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参数资料
| 型号: | ADSP-BF533SBBC500 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 8/64页 |
| 文件大小: | 0K |
| 描述: | IC DSP CTLR 16B 500MHZ 160CSPBGA |
| 产品培训模块: | Blackfin® Processor Core Architecture Overview Blackfin® Device Drivers Blackfin® Optimizations for Performance and Power Consumption Blackfin® System Services |
| 标准包装: | 1 |
| 系列: | Blackfin® |
| 类型: | 定点 |
| 接口: | SPI,SSP,UART |
| 时钟速率: | 500MHz |
| 非易失内存: | ROM(1 kB) |
| 芯片上RAM: | 148kB |
| 电压 - 输入/输出: | 3.30V |
| 电压 - 核心: | 1.20V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 160-LFBGA,CSPBGA |
| 供应商设备封装: | 160-CSPBGA(12x12) |
| 包装: | 托盘 |
| 配用: | ADZS-BFAUDIO-EZEXT-ND - BOARD EVAL AUDIO BLACKFIN ADZS-BFAV-EZEXT-ND - BOARD DAUGHT ADSP-BF533,37,61KIT ADZS-BF533-EZLITE-ND - KIT W/BOARD EVAL FOR ADSP-BF533 |
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�ADSP-BF531� /� ADSP-BF532� /� ADSP-BF533�
�?� CEC� interrupt� pending� register� (IPEND)� –� The� IPEND�
�register� keeps� track� of� all� nested� events.� A� set� bit� in� the�
�IPEND� register� indicates� the� event� is� currently� active� or�
�nested� at� some� level.� This� register� is� updated� automatically�
�by� the� controller� but� can� be� read� while� in� supervisor� mode.�
�The� SIC� allows� further� control� of� event� processing� by� providing�
�three� 32-bit� interrupt� control� and� status� registers.� Each� register�
�contains� a� bit� corresponding� to� each� of� the� peripheral� interrupt�
��?� SIC� interrupt� mask� register� (SIC_IMASK)� –� This� register�
�controls� the� masking� and� unmasking� of� each� peripheral�
�interrupt� event.� When� a� bit� is� set� in� this� register,� that�
�peripheral� event� is� unmasked� and� is� processed� by� the� sys-�
�tem� when� asserted.� A� cleared� bit� in� this� register� masks� the�
�peripheral� event,� preventing� the� processor� from� servicing�
�the� event.�
�?� SIC� interrupt� status� register� (SIC_ISR)� –� As� multiple�
�peripherals� can� be� mapped� to� a� single� event,� this� register�
�allows� the� software� to� determine� which� peripheral� event�
�source� triggered� the� interrupt.� A� set� bit� indicates� the�
�peripheral� is� asserting� the� interrupt,� and� a� cleared� bit� indi-�
�cates� the� peripheral� is� not� asserting� the� event.�
�?� SIC� interrupt� wakeup� enable� register� (SIC_IWR)� –� By�
�enabling� the� corresponding� bit� in� this� register,� a� peripheral�
�can� be� configured� to� wake� up� the� processor,� should� the�
�core� be� idled� when� the� event� is� generated.� See� Dynamic�
��Because� multiple� interrupt� sources� can� map� to� a� single� general-�
�purpose� interrupt,� multiple� pulse� assertions� can� occur� simulta-�
�neously,� before� or� during� interrupt� processing� for� an� interrupt�
�event� already� detected� on� this� interrupt� input.� The� IPEND� reg-�
�ister� contents� are� monitored� by� the� SIC� as� the� interrupt�
�acknowledgement.�
�The� appropriate� ILAT� register� bit� is� set� when� an� interrupt� rising�
�edge� is� detected� (detection� requires� two� core� clock� cycles).� The�
�bit� is� cleared� when� the� respective� IPEND� register� bit� is� set.� The�
�IPEND� bit� indicates� that� the� event� has� entered� into� the� proces-�
�sor� pipeline.� At� this� point� the� CEC� recognizes� and� queues� the�
�next� rising� edge� event� on� the� corresponding� event� input.� The�
�minimum� latency� from� the� rising� edge� transition� of� the�
�general-purpose� interrupt� to� the� IPEND� output� asserted� is� three�
�core� clock� cycles;� however,� the� latency� can� be� much� higher,�
�depending� on� the� activity� within� and� the� state� of� the� processor.�
�DMA� CONTROLLERS�
�The� ADSP-BF531/ADSP-BF532/ADSP-BF533� processors� have�
�multiple,� independent� DMA� channels� that� support� automated�
�data� transfers� with� minimal� overhead� for� the� processor� core.�
�DMA� transfers� can� occur� between� the� processor’s� internal�
�memories� and� any� of� its� DMA-capable� peripherals.� Addition-�
�ally,� DMA� transfers� can� be� accomplished� between� any� of� the�
�DMA-capable� peripherals� and� external� devices� connected� to� the�
�external� memory� interfaces,� including� the� SDRAM� controller�
�and� the� asynchronous� memory� controller.� DMA-capable�
�peripherals� include� the� SPORTs,� SPI� port,� UART,� and� PPI.� Each�
�individual� DMA-capable� peripheral� has� at� least� one� dedicated�
�DMA� channel.�
�The� DMA� controller� supports� both� 1-dimensional� (1-D)� and� 2-�
�dimensional� (2-D)� DMA� transfers.� DMA� transfer� initialization�
�can� be� implemented� from� registers� or� from� sets� of� parameters�
�called� descriptor� blocks.�
�The� 2-D� DMA� capability� supports� arbitrary� row� and� column�
�sizes� up� to� 64K� elements� by� 64K� elements,� and� arbitrary� row�
�and� column� step� sizes� up� to� ±32K� elements.� Furthermore,� the�
�column� step� size� can� be� less� than� the� row� step� size,� allowing�
�implementation� of� interleaved� data� streams.� This� feature� is�
�especially� useful� in� video� applications� where� data� can� be�
�de-interleaved� on� the� fly.�
�Examples� of� DMA� types� supported� by� the� DMA� controller�
�include:�
�?� A� single,� linear� buffer� that� stops� upon� completion�
�?� A� circular,� autorefreshing� buffer� that� interrupts� on� each�
�full� or� fractionally� full� buffer�
�?� 1-D� or� 2-D� DMA� using� a� linked� list� of� descriptors�
�?� 2-D� DMA� using� an� array� of� descriptors,� specifying� only� the�
�base� DMA� address� within� a� common� page�
�In� addition� to� the� dedicated� peripheral� DMA� channels,� there� are�
�two� pairs� of� memory� DMA� channels� provided� for� transfers�
�between� the� various� memories� of� the� processor� system.� This�
�enables� transfers� of� blocks� of� data� between� any� of� the� memo-�
�ries—including� external� SDRAM,� ROM,� SRAM,� and� flash�
�memory—with� minimal� processor� intervention.� Memory� DMA�
�transfers� can� be� controlled� by� a� very� flexible� descriptor-based�
�methodology� or� by� a� standard� register-based� autobuffer�
�mechanism.�
�REAL-TIME� CLOCK�
�The� processor� real-time� clock� (RTC)� provides� a� robust� set� of�
�digital� watch� features,� including� current� time,� stopwatch,� and�
�alarm.� The� RTC� is� clocked� by� a� 32.768� kHz� crystal� external� to�
�the� ADSP-BF531/ADSP-BF532/ADSP-BF533� processors.� The�
�RTC� peripheral� has� dedicated� power� supply� pins� so� that� it� can�
�remain� powered� up� and� clocked� even� when� the� rest� of� the� pro-�
�cessor� is� in� a� low� power� state.� The� RTC� provides� several�
�programmable� interrupt� options,� including� interrupt� per� sec-�
�ond,� minute,� hour,� or� day� clock� ticks,� interrupt� on�
�programmable� stopwatch� countdown,� or� interrupt� at� a� pro-�
�grammed� alarm� time.�
�The� 32.768� kHz� input� clock� frequency� is� divided� down� to� a� 1� Hz�
�signal� by� a� prescaler.� The� counter� function� of� the� timer� consists�
�of� four� counters:� a� 60� second� counter,� a� 60� minute� counter,� a�
�24� hour� counter,� and� a� 32,768� day� counter.�
�When� enabled,� the� alarm� function� generates� an� interrupt� when�
�the� output� of� the� timer� matches� the� programmed� value� in� the�
�alarm� control� register.� The� two� alarms� are� time� of� day� and� a� day�
�and� time� of� that� day.�
�Rev.� I�
�|�
�Page� 8� of� 64� |�
�August� 2013�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| ADSPBF533SBBC-500 | 制造商:Analog Devices 功能描述:Dual MAC16-bit500MHz 148KB SRAM |
| ADSPBF533SBBC500X | 制造商:Analog Devices 功能描述: |
| ADSP-BF533SBBC-500X | 制造商:Analog Devices 功能描述: |
| ADSP-BF533SBBC-5V | 功能描述:IC DSP CTLR DUAL 160CSPBGA RoHS:否 类别:集成电路 (IC) >> 嵌入式 - DSP(数字式信号处理器) 系列:Blackfin® 标准包装:2 系列:StarCore 类型:SC140 内核 接口:DSI,以太网,RS-232 时钟速率:400MHz 非易失内存:外部 芯片上RAM:1.436MB 电压 - 输入/输出:3.30V 电压 - 核心:1.20V 工作温度:-40°C ~ 105°C 安装类型:表面贴装 封装/外壳:431-BFBGA,FCBGA 供应商设备封装:431-FCPBGA(20x20) 包装:托盘 |
| ADSP-BF533SBBC-C10 | 制造商:Analog Devices 功能描述: |
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