Datasheet> 器件分类 > 无源元件> 电阻器> RS1/2856R0CE70

文档预览

RS1/2856R0CE70: 产品描述RESISTOR, WIRE WOUND, 0.75 W, 0.25 %, 20 ppm, 856 ohm, THROUGH HOLE MOUNT, AXIAL LEADED, GREEN; 产品类别无源元件电阻器; 文件大小193KB，共3页; 制造商Vishay(威世); 官网地址http://www.vishay.com; 标准

下载文档详细参数全文预览

RS1/2856R0CE70概述

RESISTOR, WIRE WOUND, 0.75 W, 0.25 %, 20 ppm, 856 ohm, THROUGH HOLE MOUNT, AXIAL LEADED, GREEN

RS1/2856R0CE70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
Objectid	1043483350
包装说明	Axial,
Reach Compliance Code	compliant
ECCN代码	EAR99
YTEOL	7.2
其他特性	PRECISION
构造	Tubular
JESD-609代码	e3
引线直径	0.508 mm
引线长度	38.1 mm
安装特点	THROUGH HOLE MOUNT
端子数量	2
最高工作温度	250 °C
最低工作温度	-65 °C
封装直径	1.98 mm
封装长度	7.92 mm
封装形状	TUBULAR PACKAGE
封装形式	Axial
包装方法	TR
额定功率耗散 (P)	0.75 W
额定温度	25 °C
电阻	856 Ω
电阻器类型	FIXED RESISTOR
表面贴装	NO
技术	WIRE WOUND
温度系数	20 ppm/°C
端子面层	Matte Tin (Sn) - with Nickel (Ni) barrier
端子形状	WIRE
容差	0.25%

RS1/2856R0CE70文档预览

RS, NS

www.vishay.com

Vishay Dale

Wirewound Resistors, Industrial, Precision Power,

Silicone Coated, Axial Lead

FEATURES

•

High temperature coating (> 350 °C)

Complete welded construction

Meets applicable requirements of MIL-PRF-26

Available in non-inductive styles (type NS)

with Ayrton-Perry winding for lowest reactive

components

• Excellent stability in operation (typical

resistance shift < 0.5 %)

• MIL-PRF-26 qualified, type RW resistors can

be found at:

www.vishay.com/doc?30281

• Material categorization:

for definitions of compliance please see

www.vishay.com/doc?99912

Available

DESIGN SUPPORT TOOLS

Models

Available

click logo to get started

Available

Note

This datasheet provides information about parts that are RoHS-compliant and / or parts that are non RoHS-compliant. For example, parts

with lead (Pb) terminations are not RoHS-compliant. Please see the information / tables in this datasheet for details

STANDARD ELECTRICAL SPECIFICATIONS

GLOBAL

MODEL

HIST.

MODEL

POWER

RATING

(1)

25 °C

U ± 0.05 %

to ± 5 %

0.4

0.75

1.0

4.0

3.0

2.5

5.0

7.0

10.0

POWER

RATING

(1)

25 °C

V±3%

to ± 10 %

5.5

3.75

3.25

6.5

9.0

13.0

RESISTANCE

RANGE



± 0.05 %

RESISTANCE

RANGE



± 0.1 %

RESISTANCE

RANGE



± 0.25 %

RESISTANCE RESISTANCE

RANGE



± 0.5 %,

± 3 %, ± 5 %,

±1%

± 10 %

0.1 to 3.4K

0.1 to 4.9K

0.1 to 10.4K 0.1 to 10.4K

0.1 to 10.4K

0.1 to 6.85K 0.1 to 6.85K

0.1 to 47.1K 0.1 to 47.1K

0.1 to 18.74K 0.1 to 18.74K

0.1 to 24.5K 0.1 to 24.5K

0.1 to 24.5K

0.1 to 32.3K 0.1 to 32.3K

0.1 to 32.3K

0.1 to 95.2K 0.1 to 95.2K

0.1 to 95.2K

0.1 to 154K

0.1 to 273K

WEIGHT

(typical)

RS1/4

RS-1/4

1 to 1K

0.499 to 1K 0.499 to 3.4K

0.21

RS1/2

RS-1/2

1 to 1.3K

0.499 to 1.3K 0.499 to 4.9K

0.23

RS01A

RS-1A

1 to 2.74K

0.499 to 2.74K 0.499 to 10.4K

0.34

RS01A...300 RS-1A-300

0.499 to 2.74K 0.499 to 10.4K

0.34

0.499 to 1.67K 0.499 to 6.85K

0.30

RS01M

RS-1M

1 to 1.32K

0.499 to 12.7K 0.499 to 12.7K 0.1 to 47.1K

2.10

RS002

RS-2

0.499 to 4.49K 0.499 to 4.49K 0.1 to 18.74K

0.65

RS02M

RS-2M

RS02B

RS-2B

0.499 to 6.5K 0.499 to 6.5K 0.1 to 24.5K

0.70

RS02B...300 RS-2B-300

0.499 to 6.5K 0.1 to 24.5K

0.70

RS02C

RS-2C

0.499 to 8.6K 0.499 to 8.6K 0.1 to 32.3K

1.6

0.499 to 8.6K 0.499 to 8.6K 0.1 to 32.3K

1.6

RS02C...17 RS-2C-17

1.6

RS02C...23 RS-2C-23

RS005

RS-5

0.499 to 25.7K 0.499 to 25.7K 0.1 to 95.2K

4.2

0.499 to 25.7K 0.1 to 95.2K

4.2

RS005...69 RS-5-69

RS005...70 RS-5-70

4.2

0.499 to 41.4K 0.499 to 41.4K 0.1 to 154K

4.7

RS007

RS-7

RS010

RS-10

0.499 to 73.4K 0.499 to 73.4K 0.1 to 273K

9.0

0.499 to 73.4K 0.1 to 273K

9.0

RS010...38 RS-10-38

9.0

RS010...39 RS-10-39

Notes

• Models not available as lead (Pb)-free: RS01A...300, RS02B...300, RS02C...23, RS005...69, RS005...70, RS010...38, RS010...39.

• Shaded area indicates most popular models.

(1)

Vishay Dale RS models have two power ratings depending on operation temperature and stability requirements. Models not available for

characteristic V are: RS1/4, RS1/2, RS01A, RS01A…300, RS01M, RS02M, RS02B…300, RS005…69, and RS010…38.

GLOBAL PART NUMBER INFORMATION

Global Part Numbering example: RS02C10K00FS7017

SPECIAL

(up to 3 digits)

(dash number)

from

1 to 999

as applicable

GLOBAL MODEL

(5 digits)

(see Standard

Electrical

Specifications

Global Model

column for options)

TOLERANCE CODE

PACKAGING

(1 digit)

(3 digits)

E70

= lead (Pb)-free, tape / reel (smaller than RS005)

= 0.05 %

= 0.1 %

E73

= lead (Pb)-free, tape / reel (RS005 and larger)

= 0.25 %

E12

= lead (Pb)-free, bulk

= 0.5 %

S70

= tin / lead, tape / reel (smaller than RS005)

= 1.0 %

S73

= tin / lead, tape / reel (RS005 and larger)

= 3.0 %

B12

= tin / lead, bulk

= 5.0 %

= 10.0 %

Historical Part Numbering example: RS-2C-17 10 k 1 % S70

RS-2C-17

HISTORICAL MODEL

10 k

RESISTANCE VALUE

TOLERANCE CODE

RESISTANCE VALUE

(5 digits)

= decimal

= thousand

15R00

= 15



10K00

= 10 k

S70

PACKAGING

Revision: 15-Nov-17

Document Number: 30204

For technical questions, contact:

ww2aresistors@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT

www.vishay.com/doc?91000

RS, NS

www.vishay.com

DIMENSIONS

in inches [millimeters]

1.50

[38.10]

(1)

min.

Vishay Dale

GLOBAL

MODEL

RS1/4

DIMENSIONS

in inches [millimeters]

(1)

(max.)

0.250 ± 0.031

0.281

0.085 ± 0.020

0.020 ± 0.002

[6.35 ± 0.787]

[7.14]

[2.16 ± 0.508]

[0.508 ± 0.051]

0.312 ± 0.016

0.328 0.078 + 0.016 - 0.031 0.020 ± 0.002

[7.92 ± 0.406]

[8.33] [1.98 + 0.406 - 0.787] [0.508 ± 0.051]

0.406 ± 0.031

0.437

0.094 ± 0.031

0.020 ± 0.002

[10.31 ± 0.787]

[11.10]

[2.39 ± 0.787]

[0.508 ± 0.051]

0.270 ± 0.031

0.311

0.110 ± 0.015

0.020 ± 0.002

[6.86 ± 0.787]

[7.90]

[2.79 ± 0.381]

[0.508 ± 0.051]

0.625 ± 0.062

0.765

0.250 ± 0.031

0.040 ± 0.002

[15.88 ± 1.57]

[19.43]

[6.35 ± 0.787]

[1.02 ± 0.051]

0.500 ± 0.062

0.562

0.185 ± 0.031

0.032 ± 0.002

[12.70 ± 1.57]

[14.27]

[4.70 ± 0.787]

[0.813 ± 0.051]

0.560 ± 0.062

0.622

0.187 ± 0.031

0.032 ± 0.002

[14.22 ± 1.57]

[15.80]

[4.75 ± 0.787]

[0.813 ± 0.051]

0.500 ± 0.062

0.593

0.218 ± 0.031

0.040 ± 0.002

[12.70 ± 1.57]

[15.06]

[5.54 ± 0.787]

[1.02 ± 0.051]

0.500 ± 0.062

0.593

0.218 ± 0.031

0.032 ± 0.002

[12.70 ± 1.57]

[15.06]

[5.54 ± 0.787]

[0.813 ± 0.051]

0.875 ± 0.062

[22.23 ± 1.57]

1.22 ± 0.062

[30.99 ± 1.57]

1.78 ± 0.062

[45.21 ± 1.57]

1.78 ± 0.062

[45.21 ± 1.57]

1.0

[25.4]

1.28

[32.51]

1.87

[47.50]

1.84

[46.74]

0.312 ± 0.031

[7.92 ± 0.787]

0.312 ± 0.031

[7.92 ± 0.787]

0.375 ± 0.031

[9.53 ± 0.787]

0.375 ± 0.031

[9.53 ± 0.787]

0.040 ± 0.002

[1.02 ± 0.051]

0.040 ± 0.002

[1.02 ± 0.051]

0.040 ± 0.002

[1.02 ± 0.051]

0.040 ± 0.002

[1.02 ± 0.051]

RS1/2

RS01A

RS01A...300

RS01M

RS002

RS02M

RS02B

RS02B...300

RS02C

RS02C...17

RS02C...23

RS005

RS005...69

RS005...70

RS007

RS010

RS010...39

RS010...38

Note

(1)

On some standard reel pack methods, the leads may be

trimmed to a shorter length than shown

MATERIAL SPECIFICATIONS

Element:

copper-nickel alloy or nickel-chrome alloy,

depending on resistance value

Core:

ceramic, steatite or alumina, depending on physical

size

Coating:

special high temperature silicone

Standard Terminals:

100 % Sn, or 60/40 Sn/Pb coated

Copperweld

End Caps:

stainless steel

Part Marking:

DALE, model, wattage

(1)

, value, tolerance,

date code

Note

(1)

Wattage marked on part will be “U” characteristic

DERATING

RATED POWER IN %

120

100

Note

(1)

B (max.) dimension is clean lead to clean lead

NS NON-INDUCTIVE

CHAR. V

- 65 - 50

CHAR. U

150

250

350

AMBIENT TEMPERATURE IN °C

Models of equivalent physical and electrical specifications

are available with non-inductive (Ayrton-Perry) winding.

They are identified by substituting the letter N for R in the

model number (NS005, for example).

Two conditions apply:

1. For NS models, divide maximum resistance

values by

two

2. Body O.D. on NS02C may exceed that of the RS02C

0.010"

TECHNICAL SPECIFICATIONS

PARAMETER

Temperature Coefficient

Maximum Working Voltage

Insulation Resistance

Operating Temperature Range

UNIT

ppm/°C



°C

RS RESISTOR CHARACTERISTICS

± 20 for 10



and above, ± 50 for 1



to 9.9

,

± 90 for 0.5



to 0.99



(P x

1/2

1000 M minimum dry, 100 M minimum after moisture test

Characterisitic U = -65 to +250, characteristic V = -65 to +350

PERFORMANCE

TEST

Thermal Shock

Short Time Overload

Dielectric Withstanding



Voltage

Low Temperature Storage

High Temperature Exposure

Moisture Resistance

Shock, Specified Pulse

Vibration, High Frequency

Load Life

Terminal Strength

Revision: 15-Nov-17

CONDITIONS OF TEST

Rated power applied until thermally stable, then a minimum of 15 min at -55 °C

5x rated power (3.75 W and smaller), 10 x rated power (4 W and larger) for 5 s

500 V

RMS

min. for RS1/4 thru RS01A, 1000 V

RMS

for all others, duration of 1 min

-65 °C for 24 h

250 h at: U = +250 °C, V = +350 °C

MIL-STD-202 Method 106, 7b not applicable

MIL-STD-202 Method 213, 100

g’s

for 6 ms, 10 shocks

Frequency varied 10 Hz to 2000 Hz, 20

peak, 2 directions 6 h each

2000 h at rated power, +25 °C, 1.5 h “ON”, 0.5 h “OFF”

Pull test 5 s to 10 s, 5 lb (RS1/4 thru RS01A), 10 lb for all others;



torsion test - 3 alternating directions, 360° each

TEST LIMITS

CHARACTERISTIC U CHARACTERISTIC V

± (0.2 % + 0.05

) R

± (2.0 % + 0.05

) R

± (0.2 % + 0.05

) R

± (2.0 % + 0.05

) R

± (0.1 % + 0.05

) R

± (0.1 % + 0.05

) R

± (0.2 % + 0.05

) R

± (0.5 % + 0.05

) R

± (0.2 % + 0.05

) R

± (0.1 % + 0.05

) R

± (0.1 % + 0.05

) R

± (0.5 % + 0.05

) R

± (2.0 % + 0.05

) R

± (2.0 % + 0.05

) R

± (2.0 % + 0.05

) R

± (0.2 % + 0.05

) R

± (0.2 % + 0.05

) R

± (3.0 % + 0.05

) R

± (0.1 % + 0.05

) R

± (1.0 % + 0.05

) R

Document Number: 30204

For technical questions, contact:

ww2aresistors@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT

www.vishay.com/doc?91000

Legal Disclaimer Notice

www.vishay.com

Vishay

Disclaimer



ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE

RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.

Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,

“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other

disclosure relating to any product.

Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or

the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all

liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,

consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular

purpose, non-infringement and merchantability.

Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of

typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding

statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a

particular product with the properties described in the product specification is suitable for use in a particular application.

Parameters provided in datasheets and / or specifications may vary in different applications and performance may vary over

time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s

technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase,

including but not limited to the warranty expressed therein.

Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining

applications or for any other application in which the failure of the Vishay product could result in personal injury or death.

Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk.

Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for

such applications.

No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document

or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.

Revision: 08-Feb-17

Document Number: 91000

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

电子调谐式FM收音电路

应用LOGO！的通风系统控制电路a

用CD4011制作声、光、触摸三控延迟电灯

采用晶闸管的吊灯亮度控制器电路

增益可编程低噪声差动放大器电路

有二极管钳位的双稳态电路

挑战你智力极限的智商测试，5分钟能做完，你就是天才！: 今天，在天涯看到一个帖子，楼主很牛逼啊！说他找到个测试智商的网址，说这个网站很有权威性，准确率99%！只要谁能在5分钟做完，做到120分，他就是天才！楼主自己就是仅有的天才，很是嚣张！ ......; lianhuai 聊聊、笑笑、闹闹

基于UC3846的大功率DC/DC变换器的研究: 摘要：介绍并比较了电压控制型和电流控制型DC/DC变换器的基本原理，设计出了基于电流控制型PWM控制芯片UC3846的大功率DC/DC变换器的实用电路，提出了两种UC3846输出脉冲封锁方式，设计出一 ......; zbz0529 模拟与混合信号

EE技术力推：Android 5.0 documentation CHM 版本: 俺们技术整理的，从谷歌官网下载的的帮助文档，现在国内不容易访问谷歌，所以共享出来.制成chm文档。 >>Android 5.0 documentation CHM 版本 200953 200954 强烈推荐。 ...; soso 嵌入式系统

MicroPython - 用于微控制器的Python: 本帖最后由 dcexpert 于 2019-2-8 10:38 编辑来自：https://fosdem.org/2019/schedule/event/microcontrollers_python/ 布鲁塞尔/ 2019年2月2日和3日的演讲：MicroPython - 用于微控制器 ......; dcexpert MicroPython开源版块

无线传输的电能质量监测系统电路: 电能质量的实时监测是提高生产效率、节能减排、安全生产的关键，本文针对东莞高科技产业园对电能质量的要求，提出了一种基于ZigBee无线传感网络的电能质量实时监测系统。该系统不仅具有强大 ......; fish001 模拟与混合信号

接上拉加大电流跟接三极管加大电流有什么不一样？: 接上拉加大电流跟接三极管加大电流有什么不一样？不说原理，就说作用上有什么缺点？为什么大的工程电路都用三极管，而不用上拉？ ...; shijizai stm32/stm8

电流测量的原理和产品

　　在电路设计中电流测量应用十分普遍，主要领域分为3大类：测量中，电表会用来进行电流的测量；保护中，电流往往与功率形成直接的关系，如果电流过大代表系统中有短路情况出现而需要保护，因此用到电流测量；控制中，如马达控制、电池充放电等都需要电流测量。　　测量电流的方法一般分成直接式和非直接式两种。直接式一般通过电阻进行，根据欧姆定律电流的大小和电压成正比，因此可以通过测量一个...[详细]
无人驾驶技术颠覆汽车使用模式

谷歌无人驾驶技术带来的不仅仅是一项吸引眼球的技术，更是对汽车使用模式的颠覆。看过反恐题材影视剧的人想必对美军的无人机印象深刻，无人机能在避免本方人员伤亡的情况下完成对敌轰炸或者侦查任务。如今，互联网巨头谷歌公司推出了无人驾驶汽车的技术，将无人技术带进消费领域。智能汽车上路谷歌从去年10月开始在公共道路上实验无人驾驶汽车，今年3月获得内华达州许可并于5月7日获得牌照上路。在此之前，谷歌...[详细]
RIM复苏秘密武器：8000万忠诚用户

黑莓9790在印尼发售时，雅加达有数千人在商场外排队等候　　北京时间7月12日凌晨消息，认为一家拥有近8000万名用户的公司已经陷入“死亡螺旋”听起来是件滑稽的事情，但这正是RIM目前所面临的处境。　　在RIM令人失望地蒙受了季度亏损、警告未来还将面临更多亏损、以及宣布推迟黑莓10智能手机的发布时间以后，许多人都正在质疑这家公司是否还具备继续运营下去的能力。在昨天召开的RIM年度股东大...[详细]
Maxim推出四款全新的数字光传感器

中国，北京，2012年7月11日。Maxim Integrated Products (NASDAQ: MXIM)推出四款全新的数字光传感器，器件内置多个传感器，具有极高的模拟集成度。 MAX44004/05/06/08支持红/绿/蓝(RGB)光信号检测、环境光(ALS)检测、接近检测以及红外(IR)信号和温度信息的测量。紧凑的封装集成了多达7个传感器，这些传感器提供可靠且可重复的测量，MAX...[详细]
博泰语音云驾驶系统亮相开启智能生活

博泰悦臻携旗下“语音云驾驶系统”iVo－ka，日前亮相上海物联网大会。　　“语音云驾驶系统iVoka”完全颠覆了人与车传统的交互手段，实现了真正实用意义上的智能“人车对话”，涵盖兴趣点搜索与导航、拨打电话、收发短信、音乐播放、资讯搜索等所有的汽车信息交互应用，更加贴合广大车主对于移动互联网时代汽车信息化生活的多种需求。　　这种全新的智能语音人机交互方式，重新定义了“人与车”之间的关...[详细]
CAN-bus应用方案

概述作为一种技术先进、可靠性高、功能完善、成本合理的远程网络通讯控制方式，CAN-bus已被广泛应用到各个自动化控制系统中。例如，在汽车电子、自动控制、智能大厦、电力系统、安防监控等各领域，CAN-bus都具有不可比拟的优越性。根据各个不同应用领域的设计特点，本文提出了几种CAN-bus应用系统的硬件方案。基本CAN-bus节点应用范围各...[详细]
现场总线技术在邯钢高炉改造中的应用

邯钢4#高炉自1993年投产至今，外部设备严重老化，热风炉原有的PLC控制系统TDC3000也经常出现模板损坏和通讯中断事故，急需改造。考虑到热风炉设备较为分散，而现场总线技术正适合于这种分散的、具有通信接口的现场受控设备的系统，所以决定引入现场总线技术对热风炉进行改造。现场总线改造方案 1 现场总线现场总线的概念是随着微电子技术的发展，数字...[详细]
苹果宣布20日内地开售第三代iPad 19日接受预定

苹果公司（Apple）昨日宣布，7月20日在中国内地开售第三代平板电脑New iPad。据苹果中国官网昨日更新的说明，苹果零售店将于7月19日开始接受用户预定请求，次日即可到店内取货。苹果中国官网资料显示，第三代iPad共六款机型，售价自3688-6288元不等。第三代iPad在美国的售价为499-829美元。就在第三代iPad入华前夕，苹果于6月末刚刚向深圳唯冠公司支付6000万美...[详细]
瑞萨电子推出新款超级结MOSFET

2012年6月21日，日本东京讯 — 瑞萨电子公司 (TSE: 6723)，高级半导体解决方案的主要供应商，今天宣布推出三款新型超级结金属氧化物场效应三极管（超级结MOSFET）（注1），具有如下的特点：600V功率半导体器件中的导通电阻X栅极电荷，适用于高速电机驱动、DC-DC转换器和DC-AC逆变器应用。这一行业领先的低导通电阻和低栅极电压的组合平台，同时结合了快速体二极管的性能，使新...[详细]
诺基亚遭三重打击专利组合成唯一希望

导语：美国投资网站The Motley Fool今日发表署名克里斯·维卡利(Cris Vicari)的文章指出，诺基亚近期连遭微软背弃、穆迪降级以及芬兰政府拒伸援手等三重打击，复苏前景变得愈发渺茫。在这种内忧外患的困局面前，专利组合成了这家昔日的手机霸主重现辉煌的唯一希望。以下为文章全文：连遭三重打击诺基亚似乎连松口气的机会都没有了。过去几年，这家身陷困境的芬兰手机制造商遭受了一连...[详细]
上半年我国手机出货1.9亿部 3G超过2G

7月9日消息，根据工信部电信研究院公布的今年上半年全国手机行业运行状况，今年上半年全国手机市场出货量19491.3万部，其中3G手机出货量接近1.07亿部，已经远远超过2G手机的8700多万部的出货量。　　3G手机出货量达58% 　　数据显示，今年1-6月，全国上市的手机新品共2099款，其中2G手机1298款，3G手机801款。在6月份，3G手机新品上市166款，首次超过2G手机新品数...[详细]
马云手机端野心:不屌小米欲比肩苹果安卓

时至今日，几乎所有人都认为，阿里巴巴在手机端的布局已经泯然众人矣——无甚创新，甚至在小米、360、盛大、百度、网易等的包抄下，显得略微的沉闷和保守。但是马云和阿里手机计划掌舵者的野心是不是就仅仅止步于与小米、奇虎之流抗衡呢？当然不是，这家最喜欢在新闻稿中提及“生态系统”的公司，依然没有泯灭其重构手机生态系统的野心，期望成为可以比肩苹果、安卓平台外的第三种力量。　　当然，这一切很难。在过去...[详细]
青岛家庭明年用上4G网络三年内看裸眼3D电视

不用戴3D眼镜，就能看3D电视。在本届电博会上，最吸引人的技术非裸眼3D技术莫属了。本次电博会上，多家厂商推出了裸眼3D电视，无需戴眼镜就可以看到3D画面。不过，记者采访发现，由于技术、价格、清晰度等方面的制约，裸眼3D电视进入普通家庭还有一段路要走。7月8日，电博会落幕，据组委会统计，展会期间共实现贸易成交协议总额33.27亿元。其中，国内贸易协议额15.43亿元，出口意向2.81亿美元。 ...[详细]
寻迹小车中分布式控制系统的设计

本文将介绍一种应用于寻迹小车的分布式控制系统的设计方法，该系统可对电机模块、传感器模块和灯控模块进行分布式控制。这样设计是为该系统将来从寻迹小车到真车进行移植提供方便。此寻迹小车模型采用7.5V电池驱动，通过改变PWM占空比调速。小车可以在不完全确定的道路环境下，通过自我判断，对周围环境进行探测，并做出相应的反应（如左拐弯、右拐弯和改变速度等）。目前用在机器人上的多为价格较贵的超声波...[详细]
基于单片机的电动自行车速度与里程表设计

系统概述本系统由信号预处理电路、单片机AT89C2051、系统化LED显示模块、串口数据存储电路和系统软件组成。其中信号预处理电路包含信号放大、波形变换和波形整形。对待测信号进行放大的目的是降低对待测信号的幅度要求；波形变换和波形整形电路则用来将放大的信号转换成可与单片机相连的TTL信号；通过单片机的设置可使内部定时器T1对脉冲输入引脚T0进行控制，这样能精确地算出加到T0引脚的单位时间内检...[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