Datasheet> 器件分类 > 嵌入式处理器和控制器> 微控制器和处理器> 89HPES32T8ZHBXG

89HPES32T8ZHBXG: 产品描述SBGA-500, Tray; 产品类别嵌入式处理器和控制器微控制器和处理器; 文件大小1MB，共38页; 制造商IDT (Integrated Device Technology); 标准

下载文档详细参数全文预览

89HPES32T8ZHBXG在线购买

供应商	器件名称	价格	最低购买	库存
	89HPES32T8ZHBXG	-	-	点击查看	点击购买

89HPES32T8ZHBXG概述

SBGA-500, Tray

89HPES32T8ZHBXG规格参数

参数名称	属性值
Brand Name	Integrated Device Technology
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	SBGA
包装说明	BGA-500
针数	500
制造商包装代码	BXG500
Reach Compliance Code	compliant
ECCN代码	EAR99
地址总线宽度
总线兼容性	PCI
最大时钟频率	125 MHz
外部数据总线宽度
JESD-30 代码	S-PBGA-B500
JESD-609代码	e1
长度	31 mm
湿度敏感等级	3
端子数量	500
最高工作温度	70 °C
最低工作温度
封装主体材料	PLASTIC/EPOXY
封装代码	LBGA
封装等效代码	BGA500,30X30,40
封装形状	SQUARE
封装形式	GRID ARRAY, LOW PROFILE
峰值回流温度（摄氏度）	260
电源	3.3 V
认证状态	Not Qualified
座面最大高度	1.7 mm
最大供电电压	1.1 V
最小供电电压	0.9 V
标称供电电压	1 V
表面贴装	YES
技术	CMOS
温度等级	COMMERCIAL
端子面层	Tin/Silver/Copper (Sn/Ag/Cu)
端子形式	BALL
端子节距	1 mm
端子位置	BOTTOM
处于峰值回流温度下的最长时间	30
宽度	31 mm
uPs/uCs/外围集成电路类型	BUS CONTROLLER, PCI

89HPES32T8ZHBXG文档预览

32-Lane 8-Port

PCI Express® Switch

89PES32T8

Data Sheet

Device Overview

The 89HPES32T8 is a member of the IDT PRECISE™ family of PCI

Express® switching solutions. The PES32T8 is a 32-lane, 8-port periph-

eral chip that performs PCI Express packet switching with a feature set

optimized for high performance applications such as servers, storage,

and communications/networking. It provides connectivity and switching

functions between a PCI Express upstream port and up to seven down-

stream ports and supports switching between downstream ports.

Features

High Performance PCI Express Switch

– Thirty-two 2.5 Gbps PCI Express lanes

– Eight switch ports

– Upstream port configurable up to x8

– Downstream ports configurable up to x8

– Low-latency cut-through switch architecture

– Support for Max Payload Size up to 2048 bytes

– One virtual channel

– Eight traffic classes

– PCI Express Base Specification Revision 1.1 compliant

Flexible Architecture with Numerous Configuration Options

– Automatic per port link width negotiation to x8, x4, x2 or x1

– Automatic lane reversal on all ports

– Automatic polarity inversion on all lanes

– Ability to load device configuration from serial EEPROM

Legacy Support

– PCI compatible INTx emulation

– Bus locking

Highly Integrated Solution

– Requires no external components

– Incorporates on-chip internal memory for packet buffering and

queueing

– Integrates thirty-two 2.5 Gbps embedded SerDes with 8B/10B

encoder/decoder (no separate transceivers needed)

Reliability, Availability, and Serviceability (RAS) Features

– Supports ECRC and Advanced Error Reporting

– Internal end-to-end parity protection on all TLPs ensures data

integrity even in systems that do not implement end-to-end

CRC (ECRC)

– Supports PCI Express Native Hot-Plug, Hot-Swap capable I/O

– Compatible with Hot-Plug I/O expanders used on PC and

server motherboards

Block Diagram

8-Port Switch Core / 32 PCI Express Lanes

Frame Buffer

Route Table

Port

Arbitration

Scheduler

Transaction Layer

Data Link Layer

Transaction Layer

Data Link Layer

Transaction Layer

Data Link Layer

Multiplexer / Demultiplexer

Phy

Logical

Layer

Phy

Logical

Layer

Phy

Logical

Layer

Phy

Logical

Layer

Multiplexer / Demultiplexer

Phy

Logical

Layer

Phy

Logical

Layer

Phy

Logical

Layer

Phy

Logical

Layer

Multiplexer / Demultiplexer

Phy

Logical

Layer

Phy

Logical

Layer

Phy

Logical

Layer

Phy

Logical

Layer

SerDes

(Port 0)

(Port 1)

Figure 1 Internal Block Diagram

(Port 7)

IDT and the IDT logo are registered trademarks of Integrated Device Technology, Inc.

1 of 37

2007 Integrated Device Technology, Inc.

March 25, 2008

IDT 89PES32T8 Data Sheet

Power Management

– Utilizes advanced low-power design techniques to achieve low

typical power consumption

– Supports PCI Power Management Interface specification

(PCI-PM 1.1)

• Supports device power management states: D0, D3

hot

and

cold

– Unused SerDes are disabled

Testability and Debug Features

– Ability to read and write any internal register via the SMBus

Sixteen General Purpose Input/Output Pins

– Each pin may be individually configured as an input or output

– Each pin may be individually configured as an interrupt input

– Some pins have selectable alternate functions

Packaged in a 31mm x 31mm 500-ball BGA with 1mm ball

spacing

Product Description

Utilizing standard PCI Express interconnect, the PES32T8 provides

the most efficient I/O connectivity solution for applications requiring high

throughput, low latency, and simple board layout with a minimum

number of board layers. It provides connectivity for up to 8 ports across

32 integrated serial lanes. Each lane provides 2.5 Gbps of bandwidth in

both directions and is fully compliant with PCI Express Base specifica-

tion revision 1.1.

The PES32T8 is based on a flexible and efficient layered architec-

ture. The PCI Express layers consist of SerDes, Physical, Data Link and

Transaction layers. The PES32T8 can operate either as a store and

forward switch or a cut-through switch and is designed to switch

memory and I/O transactions. It supports eight Traffic Classes (TCs)

and one Virtual Channel (VC) with sophisticated resource management

to enable efficient switching and I/O connectivity.

Processor

North

Bridge

Memory

PES32T8

PCI Express

Slots

I/O

10GbE

I/O

10GbE

I/O

SATA

I/O

SATA

Figure 2 I/O Expansion Application

2 of 37

March 25, 2008

IDT 89PES32T8 Data Sheet

8-port

7-port

6-port

5-port

4-port

PCIe x8

x8 upstream

PES32T8

x4 x4

PCIe x4

X4 upstream

PES32T8

x4 x4 x4 x4 x4 x4 x4

Figure 3 Configuration Options

Note:

The configurations in the above diagram show the maximum port widths. The PES32T8 can negotiate to narrower port widths — x4,

x2, or x1.

SMBus Interface

The PES32T8 contains two SMBus interfaces. The slave interface provides full access to the configuration registers in the PES32T8, allowing

every configuration register in the device to be read or written by an external agent. The master interface allows the default configuration register

values of the PES32T8 to be overridden following a reset with values programmed in an external serial EEPROM. The master interface is also used

by an external Hot-Plug I/O expander.

Six pins make up each of the two SMBus interfaces. These pins consist of an SMBus clock pin, an SMBus data pin, and 4 SMBus address pins. In

the slave interface, these address pins allow the SMBus address to which the device responds to be configured. In the master interface, these

address pins allow the SMBus address of the serial configuration EEPROM from which data is loaded to be configured. The SMBus address is set up

on negation of PERSTN by sampling the corresponding address pins. When the pins are sampled, the resulting address is assigned as shown in

Table 1.

Bit

Slave

SMBus

Address

SSMBADDR[1]

SSMBADDR[2]

SSMBADDR[3]

SSMBADDR[5]

Master

SMBus

Address

MSMBADDR[1]

MSMBADDR[2]

MSMBADDR[3]

MSMBADDR[4]

Table 1 Master and Slave SMBus Address Assignment

3 of 37

March 25, 2008

IDT 89PES32T8 Data Sheet

As shown in Figure 4, the master and slave SMBuses may be used in a unified or split configuration. In the unified configuration, shown in Figure

4(a), the master and slave SMBuses are tied together and the PES32T8 acts both as a SMBus master as well as a SMBus slave on this bus. This

requires that the SMBus master or processor that has access to PES32T8 registers supports SMBus arbitration. In some systems, this SMBus master

interface may be implemented using general purpose I/O pins on a processor or micro controller, and may not support SMBus arbitration. To support

these systems, the PES32T8 may be configured to operate in a split configuration as shown in Figure 4(b).

In the split configuration, the master and slave SMBuses operate as two independent buses and thus multi-master arbitration is never required.

The PES32T8 supports reading and writing of the serial EEPROM on the master SMBus via the slave SMBus, allowing in system programming of the

serial EEPROM.

PES32T8

Processor

SMBus

Master

Serial

EEPROM

...

Other

SMBus

Devices

PES32T8

Processor

SMBus

Master

...

Other

SMBus

Devices

SSMBCLK

SSMBDAT

MSMBCLK

MSMBDAT

SSMBCLK

SSMBDAT

MSMBCLK

MSMBDAT

Serial

EEPROM

(a) Unified Configuration and Management Bus

(b) Split Configuration and Management Buses

Figure 4 SMBus Interface Configuration Examples

Hot-Plug Interface

The PES32T8 supports PCI Express Hot-Plug on each downstream port. To reduce the number of pins required on the device, the PES32T8

utilizes an external I/O expander, such as that used on PC motherboards, connected to the SMBus master interface. Following reset and configura-

tion, whenever the state of a Hot-Plug output needs to be modified, the PES32T8 generates an SMBus transaction to the I/O expander with the new

value of all of the outputs. Whenever a Hot-Plug input changes, the I/O expander generates an interrupt which is received on the IOEXPINTN input pin

(alternate function of GPIO) of the PES32T8. In response to an I/O expander interrupt, the PES32T8 generates an SMBus transaction to read the

state of all of the Hot-Plug inputs from the I/O expander.

General Purpose Input/Output

The PES32T8 provides 16 General Purpose Input/Output (GPIO) pins that may be used by the system designer as bit I/O ports. Each GPIO pin

may be configured independently as an input or output through software control. Some GPIO pins are shared with other on-chip functions. These

alternate functions may be enabled via software, SMBus slave interface, or serial configuration EEPROM.

4 of 37

March 25, 2008

IDT 89PES32T8 Data Sheet

Pin Description

The following tables lists the functions of the pins provided on the PES32T8. Some of the functions listed may be multiplexed onto the same pin.

The active polarity of a signal is defined using a suffix. Signals ending with an “N” are defined as being active, or asserted, when at a logic zero (low)

level. All other signals (including clocks, buses, and select lines) will be interpreted as being active, or asserted, when at a logic one (high) level.

Signal

PE0RP[3:0]

PE0RN[3:0]

PE0TP[3:0]

PE0TN[3:0]

PE1RP[3:0]

PE1RN[3:0]

PE1TP[3:0]

PE1TN[3:0]

PE2RP[3:0]

PE2RN[3:0]

PE2TP[3:0]

PE2TN[3:0]

PE3RP[3:0]

PE3RN[3:0]

PE3TP[3:0]

PE3TN[3:0]

PE4RP[3:0]

PE4RN[3:0]

PE4TP[3:0]

PE4TN[3:0]

PE5RP[3:0]

PE5RN[3:0]

PE5TP[3:0]

PE5TN[3:0]

PE6RP[3:0]

PE6RN[3:0]

PE6TP[3:0]

PE6TN[3:0]

PE7RP[3:0]

PE7RN[3:0]

Type

Name/Description

PCI Express Port 0 Serial Data Receive.

Differential PCI Express receive

pairs for port 0. Port 0 is the upstream port.

PCI Express Port 0 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 0. Port 0 is the upstream port.

PCI Express Port 1 Serial Data Receive.

Differential PCI Express receive

pairs for port 1. When port 0 is merged with port 1, these signals become

port 0 receive pairs for lanes 4 through 7.

PCI Express Port 1 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 1. When port 0 is merged with port 1, these signals

become port 0 transmit pairs for lanes 4 through 7.

PCI Express Port 2 Serial Data Receive.

Differential PCI Express receive

pairs for port 2.

PCI Express Port 2 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 2.

PCI Express Port 3 Serial Data Receive.

Differential PCI Express receive

pairs for port 3. When port 2 is merged with port 3, these signals become

port 2 receive pairs for lanes 4 through 7.

PCI Express Port 3 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 3. When port 2 is merged with port 3, these signals

become port 2 transmit pairs for lanes 4 through 7.

PCI Express Port 4 Serial Data Receive.

Differential PCI Express receive

pairs for port 4.

PCI Express Port 4 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 4.

PCI Express Port 5 Serial Data Receive.

Differential PCI Express receive

pairs for port 5. When port 4 is merged with port 5, these signals become

port 4 receive pairs for lanes 4 through 7.

PCI Express Port 5 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 5. When port 4 is merged with port 5, these signals

become port 4 transmit pairs for lanes 4 through 7.

PCI Express Port 6 Serial Data Receive.

Differential PCI Express receive

pairs for port 6.

PCI Express Port 6 Serial Data Transmit.

Differential PCI Express trans-

mit pairs for port 6.

PCI Express Port 7 Serial Data Receive.

Differential PCI Express receive

pairs for port 7. When port 6 is merged with port 7, these signals become

port 6 receive pairs for lanes 4 through 7.

Table 2 PCI Express Interface Pins (Part 1 of 2)

5 of 37

March 25, 2008

查看更多（仅显示前5页内容，查看全部内容请下载文档。）>

推荐资源

电动智能小车: 电动智能小车分享...; venusjun1 工业自动化与控制

求助，STM32地址取数据报HardFault_Handler: 本来是想用下这的函数将4byte数据转换成一个int32数据这个代码在G474工程运行正学然后我把它移动到G071上，同样是使用STM32CubeMX生成的工程再次运行下边的return *((int32_t*)pbyt ......; littleshrimp stm32/stm8

CC2640R2用 IDE 的 post-build 功能来生成单个固件文件: CC2640R2是一款面向 Bluetooth Smart 应用的低功耗无线 MCU。该芯片运行TI的BLE协议栈，同时具有OAD（Over the Air Download）空中固件升级功能。 CCS是TI提供的强大的MCU/Processor免费软件 ......; fish001 无线连接

发帖关于WINCE下输入法的问题的解决方法: 前几天在论坛上有人问我关于WINCE下输入法的问题，我以前也碰到过，现在把我的方法贴出来，供大家参考。 1 概述本文介绍了如何定制微软简体中文输入法3.0及键盘等。 2 组件的添加微软简 ......; omantou 嵌入式系统

EEWORLD大学堂----Loop Compensation of a Discontinuous Flyback不连续反激式的环路补偿: Loop Compensation of a Discontinuous Flyback不连续反激式的环路补偿：https://training.eeworld.com.cn/course/4397Loop Compensation of a Flyback Part 1 Tutorial on how to set the loo ......; 老白菜电源技术

MSP430用LCD12864绘制温度曲线: 端口设置代码里面有...; 472283165 微控制器 MCU

远程自动报警系统的设计与实现

随着国家智能化小区建设的推广，防盗系统已成为智能小区的必备设备，特别是近几年，安全防范的迫切需要给家庭防盗报警系统提供了越来越广泛的市场。从国内来看，比较高档的防盗报警装置一般为进口产品，价格昂贵，且大多为有线连接方式。国内产品尽管不少，但大多为模拟电路形式，且结构和功能简单，可靠性差，难以联网。在已普及的公共电话网基础上研制一种新型家用自动报警系统，这对于保障居民的生命财产安全，提高公安、...[详细]
单片机系统的C语言程序结构优化

　　 2002年初，笔者着手写一个IC卡预付费电表的工作程序，该电表使用Philips公司的8位51扩展型单片机 87LPC764 ，要求实现很多功能，包括熄显示、负荷计算与控制、指示闪烁以及电表各种参数的查询等，总之，要使用时间的单元很多。笔者当时使用ASM51完成了这个程序的编写，完成后的程序量是2KB多一点。后来，由于种种原因，这个程序并没有真正使用，只是作了一些改动之后用在一个老化设备...[详细]
基于PIC16F628单片机的CM402型高速贴片机控制系统改造设计与实现

引言随着表面贴装技术（Surface Mounted Technology，SMT）的不断优化及贴片元器件制作工艺的迅速发展，贴片机在电子制造业中的应用日益突出。CM402型高速贴片机是由日本松下公司研发和生产，针对某些特定工件、按特定工序进行批量加工的专用设备。根据笔者为期两周的现场调查和论证，传统CM402型高速贴片机在拼接料生产过程中，若出现拼接料检知停止时，停机扫料的时间将影响到生产...[详细]
MEMS市场正呈现快速增长趋势

根据Yole Développement公司的分析，MEMS市场将以每年13%的速度增长，到2017年将达到210亿美元。 Yole Développement预期，动作感知和微流体领域将会呈现强劲增长并主导MEMS市场，到2017年会占整体市场份额的一半，而加速计、陀螺仪、磁强计和过滤器则占总体市场的25%，另外微流体占23%。 Yole预计，分立惯性传感器的市场份额将会下降，...[详细]
汽车排放气体流量分析仪设计

1、引言汽车污染是当前人们最为关心和急需解决的重要课题之一。作为汽车排气污染物的检测的重要方法,简易瞬态工况法（VMAS法，IG法）可以统计排放总质量，监控车辆的真实排放情况，设备成本不高，测量比较准确，与新车认证检测结果具有相关性，可以检测NO相关因子等一系列优点，成为人们研究的热点。VMAS（Vehicle Mass Analysis System）检测方法在美国和欧洲都有很好的应用基础，...[详细]
基于FPGA分布式算法的低通FIR滤波器的设计与实现

0 引言传统数字滤波器硬件的实现主要采用专用集成电路(ASIC)和数字信号处理器(DSP)来实现。FPGA内部的功能块中采用了SRAM的查找表(lo-ok up table，LUT)结构，这种结构特别适用于并行处理结构，相对于传统方法来说，其并行度和扩展性都很好，它逐渐成为构造可编程高性能算法结构的新选择。分布式算法是一种适合FPGA设计的乘加运算，由于FPGA中硬件乘法器资源有限，...[详细]
台积电是否参股ASML 45天揭晓

半导体微影设备大厂艾司摩尔（ASML）向台积电发出投资邀约，业界评估，台积电是否答应参股，最快45天内，也就是8月底前就会揭晓。英特尔藉由投资ASML，企图取得20纳米以下微影设备技术领先地位，攸关台积电、三星未来先进制程的竞争态势，台积电参股态度如何，预料将成为19日法说会焦点。英特尔宣布投资ASML 15%股权，震撼半导体业界。 ASML也对台积电、三星发出投资邀约，是ASML第...[详细]
中兴通讯Uni-RAN助力越南Viettel拓展南美3G市场

近日，中兴通讯宣布独家中标越南第一大移动运营商Viettel在秘鲁的无线网络项目，一期规模超过2000个基站。该项目是Viettel首次进入南美通讯市场，项目建成后Viettel的2G/3G网络将覆盖秘鲁全国，该合同的签订也标志着中兴通讯与Viettel的合作进一步深化。 Viettel总部位于越南河内，是越南最大的移动运营商，在越南市场占有率达50.7%，是世界上增长最快的电信运营商之一。目...[详细]
科锐推出突破性 GaN基固态放大器平台

2012年7月11日，中国上海讯 — 科锐公司（Nasdaq: CREE）宣布推出具有革新性功率与带宽性能的全新Ku波段40V、0.25微米碳化硅衬底氮化镓基（GaN-on-SiC）裸芯片产品系列。该创新型产品系列能够使得固态放大器替代行波管，从而提高效率和可靠性。科锐无线射频销售与市场总监 Tom Dekker 表示：“与同频率范围的 GaAs 晶体管相比，科锐0.25微米GaN HEMT...[详细]
卫星导航：专项规划将出台产业井喷

　　从科技部获悉，《导航与位置服务科技发展“十二五”专项规划》预计下半年出台。首先突破三大核心技术，即泛在精确定位，全息导航地图，智能位置服务。其次开展三类应用示范，即研制导航与位置服务应用系统，开展公众、行业及区域应用示范。第三构建一个体系框架，即面向未来导航与位置服务需求，构建国家定位导航授时体系框架，开展技术实验和验证。先行实施产业布局的相关上市公司也将迎来千载难逢的发展机遇。　　科...[详细]
基于SST89E564RC单片机的多点温控采暖控制系统设计

利用SST89E564RC单片机及新型测温器件设计了多点温控采暖控制系统，根据室内各点温度设定实时控制采暖系统，从而提高居室的舒适性以及采暖的经济性。 1 系统设计目标系统总体设计思想是以SST89E564RC单片机为控制核心，整个系统硬件部分包括温度检测部分、控制执行部分、显示及键盘系统及最小系统基本电路。系统利用单片机获得温度传感器数据并与系统设计值进行比较，根据比较结果分别控...[详细]
PROFIBUS-MODBUS网桥在电力系统中的应用

1 引言 PROFIBUS是一种国际化、开放式、不依赖于设备生产商的现场总线标准。广泛适用于制造业自动化、流程工业自动化和楼宇、交通、电力等其他领域自动化。PROFIBUS由三个兼容部分组成，即PROFIBUS-DP（Decentralized Periphery）、PROFIBUS-PA（Process Automation）、PROFIBUS-FMS（Fieldbus Me...[详细]
WAGO现场总线产品在面粉生产控制系统中的应用

我国是一个农业、粮食生产及消费大国。谷物是我们民族能够生存和发展的必要条件。面粉加工业是与人类一同永存的。由于面粉加工业是粮食生产向人类消费过渡的桥梁，是食品生产的原料工业和基础工业，因此无论未来的科学技术如何先进，都不能取消面粉加工业，而必须不断地促进其提高和发展。近年来，我国人民生活正在向富裕小康型过渡，国民对谷物产品的消费已向优质化，功能化，绿色化方向发展。可以说，生产、开发适应市场...[详细]
盖茨曾否决电子书阅读器：称触摸屏比不上键盘

盖茨曾否决电子书阅读器　　盖茨否决这种产品的原因在于，他当时认为未来的成功在于键盘而非触摸屏，后者永远也无法赶上键盘。　　新浪科技讯北京时间7月5日凌晨消息，微软(微博)工程师在1998年曾向比尔·盖茨(Bill Gates)展示了一款电子书阅读器，这本来会让盖茨变得更加富有；但这位微软创始人否决了这种触摸屏电子书阅读器，他向该工程师表示，忘了这种“无关紧要的”设备吧。　　盖...[详细]
Gartner：明年新战场50元智能手机

自联发科瞄准中低端智慧手机市场，推出MT6575低价智慧晶片解决方案以来，其智慧型手机晶片出货持续成长，已打入中国1线手机品牌如华为、中兴以及联想等供应链。不仅如此，其低价双核心晶片MT6577将于第3季量产，也加速了手机产业生态的一大转变。Gartner半导体产业研究总监洪岑维表示：“今年下半年联发科的MT6577，也导入许多指标客户，预估将会是一个满好的武器。” ...[详细]

器件捷径: E0 E1 E2 E3 E4 E5 E6 E7 E8 E9 EA EB EC ED EE EF EG EH EI EJ EK EL EM EN EO EP EQ ER ES ET EU EV EW EX EY EZ F0 F1 F2 F3 F4 F5 F6 F7 F8 F9 FA FB FC FD FE FF FG FH FI FJ FK FL FM FN FO FP FQ FR FS FT FU FV FW FX FY FZ G0 G1 G2 G3 G4 G5 G6 G7 G8 G9 GA GB GC GD GE GF GG GH GI GJ GK GL GM GN GO GP GQ GR GS GT GU GV GW GX GZ H0 H1 H2 H3 H4 H5 H6 H7 H8 HA HB HC HD HE HF HG HH HI HJ HK HL HM HN HO HP HQ HR HS HT HU HV HW HX HY HZ I1 I2 I3 I4 I5 I6 I7 IA IB IC ID IE IF IG IH II IK IL IM IN IO IP IQ IR IS IT IU IV IW IX J0 J1 J2 J6 J7 JA JB JC JD JE JF JG JH JJ JK JL JM JN JP JQ JR JS JT JV JW JX JZ K0 K1 K2 K3 K4 K5 K6 K7 K8 K9 KA KB KC KD KE KF KG KH KI KJ KK KL KM KN KO KP KQ KR KS KT KU KV KW KX KY KZ

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