662L,65ZL三极管稳压LDO规格书

5. PIN ASSIGNMENTS .........................................................................................................................................................6 5.1. PACKAGE AND VERSION IDENTIFICATION ....................................................................................................................6
2.1. HARDWARE FEATURES ................................................................................................................................................2 2.2. SOFTWARE FEATURES..................................................................................................................................................3 2.3. ALC662-VC SERIES UPGRADED FEATURES FOR FUTURE WLP ..................................................................................4

HX71XX 系列Ver 2.00系列LDO 线性稳压器■ 产品简介系列是采用CMOS 工艺制造，低功耗的高压稳压器，最高输入电压可达18V ，输出电压范围为2V~5V 。

它具有高精度的输出电压、极低的供电电流、极低的跌落电压等特点。

■ 产品特点■ 产品用途■ 封装形式和管脚功能定义■ 型号选择名称型号 最高输入电压(V)输出电压(V)容差 封装形式18 3.0 +3% TO92SOT89-3 SOT23-318 3.3 +3%18 3.6 +3% 18 4.4 +3% 185.0+3%● 低功耗：≤3μA● 低跌落电压：典型值0.1V ● 低温漂：典型值50 ppm/℃ ● 高的输入电压：最高可达18V● 高精度的输出电压：容差为±3%● 封装形式：TO-92、SOT89-3，SOT23-3● 电池等电源的供电设备● 各种通信设备 ● 音频/视频设备 ● 安防监控设备管脚序号 管脚定义 功能说明TO-92 SOT89-3 SOT23-3 1 1 1 GND 芯片接地端 2 2 3 VIN 启动输入端3 3 2 VOUT 芯片输出端HX71XX HX71XX HX71XX HX7130HX7133HX7136HX7144HX7150HX71XX系列Ver 2.00 ■ 原理框图■极限参数项目符号参数极限值单位电压VIN 最大输入电压20 V功耗PD 功耗200 mW温度Tw 工作温度-25～70 ℃Tc 存储温度-50～125 ℃Th 焊接温度260 ℃,10s■电学特性◆( TOPT=25℃)符号参数测试条件最小值典型值最大值单位V OUT输出电压V IN＝5V，I OUT＝1mA 2.91 3 3.09 VI OUT输出电流V IN＝5V 60 100 －mA△V OUT负载调节V IN＝5V，1mA≤I OUT≤50mA－60 150 mV V DIF跌落电压I OUT＝1mA－100 －mVI SS静态电流V IN＝5V，空载－ 2 3 µA ΔV OUT /(ΔV IN * V OUT) Line Regulation 4V≤V IN≤18V，I OUT＝1mA－0.2 －％/V V IN输入电压－－－18 VΔV OUT /ΔTa 温度系数V IN＝5V，I OUT＝10mA，0℃≤Ta≤70℃－+0.45 －mV/℃V refV inGN DV out HX7130◆( TOPT=25℃)符号参数测试条件最小值典型值最大值单位V OUT输出电压V IN＝5V，I OUT＝1mA 3.201 3.3 3.399 VI OUT输出电流V IN＝5.5V 60 100 －mA△V OUT负载调节V IN＝5.5V，1mA≤I OUT≤50mA－60 150 mV V DIF跌落电压I OUT＝1mA－100 －mVI SS静态电流V IN＝5.5V，空载－ 2 3 µA ΔV OUT /(ΔV IN * V OUT) Line Regulation 4.5V≤V IN≤18V，I OUT＝1mA－0.2 －％/V V IN输入电压－－－18 VΔV OUT /ΔTa 温度系数V IN＝5.5V，I OUT＝10mA，0℃≤Ta≤70℃－+0.5－mV/℃◆TOPT=25℃)符号参数测试条件最小值典型值最大值单位V OUT输出电压V IN＝5V，I OUT＝1mA 3.492 3.6 3.708 VI OUT输出电流V IN＝5.6V 60 100 －mA△V OUT负载调节V IN＝5.6V，1mA≤I OUT≤30mA－60 150 mV V DIF跌落电压I OUT＝1mA－100 －mVI SS静态电流V IN＝5.6V，空载－ 2 3 µA ΔV OUT /(ΔV IN * V OUT) Line Regulation 4.6V≤V IN≤18V，I OUT＝1mA－0.2 －％/V V IN输入电压－－－18 VΔV OUT /ΔTa 温度系数V IN＝5.6V，I OUT＝10mA，0℃≤Ta≤70℃－+0.6 －mV/℃◆( TOPT=25℃)符号参数测试条件最小值典型值最大值单位V OUT输出电压V IN＝6V，I OUT＝1mA 4.268 4.4 4.532 VI OUT输出电流V IN＝6.4V 60 100 －mA△V OUT负载调节V IN＝6.4V，1mA≤I OUT≤30mA－60 150 mV V DIF跌落电压I OUT＝1mA－100 －mVI SS静态电流V IN＝6.4V，空载－ 2 3 µA ΔV OUT /(ΔV IN * V OUT) Line Regulation 5.4V≤V IN≤18V，I OUT＝1mA－0.2 －％/V V IN输入电压－－－18 VΔV OUT /ΔTa 温度系数V IN＝6.4V，I OUT＝10mA，0℃≤Ta≤70℃－+0.7 －mV/℃HX7133 HX7136 HX7144◆( T OPT=25℃)符号 参数 测试条件 最小值 典型值 最大值 单位V OUT 输出电压 V IN ＝7V ，I OUT ＝1mA4.85 55.15 V I OUT输出电流 V IN ＝7V60 100 － mA △V OUT负载调节 V IN ＝7V ，1mA ≤I OUT ≤30mA－ 60 150 mV V DIF 跌落电压 I OUT ＝1mA － 100 －mV I SS静态电流V IN ＝7V ，空载 － 2 3 µA ΔV OUT /(ΔV IN * V OUT )Line Regulation6V ≤V IN ≤18V ，I OUT ＝1mA－ 0.2 － ％/V V IN 输入电压 －－ －18 V ΔV OUT /ΔTa温度系数V IN ＝7V ，I OUT ＝10mA ，0℃≤Ta ≤70℃－+0.75－mV/℃■ 应用电路1、基本电路2、高输出电流稳压电路1 32 V IN V ou t G N D C210uFC110uFV inV outHX7150HX71XX3、短路保护电路4、提高输出电压电路(1)V OUT＝Vxx（1＋R2/R1）＋Iss*R2 5、提高输出电压电路(2)V OUT＝Vxx＋VD1Ver 2.00 6、电流调节电路IOUT = VXX/RX + ISS7、双端输出电路注示：“××”代表输出电压Ver 2.00 ■封装信息。

三端稳压器IC输出电压公式和用法发布:admin固定输出集成稳压器如７８××系列，只需外接两只电阻，就能方便地提升输出电压Ｖ０（见下图），其输出电压表达式如下：Ｖ０＝ＶR1＋ＶR2＝ＶR1＋Ｉ0Ｒ2＝Ｖ××＋（Ｖ××／Ｒ1＋Ｉd）Ｒ2＝Ｖ××（１＋Ｒ2／Ｒ1）＋ＩdＲ2其中Ｖ××代表ＩＣ的输出电压。

这是一个完整的公式，其结果是精确的。

Ｖ0的表达式与固定输出稳压器接地端的静态工作电流Ｉd有关。

当Ｉd变化时，会引起输出电压和负载电流的变化，但由于Ｉd值较小，一般仅为几个毫安，所以对稳压器的精度影响很小。

当Ｒ1、Ｒ2阻值取得较小时，可以忽略ＩdＲ2这一项。

此时Ｖ0的表达式可简化成：Ｖ0≈Ｖ××（１＋Ｒ2／Ｒ1）欲使实践所得结果与计算值相符，简化表达式的应用条件：Ｒ1、Ｒ2的值必须选得较小。

目前有的书籍文章常常忽略了上述的条件，仅仅推荐简化表达式，使实践结果与计算值出现矛盾，常给读者造成困惑不解。

需说明的是，三端固定输出的稳压集成电路７８××（包括７９××）系列，外部增设电阻提高输出电压Ｖ0的应用条件，按应用资料规定：只有当Ｖ××／Ｒ1＞３Ｉｄ时，才能忽略ＩdＲ2，而允许应用Ｖ。

简化表达式，并使实践和计算结果相符合。

因此应选：Ｒ１＜Ｖ××／３Ｉd（Ｒ２宜根据Ｒ１而定）假设３Ｉd＝２０ｍＡ时则７８０５稳压器应选Ｒ1＜０．２５ｋΩ；７８１２稳压器应选Ｒ1＜０．６ｋΩ；７８１５稳压器应选Ｒ1＜０．７５ｋΩ；７８２４稳压器应选Ｒ1＜１．２ｋΩ。

由此可见，只有满足Ｒ1的取值条件，才能应用Ｖ0的简化表达式，否则实践与计算结果将有可能不相符合。

LM1575T-3.3
3.3V简易开关电源稳压器(1A)
LM1575T-5.0
5V简易开关电源稳压器(1A)
LM1575T-12
12V简易开关电源稳压器(1A)
LM1575T-15
15V简易开关电源稳压器(1A)
LM1575T-ADJ
简易开关电源稳压器(1A可调1.23 to 37)
LM1575HVT-3.3
LM2575HVT-ADJ
简易开关电源稳压器(1A可调1.23 to 37)
LM2576T-3.3
3.3V简易开关电源稳压器(3A)
LM2576T-5.0
5.0V简易开关电源稳压器(3A)
LM2576T-12
12V简易开关电源稳压器(3A)
LM2576T-15
15V简易开关电源稳压器(3A)
LM2576T-ADJ
79L08
-8V稳压器(100ma)
KA1L0380RB
Power Switch
KA5L0380R
Power Switch
KA78R05
Low Dropout Voltage Regulator(1A)
PQ05RD11
ASO保护功能低功耗稳压器(1A)[四端稳压]
PQ05RD21
ASO保护功能低功耗稳压器(2A)[四端稳压]
型号(规格)
功能简介
兼容型号
CA3130
高输入阻抗运算放大器
Intersil[DATA]
CA3140
高输入阻抗运算放大器
CD4573
四可编程运算放大器
MC14573
ICL7650
斩波稳零放大器
LF347(NS[DATA])
带宽四运算放大器

电气特性*1. VOUT(S)： 设定输出电压值 VOUT(E)1： 实际的输出电压值， 固定IOUT(=1 mA), 输入为VOUT(S)+1.0 V 时的输出电压值VOUT(E)2： 实际的输出电压值， 固定IOUT(=80 mA), 输入为VOUT(S)+1.0 V 时的输出电压值 *2. 缓慢增加输出电流，当输出电压为小于VOUT(E)1 的95%时的输出电流值*3. Vdrop = VIN1-(VOUT3×0.98)VOUT3： VIN = VOUT(S)+1.0 V, IOUT = 50 mA 时的输出电压值VIN1： 缓慢下降输入电压，当输出电压降为VOUT3 的98%时的输入电压*4. 输出电压的温度变化[mV/℃]按照如下公式算出:* ①. 输出电压的温度变化 *②. 设定输出电压值 *③. 上述输出电压的温度系数5. 该值会随着封装、输入电压、输出电压不同有所不同。

封装由于散热问题会限制该值，输入电压和输入电压越低，该值越小。

2.5V 输入， 1.5V 输出时，该值会降到120mA 左右，请选型时注意。

a OUT T V ∆∆[mV/℃]*①=V OUT(S)(V)*②OUT a OUT V T V ∙∆∆⨯[ppm/℃]*③÷1000功能框图测试电路应用电路实例1、 基本电路2、 大输出电流正电压型电压调整器VIN VOUT GNDPW6566PW6566GNDGND3、 提高输出电压值的电路4、 提高输出电压值的电路5、 恒流调整器6、 双输入注意：上述连接图以及参数并不作为保证电路工作的依据， 实际的应用电路请在进行充分的实测基础上设定参数使用条件输入电容器(CIN)： 1.0µF 以上输出电容器(CL)： 0.1µF 以上(钽电容器) 注意： 一般而言，线性稳压电源因选择外接零件的不同有可能引起振荡。

上述电容器使用前请确认在应用电路上不发生振荡特性曲线（3.0V 输出）1、输出电压-输出电流（负载电流增加时）2、输出电压和输入电压PW6566PW6566PW6566PW6566PW6566PW6566 3、 Dropout 电压和输出电流 4、 Dropout 电压和输出电压5、 输出电压和温度6、 纹波抑制7、瞬态响应负载过渡输入响应特性 输入过渡响应特性SOT23-3L。

我的晶体管手册我的晶体管手册晶体管型号Vcbo Icm Pcm 放大特征类型封装推荐使用*晶体管型号Vcbo Icm Pcm 放大特征类型13001 1300V* 1A 高速开关NPN_TO92 日光灯镇流器、袖珍手机充电器13002 1300V* 2A 高速开关N PN_TO126日光灯镇流器、袖珍手机充电器13005 1300V* 5A 高速开关NPN_TO220日光灯镇流器、袖珍手机充电器9011 50V 0.03A 0.4W * 150MHZ NPN9012 * 50V 0.5A 0.6W * 80MHz* PNP 与9013互补9013 * 50V 0.5A 0.6W * 80MHz* NPN 与9 012互补9014 * 50V 0.1A 0.4W * 150MHZ NPN 与9015互补9015 * 50V 0.1A 0.4W * 150MHZ PNP 与9014互补9018 * 30V 0.05A 0.4W * 1G NPN 超高频晶体管型号Vcbo Icm Pcm 放大特征类型2N2222 60V 0.8A 0.5W 45 * NPN2N2369 40V 0.5A 0.3W * 800MHZ NPN2N2907 60V 0.6A 0.4W 200 * NPN2N3055 100V 15A 115W * * NPN2N3440 450V 1A 1W * * NPN2N3773 160V 16A 150W * * NPN2N5400 * 140V 0.6A 0.625W 60~250 100MHz PNP 高耐压、线性，与2N5550互补2N5401 * 160V 0.6A 0. 6W 80~250 100MHZ PNP 高耐压、线性，与2N5551互补2N5550 * 140V 0.6A 0.625W 60~250 100MHz NPN 高耐压、线性，与2N5400互补2N5551 * 160V 0.6A 0.6W 80~250 100MHZ NPN 高耐压、线性，与2N5401互补2N5685 60V 50A 300W * * NPN2N6277 180V 50A 300W * * NPN2N6678 650V 15A 175W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SA1009 350V 2A 15W * * PNP2SA1012Y 60V 5A 25W * * PNP2SA1013R * 160V 1A 0.9W * 50 PNP 彩电场扫描、音频输出2SA1015R 50V 0.15A 0.4W 70-40 80 MHz PNP 低频、低噪声，与2SC1815互补2SA1018 150V 0.07A 0.75W * * PNP2SA1020 50V 2A 0.9W * * PNP2SA1123 150V 0.05A 0.75W * * PNP2SA1162 50V 0.15A 0.15W * * PNP2SA1175H 50V 0.1A 0.3W * * PNP2SA1216 180V 17A 200W * * PNP2SA1265 140V 10A 30W * * PNP2SA1266Y 50V 0.15A 0.4W * * PNP2SA1295 230V 17A 200W * * PNP2SA129950V 0.5A 0.3W * * PNP2SA1300 20V 2A 0.7W * * PNP2SA1301 200V 10A 100W * * PNP2SA1302 200V 15A 150W * * PNP2SA1304 150V 1.5A 25W * * PNP2SA1309A 25V 0.1A 0.3W * * PNP2SA1358 120V 1A 10W * 120MHZ PNP2SA1390 35V 0.5A 0.3W * * PNP2SA1444 100V 1.5A 2W * 80MHZ PNP2SA1494 200V 17A 200W * 20MHZ PNP2SA1516 180V 12A 130W * 25MHZ PNP2SA1668 200V 2A 25W * 20MHZ PNP2SA1785 400V 1A 1W * 140MHZ PNP2SA1943 230V 15A 150W * * PNP晶体管型号Vcbo Icm Pcm 放大特征类型2SA562T 30V 0.4A 0.3W * * PNP2SA564A 25V 0.1A 0.25W * * PNP2SA608F * 30V 0.1A 0.25W * 180MHz PNP 视放激励2SA680 30V 0.1A * * 180MHz PNP 彩显视放推动2SA673 * 50V 0.5A 0.4W * * PNP 与C1213互补2SA720-Q 50V 0.5A 0.4W * * PNP2SA778AK 180V 0.05A 0.2W * * PNP2SA904 90V 0.05A 0.2W * * PNP2SA933S 50V 0.1A 0.9W * * PNP2SA940 * 150V 1.5A 1.5W * 4MHz PNP 功放、帧输出，与2SD2073互补2SA945 * 0.07A * * 4500 MHz NPN2SA950Y 150V 0.8A 0.6W * * PNP2SA966Y 30V 1.5A 0.9W * * PNP2SA968Y 160V 1.5A 25W * * PNP晶体管型号Vcbo Icm Pcm 放大特征类型2SB1013A 30V 0.5A 0.3W * * PNP2SB1020 100V 7A 40W 6000 * PNP(达林顿）2SB1079 100V 20A 100W 5000 * PNP(达林顿）2SB1185 60V 3A 25W * 75MHZ PNP2SB1238 80V 0.7A 1W * 100MHZ PNP2SB1240 40V 2A 1W * 100MHZ PNP2SB1243 40V 3A 1W * 70MHZ PNP2SB1316 100V 2A 10W 15000 * PNP(达林顿）2SB1317 180V 15A 150W * * PNP2SB1335 80V 4A 30W * * PNP2SB137560V 3A 2W * * PNP2SB1400 120V 6A 25W 1000-20000 * PNP(达林顿）2SB1429 180V 15A 150W * * PNP2SB1494 120V 25A 120W * * PNP(达林顿）2SB449 50V 3.5A 22W * * PNP2SB564A 45V 0.05 0.25W * * PNP2SB642-R 60V 0.2A 0.4W * * PNP2SB647 120V 1A 0.9W * 140MHZ PNP2SB649 180V 1.5A 1W * * PNP2SB669 70V 4A 40W * * PNP(达林顿）2SB675 60V 7A 40W * * PNP(达林顿）2SB686 100V 6A 60W * * PNP2SB688 120V 8A 80W * * PNP2SB734 60V 1A 1W * * PNP2SB744 70V 3A 10W * * PNP2SB772 40V 3A 10W * * PNP2SB774T 30V 0.01A 0.25W * * PNP2SB817 160V 12A 100W * * PNP2SB834 60V 3A 30W * * PNP2SB882 60V - 1.7W * * PNP2SB940 200V 2A 30W * * PNP晶体管型号Vcbo Icm Pcm 放大特征类型2SC1008 80V 0.7A 0.8W * 50MHZ NPN2SC1047 30V 0.015A 0.15W * * NPN2SC106 60V 1.5A 15W * * NPN2SC1162 35V 1.5A 10W * * NPN2SC1213D * 50V 0.5A 0.4W * * NPN 与A673互补2SC1214C 50V 0.5A 0.6W * * NPN与2SD1817互补，IGBT驱动2SC1222 60V 0.1A 0.25W * 100 MHZ NPN2SC1317-R 30V 0.5A 0.4W * * NPN2SC1360 50V 0.05A 0.5W * * NPN2SC1494 36V 6A 40W * 175MHZ NPN2SC1507 300V 0.2A 15W * * NPN2SC1514 300V 0.1A 1.25W * * NPN2SC1569 300V 0.15A 1.5W * * NPN2SC1573A 250V 0.07A 0.6W * * NPN2SC1627Y 80V 0.3A 0.6W * * NPN2SC1674 30V 0.02A 0.1W * * NPN2SC1685 30V 0.1A 0.25W * * NPN2SC1685Q 30V 0.1A 0.25W * * NPN2SC1740 50V 0.3A 0.3W * * NPN2SC1815Y * 60V 0.15A 0.4W 70-700 80MHz NPN 与2SA1015互补2SC1827 80V 4A 30W * * NP N2SC18462SC1855 20V 0.02A 0.25W * 550MHZ NPN2SC1875 50V 0.15A 0.4W * * NPN2SC1890A 120V 0.05A 0.3W * * NPN2SC1906 30V 0.05A 0.3W * * NPN2SC1923 40V 0.02A 0.1W * * NPN2SC1942 1500V 3A 100W * * NPN2SC1959 30V 0.4A 0.5W * * NPN2SC1983R 80V 3A 30W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SC2027 * 1500V 5A 50W * * NPN2SC2073 150V 1.5A 25W 40~140 4 NPN 功放、帧输出，与2SA940互补2SC2068 270V 0.2A 0.62W * * NPN 彩电视放输出管（200V）2SC2073 150V 1.5A 25W * * NPN2SC2120Y 30V 0.8A 0.6W * * NPN2SC2125 2200V 5A 50W * * NPN2SC2168 200V 2A 30W * * NPN2SC2188 45V 0.05A 0.6W * * NPN2SC2190 450V 5A 100W * * NPN2SC2216 50V 0.05A 0.3W * * NPN2SC2229 200V 0.05A 0.8W * * NPN2SC2236 30V 1.5A 0.9W * * NPN2SC2238 160V 1.5A 25W * * NPN2SC2258 250V 0.1A 1W * * NPN2SC227 300V 0.1A 0.75W * * NPN2SC2271N 300V 0.1A 0.75W * * NPN2SC2371 300V 0.1A 10W * * NPN2SC2377 20V 0.015A 0.2W * * NPN2SC2377C 30V 0.15A 0.2W * * NPN2SC2383Y 160V 1A 0.9W * * NPN2SC2456 300V 0.1A 10W * * NPN2SC2481 * 150V 1.5A 20W NPN2SC2482 * 150V 0.1A 0.9W * * NPN 行激励推动（110V）2SC2568 300V 0.2A 10W * * NPN2SC2570A 25V 0.07A 0.6W * * NPN2SC2594 40V 5A 10W * * NPN2SC2610 300V 0.1A 0.8W * * NPN2SC2611 300V 0.1A 1.25W * * NPN2SC2621 300V 0.2A 10W * * NPN2SC2636Y 30V 0.05A 0.4W * * NPN2SC2653H 250V 0.2A 15W * * NPN2SC2655Y 60V 2A 0.9W * * NPN2SC2688 300V 0.2A 10W * * NPN2SC27172SC2785 60V 0.1A 0.3W * * NPN2SC2839 30V 0.1A 0.1W * * NPN2SC2878 50V 0.3A 0.4W * * NPN2SC2923 300V 0.2A 15W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SC304CD 60V 0.5A 0.8W * * NPN2SC3063 300V 0.1A 1.2W * * NPN2SC3114 60V 0.15A 0.2W * * NPN2SC3153 900V 6A 100W * * NPN2SC3198G 60V 0.15A 0.4W * * NPN2SC3265Y 30V 0.8A 0.2W * * NPN2SC3271 300V 0.1A 5W * * NPN2SC3279 30V 2A 0.75W * * NPN2SC3300 100V 15A 100W * * NPN2SC3310 * 300/500V5A 40W 20 * NPN 全塑封2SC3320 500V 15A 80W * * NPN2SC3328 80V 2A 0.9W * * NPN2SC3355 20V 0.15A * * 6500MHZ NPN2SC3358 20V 0.15A * * 7000MHZ NPN2SC3399 50V 0.1A 0.3W * * NPN2SC3402 50V 0.1A 0.3W * * NPN2SC3413C 40V 0.1A 0.5W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SC3457 1100V 3A 50W 12 * NPN2SC3460 1100V 6A 100W 12 * NPN2SC3480 1500V 3.5A 80W * * NPN2SC3481 1500V 5A 120W * * NPN2SC3482 1500V 6A 120W * * NPN2SC3484 1500V 3.5A 80W * * NPN2SC3485 1500V 5A 120W * * NPN2SC3486 1500V 6A 120W * * NPN2SC3505 900V 6A 80W 12 * NPN2SC3527 500V 15A 100W 13 * NPN2SC3595 30V 0.5A 1.2W 90 * NPN2SC3679 900V 5A 100W * * NPN2SC3680 900V 7A 120W * * NPN2SC3685 1500V 6A 120W * * NPN2SC3686 1500V 7A 120W * * NPN2SC36871500V 8A 150W * * NPN2SC3688 1500V 10A 150W * * NPN2SC3720 1200V 10A 200W * * NPN2SC3729 1500V 5A 50W * * NPN2SC3783 900V 5A 100W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SC380 35V 0.03A 0.25W * * NPN2SC3807 30V 2A 1.2W * 260MHZ NPN2SC383 20V 0.05A 0.2W * * NPN2SC3858 200V 17A 200W * 20MHZ NPN2SC3866 900V 3A 40W * * NPN2SC3873 500V 12A 75W * 30MHZ NPN2SC3883 1500V 5A 50W * * NPN2SC3886 1400V 8A 50W * 8MHZ NPN2SC388A 20V 0.02A 0.2W * * NPN2SC3893 1400V 8A 50W * 8MHZ NPN2SC3907 180V 12A 130W * 30MHZ NPN 高频高功率2SC3953 * 120V 0.2A 1.3/8W * 400MHZ NPN 高频高功率彩电视放2SC3987 50V 3A 20W 1000 * NPN(达林顿)2SC3997 1500V 15A 250W * * NPN2SC3998 1500V 25A 250W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SC4024 100V 10A 35W * * NPN2SC403 50V 0.1A 0.1W * * NPN2SC4038 50V 0.1A 0.3W * 180MHZ NPN 超高频2SC4059 600V 15A 130W * * NPN2SC4106 500V 7A 50W * 20MHZ NPN2SC4111 1500V 10A 250W * * NPN2SC4119 1500V 15A 250W * * NPN2SC4122 1500V 6A 60W NPN 内含阻尼器彩显行管2SC4123 1500V 7A 60W NPN 内含阻尼器彩显行管2SC4124 1500V 8A 70W NPN 内含阻尼器彩显行管2SC4125 1500V 10A 70W NPN 内含阻尼器彩显行管2SC4199A 1500V 10A 100W * * NPN2SC4231 800V 2A 30W * * NPN2SC4242 450V 7A 40W * * NPN2SC4288 1400V 12A 200W * * NPN2SC4291 1500V 5A 100W * * NPN2SC4292 1500V 6A 100W * * NPN2SC4293 1500V 5A 50W NPN 内含阻尼器彩显行管2SC4269 1500V 7A 60W NPN 内含阻尼器彩显行管2SC42941500V 6A 50W NPN 内含阻尼器彩显行管2SC4297 500V 12A 75W * * NPN2SC4303A 1500V 6A 80W * * NPN2SC4429 * 1100V 8A 60W * * NPN 电源管2SC4517 550V 3A 30W * * NPN2SC4582 600V 15A 75W * * NPN2SC4589 1500/800V10A 50W NPN2SC458D 30V 0.1A 0.2W * * NPN2sc4706 900V 14A 130W * 6MH NPN2sc4742 1500V 6A 50W * * NPN( 带阻尼) 2sc4745 1500V 6A 50W * * NPN2sc4747 1500V 10A 50W * * NPN2sc4769 1500V 7A 60W * * NPN( 带阻尼) 2sc4913 2000V 0.2A 35W * * NPN2sc4924 800V 10A 70W * * NPN2sc4927 1500V 8A 50W * * NPN2SC4935 0.2A 8W NPN 视放输出2sc4941 1500V 6A 65W * * NPN2sc4953 500V 2A 25W * * NPN2SC495Y 70V 0.8A 5W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SC5020 1000V 7A 100W * * NPN2SC5068 1500V 10A 50W * * NPN2SC5086 1500V 10A 50W * * NPN2SC5088 1500V 10A 50W * * NPN2SC5132 1500V 16A 50W * * NPN2SC5200 230V 15A 150W * * NPN2SC5207 1500V 10A 50W * * NPN2SC5243 1500V 15A 200W * * NPN2SC5244 1500V 15A 200W * * NPN2SC5250 1000V 7A 100W * * NPN2SC5251 1500V 12A 50W * * NPN2SC5252 1500V 15A 100W * * NPN2SC5297 1500/800V8A 50W NPN2SC8502 NPN 彩显航管行管晶体管型号Vcbo Icm Pcm 放大特征类型2SC536F 40V 0.1A 0.25W * * NPN2SC752G 40V 0.2A 0.2W * * NPN2SC815 60V 0.2A 0.25W * * NPN2SC828 45V 0.05A 0.25W * * NPN2SC90030V 0.03A 0.25W * 100MHz NPN2SC945 50V 0.1A 0.25W * 4.5G NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD1010 50V 0.05A 0.3W * * NPN2SD1016 1500V 7A 50W * * NPN2SD1025 200V 8A 50W * * NPN(达林顿) 2SD1037 150V 30A 180W * * NPN2SD1047 160V 12A 100W * * NPN2SD1078 50V 2A 20W * * NPN2SD1133 70V 4A 40W * * NPN2SD1138C 150V 2A 30W * * NPN2SD1142 1500V 3.5A 50W * * NPN2SD1143 1500V 5A 65W * * NPN2SD1163A 350V 7A 40W * 60MHZ NPN2SD1172 1500V 5A 65W * * NPN2SD1173 1500V 5A 70W * * NPN2SD1174 1500V 5A 85W * * NPN2SD1175 1500V 5A 100W * * NPN2SD1175 1500V 5A 100W * * NPN2SD1219 1500V 3A 65W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD1226 60V 3A 35W * * NPN2SD1246 30V 2A 0.75W * * NPN2SD1264A 200V 2A 30W * * NPN2SD1266 60V 3A 35W * * NPN2SD1271A 130V 7A 40W * * NPN2SD1273 80V 3A 40W * 50MHZ NPN2SD1274A 150V 5A 40W * * NPN2SD1290 1500V 3A 50W * * NPN2SD1302 25V 0.5A 0.5W * 200MHZ NPN 2SD1341 1500V 5A 50W * * NPN2SD1342 1500V 5A 50W * * NPN2SD1343 1500V 6A 50W * * NPN2SD1344 1500V 6A 50W * * NPN2SD1378 80V 0.7A 10W * * NPN2SD1391 1500V 5A 80W * * NPN2SD1396 1500V 2.5A 50W * * NPN2SD1397 1500V 3.5A 50W * * NPN2SD13981500V 5A 50W * * NPN2SD1399 1500V 6A 60W * * NPN2SD1402 1500V 5A 120W * * NPN2SD1403 1500V 6A 50W * * NPN2SD1405Y 50V 3A 30W * * NPN2SD1410 1500V 3.5A 80W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD1415 80V 7A 40W 6000 * NPN(达林顿) 2SD1416 80V 7A 40W 6000 * NPN(达林顿)晶体管型号Vcbo Icm Pcm 放大特征类型2SD1426 1500V 3.5A 80W * * NPN2SD1426 1500V 3.5A 80W * * NPN2SD1427 1500V 5A 80W * * NPN2SD1428 1500V 6A 80W * * NPN2SD1431 1500V 5A 80W * * NPN2SD1431 1500V 5A 80W * * NPN2SD1432 1500V 6A 80W * * NPN2SD1433 1500V 7A 80W * * NPN2SD1434 1700V 5A 80W * * NPN2SD1454 1700V 4A 50W * * NPN2SD1455 1500V 5A 50W * * NPN2SD1455 1500V 5A 50W * * NPN2SD1456 1500V 6A 50W * * NPN2SD1480 80V 4A 25W * * NPN2SD1497 1500V 6A 50W * * NPN2SD1499 100V 5A 40W * * NPN2SD1541 1500V 3A 50W * * NPN2SD1541 1500V 3A 50W * * NPN2SD1544 1500V 3.5A 40W * * NPN2SD1545 1500V 5A 50W * * NPN2SD1546 1500V 6A 50W * * NPN2SD1547 1500V 7A 50W * * NPN2SD1548 1500V 10A 50W * * NPN2SD1554 1500V 3.5A 40W * * NPN2SD1555 1500V 5A 50W * * NPN2SD1556 1500V 6A 50W * * NPN2SD1559 100V 20A 20W 5000 * NPN(达林顿) 2SD1577 1500V 5A 80W * * NPN2SD1585 60V 3A 15W * * NPN2SD1590 150V 8A 25W 15000 * NPN(达林顿)晶体管型号Vcbo Icm Pcm 放大特征类型2SD16321500V 4A 70W * * NPN2SD1635 1500V 5A 100W * * NPN2SD1640 120V 2A 1.2W 4000-40000* NPN(达林顿)2SD1650 1500V 3.5A 50W * * NPN2SD1651 1500V 5A 60W * * NPN2SD1652 1500V 6A 60W * * NPN2SD1653 1500V 2.5A 50W * * NPN2SD1654 1500V 3.5A 50W * * NPN2SD1655 1500V 5A 60W * * NPN2SD1656 1500V 6A 60W * * NPN2SD1710 1500V 6A 100W * * NPN2SD1711 1500V 7A 100W * * NPN2SD1718 180V 15A 3.2W * 20MHZ NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD1729 1500V 3.5A 60W * * NPN2SD1730 1500V 5A 100W * * NPN2SD1731 1500V 6A 100W * * NPN2SD1732 1500V 7A 120W * * NPN2SD1737 1500V 3.5A 60W * * NPN2SD1738 1500V 5A 100W * * NPN2SD1739 1500V 6A 100W * * NPN2SD1762 60V 3A 25W * 90MHZ NPN2SD1817 50V* 0.5A* 0.6W* * * NPN与B1214互补,IGBT驱动2SD1847 50V 1A 1W * * NPN(低噪)2SD1876 1500V 3A 50W * * NPN2SD1877 800V 4A 50W * * NPN2SD1878 1500V 5A 60W * * NPN2SD1879 1500V 6A 60W * * NPN2SD1880 1500V 8A 70W * * NPN2SD1881 1500V 10A 70W * * NPN2SD1882 1500V 3A 50W * * NPN2SD1883 1500V 4A 50W * * NPN2SD1884 1500V 5A 60W * * NPN2SD1885 1500V 6A 60W * * NPN2SD1886 1500V 8A 70W * * NPN2SD1887 1500V 10A 70W * * NPN2SD1911 1500V 5A 50W * * NPN2SD1930100V 2A 1.2W 1000 * NPN(达林顿)2SD1941 1500V 6A 50W * * NPN2SD1975 180V 15A 150W * * NPN2SD1978 120V 1.5A 1W 30000 * NPN(达林顿)2SD1980 100V 2A 10W 1000-10000* NPN(达林顿)2SD1993 50V 0.1A 0.4W * * NPN2SD1994 60V 1A 1W * * NPN2SD1997 40V 3A 1.5W * 100MHZ NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD2008 80V 1A 1.5W * * NPN2SD2012 * 60V 3A 26/2W * * NPN 彩显行幅调整2SD2027 1500V 5A 50W * * NPN2SD2036 60V 1A 1.2W * * NPN2SD2057 1500V 5A 100W * * NPN2SD2155 180V 15A 150W * * NPN2SD2156 120V 25A 125W 2000-20000 * NPN(达林顿)2SD2334 1500V 5A 80W * * NPN 2SD2335 1500V 7A 100W * * NPN2SD2388 90V 3A 1.2W * * NPN(达林顿)2SD2445 1500V 12.5A 120W * * NPN2SD325 50V 3A 25W * * NPN2SD348 1500V 7A 50W * * NPN2SD3505 900V 6A 50W * * NPN2SD385 100V 7A 30W * * NPN( 达林顿)2SD400 25V 1A 0.75W * * NPN2SD401AK 200V 2A 25W * * NPN2SD40C 40V 0.5A 40W * * NPN( 达林顿)2SD415 120V 0.8A 5W * * NPN2SD438 500V 1A 0.75W * 100MHZ NPN2SD547 600V 50A 400W * * NPN2SD553Y 70V 7A 40W * * NPN2SD560 150V 5A 30W * * NPN(达林顿)2SD601AR 60V 0.1A 0.2W * * NPN2SD667 120V 1A 0.9W * 140MHZ NPN(达林顿)2SD669 180V 1.5A 1W * 140MHZ NPN2SD773 20V 2A 1W * * NPN2SD774 100V 1A 1W * * NPN2SD787 20V 2A 0.9W * * NPN2SD788 20V 2A 0.9W * * NPN2SD789 100V 1A 0.9W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD880 * 60V 3A 60WNPN 塑封12V稳压调整2SD802 900V 6A 50W * * NPN2SD819 1500V 3.5A 50W * * NPN2SD820 1500V 5A 50W * * NPN2SD821 1500V 6A 50W * * NPN2SD822 1500V 7A 50W * * NPN2SD838 2500V 3A 50W * * NPN2SD850 1500V 3A 25W * * NPN2SD852 1500V 5A 70W * * NPN2SD869 1500V 3.5A 50W * * NPN2SD869 1500V 3.5A 50W * * NPN2SD870 1500V 5A 50W * * NPN2SD870 1500V 5A 50W * * NPN2SD871 1500V 6A 50W * * NPN2SD871 1500V 6A 50W * * NPN2SD880 60V 3A 30W * * NPN2SD8806 60V 3A 30W * * NPN2SD882 40V 3A 10W * * NPN晶体管型号Vcbo Icm Pcm 放大特征类型2SD898B 1500V 3A 50W * * NPN2SD899A 1500V 4A 50W * * NPN2SD900B 1500V 5A 50W * * NPN2SD903 1500V 7A 50W * * NPN2SD904 1500V 7A 60W * * NPN2SD905 1400V 8A 50W * * NPN2SD906 1400V 8A 50W * * NPN2SD950 1500V 3.5A 80W * * NPN2SD951 1500V 3A 65W * * NPN2SD952 1500V 3A 70W * * NPN2SD953 1500V 7A 95W * * NPN2SD954 1500V 5A 95W * * NPN2SD957A 1500V 6A 50W * * NPN2SD965 40V 5A 0.75W * * NPN2SD966 60V 5A 1W * * NPN2SD973 30V 1A 1W * * NPN2SD994 1500V 8A 50W * * NPN2SD995 2500V 3A 50W * * NPN2SDK55 400V 4A 60W * * NPN晶体管型号Pd Id Vdss 放大特征类型2SK1117 * 100W 6A 600V NMOS 开关电源彩显2SK1118 * 45W 6A 600VNMOS 开关电源彩显2SK1217 100W 8A 900V2SK1215 0.1W 0.03A 20V 贴片2SK1611 * 50W 3A 800V NMOS 开关电源彩显2SK301-Q 0.25W 0.14A * NMOS2SK301-R 0.25W 0.14A * NMOS6N60 (200)W 6A 600V NMOS 塑封7N80 (200)W 7A 800V NMOS 塑封开关电源8N90 (200)W 8A 900V NMOS 塑封8N100 (200)W 8A 1000V NMOS 塑封7P5 200W 7A 500V PMOS 塑封晶体管型号Vcbo Icm Pcm 放大特征类型BC307 50V 0.2A 0.3W * * PNPBC327 50V 0.8A 0.6W * * PNPBC337 50V 0.8A 0.6W * * NPNBC338 50V 0.8A 0.6W * * NPNBC546 80V 0.2A 0.5W * * NPNBC547 50V 0.2A 0.5W * 300MHZ NPNBC548B 30V 0.2A 0.5W * * NPNBC636 45V 1A 0.8W * * PNPBD135 45V 1.5A 12.5W * * NPNBD136 45V 1.5A 12.5W * * PNPBD137 60V 1.5A 12.5W * * NPNBD138 60V 1.5A 12.5W * * PNPBD140 ? ? ? ? ? NPN达林顿_TO126彩显灯丝休眠大电流BD237 100V 2A 25W * * NPNBD238 100V 2A 25W * * PNPBD243 45V 6A 65W * * NPNBD244 45V 6A 65W * * PNPBD652 PNP TO220BD681 100V 4A 40W * * NPNBD682 100V 4A 40W * * PNPBD941F 120V 3A 19W * * NPNBF324 30V 0.26A 0.25W * * PNPBF458 250V 0.1A 10W * * NPN晶体管型号Vds Id Po 放大特征类型BS170 60V 0.3A 0.63W * * NMOS场效应晶体管型号Vcbo Icm Pcm 放大特征类型BU108BU208A 1500V 5A 12.5W * * NPNBU208D 1500V 5A 12.5W * * NPNBU209A 1700V 5A 12.5W * * NPNBU2506 1500V 7A 50W * * NPNBU2508 700V 8A 125W * * NPNBU2508DF Wanstrow1428型彩显采用内含阻尼器BU2520 800V 10A 150W * * NPNBU2522 1500V 11A 150W * * NPNBU2525 1500V 12A 150W * * NPNBU2527 1500V 15A 150W * * NPNBU2532 1500V 15A 150W * * NPNBU308 1500V 5A 12.5W * * NPNBU323 450V 10A 125W * * NPN(达林顿)BU406 400V 7A 60W * * NPNBU500 1500V 6A 75W * * NPNBU508A 1500V 7.5A 75W * * NPNBU508A 1500V 8A 125W * * NPNBU508AF 1500/700V8A 40W NPNBU508D 1500/700V8A 40W NPNBU508DF 1500/700V8A 34W NPNBU806 400V 8A 60W * * NPNBU932R 500V 15A 150W * * NPNBUH515 1500V 10A 80W * * NPN西门子公司VMOS管品名功率电流导阻电压封装单价购买备注（W）（A）（Ω）（V）（元）BUK426 125 40 0.04 50 TO3P 4 菲利普公司BUK627 125 10 0.8 500 TO3P 5 菲利普公司BUS13A 1000V 15A 175W * * NPNBUS14A 1000/400V30A 250W * * NPNBUT11 1500V 5A 80W * * NPNBUT11A * 1000V 5A 100W * * NPNBUT11AF * 1000V 5A 100W NPN 电脑修眠电源开关管BUT12A 450V 10A 125W * * NPNBUV26 90V 14A 65W * * NPNBUV28ABUV48A 450V 15A 150W * * NPNBUW13A 1000V 15A 150W * * NPNBUX84 800V 2A 40W * * NPNBUX98A 400V 30A 210W * * NPNBUY71 2200V 2A 40W * * NPN西门子公司VMOS管品名功率电流导阻电压封装单价购买备注（W）（A）（Ω）（V）（元）BUZ331 125 8 0.8 500 TO3P 5BUZ347 125 40 0.03 50 TO3P 5BUZ349 125 32 0.08 100 TO3P 6BUZ350 125 22 0.1 200 TO3P 8BUZ355 125 8 1.5 800 TO3P 8BUZ357 125 5 2 1000 TO3P 9BUZ380 125 5.5 2 1000 TO3P 10BUZ385 125 10 0.7 500 TO3P 6晶体管型号Pcm Icm Vbeo 放大特征类型BUT11A 100W 30A 400V NMOS 金封开关电源及同步电机驱动BUT11AF 100W 5A 1000V NMOS 塑封电脑备用电源开关管BUZ11A 75W 25A 50V NMOSBUZ20 75W 12A 100V NMOS晶体管型号Vcbo Icm Pcm 放大特征类型BUZ11A 50V 25A 75W * * NMOS场效应BUZ20 100V 12A 75W * * NMOS场效应晶体管型号Vcbo Icm Pcm 放大特征类型DTC114ES 50V 0.1A 0.25W * * NPNDTC124ES 50V 0.1A 0.25W * * PNP晶体管型号Vds Id Po 放大特征类型HP2369 * 25 70mA 8W 4.5G 彩显视放推动塑封晶体管型号Vcbo Icm Pcm 放大特征类型MJ10012400V 10A 175W * * NPN(达林顿)MJ10015 400V 50A 200W * * NPNMJ10016 500V 50A 200W * * NPNMJ10025 850V 20A 250W * * NPNMJ11032 120V 50A 300W * * NPNMJ11033 120V 50A 300W * * NPNMJ13333 400V 20A 175W * * NPNMJ15024 400V 16A 250W * * NPNMJ15025 400V 16A 250W * * PNPMJ2955 60V 15A 115W * * PNPMJ3055 60V 15A 115W * * NPNMJ4502 90V 30A 200W * * PNPMJE13003 400V 1.5A 14W * * NPNMJE13005 400V 4A 60W * * NPNMJE13007 1500V 2.5A 60W * * NPNMJE2955T 60V 10A 75W * * NPNMJE340 300V 0.5A 20W * * NPNMJE350 300V 0.5A 20W * * NPNMN650 1500V 6A 80W * * NPN晶体管型号Vds Id Po 放大特征类型MTP6N60 600V 6A NMOS 塑封晶体管型号Vcbo Icm Pcm 放大特征类型RN1204 50V 0.1A 0.3W * * NPN晶体管型号Vcbo Vceo Icm Pcm 放大特征类型S8050 * 40V 25V 0.5A 625mW 150MHz TO-92.NPN_EBCS8050LT1 40V 25V 0.5A 0.3W 120-350 150MHz SOT-32.NPN_BEC(贴片）S8550 40V 25V 0.5A 625mW 1 50MHz TO-92.PNP_EBCS8550LT1 40V 25V 0.5A 0.3W 120-350 150MHz SOT-32.PNP_BEC(贴片）SG8050 * 40V 25V 0.8A 625m W 40-135 100MHz TO-92.NPN_EBCSG8050B 40V 25V 0.8A 625mW 85-160 100MHz TO-92.NPN_EBCS G8050C * 40V 25V 0.8A 625mW 120-200 100MHz TO-92.NPN_EBCSG8050D * 40V 25V 0.8A 625mW 1 60-300 100MHz TO-92.NPN_EBC晶体管型号Vcbo Icm Pcm 放大特征类型TIP102 100V 8A 2W * * NPNTIP120 60V 8A 2/65W R1=5K R2=105 NPN_BCE 达林顿TO-220TIP121 80V 8A 2/65W R1=5K R 2=105 NPN_BCE 达林顿TO-220TIP122 100V 8A 2/65W R1=5K R2=105 NPN_BCE 达林顿TO-220TIP 125 60V 8A 2/65W R1=5K R2=105 PNP_BCE 达林顿TO-220TIP126 80V 8A 2/65W R1=5K R2=105 PNP_BCE 达林顿TO-220TIP127 100V 8A 2/65W R1=5K R2=105 PNP_BCE 达林顿TO-220TIP142 100V10A 125W * * NPNTIP147 100V 10A 125W * * PNPTIP31C 100V 3A 40W * * NPNTIP32C 100V 3A 40W * * PNPTIP35C 100V 25A 125W * * NPNTIP36C 100V 25A 125W * * PNPTIP41 40V 6A 65W * fT=3M NPN_BCE 达林顿TO-220TIP41A 60V 6A 65W * fT=3M NPN_BC E 达林顿TO-220TIP41B 80V 6A 65W * fT=3M NPN_BCE 达林顿TO-220TIP41C 100V 6A 65W * fT=3M NPN_BCE 达林顿TO-220TIP42 40V 6A 65W * fT=3M PNP_BCE 达林顿TO-220TIP42A 60V 6A 65W * fT=3M PNP_BCE 达林顿TO-220TIP42B 80V 6A 65W * fT=3M PNP_BCE 达林顿TO-220TIP42C 100V 6A 65W * fT=3M PNP_BCE 达林顿TO-220晶体管型号Vcbo Icm Pcm 放大特征类型UN4111 50V 0.1A 0.25W * * PNPUN4211 50V 0.1A 0.25W * * NPNUN4212 50V 0.1A 0.25W * * NPNUN4213 50V 0.1A 0.25W * * NPN*****************************************************************************【CMOS管资料大全】晶体管型号Vds Id Pd 放大特征类型IRF120 100V 8A 40W * * NMOS场效应IRF121 60V 8A 40W * * NMOS场效应IRF122 100V 7A 40W * * NMOS场效应IRF123 60V 7A 40W * * NMOS场效应IRF130 100V 14A 75W * * NMOS场效应IRF131 60V 14A 75W * * NMOS场效应IRF132 100V 12A 75W * * NMOS场效应IRF133 60V 12A 75W * * NMOS场效应IRF140 100V 27A 125W * * NMOS场效应IRF141 60V 27A 125W * * NMOS场效应IRF142 100V 24A 125W * * NMOS场效应IRF143 60V 22A 125W * * NMOS场效应IRF150 100V 40A 150W * * NMOS场效应IRF151 60V 40A 150W * * NMOS场效应IRF152 100V 33A 150W * * NMOS场效应IRF153 60V 33A 150W * * NMOS场效应IRF220 200V 5A 40W * * NMOS场效应IRF221 150V 5A 40W * * NMOS场效应IRF222200V 4A 40W * * NMOS场效应IRF223 150V 4A 40W * * NMOS场效应IRF230 200V 9A 75W * * NMOS场效应IRF231 150V 9A 75W * * NMOS场效应IRF232 200V 8A 75W * * NMOS场效应IRF233 150V 8A 75W * * NMOS场效应IRF240 200V 18A 125W * * NMOS场效应IRF241 150V 18A 125W * * NMOS场效应IRF242 200V 16A 125W * * NMOS场效应IRF243 150V 16A 125W * * NMOS场效应IRF250 200V 19A 150W * * NMOS场效应低导通电阻IRF251 150V 19A 150W * * NMOS场效应低导通电阻IRF252 200V 16A 150W * * NMOS场效应低导通电阻IRF253 150V 16A 150W * * NMOS场效应低导通电阻晶体管型号Vds Id Pd 放大特征类型IRF330 400V 5.5A 75W * * NMOS效应IRF331 350V 5.5A 75W * * NMOS场效应IRF332 400V 4.5A 75W * * NMOS场效应IRF333 350V 4.5A 75W * * NMOS场效应IRF340 400V 10A 125W * * NMOS场效应IRF341 350V 10A 125W * * NMOS场效应IRF342 400V 8A 125W * * NMOS场效应IRF343 350V 8A 125W * * NMOS场效应IRF350 400V 15A 150W * * NMOS场效应IRF351 350V 15A 150W * * NMOS场效应IRF352 400V 13A 150W * * NMOS场效应IRF353 350V 13A 150W * * NMOS场效应IRF360 400V 25A 300W * * NMOS场效应IRF420 500V 2.5A 40W * * NMOS场效应IRF421 450V 2.5A 40W * * NMOS场效应IRF422 500V 2.5A 40W * * NMOS场效应IRF423 450V 2.5A 40W * * NMOS场效应IRF430 500V 4.5A 75W * * NMOS场效应IRF431 450V 4.5A 75W * * NMOS场效应IRF432 500V 4A 75W * * NMOS场效应IRF433 450V 4A 75W * * NMOS场效应IRF440IRF441 450V 8A 125W * * NMOS场效应IRF442 500V 7A 125W * * NMOS场效应IRF443 450V 7A 125W * * NMOS场效应IRF450 500V 8A 150W * * NMOS场效应IRF451 450V 8A 150W * * NMOS场效应IRF452 500V 7A 150W * * NMOS场效应IRF453 450V 7A 150W * * NMOS场效应IRF460 500V 21A 300W * * NMOS场效应IRF510 100V 2.5A 20W * * NMOS场效应IRF511 60V 2.5A 20W * * NMOS场效应IRF512 100V 2A 20W * * NMOS场效应IRF513 60V 2A 20W * * NMOS场效应IRF520 100V 8A 40W * * NMOS场效应IRF521 60V 8A 40W * * NMOS场效应IRF522 100V 7A 40W * * NMOS场效应IRF523 60V 7A 40W * * NMOS场效应IRF530 100V 14A 75W * * NMOS_GDS场效应IRF531 60V 14A 75W * * NMOS场效应IRF532 100V 12A 75W * * NMOS场效应IRF533 60V 12A 75W * * NMOS场效应IRF540 * 100V 27A 125W * * NMOS场效应IRF541 60V 27A 125W * * NMOS场效应IRF542 100V 24A 125W * * NMOS场效应IRF543 60V 22A 125W * * NMOS场效应塑封晶体管型号Vds Id Pd 放大特征类型IRF610 200V 3.3A 43W * * NMOS场效应IRF610 200V 2.5A 20W * * NMOS场效应IRF611 150V 2.5A 20W * * NMOS场效应IRF612 200V 2A 20W * * NMOS场效应IRF613 150V 2A 20W * * NMOS场效应IRF620IRF621 150V 5A 40W * * NMOS场效应IRF622 200V 4A 40W * * NMOS场效应IRF623 150V 4A 40W * * NMOS场效应IRF630 200V 9A 75W * * NMOS场效应IRF631 150V 9A 75W * * NMOS场效应IRF632 200V 8A 75W * * NMOS场效应IRF633 150V 8A 75W * * NMOS场效应IRF640 * 200V 18A 125W * * NMOS场效应IRF641 150V 18A 125W * * NMOS场效应IRF642 200V 16A 125W * * NMOS场效应IRF643 * 150V 16A 125W * * NMOS场效应晶体管型号Vds Id Pd 放大特征类型IRF710 400V 1.5A 20W * * NMOS场效应IRF711 350V 1.5A 20W * * NMOS场效应IRF712 400V 1.3A 20W * * NMOS场效应IRF713 350V 1.3A 20W * * NMOS场效应IRF720 400V 3.3A 50W * * NMOS场效应IRF730 400V 5.5A 75W * * NMOS场效应IRF731 350V 5.5A 75W * * NMOS场效应IRF732 400V 4.5A 75W * * NMOS场效应IRF733 350V 4.5A 75W * * NMOS场效应IRF740 400V 10A 125W * * NMOS场效应IRF741 350V 10A 125W * * NMOS场效应IRF742 400V 8A 125W * * NMOS场效应IRF743 350V 8A 125W * * NMOS场效应IRF830 500V 4.5A 75W * * NMOS场效应IRF831 450V 4.5A 75W * * NMOS场效应IRF832 500V 4A 75W * * NMOS场效应IRF833 450V 4A 75W * * NMOS场效应IRF840 * 500V 8A 125W * * NMOS场效应IRF841 450V 8A 125W * * NMOS场效应IRF842 500V 7A 125W * * NMOS场效应IRF843 * 450V 7A 125W * * NMOS场效应晶体管型号Vds Id Pd 放大特征类型IRF9530IRF9531 60V 12A 75W * * PMOS场效应IRF9541 60V 19A 125W * * PMOS场效应IRF9610 200V 1A 20W * * PMOS场效应IRF9630 200V 6.5A 75W * * PMOS场效应晶体管型号Vds Id Pd 放大特征类型IRFF110 100V 3.5A 15W * * NMOS场效应IRFF111 100V 3.5A 15W * * NMOS场效应IRFF112 100V 3A 15W * * NMOS场效应IRFF113 100V 3A 15W * * NMOS场效应IRFF120 100V 6A 24W * * NMOS场效应IRFF121 60V 6A 24W * * NMOS场效应IRFF122 100V 5A 20W * * NMOS场效应IRFF123 60V 5A 20W * * NMOS场效应IRFF130 100V 8A 25W * * NMOS场效应IRFF131 60V 8A 25W * * NMOS场效应IRFF132 100V 7A 25W * * NMOS场效应IRFF133 60V 7A 25W * * NMOS场效应IRFBC20 600V 2.5A 50W * * NMOS场效应IRFBC30 600V 3.6A 74W * * NMOS场效应IRFBC40 600V 6.2A 125W * * NMOS场效应IRFBE30 800V 2.8A 75W * * NMOS场效应IRFD113 60V 0.8A 1W * * NMOS场效应IRFD120 100V 1.3A 1W * * NMOS场效应IRFD123 80V 1.1A 1W * * NMOS场效应IRFD9120 100V 1A 1W * * NMOS场效应IRFI730 400V 4A 32W * * NMOS场效应IRFI744 400V 4A 32W * * NMOS场效应晶体管型号Vds Id Pd 放大特征类型IRFP054 60V 65A 180W * * NMOS场效应IRFP140 100V 30A 150W * * NMOS场效应IRFP150IRFP240 200V 19A 150W * * NMOS场效应IRFP250 200V 33A 180W * * NMOS场效应IRFP340 400V 10A 150W * * NMOS场效应IRFP350 400V 16A 180W * * NMOS场效应IRFP353 350V 14A 180W * * NMOS场效应IRFP440 500V 8A 150W * * NMOS场效应IRFP450 500V 14A 180W * * NMOS场效应IRFP460 500V 20A 250W * * NMOS场效应IRFP9140 100V 19A 150W * * PMOS场效应IRFP9240 200V 12A 150W * * PMOS场效应IRFPF40 900V 4.7A 150W * * NMOS场效应IRFPG42 1000V 4A 150W * * NMOS场效应IRFS9630 200V 6.5A 75W * * PMOS场效应IRFU020 50V 15A 42W * * NMOS场效应晶体管型号Vds Id Pd 放大特征类型K707 120W 25A 250V NMOSK719 120W 5A 900V NMOSK1120 150W 8A 1000V NMOSK1271 ? ? 1200V* NMOS 塑封550V开关电源K1518 120W 20A 500V NMOSK2101 NMOS 全塑30W开关电源●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●品名功率电流导阻电压封装单价购买备注（W）（A）（Ω）（V）（元）TP15N06 40 15 0.08 50 T0251 1.0BUZ11 75 30 0.05 60 TO220 2.5SMP60N06 125 60 0.018 60 TO220 3.0V40A T 40 3 1 60 TO220 1.8V40BT 40 3 1.5 120 TO220 2.0V40DT 40 2 3 500 TO220 2.8V75A T 75 5 0.35 60 TO220 2V75BT 75 4.5 0.5 120 TO220 2.3V75CTV75DT 75 5 1 500 TO220 3.5品名功率电流导阻电压封装单价购买备注（W）（A）（Ω）（V）（元）IRFBC40 125 6.2 12 600 TO220 2.5IRF510 43 5.6 0.41 100 TO220 1.5IRF610 43 3.3 1.2 200 TO220 1.5IRF710 36 2 3. 3 400 TO220 1.5IRF520 60 9.2 0.25 100 TO220 2.0IRF620 40 5 0.5 200 TO220 2.0IRF720 50 3.3 1.6 400 TO220 2.0IRF820 50 2.5 2.9 500 TO220 2.0IRF530 79 14 0.12 100 TO220 2.5IRF630 75 9 0.25 200 TO220 2.5IRF730 74 5.5 0.93 400 TO220 2.5IRF830 74 4.5 1.4 500 TO220 2.5IRF540 150 28 0.06 100 TO220 3.0IRF640 125 18 0.18 200 TO220 3.0IRF740 125 10 0.42 400 TO220 3.0IRF840 125 8 0.85 500 TO220 3.0TO220NP配对品名功率电流导阻电压封装单价购买备注（W）（A）（Ω）（V）（元）IRF520 9520对 60 9.2 0.25 +/-100 T0220 5.0IRF530 9530对 79 14 0.12 +/-100 TO220 6.0 IRF540 9540对 150 28 0.06 +/-100 TO220 8.0IRF640 9640对 125 18 0.18 +/-200 TO220 10T03P封装VMOS管品名功率电流导阻电压封装单价购买备注（W）（A）（Ω）（V）（元）IRFP150 180 41 0.055 100 T03P 12IRFP250 180 31 0.085 200 T03P 12IRFP350 180 16 0.3 400 T03P 8.0IRFP450 180 14 0.35 500 T03P 8.0IRFP360 250 23 0.2 400 T03P 12IRFP460 250 20 0.27 500 T03P 12IRFP264 280 38 0.075 250 TO3P 14 拆机保用IRFP064 300 98 0.018 60 TO3P 14 拆机保用IRFPE20 125 2.5 0.5 1000 TO3P 6SMW40N10 125。

662K./65K5.(文件编号：S&CIC1763)300mA低压差电压稳压器IC 1特性•高精度输出电压：±2%，最大工作电压：6.0V；•输出电压：1.5V~5.0V(步长0.1V)；•极低的静态偏置电流(Typ.=10uA)；•带载能力强：当Vin=3.75V且Vout=3.3V时Iout=300mA；•输入稳定性好：Typ.0.03%/V；•低的温度调整系数；•可以作为调整器和参考电压来使用；•封装形式：SOT23-3(小）2应用•电池供电系统；•无绳电话设备；•无线控制系统；•便携/手掌式计算机；•便携式消费类设备；•便携式仪器；•电子设备；•汽车电子设备；•电压基准源。

3应用电路662K./65K5.典型应用图662K./65K5.(文件编号：S&CIC1763)300mA低压差电压稳压器IC 4产品概述该662K./65K5.系列是一款高精度，低功耗，高电压，正电压调整器的芯片，并采用CMOS工艺和激光微调技术。

具有很低的静态偏置电流（10uA Typ.），它们能在输入、输出电压差极小的情况下有300mA的输出电流，并且仍能保持良好的调整率。

662K./65K5.系列芯片包括一个电流限制电路，一个驱动器三极管，一个高精度参考电压源和一个误差校正电路。

662K./65K5.系列可使用低ESR陶瓷电容。

该电流限制器的返回电路可为电流限制器和输出引脚提供短路保护。

通过激光微调技术,可设定芯片的输出电压的范围是1.5V至5.0V，间隔为0.1V。

由于输入输出间的电压差很小和静态偏置电流很小，这些器件特别适用于希望延长有用电池寿命的电池供电类产品，如计算机、消费类产品和工业设备等。

5引脚定义和封装662K./65K5.引脚图6订购信息印字说明：第一行，XXXX：芯片型号；第二行，XXXXXX+X：Lot Number+封装或软件版本。

662K./65K5.(文件编号：S&CIC1763)300mA低压差电压稳压器IC 7电气规格7.1极限工作参数(1)(1)超出极限工作范围值可能会造成器件永久性损坏。

40V高输入电压LDO线性稳压器一般说明PW6206系列是一款高精度，高输入电压，低静态电流，高速，低压降线性稳压器具有高纹波抑制。

在VOUT=5V&VIN=7V时，输入电压高达40V，负载电流高达300mA，采用BCD工艺制造。

PW6206提供过电流限制、软启动和过热保护，以确保设备在良好的条件下工作PW6206调节器有标准SOT89-3L和SOT23-3L封装。

标准产品无铅无卤。

特点⚫输入电压：4.75V~40V⚫输出电压：1.8V~5.7V⚫输出精度：<±2%⚫输出电流：150mA（典型值）⚫最高300mA@VIN=7V，VOUT=5V，PW6206B50HV封装⚫电源抑制比：60dB@100Hz⚫跌落电压：600mV@IOUT=100mA⚫静态电流：4.2μA@VIN=12V（典型值）⚫ESD HBM:8KV⚫推荐电容器：10uF应用芯片135代2845理8039 Mr。

郑，技术工程FAE⚫智能电表⚫车内娱乐⚫电动自行车典型应用电路应用信息输入电容器VIN 和GND 引脚之间需要10μF 的输入电容。

电容器应尽可能靠近VIN 引脚，建议使用电解电容器。

必须考虑公差和温度系数，以确保电容器在整个温度和工作条件范围内工作。

输出电容器在实际应用中，选择输出电容器以保证其稳定运行是非常重要的。

稳定和正确操作的最小电容为1μF。

电容公差应在工作温度范围内±30%或更好。

建议电容器类型为MLCC。

空载稳定性PW6206将在无外部负载的情况下保持稳定和调节。

这在CMOS RAM保持活动应用中尤其重要。

典型电路下图显示了PW6206设备的典型应用电路。

根据应用情况，应仔细选择外部组件的值。

在插拔应用中，由于芯片上电源的插入和拔出引起的过冲会损坏芯片，因此建议VIN小于30V，输入电压峰值不超过45V。

在封堵应用中，建议R、Cin选用如下：1Cin=10UF~100UF电解电容器，最大电压大于50V，R=0；2Cin=1UF~10UF MLCC，最大电压V大于50V，R=2Ω，1206型电阻器应仔细选择，以确保有足够的裕度来承受插入期间的浪涌电流。

三端稳压ic规格书三端稳压IC是一种广泛应用于电子设备中的集成电路，主要用于稳定电压输出。

它的规格书是一份详细介绍该IC的技术参数、功能特性、应用范围等信息的文档。

本文将从几个方面对三端稳压IC的规格书进行介绍。

三端稳压IC的技术参数是规格书中最重要的内容之一。

这些技术参数包括输入电压范围、输出电压范围、输出电流能力、负载调整率、线性调整率等。

其中，输入电压范围是指该IC可以接受的电源输入电压的范围，输出电压范围是指该IC能够稳定输出的电压范围。

输出电流能力是指该IC能够提供的最大输出电流。

负载调整率是指在负载变化时，输出电压的变化率。

线性调整率是指在输入电压变化时，输出电压的变化率。

这些技术参数对于用户选择合适的三端稳压IC非常重要。

三端稳压IC的功能特性也是规格书中的重要内容之一。

这些功能特性包括过温保护、短路保护、过载保护等。

过温保护是指当IC温度超过一定阈值时，IC会主动降低输出电压或停止工作，以保护IC 不受损坏。

短路保护是指当IC的输出端短路时，IC会自动降低输出电流，以防止IC损坏。

过载保护是指当IC的输出电流超过一定阈值时，IC会自动降低输出电流或停止工作，以保护IC和负载不受损坏。

这些功能特性能够提高IC的安全性和可靠性。

规格书还会介绍三端稳压IC的应用范围。

三端稳压IC广泛应用于各种电子设备中，如手机、电脑、电视等。

它可以稳定供电给这些设备的各个模块，保证设备的正常运行。

同时，三端稳压IC还可以用于电源管理系统中，提供稳定的电源给其他IC或模块，以确保整个系统的稳定性和可靠性。

规格书还会介绍三端稳压IC的封装形式和引脚定义。

三端稳压IC 的封装形式有多种，如SOT-23、SOT-89、TO-220等。

每种封装形式都有不同的尺寸和引脚数量。

引脚定义是指每个引脚的功能和连接方式。

用户在使用三端稳压IC时，需要根据实际需求选择合适的封装形式和正确连接引脚。

三端稳压IC的规格书是用户选择和使用该IC的重要参考资料。

VCE=1V, IC= 10mA VCE=1V, IC=100mA VCE=2V, IC=500mA IC=100mA, IB=10mA IC=500mA, IB=50mA IC=500mA, IB=50mA
250 400 630
0.3 0.7 2 100 12 80 10
V V V MHz pF pF dB
IC
(mA)
REVERSE VOLTAGE
V
(V)
0.3
Pc
——
Ta
COLLECTOR POWER DISSIPATION Pc (W)
0.2
0.1
0.0 0 25 50 75 100 125 150
C,May,2013
AMBIENT TEMPERATURE
Ta
(℃ )
【 南京南山半导体有限公司 — 长电三极管选型资料】
μA μA
hFE2 DC current gain hFE3 hFE4 Collector-emitter saturation voltage Base-emitter saturation voltage Transition frequency Output capacitance Input capacitance Noise figure VCE(sat) VBE(sat)
℃
ELECTRICAL CHARACTERISTICS (Ta=25℃ unless otherwise specified)
Parameter Collector-base breakdown voltage Collector-emitter breakdown voltage Emitter-base breakdown voltage Collector cut-off current Collector cut-off current Symbol V(BR)CBO V(BR)CEO V(BR)EBO ICBO IEBO hFE1 Test conditions IC= 10μA, IE=0 IC= 10mA, IB=0 IE=10μA, IC=0 VCB=45 V, IE=0 VEB=4 V, IC=0 VCE=10V, IC=0. 1mA BCW66F BCW66G BCW66H BCW66F BCW66G BCW66H BCW66F BCW66G BCW66H BCW66F BCW66G BCW66H 35 50 80 75 110 180 100 160 250 35 60 100 Min 75 45 5 0.02 0.02 Typ Max Unit V V V

达林顿管
2SD1626 2SD2170 BCV26 BCV27 BCV46 BST50 BST51 M M B TA 1 3 LT 1 M M B TA 1 4 LT 1 M M B TA 6 3 LT 1 M M B TA 6 4 LT 1 M M B TA 9 2 M M B TA 4 2 MMBT4403 MMBT4401 M M B TA 5 5 M M B TA 5 6 MMBT9013
复合三极管
1MD3A 1MX1 1MX2 1MX3 1MX4 1MX5 1MX6 1MX7 1MX8 1MX6 1MZ1A UMX1N UMX2N Rn1502 UMG6 UMG8 Xn2501 Xn4300 Xn4401 Xn4501 Xn4601 ……
带电阻三极管
D TA 11 4 E K A D TA 11 4 T K A D TA 1 4 3 E K A D TA 1 4 3 T K A D TA 1 4 3 X K A D TA 1 4 4 E K A D TA 1 4 4 T K A D TA 1 4 4 K X A D T C 11 4 E K A D T C 11 4 T K A D T C 11 4 E K A OTC124EKA DTK124TKA OTK143EKA DTK143TKA DTK143XKA DTK144EKA DTK144TKA DTK144XKA D TA 1 2 4 E K A D TA 1 2 4 T K A D TA 1 2 4 X K A D T B 11 4 E K A OTB123YKA O T D 11 4 E K A DTD123TKA DTD143TKA ……
PHILIPS
B B… B C V… B F… P M B T… B Z X 8 4… B A T… 系 列

200mVPP, f=1kHz
70
dB
68
dB
注： 1.测试所用的负载中串有 33µH 电感来模拟喇叭的特性; 2.在测试 Class-D 电路的指标时，需要在输出端和测试仪器之前加入 33kHz 的低通滤波电路;
5
V1.0
HDX6620 应用说明
HDX6620
5.7W 双电荷泵、AB/D 类、超低 EMI、带短路保护功能音频功放
自适应电荷泵技术
HDX6620使用了电荷泵升压电路，使输出信号的峰值有更大的余量，喇叭上能得到更大的功率。电荷泵升 压电路在工作时会降低系统的效率，HDX6620内置有信号检测电路，只有在输入信号比较大时电荷泵升压电路 才工作，利用这种自适应技术能增加实际工作时的工作效率。
CLASS-D AUDIO AMPLIFIER (MODE=Low or Unconnected)
符号
参数
测试条件
最小值 典型值 最大值 单位
THD+N=1%
4.7
W
最大输出功率 THD+N=10%
VDD=4.2V 5.7
W
Po
Load=4Ω+33µH
Non-ALC Mode THD+N=1%
4.3
2
V1.0
电性能参数
HDX6620
5.7W 双电荷泵、AB/D 类、超低 EMI、带短路保护功能音频功放
极限参数
参数
符号
范围
单位
供电电源
AVDD,CVDD
-0.3~6
V
功率 PIN
PVOUT, PVDD, CP1,
-0.3~ 7
V
CP2, VOP, VON

三极管的丝印及功能参数各种型号丝印如下:规格封装 MARKING9012 SOT-23 2T19013 SOT-23 J39014 SOT-23 J69015 SOT-23 M69018 SOT-23 J88050 SOT-23 J3Y8550 SOT-23 2TY8050D SOT-23 Y18550D SOT-23 Y23904 SOT-23 1AM3906 SOT-23 2A2SC1815 SOT-23 HF2SC1015 SOT-23 BA2SA812 SOT-23 M6/M7 2SC1623 SOT-23 L6/L7 2SC4672 SOT-89 DKQ KTC3875 SOT-23 ALG SD103AW SOD-323 S4 SD103AW SOD-123 S4 5551 SOT-23 G15401 SOT-23 2L2N7002 SOT-23 7022N7002 SOT-23 7021SS181 SOT-23 A31SS184 SOT-23 B31SS187 SOT-23 D31SS190 SOT-23 E31SS193 SOT-23 F31SS226 SOT-23 C31SS355 SOD-323 A1SS400 SOD-523 AM28S SOT-23A42 SOT-23A92 SOT-233904 SOT-23 W043906 SOT-23 W06BA V70 SOT-23 A4BA V99 SOT-23 A72222 SOT-23 1P2SC1623 SOT-23 L62SA812 SOT-23 M62SC2712-LY SOT-23 LYNK2301A SOT-23NK2302A SOT-232SK3018 SOT-23 KNMMBTH10 SOT-23 3EM1N4148WS SOD-323 T41N4148W SOD-123 T41N4148 SOD-523 T4RB491D SOT-23-3L D2E以下是各种功能三极管参数名称封装极性功能耐压电流功率频率配对管D633 28 NPN 音频功放开关100V 7A 40W 达林顿9013 21 NPN 低频放大50V 0.5A 0.625W 90129014 21 NPN 低噪放大50V 0.1A 0.4W 150HMZ 90159015 21 PNP 低噪放大50V 0.1A 0.4W 150MHZ 90149018 21 NPN 高频放大30V 0.05A 0.4W 1000MHZ8050 21 NPN 高频放大40V 1.5A 1W 100MHZ 85508550 21 PNP 高频放大40V 1.5A 1W 100MHZ 80502N2222 21 NPN 通用60V 0.8A 0.5W 25／200NS2N2369 4A NPN 开关40V 0.5A 0.3W 800MHZ2N2907 4A NPN 通用60V 0.6A 0.4W 26／70NS2N3055 12 NPN 功率放大100V 15A 115W MJ29552N3440 6 NPN 视放开关450V 1A 1W 15MHZ 2N66092N3773 12 NPN 音频功放开关160V 16A 50W2N3904 21E NPN 通用60V 0.2A2N2906 21C PNP 通用40V 0.2A2N2222A 21铁NPN 高频放大75V 0.6A 0.625W 300MHZ2N6718 21铁NPN 音频功放开关100V 2A 2W2N5401 21 PNP 视频放大160V 0.6A 0.625W 100MHZ 2N5551 2N5551 21 NPN 视频放大160V 0.6A 0.625W 100MHZ 2N5401 2N5685 12 NPN 音频功放开关60V 50A 300W2N6277 12 NPN 功放开关180V 50A 250W9012 21 PNP 低频放大50V 0.5A 0.625W 90132N6678 12 NPN 音频功放开关650V 15A 175W 15MHZ9012 贴片PNP 低频放大50V 0.5A 0.625W 90133DA87A 6 NPN 视频放大100V 0.1A 1W3DG6B 6 NPN 通用20V 0.02A 0. 1W 150MHZ3DG6C 6 NPN 通用25V 0.02A 0.1W 250MHZ3DG6D 6 NPN 通用30V 0.02A 0.1W 150MHZMPSA42 21E NPN 电话视频放大300V 0.5A 0.625W MPSA92 MPSA92 21E PNP 电话视频放大300V 0.5A 0.625W MPSA42 MPS2222A 21 NPN 高频放大75V 0.6A 0.625W 300MHZ9013 贴片NPN 低频放大50V 0.5A 0.625W 90123DK2B 7 NPN 开关30V 0.03A 0.2W3DD15D 12 NPN 电源开关300V 5A 50W3DD102C 12 NPN 电源开关300V 5A 50W3522V 稳压管5VA634 28E PNP 音频功放开关40V 2A 10WA708 6 PNP 音频开关80V 0.7A 0.8WA715C 29 PNP 音频功放开关35V 2.5A 10W 160MHZA733 21 PNP 通用50V 0.1A 180MHZA741 4 PNP 开关20V 0.1A 70／120NSA781 39B PNP 开关20V 0.2A 80／160NSA928 ECB PNP 通用20V 1A 0.25WA933 21 PNP 通用50V 0.1A 140MHZA940 28 PNP 音频功放开关150V 1.5A 25W 4MHZ C2073A966 21 PNP 音频激励输出30V 1.5A 0.9W 100MHZ C2236 A950 21 PNP 通用30V 0.8A 0.6WA968 28 PNP 音频功放开关160V 1.5A 25W 100MHZ C2238 A1009 BCE PNP 功放开关350V 2A 15WA1220P 29 PNP 音频功放开关120V 1.5A 20W 150MHZA1013 21 PNP 视频放大160V 1A 0.9W C2383A1015 21 PNP 通用60V 0.1A 0.4W 8MHZ C18152N6050 12 PNP 音频功放开关60V 12A 150W2N6051 12 PNP 音频功放开关80V 12A 150WA1175 PNP 通用60V 0.10A 0.25W 180MHZA1213 贴片PNP 超高频50V 0.15A 80MHZA719 ECB PNP 通用30V 0.50A 0.625W 200MHZB12 G－PNP 音频30V 0.05A 0.05WB1114 ECB PNP 通用贴片20V 2A 180MHZB205 锗管PNP 音频功放开关80V 20A 80WB1215 BCE PNP 功放开关贴片120V 3A 20W 130MHZC294 6 NPN 栾生对管25V 0.05A 200MHZC1044 6 NPN 视放45V 0.3A 2.2GHZC1216 6 NPN 高速开关40V 0.2A T，20ｎSC1344 ECB NPN 通用低噪30V 0.10 230MHZC1733 6 NPN 栾生对管30V 0.05A 2GHZC1317 21ECB NPN 通用30V 0.5A 0.625W 200MHZC546 21ECB NPN 高放30V 0.03A 0.15W 600MHZC680 11 NPN 音频功放开关200V 2A 30W 20MHZC665 12 NPN 音频功放开关125V 5A 50W 15MHZC4581 BCE NPN 电源开关600V 10A 65W 20MHZC4584 BCE NPN 电源开关1200V 6A 65W 20MHZC4897 BCE NPN 行管1500V 20A 150WC4928 BCE NPN 行管1500V 15A 150WC5411 BCE NPN 彩显行管17” 1500V 14A 60WHQ1F3P 贴片NPN 功放开关20V 2A 2WTIP132 28 NPN 音频功放开关100V 8A 70W TIP137A1020 21 PNP 音频开关50V 2A 0.9WA1123 21 PNP 低噪放大150V 0.05A 0.75WA1162 21D PNP 通用贴片50V 0.15A 0.15WA1216 BCE PNP 功放开关180V 17A 200W 20MHZ C2922 A1265 BCE PNP 功放开关140V 10A 100W 30MHZ C3182 A1295 BCE PNP 功放开关230V 17A 200W 30MHZ C3264 A1301 BCE PNP 功放开关160V 12A 120W 30MHZ C3280 C3280 BCE NPN 功放开关160V 12A 120W 30MHZ A1301 A1302 BCE PNP 功放开关200V 15A 120W 30MHZ C3281 C3281 BCE NPN 功放开关200V 15A 120W 30MHZ A1302 A1358 BCE PNP 120V 1A 10W 120MHZA1444 BCE PNP 高速电源开关100V 15A 30W 80MHZA1494 BCE PNP 功放开关200V 17A 200W 20MHZ C3858 A1516 BCE PNP 功放开关180V 12A 130W 25MHZA1668 BCE PNP 电源开关200V 2A 25W 20MHZA1785 BCE PNP 驱动120V 1A 1W 140MHZA1941 BCE PNP 音频功放形状140V 10A 100W C5198C5198 BCE NPN 音频功放形状140V 10A 100W A1941A1943 BCE PNP 功放开关230V 15AA 150W C5200C5200 BCE NPN 功放开关230V 15A 150W A1943A1988 BCE PNP 功放开关B449 锗管12 PNP 功放开关50V 3.5A 22.5WB647 21 PNP 通用120V 1A 0.9W 140MHZ D667D667 21 NPN 通用120V 1A 0.9W 140MHZ B649B1375 BCE PNP 音频功放60V 3A 2W 9MHZD40C BCE NPN对讲机用40V 0.5A 40W 75MHB688 BCE PNP 音频功放开关120V 8A 80W D718B734 39B PNP 通用60V 1A 1W D774B649 29 PNP 视放180V 1.5A 20W D669D669 29 NPN 视频放大180V 1.5A 20W 140MHZ B649B669 28 PNP 达林顿功放70V 4A 40WB675 28 PNP 达林顿功放60V 7A 40WB673 28 PNP 达林顿功放100V 7A 40WB631K 29 PNP 音频功放开关120V 1A 8W 130MHZ D600K D600K 29 NPN 音频功放开关120V 1A 8W 130MHZ B631K C3783 BCE NPN 高压高速开关900V 5A 100WB1400 28B PNP 达林顿功放120V 6A 25W D1590B744 29 PNP 音频功放开关70V 3A 10WB1020 28 PNP 功放开关100V 7A 40WB1240 39B PNP 功放开关40V 2A 1W 100MHZB1185 28B PNP 功放开关60V 3A 25W 70MHZ D1762B1079 30 PNP 达林顿功放100V 20A 100W D1559B772 29 PNP 音频功放开关40V 3A 10W D882B774 21 PNP 通用30V 0.1A 0.25WB817 30 PNP 音频功放形状160V 12A 100W D1047B834 28 PNP 功放开关60V 3A 30WB1316 54B PNP 达林顿功放100V 2A 10WB1317 BCE PNP 音频功放180V 15A 150W D1975B1494 BCE PNP 达林顿功放120V 20A 120W D2256B1429 BCE PNP 功放开关180V 15A 150WC380 21 NPN 高频放大35V 0.03A 250MHZC458 21 NPN 通用30V 0.1A 230MHZC536 21 NPN 通用40V 0.1A 180MHZ2N6609 12 PNP 音频功放开关160V 15A 150W ＞2MHZ 2N3773 C3795 BCE NPN 高压高速开关900V 5A 40WC2458 21ECB NPN 通用低噪50V 0.15A 0.2WC3030 BCE NPN 开关管900V 7A 80W. 达林顿C3807 BCE NPN 低噪放大30V 2A 1.2W 260MHZC3858 BCE NPN 功放开关200V 17A 200W 20MHZ A1494D985 29 NPN 达林顿功放150V ±1.5A 10WC2036 29 NPN 高放低噪80V 1A 1－4WC2068 28E NPN 视频放大300V 0.05A 1.5W 80MHZC2073 28 NPN 功率放大150V 1.5A 25W 4MHZ A940C3039 28 NPN 电源开关500V 7A 50WC3058 12 NPN 开关管600V 30A 200WC3148 28 NPN 电源开关900V 3A 40WC3150 28 NPN 电源开关900V 3A 50WC3153 30 NPN 电源开关900V 6A 100WC3182 30 NPN 功放开关140V 10A 100W A1265C3198 21 NPN 高频放大60V 0.15A 0.4W 130MHZ3DK4B 7 NPN 开关40V 0.8A 0.8W3DK7C 7 NPN 开关25V 0.05A 0.3W3D15D 12 NPN 电源开关300V 5A 50WC2078 28 NPN 音频功放开关80V 3A 10W 150MHZC2120 21 NPN 通用30V 0.8A 0.6WC2228 21 NPN 视频放大160V 0.05A 0.75WC2230 21 NPN 视频放大200V 0.1A 0.8WC2233 28 NPN 音频功放开关200V 4A 40WC2236 21 NPN 通用30V 1.5A 0.9W A966C1733 小铁NPN 孪生对管30V 2GHZC1317 21EBC NPN 通用30V 0.5A 0.625W 200MHZC2238 28 NPN 音频功放开关160V 1.5A 25W 100MHZ A968C752 21 NPN 通用30V 0.1A 300MHZC815 21 NPN 通用60V 0.2A 0.25WC828 21 NPN 通用45V 0.05A 0.25WC945 21 NPN 通用50V 0.1A 0.5W 250MHZC1008 21 NPN 通用80V 0.7A 0.8W 50MHZC1162 21 NPN 音频功放35V 1.5A 10WC1213 39B NPN 监视器专用30V 0.5A 0.4WC1222 21 NPN 低噪放大60V 0.1A 100MHZC1494 40A NPN 发射36V 6A PQ=40W 175MHZC1507 28 NPN 视放300V 0.2A 15WC1674 21 NPN HF/ZF 30V 0.02A 600MHZC1815 21 NPN 通用60V 0.15A 0.4W 8MHZ A1015C1855 21F NPN HF/ZF 20V 0.02A 550MHZC1875 12 NPN 彩行1500V 3.5A 50WC1906 21 NPN 高频放大30V 0.05A 1000MHZC1942 12 NPN 彩行1500V 3A 50WC1959 21 NPN 通用30V 0.4A 0.5W 300MHZC1970 28 NPN 手机发射40V 0.6A PQ=1.3W 175MHZ C1971 28A NPN 手机发射35V 2A PQ-7.0W 175MHZ C1972 28A NPN 手机发射35V 3.5A PQ=15W 175MHZ C2320 21 NPN 通用50V 0.2A 0.3W 200MHZC2012 21 NPN 高放30V 0.03A 200MHZC2027 12 NPN 行管1500V 5A 50WD814 BCE NPN 低噪放大贴片150V 0.05A 150MHZC5142 BCE NPN 彩行1500V 20A 200WD998 BCE NPN 音频功放开关120V 10A 80W <1/3US D2253 BCE NPN 彩显行管1700V 6A 50WD110 12 NPN 音频功放开关130V 10A 100W 1MHZC2335 28 NPN 视频功放500V 7A 40WC2373 28 NPN 功放200V 7.5A 40WC2383 21 NPN 视频开关160V 1A 0.9W A1013C3300 30 NPN 音频功放开关100V 15A 100WC3310 28C NPN 电源开关500V 5A 40WC3320 28C NPN 电源开头500V 15A 80WC3355 21F NPN 高频放大20V 0.1A 6500MHZC3358 40B NPN 高频放大20V 0.1A 7000MHZC3457 BCE NPN 电源开关1100V 3A 50WC3460 BCE NPN 电源开关1100V 6A 100WC3466 BCE NPN 电源开关1200V 8A 120WC3505 28B NPN 电源开关900V 6A 80WC3527 BCE NPN 电源开关500V 15A 100WC3528 BCE NPN 电源开关500V 20A 150WC3866 BCE NPN 高压高速开关900V 3A 40WC2443 大铁NPN 功放开关600V 50A 400WC2481 29 NPN 音频功放开关150V 1.5A 20WC2482 21 NPN 视频放大300V 0.1A 0.9WC2594 29 NPN 音频功放开关40V 5A 10WC2611 29 NPN 视频放大300V 0.1A 1.25WC2625 30 NPN 音频功放开关450V 10A 80WC2682 29 NPN NF/Vid 180V 0.1A 8WC2688 29 NPN 视放管300V 0.2A 10W 80MHZC2690 29 NPN 音频功放开关120V 1.2A 20W 150MHZ A1220P C2751 BCE NPN 电源开关500V 15A 120WC2837 30 NPN 音频功放开关150V 10A 100WC3873 BCE NPN 高压高速开关500V 12A 75W 30MHZC3886 BCE NPN 开关行管1400V 8A 50W 8MHZC3893 28B NPN 行管1400V 8A 50W 8MHZC3907 28B NPN 功放开关180V 12A 130W 30MHZC3595 29 NPN 射频30V 0.5A 1.2WC4059 BCE NPN 高速开关600V 15V 130W 0.5/2.2USC4106 BCE NPN 电源开关500V 7A 50W 20MHZ?C4111 BCE NPN 开关行管1500V 10A 150WC3679 BCE NPN 电源开关900V 5A 100W 6MHZC2898 28 NPN 音频功放开关500V 8A 50WC2922 43 NPN 音频功放开关180V 17A 200W 50MHZ A1216 C3026 12 NPN 开关管1700V 5A 50WD986 29 NPN 达林顿功放150-80V ±1.5A 10WC3262 BCE NPN 功放800V 10A 100WC3264 BCE NPN ＰＡ功放开关230V 17A 200WB=170 A1295 C3280 30 NPN 音频功放开关160V 12A 120WB=100C3281 30 NPN 音频功放开关200V 15A 150W 30MHZC3680 BCE NPN 电源开关900V 7A 120W 6MHZC3688 BCE NPN 彩行1500V 10A 150WC3720 12 NPN 彩行1200V 10A 200WC3953 29 NPN 视放120V 0.2A 1.3W 400MHZC3987 28 NPN 达林顿50V 3A 20WC3995 BCE NPN 行管1500V 12A 180WD1025 28 NPN 达林顿功放200V 8A 50WC3997 BCE NPN 行管1500V 15A 250WC3998 BCE NPN 行管1500V 25A 250WC4024 BCE NPN 功放开关100V 10A 35W 24MHZC4038 BCE NPN 门电路50V 0.1A 0.3W 180MHZD1037 BCE NPN 音频功放开关150V 30A 180WD1047 30 NPN 音频功放开关160V 12A 100W B817C4119 BCE NPN 微波炉开关1500V 15A 250WC4231 50C NPN 音频功放800V 2A 30WC4237 BCE NPN 高压高速开关1000V 8A 120W 30MHZC4242 BCE NPN 高压高速开关450V 7A 40WC4297 BCE NPN 电源开关500V 12A 75W 10MHZC4429 BCE NPN 电源开关1100V 8A 60WC4517 BCE NPN 音频功放550V 3A 30W 6MHZC4532 BCE NPN 大屏行管1700V 10A 200WC4582 BCE NPN 电源开关600V 15A 75W 20MHZON4673 BCE NPNON4873 BCE NPNC5244 BCE NPN 彩行1700V 15A 200WC5249 BCE NPN 功放开关600V 3A 35W 6MHZC5250 BCE NPN 开关1000V 7A 100WC5251 BCE NPN 彩行1500V 12A 50WD1071 28 NPN 达林顿功放300V 6A 40WC4706 BCE NPN 电源开关900V 14A 130W 6MHZC4382 BCE NPN 功放开关200V 2A 25W 20MHZ A1668 C4742 46 NPN 彩行1500V 6A 50WC4745 46 NPN 彩行1500V 6A 50WC4747 46 NPN 彩行1500V 10A 50WC4769 BCE NPN 微机行管1500V 7A 60WC4913 BCE NPN 大屏视放管2000V 0.02A 35WC4924 BCE NPN 音频功放800V 10A 70WC4927 BCE NPN 行管1500V 8A 50WC4927 BCE NPN SONY29行管1500V 8A 50WC4941 BCE NPN 行管1500V 6A 65W 500/380NSC4953 BCE NPN 功放开关500V 2A 25W t=300nSC5020 BCE NPN 彩行1000V 7A 100WC5068 BCE NPN 彩行1500V 10A 50WC5086 BCE NPN 彩行1500V 10A 50WC5088 BCE NPN 彩行1500V 10A 50WC5129 BCE NPN 彩显行管1500V 8A 50WD1163A 28 NPN 行偏转用350V 7A 40W 60MHZD1175 12 NPN 行偏转用1500V 5A 100WC5132 BCE NPN 彩行1500V 16A 50WC5144 BCE NPN 大屏彩行1700V 20A 200WC5148 BCE NPN 大屏彩行1500V 8A 50WC5149 BCE NPN 高速高频行管1500V 8A 50WC5198 BCE NPN 功放开关140V 10A 100WC5200 BCE NPN 功放开关230V 15A 150W A1943D1273 28 NPN 音频功放80V 3A 40W 50MHZC5207 BCE NPN 彩行1500V 10A 50WC5243 BCE NPN 彩行1700V 15A 200WC5252 BCE NPN 彩行1500V 15A 100WC5294 BCE NPN 彩行1500V 20A ｔ＝200MSC5296 BCE NPN 开关管带阻1500V 8A 80WC5297 BCE NPN 开关管1500V 16A 60WC5331 BCE NPN 大屏彩显行管1500V 15A 180WD385 11 NPN 达林顿功放100V 7A 30WD400 21 NPN 通用25V 1A 0.75WD1302 21 NPN 音频25V 0.5A 0.5W 200MHZD1397 BCE NPN 开关1500V 3.5A 50W 3MHZD1398 BCE NPN 开关1500V 5A 50W 3MHZD1403 BCE NPN 彩行1500V 6A 120WD401 28 NPN 音频功放开关200V 2A 20WD415 29 NPN 音频功放开关120V 0.8A 5WD438 21 NPN 通用500V 1A 0.75W 100MHZD560 BCE NPN 达林顿功放150V 5A 30WD637 39E NPN 通用60V 0.1A 150MHZD667 21 NPN 视频放大120V 1A 0.9W 140MHZ B647 D1403 BCE NPN 彩行1500V 6A 120WD1415 BCE NPN 功放电源开关100V 7A 40W 达林顿D718 30 NPN 音频功放开关120V 8A 80W B668D774 39B NPN 通用100V 1A 1W B734D789 21 NPN 音频输出100V 1A 0.90D820 12 NPN 彩行1500V 5A 50WD870 12 NPN 彩行1500V 5A 50WD880 28 NPN 音频功放开关60V 3A 10WD882 29 NPN 音频功放开关40V 3A 30W B772D884 28 NPN 音频功放开关330V 7A 40WD898 12 NPN 彩行1500V 3A 50WD951 12 NPN 彩行1500V 3A 65WD965 21 NPN 音频40V 5A 0.75WD966 21 NPN 音频40V 5A 1WD633拆28 NPN 音频功放开关100V 7A 40W达林顿D1431 28B NPN 彩行1500V 5A 80WD1433 28B NPN 彩行1500V 7A 80WD1980 61B NPN 达林顿100V 2A 10WD1981 EBC NPN 达林顿100V 2A 1WD1993 45B NPN 音频低噪55V 0.1A 0.4WD1416 BCE NPN 功放电源开关80V 7A 40W 达林顿D1427 BCE NPN 彩行1500V 5A 80W 带阻尼BU2525AF 30 NPN 开关功放1500V 12A 150W 350NS D1428 28B NPN 彩行1500V 6A 80W 带阻尼BU2525AX 30 NPN 开关功放1500V 12A 150W 350NS D1439 BCE NPN 彩行1500V 3A 80WD1541 28B NPN 彩行1500V 3A 80WD1545 28B NPN 彩行1500V 5A 50WD1547 BCE NPN 彩行1500V 7A 80WBU2527AF 30 NPN 开关功放1500V 15A 150WD1554 BCE NPN 彩行1500V 3.5A 80WD1556 BCE NPN 彩行1500V 6A 80WD1559 BCE NPN 达林顿功放100V 20A 100W B1079D1590 28 NPN 达林顿功放150V 8A 25WD1623 28B NPN 彩行1500V 4A 70WD1640 29 NPN 达林顿功放120V 2A 1.2WD1651 SP NPN 彩行1500V 5A 60W 3MHZD1710 BCE NPN 彩行1500V 5A 50WD1718 28C NPN 音频功放180V 15A 150W 20MHZD1762 BCE NPN 音频功放开关60V 3A 25W 90MHZ B1185 D1843 BCE NPN 低噪放大50V 1A 1WD1849 50A NPN 彩行1500V 7A 120WD1850 50A NPN 彩行1500V 7A 120WD1859 50A NPN 音频80V 0.7A 1W 120MHZD1863 50A NPN 音频120V 1A 1W 100MHZBD237 29 NPN 音频功放100V 2A 25W BD238BD238 29 PNP 音频功放100V 2A 25W BD237BU2520AF 30 NPN 开关功放1500V 10A 150W 1/500NS BU2520DF 30 NPN 开关功放1500V 10A 150W 1/500NS BU2520DX 30 NPN 开关功放1500V 10A 50W 600NS BUH515 BCE NPN 行管1500V 10A 80WBUH515D BCE NPN 行管1500V 10A 80WBUS13A 12 NPN 开关功放1000V 15A 175WD1997 45B NPN 激励管40V 3A 1.5W 100MHZD2008 EBC NPN 音频功放80V 1A 1.2WD2012 BCE NPN 音频功放60V 3A 2W 3MHZD2136 EBC NPN 功放80V 1A 1.2WD2155 53A NPN 音频功放180V 15A 150WD2256 46 NPN 达林顿功放120V 25A 125W B1494D2334 28B NPN 彩行1500V 5A 80WD2335 BCE NPN 彩行1500V 7A 100W 带阻尼D2349 BCE NPN 大屏彩显行管1500V ±10A 50WD1959 BCE NPN 彩行1400V 10A 50WD2374 BCE NPN 功放开关60V 3A 25W 30MHZD2375 BCE NPN 高放大倍数80V 3A 25W 50MHZD2388 EBC NPN 达林顿90V 3A 1.2WD2445 BCE NPN 彩行1500V 12.5A 120WD2498 BCE NPN 彩行1500V 6A 50WD2588 BCE NPN 点火器用DK55 BCE NPN 开关400V 4A 60WBC307 21a PNP 通用50V 0.2A 0.3WBC327 CBE PNP 低噪音频50V 0.8A 0.625W BC337BC337 21a NPN 音频激励低噪50V 0.8A 0.625W BC327 BC338 21a NPN 通用激励50V 0.8A 0.6WBC546 21a NPN 通用80V 0.2A 0.5WBC547 CBE NPN 通用50V 0.2A 0.5W 300MHZBD135 29 NPN 音频功放45V 1.5A 12.5WBD136 29 PNP 音频功放45V 1.5A 12.5W BD137BD137 29 NPN 音频功放60V 1.5A 12.5W BD136BD138 29 PNP 音频功放60V 1.5A 12.5W BD139BD139 29 PNP 音频功放80V 1.5A 12.5W BD138BUS14A 12 NPN 开关功放1000V 30A 250WBUT11A 28 NPN 开关功放1000V 5A 100WBD243 28 NPN 音频功放45V 6A 65W BD244BD244 28 PNP 音频功放45V 6A 65W BD243BD681 29 NPN 达林顿功放100V 4A 40W BD682BD682 29 PNP 达林顿功放100V 4A 40W BD681BF458 29 NPN 视放250V 0.1A 10WBU208A 12 NPN 彩行1500V 5A 12.5WBU208D 12 NPN 彩行1500V 5A 12.5WBU323 28 NPN 达林顿功放450V 10A 125WBU406 28 NPN 行管400V 7A 60WBU508A 28 NPN 行管1500V 7.5A 75WBU508A 28 NPN 行管1500V 7.5A 75WBU508D 28 NPN 行管1500V 7.5A 75WBU806 28 NPN 功放400V 8A 60WBU932R 12 NPN 功放500V 15A 150WBUT12A 28 NPN 开关功放450V 10A 125WBU941 12 NPN 功放开关500V 15A 175W 达林顿BU1508DX 28 NPN 开关功放1500V 8A 35WBU2506DX 30 NPN 开关功放1500V 7A 50W 600NSBU2508AF 30 NPN 开关功放1500V 8A 125W 600NSBU2508AX 30 NPN 开关功放1500V 8A 125W 600NSBU2508DF 30 NPN 开关功放1500V 8A 125W 600NSBU2508DX 30 NPN 开关功放1500V 8A 50W 600NSBUV26 28 NPN 音频功放开关90V 14A 65W 250NSBU2522AF 30 NPN 开关功放1500V 11A 150W 350NSMJ15024 12 NPN 音频功放开关400V 16A 250W 4MHZ MJ15025 MJ15025 12 PNP 音频功放开关400V 16A 250W 4MHZ MJ15024品名极性管脚功能参数MPSA42 NPN 21E 电话视频放大300V0.5A0.625WMPSA92 PNP 21E 电话视频放大300V0.5A0.625WMPS2222A NPN 21 高频放大75V0.6A0.625W300MHZ9011 NPN EBC 高频放大50V30mA0.4W150MHz9012 PNP 贴片低频放大50V0.5A0.625W9013 NPN EBC 低频放大50V0.5A0.625W9013 NPN 贴片低频放大50V0.5A0.625W9014 NPN EBC 低噪放大50V0.1A0.4W150MHZ9015 PNP EBC 低噪放大50V0.1A0.4W150MHZ9018 NPN EBC 高频放大30V50MA0.4W1GHZ8050 NPN EBC 高频放大40V1.5A1W100MHZ8550 PNP EBC 高频放大40V1.5A1W100MHZ2N2222 NPN 4A 高频放大60V0.8A0.5W25/200NSβ=452N2222A NPN 小铁高频放大75V0.6A0.625W300MHZ2N2369 NPN 4A 开关40V0.5A0.3W800MHZ2N2907 NPN 4A 通用60V0.6A0.4W26/70NSβ=2002N3055 NPN 12 功率放大100V15A115W2N3440 NPN 6 视放开关450V1A1W15MHZ2N3773 NPN 12 音频功放开关160V16A150W COP 2N6609 2N3904 NPN 21E 通用60V0.2Aβ=100-4002N3906 PNP 21E 通用40V0.2Aβ=100-4002N5401 PNP 21E 视频放大160V0.6A0.625W100MHZ2N5551 NPN 21E 视频放大160V0.6A0.625W100MHZ2N5685 NPN 12 音频功放开关60V50A300W2N6277 NPN 12 功放开关180V50A250W2N6609 PNP 12 音频功放开关160V15A150W COP 2N37732N6678 NPN 12 音频功放开关650V15A175W15MHZ2N6718 NPN 小铁音频功放开关100V2A2W50MHZ3DA87A NPN 6 视频放大100V0.1A1W3DG6A NPN 6 通用15V20mA0.1W100MHz3DG6B NPN 6 通用20V20mA0.1W150MHz3DG6C NPN 6 通用20V20mA0.1W250MHz3DG6D NPN 6 通用30V20mA0.1W150MHz3DG12C NPN 7 通用45V0.3A0.7W200MHz3DK2B NPN 7 开关30V30mA0.2W3DK4B NPN 7 开关40V0.8A0.7W3DK7C NPN 7 开关25V50mA0.3W3DD15D NPN 12 电源开关300V5A50W3DD102C NPN 12 电源开关300V5A50W3522V 5.2V稳压管录像机用A634 PNP 28E 音频功放开关40V2A10WA708 PNP 6 NF/S 80V0.7A0.8WA715C PNP 29 音频功放开关35V2.5A10W160MHZA733 PNP 21 通用50V0.1A180MHZA741 PNP 4 S 20V0.1A <70/120nSA781 PNP 39B 开关20V0.2A <80/160NSA928 PNP ECB 通用20V1A0.25WA933 PNP 21 Uni 50V0.1A140MHzA940 PNP 28 音频功放开关150V1.5A25W4MHZ /C2073A950 PNP 21 通用30V0.8A0.6WA966 PNP 21 音频激励输出30V1.5A0.9W COP:C2236A968 PNP 28 音频功放开关160V1.5A25W100MHZ /C2238 A1009 PNP BCE 功放开关350V2A15WA1012 PNP 28 音频功率放60V5A25WA1013 PNP 21 视频放大160V1A0.9WA1015 PNP 21 通用60V0.15A0.4W8MHZA1020 PNP 21 音频开关50V2A0.9WA1123 PNP 21 低噪放大150V0.05A0.75WA1162 PNP 21d 通用贴片50V0.15A0.15WA1216 PNP BCE 功放开关180V17A200W20MHZ /2922 A1220 PNP 29 音频功放开关120V1.5A20W150MHZ/C2690 A1265 PNP BCE 功放开关140V10A100W30MHZ /C3182 A1295 PNP BCE 功放开关230V17A200W30MHZ /C3264 A1301 PNP BCE 功放开关160V10A100W30MHZ /C3280 A1302 PNP BCE 功放开关200V15A150W30MHZ /C3281 A1358 ? PNP 高频120V1A10W120MHZA1444 PNP BCE 高速电源开关100V15A30W80MHZA1494 PNP BCE 功放开关200V17A200W20MHZ /C3858 A1516 PNP BCE 功放开关180V12A130W25MHZA1668 PNP 28B 电源开关200V2A25W20MHZA1785 PNP BCE 驱动400V1A1W/120V1A0.9W140MHA1941 PNP BCE 功放开关140V10A100WCOP:5198A1943 PNP BCE 功放开关230V15A150W /C5200 原A1988 PNP 30 功放开关B449 PNP 12 功放开关50V3.5A22.5W 锗管B631K PNP 29 音频功放开关120V1A8W130MHZ /D600K B647 PNP 21 通用120V1A0.9W140MHZ /D667B649 PNP 29 视放180V1.5A1W /D669B669 PNP 28 达林顿功放70V4A40WB673 PNP 28 达林顿功放100V7A40WB675 PNP 28 达林顿功放60V7A40WB688 PNP BCE 音频功放开关120V8A80W /D718B734 PNP 39B 通用60V1A1W /D774B744 PNP 21 通用30V0.1A0.25WB772 PNP 29 音频功放开关40V3A10WB774 PNP 21 通用30V0.1A0.25WB817 PNP 30 功放开关160V12A100W /D1047B834 PNP 28 功放开关60V3A30WB937A PNP 功放开关60V2A35 DRALB1020 PNP 28 功放开关达林顿100V7A40Wβ=6000B1079 PNP 30 达林顿功放100V20A100Wβ=5000/D1559B1185 PNP 28B 功放开关60V3A25W 70MHZ /D1762B1238 PNP ECB 功放开关80V0.7A1W 100MHZB1240 PNP 39B 功放开关40V2A1W100HZB1243 PNP 39B 功放开关40V3A1W70HZB1316 PNP 54B 驱动功放达林顿100V2A10Wβ=15000B1317 PNP BCE 音频功放180V15A150W COP:D1975B1335 PNP 28 音频功放低噪80V4A30W 12MHZB1375 PNP BCE 音频功放60V3A2W9MHZB1400 PNP 28B 达林顿功放120V6A25W β=1000-20000B1429 PNP BCE 功放开关180V15A150WB1494 PNP BCE 达林顿功放120V25A120Wβ=2000-20000C106 NPN EBC 音频功放开关60V1.5A15WC380 NPN 21 高频放大35V0.03A250MHZC458 NPN 21 通用30V0.1A230MHzC536 NPN 21 通用40V0.1A180MHZC752 NPN 21 通用30V0.1A300MHzC815 NPN 21 通用60V0.2A0.25WC828 NPN 21 通用45V0.05A0.25WC900 NPN 21 低噪放大30V0.03A100MHZC943 NPN 4A 通用60V0.2A200MHZC945 NPN 21 通用50V0.1A0.5W250MHZC1008 NPN 6 通用80V0.7A0.8W50MHZC1162 NPN 29 音频功放开关35V1.5A10WC1213 NPN 39B 监视器专用35V0.5A0.4WC1222 NPN 21 低噪放大60V0.1A100MHZ3AX 为PNP型低频小功率管3BX 为NPN型低频小功率管3CG 为PNP型高频小功率管3DG 为NPN型高频小功率管3AD 为PNP型低频大功率管3DD 为NPN型低频大功率管3CA 为PNP型高频大功率管3DA 为NPN型高频大功率管。

VR11.1, VR12 Compatible Synchronous Rectified Buck MOSFET DriverISL6627The ISL6627 is a high frequency MOSFET driver designed to drive upper and lower power N-Channel MOSFETs in a synchronous rectified buck converter topology. The advanced PWM protocol of ISL6627 is specifically designed to work with Intersil VR11.1, VR12 controllers and combined with N-Channel MOSFETs to form a complete core-voltage regulator solution for advanced microprocessors. When ISL6627 detects a PSI protocol sent by an Intersil VR11.1, VR12 controller, it activates Diode Emulation (DE) operation; otherwise, it operates in normal Continuous Conduction Mode (CCM) PWM mode.To further enhance light load efficiency, the ISL6627 enables diode emulation operation during PSI mode. This allows Discontinuous Conduction Mode (DCM) by detecting when the inductor current reaches zero and subsequently turning off the low side MOSFET to prevent it from sinking current.When ISL6627 detects Diode Braking command from the PWM, it turns off both gates and reduces overshoot in load transient situations.An advanced adaptive shoot-through protection is integrated to prevent both the upper and lower MOSFETs from conducting simultaneously and to minimize dead time. The user also has the option to program the driver working in fixed propagation delay mode to optimize the regulator efficiency. The ISL6627 has a 20kΩ integrated high-side gate-to-source resistor to prevent self turn-on due to high input bus dV/dt.Related Literature•Technical Brief TB363 “Guidelines for Handling and Processing Moisture Sensitive Surface Mount Devices (SMDs)”•Technical Brief TB417 “Designing Stable Compensation Networks for Single Phase Voltage Mode Buck Regulators”Features•Intersil VR11.1 and VR12 Compatible•Dual MOSFET Driver for Synchronous Rectified Bridge •Advanced Adaptive Zero Shoot-through Protection •Programmable Fixed Deadtime for Efficiency Optimization •Low Standby Bias Current•36V Internal Bootstrap Diode•Bootstrap Capacitor Overcharge Prevention•Supports High Switching Frequency-4A Sinking Current Capability-Fast Rise/Fall Times and Low Propagation Delays •Integrated High-Side Gate-to-Source Resistor to Prevent Self Turn-on Due to High Input Bus dV/dt•Power Rails Undervoltage Protection•Expandable Bottom Copper Pad for Enhanced Heat Sinking •Dual Flat 10 Ld (3x3 DFN) Package-Near Chip-Scale Package Footprint; Improves PCB Efficiency and Thinner in Profile•Pb-Free (RoHS Compliant)Applications•High Light Load Efficiency Voltage Regulators•Core Regulators for Advanced Microprocessors•High Current DC/DC Converters•High Frequency and High Efficiency VRM and VRDEN VCCPWM +5V33.6k28.8kBOOTUGATEPHASELGATEGNDSHOOT-THROUGHPROTECTION/20kΩCONTROLLOGICPOR/TDDELAYPROGRAMMINGFIGURE 1.ISL6627 BLOCK DIAGRAMTypical Application CircuitPin ConfigurationISL6627(10 LD 3x3 DFN)TOP VIEW2 3 4 1 59 8 7 10 6UGATE BOOTTD PWMGNDPHASEENNCVCCLGATE PAD(GND)Functional Pin DescriptionsPIN #SYMBOL DESCRIPTION1UGATE Upper gate drive output. Connect to gate of high-side power N-Channel MOSFET.2BOOT Floating bootstrap supply pin for the upper gate drive. Connect the bootstrap capacitor between this pin and thePHASE pin. The bootstrap capacitor provides the charge to turn on the upper MOSFET. See “Internal BootstrapDevice” on page7 for guidance in choosing the capacitor value.3TD Deadtime programming pin. Connect to ground or VCC via resistor to program fixed time delay from LGATE fall toUGATE rise or UGATE fall to LGATE rise. Open pin sets the adaptive mode. See Table 1 for more details.4PWM Control input for the driver. The PWM signal can enter three distinct states during operation;see “Advanced PWMProtocol (Patent Pending)” on page6 for further details. Connect this pin to the PWM output of the controller.5GND Bias and reference ground. All signals are referenced to this node. It is also the power ground return of thedriver.6LGATE Lower gate drive output. Connect to gate of the low-side power N-Channel MOSFET.7VCC Connect to 5V bias supply. This pin supplies power to the gate drives and small-signal circuitry. Place a highquality low ESR ceramic capacitor from this pin to GND.8NC No connection.9EN Enable input pin. Connect this pin high to enable the driver and low to disable the driver.-PAD EPAD at ground potential. Soldering it directly to GND plane is required for thermal considerations. Ordering InformationPART NUMBER (Notes 1, 2, 3)PARTMARKINGTEMP. RANGE(°C)PACKAGE(Pb-Free)PKG.DWG. #ISL6627CRZ66270 to +7010 Ld 3x3 DFN L10.3X3ISL6627IRZ627I-40 to +8510 Ld 3x3 DFN L10.3X3NOTES:1.Add “-T*” suffix for tape and reel. Please refer to TB347 for details on reel specifications.2.These Intersil Pb-free plastic packaged products employ special Pb-free material sets, molding compounds/die attach materials, and 100% mattetin plate plus anneal (e3 termination finish, which is RoHS compliant and compatible with both SnPb and Pb-free soldering operations). Intersil Pb-free products are MSL classified at Pb-free peak reflow temperatures that meet or exceed the Pb-free requirements of IPC/JEDEC J STD-020.3.For Moisture Sensitivity Level (MSL), please see device information page for ISL6627. For more information on MSL please see techbrief TB363.Absolute Maximum Ratings Thermal InformationSupply Voltage (VCC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to 7V Input Voltage (V EN, V PWM). . . . . . . . . . . . . . . . . . . . . . . -0.3V to VCC + 0.3V BOOT Voltage (V BOOT-GND) . . . . . . . . . .-0.3V to 25V (DC) or 36V (<200ns) BOOT to PHASE Voltage (V BOOT-PHASE). . . . . . . . . . . . . . . .-0.3V to 7V (DC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.3V to 9V (<10ns) PHASE Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .GND - 0.3V to 25V (DC) . . . . . . . . . . . . . . . GND -8V (<20ns Pulse Width, 10μJ) to 30V (<100ns) UGATE Voltage. . . . . . . . . . . . . . . . . . . . . . . . . . V PHASE - 0.3V (DC) to V BOOT . . . . . . . . . . . . . . . . . . .V PHASE - 5V (<20ns Pulse Width, 10μJ) to V BOOT LGATE Voltage. . . . . . . . . . . . . . . . . . . . . . . . .GND - 0.3V (DC) to VCC + 0.3V . . . . . . . . . . . . . . . . GND - 2.5V (<20ns Pulse Width, 5μJ) to VCC + 0.3V Ambient Temperature Range . . . . . . . . . . . . . . . . . . . . . . .-40°C to +125°C ESD RatingHuman Body Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.5kV Charged Device Model. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1kV Latch Up (Tested per JESD78C; Class II, Level A). . . . . . . . . . . . . . . 100mA Thermal ResistanceθJA (°C/W)θJC (°C/W) 10 Ld 3x3 DFN Package (Notes 4, 5). . . . . 5110 Maximum Junction Temperature (Plastic Package) . . . . . . . . . . . .+150°C Maximum Storage Temperature Range . . . . . . . . . . . . . .-65°C to +150°C Pb-Free Reflow Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . see link below /pbfree/Pb-FreeReflow.asp Recommended Operating ConditionsAmbient Temperature Range(ISL6627IRZ) . . . . . . . . . . . .-40°C to +85°C Ambient Temperature Range (ISL6627CRZ) . . . . . . . . . . . ..0°C to +70°C Maximum Operating Junction Temperature. . . . . . . . . . . . . . . . . . +125°C Supply Voltage, VCC. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5V ±10%CAUTION: Do not operate at or near the maximum ratings listed for extended periods of time. Exposure to such conditions may adversely impact product reliability and result in failures not covered by warranty.NOTES:4.θJA is measured in free air with the component mounted on a high effective thermal conductivity test board with “direct attach” features. See TechBrief TB379.5.For θJC, the “case temp” location is the center of the exposed metal pad on the package underside.Electrical Specifications Recommended Operating Conditions, Unless Otherwise Noted. Boldface limits apply over the operating temperature range.PARAMETER SYMBOL TEST CONDITIONSMIN(Note 7)TYPMAX(Note 7)UNITSVCC SUPPLY CURRENTNo Load Switching Supply Current IVCC f_PWM = 300kHz, VCC = 5V, EN = High 1.27mA Standby Supply Current IVCC VCC = 5V, PWM 0V to 2.5V transition, EN = High 1.85mAVCC = 5V, PWM 0V to 2.5V transition, EN = Low 1.15mA POWER-ON RESET AND ENABLEVCC Rising POR Threshold 3.20 3.85 4.40V VCC Falling POR Threshold 3.00 3.52 4.00V VCC POR Hysteresis130300530mV EN High Threshold 1.40 1.65 1.90V EN Low Threshold 1.20 1.35 1.55V PWM INPUT (See “TIMING DIAGRAM” on page6)Input Current IPWM VPWM = 5V155µAVPWM = 0V-133µA Three-State Lower Gate Falling Threshold VCC = 5V 1.6V Three-State Lower Gate Rising Threshold VCC = 5V 1.1V Three-State Upper Gate Rising Threshold VCC = 5V 3.2V Three-state Upper Gate Falling Threshold VCC = 5V 2.8V UGATE Rise Time (Note 6)t_RU VCC = 5V, 3nF load, 10% to 90%8ns LGATE Rise Time (Note 6)t_RL VCC = 5V, 3nF load, 10% to 90%8ns UGATE Fall Time (Note 6)t_FU VCC = 5V, 3nF load, 10% to 90%8ns LGATE Fall Time (Note 6)t FL VCC = 5V, 3nF load, 10% to 90%4ns UGATE Turn-On Propagation Delay (Note 6)t PDHU VCC = 5V, 3nF load, adaptive28ns LGATE Turn-On Propagation Delay (Note 6)t PDHL VCC = 5V, 3nF load, adaptive16ns UGATE Turn-Off Propagation Delay (Note 6)t PDLU VCC = 5V, 3nF load15nsLGATE Turn-Off Propagation Delay (Note 6)t PDLL VCC = 5V, 3nF load14ns Minimum LGATE on Time at Diode Emulationt LG_ON_DM VCC = 5V230330450nsPROPAGATION DELAY PROGRAMMINGUGATE Fall to LGATE Rise Timet PDUFLRVCC = 5V, 3nF Load, 90% to 10%, short resistor from TD to VCC23ns VCC = 5V, 3nF Load, 90% to 10%, 100k Ω resistor from TD to VCC18ns VCC = 5V, 3nF Load, 90% to 10%, 330k Ω resistor from TD to VCC15ns VCC = 5V, 3nF Load, 90% to 10%, 910k Ω resistor from TD to VCC7ns VCC = 5V, 3nF Load, 90% to 10%, short resistor from TD to GND18ns LGATE Fall to UGATE Rise Timet PDLFURVCC = 5V, 3nF Load, 90% to 10%, short resistor from TD to GND40ns VCC = 5V, 3nF Load, 90% to 10%, 100k Ω resistor from TD to GND25ns VCC = 5V, 3nF Load, 90% to 10%, 360k Ω resistor from TD to GND17ns VCC = 5V, 3nF Load, 90% to 10%, short resistor from TD to VCC27nsOUTPUT (Note 6)Upper Drive Source Current I_U_SOURCE VCC = 5V, 3nF load 2A Upper Drive Source Impedance R_U_SOURCE 20mA source current 1ΩUpper Drive Sink Current I_U_SINK VCC = 5V, 3nF load 2A Upper Drive Sink Impedance R_U_SINK 20mA sink current 1ΩLower Drive Source Current I_L_SOURCE VCC = 5V, 3nF load 2A Lower Drive Source Impedance R_L_SOURCE 20mA source current1ΩLower Drive Sink Current I_L_SINK VCC = 5V, 3nF load 4A Lower Drive Sink Impedance R_L_SINK20mA sink current0.4ΩNOTES:6.Limits established by characterization and are not production tested.7.Parameters with MIN and/or MAX limits are 100% tested at +25°C, unless otherwise specified. Temperature limits established by characterization and are not production tested.Electrical SpecificationsRecommended Operating Conditions, Unless Otherwise Noted. Boldface limits apply over the operatingtemperature range. (Continued)PARAMETERSYMBOL TEST CONDITIONSMIN (Note 7)TYP MAX(Note 7)UNITSOperation and Adaptive Shoot-Through ProtectionDesigned for high speed switching, the ISL6627 MOSFET driver controls both high-side and low-side N-Channel FETs from one externally-provided PWM signal.A rising transition on PWM initiates the turn-off of the lowerMOSFET (see “Timing Diagram”). After a short propagation delay [t PDLL ], the lower gate begins to fall. Typical fall times [t FL ] are provided in the “Electrical Specifications” on page 4. Adaptive shoot-through circuitry monitors the LGATE voltage and turns on the upper gate following a short delay time [t PDHU ] after the LGATE voltage drops below ~1V. The user also has the option to program the propagation delay as described in “Deadtime Programming” on page 6. The upper gate drive then begins to rise [t RU ] and the upper MOSFET turns on.A falling transition on PWM indicates the turn-off of the upper MOSFET and the turn-on of the lower MOSFET. A short propagation delay [t PDLU ] is encountered before the upper gate begins to fall [t FU ]. The adaptive shoot-through circuitry monitors the UGATE-PHASE voltage and turns on the lower MOSFET a short delay time [t PDHL ], after the upper MOSFET’s gate voltage drops below 1V. The lower gate then rises [t RL ], turning on the lower MOSFET. These methods prevent both the lower and upper MOSFETs from conducting simultaneously (shoot-through), while adapting the dead time to the gate charge characteristics of the MOSFETs being used. The user also has the option to program the propagation delay as described in “Deadtime Programming” on page 6. This driver is optimized for voltage regulators with a large step down ratio. The lower MOSFET is usually sized larger compared to the upper MOSFET because the lower MOSFET conducts for a longer time during a switching period. The lower gate driver is therefore sized much larger to meet this application requirement. The 0.4Ω ON-resistance and 4A sink current capability enable the lower gate driver to absorb the charge injected into the lower gate through the drain-to-gate capacitor of the lower MOSFET and help prevent shoot through caused by the self turn-on of the lower MOSFET due to high dV/dt of the switching node.Advanced PWM Protocol (Patent Pending)The advanced PWM protocol of ISL6627 is specifically designed to work with Intersil VR11.1 and VR12 controllers. When ISL6627 detects a PSI# protocol sent by an IntersilVR11.1/VR12 controller, it turns on diode emulation operation; otherwise, it remains in normal CCM PWM mode.Note that for a PWM low to tri-level (2.5V) transition, the LGATE will not turn off until the its diode emulation minimum ON-time of 330ns (typically) passes.Diode EmulationDiode emulation allows for higher converter efficiency under light-load situations. With diode emulation active, the ISL6627 detects the zero current crossing of the output inductor and turns off LGATE, preventing the low side MOSFET from sinking current and ensuring discontinuous conduction mode (DCM) is achieved. In DCM mode, LGATE has a minimum ON-time of 330ns (typically).Deadtime ProgrammingThe part provides the user with the option to program either of the two gate propagation delays (as defined in Figure 3) in order to optimize the deadtime and maximize the efficiency of the circuit. Tying the TD pin to either GND or VCC through a specified-value resistor leads the driver to operate in fixed gate propagation delay mode. Leaving the TD pin floating results in the driver operating in adaptive deadtime mode. Refer to Table 1 for typicalprogramming resistor value options. Propagation delay has a typical tolerance of 30%. As actual deadtime depends on FET switching transition characteristics, while operating in fixed propagation delay mode, the user needs to monitor the gate transitions under worst-case operating conditions and useappropriate design margin to prevent eventual shoot-through due to insufficient dead time.FIGURE 2.TIMING DIAGRAMPWMUGATELGATEt FLt PDHU t PDLLt RLt TSSHDt PDTSt PDTS1.6V<PWM<3.2V1.1V<PWM<2.8Vt FUt RUt PDLUt PDHLt UG_OFF_DBt PDLFURt PDUFLRPower-On Reset (POR) FunctionVCC voltage level is monitored at all times. Once the VCC voltageexceeds 3.85V (typically), operation of the driver is enabled and the PWM input signal takes control of the gate drivers. If VCC drops below the falling threshold of 3.52V (typically), operation of the driver is disabled.Internal Bootstrap DeviceISL6627 features an internal bootstrap schottky diode. Simply adding an external capacitor across the BOOT and PHASE pins completes the bootstrap circuit. The bootstrap function is also designed to prevent the bootstrap capacitor from overcharging due to the large negative swing at the trailing-edge of the PHASE node excursion. This reduces the potential for overstressing the upper driver.The bootstrap capacitor must have a voltage rating above the maximum VCC voltage. Its capacitance value can be estimated from Equation 1:where Q G1 is the amount of gate charge per upper MOSFET at V GS1 gate-source voltage and N Q1 is the number of control (upper) MOSFETs. The ΔV BOOT_CAP term is defined as theallowable droop in the rail of the upper gate drive. Select results are exemplified in Figure 4.Power DissipationPackage power dissipation is mainly a function of the switching frequency (F SW ), the output drive impedance, the layoutresistance, the selected MOSFET’s internal gate resistance and its total gate charge (Q G ). Calculating the power dissipation in the driver for a desired application is critical to ensure safe operation. Exceeding the maximum allowable power dissipation level may push the IC beyond the maximum recommended operatingjunction temperature. The DFN package is more suitable for high frequency applications. See “Layout Considerations” on page 8 for thermal impedance improvement suggestions. The total driver power loss, essentially MOSFETs’ gate charge and driver internal circuitry losses, can be estimated using Equations 2 and 3, respectively.where the gate charge (Q G1 and Q G2) is defined at a particular gate to source voltage (V GS1 and V GS2) in the corresponding MOSFET datasheet; I Q is the driver’s total quiescent current with no load at both drive outputs; N Q1 and N Q2 are number of upper and lower MOSFETs, respectively; UVCC and LVCC are the drive voltages for both upper and lower FETs, respectively. The I Q*VCC product is the bias power of the driver without a load.TABLE 1.TYPICAL DELAY PROGRAMMING RESISTOR VALUE RESISTOR FROM TD TO VCC(k Ω)RESISTOR FROMTD TO GND (k Ω)LG FALL TO UG RISE DELAY (ns)UG FALL TO LG RISE DELAY (ns)short -2723100-2718330-2715910-277-Short 4018-1002518-3601718FloatingFloatingAdaptiveAdaptiveFIGURE 3.PROGRAMMABLE PROPAGATION DELAYILLUSTRATION C BOOT_CAP Q GATEΔV BOOT_CAP ---------------------------------≥Q GATE Q G1VCC•V GS1---------------------------N Q1•=(EQ. 1)50nC20nCFIGURE 4.BOOTSTRAP CAPACITANCE vs BOOT RIPPLEVOLTAGEΔV BOOT_CAP (V)C B O O T _C A P (µF )1.61.41.21.0.80.60.40.20.00.30.00.10.20.40.50.60.90.70.81.0Q GATE = 100nCP Qg_TOT P Qg_Q1P Qg_Q2I Q VCC •++=(EQ. 2)P Qg_Q1Q G1UVCC 2•V GS1----------------------------------F SW •N Q1•=P Qg_Q2Q G2LVCC 2•V GS2----------------------------------F SW •N Q2•=I DR Q G1UVCC N Q1••V GS1------------------------------------------------Q G2LVCC N Q2••V GS2-----------------------------------------------+⎝⎠⎜⎟⎛⎞F SW I Q +•=(EQ. 3)The total gate drive power losses are dissipated among the resistive components along the transition path, as outlined in Equation 4. The drive resistance dissipates a portion of the total gate drive power losses, the rest will be dissipated by the external gate resistors (R G1 and R G2) and the internal gate resistors (R GI1 and R GI2) of MOSFETs. Figures 5 and 6 show the typical upper and lower gate drives turn-on current paths.Application InformationMOSFET and Driver SelectionThe parasitic inductances of the PCB and of the power devices’packaging (both upper and lower MOSFETs) can cause serious ringing, exceeding absolute maximum rating of the devices. The negative ringing at the edges of the PHASE node could increase the bootstrap capacitor voltage through the internal bootstrap diode, and in some cases, it may overstress the upper MOSFET driver. Careful layout, proper selection of MOSFETs andpackaging, as well as the driver can minimize such unwanted stress.Layout ConsiderationsA good layout helps reduce the ringing on the switching (PHASE) node and significantly lower the stress applied to the MOSFETs as well as the driver. The following advice is meant to lead to an optimized layout:•Keep decoupling circuit loops (VCC-GND and BOOT-PHASE) as short as possible.•Minimize trace inductance, especially on low-impedance lines. All power traces (UGATE, PHASE, LGATE, GND, VCC) should be short and wide, as much as possible. •Minimize the inductance of the PHASE node. Ideally, thesource of the upper and the drain of the lower MOSFET should be as close as thermally allowable.•Minimize the current loop of the output and input power trains. Short the source connection of the lower MOSFET to ground as close to the transistor pin as feasible. Input capacitors(especially ceramic decoupling) should be placed as close to the drain of upper and source of lower MOSFETs as possible.In addition, connecting the thermal pad of the DFN package to the power ground through one or several vias is recommended for high switching frequency, high current applications. This is to improve heat dissipation and allow the part to achieve its full thermal potential.Upper MOSFET Self Turn-On Effects at StartupShould the driver have insufficient bias voltage applied, itsoutputs are floating. If the input bus is energized at a high dV/dt rate while the driver outputs are floating, due to self-coupling via the internal C GD of the MOSFET, the gate of the upper MOSFET could momentarily rise up to a level greater than the threshold voltage of the device, potentially turning on the upper switch. Therefore, if such a situation could conceivably be encountered, it is a common practice to place a resistor (R UGPH ) across the gate and source of the upper MOSFET to suppress the Miller coupling effect. The value of the resistor depends mainly on the input voltage’s rate of rise, the C GD /C GS ratio, as well as the gate-source threshold of the upper MOSFET. A higher dV/dt, a lower C GD /C GS ratio, and a lower gate-source threshold upper FET will require a smaller resistor to diminish the effect of the internal capacitive coupling. For most applications, theintegrated 20k Ω resistor is sufficient, not measurably affecting normal performance and efficiency.The coupling effect can be roughly estimated with Equation 5, which assumes a fixed linear input ramp and neglects the clamping effect of the body diode of the upper drive and the bootstrap capacitor. Other parasitic components, such as lead inductances and PCB capacitances are also not taken into account. Figure 7 provides a visual reference for this phenomenon and its potential solution.FIGURE 5.TYPICAL UPPER-GATE DRIVE TURN-ON PATHFIGURE 6.TYPICAL LOWER-GATE DRIVE TURN-ON PATHP DR P DR_UP P DR_LOW I Q VCC•++=(EQ. 4)P DR_UP R HI1R HI1R EXT1+-----------------------------------R LO1R LO1R EXT1+------------------------------------+⎝⎠⎜⎟⎛⎞P Qg_Q12-------------------•=P DR_LOW R HI2R HI2R EXT2+-----------------------------------R LO2R LO2R EXT2+------------------------------------+⎝⎠⎜⎟⎛⎞P Qg_Q22-------------------•=R EXT1R G1R GI1NQ1------------+=R EXT2R G2R GI2NQ2------------+=Q1DSG R GI1R G1BOOTR HI1C DSC GSC GDR LO1PHASEVCCVCCQ2DSG R GI2R G2R HI2C DSC GSC GDR LO2V GS_MILLER dV dt------R C rss 1e V–DS dV dt------R C ⋅iss ⋅-------------------------------–⎝⎠⎜⎟⎜⎟⎜⎟⎜⎟⎛⎞⋅⋅=R R UGPH R GI+=C rss C GD=C iss C GD C GS+=(EQ. 5)General PowerPAD Design ConsiderationsFigure 8 shows the recommended use of vias on the thermal pad to remove heat from the IC. This typical array populates the thermal pad footprint with vias spaced three times the radius distance from the center of each via. Small via size is advisable, but not to the extent that solder reflow becomes difficult. All vias should be connected to the pad potential, with low thermal resistance for efficient heat transfer. Completeconnection of the plated-through hole to each plane is important. It is not recommended to use “thermal relief” patterns to connect the vias.FIGURE 7.GATE TO SOURCE RESISTOR TO REDUCE UPPERMOSFET MILLER COUPLINGVIN QUPPERDSG R GIR U G P HBOOTDUC DSC GSC GDDLPHASEVCCI S L 6627C BOOTUGATEFIGURE 8.PCB VIA PATTERNRevision HistoryThe revision history provided is for informational purposes only and is believed to be accurate, but not warranted. Please go to web to make sure you have the latest Rev.DATE REVISION CHANGE9/22/11FN6992.0Initial release.ProductsIntersil Corporation is a leader in the design and manufacture of high-performance analog semiconductors. The Company's products address some of the industry's fastest growing markets, such as, flat panel displays, cell phones, handheld products, and notebooks. Intersil's product families address power management and analog signal processing functions. Go to /products for a complete list of Intersil product families.For a complete listing of Applications, Related Documentation and Related Parts, please see the respective device information page on : ISL6627To report errors or suggestions for this datasheet, please go to: /askourstaffFITs are available from our website at: /reports/searFor additional products, see /product_treeIntersil products are manufactured, assembled and tested utilizing ISO9000 quality systems as notedin the quality certifications found at /design/qualityIntersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries.For information regarding Intersil Corporation and its products, see ISL662711FN6992.0September 22, 2011Package Outline DrawingL10.3x310 LEAD DUAL FLAT PACKAGE (DFN) Rev 6, 09/09located within the zone indicated. The pin #1 identifier may be Unless otherwise specified, tolerance : Decimal ± 0.05Tiebar shown (if present) is a non-functional feature.The configuration of the pin #1 identifier is optional, but must be between 0.18mm and 0.30mm from the terminal tip.Lead width applies to the metallized terminal and is measured Dimensions in ( ) for Reference Only.Dimensioning and tolerancing conform to AMSE Y14.5m-1994.6.either a mold or mark feature.3.5.4.2.Dimensions are in millimeters.1.NOTES:DETAIL "X"TYPICAL RECOMMENDED LAND PATTERNTOP VIEW芯天下--/。