LM2575_09,LM2575_09 pdf中文资料,LM2575_09引脚图,LM2575

文档预览

LM2575, NCV2575

1.0 A, Adjustable Output

Voltage, Step-Down

Switching Regulator

The LM2575 series of regulators are monolithic integrated circuits

ideally suited for easy and convenient design of a step−down

switching regulator (buck converter). All circuits of this series are

capable of driving a 1.0 A load with excellent line and load regulation.

These devices are available in fixed output voltages of 3.3 V, 5.0 V,

12 V, 15 V, and an adjustable output version.

These regulators were designed to minimize the number of external

components to simplify the power supply design. Standard series of

inductors optimized for use with the LM2575 are offered by several

different inductor manufacturers.

Since the LM2575 converter is a switch−mode power supply, its

efficiency is significantly higher in comparison with popular

three−terminal linear regulators, especially with higher input voltages.

In many cases, the power dissipated by the LM2575 regulator is so

low, that no heatsink is required or its size could be reduced

dramatically.

The LM2575 features include a guaranteed

±4%

tolerance on output

voltage within specified input voltages and output load conditions, and

±10%

on the oscillator frequency (±2% over 0°C to 125°C). External

shutdown is included, featuring 80

typical standby current. The

output switch includes cycle−by−cycle current limiting, as well as

thermal shutdown for full protection under fault conditions.

Features

http://onsemi.com

TO−220

TV SUFFIX

CASE 314B

Heatsink surface connected to Pin 3

TO−220

T SUFFIX

CASE 314D

•

3.3 V, 5.0 V, 12 V, 15 V, and Adjustable Output Versions

•

Adjustable Version Output Voltage Range of 1.23 V to 37 V

±4%

•

Maximum Over Line and Load Conditions

Guaranteed 1.0 A Output Current

Wide Input Voltage Range: 4.75 V to 40 V

Requires Only 4 External Components

52 kHz Fixed Frequency Internal Oscillator

TTL Shutdown Capability, Low Power Standby Mode

High Efficiency

Uses Readily Available Standard Inductors

Thermal Shutdown and Current Limit Protection

Moisture Sensitivity Level (MSL) Equals 1

Pb−Free Packages are Available*

Output

Ground

Feedback

ON/OFF

PAK

D2T SUFFIX

CASE 936A

Heatsink surface (shown as terminal 6 in

case outline drawing) is connected to Pin 3

ORDERING INFORMATION

See detailed ordering and shipping information in the package

dimensions section on page 25 of this data sheet.

Applications

Simple and High−Efficiency Step−Down (Buck) Regulators

Efficient Pre−Regulator for Linear Regulators

On−Card Switching Regulators

Positive to Negative Converters (Buck−Boost)

Negative Step−Up Converters

Power Supply for Battery Chargers

DEVICE MARKING INFORMATION

See general marking information in the device marking

section on page 26 of this data sheet.

*For additional information on our Pb−Free strategy and soldering details, please

download the ON Semiconductor Soldering and Mounting Techniques

Reference Manual, SOLDERRM/D.

Semiconductor Components Industries, LLC, 2009

June, 2009

−

Rev. 11

Publication Order Number:

LM2575/D

LM2575, NCV2575

Typical Application

(Fixed Output Voltage Versions)

Feedback

7.0 V - 40 V

Unregulated

DC Input

100

3 GND 5

LM2575

Output

ON/OFF

330

1N5819

5.0 V Regulated

Output 1.0 A Load

out

330

Representative Block Diagram and Typical Application

Unregulated

DC Input

Feedback

Fixed Gain

Error Amplifier Comparator

Current

Limit

3.1 V Internal

Regulator

ON/OFF

Output

Voltage Versions

3.3 V

5.0 V

12 V

15 V

For adjustable version

R1 = open, R2 = 0

(W)

1.7 k

3.1 k

8.84 k

11.3 k

1.0 k

Driver

Freq

Shift

18 kHz

52 kHz

Oscillator

Latch

Output

1.0 Amp

Switch

Reset

Thermal

Shutdown

GND

Regulated

Output

out

Load

1.235 V

Band-Gap

Reference

This device contains 162 active transistors.

Figure 1. Block Diagram and Typical Application

ABSOLUTE MAXIMUM RATINGS

(Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.)

Rating

Maximum Supply Voltage

ON/OFF Pin Input Voltage

Output Voltage to Ground (Steady−State)

Power Dissipation

Case 314B and 314D (TO−220, 5−Lead)

Thermal Resistance, Junction−to−Ambient

Thermal Resistance, Junction−to−Case

Case 936A (D

PAK)

Thermal Resistance, Junction−to−Ambient (Figure 34)

Thermal Resistance, Junction−to−Case

Storage Temperature Range

Minimum ESD Rating (Human Body Model: C = 100 pF, R = 1.5 kW)

Lead Temperature (Soldering, 10 s)

Maximum Junction Temperature

Symbol

−

qJA

qJC

qJA

qJC

stg

−

Value

−0.3

≤

−1.0

Internally Limited

5.0

Internally Limited

5.0

−65

to +150

2.0

260

150

Unit

°C/W

°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.

http://onsemi.com

LM2575, NCV2575

OPERATING RATINGS

(Operating Ratings indicate conditions for which the device is intended to be functional, but do not guarantee

specific performance limits. For guaranteed specifications and test conditions, see the Electrical Characteristics.)

Rating

Operating Junction Temperature Range

Supply Voltage

Symbol

Value

−40

to +125

Unit

°C

SYSTEM PARAMETERS

([Note 1] Test Circuit Figure 14)

for the 12 V version, and V

= 30 V for the 15 V version. I

Load

= 200 mA. For typical values T

= 25°C, for min/max values T

is the

operating junction temperature range that applies [Note 2], unless otherwise noted.)

Characteristics

LM2575−3.3

(Note 1 Test Circuit Figure 14)

Output Voltage (V

= 12 V, I

Load

= 0.2 A, T

= 25°C)

Output Voltage (4.75 V

≤

40 V, 0.2 A

≤

Load

≤

1.0 A)

= 25°C

−40

to +125°C

Efficiency (V

= 12 V, I

Load

= 1.0 A)

LM2575−5

([Note 1] Test Circuit Figure 14)

Output Voltage (V

= 12 V, I

Load

= 0.2 A, T

= 25°C)

Output Voltage (8.0 V

≤

40 V, 0.2 A

≤

Load

≤

1.0 A)

= 25°C

−40

to +125°C

Efficiency (V

= 12 V, I

Load

= 1.0 A)

LM2575−12

(Note 1 Test Circuit Figure 14)

Output Voltage (V

= 25 V, I

Load

= 0.2 A, T

= 25°C)

Output Voltage (15 V

≤

40 V, 0.2 A

≤

Load

≤

1.0 A)

= 25°C

−40

to +125°C

Efficiency (V

= 15V, I

Load

= 1.0 A)

LM2575−15

(Note 1 Test Circuit Figure 14)

Output Voltage (V

= 30 V, I

Load

= 0.2 A, T

= 25°C)

Output Voltage (18 V

≤

40 V, 0.2 A

≤

Load

≤

1.0 A)

= 25°C

−40

to +125°C

Efficiency (V

= 18 V, I

Load

= 1.0 A)

LM2575 ADJUSTABLE VERSION

(Note 1 Test Circuit Figure 14)

Feedback Voltage (V

= 12 V, I

Load

= 0.2 A, V

out

= 5.0 V, T

= 25°C)

Feedback Voltage (8.0 V

≤

40 V, 0.2 A

≤

Load

≤

1.0 A, V

out

= 5.0 V)

= 25°C

−40

to +125°C

Efficiency (V

= 12 V, I

Load

= 1.0 A, V

out

= 5.0 V)

1.217

1.193

1.18

−

1.23

−

1.243

1.267

1.28

−

out

14.7

14.4

14.25

−

15.3

15.6

15.75

−

out

11.76

11.52

11.4

−

12.24

12.48

12.6

−

out

4.9

4.8

4.75

−

5.0

−

5.1

5.2

5.25

−

out

3.234

3.168

3.135

−

3.3

−

3.366

3.432

3.465

−

Symbol

Min

Typ

Max

ELECTRICAL CHARACTERISTICS

(Unless otherwise specified, V

= 12 V for the 3.3 V, 5.0 V, and Adjustable version, V

= 25 V

Unit

1. External components such as the catch diode, inductor, input and output capacitors can affect switching regulator system performance.

When the LM2575 is used as shown in the Figure 14 test circuit, system performance will be as shown in system parameters section.

2. Tested junction temperature range for the LM2575 and the NCV2575:

low

−40°C

high

= +125°C

http://onsemi.com

LM2575, NCV2575

DEVICE PARAMETERS

for the 12 V version, and V

= 30 V for the 15 V version. I

Load

= 200 mA. For typical values T

= 25°C, for min/max values T

is the

operating junction temperature range that applies [Note 2], unless otherwise noted.)

Characteristics

ALL OUTPUT VOLTAGE VERSIONS

Feedback Bias Current (V

out

= 5.0 V Adjustable Version Only)

= 25°C

−40

to +125°C

Oscillator Frequency Note 3

= 25°C

= 0 to +125°C

−40

to +125°C

Saturation Voltage (I

out

= 1.0 A Note 4)

= 25°C

−40

to +125°C

Max Duty Cycle (“on”) Note 5

Current Limit (Peak Current Notes 4 and 3)

= 25°C

−40

to +125°C

Output Leakage Current Notes 6 and 7, T

= 25°C

Output = 0 V

Output =

−1.0

Quiescent Current Note 6

= 25°C

−40

to +125°C

Standby Quiescent Current (ON/OFF Pin = 5.0 V (“off”))

= 25°C

−40

to +125°C

ON/OFF Pin Logic Input Level (Test Circuit Figure 14)

out

= 0 V

= 25°C

−40

to +125°C

out

= Nominal Output Voltage

= 25°C

−40

to +125°C

ON/OFF Pin Input Current (Test Circuit Figure 14)

ON/OFF Pin = 5.0 V (“off”), T

= 25°C

ON/OFF Pin = 0 V (“on”), T

= 25°C

−

1.7

1.4

−

1.0

−

2.3

−

0.8

6.0

5.0

−

100

200

kHz

−

1.2

1.3

−

3.0

3.2

2.0

9.0

200

400

Symbol

Min

Typ

Max

ELECTRICAL CHARACTERISTICS

(Unless otherwise specified, V

= 12 V for the 3.3 V, 5.0 V, and Adjustable version, V

= 25 V

Unit

osc

sat

stby

2.2

2.4

−

1.4

−

1.2

−

1.0

0.8

5.0

3. The oscillator frequency reduces to approximately 18 kHz in the event of an output short or an overload which causes the regulated output

voltage to drop approximately 40% from the nominal output voltage. This self protection feature lowers the average dissipation of the IC by

lowering the minimum duty cycle from 5% down to approximately 2%.

4. Output (Pin 2) sourcing current. No diode, inductor or capacitor connected to output pin.

5. Feedback (Pin 4) removed from output and connected to 0 V.

6. Feedback (Pin 4) removed from output and connected to +12 V for the Adjustable, 3.3 V, and 5.0 V versions, and +25 V for the 12 V and

15 V versions, to force the output transistor “off”.

7. V

= 40 V.

http://onsemi.com

LM2575, NCV2575

TYPICAL PERFORMANCE CHARACTERISTICS

(Circuit of Figure 14)

0.6

Vout , OUTPUT VOLTAGE CHANGE (%)

0.4

0.2

-0.2

-0.4

-0.6

-50

= 20 V

Load

= 200 mA

Normalized at

= 25°C

1.0

0.8

0.6

0.4

0.2

-0.2

12 V and 15 V

Load

= 200 mA

= 25°C

3.3 V, 5.0 V and Adj

-25

100

125

5.0

, JUNCTION TEMPERATURE (°C)

, INPUT VOLTAGE (V)

Figure 2. Normalized Output Voltage

Figure 3. Line Regulation

1.2

Vsat , SATURATION VOLTAGE (V)

1.1

1.0

0.9

0.8

0.7

0.6

0.5

0.4

125°C

25°C

-40°C

IO , OUTPUT CURRENT (A)

3.0

2.5

2.0

1.5

1.0

0.5

= 25 V

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

-50

-25

100

125

SWITCH CURRENT (A)

, JUNCTION TEMPERATURE (°C)

Figure 4. Switch Saturation Voltage

Figure 5. Current Limit

2.0

INPUT-OUTPUT DIFFERENTIAL (V)

IQ , QUIESCENT CURRENT (mA)

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

-50

-25

100

125

Load

= 200 mA

Load

= 1.0 A

out

= 5%

ind

= 0.2

8.0

6.0

4.0

5.0

Load

= 200 mA

Load

= 1.0 A

out

= 5.0 V

Measured at

Ground Pin

= 25°C

, JUNCTION TEMPERATURE (°C)

, INPUT VOLTAGE (V)

Figure 6. Dropout Voltage

Figure 7. Quiescent Current

http://onsemi.com

参数对比

与LM2575_09相近的元器件有：LM2575、LM2575D2T-3.3R4G、LM2575TV-015G、LM2575T-015G、LM2575T-012G、NCV2575D2T-12G、NCV2575、NCV2575D2T-ADJR4G、NCV2575D2T-ADJG。描述及对比如下：

型号	LM2575_09	LM2575	LM2575D2T-3.3R4G	LM2575TV-015G	LM2575T-015G	LM2575T-012G	NCV2575D2T-12G	NCV2575	NCV2575D2T-ADJR4G	NCV2575D2T-ADJG
描述	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5	3.2 A SWITCHING REGULATOR, 63 kHz SWITCHING FREQ-MAX, SSO5
功能数量	1	1	1	1	1	1	1	1	1	1
端子数量	5	5	5	5	5	5	5	5	5	5
表面贴装	Yes	Yes	YES	NO	NO	NO	YES	Yes	YES	YES
端子形式	GULL WING	GULL WING	GULL WING	THROUGH-HOLE	THROUGH-HOLE	THROUGH-HOLE	GULL WING	GULL WING	GULL WING	GULL WING
端子位置	单一的	单一的	SINGLE	ZIG-ZAG	SINGLE	SINGLE	SINGLE	单一的	SINGLE	SINGLE
温度等级	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE	AUTOMOTIVE
控制模式	电压	电压	VOLTAGE-MODE	VOLTAGE-MODE	VOLTAGE-MODE	VOLTAGE-MODE	VOLTAGE-MODE	电压	VOLTAGE-MODE	VOLTAGE-MODE
最大输出电流	3.2 A	3.2 A	3.2 A	3.2 A	3.2 A	3.2 A	3.2 A	3.2 A	3.2 A	3.2 A
是否无铅	-	-	不含铅	不含铅	不含铅	不含铅	不含铅	-	-	不含铅
零件包装代码	-	-	D2PAK	SFM	SFM	SFM	D2PAK	-	D2PAK	D2PAK
包装说明	-	-	, SMSIP5H,.6,67TB	TO-220, 5 PIN	TO-220, 5 PIN	TO-220, 5 PIN	, SMSIP5H,.54,67TB	-	, SMSIP5H,.54,67TB	, SMSIP5H,.54,67TB
针数	-	-	5	3	3	3	5	-	5	5
制造商包装代码	-	-	936A-02	CASE 314B-05	CASE 314D-04	CASE 314D-04	936A-02	-	CASE 936A-02	936A-02
Reach Compliance Code	-	-	_compli	compli	compli	compli	_compli	-	compli	_compli
ECCN代码	-	-	EAR99	EAR99	EAR99	EAR99	EAR99	-	EAR99	EAR99
模拟集成电路 - 其他类型	-	-	SWITCHING REGULATOR	SWITCHING REGULATOR	SWITCHING REGULATOR	SWITCHING REGULATOR	SWITCHING REGULATOR	-	SWITCHING REGULATOR	SWITCHING REGULATOR
控制技术	-	-	PULSE WIDTH MODULATION	PULSE WIDTH MODULATION	PULSE WIDTH MODULATION	PULSE WIDTH MODULATION	PULSE WIDTH MODULATION	-	PULSE WIDTH MODULATION	PULSE WIDTH MODULATION
最大输入电压	-	-	40 V	40 V	40 V	40 V	40 V	-	40 V	40 V
最小输入电压	-	-	4.75 V	4.75 V	4.75 V	4.75 V	4.75 V	-	4.75 V	4.75 V
标称输入电压	-	-	12 V	30 V	30 V	25 V	25 V	-	12 V	12 V
JESD-30 代码	-	-	R-XSSO-G5	R-XZFM-T5	R-XSFM-T5	R-XSFM-T5	R-XSSO-G5	-	R-XSSO-G5	R-XSSO-G5
JESD-609代码	-	-	e3	e3	e3	e3	e3	-	-	e3
最高工作温度	-	-	125 °C	125 °C	125 °C	125 °C	125 °C	-	125 °C	125 °C
最低工作温度	-	-	-40 °C	-40 °C	-40 °C	-40 °C	-40 °C	-	-40 °C	-40 °C
封装主体材料	-	-	UNSPECIFIED	UNSPECIFIED	UNSPECIFIED	UNSPECIFIED	UNSPECIFIED	-	UNSPECIFIED	UNSPECIFIED
封装等效代码	-	-	SMSIP5H,.6,67TB	ZIP5,.15,.2,67TB	SIP5,.1,67TB	SIP5,.1,67TB	SMSIP5H,.54,67TB	-	SMSIP5H,.54,67TB	SMSIP5H,.54,67TB
封装形状	-	-	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	-	RECTANGULAR	RECTANGULAR
封装形式	-	-	SMALL OUTLINE	FLANGE MOUNT	FLANGE MOUNT	FLANGE MOUNT	SMALL OUTLINE	-	SMALL OUTLINE	SMALL OUTLINE
峰值回流温度（摄氏度）	-	-	260	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	-	-	NOT SPECIFIED
认证状态	-	-	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified	-	Not Qualified	Not Qualified
切换器配置	-	-	BUCK	BUCK	BUCK	BUCK	BUCK	-	BUCK	BUCK
最大切换频率	-	-	63 kHz	63 kHz	63 kHz	63 kHz	63 kHz	-	63 kHz	63 kHz
端子面层	-	-	Tin (Sn)	Matte Tin (Sn)	Matte Tin (Sn)	Matte Tin (Sn)	Tin (Sn)	-	-	Tin (Sn)
端子节距	-	-	1.702 mm	1.7 mm	1.7 mm	1.7 mm	1.702 mm	-	1.702 mm	1.702 mm
处于峰值回流温度下的最长时间	-	-	40	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	NOT SPECIFIED	-	-	NOT SPECIFIED

树莓派新镜像制作: 树莓派新镜像制作没有看明白这个教程是做啥的… 文档名来看，应该是把树莓派TF卡里面的系统弄个镜...; chenzhufly Linux与安卓

怎么计算时钟的频率: 我有一个A/D转换器，硬件手册上没有写要多大的时钟频率，但给了其它信息，但我不知道怎么算,请大虾们帮...; ylcmd 嵌入式系统

2440ce5的bsp移植到ce6的SMFLASH问题: ce5下bsp是好的，移植到ce6下，eboot已经搞好，烧录nk后，打印如下消息： Error R...; zzxxzz 嵌入式系统

家电业如何应对理性消费时代: ...; Felix 移动便携

PA设计原理及实践篇-基于MRF8P9040N的PA设计——亲测ADS2011: 本文主要介绍基于MRF8P9040N管子的PA设计，包括DCIV曲线设置，偏置电路设计，LoadP...; btty038 RF/无线

可编程系统级芯片强势发展，赛普拉斯推波助澜: 赛普拉斯半导体公司(Cypress Semiconductor)近日宣布，其可编程系统级芯...; david 工控电子

净化全面分析空气净化器技术讲解

随着灰蒙天空不断出现，如何缓解“十面霾伏”、保障呼吸安全，公众对于PM2.5相关危害认识的加深及对家居环境空气质量的重视，更多人开始关注空气净化器在生活中的应用。但比起冰箱空调等常见家电，大部分消费者对空气净化器知之甚少，那究竟当前净化器市场上怎样的技术怎样的产品才更具优势呢？滤巨人永洗王空气净化器产品特点：全球首创永洗滤网，第三代高效空气净化，净化0成本创新高效净化，3...[详细]
全球首款12TB硬盘终于开卖：HGST出品

如今的机械硬盘容量提升真是困难，10+TB依然都是稀罕物，这么弄下去被SSD固态硬盘全面甩开只是个时间问题。即便是发布了大容量新品，上市速度也是奇慢无比，价格又是奇高无比。早在2016年底，西部数据旗下HGST就发布了全球第一款12TB容量的机械硬盘UltraStar He12，采用第四代充氦封装技术和传统垂直磁记录技术，但到今年4月底才开始出货，而直到今天才在市面上见到。 HGST Ultr...[详细]
运算放大器电路自激振荡分析

高速运算放大器是一个高放大倍数的多级放大器，在深度负反馈条件下，很容易产生自激振荡。为了使放大器能稳定工作，需要外加一定的相位补偿网络，以消除自激振荡。文中针对一种高速运算放大器ＡＤ７１３　的自激进行了测试，并且通过相位滞后补偿网络消除自激振荡，工作稳定。 ...[详细]
Linux驱动之异步OR同步，阻塞OR非阻塞概念介绍

1.同步与异步同步和异步关注的是消息通信机制 (synchronous communication/ asynchronous communication) 所谓同步，就是在发出一个*调用*时，在没有得到结果之前，该*调用*就不返回。但是一旦调用返回，就得到返回值了。换句话说，就是由*调用者*主动等待这个*调用*的结果。而异步则是相反，*调用*在发出之后，这个调用就直接返回了，所以没有返回...[详细]
IDC：西欧市场华为迎寒冬小米OPPO强势增长

由于疫情的持续，上一季度西欧各大经济体的智能手机市场迎来了一波衰退。不过，随着情况稍有缓和，该市场有了恢复迹象。据市场调研机构 IDC 显示，主流的智能手机品牌的销量已经进一步复苏。第三季度，西欧市场手机出货量总计达2880万台，不同厂商的境况各有差别。作为全球市占率最大的手机品牌，三星在该市场的出货量达到1030万台，占据了35.6%的市场份额。不过相比去年同期仍有6.9%的差距。在接...[详细]
英特尔 i7-1280P 核显跑分解密，LPDDR5-5200 内存加持

IT之家 2 月 12 日消息，一款搭载英特尔 12 代酷睿 i7-1280P 的笔记本现已现身 Geekbench，GPU 跑分首次曝光。　　如上图所示，为了避免违反英特尔的 NDA，该设备的名称已被修改。该设备搭载了 i7-1280P 处理器，14 核 20 线程，配备了 32GB LPDDR5-5200 内存，核显仍为 96EU 规格。　　在 Geekbench 的 OpenCL ...[详细]
华为手机无线充电器供应商，无锡蓝沛新材料或两月内投产

据无锡日报报道，无锡蓝沛新材料科技股份有限公司在今年签约后，完成了惠山洁净车间的装修和上海金山总部及各个生产基地的动迁。公司副总裁贾明智说，作为华为手机无线充电器的一级配套供应商，蓝沛公司在感受到惠山开发区的高效服务后，又主动新增了与5G相关的一体成形电感项目，一期投入1亿元建设10条生产线。“还有不到两个月就将投产。” 今年2月28日，2020年惠山区首批重大产业项目集中签约仪式在惠山经...[详细]
2022年中国机器人谐波减速机行业发展现状及市场规模分析

机器人减速机行业主要上市公司：目前，我国机器人减速机行业相关上市公司有绿的谐波（688017．SH）、双环传动（002472．SZ）、中大力德（002896．SZ）、中技克美（871601．NQ）、秦川机床（000837．SZ）等。本文核心数据：中国机器人销量数据、中国机器人谐波减速机市场规模数据等机器人减速机两大细分市场各占半壁现阶段，我国减速器产品历经了40余年的市场兴衰发展后，已经从...[详细]
如何快速零基础到入门51单片机（二）

此讲我们主要介绍如何安装Keil5与STC-ISP 一 Keil5软件一共有许多版本，我们现在学的是51单片机所以我们要选择C51这个版本。（建议使用破解版）华维单片机编程：免费领！单片机入门到高级开挂学习路径(附教程+工具） 37 赞同 · 8 评论文章破解版使用方法：先打开Keil＿Lic.exe，然后进入Keil软件时不能双击进入，要先点击鼠标右键...[详细]
乔布斯曾考虑收购索尼

4月11日消息，据国外媒体报道，甲骨文公司CEO拉里·埃里森日前在东京发表演讲时透露，乔布斯曾想要收购索尼公司，但因为资金不足而放弃。4月9日，埃里森在东京发表演讲时透露，史蒂夫·乔布斯曾表示“打算收购索尼，但费用太高”。拉里·埃里森有意思的是，自索尼2000陷入经营困境以后，就一直有传言说苹果打算收购索尼，还有报道称，乔布斯十分佩服索尼已故联合创始人...[详细]
数字测试式LCD控制驱动电路测试方法

随着液晶显示器在日常生活中得到越来越广泛的应用，其核心部件——LCD控制驱动电路的品种及需求量也日益增多。通常情况下，对LCD控制驱动电路的测试是在LCD电路专用测试系统上完成的，但因其价格昂贵，使得测试成本也相应地大幅抬高，成为制约LCD控制驱动电路批量生产的瓶颈。文章针对上述原因，提出了一种基于数字测试系统的LCD控制驱动电路的测试方法，以便低成本、高品质地实现LCD控制驱动电路的测试。同时...[详细]
从零开始Labview机器视觉-图像采集

上个效果图先捣鼓这个东西1个多礼拜了。从开始连NI是啥都不知道，瞪着MAX不知编程界面在哪，到后来反复折腾VAS、LV、VDM安装顺序（刚开先装VAS后装LV找不到imaq的vi还不知道啥原因），然后看网上的教程，不知道各种图标是什么函数，到现在终于把USB相机采集图像的这个小玩意做出来，中间走了不少弯路。这里姑且把思路整理一下，重做一遍全当复习之用，也适合毫无基础的人看。 ...[详细]
意法半导体(ST)展示STM32开放式开发环境

2016年4月18日,横跨多重电子应用领域、全球领先的半导体供应商意法半导体（STMicroelectronics，简称ST）的STM32开放式开发环境（Open Development Environment ，ODE）在发布仅一年后，就已成为功能完整的集成开发生态系统，帮助开发人员开发包括物联网（IoT）应用在内的嵌入式系统。 STM32开放式开发环境是开发人员使用意法半导体的先进元器件...[详细]
CAN总线协议

CAN总线协议概念特征 (1)报文(Message)总线上的数据以不同报文格式发送，但长度受到限制。当总线空闲时，任何一个网络上的节点都可以发送报文。 (2)信息路由(Information Routing)在CAN中，节点不使用任何关于系统配置的报文，比如站地址，由接收节点根据报文本身特征判断是否接收这帧信息。因此系统扩展时，不用对应用层以及任何节点的软件和硬件作改变，可以直接在CAN中增加...[详细]
小米9未来一个月内出货绝对超100万部

IT之家2月28日消息 2月26日，小米9首发。根据当日小米公布的数据，小米9旗舰手机首卖53秒售罄。对于持币等着现货购买而又未能在首批开卖中抢到的消费者来说，这样的体验很糟心。甚至有IT之家的网友反馈称自己连排队页面都没进去。　　对于小米9线上平台快速售罄的情况，小米公司表示，其实小米9这次备货量很足，只是兼顾了线上和线下。另外，雷军在小米9发售之前，也曾表示这款手机拥有充足的现货...[详细]