NCP5185
NCP5181中文资料
NCP5181High Voltage High and Low Side DriverThe NCP5181 is a High V oltage Power MOSFET Driver providing two outputs for direct drive of 2 N−channel power MOSFETs arranged in a half−bridge (or any other high−side + low−side) configuration. It uses the bootstrap technique to insure a proper drive of the High−side power switch. The driver works with 2 independent inputs to accommodate any topology (including half−bridge, asymmetrical half−bridge, active clamp and full−bridge…).Features•High V oltage Range: up to 600 V•dV/dt Immunity ±50 V/nsec•Gate Drive Supply Range from 10 V to 20 V•High and Low DRV Outputs•Output Source / Sink Current Capability 1.1 A / 2.4 A•3.3 V and 5 V Input Logic Compatible•Up to V CC Swing on Input Pins•Matched Propagation Delays between Both Channels •Outputs in Phase with the Inputs•Independent Logic Inputs to Accommodate All Topologies •Under V CC LockOut (UVLO) for Both Channels•Pin to Pin Compatible with IR2181(S)•These are Pb−Free DevicesApplications•High Power Energy Management•Half−bridge Power Converters•Any Complementary Drive Converters (asymmetrical half−bridge, active clamp)•Full−bridge Converters•Bridge Inverters for UPS SystemsPIN ASSIGNMENTPINFUNCTIONIN_HI Logic Input for High Side Driver Output In Phase IN_LO Logic Input for Low Side Driver Output In Phase GND GroundDRV_LO Low Side Gate Drive OutputV CC Low Side and Main Power SupplyVBOOT Bootstrap Power SupplyDRV_HI High Side Gate Drive OutputBRIDGE Bootstrap Return or High Side Floating Supply ReturnMARKING DIAGRAMSPDIP−8P SUFFIXCASE 626Device Package Shipping†ORDERING INFORMATIONNCP5181P,5181= Specific Device CodeA= Assembly LocationL= Wafer LotY, YY= YearW, WW= Work WeekG, G= Pb−Free PackageNCP5181PAWLYYWWGSOIC−8D SUFFIXCASE 751NCP5181PG PDIP−8(Pb−Free)50 Units/TubeNCP5181DR2G SOIC−8(Pb−Free)2.500/Tape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specification Brochure, BRD8011/D.IN_HIIN_LOGNDDRV_LOV BOOTDRV_HIBRIDGEV CCFigure 1. Typical ApplicationFigure 2. Detailed Block DiagramMAXIMUM RATINGSRating Symbol Value Unit Main power supply voltage V CC−0.3 to 20V VHV: High Voltage BRIDGE pin V BRIDGE−1 to 600V VHV: Floating supply voltage V BOOT − V BRIDGE0 to 20V VHV: High side output voltage V DRV_HI V BRIDGE−0.3 to V BOOT+0.3V Low side output voltage V DRV_LO−0.3 to V CC+0.3V Allowable output slew rate dV BRIDGE/d t50V/ns Inputs IN_HI, IN_LO V IN_XX−1.0 to V CC+0.3V ESD Capability:HBM model (all pins except pins 6−7−8) Machine model (all pins except pins 6−7−8)2.0200kVVLatch up capability per Jedec JESD78 Power dissipation and thermal characteristicsPDIP8: Thermal resistance, Junction−to−Air SO−8: Thermal resistance, Junction−to−Air R q JAR q JA100178°C/WOperating junction temperature T J_minT J_max−55+150°CMaximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied, damage may occur and reliability may be affected.ELECTRICAL CHARACTERISTICS (V CC = V boot = 15 V, V gnd = V bridge, −40°C < T A< 125°C, Outputs loaded with 1 nF)Rating Symbol T A −40°C to 125°C Units OUTPUT SECTIONMin Typ MaxI DRVhigh− 1.4−A Output high short circuit pulsed currentV DRV= 0 V, PW ≤ 10 m s, (Note 1)I DRVlow− 2.2−A Output low short circuit pulsed currentV DRV= V CC, PW ≤ 10 m s, (Note 1)R OH−512W Output resistor (Typical value @ 25°C only)SourceOutput resistor (Typical value @ 25°C only)R OL−28W SinkDYNAMIC OUTPUT SECTIONRating Symbol Min Typ Max Units Turn−on propagation delay (V bridge = 0 V)t ON−100170ns Turn−off propagation delay (V bridge = 0 V or 50 V) (Note 2)t OFF−100170nst r−4060ns Output voltage rise time(from 10% to 90% @ V CC = 15 V) with 1 nF loadt f−2040ns Output voltage falling edge(from 90% to 10% @ V CC = 15 V) with 1 nF loadD t−2035ns Propagation delay matching between the High side and the Low side@ 25°C (Note 3)Minimum input pulse width that changes the output t PW−−100ns INPUT SECTIONLow level input voltage threshold V IN−−0.8V Input pull−down resistor (V IN < 0.5 V)R IN−200−k W High level input voltage threshold V IN 2.3−−V SUPPLY SECTIONV CC UV Start−up voltage threshold V CC_stup7.98.99.8V V CC UV Shut−down voltage threshold V CC_shtdwn7.38.29.0V Hysteresis on V CC V CC_hyst0.30.7−V V boot Start−up voltage threshold reference to bridge pinV boot_stup7.98.99.8V (V boot_stup = V boot − V bridge)V boot UV Shut−down voltage threshold V boot_shtdwn7.38.29.0V Hysteresis on V boot V boot_shtdwn0.30.7−VI HV_LEAK−0.540m A Leakage current on high voltage pins to GND(V BOOT= V BRIDGE= DRV_HI = 600 V)I CC1− 4.5 6.5mA Consumption in active mode(V CC= V boot, f sw= 100 kHz and 1 nF load on both driver outputs)Consumption in inhibition mode (V CC= V boot)I CC2−250400m A V CC current consumption in inhibition mode I CC3−215−m A V boot current consumption in inhibition mode I CC4−35−m A *Note: see also characterization curves1.Guaranteed by design.2.Turn−off propagation delay @ V bridge = 600 V is guaranteed by design3.See characterization curve for D t parameters variation on the full range temperature.4.Timing diagram definition see Figures 4, 5 and 6.IN_HI IN_LODRV_HI DRV_LOIN_HI 50%90%90%10%10%IN_LODRV_HI DRV_LO50%Figure 3. Input/Output Timing DiagramFigure 4. Switching Time Waveform Definitions50%90%10%50%90%10%DRV_HIDRV_LOIN_LO IN_HIDelta_t Delta_tFigure 5. Delay Matching Waveforms Definition50%90%10%50%90%10%DRV_HIDRV_LOIN_LO IN_HIDelta_tDelta_t&Figure 6. Other Delay Matching Waveforms Definitiont ont rt offt ft ont off t ont off t on_HIt on_LOt on_LOt off_HITYPICAL CHARACTERISTICS020406080100120160020406080100160180Figure 11. High Side Turn−on PropagationDelay vs. V BRIDGE Voltage Figure 12. High Side Turn−off PropagationDelay vs. V BRIDGE VoltageBRIDGE PIN VOLTAGE (V)BRIDGE PIN VOLTAGE (V)507090*********T o n P R O P A G A T I O N D E L A Y (n s )120140T o f f P R O P A G A T I O N D E L A Y (n s )T o n P R O P A G A T I O N D E L A Y (n s )TYPICAL CHARACTERISTICS05.0101520253040Figure 15. Turn−off Fall Time vs. TemperatureFigure 16. Turn−off Fall Time vs. V CC Voltage(V CC = V boot )TEMPERATURE (°C)SUPPLY VOLTAGE; V CC = V boot (V)05.010********Figure 17. Propagation Delay Matching Between High Side and Low Side Driver35T U R N −O N R I S E T I M E (n s )T U R N −O F F F A L L T I M E (n s )TEMPERATURE (°C)10080604020−20−400510152025304012035P R O P A G A T I O N D E L A Y M A T C H I N G (n s )TYPICAL CHARACTERISTICSFigure 18. Low Level Input Voltage Thresholdvs. TemperatureFigure 19. Low Level Input Voltage Thresholdvs. V CC VoltageTEMPERATURE (°C)SUPPLY VOLTAGE; V CC = V boot (V)00.20.61.01.420181614121000.20.41.01.4L O W L E V E L I N P U T V O L T A G E T H R E S H O L D (V )L O W L E V E L I N P U T V O L T A G E T H R E S H O L D (V )10080604020−20−401200.40.81.20.60.81.2Figure 20. High Level Input Voltage Thresholdvs. TemperatureFigure 21. High Level Input Voltage Thresholdvs. V CC VoltageTEMPERATURE (°C)SUPPLY VOLTAGE; V CC = V boot (V)100806040200−20−4000.51.01.52.520181********0.51.01.52.02.5Figure 22. Leakage Current on High Voltage Pins (600 V) to Ground vs. TemperatureFigure 23. Leakage Current on High VoltagePins to Ground vs. V bridge Voltage(V bridge = V boot = V DRV_HI )TEMPERATURE (°C)BRIDGE PIN VOLTAGE (V)100806040200−20−4000.51.01.52.53.04.060040030020010000.050.100.150.200.250.401202.0120L E A K A G E C U R R E N T T O G N D (m A )H I G H S I D E L E A K A G E C U R R E N T T O G N D (m A )0.300.35H I G H L E V E L I N P U T V O L T A G E T H R E S H O L D (V )H I G H L E V E L I N P U T V O L T A G E T H R E S H O L D (V )2.03.5500TYPICAL CHARACTERISTICSFigure 24. High Side Supply Current vs.TemperatureFigure 25. High Side Supply Current vs.Bootstrap Supply VoltageTEMPERATURE (°C)BOOTSTRAP SUPPLY VOLTAGE (V)040100201816141210020100B O O T S T R A P S U P P L YC U R R E N T (m A )B O O T S T R A P S U P P L YC U R R E N T (m A )100806040200−20−40120206080406080Figure 26. V CC Supply Current vs.TemperatureFigure 27. V CC Supply Current vs. V CC SupplyVoltageTEMPERATURE (°C)V CC , SUPPLY VOLTAGE (V)100806040200−20−401002003004005002018161412100100200300400500Figure 28. UVLO Start Up Voltage vs.Temperature Figure 29. UVLO Shut Down Voltage vs.Bootstrap Supply VoltageTEMPERATURE (°C)TEMPERATURE (°C)10120V C C S U P P L Y C U R R E N T (m A )V C C S U P P L Y C U R R E N T (m A )U V L O S T A R T U P V O L T A G E t h (V )U V L O S H U T D O W N V O L T A G E t h (V )TYPICAL CHARACTERISTICSFigure 30. ICC1 Consumption vs. Switching Frequency with 15 nC Load on Each DriverFigure 31. ICC1 Consumption vs. Switching Frequency with 33 nC Load on Each DriverSWITCHING FREQUENCY (kHz)SWITCHING FREQUENCY (kHz)05.0152535010204060I C C + I b o o t C U R R E N T S U P P L Y (m A )I C C + I b o o t C U R R E N T S U P P L Y (m A )1020303050Figure 32. ICC1 Consumption vs. Switching Frequency with 50 nC Load on Each Driver Figure 33. ICC1 Consumption vs. Switching Frequency with 100 nC Load on Each DriverSWITCHING FREQUENCY (kHz)SWITCHING FREQUENCY (kHz)01020304050608070I C C + I b o o t C U R R E N T S U P P L Y (m A )11PACKAGE DIMENSIONSSOIC−8 NB CASE 751−07NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: MILLIMETER.3.DIMENSION A AND B DO NOT INCLUDE MOLD PROTRUSION.4.MAXIMUM MOLD PROTRUSION 0.15 (0.006)PER SIDE.5.DIMENSION D DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBARPROTRUSION SHALL BE 0.127 (0.005) TOTAL IN EXCESS OF THE D DIMENSION AT MAXIMUM MATERIAL CONDITION.6.751−01 THRU 751−06 ARE OBSOLETE. NEWSTANDARD IS 751−07.DIM A MIN MAX MIN MAX INCHES4.805.000.1890.197MILLIMETERS B 3.80 4.000.1500.157C 1.35 1.750.0530.069D 0.330.510.0130.020G 1.27 BSC 0.050 BSC H 0.100.250.0040.010J 0.190.250.0070.010K 0.40 1.270.0160.050M 0 8 0 8 N 0.250.500.0100.020S5.806.200.2280.244YM0.25 (0.010)Z SXS____ǒmm inchesǓSCALE 6:1*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*PACKAGE DIMENSIONS8 LEAD PDIP CASE 626−05NOTES:1.DIMENSION L TO CENTER OF LEAD WHEN FORMED PARALLEL.2.PACKAGE CONTOUR OPTIONAL (ROUND OR SQUARE CORNERS).3.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.DIM MIN MAX MIN MAX INCHESMILLIMETERS A 9.4010.160.3700.400B 6.10 6.600.2400.260C 3.94 4.450.1550.175D 0.380.510.0150.020F 1.02 1.780.0400.070G 2.54 BSC 0.100 BSC H 0.76 1.270.0300.050J 0.200.300.0080.012K 2.92 3.430.1150.135L 7.62 BSC 0.300 BSC M −−−10 −−−10 N0.76 1.010.0300.040__ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATIONThe product described herein (NCP5181), is covered by U.S. patent: 6,362, 067. There may be some other patent pending.。
ABB继电器选型资料
选型手册
Product Catalog
目
录
发布:2005.09.12 状态:新稿 版本:A/2005.09.12 本公司保留数据修改权利·恕不另行通知
1
5
三 端子接线图
*) 功率方向 **) 典型接线 6
外部 跳闸 外部 合闸
隔离开关 Q1 合 隔离开关 Q1 分
隔离开关 Q2 合 隔离开关 Q2 分 隔离开关 Q3 合 隔离开关 Q3 分
REF 542plus 开关柜保护和测控装置
一概述
在中压开关柜的无论有无后台系统各种应用场合中,均能 使用数字式控制技术的解决方案。开关柜保护和测控装置 REF 542plus 就如同它的前一代产品 REF 542,集成了测 量、监视、保护、控制和自检等功能,同时拥有完善的通 讯规约,REF 542plus 能够方便地集成到 ABB 或其他第三 方后台系统中。上述功能和其他一些电能质量检测功能都 基于可编程环境中,新一代装置特别的灵活性和可扩展性 使得一个装置可实现所有的二次方案,甚至传统的方法无 法实现的方案,它都很容易实现。
开关量输入和输出接点数量
输入/输出接点数量 开关量输入接点 跳闸回路监视输出接点
REF 541 15 2
REF 543 25 2
REF 545 34 2
大容量输出接点(NO 单极)
0
大容量输出接点(NO 双极)
5
信号输出接点(NO)
2
2
3
9
11
2
4
信号输出接点(NO/NC)
5
海螺型材米重表
序号 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021 022 023 024 025 026 027 028 029 030 031 032 033 034 035 036 037 038 039 040 041 042 043 044 045 046 047 048 049 050 051 052 053 054 055 056 057 058 059 060 061 062 063 064 系列 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 名称 60窗框 60门框 60压桥 60内开门扇 60内开扇(传) 60内开扇(传) 60门板压条 60双压条 60双压条 60单压条 60单压条 60Z字梃 60百页片 60纱窗 60百页横压条 60百页竖压条 60中梃 60外开门扇 60扇(传) 60假中梃 60扇 80收口 80收口(纱窗) 80转角(135度) 80拼条 80小拼管 80拼条 80拼条 80拼管 80拼条 80转角 80固定框 80一体框 80单压条 80双压条 80框 80封边 80封边 80纱窗 80扇中梃 80王字框 80扇 80扇(传) 80中梃 88圆转角 88收口 88小拼管 88拼条 88拼条 88拼管 88转角 88转角 88固定框 88双压条 88单压条 88框(斜边) 88框 88封边 88纱窗 88扇 88扇中梃 88中梃 88转角(135) 88圆管 代号 BR58NC BR74NC FL36NC FR104NC FR71-1NC FR71NC GB10NC GB15NC GB19NC GB31NC GB34NC KP72NC LP61NC MF45NC RP18NC RP45NC SE72NC SF104NC SF78NC ST61NC UP72NC CI37NC CI7NC CP135NC CP20-6NC CP20NC CP2-LNC CP2NC CP38NC CP6-LNC CP80NC FB44-1NC FB80-1NC GB20NC GB8NC HF80NC IL31NC IL36-37NC MF52NC SE62NC SE70NC SF55NC SF66-37NC SP60-1NC ADA88NC CI42NC CP24NC CP2-88NC CP28NC CP48NC CP88-LNC CP88NC FB51NC GB10NC GB25NC HF88NC HF88-LNC IL32NC MF41NC SF57NC SP66NC SP67NC TC88NC TP75NC 米重 1.094 1.252 0.85 1.568 1.155 1.123 0.143 0.156 0.197 0.258 0.276 1.157 0.234 0.507 0.398 0.331 1.135 1.568 1.296 0.98 1.165 0.309 0.197 1.041 0.308 0.229 0.176 0.112 0.82 0.336 1.051 0.871 0.659 0.186 0.126 1.198 0.201 0.219 0.492 0.655 1.528 0.736 0.876 0.89 0.743 0.388 0.88 0.18 0.318 0.88 1.13 0.96 0.954 0.143 0.223 1.295 1.295 0.22 0.413 0.794 0.854 1 1.01 0.781 衬钢代号 STU28*21.5 ST35*35 STU35*53 STC30*22 STC41*20.5 1.2衬钢 0.75 1.33 0.65 1.5衬钢 0.938 0.000 1.663 0.000 0.813 备注
派克液压密封件说明书
派克汉尼汾公司版权所有未经许可不能摘录,翻印。
保留修改权利2021年6月警告销售条件本样本中产品和/或系统或相关产品出现故障,选型不当或使用不当,均可能导致人身伤亡和财产损失。
本文档以及由派克·汉尼汾公司及其子公司和授权经销商提供的其他资料,为具有技术知识的用户提供进一步研究所需的产品和/或系统选项。
重要的是,用户必须对您的应用进行全面的分析,并对当前产品样本中与产品或系统相关的资料进行评估。
由于工作条件以及产品或系统的多样性,用户必须自行分析和测试,并独自承担一切后果,包括:产品和系统的最终选型以及确保满足应用的所有性能、安全和警告等方面的要求。
派克·汉尼汾及其子公司可能会随时对本样本中的产品,包括但不限于:产品的特性、产品的规格、产品的结构、产品的有效性以及产品的价格作出变更而不另行通知.本样本中的所有产品均由派克·汉尼汾公司及其子公司和援权经销商销售。
与派克签订的任何销售合同均按照派克标准条件和销售条件中规定的条款执行(提供复印件备索)。
本公司的密封件,只能在本公司的文件资料述及的应用参数范围与接触介质、压力、温度和存放时间相一致的情况下才能使用。
在规定的应用参数范围外使用以及错误选用不同的材料都可能导致密封件寿命的缩短以及设备的损坏,甚至更严重的后果(如生命安全,环境污染等)。
样本中所列出的工作压力、温度范围、运动速度是极限值,它们之间相互关联、相互影响;在极端的工况下,建议不要同时把各个参数都同时用到极限值。
对于特殊的要求(压力、温度、速度、介质等),请联系派克汉尼汾公司以咨询合适的密封结构、材料、配置、安装建议等。
由于诸多工作参数会影响到流体传动系统及密封元件,这些设备的制造商必须在实际工作条件下测试、验证并批准密封系统的功能与可靠性。
此外,对于不断出现的新的介质(液压油、润滑脂、清洗剂等),用户特别注意它们与目前所用的密封件弹性体材料的兼容性。
我们建议用户在大批量应用之前,在厂内或现场先做密封材料的兼容性能测试,作为密封产品与系统供应商,我们建议用户遵循我们的这些建议。
TI型号大全35-迈锐国际
TI型号⼤全35-迈锐国际ADC0820CCWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC082S021CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S021CIMMX/NOPB VSSOP-83500EAR99TI迈锐国际胡浩亮137********ADC082S051CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S101CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S101CIMMX/NOPB VSSOP-83500EAR99TI迈锐国际胡浩亮137********ADC083000CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC083000CIYB/S7002214HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC0831CCN/NOPB PDIP-81000EAR99TI迈锐国际胡浩亮137********ADC0831CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0831CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC0832CCN/NOPB PDIP-81000EAR99TI迈锐国际胡浩亮137********ADC0832CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0832CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC0834CCN/NOPB PDIP-14500EAR99TI迈锐国际胡浩亮137********ADC0834CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0834CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC08351CILQE/NOPB WQFN-24250EAR99TI迈锐国际胡浩亮137********ADC08351CILQX/NOPB WQFN-244500EAR99TI迈锐国际胡浩亮137********ADC08351CIMTCE/NOPB TSSOP-20250EAR99TI迈锐国际胡浩亮137********ADC08351CIMTCX/NOPB TSSOP-202500EAR99TI迈锐国际胡浩亮137********ADC08351EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC0838CCWM/NOPB SOIC-202160EAR99TI迈锐国际胡浩亮137********ADC0838CCWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC0838CIWM/NOPB SOIC-202160EAR99TI迈锐国际胡浩亮137********ADC0838CIWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC0848BCV/NOPB PLCC-281750EAR99TI迈锐国际胡浩亮137********ADC0848BCVX/NOPB PLCC-28750EAR99TI迈锐国际胡浩亮137********ADC0848CCV/NOPB PLCC-281750EAR99TI迈锐国际胡浩亮137******** ADC0848CCVX/NOPB PLCC-28750EAR99TI迈锐国际胡浩亮137********ADC084S021CIMM/J7001218VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S021CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S021CIMMX/NOPB VSSOP-103500EAR99TI迈锐国际胡浩亮137********ADC084S051CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S101CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC08500CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08831IM SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08831IM/NOPB SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08831IMX/NOPB SOIC-82500EAR99TI迈锐国际胡浩亮137********ADC08832IMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC08832IM/NOPB SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08832IMX/NOPB SOIC-82500EAR99TI迈锐国际胡浩亮137********ADC088S022CIMT TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S022CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S022CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC088S052CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S052CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC088S102CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S102CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC08B200CIVS/NOPB TQFP-482500EAR99TI迈锐国际胡浩亮137********ADC08B200QCIVS/NOPB TQFP-482500EAR99TI迈锐国际胡浩亮137********ADC08B3000CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08B3000RB/NOPB RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC08D1000CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1010DIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1020CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1500CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CIYB/S7002396HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CVAL RFIDSUB013A002H1A TI迈锐国际胡浩亮137********迈锐国际胡浩亮ADC08D1520RB/NOPB RFIDSUB013A002H1A TI137******** ADC08D1520WGFQV CQFP-128243A001A2C TI迈锐国际胡浩亮137********ADC08D1520WGMPR CQFP-128243A001A5A1TI迈锐国际胡浩亮137********ADC08D500CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D500CIYB/S7002554HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D500CIYB/S7002952HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D502CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08DJ3200AAV FCBGA-1448403A001A5A1TI迈锐国际胡浩亮137********ADC08DJ3200AAVT FCBGA-1442503A001A5A1TI迈锐国际胡浩亮137********ADC08DJ3200EVM UNKNOWN-14413A002H1A TI迈锐国际胡浩亮137********ADC08DL500CIVV/NOPB LQFP-1446003A991C1TI迈锐国际胡浩亮137********ADC08DL502CIVV/NOPB LQFP-1446003A991C1TI迈锐国际胡浩亮137********ADC08L060CIMT/NOPB TSSOP-246100EAR99TI迈锐国际胡浩亮137********ADC08L060CIMTX/NOPB TSSOP-242500EAR99TI迈锐国际胡浩亮137********ADC08L060EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC09QJ1300EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC10040CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10040CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10040QCIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10040QCIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10065CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10065CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10080CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10080CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC101C021CIMK/NOPB SOT-23-THN-61000EAR99TI迈锐国际胡浩亮137********ADC101C021CIMKX/NOPB SOT-23-THN-63000EAR99TI迈锐国际胡浩亮137********ADC101C021CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC101C027CIMK/NOPB SOT-23-THN-61000EAR99TI迈锐国际胡浩亮137********ADC101C027CIMKX/NOPB SOT-23-THN-63000EAR99TI迈锐国际胡浩亮137********ADC101S021CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S021CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********迈锐国际胡浩亮ADC101S021CISD/NOPB WSON-61000EAR99TI137********ADC101S021CISDX/NOPB WSON-64500EAR99TI迈锐国际胡浩亮137********ADC101S051CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S051CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S051QIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S051QIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S101CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S101CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S101CISD/NOPB WSON-61000EAR99TI迈锐国际胡浩亮137********。
NCP1595A中文资料
NCP1595, NCP1595A Current Mode PWM Converter for Low Voltage OutputsThe NCP1595/NCP1595A is a current mode PWM buck converter with integrated power switch and synchronous rectifier. It can provide up to 1.5 A output current with high conversion efficiency. High frequency PWM control scheme can provide a low output ripple noise. Thus, it allows the usage of small size passive components to reduce the board space. In a low load condition, the controller will automatically change to PFM mode for provides a higher efficiency at low load. Additionally, the device includes soft−start, thermal shutdown with hysteresis, cycle−by−cycle current limit, and short circuit protection. This device is available in compact 3x3 DFN package.Features•High Efficiency 95% @ 3.375 V•Synchronous Rectification for Higher Efficiency in PWM Mode •Integrated MOSFET•Fully Internal Compensation•High Switching Frequency, 1.0 MHz•Low Output Ripple•Cycle−by−cycle Current Limit•Current Mode Control•Short Circuit Protection•Built−in Slope Compensation for Current Mode PWM Converter •$1.5% Reference V oltage•Thermal Shutdown with Hysteresis•Ext. Adjustable Output V oltage•Fast Transient Response•Low Profile and Minimum External Components •Designed for Use with Ceramic Capacitor•Compact 3x3 DFN Package•These are Pb−Free DevicesTypical Applications•Hard Disk Drives•USB Power Device•Wireless and DSL ModemsSee detailed ordering and shipping information in the package dimensions section on page 11 of this data sheet.ORDERING INFORMATIONINV INFigure 1. Typical Operating CircuitABSOLUTE MAXIMUM RATINGSRating Symbol Value Unit Power Supply (Pin 4, 5)V IN7.0−0.3 (DC)−1.0 (100 ns)VInput / Output PinsPin 1,3,6V IO 6.5,−0.3 (DC)−1.0 (100 ns)VThermal Characteristics3x3 DFN Plastic PackageMaximum Power Dissipation @ T A = 25°CThermal Resistance Junction−to−AirP DR q JA145068.5mW°C/W Operating Junction Temperature Range (Note 4)T J−40 to + 150°C Operating Ambient Temperature Range T A−40 to + 85°C Storage Temperature Range T stg− 55 to +150°C Moisture Sensitivity Level (Note 3)1−Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.NOTE:ESD data available upon request.1.This device series contains ESD protection and exceeds the following tests:Human Body Model (HBM) 2.0 kV per JEDEC standard: JESD22−A114.Machine Model (MM) 200 V per JEDEC standard: JESD22−A115.tchup Current Maximum Rating: 150 mA per JEDEC standard: JESD78.3.Moisture Sensitivity Level (MSL): 1 per IPC/JEDEC standard: J−STD−020A.4.The maximum package power dissipation limit must not be exceeded.PD+TJ(max)*T AR q JAELECTRICAL CHARACTERISTICS(V IN = 5.0 V, V OUT = 1.2 V, T A = 25°C for typical value, −40°C v T A v 85°C for min/max values unless otherwise noted)Characteristic Symbol Min Typ Max Unit Operating Voltage V IN 4.0− 5.5V Under Voltage Lockout Threshold V UVLO 3.2 3.5 3.8V Under Voltage Lockout hysteresis V UVLO_HYS180mVP FET Leakage Current (Pin 5, 4) T A = 25°CT A = −40°C to 85°C I LEAK−P1.01015m AN FET Leakage Current (Pin 3, 2) T A = 25°CT A = −40°C to 85°C I LEAK−N1.01015m AFEEDBACK VOLTAGEFB Input Threshold (T A = −40°C to 85°C)V FB0.7880.8000.812V FB Input Current I FB10100nA Overvoltage Protect Higher than FB Threshold (T A = 25°C)V OVP 2.0 5.010.0% THERMAL SHUTDOWNThermal Shutdown Threshold (Note 5)T SHDN TBD160−°C Hysteresis T SDHYS30°C PWM SMPS MODEMinimum ON−Time TON MIN100ns Switching Frequency (T A = −40°C to 85°C)F OSC0.8 1.0 1.2MHz Internal PFET ON−Resistance (I LX = 100 mA, V IN = 5.0 V, T A = 25°C)(Note 5)R DS(ON)_P−0.20.3WInternal NFET ON−Resistance (I LX = 100 mA, V IN = 5.0 V, T A = 25°C)(Note 5)R DS(ON)_N−0.150.22W Maximum Duty Cycle D MAX−−100% Soft−Start Time (V IN = 5.0 V, V o = 1.2 V, I LOAD = 0 mA, T A = 25°C) (Note 6)T SS− 1.0−ms Main PFET Switch Current Limit (Note 5)I LIM 2.0 2.5A ENABLE (NCP1595A)Enable Threshold High (NCP1595A Only)V EN_H 1.8V Enable Threshold Low V EN_L0.4V Enable bias current ( EN = 0 V)I EN500TBD nA Total DeviceQuiescent Current Into V CCP (V IN = 5 V, V FB = 1.0 V, T A = 25°C)I CCP10m A Quiescent Current Into V CC (V IN = 5 V, V FB = 1.0 V, T A = 25°C)I CC900m A Shutdown Quiescent Current into V CC and V CCP (NCP1595A Only)(EN = 0, V IN = 5 V, V FB = 1.0 V, T A = 25°C)I CC_SD 1.5 3.0m A5.Values are design guarantee.6.Design guarantee, value depends on voltage at V OUT.PIN FUNCTION DESCRIPTIONSPin #Symbol Pin DescriptionNCP15951FB Feedback pin. Part is internally compensated. Only necessary to place a voltage divider or connect the out-put directly to this pin.2GND Ground3LX Pin connected internally to power switch. Connect externally to inductor.4VCCP Power connection to the power switch.5VCC IC power connection.6NC No ConnectionNCP1595A1FB Feedback pin. Part is internally compensated. Only necessary to place a voltage divider or connect the out-put directly to this pin.2GND Ground3LX Pin connected internally to power switch. Connect externally to inductor.4VCCP Power connection to the power switch.5VCC IC power connection.6EN Device Enable pin. This pin has an internal current source pull up. No connect is enable the device. With this pin pulled down below 0.4 V, the device is disabled and enters the shutdown mode.V INV INFigure 2. Detail Block DiagramEXTERNAL COMPONENT REFERENCE DATADevice V OUT Inductor Model Inductor (L1)C IN (C1)C OUT (C2)R1R2NCP1595/ NCP1595A 3.3 V CDC5D23 3R3 (1 A)CDRH6D38 3R3 (1.5 A)3.3 m H22 m F22 m F x 222 m F22 m F x 231 k10 kNCP1595/ NCP1595A 2.5 V CDC5D23 3R3 (1 A)CDRH6D38 3R3 (1.5 A)3.3 m H22 m F22 m F x 222 m F22 m F x 221 k10 kNCP1595/ NCP1595A 1.5 V CDC5D23 3R3 (1 A)CDRH6D38 3R3 (1.5 A)3.3 m H22 m F22 m F x 222 m F22 m F x 28 k10 kNCP1595/ NCP1595A 1.2 V CDC5D23 3R3 (1 A)CDRH6D38 3R3 (1.5 A)3.3 m H22 m F22 m F x 222 m F22 m F x 25 k10 kTYPICAL OPERATING CHARACTERISTICSLOW SIDE AMBIENT TEMPERATURE, (T A /°C)0.000.050.100.150.200.250.30−4002585Figure 3. Switch ON Resistance vs.TemperatureL O W S I D E S W I T C H O N R E S I S T A N C E /WFigure 4. Feedback Input Threshold vs.Temperature0.7850.7900.7950.8000.8050.8100.815−4002585AMBIENT TEMPERATURE, (T A /°C)F B I N P U T T H R E S H O L D V F B /VFigure 5. Switching Frequency vs.Temperature0.70.80.91.01.11.21.3−4002585AMBIENT TEMPERATURE, (T A /°C)S W I T C H F R E Q U E N C Y , F O S C /M H ZFigure 6. Main P−FET Current Limit vs.Temperature1.51.82.02.32.52.83.0−4002585AMBIENT TEMPERATURE, (T A /°C)M A I N P −F E T C U R R E N T L I M I T , I L I M /V600700800900100011001200−402585AMBIENT TEMPERATURE, (T A /°C)Q U I E S C E N T C U R R E N T I N T O V C C , I C C /m A Figure 7. Quiescent Current Into V CC vs.Temperature0123456−4002585S H U T D O W N Q U I E S C E N T C U R R E N T , I C C _S D /m AAMBIENT TEMPERATURE, (T A /°C)Figure 8. Shutdown Quiescent Current vs.TemperatureFigure 9. Output Voltage Change vs. OutputCurrentFigure 10. Efficiency vs. Output CurrentFigure 11. Output Voltage Change vs.Output CurrentFigure 12. Efficiency vs. Output CurrentFigure 13. Efficiency vs. Output CurrentFigure 14. Output Voltage Change vs.Output Current−1.5−1.0−0.50.00.51.01.51010010001000010100100010000−1.5−1.0−0.50.00.51.01.51010010001000010100100010000−1.5−1.0−0.50.00.51.01.51010010001000010100100010000O U T P U T E F F I C I E N C Y , %O U T P U T E F F I C I E N C Y , %O U T P U T V O L T A G E C H A N G E , D V O U T /%O U T P U T V O L T A G E C H A N G E , D V O U T /%O U T P U T V O L T A G E C H A N G E , D V O U T /%(V IN = 5 V, I LOAD = 700 mA, L = 3.3 m H, C OUT = 20 m F)Upper Trace: L X Pin Switching Waveform, 2 V / div.Middle Trace: Output Ripple Voltage, 20 mV / div.Lower Trace: Inductor Current, 1 A / div.(V IN = 5 V, I LOAD = 100 mA, L = 3.3 m H, C OUT = 20 m F)Upper Trace: L X Pin Switching Waveform, 2 V / div.Middle Trace: Output Ripple Voltage, 20 mV / div.Lower Trace: Inductor Current, 1 A / div.Figure 15. DCM Switching Waveform forV OUT = 3.3 V Figure 16. CCM Switching Waveform forV OUT = 3.3 V(V IN = 5 V, I LOAD = 100 mA, L = 3.3 m H, C OUT = 20 m F)Upper Trace: L X Pin Switching Waveform, 2 V / div.Middle Trace: Output Ripple Voltage, 20 mV / div.Lower Trace: Inductor Current, 1 A / div.(V IN = 5 V, I LOAD = 700 mA, L = 3.3 m H, C OUT = 20 m F)Upper Trace: L X Pin Switching Waveform, 2 V / div.Middle Trace: Output Ripple Voltage, 20 mV / div.Lower Trace: Inductor Current, 1 A / div.Figure 17. DCM Switching Waveform forV OUT = 1.2 V Figure 18. CCM Switching Waveform forV OUT = 1.2 V(V IN = 5 V, I LOAD = 10 mA, L = 3.3 m H, C OUT = 20 m F x 2)Upper Trace: Input Voltage, 2 V/ div.Middle Trace: Output Voltage, 1 V/ div.Lower Trace: Input Current, 1 A / div.(V IN = 5 V, I LOAD= 10 mA, L = 3.3 m H, C OUT = 20 m F x 2)Upper Trace: Input Voltage, 2 V/ div.Middle Trace: Output Voltage, 1 V / div.Lower Trace: Input Current, 1 A / div.Figure 19. Soft−Start Waveforms for V OUT = 3.3 V Figure 20. Soft−Start Waveforms for V OUT = 1.2 V(V IN = 5 V, L = 3.3 m H, C OUT = 20 m F x 2)Upper Trace: Output Dynamic Voltage, 100 mV / div. Lower Trace: Output Current, 500 mA / div.(V IN = 5 V, L = 3.3 m H, C OUT = 20 m F x 2)Upper Trace: Output Dynamic Voltage, 100 mV / div.Lower Trace: Output Current, 500 mA / div.(V IN = 5 V, L = 3.3 H, C OUT = 20 m F x 2)Upper Trace: Output Dynamic Voltage, 100 mV / div.Lower Trace: Output Current, 500 mA / div.(V IN = 5 V, L = 3.3 H, C OUT = 20 m F x 2)Upper Trace: Output Dynamic Voltage, 100 mV / div.Lower Trace: Output Current, 500 mA / div.Figure 21. Load Regulation for V OUT = 3.3 V Figure 22. Load Regulation for V OUT = 3.3 V Figure 23. Load Regulation for V OUT = 1.2 V Figure 24. Load Regulation for V OUT = 1.2 VDETAILED OPERATING DESCRIPTIONIntroductionNCP1595 operates as a current mode buck converter with switching frequency at 1.0 MHz. The P−Channel main switch is set by the positive edge of the clock cycle going into the PWM latch. The main switch is reset by the PWM latch in the following three cases:1.PWM comparator output trips as the peak inductorcurrent signal reaches a threshold level establishedby the error amplifier.2.The inductor current has reached the current limit.3.Overvoltage at output occurs.After a minimum dead time, the N−Channel synchronized switch will turn on and the inductor current will ramp down. If the inductor current ramps down to zero before the initiation of next clock cycle, the regulator runs at discontinuous conduction mode (DCM). Otherwise the regulator is at continuous conduction mode (CCM). The N−Channel switch will turn off when the clock cycle starts. The duty cycle is given by the ratio of output voltage to input voltage. The duty cycle is allowed to go to 100% to increase transient load response when going from light load to heavy load.Error Amplifier and Slope CompensationA fully internal compensated error amplifier is provided inside NCP1595. No external circuitry is needed to stabilize the device. The error amplifier provides an error signal to the PWM comparator by comparing the feedback voltage (800 mV) with internal voltage reference of 1.2 V. Current mode converter can exhibit instability at duty cycles over 50%. A slope compensation circuit is provided inside NCP1595 to overcome the potential instability. Slope compensation consists of a ramp signal generated by the synchronization block and adding this to the inductor current signal. The summed signal is then applied to the PWM comparator.Soft−Start and Current LimitA soft start circuit is internally implemented to reduce the in−rush current during startup. This helps to reduce the output voltage overshoot.The current limit is set to allow peak switch current in excess of 2 A. The intended output current of the system is 1.5 A. The ripple current is calculated to be approximately 350 mA with a 3.3 m H inductor. Therefore, the peak current at 1.5 A output will be approximately 1.7 A. A 2 A set point will allow for transient currents during load step. The current limit circuit is implemented as a cycle−by−cycle current limit. Each on−cycle is treated as a separate situation. Current limiting is implemented by monitoring the P−Channel switch current buildup during conduction with a current limit comparator. The output of the current limit comparator resets the PWM latch, immediately terminating the current cycle.Over−Voltage ProtectionOvervoltage occurs when the feedback voltage exceeds 5% of its regulated voltage. In this case, the P−Channel main switch will be reset and the N−Channel synchronized switch is turn on to sink current from the output voltage which helps to drop its feedback voltage back to the regulated voltage. Thermal ShutdownInternal Thermal Shutdown circuitry is provided to protect the integrated circuit in the event when maximum junction temperature is exceeded. When activated, typically at 160°C, the shutdown signal will disable the P−Channel and N−Channel switch. The thermal shutdown circuit is designed with 30°C of hysteresis. This means that the switching will not start until the die temperature drops by this amount. This feature is provided to prevent catastrophic failures from accidental device overheating. It is not intended as a substitute for proper heat sinking. NCP1595 is contained in the thermally enhanced DFN package.11APPLICATION INFORMATIONOutput Voltage SelectionThe output voltage is programmed through an external resistor divider connect from V OUT to FB then to GND.For internal compensation and noise immunity, the resistor from FB to GND should be in 10 k to 20 k ranges.The relationship between the output voltage and feedback resistor is given by:V OUT +V FB ǒ1)R1R2Ǔ(eq. 1)V OUT : Output voltage V FB : Feedback V oltageR1: Feedback resistor from V OUT to FB.R2: Feedback resistor from FB to GND.Input Capacitor selectionIn the PWM buck converter, the input current is pulsating current with switching noise. Therefore, a bypass input capacitor must choose for reduce the peak current drawn from the power supply. For NCP1595, low ESR ceramic capacitor of 10 m F should be used for most of cases. Also,the input capacitor should be placed as close as possible to the V CCA pin for effective bypass the supply noise.Inductor selectionThe inductor parameters are including three items, which are DC resistance, inductor value and saturation current.Inductor DC resistance will effect the convector overall efficiency, low DC resistor value can provide a higher efficiency. Thus, inductor value are depend on the inductorripple current, input voltage, output voltage, output current and operation frequency, the inductor value is given by:D IL +V OUT L F SWǒ1*V OUT V INǓ(eq. 2)D IL : peak to peak inductor ripple current L: inductor valueFSW: switching frequencyAfter selected a suitable value of the inductor, it should be check out the inductor saturation current. The saturation current of the inductor should be higher than the maximum load plus the ripple current.D IL(MAX)+D IOUT(MAX))D IL 2(eq. 3)D IL(MAX): Maximum inductor current D IOUT(MAX): Maximum output currentOutput Capacitor selectionOutput capacitor value is based on the target output ripple voltage. For NCP1595, the output capacitor is required a ceramic capacitors with low ESR value. Assume buck converter duty cycle is 50%. The output ripple voltage in PWM mode is given by:D VOUT [D ILǒ14 FSWCOUT)ESR Ǔ(eq. 4)In general, value of ceramic capacitor using 20 m F should be a good choice.ORDERING INFORMATIONDevicePackage Shipping †NCP1595MNR2G DFN−6(Pb−Free)3000 / Tape & Reel NCP1595AMNR2GDFN−6(Pb−Free)3000 / Tape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.PACKAGE DIMENSIONSDFN6 3*3 MM, 0.95 PITCHCASE 506AH−01ǒmmǓ*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering andMounting Techniques Reference Manual, SOLDERRM/D.ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。
南京科远设备型号清单(1)
序号 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43
பைடு நூலகம்
设备名称 控制器单元 DPU底座 IO底座 终端电阻单元 标准IO转接板 电源分配板 电源分配板 8通道模拟量输入模件 16通道数字量输入模件 8通道数字量输出模件 6通道模拟量输出模件 16通道继电器输出组件 IO网络预制电缆 IO网络预制电缆 IO总线预制电缆 单通道伺服控制模件 单通道超速保护模件 双通道MODBUS主站通讯卡 POWER 组件 OPC组件 控制器单元 电源分配板 标准柜IO转接板 IO底座 终端电阻 DPU底座 6通道模拟量量输出模件 8通道继电器输出模件 16通道开关量输入模件 8通道模拟量量输入模件 单通道伺服控制模件 单通道转速输入模件 以太网交换机 以太网交换机 8口以太网交换机(8电) 8口以太网交换机(6电2光) 以太网光电转换器 IO光电转换器 DC24V 10A DC24V 5A DC48V 2.5A DC24V 10A(交直流) DC24V 5A(交直流) KM951A BM131A BM132A BM133A BM134A BM135A BM135B KM331A KM334A KM335A KM336A KB432A KC721-0.7 KC721-1.6 KC723-0.7 KM532A KM533A KM631A KB434A-POWER KB434B-OPC KM940-A BM125-DEH BM124-S BM122 BM123 BM121 KM226S KM225S/RLY KM224S KM221S KM522S KM523S KN821-8-MM-C KN821-16-MM KN831A KN831B KN822-ETH KN832B BM136A-24V BM136C-24V BM136B-48V BM136AJ-24V BM136CJ-24V
高压包华声代号
代号机型脚位1 · 72″索尼投影KP-7220CH 1-439-263-11 5020CH KP-1572 122 · 72″三洋投影CVP721FT UF2582FT 157/26893 · 33″松下TLF14582F1 PT-126GY PT-120Y 34/564 · 29″飞利蒲123/578/46105 · 29″日立2434701 29-G66SR 12/3456789106 · 29″乐声TLF14462B 29V30R 25V30H 12/345/67107 · 29″凯歌BSC26-5608 123/45679108 · FCR-29A014R 三星28″CS-7230Z CS-7226Z 1234/567899 · 28″东芝TFB4061AD 288X6M2 29-01B14 123/456791010 ·东芝28″TFB4062AD 28″长虹2588 123/46791011 · 28″游戏机CCFT-751 191012/248/35712 · 2882索尼1-439-289-221C2002 1-439-289-11 11011/27912/345613 · 27″日立2435032 2435036 27S×1 12/3456891014 · 28″康力7193 27-KL0014 4C7108 123/56791015 ·康艺BSC26-5602 6488-1 7428 7466 4C6401 123/56791016 · 26″日电2601 12345/691017 ·熊猫C64P1 C64P88 KF58371N 26-×M0017 12/345/671018 · TCL9325 9425 9329 8366 25-T01G1 123/46791019 · 28″BSC27-1205 27-1204 福日25″2581 2586 2587 13/2458920 ·东芝28″4092AD 2506XH 2500 2929 123/456791021 · 25″乐声TC-D25C 127/3622 ·三星25″FCR-25A012R 熊猫64P2 123/456791023 ·康佳25″BSC28-1010S 快乐28″凯歌28″1210/3567924 ·日立25″2435373 CMT2518 CMT2918C 2588 2988 12/410/3568925 ·金星25″BSC27-3402 金星C648 123/46826 ·凯歌25″BSC27-3405 4C6405 123/46827 ·孔雀28″北京29″、71-88 123/46791028 · 27″索尼1-439-238-11 12/456/910/7111229 ·黄山画王BSC26-3807 黄山25″黄山2588 13/4581030 ·松下25″25V40RQ TLF4G502F 12/3567代号机型脚位31 ·日立24″2434442 12471112/3510/6 932 ·日立24″2403 2434595 15/23468/91033 ·三洋21″BSC24-0909 BSC24-0910 熊猫3626 127/56/891034 · 54P6 JF0501-0301 东大2197 JF0501-0301A 12457/381035 · FTK-20A005 2123 2103 54L3 Z654-6A1 124/356891036 ·声宝21″2436562 声宝2198 125/36891037 ·皇冠20″1551 241011/3567938 ·三洋80P机芯CTP-3243 12412/56739 ·声宝CT-1410DK 1416DK MSH-032L F1154CEDA 13/25679/4840 ·三菱14″ 1447 3304B07803 126/3457/91041 · T-2001 T-1801 A1814 1614 24-HS0041 810/972/4342 ·昆仑牌22-HS0042 134/5610/8943 ·日立CTP216D CTK-216D 12/346/111244 ·乐声TC-481 TLF6024C TC-381M 145/36745 · F1134E(1871)MSH-0577 1800DK 1882 2083DK 2070 2071 2072 1278/34/56/101146 · 21″BSC25-2958 54CD8乐华542 BSC-201B 123/46847 ·乐声TLF-6031B TC-895 295H 202H 2348/56748 ·日立BSC24-2001 123/4567949 ·日立2434271 2434101 1893 1892 2099 2093 2003 15/346891050 ·日立2434241 日立1497 15/36891051 ·华利星14″ CT-3710PH 21-0208S 12457/381052 ·日立23机芯145/238/91053 · KT3 16C29 16CT729 20C937 203010 20CT3030 12/45/67954 · 21″游戏机191012/2345855 · 22″罗兰士234/17956 · 22″威牌123/45681057 ·乐声2188S 25-1059L BSC25-3201 12/345658 ·海燕21″CS54E-5-R 百花17″CS54E-3-R 1413/357/91059 ·福利牌2122 BSC24-0150A 25-0124F 2201 15/23468/91060 ·皇冠2034 124/3578910代号机型脚位501 · BSC27-1303 福日配件公司康佳2510 12/3910/4567502 · BSC27-0501(南京山花)29″高路华123/4567910503 ·彩显BSC24-1402 12/39/4568504 · 24-1501 2162 2101 2106 BSC25-1501B 12346/5910505 ·彩显BSC25-M02 17/456506 ·佳丽彩2188 2189 王牌9621 JF0501-0901 124/3568910· 24-4201A507 ·日立2195 2437351 123/568910508 · 29″高士达145-179Q 123/4567910509 ·夏普1431 249/136710510 · 14″飞跃37C3-3 134/268511 ·索尼2585 1-439-423-32 12/456/79101112512 · 21″索尼8-598-960-10 8-598-960-00 123/45/678513 ·长虹1426 N4106 124/38910514 ·索尼1400CH 1-439-238-1 3456/79101112515 · 29″高士达123/4567910516 · 14″福日1425 123/4568/910517 ·福日1725 (低B26.7V) 123/4568518 ·福日2014R 1814 (场26V) 15/23468/910519 ·彩显9541A 12510/4689520 ·康佳2106 2115 479 12/3456/8910521 · 28″王牌1210/39/4567522 · 25″美乐123/456/8910523 ·乐华5438 25-02A3W 123/4568910524 · 25″西湖27-0129(R)123/45689525 · 29″三菱12/457/910526 ·北京8351 青岛2117 牡丹4711 25-091B 13/45810527 ·三洋投影FD151 279/3568528 · JF0501-1227 25-1606 25-3308 5446 5435 123/4568529 · 29″创维JF0101-0156 27-0501 27-0501T 1210/39/4567代号机型脚位530 · 25″飞利蒲25-6001 127/910/3456 531 · FCR-29A0015 FCR- 29A006 FCR- 29A015 25-1079 27-0101 123/4610/578 532 · 26″飞利蒲361362 123/56/78910 533 · 29″假松下12/456534 ·松下2985 M18 ZTFK15020A ZTFK15014A TC-33GF82G 1210/35/67 535 ·龙江9675 210/368/4579 536 ·三洋P3 26-5505 124/678/910 537 · 25″虹美123/4689 538 · 25″东大12310/45679 539 ·大宇2575 2570 1352-5010 4336 1235/467910 540 ·北京25-3604D 8348 8349 123/45679 541 ·飞跃6418 123/4567910 542 · 25″永固2518 26-1058 1210/379 543 ·凯歌C4703 北京8336 12/3456544 · 25″声宝F1700CE 123/67/9101112/451 3545 ·美乐2188 12/3456/8910 546 · 22″日立2433751 15/23468/910 547 ·日立2998 3398 12/35689/410 548 ·日立2579 2436776 123/568910549 ·25-N1806 25-3355D 25-3355C 25-1059B25-1059S25-1059C123/46810550 · 25″美乐29″幸福123/4610/578 551 · 29″东宝26-5505 234/67/1011 552 · 14″环宇37C-2-3 371A 148/59/3610 553 ·虹美C4401 123/4589 554 ·飞鹿54C3 5402 123/4568 555 · 29″三星FCR-29A006 123/4610/578 556 ·康佳2107 1826 5402A 1926 BSC24-3302 123/468557 ·三菱CT-2039HD 334P15308 126/3457/910 558 ·三元5488 1248/3910 559 · 29″熊猫74P3 FCR-29A017R 7439黄河7401 123/4567910 代号机型脚位560 · 29″牡丹27-1505B 123/4567910561 · 25″三菱334P14108 334P19303 126/3457/910562 · 26″游戏机12/34567/9101112563 · 18″松日1248/3910564 ·日立1490 12/346/58/1112565 · TLF15644 供电110V 12/689/457566 ·乐声TLF15507B 12/456710567 ·德力风根2008 12/346/58/79/1112568 · 29″松下M19 1210/35569 ·汤姆逊2010E07 17/2910/34/56570 ·美乐DS54C-2B 27-07720 169/245571 ·21″夏普129/3456572 ·日立2195 2437351 123/568910573 · 14″飞跃37C3-3 134/268574 ·爱美79A302-2 179/25610/34/1112575 · 29″松下TLF15538 127/369576 · 25″三星FCR-25A013R 124/356789577 · 29″三星FCR-29A001 12/34567/810578 ·南宝NC-206 234710/569/1112579 ·日电投影1234589/610580 · 21″孔雀KQ400/93B 1210/457581 ·松下TLF1556F1 12/3567582 ·王牌56110C 场电压特高65V 123/467910583 ·日立C21-E19 12/568910584 ·三星2192 123611/457810585 ·三洋4507 12412/567586 ·青岛2150 1679/245587 · 25″孔雀V-2588B 123/467910588 ·日电47105617 123458/610589 · DNFFD-2120A 1310/45679代号机型脚位590 ·游戏机CFT-715 12910/234578 591 ·黄河III 12910/34568 592 ·昆仑371 三洋538 1212/410/89593 ·长虹2116 66B 124/35810594 ·夏普2131 249/136710/1112 595 · 25″莺歌1210/34579596 · 20″熊猫C51P1M 123/468597 ·乐声TLF15516B 127/369598 ·海虹EC-2270 如意SGC-5613 124/368910599 ·熊猫2528 25-2355DA 123/46810600 ·上海Z654-19A 26-0409 123/45689601 ·牡丹CF-2111 29-2406 25-02AW14 24-0405 13/458602 · 25″天鹅123/47910603 · FCR-25A001R 三星25″佳丽彩28″熊猫6404 123/456789604 ·佳丽彩HC-2603(场45V) 124/368910605 ·康佳2506 1210/345679606 ·东芝161E5C TFB-4031AN 1235/467910607 ·松下33″ TLF14444B 12/6710608 ·东芝2150 TFB4125CH 2437372 123/467910609 ·康力BSC25-6501 5448 128/3567910610 ·乐华34″海信34" JF0101-0151 6174Z-6279Z 123/467910611 ·创维8298 JF0101-0109 26-1307 1210/4567/39612 ·日立2435373H JF05K 12/35689/410613 ·声宝CT-2508 F1892CE/F0104PE 123/47910614 ·索尼29″ K5395DE 夏普F1734CE 12/3456789615 ·松下25″ JF0101-0159 松下29″123/4567910616 ·孔雀21″ BSC25-3369 1210/457617 ·德力风根0936 26618 · 154-238C 154-103H 29C80 25C60 12/459/310619 ·百花21″ BSC25-2192 3910/12458代号机型脚位620 ·金利蒲21″ BSC25-4803 12/3456621 · 25-1058K TCL9325 25-1059G 9329 JF0101-0101 123/467910 ·乐声TC-29V32HN 松下TC29V30R 25-2030S 123/467910 622 ·康佳29″ BSC27-1433S 2517 1210/39/4567 623 ·赣新5106 5406 25-1103 25-1103B 1235/468624 ·牡丹54C8 123/48625 · 8259 JF0101-0111 26-2106S 29-01B4 JF0101-0171 1210/34567 626 ·黄河29″孔雀25″ JF0101-0702A 1210/345679 627 ·东芝TFB4064AD TFB4125H 21R2 123/467910 628 ·高路华29″25-1079B BSC-101C BSC-101A 123/4567910 629 ·三洋A329″松下29″BSC27-4004L KH0201 129/3456630 ·游戏机25″91012/23458 631 ·游戏机22″191012/23458 632 ·三洋25″CMX2510C-00 L40B03500 124/58910633 ·牡丹54C10 27-01AW2 25-02AW1 25-02AW13 13/45810 · BSC25-01N40H634 ·松下25″M15 TLF15550 127/3569/410 635 ·佳丽彩29″1210/345679 636 ·佳丽彩25″1210/34579 637 ·长虹2988 2919 69F 27-10P01海信TC2930KP 123/4567910 ·海信TC2929DSP TFB4113AD638 ·赣新21″ KG5418 1235/468639 ·假松下FLK-29A061 TC-20GF30R TC-29GF30R F-56-29A001 1234/567910 640 · JVC29″ CJ26861-00B CJ26533-00B 特殊641 ·黄河5409 123/45679642 ·东芝21″25-2595 26-3005D 1210/34567 643 ·夏普5216 MSHIFB237 1467/2358/1011644 ·夏普F1438CE 127/3456810645 ·长虹2192 123/479646 ·日立2435034 GD17K 12/3568910代号机型脚位647 ·日电47105393/93305T 1210/5679 648 ·王牌9421 JF0501-0502 123/45679 649 ·熊猫2118A 123/468650 ·日立19″ 2434472/FL23K2 12/34568910 651 ·牡丹2112G BSC24-0406B 25-2332 25-1106 123/4568 652 ·索尼KV-25MF1 BSC27-40041 假松下29″1234/567910 653 ·长城29″JF0101-0709 7418 7408 1210/45679 654 ·快乐2104(场52V) 123/456810 655 ·泰山2188 BSC24-0702 123/48656 ·泰山5422 123/468657 ·夏普21″149/35678 658 ·日立2001SF 2014 1924 2126 2157 1927 145/2368/910 659 ·夏普F1903CE/2311AS 149/356710 660 · 27-2301 25-3355Q 28-5311 27-3409 BSC25-1059S 25-2231HE1 12/3456660 · 27-N2206 27-3412 26-3005S BSC27-N0403 12/3456662 ·福日HFC-2201 (场52V) 15/23468/910 663 ·康佳25″BSC28-0602A F2531D2 2518 123/468910 664 ·康佳29″TLF70148A 12/4567910 665 ·松下33″TC-33GF85R BSC29-0141 134/567910 666 ·松下29″BSC25-2595 26-36005 26-2131BT 1210/34567 667 ·福利牌BSC26-1201(BSC23V02) 5730023 13/245689 668 ·康佳BSC25-4006D KH0201 123/457/689 669 ·松下29″CE41459-00A AV-H265型12/3467810 670 ·金星6438 BSC26-1901 25-0202B-1 123/4567910 671 ·日立2579 2436776 123/568910 672 ·三洋29″FMB06EJLD 13/2458910673 ·索尼20″1-439-376-12 12/345/89/6101 1674 · 24-1503 23-4404A 24-01N40D3 25-1059 26-4005 24-01N4004L 12/3456 · 25-2405S 25-2024S 25-2425 25-0244 25-N57 25-N0802 25-0274· 25-09G代号机型脚位675 ·夏华BSC25-1113 458/3910676 ·长虹2991E 69H 123/4679677 ·长虹2169 124/38910678 ·长虹2119 BSC25-02AW8 25-02A5W 124/38910679 ·长虹25″BSC68P 123/479680 ·长虹25″BSC68E 123/45679681 ·长虹34″BSC71A 25-3803 123/4567910682 ·长虹25″BSC68S A2528 A2528B A6机芯123/456910683 ·长虹25″BSC68N N2516 123/45679684 ·长虹25″29″ BSC69N N2526 N2918 N2981 123/45679685 ·长虹25″29″ BSC69C 123/479686 · 66J 62T2 124/3810687 · 62F 2526 123/4567910688 · 65A 2132 123/47910689 · 2165F 25-02A5W 12410/389690 · 68F 123/4567910691 · 68B 123/456910692 ·黄河14″ 3710 BSC24-0303 129/3456693 ·北京2163三星FSV-20A001 北京2120 25-0308 123456/910694 ·幸福29″BSC28-7605 123/456/7810695 ·日立C29-G77 12/345678910696 ·夏普14″ F1832CE 149/35678/1112697 ·索尼1-439-493-11 12/345/691011698 ·三星FTM-21A001P 123456/7910699 ·松下TLF14717F TLF14701F1 127/346700 ·夏普28″F1941CE 123/467910701 ·三菱334P24502 126/357/4910702 ·三菱14″CE40502BA 134/89/710703 ·松下14″FLE14739F 128/3457704 ·日立2085 2433721 15/3468910代号机型脚位705 ·画王BSC27-4004J 27-0312 123/46910706 ·东芝TFB4095BD TFB4092AD 28-1428S康佳2988 123/4567910 707 ·三菱19″334P12302 12/34567/910 708 ·黄海美21″HHM54-I 124/35789709 ·福日HFC-1975 1775 123/48710 ·熊猫64P3 1210/34567711 ·福日2122 BSC24-0155(场26V) 1824 2024 15/23468/910 712 · 64C125-3602 25-3602B 27-01AW 154-179Q 26-0408 123/4567910 713 ·夏普F1327CE 12/3468/5910 714 ·夏华5101 (大宽脚) 7106/MSHIFBK20 124568/3910 715 ·北京21″FSV-21B005 北京25″13/56789716 · KV-1430CH 1-439-294-21 1-439-311-32 12/345/89/61011 717 · 25-5201 25-5202 FCM-21A003A FCM-21A004 12/3456/8910 718 ·三洋A3单线BSC25-2306 12/3456719 ·海信2136 129/4568720 ·海信25″海尔2528 BSC25-02AW26 21-2034S 124/58910 · L40B10500 1LB4L40B02300721 ·海信25″BSC26-2302/97L31N BSC25-29B 129/4568722 ·海信2143 BSC24-1502 25-01BW2 129/4568723 · BSC25-Z601A 25-3604C 24-01N39A 129/3456724 ·长虹BSC68A 123/456910725 ·日立2432842 145/89/3610726 ·海尔25″BSC27-2403 同238号727 ·三星BSC29-0117 123/4567910 728 ·松下D25C TLF15550B TLF15556B 127/3569/410 729 · JF0101-0117/960904C 123/4567910 730 ·假松下2188 TIF15630F 25-2323H(南京山花)123/4568731 ·三洋L40A00300/WLIP/SANYO 123/45810732 ·夏普F1493CE F1584CE 148/356710/1112 733 ·三星FCK-1412E01 124/368910代号机型脚位734 ·日立2435083 1210/45689735 ·东芝2950 TFB4132AD TFB4132AN TFB4132BD 123/4567910 · TFB4132DH/BW00621736 ·金星C4717 123/468737 ·皇冠14″(密脚)PC-02X 169/23458738 · JVC21″123/45679739 ·康力5448 25-6501 25-02AW 128/3567910740 ·飞利浦21″ BSC25-0710 1510/34/68741 ·北京2982 2980P FTR-25A002 124/36/5789742 ·松下2193 123/456810743 ·新飞利浦21″ BSC25-8301 25-8302 127/356/910744 ·福日2581 2586 BSC27-1204 13/24589745 ·福日29S10 BSC28-1910 福日29S16 28-1911 12/3589/410746 ·福日2553 BSC28-1209 13/24589747 ·福日26-0901/2435068A 12/568910748 ·黄河6404 JF0101-0705 12/4567910749 ·长城新21″ JF0501-0902 13456/8910750 ·乐华新25″ 154-279C 123/467910751 ·松下14″ TFB4031AN 12/467910752 ·日立2455061 C21-E19 12/68910753 · JF0501-1214A JF0501-1909A 124/3568910754 ·日电47105263/608ZD-T 12/4567910755 ·乐华34″ 6174Z-6130K 6174Z-6103K 123/4567910756 · BSC27-Z701 BSC25-Z701 129/3456757 · 154-238C/6RK10 12/459/310758 ·东正25″ BSC25-3602F 25-3355RE 13/46910759 ·福日牌27-1913/5732108A 12/410/3589760 · 6174Z-8005H(LG公司)123/457910761 ·福日26-1207/5730036 123/4567910762 · JF0101-0110A 熊猫64P3 创维8259(新)27-2104S 1210/39/4567代号机型脚位· 0101-0101A JF0101-0170 BSC25-3355J763 ·松下JF0101-0141 123/4567910764 ·牡丹25″29″ 29-0105(德州)29-0105(a)13/45810765 ·长虹29-01B9(德州)123/479766 ·长城29″ G2928 25-5301 12/34567910 767 ·东芝29″TFB4118AD 2840XP TFB4118AN 123/4567910 768 ·松下TC-2588(C150机芯)1210/357769 · 25-3604H/KH0101 25-01N40K 24-01N40Q 23-1126M 13/4910 · 25-02AW16 海信25-N0807770 ·松下29″(7爪)TLF14439B1 1210/67771 · 5608/MSH1FAP46 12345/6910772 ·康佳2516 27-1438S/KK961001 1210/39/4567 773 ·北京29″FUH-29A001(S)FUH-19A001(S)1345/26789774 ·夏普14″F1283CE/2N13A F1332CE 12/34579/61011 775 · 26-3606/KH0101(低B25V)25-8701 129/3456776 ·高路华34″JF0101-0130 123/4567910 777 ·索尼KV-27F1 1-439-339-14 12/3456/7101112 778 ·索尼21XBR2 1-439-351-12 12/345/89/1011 779 ·乐声TLF14002B1 1349/257780 ·松下CE40630C 157/3489781 ·东芝25″ TFB4061AD 123/467910782 ·日立C14-415 2435082A 129/34568783 ·日电29″ 47105356 1210/3569/47 784 ·日立2434222 145/368910785 ·日立2434853 15/23468/910 786 ·松下TLF70179B 124/3568910 787 ·假索尼29″ 27-0136 26-3606A 12910/3456788 ·嘉华25″ 28-5308 A 2906 12345/7810789 ·夏普14″ F1607CE F1657CE F1659CE 149/356710/1112 790 ·星宝1538 JF0208-0220 23-0901XB 123/4567代号机型脚位791 ·松下TLF14002-1 134/5679792 ·高士达25″LG154-238A 12/459/310793 ·创维8208 JF0501-0500B CF0801-5110 24-3353H-4 124/578910794 ·三星FCK14A033 FSC-20A001 910/123456795 ·金星7430 28-N0405 28-N2306 28-1918 28-1917 123/456910796 ·日电21″ 25-1056C 123/4679797 ·三洋29″FD117WFKO 147/23589798 ·夏普25C-V24 12/3456789外124 799 ·夏普F1607CE 149/356710/1112 800 · LG高士达25″ 6174Z-6229L 154-229G 123/4567910801 ·日电47105228 123/4567910802 ·牡丹25638 6174Z-6099G 6174Z-6039G 12/4567910803 ·日立14″2434431 123456/810804 ·老钻石22″松下TLF70060 1234/6789805 ·索尼25″ 8-598-945-10 8-598-945-00 123/45/6789806 ·松下14″ TLF14702B 136/247807 ·三星25″北京29″ FTR-29A002 124/356789808 ·飞利浦25″AT2078/20681 JF0501-2132 JF0501-2134 12/34567910809 ·王牌9621D JF0501-0901 BSC25-02AW(T)124/3568910810 ·牡丹25″27-1505(正定产十一爪)124/356781011811 ·王牌2528 3418 29-0127 29-0165 1210/3479812 ·东芝TFB4039AD 123/467910813 ·康佳2977 28-0616A 30000221 28-0616 30000384 123/46810814 ·王牌2111D 25-0207 2410/5689815 ·美乐2188 24-1030 123/568910816 ·康力29″CE-7469-1 JF0101-0120 123/567910817 ·康力25″ JF0101-0123/58-67462-01 1210/3467/59818 ·海虹画王5498A 24-2056S 12/3456/8910819 ·牡丹29″26-0407D 26-0408A(浙江产)123/45689820 ·三洋27″ RC-318 / L40B02800 松下26" 124/358910代号机型脚位821 ·牡丹29628 26-2802(常熟产)1210/45679 822 ·美乐29″25-1079B(无锡产)123/4567910 823 ·乐声21″ TLF14699B1 127/3569/410 824 ·松下2187 TLF15611F 127/3569/410 825 ·康佳34″ BSC25-2688S 123/4567910 826 ·日立2434191 DK09M 16/37101112/45827 ·夏普F1321CE 12//45/78/691112/31 3828 ·飞利浦AT2078/20671 127/3456910 829 ·夏普F1364CE 134/268830 · JVC29″ CJ26533-00B 110/479/2368 831 · JVC29″ CJ27385 110/479/386 832 · JVC18″龙江7696 CJ39690-00A 211/379/56810 833 ·华强三洋34″ HPC3400 25-2662S 124/58910834 ·日立14″ 2433951 DH31K 14-413A 145/368910 835 ·日立19″ 2434411 H / MF02K 3 12/34589/610 836 ·三洋FD29 12/7810/3569 837 · BSC30-N2501 康佳34″BSC 25-2661S 123/46810838 · TLF14591B 134/5679839 · BSC31-1208 福利牌5732033A 13/24589840 ·金星25″BSC26-4704 123/4567910 841 ·金星25″BSC-S6401/TIII433 13/46910842 ·飞利浦25″ BSC30-1001 30-1003 1467/35/891112 843 ·康佳2910 福利牌BSC27-1302 12/3910/4567 844 ·日立2435034 12/368910845 ·北京2516 BSC27-2202 135/6789846 ·索尼34″ 8-598-836-01 ES34M90L 123/45/678847 ·25-01N40A2 2568 BSC25-3355RA 25-3355RBSC25-01N40A31210/3456848 ·夏华29″CF-06291/E105192 LR87861/154-374A 123/4567910 849 ·松下TLF14632F1 139/257850 ·索尼1-439-397-11 345/61011/12/89 代号机型脚位851 ·北京2912G/FTH-29A001 1345/6789852 ·三菱14″ TFB4072AD 123/467910853 ·牡丹74C2 31-01AW3 1237/456910854 ·夏普F1952CE 149/356710855 ·日立29″ 2435373 1210/345689856 ·乐华25″BSC25-1059N 13/46910857 · 2979 BSC25-N2305 28-0615A 25-2658S 25-2660S 123/468910858 ·飞利浦25″ 2422-531-02301 BSC26-0201 123/4567910859 · LG154-207N 123/579/4610860 · LG29″ CF-06291 154-374A 6174Z-6229P 123/4567910861 ·三菱14″ 334B07501 134/89/710862 ·康力CE6448 JF0101-0102 BSC25-6502T 123/567910863 ·东芝25″ TFB4078AK 123/4567910864 ·夏普F1584CE F1491CE 137/24569/1011865 ·嘉华21″BSC25-5203 25-5203A (25-5203 B低聚焦)7810/12345866 ·东芝16″TFB4050AD 125/467810867 · JVC20″海燕CS51-7B-R 23-0110 139/78/245868 ·康力7458 JF0101-0108 58-67452-01 1210/59/3467869 ·索尼1-439-495-21 345/12/68911870 ·长虹62E 123/45679871 ·长虹68H 123/45679872 ·索尼29″8-598-976-00 NX-4002 8-598-976-20 123/45/6789873 · 27-2203 1345/6789874 · JF0101-0138 123/4567910875 ·松日29″ BSC28-N0401 123/45689876 · JF0101-1301 101*250000E01 13/2468877 · 27-0101R 25-09N020C 康美29″ BSC29-0137B 1237/46910878 · JVC7685 678/34/12879 ·牡丹64C2 64C3 BSC27-01AW1 123/4567910880 ·北京2163 2120 5910/1346代号机型脚位881 ·三洋CK15F1 L40B10800 124/358910882 ·龙江7755 JVC7755 47105317 21112/38910/4567 883 · FFA4024L 大宇2975 123/467910884 · 334P23108 三菱29" 12/34567/910885 · 27-1306 CE42700-001J1 JVC25" 123/45679886 · AT2078(场24V)飞利浦20301 127/3456910887 · 27-1082H 海尔25" 无锡东洋产12/4569888 · FD198WLJX 三洋25" 124/35689889 · CJ59690-00A JVC 110/268/39/457890 · ORECA 40325-25NC/10340160+VK9 28 3456/789/1011 891 · BSC25-Z1003A 2188 25-Z1003B 25-0108G 25-0295E 123456/7810 · 24-01N4010GA(低焦)25-1194D024 24-01N4010GA· BSC25-1194T058B 24-01N4006ER892 ·海信2566 25-3806 青竹产129/3456893 · CJ26258-00A 18"龙江7685JM 136/45/789894 ·飞利浦29" 29B9 BW00422 127/3456/910 895 ·满天星21" 25-Z1002 123/4567/89896 ·索尼8-598-831-20/9H31-04 8-598-831-00 123/45/6789 · 8-598-831-21 4F09-03 NX-4009//C897 ·黄河29" 29-3931 123/4567910 898 · BSC25-2231JC 南京江海产129/34568899 ·飞利浦29" 1302。
LED驱动IC NCP1015AP065G
−
−
2
NCP1015
VCC 1
VCC
Startup Source
Drain
8 GND
UVLO Management
High when VCC t 3 V
Rsense
250 ns L.E.B.
NC 2 4V
18 k
EMI Jittering
65 kHz 100 kHz
March, 2011 − Rev. 3
ORDERING INFORMATION
See detailed ordering and shipping information in the package dimensions section on page 20 of this data sheet.
−
−
By connecting an optocoupler to this pin, the peak current setpoint is adjusted accordingly to the output power demand.
The internal drain MOSFET connection.
The NCP1015 integrates a fixed−frequency current−mode controller and a 700 V voltage MOSFET. Housed in a PDIP−7 or SOT−223 package, the NCP1015 offers everything needed to build a rugged and low−cost power supply, including soft−start, frequency jittering, short−circuit protection, skip−cycle, a maximum peak current set−point and a Dynamic Self−Supply (no need for an auxiliary winding).
NCP1654
0−97
%
OSCILLATOR / RAMP GENERATOR BLOCK
Fsw
Switching Frequency
ORDERING INFORMATION
See detailed ordering and shipping information in the package dimensions section on page 8 of this data sheet.
UL线规对应线径表
2SC5185-T2资料
Remark To order evaluation samples, contact your nearby sales office. The unit sample quantity is 50 pcs.
ABSOLUTE MAXIMUM RATINGS (TA = +25°C)
Parameter Collector to Base Voltage Collector to Emitter Voltage Emitter to Base Voltage Collector Current Total Power Dissipation Junction Temperature Storage Temperature Symbol VCBO VCEO VEBO IC Ptot
10 8.0 8.0 7.5 − − −
13 11 11 9.0 1.3 1.3 0.3
− − − − 2.0 2.0 0.6
GHz GHz dB dB dB dB pF
2
Notes 1. Pulse measurement: PW ≤ 350 µs, Duty Cycle ≤ 2% 2. Collector to base capacitance when the emitter grounded
The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version.
Not all devices/types available in every country. Please check with local NEC Compound Semiconductor Devices representative for availability and additional information.
ft3519规格
ft3519规格
【实用版】
目录
1.FT3519 规格概述
2.FT3519 规格的主要参数
3.FT3519 规格的应用领域
4.FT3519 规格的优点和局限性
正文
FT3519 规格是一种工业控制领域的通讯协议,主要用于三菱 PLC(可编程逻辑控制器)之间的通讯。
FT3519 规格是由三菱电机公司开发的,已经成为工业控制领域中的标准通讯协议之一。
FT3519 规格的主要参数包括数据传输速率、通讯距离、通讯方式等。
其中,数据传输速率可以达到 115.2kbps,通讯距离可以达到 1.2km,通讯方式包括串行通讯和并行通讯两种。
此外,FT3519 规格还支持多种数据传输模式,如单向传输、双向传输和多主控制器传输等。
FT3519 规格广泛应用于工业控制、自动化、机器人等领域。
例如,在 PLC 控制系统中,FT3519 规格可以用于 PLC 之间的通讯,实现数据交换和控制指令的传输。
此外,FT3519 规格还可以用于传感器和执行器之间的通讯,实现实时监控和控制。
FT3519 规格的优点在于其稳定性和可靠性,可以满足工业控制领域对通讯协议的高要求。
同时,FT3519 规格具有较高的数据传输速率和较远的通讯距离,可以满足不同应用场景的需求。
然而,FT3519 规格也存在一些局限性,例如不支持多主控制器通讯,限制了其在复杂系统中的应用。
总之,FT3519 规格作为一种工业控制通讯协议,具有广泛的应用领
域和较高的性能表现。
- 1、下载文档前请自行甄别文档内容的完整性,平台不提供额外的编辑、内容补充、找答案等附加服务。
- 2、"仅部分预览"的文档,不可在线预览部分如存在完整性等问题,可反馈申请退款(可完整预览的文档不适用该条件!)。
- 3、如文档侵犯您的权益,请联系客服反馈,我们会尽快为您处理(人工客服工作时间:9:00-18:30)。
NCP5181High Voltage High and Low Side DriverThe NCP5181 is a High V oltage Power MOSFET Driver providing two outputs for direct drive of 2 N−channel power MOSFETs arranged in a half−bridge (or any other high−side + low−side) configuration. It uses the bootstrap technique to insure a proper drive of the High−side power switch. The driver works with 2 independent inputs to accommodate any topology (including half−bridge, asymmetrical half−bridge, active clamp and full−bridge…).Features•High V oltage Range: up to 600 V•dV/dt Immunity ±50 V/nsec•Gate Drive Supply Range from 10 V to 20 V•High and Low DRV Outputs•Output Source / Sink Current Capability 1.1 A / 2.4 A•3.3 V and 5 V Input Logic Compatible•Up to V CC Swing on Input Pins•Matched Propagation Delays between Both Channels •Outputs in Phase with the Inputs•Independent Logic Inputs to Accommodate All Topologies •Under V CC LockOut (UVLO) for Both Channels•Pin to Pin Compatible with IR2181(S)•These are Pb−Free DevicesApplications•High Power Energy Management•Half−bridge Power Converters•Any Complementary Drive Converters (asymmetrical half−bridge, active clamp)•Full−bridge Converters•Bridge Inverters for UPS SystemsPIN ASSIGNMENTPINFUNCTIONIN_HI Logic Input for High Side Driver Output In Phase IN_LO Logic Input for Low Side Driver Output In Phase GND GroundDRV_LO Low Side Gate Drive OutputV CC Low Side and Main Power SupplyVBOOT Bootstrap Power SupplyDRV_HI High Side Gate Drive OutputBRIDGE Bootstrap Return or High Side Floating Supply ReturnMARKING DIAGRAMSPDIP−8P SUFFIXCASE 626Device Package Shipping†ORDERING INFORMATIONNCP5181P,5181= Specific Device CodeA= Assembly LocationL= Wafer LotY, YY= YearW, WW= Work WeekG, G= Pb−Free PackageNCP5181PAWLYYWWGSOIC−8D SUFFIXCASE 751NCP5181PG PDIP−8(Pb−Free)50 Units/TubeNCP5181DR2G SOIC−8(Pb−Free)2.500/Tape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specification Brochure, BRD8011/D.IN_HIIN_LOGNDDRV_LOV BOOTDRV_HIBRIDGEV CCFigure 1. Typical ApplicationFigure 2. Detailed Block DiagramMAXIMUM RATINGSRating Symbol Value Unit Main power supply voltage V CC−0.3 to 20V VHV: High Voltage BRIDGE pin V BRIDGE−1 to 600V VHV: Floating supply voltage V BOOT − V BRIDGE0 to 20V VHV: High side output voltage V DRV_HI V BRIDGE−0.3 to V BOOT+0.3V Low side output voltage V DRV_LO−0.3 to V CC+0.3V Allowable output slew rate dV BRIDGE/d t50V/ns Inputs IN_HI, IN_LO V IN_XX−1.0 to V CC+0.3V ESD Capability:HBM model (all pins except pins 6−7−8) Machine model (all pins except pins 6−7−8)2.0200kVVLatch up capability per Jedec JESD78 Power dissipation and thermal characteristicsPDIP8: Thermal resistance, Junction−to−Air SO−8: Thermal resistance, Junction−to−Air R q JAR q JA100178°C/WOperating junction temperature T J_minT J_max−55+150°CMaximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied, damage may occur and reliability may be affected.ELECTRICAL CHARACTERISTICS (V CC = V boot = 15 V, V gnd = V bridge, −40°C < T A< 125°C, Outputs loaded with 1 nF)Rating Symbol T A −40°C to 125°C Units OUTPUT SECTIONMin Typ MaxI DRVhigh− 1.4−A Output high short circuit pulsed currentV DRV= 0 V, PW ≤ 10 m s, (Note 1)I DRVlow− 2.2−A Output low short circuit pulsed currentV DRV= V CC, PW ≤ 10 m s, (Note 1)R OH−512W Output resistor (Typical value @ 25°C only)SourceOutput resistor (Typical value @ 25°C only)R OL−28W SinkDYNAMIC OUTPUT SECTIONRating Symbol Min Typ Max Units Turn−on propagation delay (V bridge = 0 V)t ON−100170ns Turn−off propagation delay (V bridge = 0 V or 50 V) (Note 2)t OFF−100170nst r−4060ns Output voltage rise time(from 10% to 90% @ V CC = 15 V) with 1 nF loadt f−2040ns Output voltage falling edge(from 90% to 10% @ V CC = 15 V) with 1 nF loadD t−2035ns Propagation delay matching between the High side and the Low side@ 25°C (Note 3)Minimum input pulse width that changes the output t PW−−100ns INPUT SECTIONLow level input voltage threshold V IN−−0.8V Input pull−down resistor (V IN < 0.5 V)R IN−200−k W High level input voltage threshold V IN 2.3−−V SUPPLY SECTIONV CC UV Start−up voltage threshold V CC_stup7.98.99.8V V CC UV Shut−down voltage threshold V CC_shtdwn7.38.29.0V Hysteresis on V CC V CC_hyst0.30.7−V V boot Start−up voltage threshold reference to bridge pinV boot_stup7.98.99.8V (V boot_stup = V boot − V bridge)V boot UV Shut−down voltage threshold V boot_shtdwn7.38.29.0V Hysteresis on V boot V boot_shtdwn0.30.7−VI HV_LEAK−0.540m A Leakage current on high voltage pins to GND(V BOOT= V BRIDGE= DRV_HI = 600 V)I CC1− 4.5 6.5mA Consumption in active mode(V CC= V boot, f sw= 100 kHz and 1 nF load on both driver outputs)Consumption in inhibition mode (V CC= V boot)I CC2−250400m A V CC current consumption in inhibition mode I CC3−215−m A V boot current consumption in inhibition mode I CC4−35−m A *Note: see also characterization curves1.Guaranteed by design.2.Turn−off propagation delay @ V bridge = 600 V is guaranteed by design3.See characterization curve for D t parameters variation on the full range temperature.4.Timing diagram definition see Figures 4, 5 and 6.IN_HI IN_LODRV_HI DRV_LOIN_HI 50%90%90%10%10%IN_LODRV_HI DRV_LO50%Figure 3. Input/Output Timing DiagramFigure 4. Switching Time Waveform Definitions50%90%10%50%90%10%DRV_HIDRV_LOIN_LO IN_HIDelta_t Delta_tFigure 5. Delay Matching Waveforms Definition50%90%10%50%90%10%DRV_HIDRV_LOIN_LO IN_HIDelta_tDelta_t&Figure 6. Other Delay Matching Waveforms Definitiont ont rt offt ft ont off t ont off t on_HIt on_LOt on_LOt off_HITYPICAL CHARACTERISTICS020406080100120160020406080100160180Figure 11. High Side Turn−on PropagationDelay vs. V BRIDGE Voltage Figure 12. High Side Turn−off PropagationDelay vs. V BRIDGE VoltageBRIDGE PIN VOLTAGE (V)BRIDGE PIN VOLTAGE (V)507090*********T o n P R O P A G A T I O N D E L A Y (n s )120140T o f f P R O P A G A T I O N D E L A Y (n s )T o n P R O P A G A T I O N D E L A Y (n s )TYPICAL CHARACTERISTICS05.0101520253040Figure 15. Turn−off Fall Time vs. TemperatureFigure 16. Turn−off Fall Time vs. V CC Voltage(V CC = V boot )TEMPERATURE (°C)SUPPLY VOLTAGE; V CC = V boot (V)05.010********Figure 17. Propagation Delay Matching Between High Side and Low Side Driver35T U R N −O N R I S E T I M E (n s )T U R N −O F F F A L L T I M E (n s )TEMPERATURE (°C)10080604020−20−400510152025304012035P R O P A G A T I O N D E L A Y M A T C H I N G (n s )TYPICAL CHARACTERISTICSFigure 18. Low Level Input Voltage Thresholdvs. TemperatureFigure 19. Low Level Input Voltage Thresholdvs. V CC VoltageTEMPERATURE (°C)SUPPLY VOLTAGE; V CC = V boot (V)00.20.61.01.420181614121000.20.41.01.4L O W L E V E L I N P U T V O L T A G E T H R E S H O L D (V )L O W L E V E L I N P U T V O L T A G E T H R E S H O L D (V )10080604020−20−401200.40.81.20.60.81.2Figure 20. High Level Input Voltage Thresholdvs. TemperatureFigure 21. High Level Input Voltage Thresholdvs. V CC VoltageTEMPERATURE (°C)SUPPLY VOLTAGE; V CC = V boot (V)100806040200−20−4000.51.01.52.520181********0.51.01.52.02.5Figure 22. Leakage Current on High Voltage Pins (600 V) to Ground vs. TemperatureFigure 23. Leakage Current on High VoltagePins to Ground vs. V bridge Voltage(V bridge = V boot = V DRV_HI )TEMPERATURE (°C)BRIDGE PIN VOLTAGE (V)100806040200−20−4000.51.01.52.53.04.060040030020010000.050.100.150.200.250.401202.0120L E A K A G E C U R R E N T T O G N D (m A )H I G H S I D E L E A K A G E C U R R E N T T O G N D (m A )0.300.35H I G H L E V E L I N P U T V O L T A G E T H R E S H O L D (V )H I G H L E V E L I N P U T V O L T A G E T H R E S H O L D (V )2.03.5500TYPICAL CHARACTERISTICSFigure 24. High Side Supply Current vs.TemperatureFigure 25. High Side Supply Current vs.Bootstrap Supply VoltageTEMPERATURE (°C)BOOTSTRAP SUPPLY VOLTAGE (V)040100201816141210020100B O O T S T R A P S U P P L YC U R R E N T (m A )B O O T S T R A P S U P P L YC U R R E N T (m A )100806040200−20−40120206080406080Figure 26. V CC Supply Current vs.TemperatureFigure 27. V CC Supply Current vs. V CC SupplyVoltageTEMPERATURE (°C)V CC , SUPPLY VOLTAGE (V)100806040200−20−401002003004005002018161412100100200300400500Figure 28. UVLO Start Up Voltage vs.Temperature Figure 29. UVLO Shut Down Voltage vs.Bootstrap Supply VoltageTEMPERATURE (°C)TEMPERATURE (°C)10120V C C S U P P L Y C U R R E N T (m A )V C C S U P P L Y C U R R E N T (m A )U V L O S T A R T U P V O L T A G E t h (V )U V L O S H U T D O W N V O L T A G E t h (V )TYPICAL CHARACTERISTICSFigure 30. ICC1 Consumption vs. Switching Frequency with 15 nC Load on Each DriverFigure 31. ICC1 Consumption vs. Switching Frequency with 33 nC Load on Each DriverSWITCHING FREQUENCY (kHz)SWITCHING FREQUENCY (kHz)05.0152535010204060I C C + I b o o t C U R R E N T S U P P L Y (m A )I C C + I b o o t C U R R E N T S U P P L Y (m A )1020303050Figure 32. ICC1 Consumption vs. Switching Frequency with 50 nC Load on Each Driver Figure 33. ICC1 Consumption vs. Switching Frequency with 100 nC Load on Each DriverSWITCHING FREQUENCY (kHz)SWITCHING FREQUENCY (kHz)01020304050608070I C C + I b o o t C U R R E N T S U P P L Y (m A )11PACKAGE DIMENSIONSSOIC−8 NB CASE 751−07NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: MILLIMETER.3.DIMENSION A AND B DO NOT INCLUDE MOLD PROTRUSION.4.MAXIMUM MOLD PROTRUSION 0.15 (0.006)PER SIDE.5.DIMENSION D DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBARPROTRUSION SHALL BE 0.127 (0.005) TOTAL IN EXCESS OF THE D DIMENSION AT MAXIMUM MATERIAL CONDITION.6.751−01 THRU 751−06 ARE OBSOLETE. NEWSTANDARD IS 751−07.DIM A MIN MAX MIN MAX INCHES4.805.000.1890.197MILLIMETERS B 3.80 4.000.1500.157C 1.35 1.750.0530.069D 0.330.510.0130.020G 1.27 BSC 0.050 BSC H 0.100.250.0040.010J 0.190.250.0070.010K 0.40 1.270.0160.050M 0 8 0 8 N 0.250.500.0100.020S5.806.200.2280.244YM0.25 (0.010)Z SXS____ǒmm inchesǓSCALE 6:1*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*PACKAGE DIMENSIONS8 LEAD PDIP CASE 626−05NOTES:1.DIMENSION L TO CENTER OF LEAD WHEN FORMED PARALLEL.2.PACKAGE CONTOUR OPTIONAL (ROUND OR SQUARE CORNERS).3.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.DIM MIN MAX MIN MAX INCHESMILLIMETERS A 9.4010.160.3700.400B 6.10 6.600.2400.260C 3.94 4.450.1550.175D 0.380.510.0150.020F 1.02 1.780.0400.070G 2.54 BSC 0.100 BSC H 0.76 1.270.0300.050J 0.200.300.0080.012K 2.92 3.430.1150.135L 7.62 BSC 0.300 BSC M −−−10 −−−10 N0.76 1.010.0300.040__ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATIONThe product described herein (NCP5181), is covered by U.S. patent: 6,362, 067. There may be some other patent pending.。