IR2213芯片资料
英飞凌的IGBT驱动芯片介绍
电容设定故障消隐 时间
EN
VCC HIN1,2,3 VB1,2,3 LIN1,2,3 HO1,2,3 FAULT VS1,2,3 EN 欠压锁定 RRCIN
TO LOAD
外接NTC用于过温 (OT)保护
RCIN ITRIP VSS
LO1,2,3 COM
RNTC
GND
外接取样电阻作短路/过流保护
Page 8
EiceDriver
Page 23
Isoaltion Definitions
Functional Insulation:
VDE 0884-10 Approved UL1577 Pending
Insulation between conductive parts which is necessary only for the proper functioning of the equipment. Basic Insulation: Insulation applied to live parts to provide basic protection against electric shock. Supplementary Insulation: Independent insulation applied in addition to basic insulation, in order to provide protection against shock in the event of a failure of basic insulation. Double Insulation: Insulation comprising both basic insulation and supplementary insulation. Reinforced Insulation: A single Insulation applied to live parts, which provides a degree of protection against electric shock equivalent to double insulation
开关调光调色温恒流icSM2213EM无频闪三段应用替换CYT调色
开关调光调色温恒流icSM2213EM无频闪三段应用替换CYT调色
开关调光调色温恒流icSM2213EM应用领域
恒流驱动
T5/T8 系列 LED 日光灯管
LED 球泡灯,LED 吸顶灯
概述
开关调光调色温恒流icSM2213EM 是一款可 3 段调整亮度/色温的LED 线性恒流控制
芯片。
适用于 200Vac~240Vac 或 110Vac~130Vac 输入。
当 SM2213EM 在 3 段调整亮度应用中,可按照开启关闭电源开关,依次转变输出的大小,从而转变 LED 灯的亮度,调整亮度比例可以通过外接 REXT 举行调节。
当 SM2213EM 在 3 段调整色温应用中,可按照开启关闭电源开关,依次转变两路输出
端口开关状态,实现两路不同色彩 LED 灯的交替亮灭以实现调整色温的目的,调整外
接 REXT 电阻可对输出功率举行调整。
三段高PF无频闪开关调光调色温恒流icSM2213EM
注 1:最大输出功率受限于芯片结温,最大极限值是指超出该工作范围,芯片有可能损
第1页共5页。
ZSSC3135AA2T中文资料(ZMDI)中文数据手册「EasyDatasheet - 矽搜」
数据表
修订1.00 2011 /月
ZSSC3135
传感器信号调理器,用于压阻式桥传感器
芯片中文手册,看全文,戳
ZSSC3135
传感器信号调理器,用于压阻式桥传感器
简 要 描 述 ;简 介
所述ZSSC3135是ZSSC313x成员 CMOS产品系列集成电路 专为汽车/工业传感器应用 系统蒸发散.所有家人都非常适合highly-
2电路描述....................................................................................................................................... 11 2.1.信号流........................................................................................................................................... 11 2.2.应用模式................................................................................................................................ 12 2.3.模拟前端(AFE) ....................................................................................................................... 12 2.3.1.可编程增益放大器(PGA)............................................ ................................................. 12 2.3.2.偏移补偿..................................................................................................................... 13 2.3.3.测量周期....................................................................................................................... 13 2.3.4.模拟 - 数字转换器............................................................................................................ 15 2.4.温度测量.................................................................................................................. 16 2.5.系统控制和调节计算............................................. ......................................... 16 2.5.1.操作Modes............................................................................................................................ 16 2.5.2.启动阶段................................................................................................................................ 16 2.5.3.空调计算................................................................................................................ 17 2.6.模拟输出AOUT ............................................................................................................................ 17 2.7.串行数字接口.......................................................................................................................... 18 2.8.故障防护护功能,看门狗和错误检测........................................... .................................... 18 2.9.高电压,反向极性防护护和短路防护护......................................... ...................... 18
IR FET选型
三相桥式驱动器 应用:电机驱动
型号
封装
IR2130 IR2130J IR2130S IR2131 IR2131J IR2131S IR2132 IR2132J IR2132S IR2133 IR2133J IR2133S IR2135 IR2135J IR2135S IR2136 IR2136J IR2136S IR21362 IR21362J IR21362S IR21363 IR21363J IR21363S IR2233 IR2233J IR2233S IR2235 IR2235J IR2235S
Vs
IR2121
8L PDIP
5V
输出源/吸收电流 +1.0/-2.0A
Vcc 范围 10-25V(低压关断)
VBS 范围 12-18V
传输延迟 150ns ton
双低端驱动器
型号
封装
Vs
IR4426/S IR4427/S IR4428/S
8L PDIP, 20V
SOIC
输出源/吸收电流 +1.5/-1.5A
深圳市英锐恩科技有限公司 Web: or E-mail:jason.ma@ enroo@
照明电子镇流器控制 IC
带 600V 半桥栅极驱动器的镇流器控制 IC 应用:照明
可编程性 预热时间 预热频率
非反相输入,5-20V 单独的逻辑电源,关断输入
非反相输入,5-21V 单独的逻辑电源,关断输入 快速,大电流输出,非反相输入,5-20V 单独的逻辑电源,关断输入
深圳市英锐恩科技有限公司 Web: or E-mail:jason.ma@ enroo@
600V 600V 1200V
+200/-420m A +120/-250m A +200/-420m A
调光调色IC2213EA
…
…
LED14
-6-
SM2213EA 3 段调光/调色线性恒流 LED 驱动芯片 QZIWISV1.7
SM2213EA 支持芯片并联应用方案。若因输出功率过大导致芯片温度过高时,可以采用多颗 SM2213EA 芯片 并联的应用方案。
多颗芯片应用方案一
高 PF 值调光方案
开关 L
200Vac~240Vac
N
图 5 SM2213EA 3 段调色温典型应用电路图
ห้องสมุดไป่ตู้
典型应用:R1=R2=10Ω,当 0.3s<开关周期<3s: 开关第一次开启时,OUT2 端口开启,输出平均电流 IOUT2=30mA; 开关第二次开启时, OUT1 和 OUT2 端口开启, 输出平均电流 IOUT1=IOUT2=15mA, 输出总电流为 30mA; 开关第三次开启时,OUT1 端口开启,输出平均电流 IOUT1=30mA; 当开关周期>3s(VCC 电容设置) ,回复初始状态,输出平均电流 IOUT2=30mA。 调色顺序为 2700K-4000K-6500K(OUT2 端口灯串为 2700K 色温,OUT1 端口灯串为 6500K 色温)
N
3 段开关调色电路图(高 PF)
3 段开关调色电路图(无频闪)
-1-
…
…
1 VDD 2 VCC 3 REXT1 4 REXT2
应用领域
…
…
开关
1 VDD
VIN 8
L 开关
1 VDD 2 VCC 3 REXT1 4 REXT2 GND VIN 8 NC 7 OUT1 6 OUT2 5
2 VCC GND NC 7
LED1
R4 1M
图 4 SM2213EA
HY2213全系列
DS-HY2213-V02_SC
HY2213
1 节锂离子/锂聚合物电池充电平衡 IC
目 录
1. 2. 3. 4. 5. 6. 6.1. 6.2. 7. 8. 8.1. 8.2. 9. 10. 10.1. 10.2. 10.3. 11. 12. 12.1. 13. 概述 ........................................................................................................................................................... 4 特点 ........................................................................................................................................................... 4 应用 ........................................................................................................................................................... 4 方框图 ........................................................................................................................................................ 5 订购信息 .................................................................................................................................................... 5 产品目录 .................................................................................................................................................... 6 电气参数选择 ......................................................................................................................................... 6 特性代码-其它功能选择 ...................................................................................................................... 6 封装、脚位及标记信息 .............................................................................................................................. 6 电气特性 .................................................................................................................................................... 7 绝对最大额定值 ..................................................................................................................................... 7 电气参数(延迟时间除外) ................................................................................................................... 7
UBA2213驱动CFL的半桥功率集成电路系列产品数据手册说明书
UBA2213驱动CFL的半桥功率集成电路系列版本.2—2011年11月21日产品数据手册1.概述UBA2213系列是一种高压单片集成电路,采用半桥结构,用于驱动的紧凑型荧光灯(CFL)。
该系列产品提供了简单的一体化照明控制方案,适用于各种电源电压和一系列功率范围的灯管。
2.特点和优点2.1系统集成·集成半桥功率晶体管UBA2213A:220V,13.5Ω,最大点火电流0.9AUBA2213B:220V,9Ω,最大点火电流1.35AUBA2213C:220V,6.6Ω,最大点火电流1.85A·集成自举二极管·集成高压电源2.2常规t)·电流型预热控制模式,可调节的预热时间(ph·非点火应用时控制辉光时间最小化电极点火的损害·RMS电流控制2.3快速平滑亮灯·采用外部时间控制模式来升压·在升压状态是,采用时间控制温度模式·从升压状态到引燃状态,平滑过渡2.4灯管寿命·预热时间可调的电流型预热控制·最小辉光时间支持冷起动·灯的功率不受电源电压变化影响·点火期间灯的电感饱和保护驱动CFL的半桥功率集成电路2.5安全性·过热保护·电容模式保护·电流饱和保护·超功率控制·灯管寿命终止时,系统自动关闭2.6应用简单·工作频率可调,易于和各种灯管匹配·该系列中每个器件包含相同的控制器功能,以保证适用于各种功率范围的CFL。
3.应用·应用于室内和室外23W以下的紧凑型荧光灯4.订购信息表1:订购信息驱动CFL的半桥功率集成电路5.方框图UBA2213XT (SO14封装) 管脚号在括号表明n.p表示在UBA2213XP(DIP8封装)中未集成。
图1:方框图在S014封装中,集成了DVDT电源所需的两个二极管,接在DVDT和PGND之间。
门极驱动应用选型指南
英飞凌门极驱动技术
›
电平转换技术(Level-Shift) PN结隔离(JI) & 绝缘体上硅(SOI)
国际整流器公司(IR)的尖端PN结 隔离技术与英飞凌新一代绝缘体 上硅(SOI)技术
无铁芯变压器技术(CT)
› 磁耦合技术保证电气隔离
› 行业领先的非隔离型技术,运用
低压数模混合集成电路技术
非隔离型技术(N-ISO)
2EDN8524F IR7106S IRS2186(4) 1EDI05I12AF 1EDI10I12MF IRS44273L
制动斩波器 有源整流桥
2ED020I12-F2 1ED020I12-F2 1ED020I12-FT
汽车 & 电池驱动的应用
提供行业中最全面、最领先的元件
无论是充电桩、低速电动车,还是服务机器人、无人机,英飞凌都提供可配置的半桥驱动与三相驱动芯片。 配合英飞凌的功率MOSFET一起为用户提供高效的解决方案。除此之外,英飞凌还提供通过AEC-Q100认证 的车用级门极驱动芯片。 在电池驱动的应用当中,节能是十分重要的一环。英飞凌的门极驱动芯片可以帮助消费者达到最高的精度 与能源的最高效利用。
驱动类型 单通道
5V 高边 低边 高边 低边 半桥 全桥 电流检测 高压启动 PN结隔离(JI) 三相
25 V
100 V
200 V
500 V
600 V
700 V
1200 V
驱动芯片
双通道
高低边
四通道 六通道 门极驱动支持性芯片 非隔离型技术(N-ISO)
绝缘体上硅(SOI)
无铁芯变压器(CT)
英飞凌门极驱动封装一览表
列车牵引系统
1EDI60I12AF IR2214SS IR2213
IR芯片系列选型说明2
600
250/500
Yes
IRF6607
600
250/500
Yes
IRF7309 TRPBF
SOP-8
30V,N+P 400V,1000
600
2500/2500
Yes
IRF730PBF
TO-220AB mO,5.5A 74W
600
2500/2500
Yes
/html/s234/2010-10/512238.htm
IRF1404PBF
TO-221AB
IRF1404Z
TO-222AB
IRF1405PBF
TO-223AB
IRF1407
TO-224AB
IRF2804
TO-225AB
IRF2807PBF
TO-226AB
IRF3205PBF
TO-227AB
IRF3205SPBF IRF3415 IRF3808
TO-228AB TO-229AB TO-230AB
2011-5-10
Page 2 of 6
High Side IR2010PBF and Low Side High Side IR2010SPBF and Low Side High Side IR2011PBF and Low Side High Side IR2011SPBF and Low Side IR20153SPBF Single Channel 150 High Side IR2101PBF and Low Side High Side IR2101S and Low Side High Side IR2101SPBF and Low Side IR2103SPBF IR2104SPBF IR2104STR Half Bridge Half Bridge Half Bridge High Side IR2106SPBF and Low Side IR21084 Half Bridge 600 600 600 200/350 200/350 200/350 Yes Yes 600 200/350 600 600 600 210/360 210/360 210/360 Yes Yes 600 210/600 600 210/600 600 210/600 400/1500 Yes 200 1000/1000 200 1000/1000 200 3000/3000 Yes 200 3000/3000 Yes
IR系列MOS驱动ic中文应用手册
3V~20V 0 MGDs MGDs 1 IR210x
MGDs
MGDs 8
4
12 MGDs 120ns 95 ns
12 13 Vss 50ns 2.2 N ) MGD 2 8.6/8.2V MOSFET N MOSFET 2 5 ( P CMOS 0.12A~2A VCC COM f5V
2.3 ( 3) VS 2 COM VB
R1 VO R1 12V 1N4107 10V 20V 15V R1
11
28
IR2110 4
12
29 IR2110 PWM 5
(
3
4
5, MOSFET 7 L2 10ns 10
)
2.1
/
6
L1 IR2110 25ns
29 2 30 HEXFET E 10 500KHZ L dv/dt EMI IRF830 IR2110
4.
MGD a)
MOS
MGD
(PD(lv)q) VSS 3.5mW 15V 125 3' OY 6: , 5mW
VDD
VCC 25
b 9FF b1) MGD
PG VgQGgf 100kHz HEXFET IRF450 PG=2h15h120h10-9h100h10³=0.36W
Vgs
15V
VSS
/ MGD 6¡ 6/16 CMOS PCMOS=VCCgQCMOSgf 30nC MGD
20 MOS 270A IGBT 0.2ms
2
E
5KHZ
50%
10ms
IR IGBT
IGBT Ccg
NPT Cge Ccg Cge
IGBT
3
10
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Features•Fully operational to +1200VTolerant to negative transient voltage dV/dt immune•Gate drive supply range from 12 to 20V •Undervoltage lockout for both channels •3.3V logic compatibleLogic and power ground ±5V offset••••Outputs in phase with inputs•Also available LEAD-FREE (PbF)DescriptionIR2213(S) & (PbF)HIGH AND LOW SIDE DRIVERProduct SummaryPreliminary Data Sheet No. PD60030 rev.O 1IR2213(S) & (PbF)Absolute Maximum RatingsAbsolute Maximum Ratings indicate sustained limits beyond which damage to the device may occur. All voltage param-eters are absolute voltages referenced to COM. The Thermal Resistance and Power Dissipation ratings are measured under board mounted and still air conditions.Note 1: Logic operational for V S of -5 to +1200V. Logic state held for V S of -5V to -V BS . (Please refer to the Design Tip DT97-3 for more details).Note 2: When V DD <5V, the minimum V SS offset is limited to -V DDIR2213(S) & (PbF) 3Dynamic Electrical CharacteristicsV BIAS (V CC , V BS , V DD ) = 15V, C L = 1000 pF, T A = 25°C and V SS = COM unless otherwise specified. The dynamic electrical characteristics are measured using the test circuit shown in Figure 3.Static Electrical CharacteristicsV BIAS (V CC , V BS , V DD ) = 15V, T A = 25°C and V SS = COM unless otherwise specified. The V IN , V TH and I IN parameters are referenced to V SS and are applicable to all three logic input leads: HIN, LIN and SD. The V O and I O parameters are referenced to COM and are applicable to the respective output leads: HO or LO.4IR2213(S) & (PbF)Symbol DescriptionV DD Logic supplyHIN Logic input for high side gate driver output (HO), in phase SD Logic input for shutdownLIN Logic input for low side gate driver output (LO), in phase V SS Logic groundV B High side floating supply HO High side gate drive output V S High side floating supply return V CC Low side supplyLO Low side gate drive output COMLow side returnFunctional Block DiagramLead DefinitionsLead Assignments14 Lead PDIP 16 Lead SOIC (Wide Body)IR2213IR2213SIR2213(S) & (PbF)5Figure 1. Input/Output Timing Diagram Figure 2. Floating Supply Voltage Transient Test CircuitFigure 3. Switching Time Test CircuitFigure 4. Switching Time Waveform DefinitionFigure 6. Delay Matching Waveform Definitions(0 to 1200V)Figure 5. Shutdown Waveform DefinitionsHV =10 to 1200V<50 V/nsIR2213(S) & (PbF)Figure 12A. Logic “1” Input Threshold vs. TemperatureFigure 10A. Turn-On Rise Time vs. TemperatureFigure 11A. Turn-Off Fall Time vs. Temperature Figure 11B. Turn-Off Fall Time vs. VoltageFigure 10B. Turn-On Rise Time vs. Voltage -50-250255075100125Temperature (°C)Turn-OnRiseTime(ns)101214161820V BIAS Supply Voltage (V)Turn-OnRiseTime(ns)1020304050-50-250255075100125Temperature (°C)Turn-OffFallTime(ns)1020304050101214161820V BIAS Supply Voltage (V)Turn-OffFallTime(ns)-50-250255075100125Temperature (°C)Logic"1"InputThreshold(V)6IR2213(S) & (PbF) 7Figure 13A. Logic “0” Input Threshold vs. TemperatureFigure 14A. High Level Output vs. TemperatureFigure 14B. High Level Output vs. VoltageFigure 15B. Low Level Output vs. VoltageFigure 15A. Low Level Output vs. Temperature -50-25255075100125Temperature (°C)L o g i c "0" I n p u t T h r e s h o l d (V )0.001.002.003.004.005.00-50-25255075100125Temperature (°C)H i g h L e v e l O u t p u t V o l t a g e (V )0.000.200.400.600.801.00-50-25255075100125Temperature (°C)L o w L e v e l O u t p u t V o l t a g e (V )0.001.002.003.004.005.00101214161820V BIAS Supply Voltage (V)H i g h L e v e l O u t p u t V o l t a g e (V )0.000.200.400.600.801.00101214161820V BIAS Supply Voltage (V)L o w L e v e l O u t p u t V o l t a g e (V )IR2213(S) & (PbF)Figure 16B. Offset Supply Current vs. VoltageFigure 16A. Offset Supply Current vs. TemperatureFigure 18A. V CC Supply Current vs. Temperature Figure 18B. V CC Supply Current vs. VoltageFigure 17A. V BS Supply Current vs. Temperature Figure 17B. V BSSupply Current vs. Voltage0125250375500625101214161820V CC Fixed Supply Voltage (V)V C C S u p p l y C u r r e n t (µA )0125250375500625-50-25255075100125Temperature (°C)V C C S u p p l y C u r r e n t (µA )0100200300400500-50-25255075100125Temperature (°C)V B S S u p p l y C u r r e n t (µA )0100200300400500101214161820V BS Floating Supply Voltage (V)V B S S u p p l y C u r r e n t (µA )100200300400500O f f s e t S u p p l y L e a k a g e C u r r e n t (µA )0100200300400500-50-25255075100125Temperature (°C)O f f s e t S u p p l y L e a k a g e C u r r e n t (µA )V B Boost Voltage (V)0 200 400 600 800 1000 1200IR2213(S) & (PbF)Figure 21A. Logic “0” Input Current vs. Temperature Figure 19A. V DD Supply Current vs. TemperatureFigure 20A. Logic “1” Input Current vs. Temperature -50-25255075100125Temperature (°C)V D D S u p p l y C u r r e n t (µA )020406080100-50-25255075100125Temperature (°C)L o g i c "1" I n p u t B i a s C u r r e n t (µA )0.001.002.003.004.005.00-50-25255075100125Temperature (°C)L o g i c "0" I n p u t B i a s C u r r e n t (µA )IR2213(S) & (PbF)Figure 22. Maximum V S Negative Offset vs.V BS Supply Voltage Figure 23. Maximum V SS Positive Offset vs.V CC Supply Voltage0.04.08.012.016.020.0101214161820V CC Fixed Supply Voltage (V)V S S L o g i c S u p p l y O f f s e t V o l t a g e (V )Typ.-15.0-12.0-9.0-6.0-3.00.0101214161820V BS Floating Supply Voltage (V)V S O f f s e t S u p p l y V o l t a g e (V )Typ.IR2213(S) & (PbF)11gate CC gate CC IR2213(S) & (PbF)IR2213(S) & (PbF)Basic Part (Non-Lead Free)8-Lead PDIP IR2181 order IR21818-Lead SOIC IR2181S order IR2181S14-Lead PDIP IR21814 order IR2181414-Lead SOIC IR21814 order IR21814S Leadfree Part 8-Lead PDIP IR2181 order IR2181PbF 8-Lead SOIC IR2181S order IR2181SPbF 14-Lead PDIP IR21814 order IR21814PbF 14-Lead SOIC IR21814 order IR21814SPbFORDER INFORMATIONLEADFREE PART MARKING INFORMATIONPer SCOP 200-002Thisproduct has been designed and qualified for the industrial market.Qualification Standards can be found on IR’s Web Site Data and specifications subject to change without notice.IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-71059/21/2004。