英语文档阅读学习系列之ZYNQ-7000 All Programmable SOC Packaging and Pinout
Posted on 2020-05-16 07:53 绿叶落秋风 阅读(453) 评论(0) 编辑 收藏 举报UG865-Zynq-7000-pkg-pinout
1、Table
一个overview和其他部分的构成一个整体。
2、overview
This section describes the pinouts for the Zynq®-7000 All Programmable (AP) SoC available in 0.8 mm pitch wire bond and various 0.8 mm and 1.0 mm pitch flip-chip and fine-pitch BGA packages. Package inductance is minimized as a result of optimal placement and even distribution as well as an optimal number of Power and GND pins. Flip-chip packages (FFG, FBG, SBG, RFG) are RoHS 6 of 6 compliant, with exemption 15 where there is lead in the C4 bumps that are used to complete a viable electrical connection between the semiconductor die and the package substrate. Flip-chip packages (FFV, FBV, SBV) are RoHS 6 of 6 compliant without the use of exemption 15. Non-flip chip packages (CLG) are RoHS 6 of 6 compliant. Selected packages include a Pb-only option. All of the Zynq-7000 AP SoC devices supported in a particular package are pinout compatible.
首先,这里的目标是zynq的封装,可以大致浏览一下。
The Zynq-7000 AP SoC contains a large number of fixed and flexible I/O. Zynq-7000 AP SoC has a constant 128 pins dedicated to memory interfaces (DDR I/O), multiplexed peripherals (MIO), and control. Programmable logic provides additional pins for SelectIO™ resources (SIO) and multi-gigabit serial transceivers (GTP or GTX) that scale by device as well as fixed pins for configuration and analog-to-digital conversion (XADC). SIO can be used to extend the MIO to further leverage the fixed peripherals of the processing system (PS). Each device is split into I/O banks to allow for flexibility in the choice of I/O standards (see UG471, 7 Series FPGAs SelectIO Resources User Guide). The PS I/Os are described in UG585, Zynq-7000 All Programmable SoC Technical Reference Manual. Table 1-5 provides definitions for all pin types. Zynq-7000 AP SoCs flip-chip assembly materials are manufactured using ultra-low alpha (ULA) materials defined as <0.002 cph/cm 2 or materials that emit less than 0.002 alpha-particles per square centimeter per hour.
可以看到,这里主要涉及到IO的支持标准。
3、other parts
About ASCII Package Files The ASCII files for each package include a comma-separated-values (CSV) version and a text version optimized for a browser or text editor. Each of the files consists of the following: • Device/Package name (Device—Package), date and time of creation • Eight columns containing data for each pin: ° Pin—Pin location on the package. ° Pin Name—The name of the assigned pin. ° Memory Byte Group—Memory byte group between 0 and 3. For more information on the memory byte group, see UG586, 7 Series FPGAs Memory Interface Solutions User Guide [Ref 7]. ° Bank—Bank number. ° V CCAUX Group—Number corresponding to the V CCAUX_IO power supply for the given pin. V CCAUX is shown for packages with only one V CCAUX group. ° Super Logic Region—Number corresponding to the super logic region (SLR) in the devices implemented with stacked silicon interconnect (SSI) technology. ° I/O Type—CONFIG, HR, HP, MIO, DDR, or GTP/GTX depending on the I/O type. For more information on the I/O type, see UG471, 7 Series FPGAs SelectIO Resources User Guide [Ref 8]. ° No-Connect—This list of devices is used for migration between devices that have the same package size and are not connected at that specific pin.
这里解释了一下ASCII的封装文件。
This chapter provides pinout, high-performance and high-range I/O bank, memory groupings, and power and ground placement diagrams for each Zynq-7000 AP SoC package/device combination. The figures provide a top-view perspective. The symbols for the multi-function I/O pins are represented by only one of the available pin functions; with precedence (by functionality) in this order: • PUDC_B • AD0P/AD0N–AD15P/AD15N • VRN, VRP, or VREF • DQS, MRCC, or SRCC For example, a pin description such as IO_L8P_SRCC_35 is represented with a SRCC symbol, a pin description such as IO_L19N_T3_AD0P_VREF_35 is represented with a AD0P/AD0N-AD15P/AD15N symbol, and a pin description such as IO_L21N_T3_DQS_PUDC_B_34 is represented with a PUDC_B symbol.
这里说明了这章的主要内容是管脚的在设计模型中的标准。也就是软件中进行管脚分配出现的图的解释。
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作者:绿叶落秋风,专注FPGA技术分析和分享,转载请注明原文链接:https://www.cnblogs.com/electricdream/p/12898648.html,文中资源链接如下:
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