中文 English
促销活动 产品发布 行业动态 公司新闻
首页 > 首页 > 新闻与动态 > 行业动态

最新信息

(1) CXLE86296D 五通道高
(2) CXLE86295D 五通道高
(3) CXLE86294E PWM调光LE
(4) CXLE86293EI 线性恒流
(5) CXLE86292CI 五通道I2
(6) CXLE86291C 三通道PWM
(7) CXLE83205X PWM调光LE
(8) CXLE83204XS高精度PWM
(9) CXLE83203F:高功率DIP7
(10) CXLE83202F:高精度PWM

热门信息

NI将Wi-Fi 6 PA/FEM组件的
600mA Low-Dropout Linear
CXSD61053 wide input ran
第二届集成电路产业技术创
CXSU63258 is a high effi
2015年科研计划项目“高速
CXDR7544单节锂电池电量指
SOT23-3封装详解与设计指
5G承载致光模块价格“飙升
CXDR7506低功耗四通道电压

推荐信息

CXLE86301 降压型 LE
低静态电流超温保护2
LCD+ mini LED背光 开
5G承载致光模块价格“
报告称鸿蒙2020年全球
英飞凌推出面向LED驱

头条信息

CXLE86301 降压型 LE
低静态电流超温保护2

CXSD62125 1.5MHz高效单片同步降压稳压器电流模式设计陶瓷输出电容稳定单锂离子电池供电

发布时间:2020-04-25 19:03:07 浏览次数:312 作者:oumao18 来源:嘉泰姆
摘要:CXSD62125非常适合单锂离子电池供电应用。100%占空比提供低损耗运行,延长电池寿命 便携式电气设备的寿命。内部固定的1.5MHz工作频率允许使用小型表面贴装电感和电容器。内部的同步开关提高了效率,消除了外部肖特基二极管的需要。
CXSD62125 1.5MHz高效单片同步降压稳压器电流模式设计陶瓷输出电容稳定单锂离子电池供电

目录Y0U嘉泰姆

1.产品概述                       2.产品特点Y0U嘉泰姆
3.应用范围                       4.下载产品资料PDF文档 Y0U嘉泰姆
5.产品封装图                     6.电路原理图                   Y0U嘉泰姆
7.功能概述                        8.相关产品Y0U嘉泰姆

一,产品概述(General Description)         Y0U嘉泰姆
       CXSD62125 CXSD62125A is a 1.5MHz high efficiency monolithic synchronous buck regulator.Design with current mode scheme,the CXSD62125 CXSD62125A is stable with ceramic output capacitor. Input voltage from 2.7V to 6.0V makes the CXSD62125 CXSD62125A ideally suited for single Li-Ion battery powered Y0U嘉泰姆

applications. 100%duty cycle provides low dropout operation, extending battery Y0U嘉泰姆

life in portable electrical devices.The internally fixed 1.5MHz operating frequencyY0U嘉泰姆

 allows the using of small surface mount inductors and capacitors. The synchronous switches included inside increase the efficiency and eliminate the need of an external Schottky diode.Y0U嘉泰姆

The CXSD62125 CXSD62125A is available in SOT-23-5/TSOT-23-5A packages.Y0U嘉泰姆
二.产品特点(Features)Y0U嘉泰姆
1A Output CurrentY0U嘉泰姆
Wide 2.7V~6.0V Input VoltageY0U嘉泰姆
Fixed 1.5MHz Switching FrequencyY0U嘉泰姆
Low Dropout Operating at 100% Duty CycleY0U嘉泰姆
25μA Quiescent CurrentY0U嘉泰姆
Integrate Synchronous RectifierY0U嘉泰姆
0.6V Reference VoltageY0U嘉泰姆
Current-Mode Operation with InternalY0U嘉泰姆
CompensationY0U嘉泰姆
- Stable with Ceramic Output CapacitorsY0U嘉泰姆
- Fast Line Transient ResponseY0U嘉泰姆
Short-Circuit ProtectionY0U嘉泰姆
Over-Temperature Protection with HysteresisY0U嘉泰姆
Available in SOT-23-5/TSOT-23-5A PackagesY0U嘉泰姆
Lead Free and Green Devices Available (RoHS Compliant)Y0U嘉泰姆
三,应用范围 (Applications)Y0U嘉泰姆

HD STBY0U嘉泰姆

BT MouseY0U嘉泰姆
PND InstrumentY0U嘉泰姆
Portable InstrumentY0U嘉泰姆
四.下载产品资料PDF文档 Y0U嘉泰姆

需要详细的PDF规格书请扫一扫微信联系我们,还可以获得免费样品以及技术支持Y0U嘉泰姆

 QQ截图20160419174301.jpgY0U嘉泰姆

五,产品封装图 (Package)Y0U嘉泰姆

blob.pngY0U嘉泰姆

六.电路原理图Y0U嘉泰姆

blob.pngY0U嘉泰姆

七,功能概述Y0U嘉泰姆

In most applications, the CXSD62125 CXSD62125A does not dissipate much heat due to its high efficiency. But, in applications where the CXSD62125 CXSD62125A is running at high ambient tempera ture with low supply voltage and high duty cycles, the heat dissipated may exceed the maximum junction temperature of the part. If the junction temperature reaches ap-proximately 150°C, both power switches will be turned off and the SW node will become high impedance.To avoid the CXSD62125 CXSD62125A from exceeding the maximum junction temperature, the user will need to do some thermal analysis. The goal of the thermal analysis is to determine whether the power dissipated exceeds the maxi-mum junction temperature of the part. The power dissipated by the part is approximated:Y0U嘉泰姆
PD ≅ IOUT2 x (RP-FET x D+RN-FET x (1-D))Y0U嘉泰姆
The temperature rise is given by:Y0U嘉泰姆
TR = (PD)(èJA)Y0U嘉泰姆
Where PD is the power dissipated by the regulator, D isY0U嘉泰姆
duty cycle of main switchY0U嘉泰姆
D = VOUT/VINY0U嘉泰姆
The èJA is the thermal resistance from the junction of theY0U嘉泰姆
die to the ambient temperature. The junction temperature,Y0U嘉泰姆
TJ, is given by:Y0U嘉泰姆
TJ = TA + TRY0U嘉泰姆
Where TA is the ambient temperature.
Layout ConsiderationY0U嘉泰姆
For all switching power supplies, the layout is an important step in the design; especially at high peak currentsY0U嘉泰姆
and switching frequencies. If the layout is not carefully done, the regulator might show noise problems and dutyY0U嘉泰姆
cycle jitter.Y0U嘉泰姆
1. The input capacitor should be placed close to the VIN and GND. Connecting the capacitor and VIN/GND withY0U嘉泰姆
short and wide trace without any via holes for good input voltage filtering. The distance between VIN/GNDY0U嘉泰姆
to capacitor less than 2mm respectively is recommended.Y0U嘉泰姆
2. To minimize copper trace connections that can inject noise into the system, the inductor should be placedY0U嘉泰姆
as close as possible to the SW pin to minimize the noise coupling into other circuits.Y0U嘉泰姆
3. The output capacitor should be place closed to converter VOUT and GND.Y0U嘉泰姆
4. Since the feedback pin and network is a high impedance circuit the feedback network should be routedY0U嘉泰姆
away from the inductor. The feedback pin and feedback network should be shielded with a ground planeY0U嘉泰姆
or trace to minimize noise coupling into this circuit.Y0U嘉泰姆
5. A star ground connection or ground plane minimizes ground shifts and noise is recommended.Y0U嘉泰姆
八,相关产品               更多同类产品.......Y0U嘉泰姆

Switching Regulator > Buck ConverterY0U嘉泰姆

 Part_No Y0U嘉泰姆

 PackageY0U嘉泰姆

ArchitectuY0U嘉泰姆

No.ofY0U嘉泰姆

PWM Y0U嘉泰姆

OutpuY0U嘉泰姆

DriveY0U嘉泰姆

LoutY0U嘉泰姆

(A) Y0U嘉泰姆

Vin(V) Y0U嘉泰姆

FmaxY0U嘉泰姆

Khz Y0U嘉泰姆

Vref Y0U嘉泰姆

(V) Y0U嘉泰姆

R-Top (milohm) Y0U嘉泰姆

R-Sync (milohm) Y0U嘉泰姆

Iq (No load) (uA) Y0U嘉泰姆

minY0U嘉泰姆

maxY0U嘉泰姆

CXSD62122Y0U嘉泰姆

TQFN5x6-28Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

5Y0U嘉泰姆

4.5Y0U嘉泰姆

26Y0U嘉泰姆

380Y0U嘉泰姆

0.8Y0U嘉泰姆

50Y0U嘉泰姆

20Y0U嘉泰姆

1000Y0U嘉泰姆

CXSD62123Y0U嘉泰姆

SOP-8Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

2Y0U嘉泰姆

4.5Y0U嘉泰姆

26Y0U嘉泰姆

380Y0U嘉泰姆

0.8Y0U嘉泰姆

100Y0U嘉泰姆

  

1000Y0U嘉泰姆

CXSD62124Y0U嘉泰姆

SOP-8PY0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

4Y0U嘉泰姆

4.5Y0U嘉泰姆

26Y0U嘉泰姆

380Y0U嘉泰姆

0.8Y0U嘉泰姆

80Y0U嘉泰姆

  

1000Y0U嘉泰姆

CXSD62125Y0U嘉泰姆

SOT23-5|TSOT23-5Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

25Y0U嘉泰姆

CXSD62125AY0U嘉泰姆

SOT23-5Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

  

CXSD62126Y0U嘉泰姆

SOP-8Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

3Y0U嘉泰姆

4.3Y0U嘉泰姆

14Y0U嘉泰姆

500Y0U嘉泰姆

0.8Y0U嘉泰姆

70Y0U嘉泰姆

70Y0U嘉泰姆

500Y0U嘉泰姆

CXSD62127Y0U嘉泰姆

SOP-8PY0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

3Y0U嘉泰姆

4.3Y0U嘉泰姆

14Y0U嘉泰姆

500Y0U嘉泰姆

0.8Y0U嘉泰姆

55Y0U嘉泰姆

45Y0U嘉泰姆

500Y0U嘉泰姆

CXSD62128BY0U嘉泰姆

TDFN3x3-10Y0U嘉泰姆

    

3Y0U嘉泰姆

2.6Y0U嘉泰姆

5.5Y0U嘉泰姆

2000Y0U嘉泰姆

0.8Y0U嘉泰姆

110Y0U嘉泰姆

110Y0U嘉泰姆

460Y0U嘉泰姆

CXSD62129Y0U嘉泰姆

TDFN3x3-10Y0U嘉泰姆

CMY0U嘉泰姆

2Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

500Y0U嘉泰姆

CXSD62129AY0U嘉泰姆

TDFN3x3-10Y0U嘉泰姆

CMY0U嘉泰姆

2Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

  

CXSD62130Y0U嘉泰姆

TDFN2x2-6Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

25Y0U嘉泰姆

CXSD62130AY0U嘉泰姆

TDFN2x2-6Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

  

CXSD62131Y0U嘉泰姆

TDFN3x3-12Y0U嘉泰姆

CMY0U嘉泰姆

2Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

25Y0U嘉泰姆

CXSD62131AY0U嘉泰姆

TDFN3x3-12Y0U嘉泰姆

CMY0U嘉泰姆

2Y0U嘉泰姆

1Y0U嘉泰姆

2.7Y0U嘉泰姆

6Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

  

CXSD62131CY0U嘉泰姆

TDFN 3x3 12Y0U嘉泰姆

CMY0U嘉泰姆

2Y0U嘉泰姆

1Y0U嘉泰姆

3Y0U嘉泰姆

5.5Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

30Y0U嘉泰姆

CXSD62132Y0U嘉泰姆

TQFN3x3-20Y0U嘉泰姆

CMY0U嘉泰姆

3Y0U嘉泰姆

2Y0U嘉泰姆

2.9Y0U嘉泰姆

5.5Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

-Y0U嘉泰姆

-Y0U嘉泰姆

300Y0U嘉泰姆

CXSD62133Y0U嘉泰姆

TDFN2x2-8Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

1Y0U嘉泰姆

3.3Y0U嘉泰姆

8Y0U嘉泰姆

1500Y0U嘉泰姆

0.6Y0U嘉泰姆

280Y0U嘉泰姆

250Y0U嘉泰姆

25Y0U嘉泰姆

CXSD62134Y0U嘉泰姆

SOP-8Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

2Y0U嘉泰姆

4.5Y0U嘉泰姆

24Y0U嘉泰姆

340Y0U嘉泰姆

0.925Y0U嘉泰姆

110Y0U嘉泰姆

110Y0U嘉泰姆

1900Y0U嘉泰姆

CXSD62135Y0U嘉泰姆

SOP-8PY0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

3Y0U嘉泰姆

4.5Y0U嘉泰姆

24Y0U嘉泰姆

340Y0U嘉泰姆

0.925Y0U嘉泰姆

110Y0U嘉泰姆

110Y0U嘉泰姆

1900Y0U嘉泰姆

CXSD62136Y0U嘉泰姆

SOP-8Y0U嘉泰姆

CMY0U嘉泰姆

1Y0U嘉泰姆

2Y0U嘉泰姆

4.5Y0U嘉泰姆

24Y0U嘉泰姆

340Y0U嘉泰姆

0.92Y0U嘉泰姆

130Y0U嘉泰姆

130Y0U嘉泰姆

1900Y0U嘉泰姆

 Y0U嘉泰姆
上一篇: 4A26V380kHz异步降压转换器CXSD62124 80mW P沟道MOSFET 输出电流调节自动PSM/PWM模式操作中的输出电压
下一篇: 100%占空比提供低损耗CXSD62125A同步降压稳压器输入电压从2.7V到6.0V

相关推荐

发表评论

共有条评论
用户名: 密码:
验证码: 匿名发表

产品中心
电池管理与充电
LED驱动芯片
电机与驱动
模拟与混合信号
微控制器与存储
技术资源
产品文档下载
技术方案
芯片目录
常见问题
新闻与动态
公司新闻
行业动态
产品发布
促销活动
关于我们
客户服务
样品申请
技术支持
反馈建议
资料下载
人才招聘
人才招聘
人才理念

关注我们

微信公众号二维码

微信公众号

企业微信二维码

企业微信

客服邮箱 淘宝店 嘉泰姆电子
深圳市南山区嘉泰姆电子有限公司 版权所有 © 2023 粤ICP备13004986号
51la统计图标