Datasheet> 器件分类 > 无线/射频/通信> 电信电路> 82P20516BFG

文档预览

82P20516BFG: 产品描述PCM Transceiver, 1-Func, PBGA484, 19 X 19 MM, GREEN, FPBGA-484; 产品类别无线/射频/通信电信电路; 文件大小911KB，共115页; 制造商IDT (Integrated Device Technology); 标准

下载文档详细参数选型对比全文预览

82P20516BFG概述

PCM Transceiver, 1-Func, PBGA484, 19 X 19 MM, GREEN, FPBGA-484

82P20516BFG规格参数

参数名称	属性值
是否无铅	不含铅
是否Rohs认证	符合
厂商名称	IDT (Integrated Device Technology)
零件包装代码	BGA
包装说明	BGA, BGA484,22X22,32
针数	484
Reach Compliance Code	compliant
Is Samacsys	N
JESD-30 代码	S-PBGA-B484
JESD-609代码	e1
湿度敏感等级	3
功能数量	1
端子数量	484
最高工作温度	85 °C
最低工作温度	-40 °C
封装主体材料	PLASTIC/EPOXY
封装代码	BGA
封装等效代码	BGA484,22X22,32
封装形状	SQUARE
封装形式	GRID ARRAY
峰值回流温度（摄氏度）	260
电源	1.8,3.3 V
认证状态	Not Qualified
标称供电电压	1.8 V
表面贴装	YES
电信集成电路类型	PCM TRANSCEIVER
温度等级	INDUSTRIAL
端子面层	Tin/Silver/Copper (Sn/Ag/Cu)
端子形式	BALL
端子节距	0.8 mm
端子位置	BOTTOM
处于峰值回流温度下的最长时间	30
Base Number Matches	1

文档预览

下载PDF文档

全文
预览

16-Channel

Short Haul E1

Line Interface Unit

IDT82P20516

Version -

December 17, 2009

6024 Silver Creek Valley Road, San Jose, California 95138

Telephone: 1-800-345-7015 or 408-284-8200• TWX: 910-338-2070 • FAX: 408-284-2775

Printed in U.S.A.

Table of Contents

TABLE OF CONTENTS ........................................................................................................................................................... 3

LIST OF TABLES .................................................................................................................................................................... 6

LIST OF FIGURES ................................................................................................................................................................... 7

FEATURES ............................................................................................................................................................................... 8

APPLICATIONS........................................................................................................................................................................ 9

DESCRIPTION.......................................................................................................................................................................... 9

BLOCK DIAGRAM ................................................................................................................................................................. 10

1 PIN ASSIGNMENT .......................................................................................................................................................... 11

2 PIN DESCRIPTION ......................................................................................................................................................... 12

3 FUNCTIONAL DESCRIPTION ........................................................................................................................................ 19

3.1 E1 MODE SELECTION ............................................................................................................................................ 19

3.2 RECEIVE PATH ....................................................................................................................................................... 19

3.2.1 Rx Termination ............................................................................................................................................ 19

3.2.1.1 Receive Differential Mode ........................................................................................................... 19

3.2.2 Equalizer ..................................................................................................................................................... 20

3.2.2.1 Line Monitor ................................................................................................................................ 21

3.2.2.2 Receive Sensitivity ...................................................................................................................... 21

3.2.3 Slicer ........................................................................................................................................................... 22

3.2.4 Rx Clock & Data Recovery ......................................................................................................................... 22

3.2.5 Decoder ...................................................................................................................................................... 22

3.2.6 Receive System Interface ........................................................................................................................... 22

3.2.7 Receiver Power Down ................................................................................................................................ 23

3.3 TRANSMIT PATH .................................................................................................................................................... 23

3.3.1 Transmit System Interface .......................................................................................................................... 23

3.3.2 Tx Clock Recovery ...................................................................................................................................... 24

3.3.3 Encoder ....................................................................................................................................................... 24

3.3.4 Waveform Shaper ....................................................................................................................................... 24

3.3.4.1 Preset Waveform Template ........................................................................................................ 24

3.3.4.2 User-Programmable Arbitrary Waveform .................................................................................... 25

3.3.5 Line Driver ................................................................................................................................................... 27

3.3.5.1 Transmit Over Current Protection ............................................................................................... 27

3.3.6 Tx Termination ............................................................................................................................................ 27

3.3.6.1 Transmit Differential Mode .......................................................................................................... 27

3.3.7 Transmitter Power Down ............................................................................................................................ 29

3.3.8 Output High-Z on TTIP and TRING ............................................................................................................ 29

3.4 JITTER ATTENUATOR (RJA & TJA) ....................................................................................................................... 30

3.5 DIAGNOSTIC FACILITIES ....................................................................................................................................... 31

3.5.1 Bipolar Violation (BPV) / Code Violation (CV) Detection and BPV Insertion .............................................. 31

Table of Contents

December 17, 2009

IDT82P20516

16-CHANNEL SHORT HAUL E1 LINE INTERFACE UNIT

3.5.1.1 Bipolar Violation (BPV) / Code Violation (CV) Detection .............................................................

3.5.1.2 Bipolar Violation (BPV) Insertion .................................................................................................

3.5.2 Excessive Zeroes (EXZ) Detection .............................................................................................................

3.5.3 Loss of Signal (LOS) Detection ...................................................................................................................

3.5.3.1 Line LOS (LLOS) .........................................................................................................................

3.5.3.2 System LOS (SLOS) ...................................................................................................................

3.5.3.3 Transmit LOS (TLOS) .................................................................................................................

3.5.4 Alarm Indication Signal (AIS) Detection and Generation ............................................................................

3.5.4.1 Alarm Indication Signal (AIS) Detection ......................................................................................

3.5.4.2 (Alarm Indication Signal) AIS Generation ...................................................................................

3.5.5 PRBS, QRSS, ARB and IB Pattern Generation and Detection ...................................................................

3.5.5.1 Pattern Generation ......................................................................................................................

3.5.5.2 Pattern Detection ........................................................................................................................

3.5.6 Error Counter ..............................................................................................................................................

3.5.6.1 Automatic Error Counter Updating ..............................................................................................

3.5.6.2 Manual Error Counter Updating ..................................................................................................

3.5.7 Loopback ....................................................................................................................................................

3.5.7.1 Analog Loopback ........................................................................................................................

3.5.7.2 Remote Loopback .......................................................................................................................

3.5.7.3 Digital Loopback ..........................................................................................................................

3.5.8 Channel 0 Monitoring ..................................................................................................................................

3.5.8.1 G.772 Monitoring .........................................................................................................................

3.5.8.2 Jitter Measurement (JM) .............................................................................................................

3.6 CLOCK INPUTS AND OUTPUTS ............................................................................................................................

3.6.1 Free Running Clock Outputs on CLKE1 .....................................................................................................

3.6.2 MCLK, Master Clock Input ..........................................................................................................................

3.6.3 XCLK, Internal Reference Clock Input ........................................................................................................

3.7 INTERRUPT SUMMARY .........................................................................................................................................

4 MISCELLANEOUS ..........................................................................................................................................................

4.1 RESET .....................................................................................................................................................................

4.1.1 Power-On Reset .........................................................................................................................................

4.1.2 Hardware Reset ..........................................................................................................................................

4.1.3 Global Software Reset ................................................................................................................................

4.1.4 Per-Channel Software Reset ......................................................................................................................

4.2 MICROPROCESSOR INTERFACE .........................................................................................................................

4.3 POWER UP ..............................................................................................................................................................

4.4 HITLESS PROTECTION SWITCHING (HPS) SUMMARY ......................................................................................

5 PROGRAMMING INFORMATION ...................................................................................................................................

5.1 REGISTER MAP ......................................................................................................................................................

5.1.1 Global Register ...........................................................................................................................................

5.1.2 Per-Channel Register .................................................................................................................................

5.2 REGISTER DESCRIPTION .....................................................................................................................................

5.2.1 Global Register ...........................................................................................................................................

5.2.2 Per-Channel Register .................................................................................................................................

Table of Contents

December 17, 2009

IDT82P20516

16-CHANNEL SHORT HAUL E1 LINE INTERFACE UNIT

6 JTAG ............................................................................................................................................................................... 92

6.1 JTAG INSTRUCTION REGISTER (IR) .................................................................................................................... 92

6.2 JTAG DATA REGISTER .......................................................................................................................................... 92

6.2.1 Device Identification Register (IDR) ............................................................................................................ 92

6.2.2 Bypass Register (BYP) ............................................................................................................................... 92

6.2.3 Boundary Scan Register (BSR) .................................................................................................................. 92

6.3 TEST ACCESS PORT (TAP) CONTROLLER ......................................................................................................... 92

7 THERMAL MANAGEMENT ............................................................................................................................................ 94

7.1 JUNCTION TEMPERATURE ................................................................................................................................... 94

7.2 EXAMPLE OF JUNCTION TEMPERATURE CALCULATION ................................................................................. 94

7.3 HEATSINK EVALUATION ....................................................................................................................................... 94

8 PHYSICAL AND ELECTRICAL SPECIFICATIONS ....................................................................................................... 95

8.1 ABSOLUTE MAXIMUM RATINGS ........................................................................................................................... 95

8.2 RECOMMENDED OPERATING CONDITIONS ...................................................................................................... 96

8.3 DEVICE POWER CONSUMPTION AND DISSIPATION (TYPICAL) 1 ................................................................... 97

8.4 DEVICE POWER CONSUMPTION AND DISSIPATION (MAXIMUM) 1 ................................................................. 98

8.5 D.C. CHARACTERISTICS ....................................................................................................................................... 99

8.6 E1 RECEIVER ELECTRICAL CHARACTERISTICS ............................................................................................. 100

8.7 E1 TRANSMITTER ELECTRICAL CHARACTERISTICS ...................................................................................... 102

8.8 TRANSMITTER AND RECEIVER TIMING CHARACTERISTICS ......................................................................... 103

8.9 CLKE1 TIMING CHARACTERISTICS ................................................................................................................... 105

8.10 JITTER ATTENUATION CHARACTERISTICS ...................................................................................................... 106

8.11 MICROPROCESSOR INTERFACE TIMING ......................................................................................................... 108

8.11.1 Serial Microprocessor Interface ................................................................................................................ 108

8.12 JTAG TIMING CHARACTERISTICS ..................................................................................................................... 110

GLOSSARY ......................................................................................................................................................................... 111

INDEX .................................................................................................................................................................................. 113

ORDERING INFORMATION ................................................................................................................................................ 115

Table of Contents

December 17, 2009

82P20516BFG相似产品对比

	82P20516BFG	82P20516BF	82P20516DBF
描述	PCM Transceiver, 1-Func, PBGA484, 19 X 19 MM, GREEN, FPBGA-484	PCM Transceiver, 1-Func, PBGA484, 19 X 19 MM, FPBGA-484	PCM Transceiver, 1-Func, PBGA484, 19 X 19 MM, FPBGA-484
是否无铅	不含铅	含铅	含铅
是否Rohs认证	符合	不符合	不符合
厂商名称	IDT (Integrated Device Technology)	IDT (Integrated Device Technology)	IDT (Integrated Device Technology)
零件包装代码	BGA	BGA	BGA
包装说明	BGA, BGA484,22X22,32	BGA, BGA484,22X22,32	BGA, BGA484,22X22,32
针数	484	484	484
Reach Compliance Code	compliant	not_compliant	not_compliant
Is Samacsys	N	N	N
JESD-30 代码	S-PBGA-B484	S-PBGA-B484	S-PBGA-B484
JESD-609代码	e1	e0	e0
湿度敏感等级	3	3	3
功能数量	1	1	1
端子数量	484	484	484
最高工作温度	85 °C	85 °C	85 °C
最低工作温度	-40 °C	-40 °C	-40 °C
封装主体材料	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY
封装代码	BGA	BGA	BGA
封装等效代码	BGA484,22X22,32	BGA484,22X22,32	BGA484,22X22,32
封装形状	SQUARE	SQUARE	SQUARE
封装形式	GRID ARRAY	GRID ARRAY	GRID ARRAY
峰值回流温度（摄氏度）	260	225	225
电源	1.8,3.3 V	1.8,3.3 V	1.8,3.3 V
认证状态	Not Qualified	Not Qualified	Not Qualified
标称供电电压	1.8 V	1.8 V	1.8 V
表面贴装	YES	YES	YES
电信集成电路类型	PCM TRANSCEIVER	PCM TRANSCEIVER	PCM TRANSCEIVER
温度等级	INDUSTRIAL	INDUSTRIAL	INDUSTRIAL
端子面层	Tin/Silver/Copper (Sn/Ag/Cu)	Tin/Lead (Sn63Pb37)	Tin/Lead (Sn63Pb37)
端子形式	BALL	BALL	BALL
端子节距	0.8 mm	0.8 mm	0.8 mm
端子位置	BOTTOM	BOTTOM	BOTTOM
处于峰值回流温度下的最长时间	30	20	30
Base Number Matches	1	1	1

推荐资源

C语言编程规范: 几个C语言编程规范的文档，这些文档有利于大家提高代码的可读性，稳定性和准确性 63996 63997 63998 63999 64000 再补充两个文档 64106 64107 本帖最后由 leang521 于 2011-5-11 09 ......; leang521 单片机

适全于电赛的小车: 本帖最后由 paulhyde 于 2014-9-15 03:44 编辑适合于电赛的小车，包括视频！ 53138 ...; icqw1983 电子竞赛

在windows mobile6.0下怎么找不到GetRunningObjectTable函数啊: 我在mobile怎么找不到GetRunningObjectTable这个函数啊，我从网上看到说mobile下有这个函数的定义，课是我找不到，哪为高手指点一下啊...; ufo2007 嵌入式系统

困惑：C51中结构体的使用: 在写ds18b20驱动程序时，由于读设备64位rom代码，因此想用下结构体。自定义的结构体为： struct RomCode { uchar FamilyCode; uchar SerialCode; uchar Crc; }; 测试主函 ......; yuanbao502 嵌入式系统

VARIANT如何保存数据库所有数据: 最近再做数据库开发.看见ADOCE提供的接口 /* */ HRESULT ( STDMETHODCALLTYPE __RPC_FAR *GetRows )( _Recordset __RPC_FAR * This, /* */ long Rows, ......; liangmao 嵌入式系统

想和高手交流吗?: 深圳程序员QQ群联盟成立两年多，拥有三十个以上的QQ群,人数达二千多人,有30%以上的成员的经验丰富的老手,包括国内外顶级大公司的成员（如微软、IBM,SUN，华为）、国内著名高校和研究院成员，和 ......; fall8950 嵌入式系统

目前电动汽车还存在哪些方面的安全隐患

随着购买新能源车型的消费者越来越多，电动车的安全性也成为了大家的焦点。尤其是在一系列电动车自燃事件之后，安全性这个话题也被推到了风口浪尖。那么电动车在电池方面存在着哪些隐患呢？一、冷却系统，新能源车型尤其是纯电动车型，是依靠电能作为补给。但电能并没有流入的冷却系统，所以在高温的条件下，电动车极容易发生自燃的事故。即便是现在很多新能源车型采用了水冷，但安全隐患依然存在。二、挤压碰撞，电...[详细]
智能座舱新“赛点”开局！巨头争夺下一风口话语权

全新一代座舱平台量产进程已经开启，智能座舱市场进入了技术迭代、平台升级的新红利周期。日前，上汽通用正式宣布，别克高端新能源子品牌“至境”首款智能豪华轿车——别克至境L7将搭载高通8775座舱芯片，预计今年下半年量产落地。另外最新消息显示，德赛西威第五代智能座舱G10PH已获得理想汽车新项目订单，并受到多家全球顶级主机厂的高度关注。资料显示，该平台可集成4-8B VLA大模型与云端高阶...[详细]
苹果首款折叠 iPhone 曝料：配自研 C2 基带芯片

8 月 25 日消息，彭博社的马克・古尔曼昨日（8 月 24 日）发布博文，曝料称苹果将于 2026 年推出其首款折叠手机（下文简称 iPhone Fold），一方面会明显减少屏幕折痕，另一方面将搭载其自研的 C2 基带芯片，并采用无 SIM 卡设计、Touch ID 解锁，测试机有黑、白两色。苹果为尽量减少折痕的视觉影响，决定将屏幕触控感应层由 on-cell 技术改为 in-cell 技术...[详细]
整合芯片、软件及平台为一体的可穿戴式设计

For healthcare professionals, accurate diagnosis and treatment are crucial for a clear picture of a person's health. However, healthcare professionals often rely on tests at medical facilities, cli...[详细]
速腾聚创：ADAS激光雷达收入下降，但机器人业务扛起大旗

毛利率从去年上半年的13.6%跃升至25.9%，几乎同比翻倍。 8月21日，速腾聚创发布了中期业绩报告，其中毛利率的增长非常亮眼。财报显示，速腾聚创今年上半年收今年第二季度达到了27.7%。其中 ADAS 的毛利率为19.4%，机器人及其他为41.5%，毛利率已经连续第6个季度稳步上升。在电话会上，速腾聚创CEO邱纯潮在业绩会上透露，在L4全球领域的领先企业中，速腾聚创合作的...[详细]
消息称三星正为 2nm 尖端制程导入 Hyper Cell 技术

8 月 22 日消息，韩媒 Nate 当地时间 20 日报道称，三星电子正在向其当下最先进的 2nm 级制程工艺中导入 Hyper Cell 技术，力图以晶体管设计上的更大灵活性提升性能与能效表现，增强工艺在 AI / HPC 芯片代工市场的竞争力。单元 (Cell) 是半导体芯片设计中最基本的单位，而传统的标准单元具有相对固定的高度尺寸和排列方式（即所谓的 6T 库、7.5T 库）。三星的 ...[详细]
STM32定时器应用——PWM

STM32的定时器有三种，高级定时器（TIM1和TIM8），通用定时器（TIM2、TIM3、TIM4、TIM5）和基本定时器（TIM6和TIM7）。这三者的区别是：基本定时器：基本定时器功能比较简单，主要是计时，也可以为DAC提供时钟，直接触发驱动DAC 通用定时器：通用定时器除了基本的定时功能外，还可以测量输入信号的脉冲长度，也就是输入捕获功能，也可以产生输出波形，即输出比...[详细]
工业电脑的机器视觉

带有GPU的工业电脑利用强大的并行处理来建立深度学习模型，以分析和响应光学输入。系统形成对视觉数据的理解，以启动预防性维护、设备重定向、系统重新校准、资源重新分配或人工干预。机器视觉为工业设施带来了一些进步。机器视觉，也被称为机器的眼睛，是指计算机使用一个或多个摄像机进行观察的能力。它捕捉图像，对其进行处理，并创建一个动作课程。尽管这些步骤听起来很耗时，但它是以光速完成的。唯一耗时的过程是...[详细]
Power Integrations推出太阳能赛车专用参考设计，采用高效率氮化镓芯片

PowiGaN在轻载和满载时均实现95%高效率，满足关键的运行和安全功能需求澳大利亚达尔文及美国加州圣何塞， 2025年8月22日讯 –Power Integrations推出一款专为太阳能赛车量身定制的参考设计套件。与此同时，37支学生队伍已整装待发，将参加于8月24日开始的普利司通世界太阳能挑战赛，穿越澳洲内陆地区。该套件型号为RDK-85SLR，采用了PI™公司一款集成Po...[详细]
关于ESD管的叫法，你知道几个?

中国汉字博大精深，关于ESD管的叫法可谓是千奇百样，你知道的有几个呢？据优恩小编所知，目前ESD管的叫法主要有ESD静电保护器、ESD静电保护二极管、ESD防护静电二极管、ESD二极管以及ESD管。叫法虽多，但其作用还是防护电路而生。其实不管是它的叫法，还是原理，都是应当知道的，在了解ESD管的前提基础上，我们其实还要对前身作个大概的知悉，例如电子产品为什么需要防雷过压保护，ESD静电...[详细]
福特汽车申请车门防撞击系统专利

据外媒报道，福特汽车（Ford Motor）已向美国专利社保局（USPTO）申请一项车门防撞击系统专利，该系统可能应用于未来的福特汽车。该专利于2024年2月9日提交，并于2025年8月14日发布，序列号为0256665。图片来源：USPTO 福特最近提交了一些颇具意义的专利，其中许多旨在防止特定部件被盗，甚至防止车辆打滑。多年来，=许多人经常遇到的另一个问题是，停车场里有人打开车门...[详细]
Clion开发STM32添加文件后编译报错“No such file or directory“

1.1 添加文件直接在工程目录下创建文件夹并创建源文件和头文件添加后，在编写.c文件包含.h文件时会出现错误，需要修改CmakeList.txt 添加头文件 include_directories(Path1/path1 Path2/path2) AI写代码 cmake Path1/path1表示头文件路径，不同的路径用空格分开，如下图所示：添加源文件 file(G...[详细]
人工智能功耗问题：挑战、权衡与优化路径

编译自semiengineering 业界越来越关注人工智能的功耗问题，但这个问题并没有简单的解决方案。这需要深入了解应用、半导体和系统层面的软件和硬件架构，以及所有这些的设计和实现方式。每个环节都会影响总功耗和提供的效用。这是最终必须做出的权衡。但首先，必须解决效用问题。电力是否被浪费了？“我们将电力用于有价值的用途，”Ansys（现为新思科技旗下公司）产品营销总监 Marc Swi...[详细]
可再生能源传输：先进铅碳储能系统有效改善电网的传输

导读: 传统上铅酸电池的作用基本上是提供后备电力，并且根据位置提供电力调节。在典型的应用中，电池的实际用途(放电)是非经常性的，它在大部份服务时间是处於浮充状态。关键字储能先进铅碳储能系统阀控式铅酸电池电网传输　　 1．引言传统上铅酸电池的作用基本上是提供后备电力，并且根据位置提供电力调节。在典型的应用中，电池的实际用途(放电)是非经常性的，它在大部份服务时间是处於浮充状态。然...[详细]
全志T507操作小技巧连载2-T507以太网配置方法

本文硬件平台采用全志T507四核车规级处理器设计开发板，本文讲解T507开发板以太网配置方法。其它板卡设置略有不同，请参考使用。一、全志T507系列硬件介绍 FETT507-C核心板集成全志T507四核车规级处理器设计开发，Cortex-A53架构，主频1.5GHz，集成G31 GPU，内存2GB DDR3L，存储8GB eMMC。整板工业级运行温宽，支持绝大部分当前流行的视频及图片...[详细]

器件捷径: A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 AA AB AC AD AE AF AG AH AI AJ AK AL AM AN AO AP AQ AR AS AT AU AV AW AX AY AZ B0 B1 B2 B3 B4 B5 B6 B7 B8 B9 BA BB BC BD BE BF BG BH BI BJ BK BL BM BN BO BP BQ BR BS BT BU BV BW BX BY BZ C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 CA CB CC CD CE CF CG CH CI CJ CK CL CM CN CO CP CQ CR CS CT CU CV CW CX CY CZ D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 DA DB DC DD DE DF DG DH DI DJ DK DL DM DN DO DP DQ DR DS DT DU DV DW DX DZ

热门器件

开源项目推荐更多

热门活动更多

热门文章更多

技术资料推荐更多