NCP693DMN33TCG,NCP693DMN33TCG pdf中文资料,NCP693DMN33TCG引脚图,NCP693DMN33TCG电路-Datasheet-电子工程世界

文档预览

NCP693

1A CMOS Low-Dropout

Voltage Regulator

The NCP693 series of fixed output low dropout linear regulators are

designed for portable battery powered applications with high output

current requirement up to 1 A. Each device contains a voltage

reference unit, an error amplifier, a PMOS power transistor, resistors

for setting output voltage, a current limit circuits for over−current and

thermal−shutdown. A standby mode with ultra low supply current can

be realized with the chip enable function.

The device is housed in the DFN 1.8x2, 0.50P surface mount

package. Standard voltage versions are 0.8 V, 1.0 V, 1.2 V, 2.5 V and

3.3 V.

Features

http://onsemi.com

MARKING

DIAGRAM

XXX

XMM

UDFN6, 1.8x2, 0.5P

CASE 517BA

XXXX

•

Maximum Operating Voltage of 6.5 V

Low Output Voltage Option down to 0.8 V

High Accuracy Output Voltage of 1.0%

Built−in Auto Discharge Function for D Version

These are Pb−Free Devices

Battery Powered Instruments

Hand−Held Instruments

Camcorders and Cameras

Portable communication equipments

= Specific Device Code

= Lot Number

Typical Applications

PIN DESCRIPTION

Vout 1

Vout 2

GND 3

(Top View)

6 Vin

5 Vin

4 CE

ORDERING AND MARKING INFORMATION

See detailed ordering and shipping information in the package

dimensions section on page 11 of this data sheet.

Semiconductor Components Industries, LLC, 2010

March, 2010

−

Rev. 1

Publication Order Number:

NCP693/D

NCP693

Vin

Vout

Vin

Vout

Vref

Current Limit &

Thermal Shutdown

GND

Current Limit &

Thermal Shutdown

GND

Version H (NCP693HMNxxTCG)

Version D (NCP693DMNxxTCG)

Figure 1. Internal Block Diagram

PIN FUNCTION DESCRIPTION

Pin No.

Pin Name

out

GND

Regulated output voltage.

Power supply ground.

This input is used to place the device into low−power standby. When this input is pulled low, the device

is disabled. If this function is not used, Enable should be connected to V

Positive power supply input voltage.

Power supply ground.

Description

MAXIMUM RATINGS

Rating

Input Voltage

Enable Voltage

Output Voltage

Operating Junction Temperature

Operating Ambient Temperature

Storage Temperature

Symbol

out

stg

Value

−0.3

to V

−0.3

to V

+ 0.3

+150

−40

to +85

−55

to +125

Unit

°C

Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the

Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect

device reliability.

1. This device series contains ESD protection and exceeds the following tests:

Human Body Model 2000 V per (JEDEC 22−A114−B)

Machine Model Method 200 V

THERMAL CHARACTERISTICS

Rating

Junction−to−Ambient

PSIJ−Lead 2

Power Dissipation

NOTE:

Symbol

qJA

J−L2

Test Conditions

1 oz Copper Thickness, 100 mm

Typical Value

114

880

Unit

°C/W

Single component mounted on an 80 x 80 x 1.5 mm FR4 PCB with stated copper head spreading area. Using the following

boundary conditions as stated in EIA/JESD 51−1, 2, 3, 7, 12.

http://onsemi.com

NCP693

ELECTRICAL CHARACTERISTICS

= V

out(nom)

+ 1.0 V, V

= V

, C

= 2.2

mF,

out

= 2.2

mF,

= 25°C,

unless otherwise noted)

Characteristic

Output Voltage (T

= 25°C, I

out

= 10 mA)

0.8 V

1.0 V

1.2 V

2.5 V

3.3 V

Output Voltage (T

−

40°C to 85°C, I

out

= 10 mA)

0.8 V

1.0 V

1.2 V

2.5 V

3.3 V

Output Current

Input Voltage

Line Regulation (V

= V

out

+ 1.0 V to 6.5 V, I

out

= 10 mA)

Load Regulation (I

out

= 1 mA to 300 mA, V

= V

out

+ 2.0 V)

Load Regulation (I

out

= 1 mA to 1 A, V

= V

out

+ 2.0 V)

Supply Current (I

out

= 0 A, V

= 6.5 V)

Standby Current (V

= 0 V, V

= 6.5 V)

Short Current Limit (V

out

= 0 V)

Output Voltage Temperature Coefficient

Enable Input Threshold Voltage

(Voltage Increasing, Output Turns On, Logic High)

(Voltage Decreasing, Output Turns Off, Logic Low)

Enable Pulldown Current

Drop Output Voltage (T

= 25°C, I

out

= 300 mA)

0.8 V

1.0 V

1.2 V

2.5 V

3.3 V

Drop Output Voltage (T

= 25°C, I

out

= 1 A)

0.8 V

1.0 V

1.2 V

2.5 V

3.3 V

Ripple Rejection (Ripple 200 mV

, I

out

= 100 mA, f = 1 kHz)

Output Noise (BW = 10 Hz to 100 kHz, I

out

= 1 mA)

Thermal Shutdown Temperature/Hysteresis

DS(on)

of additional output transistor (D version only)

−V

out

Symbol

out

Min

0.785

0.985

1.185

2.475

3.267

0.760

0.960

1.160

2.435

3.214

Typ

0.8

1.0

1.2

2.5

3.3

0.8

1.0

1.2

2.5

3.3

1.6

−

0.05

0.15

250

−

1.0

−

$100

−

0.3

0.670

0.450

0.300

0.150

0.130

1.150

1.000

0.870

0.500

0.430

165/30

0.780

0.610

0.500

0.310

0.170

1.650

1.450

1.380

1.100

0.650

−

0.4

6.5

0.1

120

0.6

Max

0.815

1.015

1.215

2.525

3.333

0.827

1.027

1.227

2.545

3.359

Unit

out

Reg

line

Reg

load03

Reg

load1

stby

thCE

%/V

ppm/°C

−V

out

PSRR

noise

shd

/Hyst

DS(on)

mVrms

°C

2. Maximum package power dissipation limits must be observed.

3. Low duty cycle pulse techniques are used during testing to maintain the junction temperature as close to ambient as possible.

http://onsemi.com

NCP693

APPLICATIONS INFORMATION

A typical application circuit for the NCP693 series is

shown in Figure 2.

Input Decoupling (C1)

A 2.2

capacitor either ceramic or tantalum is

recommended and should be connected as close as possible

to the pins of NCP693 device. Higher values and lower ESR

will improve the overall line transient response.

Output Decoupling (C2)

(NCP693DMNxxTCG) have additional circuitry in order to

reach the turn−off speed faster than normal type. When the

mode is into standby with CE signal, auto discharge

transistor turns on.

Hints

The minimum decoupling value is 2.2

and can be

augmented to fulfill stringent load transient requirements.

The regulator accepts ceramic chip capacitors as well as

tantalum devices. If a tantalum capacitor is used, and its ESR

is large, the loop oscillation may result. Because of this,

select C2 carefully considering its frequency characteristics.

Larger values improve noise rejection and load regulation

transient response.

Enable Operation

Please be sure the V

and GND lines are sufficiently wide.

If their impedance is high, noise pickup or unstable

operation may result.

Set external components, especially the output capacitor,

as close as possible to the circuit, and make leads as short as

possible.

Thermal

The enable pin CE will turn on or off the regulator. These

limits of threshold are covered in the electrical specification

section of this data sheet. If the enable is not used then the

pin should be connected to V

. The D version devices

As power across the NCP693 increases, it might become

necessary to provide some thermal relief. The maximum

power dissipation supported by the device is dependent

upon board design and layout. Mounting pad configuration

on the PCB, the board material, and also the ambient

temperature effect the rate of temperature rise for the part.

This is stating that when the NCP693 has good thermal

conductivity through the PCB, the junction temperature will

be relatively low with high power dissipation applications.

Figure 2. Typical Application Circuit

http://onsemi.com

NCP693

0.9

0.8

OUTPUT VOLTAGE (V)

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0.0

0.2

0.4

0.6

0.8

1.0

1.2

OUTPUT CURRENT (A)

1.4

1.6

= 1.4 V

1.6 V

2.0 V

2.5 V

= 25°C

OUTPUT VOLTAGE (V)

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

0.2

0.4

0.6

0.8

1.0

1.2

OUTPUT CURRENT (A)

1.4

1.6

= 1.8 V

3.0 V

2.4 V

= 25°C

Figure 3. Output Voltage vs. Output Current

NCP693xMN08TCG

3.0

= 25°C

2.5

OUTPUT VOLTAGE (V)

2.0

1.5

1.0

0.5

0.0

= 2.9 V

3.8 V

3.3 V

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.2

0.4

0.6

0.8

1.0

1.2

1.4

1.6

0.0

Figure 4. Output Voltage vs. Output Current

NCP693xMN12TCG

= 3.6 V

5.0 V

4.3 V

= 25°C

0.2

0.4

0.6

0.8

1.0

1.2

1.4

1.6

OUTPUT CURRENT (A)

Figure 5. Output Voltage vs. Output Current

NCP693xMN25TCG

70.0

60.0

Figure 6. Output Voltage vs. Output Current

NCP693xMN33TCG

70.0

60.0

SUPPLY CURRENT (mA)

50.0

40.0

30.0

20.0

10.0

SUPPLY CURRENT (mA)

50.0

40.0

30.0

20.0

10.0

0.0

out

= 0 V

INPUT VOLTAGE (V)

0.0

out

= 0 V

INPUT VOLTAGE (V)

Figure 7. Supply Current vs. Input Voltage

NCP693xMN08TCG

Figure 8. Supply Current vs. Input Voltage

NCP693xMN12TCG

http://onsemi.com

参数对比

与NCP693DMN33TCG相近的元器件有：NCP693DMN25TCG、NCP693DMN10TCG、NCP693HMN12TCG、NCP693HMN33TCG、NCP693DMN08TCG、NCP693HMN25TCG。描述及对比如下：

型号	NCP693DMN33TCG	NCP693DMN25TCG	NCP693DMN10TCG	NCP693HMN12TCG	NCP693HMN33TCG	NCP693DMN08TCG	NCP693HMN25TCG
描述	LDO Voltage Regulators 1A CMOS Low-Dropout Volt Regulator	LDO Voltage Regulators 1A CMOS Low-Dropout Volt Regulator	LDO Voltage Regulators 1A CMOS Low-Dropout Voltage Regulator	LDO Voltage Regulators 1A CMOS Low-Dropout Volt Regulator	LDO Voltage Regulators 1A CMOS Low-Dropout Volt Regulator	LDO Voltage Regulators 1A CMOS Low-Dropout Volt Regulator	LDO Voltage Regulators 1A CMOS Low-Dropout Volt Regulator
Brand Name	ON Semiconductor	ON Semiconductor	ON Semiconductor	ON Semiconductor	ON Semiconductor	ON Semiconductor	ON Semiconductor
是否无铅	不含铅	不含铅	不含铅	不含铅	不含铅	不含铅	不含铅
零件包装代码	DFN	DFN	DFN	DFN	DFN	DFN	DFN
包装说明	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6	1.80 X 2 MM, 0.50 MM PITCH, LEAD FREE, UDFN-6
针数	6	6	6	6	6	6	6
制造商包装代码	517BA	517BA	517BA	517BA	517BA	517BA	517BA
Reach Compliance Code	compliant	compliant	compliant	compliant	compliant	compliant	compliant
ECCN代码	EAR99	EAR99	EAR99	EAR99	EAR99	EAR99	EAR99
最大回动电压 1	0.65 V	1.1 V	1.45 V	1.38 V	0.65 V	1.65 V	1.1 V
最大输入电压	6.5 V	6.5 V	6.5 V	6.5 V	6.5 V	6.5 V	6.5 V
最小输入电压	1.6 V	1.6 V	1.6 V	1.6 V	1.6 V	1.6 V	1.6 V
JESD-30 代码	R-PDSO-N6	R-PDSO-N6	R-PDSO-N6	R-PDSO-N6	R-PDSO-N6	R-PDSO-N6	R-PDSO-N6
JESD-609代码	e3	e3	e3	e3	e3	e3	e3
长度	2 mm	2 mm	2 mm	2 mm	2 mm	2 mm	2 mm
湿度敏感等级	1	1	1	1	1	1	1
功能数量	1	1	1	1	1	1	1
端子数量	6	6	6	6	6	6	6
工作温度TJ-Max	150 °C	150 °C	150 °C	150 °C	150 °C	150 °C	150 °C
最大输出电流 1	0.3 A	0.3 A	0.3 A	0.3 A	0.3 A	0.3 A	0.3 A
最大输出电压 1	3.359 V	2.545 V	1.027 V	1.227 V	3.359 V	0.827 V	2.545 V
最小输出电压 1	3.214 V	2.435 V	0.96 V	1.16 V	3.214 V	0.76 V	2.435 V
标称输出电压 1	3.3 V	2.5 V	1 V	1.2 V	3.3 V	0.8 V	2.5 V
封装主体材料	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY	PLASTIC/EPOXY
封装代码	HVSON	HVSON	HVSON	HVSON	HVSON	HVSON	HVSON
封装形状	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR
封装形式	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE
认证状态	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified
调节器类型	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR
座面最大高度	0.6 mm	0.6 mm	0.6 mm	0.6 mm	0.6 mm	0.6 mm	0.6 mm
表面贴装	YES	YES	YES	YES	YES	YES	YES
技术	CMOS	CMOS	CMOS	CMOS	CMOS	CMOS	CMOS
端子面层	Tin (Sn)	Tin (Sn)	Tin (Sn)	Tin (Sn)	Tin (Sn)	Tin (Sn)	Tin (Sn)
端子形式	NO LEAD	NO LEAD	NO LEAD	NO LEAD	NO LEAD	NO LEAD	NO LEAD
端子节距	0.5 mm	0.5 mm	0.5 mm	0.5 mm	0.5 mm	0.5 mm	0.5 mm
端子位置	DUAL	DUAL	DUAL	DUAL	DUAL	DUAL	DUAL
宽度	1.8 mm	1.8 mm	1.8 mm	1.8 mm	1.8 mm	1.8 mm	1.8 mm
Base Number Matches	1	1	1	1	1	1	1
Factory Lead Time	1 week	-	-	1 week	10 weeks	-	1 week

.ld文件如何引用外部宏？求问: 现在在搞一个东西，使用eclipse，需要在ld文件里面修改memory段，配置文件是外部的.h...; shauew 嵌入式系统

TM4C123GPTM的PWM模式生成方波: 想用通用定时器产生PWM,不知什么原因程序一直不对，下面附上程序，求助。 void Init_Tim...; wangchao12 微控制器 MCU

AVR控制W25X16读写不一致: 我用的是AVR单片机控制的W25X16读写的结果不一致，找不到原因，我自认为跟SPI的设置有关系 ...; anxiaoxiao Microchip MCU

【DigiKey“智造万物，快乐不停”创意大赛】记叙文——MAIX BIT KIT开箱: 话说10月的一天里，我收到了一个快递。拿来一看，怎么DgiKey用了这么个小盒子啊： ...; nemon DigiKey得捷技术专区

看门狗电路应用基本技巧和注意事项: 一、前言在MCU、DSP等应用中，广泛用的看门狗(WatchDog)电路，又称电压监控器电路，...; 吾妻思萌模拟电子

【Follow me第二季第2期】任务汇总: UNO R4 WIFI 视频：【Follow me第二季第2期】视频展示-EEWORLD...; 王嘉辉 DigiKey得捷技术专区

PIC单片机MPLAB V8设置技巧

以前对MPLAB的不人性化设计发过牢骚，今天从网上看到了一篇文章，教你如何设置，设置完后，人性化多了。在此分享一下：原文：让你的MPLAB好用起来！很多人抱怨，MPLAB 编辑功能不方便，很多功能没有。特别是你如果第一次接触MPLAB的时候，觉得界面太不友好，其实不然。。。。 1. 实现效果1：双击选取单词，再次双击选取整行。——打开 edit\properties菜单,选C Fil...[详细]
新能源汽车和燃油车还差多少？还要政策多少支持？

一年之中，每到一些时间点，微信朋友圈就会有人编出一些带套路的话来。比如：春节长假结束了。他们说：距离下一次过年还有346天；比如：周一了，他们说：距离周末还有5天…… 这些说法，初看给你一个激灵，但仔细一想，呵呵。这则新闻给我类似感觉：彭博社7月6日报道说，中国考虑进一步削减电动车补贴。知情人士透露，2019年电动汽车平均购车补贴可能在2018年的基础上降低三分之...[详细]
图像识别技术在内容审核领域的应用研究

互联网内容发展与图像识别技术早在2013年，全世界每天会上传超过5亿张图片、上传20万小时长的视频到互联网。但是人们每天在Instagram分享近6000万张照片，在Facebook分享近3亿张当然，还没算上Snapchat、 Google 、 Twitter等大量产图的应用。据估计，一年后就可达到18亿，所以在三年后的今天，这个数值必然远超乎我们的想象。确实，人们相比过去，互联网的数据每...[详细]
何继江：能源互联网创新北京雾霾治理模式

中国储能网讯：十月假期，本是秋高气爽的季节，雾霾却已经笼罩京城，从10月初到12月4日，北京已经经历了8次空气重度污染过程。 2016年7月8日，环保部环境规划院发布2015年度全国PM2.5跨省输送矩阵。2015年，北京PM2.5来源中，本地污染排放贡献66%，其中，河北输送占18%，天津、山东输送分别占4%。这个数据残酷地告诉我们，即使河北完全不向北京输送污染物，按照平均水平，北京...[详细]
TDK B3277*X/Y/Z系列电容器,适用于直流支撑的紧凑型电容器

TDK株式会社（东京证券交易所股票代码：6762）推出B3277*X/Y/Z系列电容器，扩展了直流支撑用爱普科斯(EPCOS) 薄膜电容器的产品组合。新系列电容器具有紧凑尺寸，高电容密度和大电流能力等特点，额定工作电压为500 V DC至1200 V DC，电容值范围为1.5 μF至170 μF，有多种标准型号可选。新系列电容器的引线间距分别有27.5 mm、37.5 mm和52.5...[详细]
韩媒：华为计划年底推出折叠屏手机抢先三星

据韩媒ETNews报道称，除了三星之外，华为也正在紧锣密鼓地推出可折叠屏幕手机，据悉柔性屏幕是由竞争对手LG提供，报道称华为计划将于今年11月发布该机。如果真的如此的话，那么华为或将抢先三星推出全球首款可折叠屏幕手机，因为据称三星计划在明年初发布可折叠屏幕手机。当然，发布并不意味着手机将很快上市，但对于三星的时间表也是如此。据说苹果也在研发可折叠显示屏原型设备，屏幕也是来自LG。另外，据悉华为...[详细]
5分钟完成核磁共振检查，Facebook的AI技术现在还经不住考验

近日，Facebook的人工智能实验室与纽约大学医学院达成合作，尝试将核磁共振成像（MRI）的检查速度提高十倍。MRI的检查速度一般在半个小时到一个小时之间，如果将其检查的速度提高十倍，未来的放射科医生则有望在短短的几分钟内就完成检测工作。而这看似小小的技术合作，又会给当前的医疗现状带来怎样的改变？ AI加速MRI检查，吹一场医疗新风不管人们对人工智能打败人类围棋高手、游戏高手等新闻多...[详细]
STM32软件复位的实现方法

前些天写程序的时候，需要做一个自动复位的功能，也就是当收到外部通讯设备复位指令时，主设备立刻执行复位操作。当时是想到的用看门狗实现。但是觉得似乎不太妥当，因为看门狗的复位是需要一定的时间。而在这段时间内系统还是处于正常运行当中，而且所有中断都会正常响应。这恰好与要实现的功能南辕北辙。需求是当收到复位指令时，系统停止执行后面的所有操作，包含中断响应。所以看门狗无法实现。我用的是STM32F1...[详细]
三星LG积极抢滩中国高端电视市场

北京时间4月2日消息，韩联社报道，今年以来中国电视市场增长原地踏步，但曲面电视等高端产品销量却在剧增，因此三星LG已将目光全面投向中国高端电视市场。　　2013年三星显示器在业界首推曲面LCD电视面板，之后针对中国电视市场格局的变化，致力于抢占高端电视市场。三星显示器目前除了向三星电子提供产品之外，还向中国电视机生产厂家供应4000R黄金曲率（曲面弯曲程度相当于半径4米的圆周）的55英寸...[详细]
一块OLED屏幕引发的赌局与暗战

　　苹果7000万订单、Google 8.8亿投资。 OLED 屏，这个大众并不一定熟悉的名词，2017年频频被推到聚光灯前。下面就随网络通信小编一起来了解一下相关内容吧。　　此时，距离三星第一块AM OLED 屏量产，已整整十年。　　过去这十年，是智能手机飞速普及的十年，也是屏幕面板厂商幕后角力的十年。十年之后，不知不觉中， OLED 屏不仅开启了一场全球智能手机厂商间的明争与暗战，解锁...[详细]
多核与多执行绪的嵌入式系统解决方案

在嵌入式装置中建置多核心（包含同质或异质）以及多执行绪技术，的确能带来诸多效益，尤其是改进系统效能方面最为明显。尽管RISC嵌入式技术所面临的挑战越来越多，但是在维持以往嵌入式软件资源兼容性的前提之下，能够改善其未来适用性，并且有效提升新系统的效能表现，使其不失为良好的解决方案。应用决定多核或多绪多核心与多执行绪在效能表现上有其帮助，但是效能与这些技术的内建其实并没有绝对关系，会造成这...[详细]
iOS 14.6关闭了验证：苹果拒绝用户降级

今晨，苹果推送了iOS 14.7.1正式版，与此同时，对于iOS 14.6系统的验证通道也宣告关闭。　　这意味着，如果你已经升级到了iOS 14.7及以上版本，那么将无法降级。　　iOS 14.6修复了Apple Watch解锁iPhone偶发失效、iPhone性能下降、蓝牙通话时断连等问题，并且为AirTag新增丢失模式。　　iOS 14.7则在上周推送，新增iPhone 12系列对...[详细]
码隆科技：把粤港澳打造成人工智能大湾区

1月15日,深圳市政协六届四次会议在深圳会堂开幕。深圳市政协主席戴北方作政协常委会工作报告。报告中提到,2018年是贯彻中共十九大精神的开局之年,深圳市政协将在中共深圳市委的领导下,为深圳率先建设社会主义现代化先行区贡献智慧和力量。作为深圳市政协委员科技界代表,码隆科技CEO黄鼎隆博士在本次会议上的提案,呼应了十九大所提出的“推动互联网、大数据、人工智能和实体经济深度融合”,和“粤港澳大湾区”...[详细]
罗德与施瓦茨FSV30频谱仪维修

一、仪器型号罗德与施瓦茨FSV30频谱仪二、检测过程经过上电开机测试发现两台FSV30可以正常开机，随后测试自检自校准是否能够正常通过，经检测自检自校准有失败项目。继续检测发现仪器高频段频响超差大；三、检修过程发现以上故障，大致就能判断是哪里出了问题，拆机检测后发现仪器微波开关放大模块损坏严重，更换微波开关放大模块损坏组件，整机调整检测仪器。四、修复检测开...[详细]
有机电子渐热，有机CMOS晶体管即将问世

　　Novaled AG（德国，德累斯顿）通过采用其自主研发的p型和n型掺杂剂成功地开发出了基于单层并五苯（Pentacene）半导电层的p型和n型场效应管。这项掺杂技术将促进数字有机电子的发展。　　Novaled表示，当前的大多数开发都是基于并五苯（一类有机材料，通常仅用于p型晶体管的半导体层）展开。通过在晶体管源极或漏极接点加薄薄的一层p型或n型掺杂剂，晶体管变成纯P型或纯N型，抗噪性增...[详细]