没有合适的资源?快使用搜索试试~ 我知道了~
首页最新VITA46.3 SRIO口的接口定义
资源详情
资源评论
资源推荐
VITA
PO Box 19658, Fountain Hills, AZ 85269
PH: 480-837-7486
Email: info@vita.com
URL: http://www.vita.com
Approved American National Standard
ANSI/VITA 46.3
Serial RapidIO™ on VPX Fabric Connector
Abstract
The objectives of this standard are to assign Serial RapidIO ports to the VPX P1/J1
connector and to provide rules and recommendations for the use of the assigned
Serial RapidIO ports.
Approved June 2012
American National Standards Institute, Inc.
American
National
Standard
Approval of an American National Standard requires verification
by ANSI that the requirements for due process, consensus, and
other criteria for approval have been met by the standards
developer.
Consensus is established when, in the judgment of the ANSI Board
of Standards Review, substantial agreement has been reached by
directly and materially affected interests. Substantial agreement
means much more than a simple majority, but not necessarily
unanimity. Consensus requires that all views and objections be
considered, and that a concerted effort be made toward their
resolution.
The use of American National Standards is completely voluntary;
their existence does not in any respect preclude anyone, whether
he has approved the standards or not, from manufacturing,
marketing, purchasing, or using products, processes, or procedures
not conforming to the standards.
The American National Standards Institute does not develop
standards and will in no circumstances give an interpretation of
any American National Standard. Moreover, no person shall have
the right or authority to issue an interpretation of an American
National Standard in the name of the American National Standard
Institute. Requests for interpretations should be addressed to the
secretariat or sponsor whose name appears on the title page of this
standard.
CAUTION NOTICE: This American National Standard may be
revised or withdrawn at any time. The procedures of the American
National Standards Institute require that action be taken
periodically to reaffirm, revise, or withdraw this standard.
Purchases of American National Standards may receive current
information on all standard by calling or writing the American
National Standards Institute.
Published by
VITA
PO Box 19658, Fountain Hills, AZ 85269
Copyright © 2012 by VITA
All rights reserved.
Permission of the publisher is required to reproduce this document or any part of it.
Printed in the United States of America - R1.0
ISBN 1-885731-72-8
ANSI/VITA 46.3
Copyright 2012 VITA Page 3 of 47
Table of Contents
1 Introduction 7
1.1 Serial RapidIO Technology Overview 7
1.2 Objectives 8
1.3 Terminology 9
1.3.1 Specification Key Words 9
1.3.2 Definitions 11
1.4 References 12
2 VITA 46.3 Compliance 13
2.1 General Requirements 13
2.2 3U Plug-In Module Minimum Requirements 13
2.3 6U Plug-In Module Minimum Requirements 13
2.4 Backplane Minimum Requirements 13
3 Plug-In Module Requirements 14
3.1 Connector Pin Mappings 14
4 Backplane Requirements 36
4.1 Connector Pin Mapping 36
5 Electrical Requirements 45
5.1 AC Coupling Capacitors 45
5.2 Impedance 45
5.3 Signal Integrity 46
6 Nomenclature 47
ANSI/VITA 46.3
Copyright 2012 VITA Page 4 of 47
Tables
Table 1: Definitions .......................................................................................................... 11
Table 2: Plug-in Module P1 Connector Pin Assignments – 1x/Mx/16x Port ................... 16
Table 3: Plug-in Module P1 Connector Signal Definitions – 1x/Mx/16x Port................. 16
Table 4: P1/J1 Connector Port/Link Assignments – 1x/Mx/16x Ports ............................. 17
Table 5: Plug-in Module P1 Connector Pin Assignments – 1x/Mx/8x Ports ................... 18
Table 6: Plug-in Module P1 Connector Signal Definitions – 1x/Mx/8x Ports ................. 18
Table 7: P1/J1 Connector Port/Link Assignments – 1x/Mx/8x Ports ............................... 19
Table 8: Plug-in Module P1 Connector Pin Assignments – 1x/Mx/4x Ports ................... 20
Table 9: Plug-in Module P1 Connector Signal Definitions – 1x/Mx/4x Ports ................. 20
Table 10: P1/J1 Connector Port/Link Assignments – 1x/Mx/4x Ports ............................. 21
Table 11: Plug-in Module P1 Connector Pin Assignments – 1x/2x Ports ........................ 22
Table 12: Plug-in Module P1 Connector Signal Definitions – 1x/2x Ports ...................... 22
Table 13: P1/J1 Connector Port/Link Assignments – 1x/2x Ports ................................... 23
Table 14: Plug-in Module P1 Connector Pin Assignments – 1x Ports ............................. 25
Table 15: Plug-in Module P1 Connector Signal Definitions – 1x Ports ........................... 25
Table 16: P1/J1 Connector Port/Link Assignments – 1x Ports......................................... 26
Table 17: Backplane Slot J1 Connector Pin Assignments – 1x/Mx/16x Port .................. 36
Table 18: Backplane J1 Signal Definitions – 1x/Mx/16x Port ......................................... 37
Table 19: Backplane Slot J1 Connector Pin Assignments – 1x/Mx/8x Ports ................... 37
Table 20: Backplane J1 Signal Definitions – 1x/Mx/8x Ports .......................................... 38
Table 21: Backplane Slot J1 Connector Pin Assignments – 1x/Mx/4x Ports ................... 39
Table 22: Backplane J1 Signal Definitions – 1x/Mx/4x Ports .......................................... 40
Table 23: Backplane Slot J1 Connector Pin Assignments – 1x/2x Ports ......................... 41
Table 24: Backplane J1 Signal Definitions – 1x/2x Ports ................................................ 42
Table 25: Backplane Slot J1 Connector Pin Assignments – 1x Ports ............................... 43
Table 26: Backplane J1 Signal Definitions – 1x Ports ..................................................... 44
Table 27: VITA 46.3 Port Capability Nomenclature ........................................................ 47
ANSI/VITA 46.3
Copyright 2012 VITA Page 5 of 47
Working Group Membership
Name
Company
Nauman Arshad
Curtiss-Wright Controls Embedded Computing
Lori Bechtold
Boeing
Chris Eckert
GE
Gerard Drewek
General Dynamics
Fred Fons
Foxconn
Bob Ford
Boeing
Scott Goedeke
Northrop Grumman
Dan Golden
Boeing
Val Gueorguiev
Independent Consultant
Mike Gust
Mercury Computer Systems
Rex Harvey
Parker Hannifin Corporation
Richard Hodges
Parker Hannifin Corporation
Dean Holman
Mercury Computer Systems
Emil Kheyfets
AI Tech
Andreas Lenkisch
Pentair
Michael Munroe
Elma Bustronic
Bob Patterson
Tyco
David Pepper
GE
Jim Robles
Boeing
Greg Rocco
Mercury Computer Systems
John Rynearson
VITA
Mike Shorey
Mercury Computer Systems
Ivan Straznicky
Curtiss-Wright Controls Embedded Computing
John Streyle
GE
Bob Sullivan
Curtiss-Wright Controls Electronic Systems
Bruce Thomas
Curtiss-Wright Controls Electronic Systems
Michael Thompson
Pentair
Dan Toohey
Mercury Computer Systems
Dean Holman
Mercury Computer Systems
Ben Winder
Curtiss-Wright Controls Embedded Computing
剩余46页未读,继续阅读
hbyanjiazhi163
- 粉丝: 3
- 资源: 5
上传资源 快速赚钱
- 我的内容管理 收起
- 我的资源 快来上传第一个资源
- 我的收益 登录查看自己的收益
- 我的积分 登录查看自己的积分
- 我的C币 登录后查看C币余额
- 我的收藏
- 我的下载
- 下载帮助
会员权益专享
最新资源
- c++校园超市商品信息管理系统课程设计说明书(含源代码) (2).pdf
- 建筑供配电系统相关课件.pptx
- 企业管理规章制度及管理模式.doc
- vb打开摄像头.doc
- 云计算-可信计算中认证协议改进方案.pdf
- [详细完整版]单片机编程4.ppt
- c语言常用算法.pdf
- c++经典程序代码大全.pdf
- 单片机数字时钟资料.doc
- 11项目管理前沿1.0.pptx
- 基于ssm的“魅力”繁峙宣传网站的设计与实现论文.doc
- 智慧交通综合解决方案.pptx
- 建筑防潮设计-PowerPointPresentati.pptx
- SPC统计过程控制程序.pptx
- SPC统计方法基础知识.pptx
- MW全能培训汽轮机调节保安系统PPT教学课件.pptx
资源上传下载、课程学习等过程中有任何疑问或建议,欢迎提出宝贵意见哦~我们会及时处理!
点击此处反馈
安全验证
文档复制为VIP权益,开通VIP直接复制
信息提交成功
评论1