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MPC8280多通道HDLC控制器的应用1 概述时分复用是当前同步通信系统中用以提高数据传输效率的常用方法。
例如第2代移动通信GSM系统,光同步传输网SDH等都是使用时分复用的例子。
在现代通信设备的研发中,常常会遇到高速背板通信、多协议接口、网络管理信令通道等需要同时处理多个同步通信接口数据的情况。
本文介绍了一种采用MPC8280处理器芯片内部的多通道通信控制单元,来处理多个同步通信接口数据的方法。
MPC8280是飞思卡尔公司PowerQUICC II产品线的较新成员。
它采用0.13 μm工艺制造。
内核、I/O的供电电压分别为1.5 V、3.3 V。
MPC8280相比该公司的MPC8260,制造工艺和工作频率均有所提升,但因为核心电压下降,功耗反而下降。
而且,MPC8280片内的DPRAM(双口静态存储器)容量增加了一倍,此外还增加了PCI 和USB。
MPC8280芯片由主内核、SIU、CPM等3个主要功能模块组成,。
MPC8280的处理器主内核称为G2_LE,它是一种PowerPC架构的多级流水线超标量处理器。
MPC8280内核运行频率为166~450 MHz。
SIU模块主要负责60x总线控制、PCI桥及时钟产生。
CPM模块负责处理通信事务,即处理SCC、SMC、FCC、MCC、USB、SPI、I2C等通信控制单元收发数据。
本文所述的多通道HDLC控制器即采用CPM下的MCC(多通道控制器)通信控制单元来实现。
MPC8280片内集成的静态存储器包括DPRAM、全局配置寄存器、SI RAM(串行接口路由表配置空间)。
其中,第1块32 KB的数据DPRAM空间被等分成16个bank(存储空间块)。
CPM 中的通信控制单元除了使用全局配置寄存器进行最基本的参数配置外,还须使用参数配置存储区块进一步配置。
一般CPM中每个通信控制单元都有2个参数配置存储区块,参数配置存储区块均定位在DPRAM中的指定地址。
波纹粹s2参数摘要:1.波纹粹S2参数简介2.波纹粹S2性能特点3.波纹粹S2应用领域4.波纹粹S2的优势与竞争力5.波纹粹S2的市场前景正文:波纹粹S2是一款高性能的设备,其参数和性能特点备受关注。
以下将详细介绍波纹粹S2的参数、性能、应用领域、优势与竞争力以及市场前景。
一、波纹粹S2参数简介波纹粹S2设备参数主要包括:处理器、内存、存储、显示器、摄像头、电池等。
在这些参数中,处理器采用高性能芯片,内存和存储可根据不同需求进行选择,显示器具有高清晰度和良好触控体验,摄像头满足日常拍照和视频需求,电池则保证长时间使用不间断。
二、波纹粹S2性能特点1.处理器:波纹粹S2搭载高性能处理器,能够轻松应对各种应用和操作,带来流畅的运行体验。
2.内存和存储:可根据用户需求选择合适的内存和存储容量,保证设备在高负荷运行时仍能保持稳定。
3.显示器:高清晰度显示器带来极致的视觉体验,配合良好触控体验,满足用户在各种场景下的使用需求。
4.摄像头:波纹粹S2配备的摄像头具备高清拍照和视频功能,满足用户日常拍照、录像需求。
5.电池:高性能电池保证设备长时间运行不间断,满足用户在外出、办公等场景下的使用需求。
三、波纹粹S2应用领域波纹粹S2凭借其高性能和丰富功能,广泛应用于个人和企业领域。
个人用户可应用于娱乐、办公、学习等场景,企业用户可将其用于业务拓展、项目管理、数据处理等场景。
四、波纹粹S2的优势与竞争力1.性能优势:波纹粹S2在处理器、内存、存储、显示器等方面均具备高性能,为用户提供极致的使用体验。
2.功能丰富:波纹粹S2配备高清摄像头,满足用户拍照、录像需求,同时具备多种实用功能,满足用户在不同场景下的使用需求。
3.续航能力:高性能电池保证设备长时间运行不间断,满足用户在外出、办公等场景下的使用需求。
4.品牌竞争力:波纹粹S2凭借优良的性能和口碑,在市场上具有较高的竞争力。
五、波纹粹S2的市场前景随着科技的发展和市场需求的变化,高性能设备越来越受到用户的青睐。
CPCI总线主控板的设计实现【摘要】本文介绍了一种CPCI总线主控板的设计实现,该主控板采用飞思卡尔半导体公司的RISC微处理器MPC8548E,结合FW21154BE PCI-to-PCI 桥接芯片、DDRII、千兆网PHY和CPLD控制电路等其他电路。
主控板提供多种标准接口,移植VxWorks操作系统,性能稳定可靠。
【关键词】CPCI总线主控板;MPC8548E;VxWorks0.引言MPC8548E型CPCI总线主控板的主要功能是完成对信号处理机的网络和串口等系统信息控制、交换、信号处理板的软件加载等。
它采用的Compact PCI(简称CPCI)总线,该总线具有高带宽、高性能、高可靠性、即插即用、价格低廉等诸多优点,在板极实现上使用飞思卡尔半导体公司的RISC 微处理器MPC8548E。
MPC8548E 是飞思卡尔新一代的PowerQUICC III处理器,应用先进的90纳米绝缘硅(SoI)铜连线工艺,基于e500PowerPC 系统级芯片平台,结构简单,将CPU和桥接功能合为一体,具有千兆级网络功能,是最为苛刻的高速连接应用的理想选择。
1.主控板硬件设计1.1 CPCI总线主控板结构特性基于CPCI总线的MPC8548E型主控板的原理框图如图1所示,主要有以下几方面特性:(1)CPU是MPC8548E,主频可配,最高可达1.2GHz。
(2)512MB DDR2 SDRAM,频率为533MHz。
(3)48MB 的Flash,32KB的nvSRAM。
(4)一个32-bits的PCI总线,总线时钟33MHz,提供系统扩展。
(5)3个10/100/1000Mbsp以太网口。
(6)四个背板引出的RS232/RS422串口,一个RS232微型串口及16-bits 的TTL通用口。
(7)四个通道的DMA控制器。
(8)标准CPCI总线、标准6U尺寸。
(9)工作环境温度:-40℃-+80℃。
(10)功耗:CPU工作频率533MHz,整板功耗约11W。
DATASHEETOverview IC Compiler™ II is the industry leading place and route solution that delivers best-in-class quality-of-results (QoR) for next-generation designs across all market verticals and process technologies while enabling unprecedented productivity. IC Compiler II includes innovative for flat and hierarchical design planning, early design exploration, congestion aware placement and optimization, clock tree synthesis, advanced node routing convergence, manufacturing compliance, and signoff closure.IC Compiler II is specifically architected to address aggressive performance, power, area (PPA), and time-to-market pressures of leading-edge designs. Key technologies include a pervasively parallel optimization framework, multi-objective global placement, routing driven placement optimization, full flow Arc based concurrent clock and data optimization, total power optimization, multi-pattern and FinFET aware flow and machine learning (ML) driven optimization for fast and predictive design closure. Advanced Fusion technologies offer signoff IR drop driven optimization, PrimeTime ® delay calculation within IC Compiler II, exhaustive path-based analysis (PBA) and signoff ECO within place and route for unmatched QoR and design convergence. F U S I O N D E S I G N P L A T F O R M PrimeTime, StarRC, PrimePower,IC Validator, RedHawk Analysis Fusion Fusion Compiler IC Compiler II Design Compiler NXT TestMAX F o r m a l i t y ECO Fusion S i g n o f f F u s i o n S i g n o f f F u s i o n Test Fusion Figure 1: IC Compiler II Anchor in Synopsys Design PlatformAccelerating DesignClosure on AdvancedDesignsIC Compiler II Industry Leading Place and Route SystemKey BenefitsProductivity• The highest capacity solution that supports 500M+ instances with a scalable and compact data model• A full suite of design planning features including transparent hierarchical optimization• Out-of-the-box simple reference methodology for easy setup• Multi-threaded and distributed computing for all major flow steps• Golden signoff accuracy with direct access to PrimeTime delay calculationPPA• Unified TNS driven optimization framework• Congestion, timing, and power-driven logic re-synthesis• IEEE 1801 UPF/multi-voltage support• Arc-based concurrent clock and data optimization• Global minima driven total power optimizationAdvanced Nodes• Multi-pattern and FinFET aware design flow• Next generation advanced 2D placement and legalization• Routing layer driven optimization, auto NDR, and via pillar optimization• Machine learning driven congestion prediction and DRC closure• Highest level of foundry support and certification for advanced process nodes• IC Validator in the loop signoff driven DRC validation and fixingAdvanced Fusion Technology• Physically aware logic re-synthesis• IR drop driven optimization during all major flow steps• PrimeTime delay calculation based routing optimization for golden accuracy• Integrated PrimeTime ECO flow during routing optimization for fastest turnaround timeEmpowering Design Across Diversified ApplicationsThe dizzying pace of innovation and highly diversified applications across the design spectrum is forcing a complete rethink of the place and route systems to design and implement differentiated designs in a highly competitive semiconductor market on schedule. Designers on emerging process nodes must meet aggressive PPA and productivity goals. It essentially means efficient and intelligent handling of 100s of millions of place-able instances, multiple levels of hierarchy, 1000s of hard macros, 100s of clocks, wide busses, and 10s of modes and corners power domains and complex design constraints and process technology mandates. Emphasis on Designer ProductivityIC Compiler II is architected from the ground up for speed and scalability. Its hierarchical data model consumes 2-3X less memory than conventional tools, boosting the limits of capacity to 500M placeable instances and beyond. Adaptive abstraction and on-the-fly data management minimize memory requirements and enable fast responsive data manipulation. Near-linear multi-core threading of key infrastructural components and core algorithms such as database access and timing analysis speed up optimization at all phases of design. Patented, lossless compact modeling and independent R and C extraction allow handling more modes and corners (MCMM scenarios) with minimal runtime impact.IC Compiler II has built-in Reference Methodology(RM) that ensures fast flow bring up. This RM Flow is Foundry Process/Design Type specific to ensure a robust starting point and seamless bring up. IC Compiler II has direct access to the Golden PrimeTime delay calculation engine to minimize ECO iterations.IC Compiler II’s new data model enables designers to perform fast exploration and floorplanning with complex layout requirements. IC Compiler II can create bus structures, handle designs with n-levels of physical hierarchy, and support Multiply Instantiated Blocks (MIBs) in addition to global route driven pin assignment/feedthrough flow, timing driven macro placement, MV area design planning.A design data mismatch inferencing engine analyzes the quality of inputs and drives construct creation on the fly, delivering design insights even with “incomplete” data early in the design cycle. Concurrent traversal of logical and physical data models enables hierarchical Data-Flow Analysis (DFA) and fast interactive analysis through multi-level design hierarchies and MIBs. Data flow and feedthrough paths highlighted in Figure 2 allow analysis and manipulation through n-levels of hierarchy to complete early design exploration and prototyping.Figure 2: Fast interactive analysis through multiple-levels of physical hierarchy and MIBPipeline-register-planning shown in Figure 3, provides guidance for optimal placement to meet the stringent timing requirementsof high-performance designs. Interactive route editor integrated which is advanced node aware shown in Figure 4, allows intricate editing and routing functions, including the creation of special signal routes, buses, etc.Figure 3: Pipeline register placement enables superior QoR for designs with complex busesAchieving Best Performance, Power, Area, and TATIC Compiler II features a new optimization framework built on global analytics. This Unified TNS Driven Optimization framework is shared with Design Compiler NXT synthesis to enable physically-aware synthesis, layer assignment, and route-based optimization for improved PPA and TAT. Multi-Corner Multi-Mode (MCMM) and Multi-Voltage (MV) aware, level-based analytical algorithms continuously optimize using parallel heuristic algorithms. Multi-factor costing functions deliver faster results on both broad and targeted design goals. Concurrent PPA driven logic remapping, rewiring, and legalization interleaved with placement minimizes congested logic, resulting in simple localized logic cones that maximize routability and QoR.IC Compiler II minimizes leakage with fast and efficient cell-by-cell power selection across HVT, SVT and LVT cells and varying channel lengths. Activity-driven power optimization uses VCD/ SAIF, net toggle rates, or probability functions to drive placement decisions and minimize pin capacitances. Multi-bit register banking optimizes clock tree structures, reduces area, and net length, while automatically managing clock, data, and scan chain connections.Advanced modeling of congestion across all layers highlighted in Figure 4 provides accurate feedback throughput the flow from design planning to post- route optimization.Figure 4: Intelligent and accurate analysis for congestion and powerIC Compiler II introduces a new Concurrent Clock and Data (CCD) analysis and optimization engine that is built-in to every flow step resulting in meeting both aggressive performance and minimizing total power footprint. ARC-based CCD optimization performs clock tree traversal across all modes/corners in path-based fashion to ensure optimal delay budgeting.Robust support for clock distribution enables virtually any clock style, including mesh, multi-source, or H-tree topologies. Advanced analysis and debugging features perform accurate clock QoR analysis and debugging as highlighted in Figure 5.Figure 5: Accurate clock QoR analysis and debugging (a & b) Abstracted clock graph and schematic.(c) Latency clock graph. (d) Colored clock tree in layout.IC Compiler II features many innovative technologies that make it the ideal choice for high-performance, energy-efficient Arm®processor core implementation, resulting in industry-best milliwatts/megahertz (mW/MHz) for mobile and other applications across the board. Synopsys and Arm work closely together to offer optimized implementation of popular Arm cores for IC Compiler II,with reference flows available for Arm Cortex®-A high-performance processors and Mali GPUs. In addition, Arm offers off-the-shelf Artisan® standard cell and memory models that have been optimally tuned and tested for fast deployment in an IC Compiler II environment. Continuous technology innovation and close collaboration makes IC Compiler II the leading choice for Arm-based high- performance design.Highest Level of Advanced Node Certification and SupportIC Compiler II provides advanced node design enablement across major foundries and technology nodes—including 16/14nm,12/10nm, 7/5nm, and sub-5nm geometries. Zroute digital router technology ensures early and full compliance with the latest design rules required for these advanced node technologies. Synopsys collaborates closely with all the leading foundries to ensure that IC Compiler II is the first to deliver support for early prototype design rules and support for the final production design rules. IC Compiler II design technologies maximize the benefits of new process technologies and offer optimal return on investment for cutting-edge silicon applications.IC Compiler II advanced node design support includes multi-pattern/FinFET aware placement and routing, Next-generation advanced 2D placement and legalization, routing layer driven optimization, auto NDR, and via pillar optimization. IC Validator in the loop provides signoff DRC feedback during Implementation.Foundry fill Track based fillFigure 6: IC Validator In-Design metal fill color aware metal fill, optimized for density and foundry requirementsMachine learning driven congestion prediction and DRC closure allow for fastest routing convergence with best PPA. Multiple sets of training data are used to extract key predictive elements that guide the pre-route flow.Advanced Fusion TechnologyThe Fusion Design Platform™ delivers unprecedented full-flow QoR and time-to-results (TTR) to accelerate the next wave of semiconductor industry innovation. The industry’s first AI-enhanced, cloud-ready Design Platform with Fusion Technology™ isbuilt from Synopsys’ market-leading, massively-parallel digital design tools, and augmented with innovative capabilities to tacklethe escalating challenges in cloud computing, automotive, mobile, and IoT market segments and accelerate the next wave of industry innovation.Fusion Technology redefines conventional EDA tool boundaries across synthesis, place-and-route, and signoff, sharing integrated engines across the industry’s premier digital design products. It enables designers to accelerate the delivery of their next-generation designs with the industry-best QoR and the TTR.©2019 Synopsys, Inc. All rights reserved. Synopsys is a trademark of Synopsys, Inc. in the United States and other countries. A list of Synopsys trademarks isavailable at /copyright.html . All other names mentioned herein are trademarks or registered trademarks of their respective owners.。
PowerQUICC II proFreescaleFreescale前身为摩托罗拉半导体,2004年分拆后成为独立公司,2006年底被私募基金以176亿美金收购并私有化, 是全球前20大半导体公司之一,高峰时年销售额超过60亿美金。
公司总部位于美国德州,全球员工超过两万名。
Freescale产品在汽车电子、通信网络等领域有很强的优势。
PowerQUICC II pro介绍它采用片上系统(SoC)架构,集成了增强e300核和先进的特性如DDR存储器,双吉比特以太网,双PCI和高速USB控制器。
时钟速率可高达667 MHz,是最高性能的PowerQUICC II器件。
MPC8349E可广泛应用在以太网路由器和交换器,无线LAN (WLAN)设备,网络存储,家庭网络,工业控制以及复印机,打印机和其它图像设备。
本文介绍了MPC8349E的主要性能和方框图以及MPC8349-mITX数字家庭參考设计平台的主要性能和方框图。
PowerQUICC II pro产品价格产品型号产品描述价格$MPC8308VMAGD MPU POWERQUICC II PRO473MAPBGA 19.94MPC8343VRAGDB IC MPU POWERQUICC II 620-PBGA 48.432 MPC8343EVRAGDB IC MPU POWERQUICC II 620-PBGA 48.727 MPC8360CZUAJDG IC MPU POWERQUICC II 740-TBGA 60.084MPC8347CVVAGDB IC MPU POWERQUICC II PRO672TBGA 60.432MPC8347VVAJFB IC MPU POWERQUICC II 672-TBGA 82.958 MPC8347VVALFB IC MPU POWERQUICC II 672-TBGA 85.582 MPC8349VVALFB IC MPU POWERQUICC II 672-TBGA 97.516 MPC8349EVVAJFB IC MPU POWERQUICC II 672-TBGA 107.171 MPC8349EVVALFB IC MPU POWERQUICC II 672-TBGA 109.273MPC8308VMADD MPU POWERQUICC II PRO473MAPBGA 13.926MPC8308VMAFD MPU POWERQUICC II PRO473MAPBGA 16.739MPC8308CVMAFD MPU POWERQUICC II PRO473MAPBGA 20.192MPC8321VRADDC IC MPU PWRQUICC II 516-PBGA 20.551 MPC8321VRAFDC IC MPU PWRQUICC II 516-PBGA 20.559 MPC8314VRADDA MPU POWERQUICC II PRO 620-PBGA19.708 MPC8321EVRAFDC IC MPU PWRQUICC II 516-PBGA 22.294MPC8313CZQAFFB IC MPU POWERQUICC II PRO516PBGA 26.77MPC8315VRADDA MPU POWERQUICC II PRO 620-PBGA22.572 MPC8321ECVRADDC IC MPU PWRQUICC II 516-PBGA 23.639MPC8313EZQAFFB IC MPU POWERQUICC II PRO516PBGA 27.54MPC8314CVRADDA MPU POWERQUICC II PRO 620-PBGA28.854 MPC8314EVRADDA MPU POWERQUICC II PRO 620-PBGA24.732 MPC8314VRAFDA MPU POWERQUICC II PRO 620-PBGA25.419 MPC8315VRAFDA MPU POWERQUICC II PRO 620-PBGA30.027MPC8313ECZQAFFB IC MPU POWERQUICC II PRO516PBGA 26.987MPC8315CVRADDA MPU POWERQUICC II PRO 620-PBGA32.542 MPC8315EVRADDA MPU POWERQUICC II PRO 620-PBGA25.568 MPC8314CVRAFDA MPU POWERQUICC II PRO 620-PBGA31.6 MPC8314ECVRADDA MPU POWERQUICC II PRO 620-PBGA28.045 MPC8314EVRAFDA MPU POWERQUICC II PRO 620-PBGA28.44MPC8323EVRAFDC IC MPU POWERQUICC II 516-PBGA 31.677 MPC8323EZQAFDC IC MPU POWERQUICC II 516-PBGA 34.178 MPC8315CVRAFDA MPU POWERQUICC II PRO 620-PBGA27.696 MPC8315EVRAFDA MPU POWERQUICC II PRO 620-PBGA28.549 MPC8314EVRAGDA MPU POWERQUICC II PRO 620-PBGA29.413 MPC8315ECVRADDA MPU POWERQUICC II PRO 620-PBGA31.192 MPC8314ECVRAFDA MPU POWERQUICC II PRO 620-PBGA34.512 MPC8323ECVRAFDC IC MPU PWRQUICC II 516-PBGA 33.558 MPC8315CVRAGDA MPU POWERQUICC II PRO 620-PBGA33.34 MPC8315ECVRAFDA MPU POWERQUICC II PRO 620-PBGA31.87 MPC8315EVRAGDA MPU POWERQUICC II PRO 620-PBGA36.772 MPC8314ECVRAGDA MPU POWERQUICC II PRO 620-PBGA39.382 MPC8343CVRADDB IC MPU PWRQUICC II 620-PBGA 46.276 MPC8315ECVRAGDA MPU POWERQUICC II PRO 620-PBGA44.54 MPC8347VRADDB IC MPU POWERQUICC II 620-PBGA 46.793MPC8377EVRAGD MPU PWRQUICC II 400MHZ689TEPBGA 44.843MPC8347VVAGDB IC MPU POWERQUICC II 672-PBGA 53.57MPC8377EVRAJF MPU PWRQUICC II 533MHZ689TEPBGA 50.798MPC8360EVVAJDG IC MPU POWERQUICC II 740-TBGA 62.823 MPC8347EVRAGDB IC MPU POWERQUICC II 620-PBGA 51.337MPC8379EVRAGD MPU PWRQUICC II 400MHZ689TEPBGA 57.02MPC8347ECVRAGDB IC MPU POWERQUICC II 620-PBGA 68.635MPC8360VVAGDGA IC MPU POWERQUICC II PRO740TBGA 71.635MPC8349VVAGDB IC MPU POWERQUICC II 672-TBGA 71.013MPC8378EVRANG MPU PWRQUICC II 800MHZ689TEPBGA 78.005MPC8349EVVAGDB IC MPU POWERQUICC II 672-TBGA 66.554MPC8360EZUAJDGA IC MPU POWERQUICC II PRO740TBGA 91.748MPC8360EVVAJDGA IC MPU POWERQUICC II PRO740TBGA 71.851MPC8349ECVVAGDB IC MPU POWERQUICC II 672-TBGA 76.528 MPC8349VVAJFB IC MPU POWERQUICC II 672-TBGA 92.04 MPC8347EVVAJFB IC MPU POWERQUICC II 672-TBGA 96.608 MPC8349ECVVAJDB IC MPU POWERQUICC II 672-TBGA 82.258 MPC8313VRADDB MPU POWERQUICC II PRO 516-PBGA9.298 MPC8313EVRADDB MPU POWERQUICC II PRO 516-PBGA9.926 MPC8313CVRADDB MPU POWERQUICC II PRO 516-PBGA11.333MPC8313ZQAFFB MPU POWERQUICC II PRO 516-PBGA11.333 MPC8321EVRADDC IC MPU PWRQUICC II 516-PBGA 11.423 MPC8323VRADDC IC MPU PWRQUICC II 516-PBGA 12.814 MPC8323ZQADDC IC MPU PWRQUICC II 516-PBGA 14.096 MPC8313VRAGDB MPU POWERQUICC II PRO 516-PBGA13.954 MPC8321CZQAFDC ICMPUPWRQUICC II 516-PBGA 14.82 MPC8323EZQADDC IC MPU PWRQUICC II 516-PBGA 16.516 MPC8313EVRAGDB MPU POWERQUICC II PRO 516-PBGA16.157 MPC8313ZQADDB MPU POWERQUICC II PRO 516-PBGA17.476MPC8308CVMADD MPU POWERQUICC II PRO473MAPBGA 14.658MPC8321ZQADDC IC MPU PWRQUICC II 516-PBGA 16.105 MPC8315VRAGDA MPU POWERQUICC II PRO 620-PBGA17.045 MPC8313EZQADDB MPU POWERQUICC II PRO 516-PBGA19.711 MPC8313CZQADDB MPU POWERQUICC II PRO 516-PBGA18.342 MPC8313ECVRADDB MPU POWERQUICC II PRO 516-PBGA21.837 MPC8313ECZQADDB MPU POWERQUICC II PRO 516-PBGA22.114 KMPC8313EVRADDB IC MPU POWERQUICC II 516-PBGA 22.907 MPC8343VRADDB IC MPU PWRQUICC II 620-PBGA 20.757 KMPC8313CVRADDB IC MPU POWERQUICC II 516-PBGA 19.805 KMPC8313VRAFFB IC MPU POWERQUICC II 516-PBGA 22.17 KMPC8313ZQAFFB IC MPU POWERQUICC II 516-PBGA 21.579 KMPC8321CVRADDC IC MPU 516-PBGA 21.474 MPC8323VRAFDC IC MPU PWRQUICC II 516-PBGA 22.199 MPC8323CVRADDC IC MPU PWRQUICC II 516-PBGA 25.181 MPC8313CVRAGDB MPU POWERQUICC II PRO 516-PBGA23.264 MPC8377VRAGD MPU POWERQUICC II PRO 689-PBGA25.015 KMPC8313CVRAFFB IC MPU POWERQUICC II 516-PBGA 23.46 KMPC8313CZQAFFB IC MPU POWERQUICC II 516-PBGA 25.84 KMPC8313EVRAFFB IC MPU POWERQUICC II 516-PBGA 26.86 KMPC8313EZQAFFB IC MPU POWERQUICC II 516-PBGA 24.14 KMPC8313VRAGDB IC MPU POWERQUICC II 516-PBGA 27.2 MPC8323ECVRADDC IC MPU PWRQUICC II 516-PBGA 28.815 MPC8313ECVRAGDB MPU POWERQUICC II PRO 516-PBGA28.208 KMPC8313CVRAGDB IC MPU POWERQUICC II 516-PBGA 23.06 MPC8323CVRAFDC IC MPU PWRQUICC II 516-PBGA 24.034 MPC8321ECVRAFDC IC MPU PWRQUICC II 516-PBGA 27.491MPC8378EVRAGD MPU PWRQUICC II 400MHZ689TEPBGA 24.911MPC8377CVRAGD MPU POWERQUICC II PRO 689-PBGA29.004 KMPC8313ECZQAFFB IC MPU POWERQUICC II 516-PBGA 25.978 MPC8314VRAGDA MPU POWERQUICC II PRO 620-PBGA25.962KMPC8313ECVRAFFB IC MPU POWERQUICC II 516-PBGA 26.197 KMPC8321ECVRAFDC IC MPU 516-PBGA 28.67 MPC8377CVRAJF MPU POWERQUICC II PRO 689-PBGA27.403 MPC8377ECVRAGD MPU POWERQUICC II PRO 689-PBGA27.812MPC8378EVRAJF MPU PWRQUICC II 533MHZ689TEPBGA 29.448KMPC8323EVRAFDC IC MPU 516-PBGA 28.931 KMPC8314EVRAGDA IC MPU POWERQUICC II 620-PBGA 32.167 MPC8347CVRAGDB IC MPU POWERQUICC II 620-PBGA 34.835 MPC8377VRALG MPU POWERQUICC II PRO 689-PBGA35.49 MPC8378VRALG MPU POWERQUICC II PRO 689-PBGA28.307 MPC8347EVVAGDB IC MPU POWERQUICC II 672-TBGA 34.227 MPC8314CVRAGDA MPU POWERQUICC II PRO 620-PBGA36.876 MPC8377ECVRAJF MPU POWERQUICC II PRO 689-PBGA32.387 MPC8377CVRALG MPU POWERQUICC II PRO 689-PBGA36.722 MPC8343EVRADDB IC MPU PWRQUICC II 620-PBGA 30.362 MPC8378VRAGD MPU POWERQUICC II PRO 689-PBGA34.743MPC8379EVRAJF MPU PWRQUICC II 533MHZ689TEPBGA 31.909MPC8347VVAJDB IC MPU PWRQUICC II 672-TBGA 41.597 MPC8377ECVRALG MPU POWERQUICC II PRO 689-PBGA36.3MPC8358EVVAGDGA IC MPU POWERQUICC II PRO740TBGA 42.974MPC8343ECVRADDB IC MPU PWRQUICC II 620-PBGA 34.935 MPC8343CVRAGDB IC MPU PWRQUICC II 620-PBGA 40.072 MPC8347CVRADDB IC MPU PWRQUICC II 620-PBGA 43.331 MPC8377VRAJF MPU POWERQUICC II PRO 689-PBGA38.734 MPC8378CVRAGD MPU POWERQUICC II PRO 689-PBGA34.602 MPC8378VRAJF MPU POWERQUICC II PRO 689-PBGA39.767 MPC8358VRAGDGA MPU POWERQUICC II PRO 668-PBGA42.595 MPC8358ZQAGDGA MPU POWERQUICC II PRO 668-PBGA34.803MPC8360VVAJDGA IC MPU POWERQUICC II PRO740TBGA 44.852MPC8347EVRADDB IC MPU POWERQUICC II 620-PBGA 39.365MPC8379EVRALG MPU PWRQUICC II 667MHZ689TEPBGA 37.366MPC8347CVVAJDB IC MPU POWERQUICC II PRO672TBGA 43.527MPC8379VRAGD MPU POWERQUICC II PRO 689-PBGA43.382 MPC8347ZUAGDB IC MPU PWRQUICC II 672-TBGA 42.396 MPC8378CVRAJF MPU POWERQUICC II PRO 689-PBGA38.628 MPC8378ECVRAGD MPU POWERQUICC II PRO 689-PBGA43.172MPC8358CVRAGDGA MPU POWERQUICC II PRO 668-PBGA39.994 MPC8358CZQAGDGA MPU POWERQUICC II PRO 668-PBGA39.994 MPC8347ZUAJFB IC MPU PWRQUICC II 672-TBGA 48.424 MPC8347EVVAJDB IC MPU PWRQUICC II 672-TBGA 45.507 MPC8343ECVRAGDB IC MPU PWRQUICC II 620-PBGA 45.495 MPC8347ECVRADDB IC MPU POWERQUICC II 620-PBGA 42.121 MPC8358EVRAGDGA MPU POWERQUICC II PRO 668-PBGA46.589 MPC8358EZQAGDGA MPU POWERQUICC II PRO 668-PBGA47.187 MPC8377ECVRANG MPU POWERQUICC II PRO 689-PBGA39.221 MPC8379CVRAGD MPU POWERQUICC II PRO 689-PBGA49.964 MPC8379VRAJF MPU POWERQUICC II PRO 689-PBGA40.215 MPC8378ECVRAJF MPU POWERQUICC II PRO 689-PBGA42.389MPC8347CZUAGDB IC MPU POWERQUICC II PRO672TBGA 44.767MPC8378CVRALG MPU POWERQUICC II PRO 689-PBGA46.343 MPC8349EVVAJDB IC MPU PWRQUICC II 672-TBGA 48.575 MPC8358ECVRAGDGA MPUPOWERQUICC II PRO 668-PBGA50.392 MPC8358ECZQAGDGA MPU POWERQUICC II PRO 668-PBGA49.746MPC8379EVRANG MPU PWRQUICC II 800MHZ689TEPBGA 55.272MPC8379CVRAJF MPU POWERQUICC II PRO 689-PBGA48.938 MPC8379ECVRAGD MPU POWERQUICC II PRO 689-PBGA47.598 MPC8377VRANG MPU POWERQUICC II PRO 689-PBGA55.15 MPC8378VRANG MPU POWERQUICC II PRO 689-PBGA48.341 MPC8379VRALG MPU POWERQUICC II PRO 689-PBGA53.323 MPC8347ECZUAGDB IC MPU PWRQUICC II 672-TBGA 53.338 MPC8347ECVVAGDB IC MPU POWERQUICC II 672-TBGA 49.181 MPC8378ECVRALG MPU POWERQUICC II PRO 689-PBGA56.56 MPC8347ECVVAJDB ICMPUPWRQUICC II 672-TBGA 50.622 MPC8379ECVRAJF MPU POWERQUICC II PRO 689-PBGA54.863 MPC8377CVRANG MPU POWERQUICC II PRO 689-PBGA47.759 MPC8378CVRANG MPU POWERQUICC II PRO 689-PBGA59.336 MPC8377EVRANG MPU POWERQUICC II PRO 689-PBGA48.492 MPC8347ZUAJDB IC MPU PWRQUICC II 672-TBGA 48.05MPC8358EZUAGDGA IC MPU POWERQUICC II PRO740TBGA 52.131MPC8379CVRALG MPU POWERQUICC II PRO 689-PBGA48.567 MPC8349CVVAGDB IC MPU POWERQUICC II 672TBGA 59.209MPC8349CZUAGDB IC MPU POWERQUICC II PRO672TBGA 50.751MPC8349VVAJDB IC MPU PWRQUICC II 672-TBGA 59.436 MPC8349ZUAJDB IC MPU PWRQUICC II 672-TBGA 50.945MPC8347CZUAJDB IC MPU POWERQUICC II PRO672TBGA 53.478MPC8349EZUAGDB IC MPU PWRQUICC II 672-TBGA 51.351 MPC8379VRANG MPU POWERQUICC II PRO 689-PBGA58.419 MPC8378ECVRANG MPU POWERQUICC II PRO 689-PBGA65.284 MPC8379ECVRALG MPU POWERQUICC II PRO 689-PBGA65.573 MPC8347EZUAJDB IC MPU PWRQUICC II 672-TBGA 61.583MPC8349CVVAJDB IC MPU POWERQUICC II PRO672TBGA 64.535MPC8349CZUAJDB IC MPU POWERQUICC II PRO672TBGA 55.195MPC8379CVRANG MPU POWERQUICC II PRO 689-PBGA59.919 MPC8347ZUALFB IC MPU PWRQUICC II 672-TBGA 64.276 MPC8349EZUAJDB IC MPU POWERQUICC II 672-TBGA 72.791 MPC8349ZUAJFB IC MPU PWRQUICC II 672-TBGA 69.241MPC8347CVVAJFB IC MPU POWERQUICC II PRO672TBGA 74.869MPC8347EZUAJFB IC MPU POWERQUICC II 672-TBGA 73.612 MPC8379ECVRANG MPU POWERQUICC II PRO 689-PBGA78.325 MPC8349ECZUAJDB IC MPU PWRQUICC II 672-TBGA 63.473 MPC8347ECZUAJDB IC MPU PWRQUICC II 672-TBGA 72.261 MPC8347EZUALFB IC MPU PWRQUICC II 672-TBGA 71.898 MPC8349EZUAJFB IC MPU PWRQUICC II 672-TBGA 68.4 MPC8349EZUALFB IC MPU PWRQUICC II 672-TBGA 78.767MPC8349ECVVAJFB IC MPU POWERQUICC II PRO672TBGA 79.737MPC8347EVVALFB IC MPU POWERQUICC II 672-TBGA 97.118 KMPC8343CZQAGD IC MPU PWRQUICC II 620-PBGA 46.142 KMPC8343EVRAGD IC MPU PWRQUICC II 620-PBGA 42.605 KMPC8343EZQAGD IC MPU PWRQUICC II 620-PBGA 48.244 KMPC8343VRAGD IC MPU PWRQUICC II 620-PBGA 44.133 KMPC8343ZQAGD IC MPU PWRQUICC II 620-PBGA 39.229 KMPC8347ECZQAGD IC MPU POWERQUICC II 620-PBGA 57.5 KMPC8347EVRAGD IC MPU POWERQUICC II 620-PBGA 46.906 KMPC8347EVVAJF IC MPU PWRQUICC II 672-TBGAKMPC8347EZQAGD IC MPU POWERQUICC II 620-PBGA 47.617 KMPC8347EZUAJF IC MPU PWRQUICC II 672-TBGA 91.708 KMPC8347VRAGD IC MPU POWERQUICC II 620-PBGA 45.129 KMPC8347VVAJF IC MPU PWRQUICC II 672-TBGAKMPC8347ZQAGD IC MPU POWERQUICC II 620-PBGA 42.038 KMPC8347ZUAJF ICMPUPWRQUICC II 672-TBGAKMPC8349EVVAJF IC MPU PWRQUICC II 672-TBGA 79.264KMPC8349EZUAJF IC MPU PWRQUICC II 672-TBGAKMPC8349VVAJF IC MPU PWRQUICC II 672-TBGA 76.02MPUPWRQUICC II 672-TBGAKMPC8349ZUAJF ICMPC8343CVRADD IC MPU PWRQUICC II PRO 620-PBGA 29.89 MPC8343CVRAGD IC MPU PWRQUICC II PRO 620-PBGA 42.074 MPC8343CZQADD IC MPU PWRQUICC II PRO 620-PBGA 31.675 MPC8343CZQAGD IC MPU PWRQUICC II PRO 620-PBGA 34.378 MPC8343ECVRAGD IC MPU PWRQUICC II PRO 620-PBGA 48.976 MPC8343EVRADD IC MPU PWRQUICC II PRO 620-PBGA 33.122 MPC8343EVRAGD IC MPU PWRQUICC II PRO 620-PBGA 43.454 MPC8343EZQADD IC MPU PWRQUICC II PRO 620-PBGA 33.588 MPC8343EZQAGD IC MPU PWRQUICC II PRO 620-PBGA 42.917 MPC8343VRADD IC MPU PWRQUICC II PRO 620-PBGA 30.016 MPC8343VRAGD IC MPU PWRQUICC II PRO 620-PBGA 39.186 MPC8343ZQADD IC MPU PWRQUICC II PRO 620-PBGA 31.639 MPC8343ZQAGD IC MPU PWRQUICC II PRO 620-PBGA 37.787 MPC8347CVRAGD IC MPU PWRQUICC II PRO 620-PBGA 47.154 MPC8347CZQAGD IC MPU PWRQUICC II PRO 620-PBGA 39.004 MPC8347ECVRAGD IC MPU PWRQUICC II PRO 620-PBGA 48.195 MPC8347ECZQAGD IC MPU PWRQUICC II PRO 620-PBGA 50.203 MPC8347EVRADD IC MPU PWRQUICC II PRO 620-PBGA 38.246 MPC8347EVRAGD IC MPU PWRQUICC II PRO 620-PBGA 49.289 MPC8347EVVAGD IC MPU PWRQUICC II PRO 672-TBGA 48.641 MPC8347EVVAJD IC MPU PWRQUICC II PRO 672-TBGA 61.606 MPC8347EVVAJF IC MPU PWRQUICC II PRO 672-TBGA 83.222 MPC8347EZQADD IC MPU PWRQUICC II PRO 620-PBGA 37.707 MPC8347EZQAGD IC MPU PWRQUICC II PRO 620-PBGA 47.463 MPC8347EZUAGD IC MPU PWRQUICC II PRO 672-TBGA 51.461 MPC8347EZUAJD IC MPU PWRQUICC II PRO 672-TBGA 60.795 MPC8347EZUAJF IC MPU PWRQUICC II PRO 672-TBGA 84.237 MPC8347VRADD IC MPU PWRQUICC II PRO 620-PBGA 38.871 MPC8347VRAGD IC MPU PWRQUICC II PRO 620-PBGA 38.641 MPC8347VVAGD IC MPU PWRQUICC II PRO 672-TBGA 40.453 MPC8347VVAJD IC MPU PWRQUICC II PRO 672-TBGA 59.204 MPC8347VVAJF IC MPU PWRQUICC II PRO 672-TBGA 61.751 MPC8347ZQADD IC MPU PWRQUICC II PRO 620-PBGA 31.846 MPC8347ZQAGD IC MPU PWRQUICC II PRO 620-PBGA 39.699 MPC8347ZUAGD IC MPU PWRQUICC II PRO 672-TBGAMPC8347ZUAJD IC MPU PWRQUICC II PRO 672-TBGAMPC8347ZUAJF IC MPU PWRQUICC II PRO 672-TBGAMPC8349EVVAGD IC MPU PWRQUICC II PRO 672-TBGA 61.371 MPC8349EVVAJD IC MPU PWRQUICC II PRO 672-TBGAMPC8349EVVAJF IC MPU PWRQUICC II PRO 672-TBGA 80.457 MPC8349EZUAGD IC MPU PWRQUICC II PRO 672-TBGAMPC8349EZUAJD IC MPU PWRQUICC II PRO 672-TBGAMPC8349EZUAJF IC MPU PWRQUICC II PRO 672-TBGAMPC8349VVAGD IC MPU PWRQUICC II PRO 672-TBGA 45.266 MPC8349VVAJD IC MPU PWRQUICC II PRO 672-TBGAMPC8349VVAJF IC MPU PWRQUICC II PRO 672-TBGA 73.597 MPC8349ZUAGD IC MPU PWRQUICC II PRO 672-TBGAMPC8349ZUAJD IC MPU PWRQUICC II PRO 672-TBGA 59.098 MPC8349ZUAJF IC MPU PWRQUICC II PRO 672-TBGAMPC8349ECZUAGDB IC MPU PWRQUICC II 672-TBGAMPC8347ZQAGDB IC MPU PWRQUICC II 620-PBGA 34.392 MPC8347ZQADDB IC MPU PWRQUICC II 620-PBGA 35.168PWRQUICC II 620-PBGA 36.99 MPC8343CZQAGDB ICMPUMPC8323ECZQADDC IC MPU PWRQUICC II 516-PBGA 28.472 MPC8323ECZQAFDC IC MPU PWRQUICC II 516-PBGA 29.197 MPC8323EVRADDC IC MPU POWERQUICC II 516-PBGA 15.106 MPC8343CZQADDB IC MPU PWRQUICC II 620-PBGA 22.192 MPC8323ZQAFDC IC MPU PWRQUICC II 516-PBGA 15.366 MPC8347CZQADDB IC MPU PWRQUICC II 620-PBGA 31.616 MPC8343ZQADDB IC MPU PWRQUICC II 620-PBGA 33.783 MPC8343ZQAGDB IC MPU PWRQUICC II 620-PBGA 35.5 MPC8347CZQAGDB IC MPU PWRQUICC II 620-PBGA 31.896 MPC8347ECZQADDB IC MPU PWRQUICC II 620-PBGA 46.274 MPC8347ECZQAGDB IC MPU PWRQUICC II 620-PBGA 44.165 MPC8347EZQAGDB IC MPU POWERQUICC II 620-PBGA 46.145 MPC8347VRAGDB IC MPU POWERQUICC II 620-PBGA 46.016 MPC8347EZUAGDB IC MPU PWRQUICC II 672-TBGA 40.1 MPC8343ECZQADDB IC MPU PWRQUICC II 620-PBGA 32.419 MPC8347EZQADDB IC MPU PWRQUICC II 620-PBGA 36.457 MPC8343ECZQAGDB IC MPU PWRQUICC II 620-PBGA 43.723 MPC8343EZQADDB IC MPU PWRQUICC II 620-PBGA 27.361 MPC8343EZQAGDB IC MPU POWERQUICC II 620-PBGA 41.361 MPC8323CZQAFDC ICPWRQUICC II 516-PBGA 27.98MPUMPC8323CZQADDC IC MPU PWRQUICC II 516-PBGA 23.193 MPC8321EZQADDC IC MPU PWRQUICC II 516-PBGA 19.008 MPC8321EZQAFDC IC MPU PWRQUICC II 516-PBGA 12.385 MPC8321ZQAFDC IC MPU PWRQUICC II 516-PBGA 19.265 MPC8321ECZQADDC IC MPU PWRQUICC II 516-PBGA 24.214 MPC8321ECZQAFDC IC MPU PWRQUICC II 516-PBGA 15.892 MPC8321CVRADDC IC MPU PWRQUICC II 516-PBGA 22.104 MPC8321CVRAFDC IC MPU PWRQUICC II 516-PBGA 22.288MPC8321CZQADDC IC MPU PWRQUICC II 516-PBGA 17.716PWRQUICC II 672-TBGAMPUMPC8349ZUAGDB ICMPC8360ECZUADDH IC MPU PWRQUICC II 740-TBGA 75.034 MPC8360EVVADDH IC MPU PWRQUICC II 740-TBGA 84.507 MPC8360ECZUAJDG IC MPU PWRQUICC II 740-TBGA 66.605PWRQUICC II 740-TBGA 71.296MPUMPC8360ECVVAJDG ICMPC8360EVVAHFH IC MPU PWRQUICC II 740-TBGA 82.456PWRQUICC II 740-TBGA 59.703 MPC8360ECVVAGDG ICMPUMPC8360ECVVADDH IC MPU PWRQUICC II 740-TBGA 77.274 MPC8360EVVAGDG IC MPU PWRQUICC II 740-TBGA 55.039 MPC8360EVVALFG IC MPU PWRQUICC II 740-TBGA 83.855 MPC8360CZUADDH IC MPU PWRQUICC II 740-TBGA 77.901 MPC8360EZUALFG IC MPU PWRQUICC II 740-TBGA 97.831 MPC8360VVAGDG IC MPU PWRQUICC II 740-TBGA 45.277 MPC8360VVADDH IC MPU PWRQUICC II 740-TBGA 62.861 MPC8360EZUALFH IC MPU PWRQUICC II 740-TBGA 75.585 MPC8360EZUAJDG IC MPU PWRQUICC II 740-TBGA 62.262 MPC8360EVVALFH IC MPU PWRQUICC II 740-TBGA 96.199 MPC8360EZUAHFH IC MPU PWRQUICC II 740-TBGA 84.747 MPC8360EZUAGDG IC MPU PWRQUICC II 740-TBGA 63.566 MPC8360EZUADDH IC MPU PWRQUICC II 740-TBGA 84.507 MPC8360CZUAGDG IC MPU PWRQUICC II 740-TBGA 56.708 MPC8360CVVAJDG IC MPU PWRQUICC II 740-TBGA 61.993 MPC8360VVAJDG IC MPU PWRQUICC II 740-TBGA 60.539 MPC8358CVVADDE IC MPU PWRQUICC II 740-TBGA 47.245 MPC8358CZUAGDG IC MPU PWRQUICC II 740-TBGA 57.589 MPC8358CZUADDE IC MPU PWRQUICC II 740-TBGA 43.414 MPC8358CVVAGDG IC MPU PWRQUICC II 740-TBGA 48.459 MPC8349ZUALFB IC MPU PWRQUICC II 672-TBGA 61.737MPUPWRQUICC II 740-TBGA 53.924 MPC8358ECVVAGDG ICMPC8358ECVVADDE IC MPU PWRQUICC II 740-TBGA 52.131 MPC8358ECZUAGDG IC MPU PWRQUICC II 740-TBGA 52.361 MPC8358ECZUADDE IC MPU PWRQUICC II 740-TBGA 55.067 MPC8360CVVAGDG IC MPU PWRQUICC II 740-TBGA 61.306 MPC8358VVAGDG IC MPU PWRQUICC II 740-TBGA 53.629 MPC8360CVVADDH IC MPU PWRQUICC II 740-TBGA 74.006 MPC8358ZUAGDG IC MPU PWRQUICC II 740-TBGA 44.691 MPC8358ZUADDE IC MPU PWRQUICC II 740-TBGA 44.94 MPC8358VVADDE IC MPU PWRQUICC II 740-TBGA 38.948 MPC8358EVVADDE IC MPU PWRQUICC II 740-TBGA 44.718 MPC8358EZUAGDG IC MPU POWERQUICC II 740-TBGA 60.207 MPC8358EZUADDE IC MPU PWRQUICC II 740-TBGA 54.729MPC8358EVVAGDG IC MPU POWERQUICC II 740-TBGA 52.952 MPC8360VVAHFH IC MPU PWRQUICC II 740-TBGA 83.649 MPC8360VVALFH IC MPU PWRQUICC II 740-TBGA 79.666 MPC8360VVALFG IC MPU PWRQUICC II 740-TBGA 72.481 MPC8360ZUADDH IC MPU PWRQUICC II 740-TBGA 58.434 MPC8360ZUALFH IC MPU PWRQUICC II 740-TBGA 69.708 MPC8360ZUALFG IC MPU PWRQUICC II 740-TBGA 89.536 MPC8360ZUAJDG IC MPU PWRQUICC II 740-TBGA 58.24 MPC8360ZUAHFH IC MPU PWRQUICC II 740-TBGA 75.683 MPC8360ZUAGDG IC MPU PWRQUICC II 740-TBGA 55.726 MPC8360ECZUAGDG IC MPU PWRQUICC II 740-TBGA 56.291 KMPC8360VVAJDG IC MPU PWRQUICC II 740-TBGA 68.153 KMPC8360ZUAJDG IC MPU PWRQUICC II 740-TBGA 62.474 KMPC8360ZUAHFH IC MPU PWRQUICC II 740-TBGA 92.205 KMPC8360VVALFG IC MPU PWRQUICC II 740-TBGA 82.804 KMPC8360VVAHFH IC MPU PWRQUICC II 740-TBGA 73.319 KMPC8360EZUALFG IC MPU PWRQUICC II 740-TBGA 85.643 KMPC8360EZUAJDG IC MPU PWRQUICC II 740-TBGA 64.384 KMPC8360EZUAHFH IC MPU PWRQUICC II 740-TBGA 95.816 KMPC8360ZUALFG IC MPU PWRQUICC II 740-TBGA 75.806 KMPC8360EVVAJDG IC MPU PWRQUICC II 740-TBGA 69.982 KMPC8360EVVALFG IC MPU PWRQUICC II 740-TBGA 106.095 KMPC8360EVVAHFH IC MPU PWRQUICC II 740-TBGA 88.151 KMPC8323CVRAFDC IC MPU 516-PBGA 35.424 KMPC8323EVRADDC IC MPU 516-PBGA 25.634 KMPC8323ECVRAFDC IC MPU 516-PBGA 33.743 KMPC8323ECVRADDC IC MPU 516-PBGA 30.584 KMPC8323CVRADDC IC MPU 516-PBGA 25.927 KMPC8323VRADDC IC MPU 516-PBGA 27.196 KMPC8321VRAFDC IC MPU 516-PBGA 25.499 KMPC8321VRADDC IC MPU 516-PBGA 24.024 KMPC8321EVRAFDC IC MPU 516-PBGA 23.542 KMPC8323VRAFDC IC MPU 516-PBGA 25.551 KMPC8343EZQAGDB IC MPU PWRQUICC II 620-PBGA 51.362 KMPC8347ECVVAJDB IC MPU PWRQUICC II 672-TBGAKMPC8343ZQAGDB IC MPU PWRQUICC II 620-PBGA 36.95 KMPC8343VRAGDB IC MPU PWRQUICC II 620-PBGA 37.502 KMPC8343EVRAGDB IC MPU PWRQUICC II 620-PBGA 41.851 KMPC8343CVRAGDB IC MPU PWRQUICC II 620-PBGA 47.311 KMPC8343ECZQAGDB IC MPU PWRQUICC II 620-PBGA 46.713 KMPC8343ECVRAGDB IC MPU PWRQUICC II 620-PBGA 46.036 KMPC8343CZQAGDB IC MPU PWRQUICC II 620-PBGA 47.311KMPC8321EVRADDC IC MPU 516-PBGA 21.721 KMPC8321ECVRADDC IC MPU 516-PBGA 25.702 KMPC8347EVRAGDB IC MPU POWERQUICC II 620-PBGA 49.579 KMPC8321CVRAFDC IC MPU 516-PBGA 23.53 KMPC8347ECZUAJDB IC MPU PWRQUICC II 672-TBGAKMPC8347EVVAGDB IC MPU PWRQUICC II 672-TBGAKMPC8360ECZUAJDG IC MPU PWRQUICC II 740-TBGA 81.074 KMPC8349VVALFB IC MPU PWRQUICC II 672-TBGAKMPC8349ZUAJFB IC MPU PWRQUICC II 672-TBGAKMPC8349ZUAJDB IC MPU PWRQUICC II 672-TBGAPWRQUICC II 672-TBGAMPUKMPC8349ZUAGDB ICKMPC8349VVAJFB IC MPU PWRQUICC II 672-TBGAKMPC8358CVVAGDG IC MPU PWRQUICC II 740-TBGA 57.506 KMPC8349VVAJDB IC MPU PWRQUICC II 672-TBGAKMPC8349VVAGDB IC MPU PWRQUICC II 672-TBGAKMPC8349EZUALFB IC MPU PWRQUICC II 672-TBGAKMPC8349ZUALFB ICPWRQUICC II 672-TBGAMPUKMPC8358CZUAGDG IC MPU PWRQUICC II 740-TBGA 59.806 KMPC8349EZUAJDB IC MPU PWRQUICC II 672-TBGAKMPC8358ZUAGDG IC MPU PWRQUICC II 740-TBGA 50.195 KMPC8360ECVVAJDG IC MPU PWRQUICC II 740-TBGA 82.1 KMPC8360CZUAJDG IC MPU PWRQUICC II 740-TBGA 65.152 KMPC8360CVVAJDG IC MPU PWRQUICC II 740-TBGA 66.938 KMPC8358VVAGDG IC MPU PWRQUICC II 740-TBGA 50.195 KMPC8358ECVVAGDG IC MPU PWRQUICC II 740-TBGA 58.998 KMPC8358EZUAGDG IC MPU PWRQUICC II 740-TBGA 57.712 KMPC8358EVVAGDG IC MPU PWRQUICC II 740-TBGA 64.926 KMPC8358ECZUAGDG IC MPU PWRQUICC II 740-TBGA 67.549 KMPC8349EZUAJFB IC MPU PWRQUICC II 672-TBGAMPU PWRQUICC II 672-TBGAKMPC8349EZUAGDB ICKMPC8347EVVAJDB IC MPU PWRQUICC II 672-TBGAKMPC8347EZUAJDB IC MPU PWRQUICC II 672-TBGAKMPC8347VVAGDB IC MPU PWRQUICC II 672-TBGAKMPC8347EZUALFB IC MPU PWRQUICC II 672-TBGAKMPC8347EZUAJFB IC MPU PWRQUICC II 672-TBGAMPU PWRQUICC II 672-TBGAKMPC8347EZUAGDB ICKMPC8347VVAJFB IC MPU PWRQUICC II 672-TBGAKMPC8347EZQAGDB IC MPU POWERQUICC II 620-PBGA 45.39 KMPC8347EVVALFB IC MPU PWRQUICC II 672-TBGAKMPC8347EVVAJFB IC MPU PWRQUICC II 672-TBGAKMPC8347VVAJDB IC MPU PWRQUICC II 672-TBGAKMPC8347VVALFB IC MPU PWRQUICC II 672-TBGAKMPC8349EVVALFB IC MPU PWRQUICC II 672-TBGAKMPC8349ECZUAJDB IC MPU PWRQUICC II 672-TBGAKMPC8349EVVAJFB IC MPU PWRQUICC II 672-TBGAKMPC8349EVVAJDB IC MPU PWRQUICC II 672-TBGAKMPC8349EVVAGDB IC MPU PWRQUICC II 672-TBGAKMPC8349ECVVAJDB IC MPU PWRQUICC II 672-TBGAKMPC8347ZUAGDB ICMPUPWRQUICC II 672-TBGAKMPC8347ZUALFB ICMPUPWRQUICC II 672-TBGAKMPC8347ZUAJFB IC MPU PWRQUICC II 672-TBGAKMPC8347ZUAJDB IC MPU PWRQUICC II 672-TBGAKMPC8347ECVRAGDB IC MPU PWRQUICC II 620-PBGA 52.999 KMPC8321CZQADDC IC MPU PWRQUICC II 516PBGA 22.372 KMPC8321CZQAFDC IC MPU PWRQUICC II 516PBGA 28.236 KMPC8321ECZQADDC IC MPU PWRQUICC II 516PBGA 24.254 KMPC8321ECZQAFDC IC MPU PWRQUICC II 516PBGA 27.078 KMPC8321EZQADDC IC MPU PWRQUICC II 516PBGA 26.443 KMPC8321EZQAFDC IC MPU PWRQUICC II 516PBGA 23.888 KMPC8321ZQADDC IC MPU PWRQUICC II 516PBGA 22.308 KMPC8321ZQAFDC IC MPU PWRQUICC II 516PBGA 22.666 KMPC8323CZQADDC IC MPU PWRQUICC II 516PBGA 24.424 KMPC8323CZQAFDC IC MPU PWRQUICC II 516PBGA 33.264 KMPC8323ECZQADDC IC MPU PWRQUICC II 516PBGA 34.717 KMPC8323ECZQAFDC IC MPU PWRQUICC II 516PBGA 33.268 KMPC8323EZQADDC IC MPU PWRQUICC II 516PBGA 29.13 KMPC8323EZQAFDC IC MPU PWRQUICC II 516PBGA 30.584 KMPC8323ZQADDC IC MPU PWRQUICC II 516PBGA 24.018 KMPC8323ZQAFDC IC MPU PWRQUICC II 516PBGA 27.054 KMPC8347CVRAGDB ICMPUPWRQUICC II 620PBGA 50.76 KMPC8347CVVAJDB ICMPUPOWERQUICC II 672-TBGAKMPC8347CZQAGDB IC MPU PWRQUICC II 620PBGA 44.081 KMPC8347CZUAJDB ICMPU PWRQUICC II 672TBGAKMPC8347ECZQAGDB IC MPU PWRQUICC II 620PBGA 57.608 KMPC8347VRAGDB IC MPU PWRQUICC II 620PBGA 52.55 KMPC8347ZQAGDB IC MPU PWRQUICC II 620PBGA 43.792 KMPC8349CVVAJDB IC MPU PWRQUICC II 672TBGAKMPC8349CZUAJDB ICMPU PWRQUICC II 672TBGAKMC8358CVVAGDGA IC MPU POWERQUICC II PRO740TBGA 53.672KMC8358CZUAGDGA IC MPU POWERQUICC II PRO740TBGA 59.806KMC8358ECVRAGDDA IC MPU POWERQUICC II PRO668PBGA 55.256KMC8358ECVVAGDGA IC MPU POWERQUICC II PRO740TBGA 61.564KMC8358ECZQAGDDA IC MPU POWERQUICC II PRO668PBGA 49.865KMC8358ECZUAGDGA IC MPU POWERQUICC II PRO740TBGA 56.433KMC8360CVVAJDGA IC MPU POWERQUICC II PRO740TBGA 63.368KMC8360CZUAJDGA IC MPU POWERQUICC II PRO740TBGA 68.722KMC8360ECVVAJDGA IC MPU POWERQUICC II PRO740TBGA 86.205KMC8360ECZUAJDGA IC MPU POWERQUICC II PRO740TBGA 76.969KMPC8358CVRAGDDA IC MPU POWERQUICC II PRO668PBGA 43.477KMPC8358CZQAGDDA IC MPU POWERQUICC II PRO668PBGA 46.496KMPC8358EVRAGDDA IC MPU POWERQUICC II PRO668PBGA 53.021KMPC8358EVVAGDGA IC MPU POWERQUICC II PRO740TBGA 61.719KMPC8358EZQAGDDA IC MPU POWERQUICC II PRO668PBGA 49.865KMPC8358EZUAGDGA IC MPU POWERQUICC II PRO740TBGA 57.712KMPC8358VRAGDDA IC MPU POWERQUICC II PRO668PBGA 40.073KMPC8358VVAGDGA IC MPU POWERQUICC II PRO740TBGA 53.692KMPC8358ZQAGDDA IC MPU POWERQUICC II PRO668PBGA 40.622KMPC8358ZUAGDGA IC MPU POWERQUICC II PRO740TBGA 56.469KMPC8360EVVAJDGA IC MPU POWERQUICC II PRO740TBGA 61.585KMPC8360EVVALFHA IC MPU POWERQUICC II PRO740TBGA 94.59KMPC8360EZUAJDGA IC MPU POWERQUICC II PRO740TBGA 60.652KMPC8360EZUALFHA IC MPU POWERQUICC II PRO740TBGA 93.312KMPC8360VVAJDGA IC MPU POWERQUICC II PRO740TBGA 55.471KMPC8360VVALFHA IC MPU POWERQUICC II PRO740TBGA 76.972KMPC8360ZUAJDGA IC MPU POWERQUICC II PRO740TBGA 63.285KMPC8360ZUALFHA IC MPU POWERQUICC II PRO740TBGA 86.302MPC8313CVRAFF IC MPU POWERQUICC II PRO516PBGA 19.109MPC8313CZQADD IC MPU POWERQUICC II PRO516PBGA 18.974MPC8313CZQAFF IC MPU POWERQUICC II PRO516PBGA 18.843MPC8313ECVRAFF IC MPU POWERQUICC II PRO516PBGA 22.287MPC8313ECZQADD IC MPU POWERQUICC II PRO516PBGA 23.116MPC8313ECZQAFF IC MPU POWERQUICC II PRO516PBGA 24.424MPC8313EVRAFF IC MPU POWERQUICC II PRO516PBGA 21.232MPC8313EZQADD IC MPU POWERQUICC II PRO516PBGA 14.019MPC8313EZQAFF IC MPU POWERQUICC II PRO516PBGA 18.843MPC8313VRAFF IC MPU POWERQUICC II PRO516PBGA 18.926MPC8313ZQADD IC MPU POWERQUICC II PRO516PBGA 16.272MPC8313ZQAFF IC MPU POWERQUICC II PRO516PBGA 15.694MPC8347CZUAJFB IC MPU POWERQUICC II PRO672TBGA 65.08MPC8347ECVVAJFB IC MPU POWERQUICC II PRO672TBGA 70.218MPC8347ECZUAJFB IC MPU POWERQUICC II PRO672TBGA 71.142MPC8349CVVAJFB IC MPU POWERQUICC II PRO672TBGA 58.092MPC8349CZUAJFB IC MPU POWERQUICC II PRO672TBGA 67.773MPC8349ECZUAJFB IC MPU POWERQUICC II PRO672TBGA 78.96MPC8358CVRADDDA IC MPU POWERQUICC II PRO668PBGA 32.11MPC8358CVRAGDDA IC MPU POWERQUICC II PRO668PBGA 39.478MPC8358CVVADDEA IC MPU POWERQUICC II PRO740TBGA 49.799MPC8358CVVAGDGA IC MPU POWERQUICC II PRO740TBGA 51.971MPC8358CZQADDDA IC MPU POWERQUICC II PRO668PBGA 36.832MPC8358CZQAGDDA IC MPU POWERQUICC II PRO668PBGA 33.764MPC8358CZUADDEA IC MPU POWERQUICC II PRO740TBGA 42.137MPC8358CZUAGDGA IC MPU POWERQUICC II PRO740TBGA 53.375MPC8358ECVRADDDA IC MPU POWERQUICC II PRO668PBGA 45.069MPC8358ECVRAGDDA IC MPU POWERQUICC II PRO668PBGA 41.811MPC8358ECVVADDEA IC MPU POWERQUICC II PRO740TBGA 49.928MPC8358ECVVAGDGA IC MPU POWERQUICC II PRO740TBGA 58.613MPC8358ECZQADDDA IC MPU POWERQUICC II PRO668PBGA 43.983MPC8358ECZQAGDDA IC MPU POWERQUICC II PRO668PBGA 29.674MPC8358ECZUADDEA IC MPU POWERQUICC II PRO740TBGA 52.865MPC8358ECZUAGDGA IC MPU POWERQUICC II PRO740TBGA 60.957MPC8358EVRADDDA IC MPU POWERQUICC II PRO668PBGA 39.01MPC8358EVRAGDDA IC MPU POWERQUICC II PRO668PBGA 41.268MPC8358EVVADDEA IC MPU POWERQUICC II PRO740TBGA 50.057MPC8358EZQADDDA IC MPU POWERQUICC II PRO668PBGA 38.023。
PowerPC处理器的发展历程作者:沈华汤彦飞李乔杨来源:《计算机光盘软件与应用》2013年第12期摘要:本文简述Freescale的PowerPC处理器的发展历程,按PowerPC处理器应用领域对处理器进行了进行分类和介绍。
关键词:嵌入式处理器;PowerPC;PowerQUICC;Power QorIQ中图分类号:TP752一般情况下的PowerPC,指的是使用PowerPC指令集的处理器。
PowerPC,最初的含义却不是Power,而是Performance Optimized With Enhanced RISC;PC指的是Performance Computing。
PowerPC系列是源自于POWER架构的设计,但进行了大量的改动。
例如,Power PC是open-endian设计,而POWER是大尾段设计;Power PC希望提供更强的浮点处理能力和多线程处理能力。
总的来说,这两种类型的CPU并没有太大的差别,Power PC保留了绝大部分POWER指令,许多应用只要重新编译,就可以分别在两个平台上运行。
随着PowerPC的发展,使用PowerPC构架的处理器已经形成了庞大的家族,在通信、工控、航天国防等要求高性能和高可靠性的领域得到广泛应用。
目前,主流的PowerPC处理器制造商有IBM、Freescale、AMCC、LSI等。
而在嵌入式领域Freescale的PowerPC占主导地位,尤其有E2V公司对扩展温度PowerPC的支持,广泛应用于航空国防领域。
1 Freescale的PowerPC系列Freescale公司是从Motorola公司分离出来的公司,但是把Motorola公司名下所有关于PowerPC处理器的业务都归属到Freescale公司,至此该公司发展迅速,尤其在网络设备市场取得了非常可观的成功。
目前Freescale公司已经调整其PowerPC产品策略,将其划分成3个主要市场:网络设备、汽车电子(MPC5xx系列)和工业控制。
主要长时储能技术成本对比表
截至目前(2023年),长时储能技术的成本对比涉及多种不同的储能技术,包括抽水蓄能、压缩空气储能、流电池、锂离子电池等。
这些技术的成本会受到多种因素的影响,如安装规模、地理位置、原材料价格以及技术成熟度等。
以下提供一个大致的成本对比表,但请注意,这些数据会随时间和技术进步而变化。
长时储能技术成本对比概览
注意事项:
1.成本波动:上述成本数据为估计值,实际成本会根据项目具体情况、地点、规模以及原材料价格变化等因素有所不同。
2.系统成本:上表中的成本主要指的是储能系统的单位能量成本,但在实际部署时还需考虑系统的整体成本,包括但不限于安装成本、
维护成本、运营成本以及退役成本等。
3.技术选择:选择哪种储能技术不仅取决于成本,还需考虑储能时长、容量、循环寿命、效率、环境影响以及地理位置等因素。
4.市场动态:随着技术的不断发展和规模化生产,某些储能技术的成本可能会有显著下降,特别是对于锂离子电池等快速发展的技术。
总之,长时储能技术的选择和成本评估是一个复杂的过程,需要综合考虑技术性能、经济性、环境影响以及项目具体需求等多方面因素。
随着能源转型的推进和储能技术的进步,长时储能将在实现可再生能源高比例接入、保障电网稳定性和提升能源系统灵活性方面发挥越来越重要的作用。
调试说明1参考手册[1] MPC826xA Family Hardware Specifications(即MPC8260AEC/D)[2] MPC8260 PowerQUICC TM II Family Reference Manual (即datasheet)2器件编号使用的CPU编号为:MPC8260ACVVMHBB 266/166/663电源MPC8260的内部逻辑和IO分别用独立的电源提供。
手册推荐的电压和温度条件:IO由3.3V直流稳压电源提供,内核电源由直流电压转换芯片MIC37302将3.3V输入转换成2.05V输出供给。
MIC37302允许1.24V到5.5V的输出范围,电路如下图所示:电路板中R1取200欧,R2取300欧,根据公式得到输出应该为2.05V为了调试方便,做了如下设计:在MIC37302最终输出处:先将R6、R7和F1都断开,外部电源TEST3.3V输出正常后将R7接上,,只给MIC37302供电;测量MIC30302输出的电压正常后将F1和R6也接上,同时给CPU的内核和IO供电。
注意不能先接R6再接F1,防止未给内核供电的情况下先给IO提供电压。
4时钟通过时钟分发芯片MPC9447将输入的66MHz晶振信号分发为5路时钟,分别提供给CPU,SDRAM,Local SDRAM,CPLD和电路板外部。
5复位8260的复位逻辑有以下几种输入:不同的复位源会有不同的复位效果。
这里要重点说明的是上电复位过程。
当外部输入信号/PORESET有效时开始上电复位流程。
在供给芯片的电压达到至少2/3Vcc 以后,/PORESET有效信号还必须保持至少16个输入时钟周期。
此时CPU的输出管脚/HRESET和/SRESET都为低电平。
当/PORESET引脚由低变高时候,采样/RSTCONF的电压,以决定芯片的工作模式。
如果/RSTCONF是高电平,8260配置为从模式,如果为低则8260配置为主模式。
1BSP概述BSP即Board Support Package,板级支持包。
它来源于嵌入式操作系统与硬件无关的设计思想,操作系统被设计为运行在虚拟的硬件平台上。
对于具体的硬件平台,与硬件相关的代码都被封装在BSP中,由BSP向上提供虚拟的硬件平台,BSP与操作系统通过定义好的接口进展交互。
BSP是所有与硬件相关的代码体的集合。
一个成熟的商用操作系统,其被广泛应用的必要条件之一就是能够支持众多的硬件平台,并实现应用程序的硬件无关性。
一般来说,这种无关性都是由操作系统实现的。
但对于嵌入式系统来说,它没有像PC机那样具有广泛使用的各种工业标准、统一的硬件构造。
各种嵌入式系统各不同的应用需求就决定了它一般都选用各自定制的硬件环境,每种嵌入式系统从核心的处理器到外部芯片在硬件构造上都有很大的不同。
这种诸多变化的硬件环境就决定了无法完全由操作系统来实现上层软件与底层硬件之间的无关性。
因此各种商用实时操作系统,都采用了分层设计的方法,它将系统中与硬件直接相关的一层软件独立出来,称之为Board Support Package,简称为BSP。
顾名思义,BSP是针对某个特定的单板而设计的。
如果没有单板支持软件包,那么操作系统就不能在单板上运行。
并且它对于用户〔指开发者〕也是开放的,用户可以根据不同的硬件需求对其作改动或二次开发。
BSP在嵌入式系统中的角色,很相似于在PC系统中的BIOS和驱动程序的地位。
BSP的具体构造和组成根据不同的嵌入式操作系统而不同。
BSP的开发要求设计人员具备软硬件方面的综合知识。
BSP软件与其他软件的最大区别在于BSP软件有一整套模板和格式,开发人员必须严格遵守,不允许任意发挥。
在BSP软件中,绝大局部文件的文件名和所要完成的功能都是固定的。
所以,BSP软件的开发一般来说都是在一个根本成型的BSP软件上进展修改,以适应不同单板的需求。
针对某类CPU的硬件单板,嵌入式操作系统(如vxWorks)通常提供有其DEMO板的BSP, 这些程序位于指定的目录之下。
PowerQUICC IIFreescaleFreescale前身为摩托罗拉半导体,2004年分拆后成为独立公司,2006年底被私募基金以176亿美金收购并私有化, 是全球前20大半导体公司之一,高峰时年销售额超过60亿美金。
公司总部位于美国德州,全球员工超过两万名。
Freescale产品在汽车电子、通信网络等领域有很强的优势。
PowerQUICC II介绍飞思卡尔(Freescale)存储PowerQUICC II Pro系列以较高的性价比集高性能、集成、安全和功率管理功能于一身。
该处理器集成了大量对存储市场成功具有重要意义的技术,包括SATA、PCI Express、USB 2.0、千兆以太网、XOR加速和高性能安全功能。
PowerQUICC II系列产品价格产品型号产品描述价格MPC8241LZQ200D IC MPU 32BIT 200MHZ PPC 357-PBGA23.267 MPC8248VRMIBA IC MPU POWERQUICC II 516-PBGA 31.845 MPC8248CVRPIEA IC MPU POWERQUICC II 516-PBGA 37.474 MPC8272CVRMIBA IC MPU POWERQUICC II 516-PBGA 36.21 MPC8245LZU266D IC MPU 32BIT 266MHZ 352-TBGA 41.464 MPC8271VRTIEA IC MPU POWERQUICC II 516-PBGA 44.709 MPC8248CVRTIEA IC MPU POWERQUICC II 516-PBGA 52.572 MPC8271CVRTIEA IC MPU POWERQUICC II 516-PBGA 51.945 MPC8270VRMIBA IC MPU POWERQUICC II 516-PBGA 47.476 MPC8250AVRIHBC IC MPU POWERQUICC II 516-PBGA 56.995 MPC8245LVV333D IC MPU 32BIT 333MHZ PPC 352-TBGA48.47 MPC8272VRTMFA IC MPU POWERQUICC II 516-PBGA 61.757 MPC8245TVV333D IC MPU 32BIT 333MHZ PPC 352-TBGA75.421 MPC8270VVQLDA IC MPU POWERQUICC II 480-TBGA 71.099 MPC8270ZUQLDA IC MPU POWERQUICC II 480-TBGA 79.111 MPC8250AVVPIBC IC MPU POWERQUICC II 480-TBGA 80.074 MPC8250ACZUMHBC IC MPU POWERQUICC II 480-TBGA 91.81 MPC8250AZUPIBC IC MPU POWERQUICC II 480-TBGA 104.143 MPC8255ACVVMHBB IC MPU POWERQUICC II 480-TBGA 140.454 MPC8260ACVVMHBB IC MPU POWERQUICC II 480-TBGA 133.647 MPC8260ACVVMIBB IC MPU POWERQUICC II 480-TBGA 160.126 MPC8280ZUUPEA IC MPU POWERQUICC II 480-TBGA 144.883 MPC8280VVUPEA IC MPU POWERQUICC II 480-TBGA 155.859 MPC8260AVVPJDB IC MPU POWERQUICC II 480-TBGA 180.712 MPC8260AZUPJDB IC MPU POWERQUICC II 480-TBGA 178.453 MPC8280CVVUPEA IC MPU POWERQUICC II 480-TBGA 178.68 MPC8241LVR166D IC MPU 32BIT 166MHZ PPC 357-PBGA17.464 MPC8241LVR200D IC MPU 32BIT 200MHZ PPC 357-PBGA24.154 MPC8248ZQMIBA IC MPU POWERQUICC II 516-PBGA 28.654 MPC8241LVR266D IC MPU 32BIT 266MHZ PPC 357-PBGA28.921 MPC8271ZQMIBA IC MPU POWERQUICC II 516-PBGA 28.274 MPC8247VRMIBA IC MPU POWERQUICC II 516-PBGA 29.146 MPC8247CVRMIBA IC MPU POWERQUICC II 516-PBGA 30.719 MPC8247CZQMIBA IC MPU POWERQUICC II 516-PBGA 30.274 MPC8247VRPIEA IC MPU POWERQUICC II 516-PBGA 38.422 MPC8248CVRMIBA IC MPU POWERQUICC II 516-PBGA 36.885 MPC8248ZQTIEA IC MPU POWERQUICC II 516-PBGA 33.163 MPC8247CVRPIEA IC MPU POWERQUICC II 516-PBGA 38.739 MPC8272ZQTIEA IC MPU POWERQUICC II 516-PBGA 35.458 MPC8271CVRMIBA IC MPU POWERQUICC II 516-PBGA 35.749MPC8272VRPIEA IC MPU POWERQUICC II 516-PBGA 36.115 MPC8247VRTIEA IC MPU POWERQUICC II 516-PBGA 43.371 MPC8247ZQTIEA IC MPU POWERQUICC II 516-PBGA 45.018 MPC8248VRTIEA IC MPU POWERQUICC II 516-PBGA 44.321 MPC8248VRTMFA IC MPU POWERQUICC II 516-PBGA 54.18 MPC8272VRTIEA IC MPU POWERQUICC II 516-PBGA 47.924 MPC8245LVV300D IC MPU 32BIT 300MHZ PPC 352-TBGA58.346 MPC8245LZU300D IC MPU 32BIT 300MHZ 352-TBGA 45.844 MPC8275ZQMIBA IC MPU POWERQUICC II 516-PBGA 49.28 MPC8270ZQMIBA IC MPU POWERQUICC II 516-PBGA 48.937 MPC8245TVV266D IC MPU 32BIT 266MHZ PPC 352-TBGA49.355 MPC8270CVRMIBA IC MPU POWERQUICC II 516-PBGA 65.092 MPC8250ACVRIHBC IC MPU POWERQUICC II 516-PBGA 57.07 MPC8245LVV350D IC MPU 32BIT 350MHZ PPC 352-TBGA68.327 MPC8275VRMIBA IC MPU POWERQUICC II 516-PBGA 81.841 MPC8245ARVV400D IC MPU 32BIT 400MHZ 352-TBGA 83.278 MPC8275CVRMIBA IC MPU POWERQUICC II 516-PBGA 81.464 MPC8270VVUPEA IC MPU POWERQUICC II 480-TBGA 87.731 MPC8270CVVUPEA IC MPU POWERQUICC II 480-TBGA 91.211 MPC8255AVVMHBB IC MPU POWERQUICC II 480-TBGA 107.195 MPC8260AZUMHBB IC MPU POWERQUICC II 480-TBGA 144.666 MPC8260AZUPIBB IC MPU POWERQUICC II 480-TBGA 146.017 MPC8280CVVQLDA IC MPU POWERQUICC II 480-TBGA 144.878 MPC8265AVVPIBC IC MPU POWERQUICC II 480-TBGA 158.162 MPC8241LZQ166D IC MPU 32BIT 166MHZ PPC 357-PBGA11.759 MPC8241TZQ166D IC MPU 32BIT 166MHZ 357-PBGA 14.711 MPC8241TZQ200D IC MPU 32BIT 200MHZ 357-PBGA 14.644 MPC8272VRMIBA IC MPU POWERQUICC II 516-PBGA 21.781 MPC8241TVR166D IC MPU 32BIT 166MHZ 357-PBGA 21.653 MPC8247ZQMIBA IC MPU POWERQUICC II 516-PBGA 26.316 MPC8241LZQ266D IC MPU 32BIT 266MHZ 357-PBGA 25.502 MPC8241TVR200D IC MPU 32BIT 200MHZ 357-PBGA 27.93 MPC8245TZU266D IC MPU 32BIT 266MHZ PPC 352-TBGA33.748 MPC8272CZQMIBA IC MPU POWERQUICC II 516-PBGA 29.8 MPC8245LZU350D IC MPU 32BIT 350MHZ PPC 352-TBGA38.439 MPC8245TVV300D IC MPU 32BIT 300MHZ PPC 352-TBGA34.615 MPC8245LVV266D IC MPU 32BIT 266MHZ PPC 352-TBGA46.72 MPC8247CVRTIEA IC MPU POWERQUICC II 516-PBGA 41.648 MPC8245LZU333D IC MPU 32BIT 333MHZ 352-TBGA 41.105 XPC8240LZU200E MCU HOST PROCESSOR 352-TBGA 45.371XPC8240LVV200E IC MPU INTEGRATED 200MHZ352TBGA 40.875XPC8240RVV250E IC MPU INTEGRATED 250MHZ352TBGA 44.914MPC8250AZUMHBC IC MPU POWERQUICC II 480-TBGA 53.289 XPC8240RZU250E MCUHOST PROCESSOR 352-TBGA 50.799 MPC8245TZU300D IC MPU 32BIT 300MHZ 352-TBGA 51.118 MPC8245TVV350D IC MPU 32BIT 350MHZ PPC 352-TBGA59.275 MPC8245TZU333D IC MPU 32BIT 333MHZ 352-TBGA 61.583 MPC8270CZUQLDA IC MPU POWERQUICC II 480-TBGA 66.316 MPC8245TZU350D IC MPU 32BIT 350MHZ 352-TBGA 56.384 MPC8250AVVMHBC IC MPU POWERQUICC II 480-TBGA 79.78 MPC8245ARZU400D IC MPU 32BIT 400MHZ 352-TBGA 66.424 MPC8250ACVVMHBC IC MPU POWERQUICC II 480-TBGA 85.646 MPC8260ACZUMHBB IC MPU POWERQUICC II 480-TBGA 89.535 MPC8260AVVPIBB IC MPU POWERQUICC II 480-TBGA 79.708 MPC8270CVVQLDA IC MPU POWERQUICC II 480-TBGA 81.541 MPC8255AZUMHBB IC MPU POWERQUICC II 480-TBGA 83.198 MPC8270ZUUPEA IC MPU POWERQUICC II 480-TBGA 88.933 MPC8255ACVVMIBB IC MPU POWERQUICC II 480-TBGA 101.688 MPC8255AVVPIBB IC MPU POWERQUICC II 480-TBGA 91.519 MPC8255ACZUMHBB IC MPU POWERQUICC II 480-TBGA 85.164 MPC8255ACZUMIBB IC MPU POWERQUICC II 480-TBGA 105.501 MPC8255AZUPIBB IC MPU POWERQUICC II 480-TBGA 95.332 MPC8260AVVMHBB IC MPU POWERQUICC II 480-TBGA 92.949 MPC8270CZUUPEA IC MPU POWERQUICC II 480-TBGA 105.752 MPC8280VVQLDA IC MPU POWERQUICC II 480-TBGA 105.944 MPC8280ZUQLDA IC MPU POWERQUICC II 480-TBGA 108.626 XPC8255VVIFBC IC MPU POWERQUICC II 480-TBGA 91.016 XPC8255ZUIFBC IC MPU POWERQUICC II 480-TBGA 89.658 MPC8265AVVMHBC IC MPU POWERQUICC II 480-TBGA 109.502 MPC8265AZUMHBC IC MPU POWERQUICC II 480-TBGA 101.079 MPC8280CZUQLDA IC MPU POWERQUICC II 480-TBGA 116.707 XPC8255CVVIFBC IC MPU POWERQUICC II 480-TBGA 112.473 XPC8255CZUIFBC IC MPU POWERQUICC II 480-TBGA 103.821 MPC8260ACZUMIBB IC MPU POWERQUICC II 480-TBGA 117.612 MPC8265ACZUMHBC IC MPU POWERQUICC II 480-TBGA 123.53 MPC8265AZUPIBC IC MPU POWERQUICC II 480-TBGA 100.368 XPC8260VVHFBC IC MPU POWERQUICC II 480-TBGA 128.226 XPC8260ZUHFBC IC MPU POWERQUICC II 480-TBGA 104.481 MPC8264AVVMHBB IC MPU POWERQUICC II 480-TBGA 125.353 MPC8264AZUMHBB IC MPU POWERQUICC II 480-TBGA 131.7 MPC8280CZUUPEA IC MPU POWERQUICC II 480-TBGA 141.755 MPC8265ACVVMIBC IC MPU POWERQUICC II 480-TBGA 136.759MPC8265ACZUMIBC IC MPU POWERQUICC II 480-TBGA 145.414 XPC8260CVVHFBC IC MPU POWERQUICC II 480-TBGA 132.339 XPC8260VVIFBC IC MPU POWERQUICC II 480-TBGA 113.184 XPC8260CZUHFBC IC MPU POWERQUICC II 480-TBGA 125.374 XPC8260ZUIFBC IC MPU POWERQUICC II 480-TBGA 125.374 MPC8264AZUPIBB IC MPU POWERQUICC II 480-TBGA 125.73 MPC8264AVVPIBB IC MPU POWERQUICC II 480-TBGA 122.238 MPC8265AVVPJDC IC MPU POWERQUICC II 480-TBGA 142.01 MPC8265AZUPJDC IC MPU POWERQUICC II 480-TBGA 124.259 MPC8264ACVVMIBB IC MPU POWERQUICC II 480-TBGA 138.671 MPC8264ACZUMIBB IC MPU POWERQUICC II 480-TBGA 153.268 XPC8260CVVIFBC IC MPU POWERQUICC II 480-TBGA 151.337 XPC8260VVIHBC IC MPU POWERQUICC II 480-TBGA 134.096 XPC8260CZUIFBC IC MPU POWERQUICC II 480-TBGA 137.927 XPC8260ZUIHBC IC MPU POWERQUICC II 480-TBGA 155.168 MPC8264AVVPJDB IC MPU POWERQUICC II 480-TBGA 152.57 MPC8264AZUPJDB IC MPU POWERQUICC II 480-TBGA 138.517 MPC8266AVVPJDC IC MPU POWERQUICC II 480-TBGA 165.392 MPC8266AZUPJDC IC MPU POWERQUICC II 480-TBGA 165.392 XPC8260CVVIHBC IC MPU POWERQUICC II 480-TBGA 145.443 XPC8260CZUIHBC IC MPU POWERQUICC II 480-TBGA 147.551 MPC8247VRTMFA IC MPU POWERQUICC II 516-PBGA 37.956 MPC8248VRPIEA IC MPU POWERQUICC II 516-PBGA 33.12 MPC8271CVRPIEA IC MPU POWERQUICC II 516-PBGA 32.303 MPC8271VRMIBA IC MPU POWERQUICC II 516-PBGA 25.981 MPC8271VRPIEA IC MPU POWERQUICC II 516-PBGA 24.485 MPC8271VRTMFA IC MPU POWERQUICC II 516-PBGA 44.612 MPC8272CVRPIEA IC MPU POWERQUICC II 516-PBGA 25.741 MPC8272CVRTIEA IC MPU POWERQUICC II 516-PBGA 40.122 MPC8275CZQMIBA IC MPU POWERQUICC II 516-PBGA 58.931 KMPC8241LVR166D IC MPU 32BIT 166MHZ 357-PBGAKMPC8241LVR200D IC MPU 32BIT 200MHZ 357-PBGAKMPC8241LVR266D IC MPU 32BIT 266MHZ 357-PBGAKMPC8241LZQ166D IC MPU 32BIT 166MHZ 357-PBGAKMPC8241LZQ200D IC MPU 32BIT 200MHZ 357-PBGAKMPC8241LZQ266D IC MPU 32BIT 266MHZ 357-PBGAKMPC8241TZQ166D IC MPU 32BIT 166MHZ 357-PBGAKMPC8241TZQ200D IC MPU 32BIT 200MHZ 357-PBGAKMPC8245ARVV400D IC MPU 32BIT 400MHZ 352-TBGAKMPC8245ARZU400D IC MPU 32BIT 400MHZ 352-TBGAKMPC8245LVV266D IC MPU 32BIT 266MHZ 352-TBGAKMPC8245LVV300D IC MPU 32BIT 300MHZ 352-TBGAKMPC8245LVV333D IC MPU 32BIT 333MHZ 352-TBGAKMPC8245LVV350D IC MPU 32BIT 350MHZ 352-TBGAKMPC8245LZU266D IC MPU 32BIT 266MHZ 352-TBGAKMPC8245LZU300D IC MPU 32BIT 300MHZ 352-TBGAKMPC8245LZU333D IC MPU 32BIT 333MHZ 352-TBGAKMPC8245LZU350D IC MPU 32BIT 350MHZ 352-TBGAKMPC8245TVV333D IC MPU 32BIT 333MHZ 352-TBGAKMPC8245TVV350D IC MPU 32BIT 350MHZ 352-TBGAKMPC8245TZU333D IC MPU 32BIT 333MHZ 352-TBGAKMPC8245TZU350D IC MPU 32BIT 350MHZ 352-TBGAKMPC8247CVRTIEA IC MPU PWRQUICC II 516-PBGA 34.31 KMPC8247CZQTIEA IC MPU PWRQUICC II 516-PBGA 36.949 KMPC8247VRTIEA IC MPU PWRQUICC II 516-PBGA 37.616 KMPC8247VRTMFA IC MPU PWRQUICC II 516-PBGA 35.488 KMPC8247ZQTIEA IC MPU PWRQUICC II 516-PBGA 39.184 KMPC8247ZQTMFA IC MPU PWRQUICC II 516-PBGA 41.403 KMPC8248CVRTIEA IC MPU PWRQUICC II 516-PBGA 39.877 KMPC8248CZQTIEA IC MPU PWRQUICC II 516-PBGA 45.416 KMPC8248VRTIEA IC MPU PWRQUICC II 516-PBGA 39.442 KMPC8248VRTMFA IC MPU PWRQUICC II 516-PBGA 45.688 KMPC8248ZQTIEA IC MPU PWRQUICC II 516-PBGA 46.015 KMPC8248ZQTMFA IC MPU PWRQUICC II 516-PBGA 45.124 KMPC8250ACVRIHBC IC MPU PWRQUICC II 516-PBGA 57.313 KMPC8250ACVVMHBC IC MPU PWRQUICC II 480-TBGAKMPC8250ACZQIHBC IC MPU POWERQUICC II 516-PBGA 53.902 KMPC8250ACZUMHBC IC MPU PWRQUICC II 480-TBGAPWRQUICC II 516-PBGA 42.177 KMPC8250AVRIHBC ICMPUKMPC8250AVVPIBC IC MPU PWRQUICC II 480-TBGAKMPC8250AZUPIBC IC MPU PWRQUICC II 480-TBGAKMPC8255ACVVMHBB IC MPU PWRQUICC II HIP3 480-TBGAKMPC8255ACZUMHBB IC MPU PWRQUICC II HIP3 480-TBGAKMPC8255AVVPIBB IC MPU PWRQUICC II HIP3 480-TBGAKMPC8255AZUPIBB IC MPU PWRQUICC II HIP3 480-TBGAKMPC8260ACVVMHBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260ACVVMIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260ACZUMHBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260ACZUMIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260AVVPIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260AVVPJDB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260AZUPIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8260AZUPJDB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8264ACVVMIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8264ACZUMIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8264AVVPIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8264AVVPJDB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8264AZUPIBB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8264AZUPJDB IC MPU PWRQUICC II HIP4 480-TBGAKMPC8265ACVVMIBC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8265ACZUMIBC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8265AVVPIBC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8265AVVPJDC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8265AZUPIBC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8265AZUPJDC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8266AVVPJDC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8266AZUPJDC IC MPU PWRQUICC II HIP4 480-TBGAKMPC8270CVRMIBA IC MPU PWRQUICC II HIP7 516-PBGA55.932 KMPC8270CVVQLDA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8270CVVUPEA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8270CZQMIBA IC MPU PWRQUICC II HIP7 516-PBGA51.158 KMPC8270CZUQLDA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8270CZUUPEA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8270VRMIBA IC MPU PWRQUICC II HIP7 516-PBGA42.793 KMPC8270VVUPEA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8270ZQMIBA IC MPU PWRQUICC II HIP7 516-PBGA49.819 KMPC8270ZUUPEA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8271CVRTIEA IC MPU PWRQUICC II 32BIT 516PBGA39.976 KMPC8271CZQTIEA IC MPU PWRQUICC II 32BIT 516PBGA47.245 KMPC8271VRTIEA IC MPU PWRQUICC II 32BIT 516PBGA39.647 KMPC8271VRTMFA IC MPU PWRQUICC II 32BIT 516PBGA43.162 KMPC8271ZQTIEA IC MPU PWRQUICC II 32BIT 516PBGA35.792 KMPC8271ZQTMFA IC MPU PWRQUICC II 32BIT 516PBGA41.929 KMPC8272CVRTIEA IC MPU PWRQUICC II 32BIT 516PBGA45.472 KMPC8272CZQTIEA IC MPU PWRQUICC II 32BIT 516PBGA42.945 KMPC8272VRTIEA IC MPU PWRQUICC II 32BIT 516PBGA46.502 KMPC8272VRTMFA IC MPU PWRQUICC II 32BIT 516PBGA50.15 KMPC8272ZQTIEA IC MPU PWRQUICC II 32BIT 516PBGA46.502 KMPC8272ZQTMFA IC MPU PWRQUICC II 32BIT 516PBGA45.006 KMPC8275CVRMIBA IC MPU PWRQUICC II HIP7 516-PBGA65.286 KMPC8275CZQMIBA IC MPU PWRQUICC II HIP7 516-PBGA74.109 KMPC8275VRMIBA IC MPU PWRQUICC II HIP7 516-PBGA54.529 KMPC8275ZQMIBA IC MPU PWRQUICC II HIP7 516-PBGA56.935 KMPC8280CVVQLDA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8280CVVUPEA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8280CZUQLDA IC MPU PWRQUICC II HIP7 480-TBGAKMPC8280CZUUPEA IC MPU PWRQUICC II HIP7 480-TBGA KMPC8280VVUPEA IC MPU PWRQUICC II HIP7 480-TBGA KMPC8280ZUUPEA IC MPU PWRQUICC II HIP7 480-TBGAKXPC8240LVV200E IC MPU INTEGRATED 250MHZ 352TBGAKXPC8240RVV250E IC MPU INTEGRATED 250MHZ 352TBGAKXPC8255CVVIFBC IC MPU POWERQUICC II 480-TBGAKXPC8255CZUIFBC IC MPU POWERQUICC II 480-TBGAKXPC8255VVIFBC IC MPU POWERQUICC II 480-TBGAKXPC8255ZUIFBC IC MPU POWERQUICC II 480-TBGAKXPC8260CVVIHBC IC MPU POWERQUICC II 480-TBGAKXPC8260CZUIHBC IC MPU POWERQUICC II 480-TBGAKXPC8260VVIHBC IC MPU POWERQUICC II 480-TBGAKXPC8260ZUIHBC IC MPU POWERQUICC II 480-TBGAMPC8247CZQPIEA IC MPU POWERQUICC II 516-PBGA 29.4 MPC8247CZQTIEA IC MPU POWERQUICC II 516-PBGA 32.137 MPC8247ZQPIEA IC MPU POWERQUICC II 516-PBGA 26.354 MPC8247ZQTMFA IC MPU POWERQUICC II 516-PBGA 32.263 MPC8248CZQMIBA IC MPU POWERQUICC II 516-PBGA 26.134 MPC8248CZQPIEA IC MPU POWERQUICC II 516-PBGA 30.842 MPC8248CZQTIEA IC MPU POWERQUICC II 516-PBGA 39.096 MPC8248ZQPIEA IC MPU POWERQUICC II 516-PBGA 32.788 MPC8248ZQTMFA IC MPU POWERQUICC II 516-PBGA 39.816 MPC8250ACZQIHBC IC MPU POWERQUICC II 516-PBGA 44.524 MPC8250AZQIHBC IC MPU POWERQUICC II 516-PBGA 41.161 MPC8270CZQMIBA IC MPU POWERQUICC II 516-PBGA 66.699 MPC8271CZQMIBA IC MPU POWERQUICC II 516-PBGA 30.683 MPC8271CZQPIEA IC MPU POWERQUICC II 516-PBGA 38.003 MPC8271CZQTIEA IC MPU POWERQUICC II 516-PBGA 42.756 MPC8271ZQPIEA IC MPU POWERQUICC II 516-PBGA 35.843 MPC8271ZQTIEA IC MPU POWERQUICC II 516-PBGA 32.552 MPC8271ZQTMFA IC MPU POWERQUICC II 516-PBGA 45.156 MPC8272CZQPIEA IC MPU POWERQUICC II 516-PBGA 35.747 MPC8272CZQTIEA IC MPU POWERQUICC II 516-PBGA 36.221 MPC8272ZQMIBA IC MPU POWERQUICC II 516-PBGA 25.896 MPC8272ZQPIEA IC MPU POWERQUICC II 516-PBGA 31.078 MPC8272ZQTMFA IC MPU POWERQUICC II 516-PBGA 39.144 SC8245ARZU466D IC MPU 32BIT 466MHZ 352-TBGA 59.589 KMPC8241TVR200D IC MPU 32BIT 200MHZ 357-PBGAKMPC8241TVR166D IC MPU 32BIT 166MHZ 357-PBGA。
