instruction Cache, Virtual Memory System Architecture (VMSA)<br> :*Fully Integrated MMU and Floating Point Unit (VFPv4)<br> === Memories === :*One 160 Kbyte Internal ROM Single-cycle Access at System Speed, Embedded Boot Loader: Boot on 8-bit <br> :*NAND Flash, SDCard, eMMC, serial DataFlash®, selectable Order <br> :*One 128 Kbyte Internal SRAM, Single-cycle Access at System Speed<br> :*High Bandwidth 32-bit Multi-port Dynamic RAM Controller supporting 512 Mbyte 8 bank DDR2/LPDDR/LPDDR2 with datapath scrambling<br> :*Independent Static Memory Controller with datapath scrambling and SLC/MLC NAND Support with up to 24-bit Error Correcting Code (PMECC)<br> === System running up to 166 MHz === :*Reset Controller, Shut Down Controller, Periodic Interval Timer, Watchdog Timer and Real-time Clock<br> :*Boot Mode Select Option, Remap Command<br> :*Internal Low-power 32 kHz RC Oscillator and Fast 12 MHz RC Oscillator<br> :*Selectable 32768 Hz Low-power Oscillator and 12 MHz Oscillator<br> :*One 400 to 1000 MHz PLL for the System and one PLL at 480 MHz optimize d for USB High Speed<br> :*39 DMA Channels including two 8-channel 64-bit Central DMA Controllers<br> :*64-bit Advanced Interrupt Controller<br> :*Three Programmable External Clock Signals<br> :*Programmable Fuse Box with 256 fuse bits, 192 of them available for Customer<br> === Low Power Management === :*Shut Down Controller <br> :*Battery Backup Registers<br> :*Clock Generator and Power Management Controller<br> :*Very Slow Clock Operating Mode, Software Programmable Power Optimization Capabilities<br> === Peripherals === :*LCD TFT Controller with Overlay, Alpha-blending,Rotation, Scaling and Color Space Conversion<br> :*ITU-R BT. 601/656 Image Sensor Interface<br> :*Three HS/FS/LS USB Ports with On-Chip Transceivers<br> :**One Device Controller <br> :**One Host Controller with Integrated Root Hub (3 Downstream Ports)<br> :*One 10/100/1000 Mbps Gigabit Ethernet MAC Controller (GMAC) with IEEE1588 support<br> :*One 10/100 Mbps Ethernet MAC Controller (EMAC)<br> :*Two CAN Controllers with 8 Mailboxes, fully Compliant with CAN 2.0 Part A and 2.0 Part B<br> :*Softmodem Interface<br> :*Three High Speed Memory Card Hosts (eMMC 4.3 and SD 2.0)<br> :*Two Master/Slave Serial Peripheral Interfaces<br> :*Two Synchronous Serial Controllers<br> :*Three Two-wire Interface up to 400 Kbit/s supporting I2C Protocol and SMBUS<br> :*Four USARTs, two UARTs, one DBGU <br> :*Two Three-channel 32-bit Timer/Counters<br> :*One 4-channel 16-bit PWM Controller<br> :*One 12-channel 12-bit Analog-to-Digital Converter with Resistive Touch-Screen function<br> === Safety === :*Power-on Reset Cells<br> :*Independent Watchdog<br> :*Main Crystal Clock Failure Detection<br> :*Write Protection Registers<br> :*SHA: Supports Secure Hash Algorithm (SHA1, SHA224, SHA 256, SHA384, SHA512)<br> :*Memory Management Unit<br> === Security === :*TRNG: True Random Number Generator <br> :*Encryption Engine<br> :**AES: 256-bit, 192-bit, 128-bit Key Algorithm, Compliant with FIPS PUB 197 Specifications <br> :**TDES: Two-key or Three-key Algorithms, Co mpliant with FIPS PUB 46-3 Specifications<br> :*Atmel® Secure Boot Solution<br> === I/O === :*Five 32-bit Parallel Input/Output Controllers<br> :*160 I/Os<br> :*Input Change Interrupt Capability on Each I/O Line, Selectable Schmitt Trigger Input<br> :*Individually Programmable Open-drain, Pull-up and Pull-down Resistor, Synchronous Output, Filtering<br> :*Slew Rate Control on High Speed I/Os<br> :*Impedance Control on DDR I/Os<br> === Package === :*324-ball LFBGA, 15 x 15 x 1.4 mm, pitch 0.8 mm<br> :*324-ball TFBGA, 12 x 12 x 1.2 mm, pitch 0.5 mm<br> == '''SAMA5D3 Embedded Characteristics''' == === WDT === :*12-bit key-protected programmable counter<br> :*Watchdog Clock is independent from Processor Clock<br> :*Provides reset or interrupt signals to the system<br> :*Counter may be stopped while the processor is in debug state or in idle mode<br> === RTC === :*Ultra Low Power Consumption<br> :*Full Asynchronous Design<br> :*Gregorian Calendar up to 2099 <br> :*Programmable Periodic Interrupt<br> :*Safety/security features:<br> :**Valid Time and Date Programmation Check<br> === PIO === :*Up to 32 Programmable I/O Lines<br> :*Fully Programmable through Set/Clear Registers <br> :*Multiplexing of Four Peripheral Functions per I/O Line<br> :*For each I/O Line (Whether Assigned to a Peripheral or Used as General Purpose I/O)<br> :**Input Change Interrupt <br> :**Programmable Glitch Filter<br> :**Programmable Debouncing Filter<br> :**Multi-drive Option Enables Driving in Open Drain<br> :**Programmable Pull-Up on Each I/O Line<br> :**Pin Data Status Register, Supplies Visibility of the Level on the Pin at Any Time<br> :**Additional Interrupt Modes on a Programmable Event: Rising Edge, Falling Edge, Low-Level or High-Level<br> :**Lock of the Configuration by the Connected Peripheral<br> :*Synchronous Output, Provides Set and Clear of Several I/O Lines in a Single Write<br> :*Register Write Protection<br> :*Programmable Schmitt Trigger Inputs<br> :*Programmable I/O Drive<br> === LCDC === :*Dual AHB Master Interface <br> :*Supports Single Scan Active TFT Display<br> :*Supports 12-, 16-, 18- and 24-bit Output Mode through the Spatial Dithering Unit<br> :*Asynchronous Output Mode Supported (at synthesis time)<br> :*1, 2, 4, 8 bits per pixel (palletized)<br> :*12, 16, 18, 19, 24, 25 and 32 bits per pixel (non palletized)<br> :*Supports One Base Layer (background)<br> :*Supports Two Overlay Layer Windows<br> :*Supports One High End Overlay (HEO) Window<br> :*Supports One Hardware Cursor, Fixed or Free Size<br> :*Hardware Cursor Fixed Size on the following patterns: 32x32, 64x64 and 128x128<br> :*Little Endian Memory Organization<br> :*Programmable Timing Engine, with Integer Clock Divider<br> :*Programmable Polarity for Data, Line Synchro and Frame Synchro.<br> :*Display Size up to 2048x2048, or up to 720p in video format<br> :*Color Lookup Table with up to 256 entries and Predefined 8-bit Alpha<br> :*Programmable Negative and Positive Row Striding for all Layers<br> :*Programmable Negative and Positive Pixel Striding for all Overlay1, Overlay2 and HEO layers<br> :*High End Overlay supports 4:2:0 Planar Mode and Semiplanar Mode<br> :*High End Overlay supports 4:2:2 Planar Mode, Semiplanar Mode and Packed<br> :*High End Overlay includes Chroma Upsampling Unit<br> :*Horizontal and Vertical Rescaling unit with Edge Interpolation and Independent Non Integer Ratio<br> :*Hidden Layer Removal supported.<br> :*Integrates Fully Programmable Color Space Conversion<br> :*Overlay1, Overlay2 and High End Overlay Integrate Rotation Engine: 90, 180, 270<br> :*Blender Function Supports Arbitrary 8-bit Alpha Value and Chroma Keying<br> :*DMA User interface uses Linked List Structure and Add-to-queue Structure<br> === ISI === :*ITU-R BT. 601/656 8-bit Mode External Interface Support<br> :*Supports up to 12-bit Grayscale CMOS Sensors<br> :*Support for ITU-R BT.656-4 SAV and EAV Synchronization<br> :*Vertical and Horizontal Resolutions up to 2048*2048<br> :*Preview Path<br> :**Up to 2048*2048 in Grayscale Mode<br> :**Up to 640*480 in RGB Mode<br> :*32 Bytes FIFO on Codec Path<br> :*32 Bytes FIFO on Preview Path<br> :*Support for Packed Data Formatting for YCbCr 4:2:2 Formats<br> :*Preview Scaler to Generate Smaller Size image<br> :*Programmable Frame Capture Rate<br> :*VGA, QVGA, CIF, QCIF Formats Supported for LCD Preview<br> :*Custom Formats with Horizontal and Vertical Preview Size as Multiples of 16 Also Supported for LCD Preview<br> === UDPHS === :*1 Device High Speed<br> :*1 UTMI transceiver shared between Host and Device<br> :*USB v2.0 High Speed Compliant, 480 Mbit/s<br> :*16 Endpoints up to 1024 bytes<br> :*Embedded Dual-port RAM for Endpoints<br> :*Suspend/Resume Logic (Command of UTMI)<br> :*Up to Three Memory Banks for Endpoints (Not for Control Endpoint)<br> :*8 KBytes of DPRAM<br> === UHPHS === :*Compliant with Enhanced HCI Rev 1.0 Specification<br> :**Compliant with USB V2.0 High-speed <br> :**Supports High-speed 480 Mbps<br> :*Compliant with OpenHCI Rev 1.0 Specification<br> :**Compliant with USB V2.0 Full-speed and Low-speed Specification<br> :**Supports both Low-speed 1.5 Mbps and Full-speed 12 Mbps USB devices<br> :*Root Hub Integrated with 3 Downstream USB HS Ports <br> :*Embedded USB Transceivers<br> :*Supports Power Management<br> :*Hosts (A and B) High Speed (EHCI), Port A shared with UDPHS<br> === GMAC === :*Compatible with IEEE Standard 802.3<br> :*10, 100 and 1000 Mbps operation<br> :*Full and half duplex operation at all supported speeds of operation<br> :*Statistics Counter Registers for RMON/MIB<br> :*MII/GMII/RGMII interface to the physical layer<br> :*Integrated physical coding<br> :*Direct memory access (DMA) interface to external memory<br> :*Programmable burst length and endianism for DMA<br> :*Interrupt generation to signal receive and transmit completion, or errors<br> :*Automatic pad and cyclic redundancy check (CRC) generation on transmitted frames<br> :*Frame extension and frame bursting at 1000 Mbps in half duplex mode<br> :*Automatic discard of frames received with errors<br> :*Receive and transmit IP, TCP and UDP checksum offload. Both IPv4 and IPv6 packet types supported<br> :*Address checking logic for four specific 48-bit addresses, four type IDs, promiscuous mode, hash matching of <br> :*unicast and multicast destination addresses and Wake-on-LAN<br> :*Management Data Input/Output (MDIO) interface for physical layer management<br> :*Support for jumbo frames up to 10240 bytes<br> :*Full duplex flow control with recognition of incoming pause frames and hardware generation of transmitted pause <br> :*frames<br> :*Half duplex flow control by forcing collisions on incoming frames<br> :*Support for 802.1Q VLAN tagging with recognition of incoming VLAN and priority tagged frames<br> :*Support for 802.1Qbb priority-based flow control<br> :*Programmable Inter Packet Gap (IPG) Stretch <br> :*Recognition of IEEE 1588 PTP frames<br> :*IEEE 1588 time stamp unit (TSU)<br> :*Support for 802.1AS timing and synchronization<br> === EMAC === :*Supports RMII Interface to the physical layer<br> :*Compatible with IEEE Standard 802.3<br> :*10 and 100 Mbit/s Operation<br> :*Full-duplex and Half-duplex Operation<br> :*Statistics Counter Registers<br> :*Interrupt Generation to Signal Receive and Transmit Completion<br> :*DMA Master on Receive and Transmit Channels<br> :*Transmit and Receive FIFOs<br> :*Automatic Pad and CRC Generation on Transmitted Frames<br> :*Automatic Discard of Frames Received with Errors<br> :*Address Checking Logic Supports Up to Four Specific 48-bit Addresses<br> :*Supports Promiscuous Mode Where All Valid Received Frames are Copied to Memory<br> :*Hash Matching of Unicast and Multicast Destination Addresses<br> :*Physical Layer Management through MDIO Interface<br> :*Half-duplex Flow Control by Forcing Collisions on Incoming Frames<br> :*Full-duplex Flow Control with Recognition of Incoming Pause Frames <br> :*Support for 802.1Q VLAN Tagging with Recognition of Incoming VLAN and Priority Tagged Frames<br> :*Multiple Buffers per Receive and Transmit Frame<br> :*Wake-on-LAN Support<br> :*Jumbo Frames Up to 10240 bytes Supported<br> === HSMCI === :*Compatible with MultiMedia Card Specification Version 4.3<br> :*Compatible with SD Memory Card Specification Version 2.0<br> :*Compatible with SDIO Specification Version 2.0<br> :*Compatible with CE-ATA Specification 1.1<br> :*Cards Clock Rate Up to Master Clock Divided by 2<br> :*Boot Operation Mode Support<br> :*High Speed Mode Support<br> :*Embedded Power Management to Slow Down Clock Rate When Not Used<br> :*Supports 1 Multiplexed Slot(s)<br> :**Each Slot for either a High Speed MultiMedia Card Bus (Up to 30 Cards) or an SD Memory Card<br> :*Support for Stream, Block and Multi-block Data Read and Write<br> :*Supports Connection to DMA Controller (DMAC)<br> :**Minimizes Processor Intervention for Large Buffer Transfers<br> :*Built in FIFO (from 16 to 256 bytes) with Large Memory Aperture Supporting Incremental Access<br> :*Support for CE-ATA Completion Signal Disable Command<br> :*Protection Against Unexpected Modification On -the-Fly of the Configuration Registers<br> === SPI === :*Supports Communication with Serial External Devices<br> :**Master Mode can drive SPCK up to peripheral clock (bounded by maximum bus clock divided by 2)<br> :**Slave Mode operates on SPCK, asynchronously to Core and Bus Clock<br> :**Four Chip Selects with External Decoder Support Allow Communication with Up to 15 Peripherals<br> :**Serial Memories, such as DataFlash and 3-wire EEPROMs<br> :**Serial Peripherals, such as ADCs, DACs, LCD Controllers, CAN Controllers and Sensors<br> :**External Coprocessors<br> :*Master or Slave Serial Peripheral Bus Interface<br> :**8-bit to 16-bit Programmable Data Length Per Chip Select<br> :**Programmable Phase and Polarity Per Chip Select<br> :**Programmable Transfer Delay Between Consecutive Transfers and Delay before SPI Clock per Chip Select<br> :**Programmable Delay Between Chip Selects<br> :**Selectable Mode Fault Detection<br> :*Connection to DMA Channel Capabilities Optimizes Data Transfers<br> :**One channel for the Receiver, One Channel for the Transmitter<br> === TWI === :*3 TWIs <br> :*Compatible with Atmel Two-wire Interface Serial Memory and I²C Compatible Devices<br> :*One, Two or Three Bytes for Slave Address<br> :*Sequential Read-write Operations<br> :*Master, Multi-master and Slave Mode Operation<br> :*Bit Rate: Up to 400 Kbit/s<br> :*General Call Supported in Slave mode<br> :*SMBUS Quick Command Supported in Master Mode<br> :*Connection to DMA Controller (DMA) Channel Capabilities Optimizes Data Transfers<br> === SSC === :*Provides Serial Synchronous Communication Links Used in Audio and Telecom Applications <br> :*Contains an Independent Receiver and Transmitter and a Common Clock Divider<br> :*Interfaced with the DMA Controller (DMAC) to Reduce Processor Overhead<br> :*Offers a Configurable Frame Sync and Data Length<br> :*Receiver and Transmitter Can be Programmed to Start Automatically or on Detection of Different Events on the <br> :*Frame Sync Signal<br> :*Receiver and Transmitter Include a Data Signal, a Clock Signal and a Frame Synchronization Signal<br> === DBGU === :*System Peripheral to Facilitate Debug of Atmel® ARM®-based Systems <br> :*Composed of Four Functions<br> :**Two-pin UART<br> :**Debug Communication Channel (DCC) Support<br> :**Chip ID Registers<br> :**ICE Access Prevention<br> :*Two-pin UART<br> :**Implemented Features are USART Compatible <br> :**Independent Receiver and Transmitter with a Common Programmable Baud Rate Generator<br> :**Even, Odd, Mark or Space Parity Generation<br> :**Parity, Framing and Overrun Error Detection<br> :**Automatic Echo, Local Loopback and Remote Loopback Channel Modes<br> :**Interrupt Generation<br> :**Support for Two DMA Channels with Connection to Receiver and Transmitter<br> :*Debug Communication Channel Support<br> :**Offers Visibility of COMMRX and COMM TX Signals from the ARM Processor<br> :**Interrupt Generation<br> :*Chip ID Registers<br> :**Identification of the Device Revision, Sizes of the Embedded Memories, Set of Peripherals<br> :*ICE Access Prevention<br> :**Enables Software to Prevent System Access Through the ARM Processor’s ICE<br> :**Prevention is Made by Asserting the NTRST Line of the ARM Processor’s ICE<br> === UART === :*Two-pin UART<br> :**Independent Receiver and Transmitter with a Common Programmable Baud Rate Generator<br> :**Even, Odd, Mark or Space Parity Generation<br> :**Parity, Framing and Overrun Error Detection<br> :**Automatic Echo, Local Loopback and Remote Loopback Channel Modes<br> :**Interrupt Generation<br> :**Support for Two DMA Channels with Connection to Receiver and Transmitter<br> === USART === :*Programmable Baud Rate Generator<br> :*5- to 9-bit Full-duplex Synchronous or Asynchronous Serial Communications<br> :**1, 1.5 or 2 Stop Bits in Asynchronous Mode or 1 or 2 Stop Bits in Synchronous Mode<br> :**Parity Generation and Error Detection<br> :**Framing Error Detection, Overrun Error Detection<br> :**MSB- or LSB-first<br> :**Optional Break Generation and Detection<br> :**By 8 or by 16 Over-sampling Receiver Frequency<br> :**Optional Hardware Handshaking RTS-CTS<br> :**Receiver Time-out and Transmitter Timeguard<br> :**Optional Multidrop Mode with Address Generation and Detection<br> :*RS485 with Driver Control Signal<br> :*ISO7816, T = 0 or T = 1 Protocols for Interfacing with Smart Cards<br> :**NACK Handling, Error Counter with Repetition and Iteration Limit<br> :**IrDA Modulation and Demodulation<br> :**Communication at up to 115.2 Kbps<br> :*SPI Mode<br> :**Master or Slave<br> :**Serial Clock Programmable Phase and Polarity<br> :**SPI Serial Clock (SCK) Frequency up to Internal Clock Frequency MCK/6<br> :*Test Modes<br> :**Remote Loopback, Local Loopback, Automatic Echo<br> :*Supports Connection of:<br> :**Two DMA Controller Channels (DMAC)<br> :*Offers Buffer Transfer without Processor Intervention<br> === CAN === :*Fully Compliant with CAN 2.0 Part A and 2.0 Part B<br> :*Bit Rates up to 1 Mbit/s<br> :*8 Object Oriented Mailboxes with the Following Properties:<br> :**CAN Specification 2.0 Part A or 2.0 Part B Programmable for Each Message<br> :**Object Configurable in Receive (with Overwrite or Not) or Transmit Modes<br> :**Independent 29-bit Identifier and Mask Defined for Each Mailbox<br> :**32-bit Access to Data Registers for Each Mailbox Data Object<br> :**Uses a 16-bit Timestamp on Receive and Transmit Messages<br> :**Hardware Concatenation of ID Masked Bitfields To Speed Up Family ID Processing<br> :*16-bit Internal Timer for Timestamping and Network Synchronization<br> :*Programmable Reception Buffer Length up to 8 Mailbox Objects<br> :*Priority Management between Transmission Mailboxes<br> :*Autobaud and Listening Mode<br> :*Low Power Mode and Programmable Wake-up on Bus Activity or by the Application<br> :*Data, Remote, Error and Overload Frame Handling<br> :*Write Protected Registers<br> === PWM === :*Channels<br> :*Common Clock Generator Providing Thirteen Different Clocks <br> :**A Modulo n Counter Providing Eleven Clocks<br> :**Two Independent Linear Dividers Working on Modulo n Counter Outputs<br> :*Independent Channels<br> :**Independent 16-bit Counter for Each Channel<br> :**Independent Complementary Outputs with 12-bit Dead-Time Generator (Also Called Dead-Band or Non-Overlapping Time) for Each Channel<br> :**Independent Enable Disable Command for Each Channel<br> :**Independent Clock Selection for Each Channel<br> :**Independent Period, Duty-Cycle and Dead-Time for Each Channel<br> :**Independent Double Buffering of Period, Duty-Cycle and Dead-Times for Each Channel<br> :**Independent Programmable Selection of The Output Waveform Polarity for Each Channel<br> :**Independent Programmable Center or Left Aligned Output Waveform for Each Channel<br> :**Independent Output Override for Each Channel<br> :**Independent Interrupt for Each Channel, at Each Period for Left-Aligned or Center-Aligned Configuration <br> :*2 2-bit Gray Up/Down Channels for Stepper Motor Control<br> :*Synchronous Channel Mode<br> :**Synchronous Channels Share the Same Counter <br> :**Mode to Update the Synchronous Channels Registers after a Programmable Number of Periods<br> :*2 Independent Events Lines Intended to Synchronize ADC Conversions<br> :**Programmable delay for Events Lines to delay ADC measurements<br> :*8 Comparison Units Intended to Generate Interrupts, Pulses on Event Lines<br> :*1 Programmable Fault/Break Inputs Providing an Asynchronous Protection of PWM Outputs<br> :**4 User Driven through PIO inputs<br> :**PMC Driven when Crystal Oscillator Clock Fails<br> :**ADC Controller Driven through Configurable Comparison Function<br> :*Write Protected Registers<br> === ADC === :*12-bit Resolution <br> :*1 MHz Conversion Rate<br> :*Wide Range Power Supply Operation<br> :*Selectable Single Ended or Differential Input Voltage<br> :*Programmable Gain For Maximum Full Scale Input Range 0 - VDD<br> :*Resistive 4-wire and 5-wire Touchscreen Controller<br> :**Position and Pressure Measurement for 4-wire screens<br> :**Position Measurement for 5-wire screens<br> :**Average of up to 8 measures for noise filtering<br> :*Programmable Pen Detection sensitivity<br> :*Integrated Multiplexer Offering Up to 12 Independent Analog Inputs<br> :*Individual Enable and Disable of Each Channel<br> :*Hardware or Software Trigger<br> :**External Trigger Pin<br> :**Timer Counter Outputs (Corresponding TIOA Trigger)<br> :**Internal Trigger Counter<br> :**Trigger on Pen Contact Detection<br> :**PWM Event Line<br> :*Drive of PWM Fault Input<br> :*DMA Support<br> :*Possibility of ADC Timings Configuration<br> :*Two Sleep Modes and Conversion Sequencer<br> :**Automatic Wakeup on Trigger and Back to Sleep Mode after Conversions of all Enabled Channels<br> :**Possibility of Customized Channel Sequence<br> :*Standby Mode for Fast Wakeup Time Response<br> :**Power Down Capability<br> :*Automatic Window Comparison of Converted Values<br> :**Write Protect Registers<br>
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NXP平台:
MYZR-IMX6-EK200
MYZR-IMX6-EK200(EN)
MYZR-IMX6-EK314
MYZR-IMX6-EK314(EN)
MYZR-IMX6-EK336
MYZR-IMX6-EK336(EN)
MYZR-IMX6-EK140
MYZR-IMX6-EK140(EN)
MYZR-IMX6-EK140P
MYZR-IMX6-EK140P(EN)
MYZR-IMX8M-EK300
MYZR-IMX8M-EK300(EN)
MYZR-IMX8M-EVK
MYZR-IMX8Mmini-EK240
MYZR-IMX8Mmini-EK240(EN)
MYZR-IMX28-EK142
MYZR-IMX28-EK142(EN)
MYZR-LS1012A-EK200
MYZR-LS1012A-EK200(EN)
Rockchip平台:
MYZR-RK3288-EK314
MYZR-RK3288-EK314(EN)
MYZR-RK3399-EK314
MYZR-RK3399-EK314(EN)
Allwinner平台:
MYZR-R16-EK166
MYZR-R16-EK166(EN)
Microchip平台:
MYZR-SAMA5-EK200
MYZR-SAMA5-EK200(EN)
网关产品:
GW200
GW300
GW310/GW311
ST平台:
MYZR-STM32-EK152
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