FS8856-36PD中文资料

序号型号螺纹适用车型只/箱备注1 空气干噪剂 M39x1.5 122 CX0706 M18x2 大柴498 403 CX0706L 3/4"-16 五十铃 404 CX0708 M16x1.5 云内4100 新昌490 锡柴4105 4102 405 CX7085 M16x1.5 4100Q 一汽红塔江淮金杯杭叉合叉 406 CX0708A M18x1.5 南充扬柴4102 4105 407 CX0710 M16x1.5 玉柴大柴锡柴6105 6102 6108 6110 913 508 CX0710B M16x1.5 风神6102 409 CX0710B1 M16x1.5 依维柯 4010 CX0710B3 M16x1.5 锡柴4113 5T运煤王依维柯 4011 CX0710B4 M20x1.5 朝柴4102 4105 4012 CX0710C M16x1.5 风神6102 4013 CX0710D M30x2 玉柴福柴 6105QC 4014 CX0710E M30x2 锡柴4113 4110 4015 CX0710F M16x1.5 FF5052 6BT 3016 CX0710F1 M16x1.5 FF5327 3T轻卡小康明斯4105 4102 4017 CX0709 3/4"-16 江淮 4018 CX0709A M14x1.5 玉柴6108 4112 6112 锡柴CA6DL A3000-1105020 4019 CX0709A1 M14x1.5 奥威 1117050-29D 4020 CX0711 M16x1.5 奥威 1117060-29D 4021 CX0712 M30X2 郑州正星加油机 4022 CX0712B M16x1.5 玉柴6108 4112 6112 A3000-1105030 4023 CX0806 M20x1.5 WB789 莱动495 4024 SX0807 11/16"-16 WF2051 6CT水滤 3625 CX0807 M20x1.5 ME06825 3626 CX0808 M20x1.5 ME016823 三菱 3627 CX0808B 3/4"-16 江门三菱五十铃 3628 CX0809 13/16"-18 FS1280 康明斯油水分离器 3029 CX0810 3/4"-16 295声 290 485系列 4030 CX0810S M16x1.5 维柴欧三 1117050A52D 东方红三菱 4031 CX0811 1"-14 FF105 重庆康明斯 2432 CX0811A 13/16"-18 FS1280产品康明斯DFEC NT855 2433 SX0811 11/16"-16 WF2053 康明斯上柴D6114水滤 2434 CX0812 1"-14 同FS1212 2435 CX0814C 1"-14 上柴D6114 一汽九平柴 FF185 2436 CX0814J M20x1.5 欧三612630081334 3037 FF5485 M20x1.5 康明斯欧三CX0816 CX-6384康明斯4缸,公交车用 3038 FF5488 M22x2 康明斯欧三39 CX0818 M18X1.5 斯太尔维柴豪沃解放新大威 3040 CX0818A M18X1.5 3041 CX1010 1"-14 YC6112(新)G4600-1105020（YCX-6326） 2442 CRX1010 1"-14 欧三柴滤 R60S-PHC-C 3043 CX1011A 1"-14 玉柴6112（增压）YC6M YC6108 乘龙王 2444 CX1011A1 1"-14 玉柴61126112ZLQ 150-1105020A G4600-1105020 2445 CX1014A M24X1.5 YCM220G M3001-1105240(YC6336) 2446 CX1016 1"-14 维柴玉柴欧三VG1540080110 G5800-110514*614 2447 CX1017 1"-14 G5800-1105240 豪沃欧三（YCX6360） 20 带感应器50 CX1017A 1"-14 玉柴欧三 VG1540080211 UC-4035 20 带感应器48 CX1018 1"-14 玉柴欧三 G5800-1105140（YCX-6335） 2049 CX1020 1"-14 玉柴欧三G5800-1105140A（YCX-6347）CRX1014 2051 CX1023 M32X1.5 欧三 W11102/4 Ford 2C46-9176-AA 1652 CX1023J 1"-14 维柴欧三 612630080203 1653 FS1212 1"-14 康明斯沉淀器 3054 加油机系列 1.5"-16 4055 DX150 M16x1.5 EQ145 153沉淀器 4056 DX150A M14X1.5 Ievco 4057 DX150B M18x1.5 农用车系列 A3000-1105020 4058 DX200 M14X1.5 4059 DX200A M16x1.5 江淮玉柴等 4060 FF105 1"-14 KTA19-G3 1261 FF202 1.1/4"-12 重庆康明斯R6 R16 R19 KV12柴油 1262 FF5327 M16x1.5 同上 CX0710F1 4063 WR789 M20x1.5 莱阳495 北汽福田 4064 UC-206C M16x1.5 斯太尔 4065 UC-206 M16x1.5 斯太尔 4066 UC-220 M16x1.5 VG14080740A 4067 UC-220C M16x1.5 VG14080739 4068 WK962\7 M18X1.5 VG1560080012 斯太尔维柴豪沃解放新大威3069 WK962\4 M16X1.5 Mann 3070 WK940\20 M18X1.5 欧三共轨喷射燃油滤 VG1540080310 3071 WDK999 M18X1.5 欧三共轨喷射燃油滤 3072 PL270 1"-14 24 带水杯73 PL420 1"-14 奥威豪沃欧三 VG1540080311 612630080088 16 带水杯74 PL420 1"-14 奥威豪沃欧三 VG1540080311 UC4023 16 带感应器75 FS1003 1"-14 陕西重汽 FS1022 3076 R60P 1"-14 24 带水杯77 R90P 1"-14 维柴欧三61263008080205 24 带水杯78 R120P 1"-14 陕西重汽在线订购空气干噪剂WABCO DAF Iveco M.A.NPenaurt TB1374X432 410 020 2CX0506Q 维柴杨柴CX0705B 福田海狮4D22 483 TF8889 4FC-330100A E0483******** CX0706 TC87系列、大柴498 黑豹CX0706A4大柴1117010AX21CX0706L 江铃、江淮、合叉、五十铃皮卡498柴滤ISUZE NPR4.3MODEL720SAFARI,ATLAS200.300CONDOR20.30 MICROBUSCIVILIAN 13B ENGINE8-94414796 Z169A PD2002 16403-Z7000 ISUZU5-87310-335-0 16403-Z7000 16403-89TA1 8-94448-984-08-4143-479-0 FF5328CX0707A 2 日野H07C J08 金龙五十铃6HE1 CLX-22323401-1330 8-94394-079-Z FC-607 TF8813 TF8852CX0708 云内4100 新昌490 锡柴4105 4102CX0708B/CX70851117010-M 530-1105010 (YCX-6311) YC4110、YC4108(增压)YCX-6311CX7085 4100Q 一汽红塔江淮金杯杭叉合叉1117010-MCX0708A 锡柴498柴油机CX0709 JAC 日产FD6 16403-Z9005 TF8856 FC-214CX0709A 玉柴6108 4112 6112 锡柴CA6DLA3000-1105020 (YCX-6320)CX0709A1奥威1117050-29D 1117050-29DCX0709H 江淮金龙（FD46T）大柴498 16403-010T01 16403 010 T01CX0710 玉柴大柴锡柴6105 6102 6108 6110 913WBF988 6QA-1105300A 630-1105-030 K1117001A1117050-D1 YCX-6318CX0710B YC6105（增压）、YC6108(增压)、YC4108、YC4110、YC4112231-1105020 (YCX-6312)CX0710B1依维柯玉柴/锡柴231-1105020 1902138 A7100-1105140 (YCX-6342)CX0710B 3 锡柴4113 5T运煤王依维柯CX0710B4朝柴4102 4105CX0710C 风神6102CX0710C2FC-224 16403-01T01CX0710D 玉柴6108 福柴6105QC CX0710G TF8847CX0710E 锡柴4113 4110CX0710F FF5052 6BT FF5052 3931063 1117N-010CX0710F 1 FF5327 3T轻卡小康明斯4105 41021117001-29D FF5327 FS19544 T64101003 T64102003119-G030CX0710F5大柴FF5631 CLX-203A 1117050-D6CX0711 奥威锡柴6DL 1117060-29D TF8881 CX0711F 大柴FS19607 1117040-D6 CLX-202A CX0712 郑州正星加油机来动494CX0712B YC6108(增压)(新)、YC4108、YC6105 4112 6112 金杯A3000-1105030 (YCX-6314) CLQ36-100 TF8870CX0805A1ME006066 FC-317 31945-41001 CX0806 WB789 莱动495 D495QB-10750 CX0807 ME016825 三菱CX0807A 2 苏州金龙FC-318 CX0807 MD016823 4D33CX0807M3CUMMINS FF108 50900001SX0807 WF2051 6CT水滤A3000-1106030 WF2051 3305367 CX0808 ME016823 三菱CX0808B 江门三菱五十铃CX0809 FS1280油水分离器金龙XM26892C 柳工郑州宇通性英格索兰厦门金龙烟台大宇FS1280,3930942,C471-00003 ,FS1280,3315833,3925274,1125-N010CX0809E 东风天锦R791-11025BF11-020 00(1280外）CX0810 295声290 485系列CX0810B3Thermo-king 11-8047CX0810S 维柴欧三117050A52D 东方红三菱CX0810C 潍柴道以兹华柴BF413/513/1015 大柴BF6M1013C/CP 三一重工YL25C、YC26 徐工WK940/3 WK940/5 1164620 1174422 011B1245(-se-0310186.0541.18.8.0004 CLQ16-1000 CLX-75 IF8884CX0811 FF105 重庆康明斯CX0810D CLX-1893315844CX0811A FS1280产品康明斯FS1280,3930942,C471-00003 ,FS1280,3315833,3925274,1125DFEC NT855（康明斯R791H 11025BF11-020 000） -N010 CX0811A1上柴D6114ZLQB D638-000-50 SX0811 WF2053 康明斯 上柴D6114水滤CX0812 同FS1212CX0814A 3 杭州日产RE8、RF8 宇通UD 客车 FF5502 FC232 TF883816403-9902（9908）（99011）（AT10） CX0814A 5 上海小松 FF5076 WK950/3P557440 CX-644600-311-9121 CX0814C 上柴D6114 一汽九平柴 FF185CX0814J 维柴欧三612630081334CX0815D638-002-40 FF5488 康明斯欧三ISC,ISM,ISL,QSC,QSLFF5580 FF95873959612 3973232 FF5485康明斯欧三 CX0816 CX-6384康明斯4缸,公交车用 CX0818 斯太尔 维柴 豪沃 解放 新大威CX0818ACX1010 YC6112(新) G4600-1105020（YCX-6326）M10放水阀CRX1010 欧三柴滤 R60S-PHC-CCX1011A玉柴6112（增压）YC6M YC6108 乘龙王 YC6112(新)G4600-1105020（YCX-6326）YCX-6316 CX1011A1 玉柴6112 玉柴YC6112ZLQ D638-002-04a FS19686 TF8854玉柴6112 6112ZLQ 150-1105020A G4600-1105020 D00-305-03 CX1011B 上柴 Hino 23401-1200(1221) W85A-002-01CX1011E 玉柴6112 玉柴YC6112ZLQ 150-1105020A G4600-1105020CX1012A R60-10-HP D638-002-04aCX1014A 玉柴YC6M220G YCM220G M3001-1105240(YCX-6336)型号 适用车型 图号CX1016 维柴 玉柴欧三VG1540080110 G5800-1105140*614CRF1016 YC6G242-20,6L(欧III ） 150-1105020A G4600-1105020CX1017 G5800-1105240 豪沃欧三 （YCX6360）CX1017A玉柴欧三 VG1540080211 UC-4035 1105-00159 玉柴：G5800-1105240(c) 重汽：VG1540080211上柴：D00-305-02+A 互换:YCX6360;W0002 宇通客车YCCB101100019501CX1018 玉柴欧三G5800-1105140（YCX-6335）1117011CX1020 北客京华玉柴欧三G5800-1105140A（YCX-6347）CRX1014金龙、宇通、江淮重卡、天龙、中威黄海、适用：玉柴：YC6G240-30（G5800-1105140/C);重汽：VG1540080110；上柴：638-002-802A;互换：YCX6347;YCX6335;F0001CX1023欧三WDK11102/4 Ford2C46-9176-AA适用：潍柴：WP10/12(612630080087); 2C46-9176-AA;33721互换：WDK11 102/4*CX1023J 维柴欧三612630080203FS1212 康明斯沉淀器重庆康明斯烟台大宇东风日产大宇BH115、116、1173315843 FS1015 16400DT300 WK950\16 IF884465.12503-5011D(S) 3315843 1640DT300加油机系列DX150 EQ145 153沉淀器1109N-15 YCX-6327 DX150A 依维柯98款97210330EODX150B 农用车系列A3000-1105020DX200DX200A 江淮玉柴等6105 6108YC6108G系列B7604-1105200（YCX-6329）FF105 KTA19-G3FF202 重庆康明斯R6 R16 R19 KV12柴油FF5327 同上CX0710F1WR789 莱阳495 北汽福田UC-206C 斯太尔H61500080044 UC-206 斯太尔H61500080043 UC-220 VG14080740AUC-220C VG14080739AWK962\7 VG1560080012 斯太尔维柴豪沃解放新大威FF5272 CX-664 CX0818A3420799 8193841WK962\4 Mann DFA FF4070CX0818A2247138WK940\2 0 欧三共轨喷射燃油滤VG1540080310锡柴CA6DL2-253(1117001-630-0000); 东风雷诺；重汽豪沃；斯太尔王欧3；WDK999；WDK940/20;F0005WDK999 欧三共轨喷射燃油滤WDK999/1 FF5470CRF0810A21170101-73D D5010477855PL270PL420 奥威豪沃欧三VG1540080311 612630080088福特PL420 奥威悍威(DX820N)潍柴612600081335WP10/12(612630080088)锡柴：1117025-621-000；3C46-9176-BA PL420/2PL420 奥威豪沃欧三VG1540080311 UC4023FS1000 LFF1000 WK965 CX0818S3329298 HCX0819-NFJ329298 3329298561 4398 1273400211（212）（213）256-8753FS1003 陕西重汽FS1022R60PR90P 维柴欧三61263008080205 R120P 陕西重汽FS1242FS19816 康明斯欧三4988297FS19816 康明斯欧三4988297CX0710E 2 起亚、江铃天顺玉柴朝柴五十铃欧三欧四二管CN3C 159B328BA\R5864350\P6353260 W3000-1105300CX0710E 3 起亚、江铃天顺玉柴朝柴五十铃欧三欧四三管CN3C 159155BA\R6353260\3139-H1970（0807）W3000-1105100CX0710E 3 起亚、江铃天顺玉柴朝柴五十铃欧三欧四三管CN3C 159155BA\R6353260\3139-H1970（0807）W3000-1105100日产CWA54HM1搅拌车三菱FV515搅拌车FF185 P557440 CUMMINS:1P-2299 FF5304 KOMATSU:600-311-8222 P550410FS19732 945174945147 戴纳派克压路机945624 戴纳派克压路机939082 戴纳派克压路机圆头徐州(JX0814M东风天锦)(康明斯R791H 1012BF11-025 00方）945145 戴纳派克压路机WB178FS19789W719/5W940HH164-32430久保田机滤柴滤（放水小螺丝H15）3270137951W940/17 锡柴国三1117050-53D JX0818A3ZF变速箱滤芯0750 131053。

WE05MF 中文PDF资料参数特点电路图
替换型号:WE05MF SES5VT553-5， NZQA6V8AXV5T1G，NZQA6V2XV5T1G，MSMF05LC-P ，EMZ6.8ET2R RSA6.1J4
WE05MF是低电容、±15kV ESD保护二极管阵列，具有集成的瞬态电压抑制器(TVS)箝位，适用于高速与通用信号的ESD保护。

低输入电容使这些器件可理想用于HDTV、PC 监视器、PC外设、服务器互连、数据通信，以及机箱间互连中信号的ESD保护。

每个通道都包含一个二极管，可以将ESD电流脉冲导引到VCC或GND。

WE05MF提供的保护针对IEC 61000-4-2规定的最高±15kV人体模型、±8kV接触放电以及±15kV气隙放电的ESD脉冲。

集成的TVS确保在出现ESD冲击时，VCC电压的上升被箝位在已知的电压。

电路图
原理和配置
电参数
电性能参数
外形图-SOT-553:
尺寸规格
DIM 英寸外型尺寸
Z 0.0708 1.80
G 0.0354 0.90
P 0.0197 TYP 0.50 TYP
X 0.0118 0.3
来源: 第一价值网(IC网络超市)。

USB2.0 HUB控制器集成电路USB 2.0 HIGH SPEED 4-PORT HUB CONTROLLERSL2.2s数据手册Data Sheet内容目录第一章管脚分配 (3)1.1 SL2.2S管脚图 (3)1.2 SL2.2S管脚定义 (3)第二章 功能叙述 (5)2.1综述 (5)2.2指示灯 (5)2.2.1单灯方案 (5)2.2.2多灯方案 (6)2.2.3 LED指示定义 (6)2.3过流保护 (6)2.4充电支持 (6)2.5I2C接口 (7)2.6EEPROM设置 (7)第三章电气特性 (8)3.1极限工作条件 (8)3.2工作范围 (8)3.3直流电特性 (8)3.4HS/FS/LS电气特性 (8)3.5ESD特性 (8)附录一封装 (9)表格目录表格1: 端口LED定义 (6)表格 2 : ACTIVE LED定义 (6)表格3：EEPROM数据结构定义 (7)表格4: 最大额定值 (8)表格5: 工作范围 (8)表格6: 直流电特性 (8)插图目录图1：SSOP28 管脚图 (3)图2：单灯方案配置 (5)图3: 5灯方案配置 ............................................................................... (6)图 4：附录 封装图 ................................................................................... .9第一章管脚分配1.1SL2.2s管脚图图1：SSOP28 管脚图1.2SL2.2s管脚定义管脚名称28Die IO类型定义Pin#VSS 1 P 芯片地XOUT 2 O晶振PAD XIN 3 IDM4 4 B下行口4的USB信号DP4 5 BDM3 6 B下行口3的USB信号DP3 7 BDM2 8 B下行口2的USB信号DP2 9 BDM1 10 B下行口1的USB信号DP1 11 BVDD18 12 P 模拟1.8vVDD33 13 P 模拟3.3v - 14 NCUDM 15 B上行口的USB信号UDP 16 BRESET_N 17 I,Pu 芯片外部复位输入- 18 NCPSELF 19 I,Pu 高为自供电，低为总线供电VDD5 20 P 5v输入VDD33 21 P 3.3v输出DRV 22 B,Pu 点灯驱动信号LED1 23 B,Pu 点灯驱动信号LED2 24 B,Pu 点灯驱动信号PWRN 25 B,Pu 下行口电源输出控制，低有效OVCRN/SDA 26 B,PuI2C SDA数据线，内部上拉；芯片初始化完成后作为过流保护输入脚，低有效SCL 27 B,Pu I2C SCL时钟输出VDD18 28 P 数字1.8v注释：O，输出；I 输入；B 双向；P 电源/接地；Pu 上拉；Pd 下拉；NC 悬空；第二章 功能叙述2.1综述SL2.2s 是一颗高集成度,高性能,低功耗的USB2.0集线器主控芯片；该芯片采用STT 技术,单电源供电方式，芯片供电电压为5v , 内部集成5V 转3.3V,只需在外部电源添加滤波电容；芯片自带复位电路，低功耗技术让他更加出众。

FDMS3686S PowerTrench ® Power Stage©2012 Fairchild Semiconductor CorporationFDMS3686S Rev.C11January 2012FDMS3686SPowerTrench ® Power StageAsymmetric Dual N-Channel MOSFETFeaturesQ1: N-ChannelMax r DS(on) = 8 m Ω at V GS = 10 V, I D = 13 A Max r DS(on) = 11 m Ω at V GS = 4.5 V, I D = 11 A Q2: N-ChannelMax r DS(on) = 2.8 m Ω at V GS = 10 V, I D = 23 A Max r DS(on) = 3.8 m Ω at V GS = 4.5 V, I D = 21 ALow inductance packaging shortens rise/fall times, resulting in lower switching losses MOSFET integration enables optimum layout for lower circuit inductance and reduced switch node ringing RoHS CompliantGeneral DescriptionThis device includes two specialized N-Channel MOSFETs in a dual PQFN package. The switch node has been internally connected to enable easy placement and routing of synchronous buck converters. The control MOSFET (Q1) and synchronous SyncFET (Q2) have been designed to provide optimal power efficiency.ApplicationsComputing CommunicationsGeneral Purpose Point of Load Notebook VCORE MOSFET Maximum Ratings T A = 25 °C unless otherwise notedThermal CharacteristicsPackage Marking and Ordering InformationSymbol ParameterQ1Q2Units V DS Drain to Source Voltage3030V V GS Gate to Source Voltage (Note 3)±20±20VI D Drain Current -Continuous (Package limited) T C = 25 °C 3055A-Continuous (Silicon limited) T C = 25 °C 54123 -Continuous T A = 25 °C 131a 231b -Pulsed40100E AS Single Pulse Avalanche Energy 404604mJ P D Power Dissipation for Single Operation T A = 25 °C 2.21a2.51bW Power Dissipation for Single Operation T A = 25 °C 1.01c 1.01dT J , T STGOperating and Storage Junction Temperature Range-55 to +150°CR θJA Thermal Resistance, Junction to Ambient 571a 501b °C/WR θJA Thermal Resistance, Junction to Ambient 1251c 1201d R θJCThermal Resistance, Junction to Case3.52.0Device MarkingDevice Package Reel Size Tape Width Quantity 22CA F10CCFDMS3686SPower 5613 ”12 mm3000 unitsPower 56G1D1D1D1G2S2S2S2D1PHASE (S1/D2)TopBottom® Power Stage©2012 Fairchild Semiconductor Corporation FDMS3686S Rev.C12On CharacteristicsDynamic CharacteristicsSwitching CharacteristicsForwadQ2100nAV GS(th)Gate to Source Threshold Voltage V GS = V DS , I D = 250 μA V GS = V DS , I D = 1 mAQ1Q2 1.11.121.5 2.73.0VΔV GS(th) ΔT JGate to Source Threshold Voltage Temperature CoefficientI D = 250 μA, referenced to 25 °C I D = 10 mA, referenced to 25 °C Q1Q2 -6-4 mV/°C r DS(on)Drain to Source On Resistance V GS = 10 V, I D = 13 A V GS = 4.5 V, I D = 11 AV GS = 10 V, I D = 13 A , T J = 125 °C Q15.88.57.881110.8m ΩV GS = 10 V, I D = 23 A V GS = 4.5 V, I D = 21 AV GS = 10 V, I D = 23 A , T J = 125 °C Q2 2.23.03.1 2.83.84.0g FSForward Transconductance V DS = 5 V, I D = 13 A V DS = 5 V, I D = 23 AQ1Q261124SC iss Input Capacitance Q1:V DS = 15 V, V GS = 0 V, f = 1 MHZ Q2:V DS = 15 V, V GS = 0 V, f = 1 MHZQ1Q2 1340182017852420pF C oss Output CapacitanceQ1Q2 485725645965pF C rss Reverse Transfer Capacitance Q1Q2 538680130pF R gGate ResistanceQ1Q20.20.20.60.923Ωt d(on)Turn-On Delay Time Q1:V DD = 15 V, I D = 13 A, R GEN = 6 ΩQ2:V DD = 15 V, I D = 23 A, R GEN = 6 ΩQ1Q2 8.291618ns t r Rise TimeQ1Q2 2.541010ns t d(off)Turn-Off Delay Time Q1Q2 20233236ns t f Fall TimeQ1Q2 2.231010ns Q g Total Gate Charge V GS = 0 V to 10 V Q1V DD = 15 V,I D = 13 AQ2V DD = 15 V, I D = 23 AQ1Q221272937nC Q g Total Gate ChargeV GS = 0 V to 4.5 V Q1Q210131418nC Q gs Gate to Source Gate Charge Q1Q2 3.94.6nC Q gdGate to Drain “Miller” ChargeQ1Q23.13.7nC® Power Stage©2012 Fairchild Semiconductor Corporation FDMS3686S Rev.C13F Q22336Notes:1. R qJA is determined with the device mounted on a 1 in 2 pad 2 oz copper pad on a 1.5 x 1.5 in. board of FR-4 material. R qJC is guaranteed by design while R qCA is determined by the user's board design.2. Pulse Test: Pulse Width < 300 ms, Duty cycle < 2.0%.3. As an N-ch device, the negative Vgs rating is for low duty cycle pulse ocurrence only. No continuous rating is implied.4. Q1: E AS of 40 mJ is based on starting T J = 25 o C; N-ch: L = 1 mH, I AS = 9 A, V DD = 27 V, V GS = 10 V. 100% test at L= 0.3 mH, I AS = 14 A. Q2: E AS of 60 mJ is based on starting T J = 25 o C; N-ch: L = 1 mH, I AS = 11 A, V DD = 27 V, V GS = 10 V. 100% test at L= 0.3 mH, I AS = 17 A.a. 57 °C/W when mounted on a 1 in 2 pad of 2 oz copperc. 125 °C/W when mounted on a minimum pad of 2 oz copperb. 50 °C/W when mounted on a 1 in 2 pad of 2 oz copperd. 120 °C/W when mounted on a minimum pad of 2 oz copperGDF DS SF SS GDF DS SF SS GDF DS SF SS GDF DS SF SSPower StageFDMS3686S Rev.C1Power Stage5FDMS3686S Rev.C1Power Stage6FDMS3686S Rev.C1Power StageFDMS3686S Rev.C1® Power StageFDMS3686S Rev.C18Power Stage9FDMS3686S Rev.C1®Power Stage10FDMS3686S Rev.C1分销商库存信息: FAIRCHILD FDMS3686S。

8A 180KHz 40V Buck DC to DC Converter XL4016FeaturesnWide 8V to 40V Input Voltage Range n Output Adjustable from 1.25V to 36V n Maximum Duty Cycle 100% n Minimum Drop Out 0.3Vn Fixed 180KHz Switching Frequency n 8A Constant Output Current Capability n Internal Optimize Power MOSFET n High efficiency up to 96%n Excellent line and load regulation n Built in thermal shutdown function n Built in current limit functionn Built in output short protection function n Built in input over voltage protection n Available in TO220-5L packageApplicationsn LCD Monitor and LCD TVn Portable instrument power supply n Telecom / Networking EquipmentGeneral DescriptionThe XL4016 is a 180 KHz fixed frequency PWM buck (step-down) DC/DC converter, capable of driving a 8A load with high efficiency, low ripple and excellent line and load regulation. Requiring a minimum number of external components, the regulator is simple to use and include internal frequency compensation and a fixed-frequency oscillator.The PWM control circuit is able to adjust the duty ratio linearly from 0 to 100%. An over current protection function is built inside. When short protection function happens, the operation frequency will be reduced from 180KHz to 48KHz. An internal compensation block is built in to minimize external component count.Figure1. Package Type of XL40168A 180KHz 40V Buck DC to DC ConverterXL4016Pin ConfigurationsFigure2. Pin Configuration of XL4016 (Top View) Table 1 Pin DescriptionPin Number Pin Name Description1 GND Ground Pin. Care must be taken in layout. This pin should be placed outside of the Schottky Diode to output capacitor ground path to prevent switching current spikes from inducing voltage noise into XL4016.2 FB Feedback Pin (FB). Through an external resistor divider network, FB senses the output voltage and regulates it. The feedback threshold voltage is 1.25V.3 SW Power Switch Output Pin (SW). SW is the switch node that supplies power to the output.4 VC Internal V oltage Regulator Bypass Capacity. In typical system application, The VC pin connect a 1uf capacity to VIN.5 VIN Supply V oltage Input Pin. XL4016 operates from a 8V to 40V DC voltage. Bypass Vin to GND with a suitably large capacitor to eliminate noise on the input.8A 180KHz 40V Buck DC to DC Converter XL4016 Function BlockFigure3. Function Block Diagram of XL4016Typical Application CircuitFigure4. XL4016 Typical Application Circuit (VIN=8V~40V, VOUT=5V/8A)8A 180KHz 40V Buck DC to DC Converter XL4016 Ordering InformationPart Number Marking ID Lead Free Lead Free Packing TypePackage TemperatureRangeXL4016E1 XL4016E1 TubeXLSEMI Pb-free products, as designated with “E1” suffix in the par number, are RoHS compliant.Absolute Maximum Ratings（Note1）Parameter Symbol Value Unit Input Voltage Vin -0.3 to 45 V Feedback Pin Voltage V FB-0.3 to Vin V Output Switch Pin Voltage V Output-0.3 to Vin V Power Dissipation P D Internally limited mW Thermal Resistance (TO220-5L)(Junction to Ambient, No Heatsink, Free Air)R JA30 ºC/W Operating Junction Temperature T J-40 to 125 ºC Storage Temperature T STG-65 to 150 ºC Lead Temperature (Soldering, 10 sec) T LEAD260 ºC ESD (HBM) >2000 V Note1: Stresses greater than those listed under Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operation is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.8A 180KHz 40V Buck DC to DC Converter XL4016 XL4016 Electrical CharacteristicsT a = 25℃;unless otherwise specified.Symbol Parameter Test Condition Min. Typ. Max. Unit System parameters test circuit figure4VFB FeedbackV oltageVin = 8V to 40V, V out=5VIload=0.5A to 8A1.225 1.25 1.275 VEfficiency ŋVin=12V ,V out=5VIout=6A- 87 - %Efficiency ŋVin=24V ,V out=12VIout=6A- 93 - %Electrical Characteristics (DC Parameters)Vin = 12V, GND=0V, Vin & GND parallel connect a 470uf/50V capacitor; Iout=500mA, T a = 25℃; the others floating unless otherwise specified.Parameters Symbol Test Condition Min. Typ. Max. Unit Input operation voltage Vin 8 40 V Quiescent Supply Current I q V FB =Vin 2.1 5 mA Oscillator Frequency Fosc 144 180 216 KHz Output Short Frequency Fosp 48 KHz Switch Current Limit I L V FB =0 10 A Max. Duty Cycle D MAX V FB=0V 100 %Output Power PMOS Rdson V FB=0V, Vin=12V,I SW=8A40 50 mohmVin Over V oltage Protection OVP 45 V8A 180KHz 40V Buck DC to DC ConverterXL4016Typical System Application (VOUT=5V/8A)Figure5. XL4016 System Parameters Test Circuit (VIN=8V~40V, VOUT=5V/8A)50556065707580859095100Efficiency VS Load currentE f f i c i e n c y (%)Load current(A)Figure6. XL4016 System Efficiency Curve8A 180KHz 40V Buck DC to DC ConverterXL4016Typical System Application (VOUT=12V/6A)Figure7. XL4016 System Parameters Test Circuit (VIN=15V~40V, VOUT=12V/6A)0.00.51.01.52.02.53.03.54.04.55.05.56.050556065707580859095100Efficiency VS Load currentE f f i c i e n c y (%)Load current(A)Figure8. XL4016 System Efficiency Curve8A 180KHz 40V Buck DC to DC Converter XL4016Typical System Application (With Enable function)Logic level signal shutdown function can be used in typical system application with externalcomponents. When the TTL high voltage above 3.3V(referenced to ground, lower than VIN), the converter will shutdown, input current less than 3mA; when theTTL Low voltage below 0.8V(referenced to ground), the converter will turn on.L1 47uH/12AFigure9. XL4016 Typical Application Circuit with Enable Function8A 180KHz 40V Buck DC to DC Converter XL4016Package InformationTO220-5L。

16-, 14-, 12-Bit, 6通道同步采样模数转换器ADS8556/7/8系列包括6个16-, 14-和12-bit模数转换器(ADCs)，各自基于连续逼近寄存器原理。

构架是基于充电分配原理，具有一个采样保持功能。

6个模拟输入组成3个通道组。

这些通道组可以并行采样，保留了信号的相对相位信息。

独立的转换开始信号可以控制每个通道的转换，可以是4个通道或者是6个通道一起转换。

器件支持单端，差分模拟输入信号，范围可以是±4VREF或者±2VREF ，最大输入电压可以达到±12V。

器件提供了一个内部的2.5V/3V参考电压源，配合一个10-bit的DA转换器，可以提供2.44mV或2.93mV的步进调整电压。

ADS8556/7/8同样提供一个可选择的并行或串行接口，可以用在硬件模式或软件模式中模拟部分本节讲述模拟输入电路，ADC以及控制信号，以及器件的参考设计模拟输入输入和转换器可以是单端或差分类型，绝对电压范围可以通过使用RANGE引脚进行配置（硬件模式）或控制寄存器（CR）中的RANGE_x位设置为±4V REF或±2V REF。

当使用的参考电压为2.5V时(CR bit C18 = 0),输入电压范围可以是±10V或±5V；当使用的参考电压为3V (CR bit C18 = 1),输入电压范围可以是±12V或±6V。

RANGE引脚在BUSY(如果CR bit C20 = 0)的下降沿锁存。

模拟输入端的输入电流取决于采样率，输入电压和信号的源阻抗。

实质上，模拟输入端的电流仅在采样周期(t ACQ)为内部的电容阵列进行充电。

在最大速率下（280ns），模拟输入电压的源必须能够为10pF的输入电容（±4V REF）或20pF（±2V REF）的输入电容充电。

在转换周期中，没有输入电流，输入阻抗大于1MΩ。

114 dB, 192 kHz, 6-Channel A/D ConverterFeatures♦Advanced Multi-bit Delta-Sigma Architecture ♦24-Bit Conversion ♦114 dB Dynamic Range ♦-105 dB THD+N♦Supports Audio Sample Rates up to 216 kHz ♦Selectable Audio Interface Formats–Left-Justified, I²S, TDM–6-Channel TDM Interface Formats♦Low Latency Digital Filter♦Less than 535 mW Power Consumption ♦On-Chip Oscillator Driver♦Operation as System Clock Master or Slave ♦Auto-Detect Speed in Slave Mode ♦Differential Analog Architecture♦Separate 1.8 V to 5 V Logic Supplies forControl and Serial Ports♦High-Pass Filter for DC Offset Calibration ♦Overflow Detection♦Footprint Compatible with the 8-ChannelCS5368Additional Control Port Features♦Supports Standard I²C™ or SPI™ ControlInterface♦Individual Channel HPF Disable♦Overflow Detection for Individual Channels ♦Mute Control for Individual Channels♦Independent Power-Down Control per ChannelPairCS5366DescriptionThe CS5366 is a complete 6-channel analog-to-digital converter for digital audio systems. It performs sampling, an-alog-to-digital conversion, and anti-alias filtering, generating 24-bit values for all 6-channel inputs in serial form at sample rates up to 216 kHz per channel.The CS5366 uses a 5th-order, multi-bit delta sigma modulator followed by low latency digital filtering and decima-tion, which removes the need for an external anti-aliasing filter. The ADC uses a differential input architecture which provides excellent noise rejection.Dedicated level translators for the Serial Port and Control Port allow seamless interfacing between the CS5366 and other devices operating over a wide range of logic levels. In addition, an on-chip oscillator driver provides clocking flexibility and simplifies design.The CS5366 is the industry’s first audio A/D to support a high-speed TDM interface which provides a serial output of 6 channels of audio data with sample rates up to 216 kHz within a single data stream. It further reduces layout complexity and relieves input/output constraints in digital signal processors.The CS5366 is available in a 48-pin LQFP package in both Commercial (-40°C to 85°C) and Automotive grades (-40°C to +105°C). The CDB5366 Customer Demonstration board is also available for device evaluation and implementation suggestions. Please see “Ordering Information” on page 41 for complete ordering information.The CS5366 is ideal for high-end and pro-audio systems requiring unrivaled sound quality, transparent conversion, wide dynamic range and negligible distortion, such as A/V receivers, digital mixing consoles, multi-channel record-ers, outboard converters, digital effect processors, and automotive audio systems.TABLE OF CONTENTS1. PIN DESCRIPTION (6)2. TYPICAL CONNECTION DIAGRAM (9)3. CHARACTERISTICS AND SPECIFICATIONS (10)RECOMMENDED OPERATING CONDITIONS (10)ABSOLUTE RATINGS (10)SYSTEM CLOCKING (10)DC POWER (11)LOGIC LEVELS (11)PSRR, VQ AND FILT+ CHARACTERISTICS (11)ANALOG CHARACTERISTICS (COMMERCIAL) (12)ANALOG CHARACTERISTICS (AUTOMOTIVE) (13)DIGITAL FILTER CHARACTERISTICS (14)OVERFLOW TIMEOUT (14)SERIAL AUDIO INTERFACE - I²S/LJ TIMING (15)SERIAL AUDIO INTERFACE - TDM TIMING (16)SWITCHING SPECIFICATIONS - CONTROL PORT - I²C TIMING (17)SWITCHING SPECIFICATIONS - CONTROL PORT - SPI TIMING (18)4. APPLICATIONS (19)4.1 Power (19)4.2 Control Port Mode and Stand-Alone Operation (19)4.2.1 Stand-Alone Mode (19)4.2.2 Control Port Mode (19)4.3 Master Clock Source (20)4.3.1 On-Chip Crystal Oscillator Driver (20)4.3.2 Externally Generated Master Clock (20)4.4 Master and Slave Operation (21)4.4.1 Synchronization of Multiple Devices (21)4.5 Serial Audio Interface (SAI) Format (22)4.5.1 I²S and LJ Format (22)4.5.2 TDM Format (23)4.5.3 Configuring Serial Audio Interface Format (23)4.6 Speed Modes (23)4.6.1 Sample Rate Ranges (23)4.6.2 Using M1 and M0 to Set Sampling Parameters (23)4.6.3 Master Mode Clock Dividers (24)4.6.4 Slave Mode Audio Clocking With Auto-Detect (24)4.7 Master and Slave Clock Frequencies (25)4.8 Reset (27)4.8.1 Power-Down Mode (27)4.9 Overflow Detection (27)4.9.1 Overflow in Stand-Alone Mode (27)4.9.2 Overflow in Control Port Mode (27)4.10 Analog Connections (28)4.11 Optimizing Performance in TDM Mode (29)4.12 DC Offset Control (29)4.13 Control Port Operation (30)4.13.1 SPI Mode (30)4.13.2 I²C Mode (31)5. REGISTER MAP (32)5.1 Register Quick Reference (32)5.2 00h (REVI) Chip ID Code & Revision Register (32)5.3 01h (GCTL) Global Mode Control Register (32)5.4 02h (OVFL) Overflow Status Register (33)5.5 03h (OVFM) Overflow Mask Register (33)5.6 04h (HPF) High-Pass Filter Register (34)5.7 05h Reserved (34)5.8 06h (PDN) Power Down Register (34)5.9 07h Reserved (34)5.10 08h (MUTE) Mute Control Register (34)5.11 09h Reserved (35)5.12 0Ah (SDEN) SDOUT Enable Control Register (35)6. FILTER PLOTS (36)7. PARAMETER DEFINITIONS (39)8. PACKAGE DIMENSIONS (40)THERMAL CHARACTERISTICS (40)9. ORDERING INFORMATION (41)10. REVISION HISTORY (41)LIST OF FIGURESFigure 1. CS5368 Pinout (6)Figure 2. Typical Connection Diagram (9)Figure 3. I²S/LJ Timing (15)Figure 4. TDM Timing (16)Figure 5. I²C Timing (17)Figure 6. SPI Timing (18)Figure 7. Crystal Oscillator Topology (20)Figure 8. Master/Slave Clock Flow (21)Figure 9. Master and Slave Clocking for a Multi-Channel Application (21)Figure 10. I²S Format (22)Figure 11. LJ Format (22)Figure 12. TDM Format (23)Figure 13. Master Mode Clock Dividers (24)Figure 14. Slave Mode Auto-Detect Speed (24)Figure 15. Recommended Analog Input Buffer (28)Figure 16. SPI Format (30)Figure 17. I²C Write Format (31)Figure 18. I²C Read Format (31)Figure 19. SSM Passband (36)Figure 20. DSM Passband (36)Figure 21. QSM Passband (36)Figure 22. SSM Stopband (37)Figure 23. DSM Stopband (37)Figure 24. QSM Stopband (37)Figure 25. SSM -1 dB Cutoff (38)Figure 26. DSM -1 dB Cutoff (38)Figure 27. QSM -1 dB Cutoff (38)LIST OF TABLESTable 1. Power Supply Pin Definitions (19)Table 2. DIF1 and DIF0 Pin Settings (23)Table 3. M1 and M0 Settings (23)Table 4. Frequencies for 48 kHz Sample Rate using LJ/I²S (25)Table 5. Frequencies for 96 kHz Sample Rate using LJ/I²S (25)Table 6. Frequencies for 192 kHz Sample Rate using LJ/I²S (25)Table 7. Frequencies for 48 kHz Sample Rate using TDM (25)Table 8. Frequencies for 48 kHz Sample Rate using TDM (25)Table 9. Frequencies for 96 kHz Sample Rate using TDM (26)Table 10. Frequencies for 96 kHz Sample Rate using TDM (26)Table 11. Frequencies for 192 kHz Sample Rate using TDM (26)Table 12. Frequencies for 192 kHz Sample Rate using TDM (26)1.PIN DESCRIPTION ArrayFigure 1. CS5366 PinoutPin Name Pin #Pin DescriptionAIN2+, AIN2-AIN4+, AIN4-AIN3+, AIN3-AIN6+, AIN6-AIN5+, AIN5-AIN1+, AIN1-1,211,1213,1443,4445,4647,48Differential Analog (Inputs) - Audio signals are presented differently to the delta sigma modula-tors via the AIN+/- pins.GND3,810,1516,1718,1929,32Ground (Input) - Ground reference. Must be connected to analog ground.VA4,9Analog Power (Input)- Positive power supply for the analog sectionREF_GND5Reference Ground (Input) - For the internal sampling circuits. Must be connected to analog ground.FILT+6Positive Voltage Reference (Output) - Reference voltage for internal sampling circuits. VQ7Quiescent Voltage (Output) - Filter connection for the internal quiescent reference voltage.VX20Crystal Oscillator Power (Input) - Also powers control logic to enable or disable oscillator cir-cuits.XTI XTO 2122Crystal Oscillator Connections (Input/Output) - I/O pins for an external crystal which may be used to generate MCLK.MCLK23System Master Clock (Input/Output) - When a crystal is used, this pin acts as a buffered MCLK Source (Output). When the oscillator function is not used, this pin acts as an input for the system master clock. In this case, the XTI and XTO pins must be tied low.LRCK/FS24Serial Audio Channel Clock (Input/Output)In I²S mode Serial Audio Channel Select. When low, the odd channels are selected.In LJ mode Serial Audio Channel Select. When high, the odd channels are selected.In TDM Mode a frame sync signal. When high, it marks the beginning of a new frame of serial audio samples. In Slave Mode, this pin acts as an input pin.SCLK25Main timing clock for the Serial Audio Interface (Input/Output) - During Master Mode, this pin acts as an output, and during Slave Mode it acts as an input pin.TSTO26Test Out (Output) - Must be left unconnected.SDOUT227Serial Audio Data (Output) - Channels 3,4VLS28Serial Audio Interface Power - Positive power for the serial audio interface.SDOUT1/TDM30Serial Audio Data (Output) - Channels 1,2, TDM.SDOUT3/TDM31Serial Audio Data (Output) - Channels 5,6, TDM is complementary TDM data.VD33Digital Power (Input) - Positive power supply for the digital section.VLC35Control Port Interface Power - Positive power for the control port interface.OVFL36Overflow (Output, open drain) - Detects an overflow condition on both left and right channels.RST41Reset (Input) - The device enters a low power mode when low.Stand-Alone ModeCLKMODE34CLKMODE(Input) - Setting this pin HIGH places a divide-by-1.5 circuit in the MCLK path to the core device circuitry.DIF1 DIF03738DIF1, DIF0 (Input) - Sets the serial audio interface format.M1 M03940Mode Selection (Input) - Determines the operational mode of the device.MDIV42MCLK Divider (Input) - Setting this pin HIGH places a divide-by-2 circuit in the MCLK path to the core device circuitry.Control Port ModeCLKMODE34CLKMODE (Input) - This pin is ignored in Control Port Mode and the same functionality is obtained from the corresponding bit in the Global Control Register. Note: Should be connected to GND when using the part in Control Port Mode.AD1/CDIN37I²C Format, AD1 (Input) - Forms the device address input AD[1]. SPI Format, CDIN (Input) - Becomes the input data pin.AD0/CS38I²C Format, AD0 (Input) - Forms the device address input AD[0]. SPI Format, CS (Input) - Acts as the active low chip select input.SCL/CCLK39I²C Format, SCL (Input) - Serial clock for the serial control port. An external pull-up resistor is required for I²C control port operation.SPI Format, CCLK (Input) - Serial clock for the serial control port.SDA/CDOUT40I²C Format SDA (Input/Output) - Acts as an input/output data pin. An external pull-up resistor is required for I²C control port operation.SPI Format CDOUT (Output) - Acts as an output only data pin.MDIV42MCLK Divider (Input) - This pin is ignored in Control Port Mode and the same function-ality is obtained from the corresponding bit in the Global Control Register.Note: Should be connected to GND when using the part in Control Port Mode.2.TYPICAL CONNECTION DIAGRAM Array Figure 2. Typical Connection DiagramFor analog buffer configurations, refer to Cirrus Application Note AN241. Also, a low-cost single-ended-to-differen-tial solution is provided on the Customer Evaluation Board.3.CHARACTERISTICS AND SPECIFICATIONS RECOMMENDED OPERATING CONDITIONSGND = 0 V, all voltages with respect to 0 V.1.TDM Quad-Speed Mode specified to operate correctly at VLS ≥ 3.14 V.ABSOLUTE RATINGSOperation beyond these limits may result in permanent damage to the device. Normal operation is not guaranteed at these extremes. Transient currents up to ±100 mA on the analog input pins will not cause SCR latch-up.SYSTEM CLOCKINGParameterSymbol MinTypMax UnitDC Power Supplies:Positive Analog Positive Crystal Positive Digital Positive Serial Logic Positive Control LogicVA VX VD VLS VLC 4.754.753.141.7111.71 5.05.03.33.33.3 5.25VAmbient Operating Temperature(-CQZ) (-DQZ)T AC T AA-40-40--85105°CParameterSymbolMin Typ Max UnitsDC Power Supplies:Positive Analog Positive Crystal Positive Digital Positive Serial Logic Positive Control LogicVA VX VD VLS VLC -0.3-+6.0VInput Current I in -10-+10mA Analog Input Voltage V IN -0.3VA+0.3V Digital Input VoltageV IND VL+0.3Ambient Operating Temperature (Power Applied)T A -50+125°CStorage TemperatureT stg-65+150ParameterSymbolMinTyp MaxUnitInput Master Clock Frequency MCLK 0.51255.05MHz Input Master Clock Duty Cyclet clkhl4060%分销商库存信息:CIRRUS-LOGICCS5366-CQZ CS5366-DQZ CS5366-CQZR CS5366-DQZR。

AU6366USB2.0 Single LUNMultiple Flash Card Reader Controller Technical Reference ManualAU6366USB2.0 Single LUN Multiple Flash Card Reader ControllerC o p y r i g h tCopyright © 1997 - 2007. Alcor Micro, Corp. All Rights Reserved. No part of this data sheet may be reproduced, transmitted, transcribed, stored in a retrieval system or translated into any language or computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without prior written permission from Alcor Micro, Corp.T r a d e m a r k A c k n o w l e d g e m e n t sThe company and product names mentioned in this document may be the trademarks or registered trademarks of their manufacturers.D i s c l a i m e rAlcor Micro, Corp. reserves the right to change this product without prior notice. Alcor Micro, Corp. makes no warranty for the use of its products and bears no responsibility for any error that appear in this document. Specifications are subject to change without prior notice.R e v i s i o n H i s t o r yDate Revision DescriptionJan 2006 1.00W Official ReleaseAug 2006 1.01W Update new address of Los Angeles OfficeNov 2006 1.02W Modify “1.2 Features”July 2007 1.03W Modify “5.6 Power Switch Feature”C o n t a c t I n f o r m a t i o n:Web site: /Taiwan China ShenZhen OfficeAlcor Micro, Corp. Rm.2407-08, Industrial Bank Building 4F, No 200 Kang Chien Rd., Nei Hu, No.4013, Shennan Road,Taipei, Taiwan, R.O.C. ShenZhen,China. 518026Phone: 886-2-8751-1984 Phone: (0755) 8366-9039Fax: 886-2-2659-7723 Fax: (0755) 8366-9101Santa Clara Office Los Angeles Office2901 Tasman Drive, Suite 206 9070 Rancho Park CourtSanta Clara, CA 95054 Rancho Cucamonga, CA 91730USA USA Phone: (408) 845-9300 Phone: (909) 483-9900Fax: (408) 845-9086 Fax: (909) 944-0464<Memo>Table of Contents1. Introduction (1)1.1 Description (1)1.2 Features (1)2. Application Block Diagram (2)3. Pin Assignment (3)4. System Architecture and Reference Design (6)4.1 AU6366 Block Diagram (6)5. Electrical Characteristics (7)5.1 Absolute Maximum Ratings (7)5.2 Recommended Operating Conditions (7)5.3 General DC Characteristics (7)5.4 DC Electrical Characteristics of 3.3V I/O Cells (8)5.5 USB Transceiver Characteristics (8)5.6 Power Switch Feature (12)6. Mechanical Information (13)7. Abbreviations (14)iList of FiguresFigure 2.1 Block Diagram (2)Figure 3.1 Pin Assignment Diagram (3)Figure 4.1 AU6366 Block Diagram (6)Figure 5.1 Built-in card power switch I-V curve (12)Figure 5.2 Card Detect Power-on Timing (12)Figure 6.1 Mechanical Information Diagram (13)List of TablesTable 3.1 Pin Descriptions (4)Table 5.1 Absolute Maximum Ratings (7)Table 5.2 Recommended Operating Conditions (7)Table 5.3 General DC Characteristics (7)Table 5.4 DC Electrical Characteristics of 3.3V I/O Cells (8)Table 5.5 Electrical characteristics (8)Table 5.6 Static characteristic：Digital pin (9)Table 5.7 Static characteristic：Analog I/O pins（DP/DM） (9)Table 5.8 Dynamic characteristic：Analog I/O pins（DP/DM） (10)ii1. Introduction1.1D e s c r i p t i o nThe AU6366 is a single chip integrated USB 2.0 multimedia card reader controller that enables PC/DVD/Printer to read/write various type of flash media cards. Flash media cards such as CF, SMC, XD, SD, MMC, Memory Stick are widely used in digital camera, cell phone, PDA and MP3 player to store digital photos and compressed music.Performance of AU6366 is maximized by implementing the latest and fastest card specification available form the industry.The AU6366 is designed in shared pin architecture to meet cost and space regulate for Notebook end reunite.1.2F e a t u r e sSupport USB V2.0 specification and USB Device Class Definition for Mass Storage, Bulk-Transport V1.0Support CF/MD/SD/MMC/MS/MS_Pro/MS_Duo/xD/SMC compatible flash cardSupport the latest flash card specification: CF 3.0 (16-bit IDE mode), SD1.1 (HS-SD), MMC4.0 (8-bit), MSPro parallel mode (4-bit), xD 1.2 Hardware DMA engine integrated for performance enhancementWork with default driver from Windows ME/2000/XP and Mac OS X; Windows 98/2000(SP1/SP2) and Mac OS 9 are supported by vendor driver fromAlcor.Ping-pong FIFO implementation for concurrent bus operationSupport multiple sectors transfer optimize performanceSupport slot-to-slot read/write operationSupport Dynamic Icon UtilitySupport LED for bus operating indicationPower switch integrated to reduce production BOM cost30MHz 8051 CPUBuilt in 3.3V to 2.5V regulatorRun at 12MHz crystalAvailable in 48-pin LQFP packageAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 12. Application Block DiagramThe following application drawing demonstrates a typical card reader block diagram using AU6366. By connecting one card reader to a desktop or notebook PC through USB bus, the AU6366 becomes a bus-powered, high speed USB card reader, which can be used as a bridge for data transfer between Desktop PC and Notebook PC.Figure 2.1 Block DiagramSMC/SD/MMCAU6366AU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 2AU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W33. Pin AssignmentThe AU6366 is delivered in 48pin LQFP form factor. Documented below is a figure shows signal names of each pin and a table in the following page describes each pin in more details.Figure 3.1 Pin Assignment DiagramCARDDATA15CFWTN CLEDCHIPRESETN GNDAVDDARPUAVDD DPDMAVSS RREFXDCDNCONTROLOUT5CONTROLOUT4CONTROLOUT3CONTROLOUT2CONTROLOUT1CONTROLOUT0VDDCARDDATA1CARDDATA2GNDCARDDATA0SDCDNVSSHCPWR_V33SMCDNCFCDNMSINSVDD25VPVSSPVDDXOVDDHXICARDDATA3CARDDATA4CARDDATA5CARDDATA6CARDDATA7CARDDATA8CARDDATA9CARDDATA10CARDDATA11CARDDATA12CARDDATA14CARDDATA13AU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W4Table 3.1 Pin DescriptionsPin #Pin NameI/ODescription1 CARDDATA15 I/O CF Data15/xD Data72 CFWTN I CF WAITN3 CLED O Card Operating LED4 CHIPRESETNI Chip Reset, Pull up with RC 5 GNDA PLL Ground 6 VDDA I PLL VDD 2.5V7 RPU I Connected with an 1.5k pull up resistor to 3.3 VDD 8 AVDD I Analog Power 3.3V 9 DP I/O DP 10 DM I/O DM11 AVSS Analog Ground12 RREF I Connected an 1k resistor to GND for impedance match13 PVDD I OSC Power 3.3V 14 XI I 12 MHz crystal input. 15 XO O 12 MHz crystal output. 16 PVSS OSC Ground 17 VDD25V O Core Power 2.5V 18 VDDH I 3.3V for IO pad 19 CPWR_V33 O Card Power 3.3V 20 VSSH Power Ground 21 MSINS I MS INS22 SMCDN I SMC Card Detect 23 CFCDN I CF Card Detect 24 SDCDN I SD Card Detect 25 XDCDN I xD Card Detect26 CONTROLOUT5 O CFRESETN and SMWRN/XDWRN 27 CONTROLOUT4 O CFWRN and SMRDN/XDRDN 28 CONTROLOUT3 O CFRDN and XDCEN/SMCEN 29CONTROLOUT2OCFAD2 and SMALE/XDALEAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W5Pin #Pin NameI/ODescription30 CONTROLOUT1 O CFAD1, MSCLK and SMCLE/XDCLE 31 CONTROLOUT0O CFAD0, SDCLK and MSBS 32 VDD I Core power 2.5V 33 GND Core Ground34 CARDDATA0 I/O CFDATA0, MSDATA0,and SDCMD 35 CARDDATA1 I/O CFDATA1,MSDATA1,XDWPN,and SMWPN 36 CARDDATA2 I/O CFDATA2,MSDATA2,and SDWP37 CARDDATA3 I/O CFDATA3,MSDATA3,SMRBN,and XDRBN 38 CARDDATA4 I/O CFDATA4 and SDDATA0 39 CARDDATA5 I/O CFDATA5 and SDDATA1 40 CARDDATA6 I/O CFDATA6 and SDDATA2 41 CARDDATA7 I/O CFDATA7 and SDDATA342 CARDDATA8 I/O CFDATA8,XDDATA0, and SDDATA4 43 CARDDATA9 I/O CFDATA9,XDDATA1, and SDDATA5 44 CARDDATA10 I/O CFDATA10,XDDATA2, and SDDATA6 45 CARDDATA11 I/O CFDATA11,XDDATA3, and SDDATA7 46 CARDDATA12 I/O CFDATA12 and XDDATA4 47 CARDDATA13 I/O CFDADA13 and XDDATA5 48CARDDATA14I/OCFDATA14 and XDDATA64. System Architecture and Reference Design4.1 A U 6366 B l o c k D i a g r a mFigure 4.1 AU6366 Block DiagramCF MD SMC SD MMC MS xDUSB Upstream PortAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W65. Electrical Characteristics5.1A b s o l u t e M a x i m u m R a t i n g sTable 5.1 Absolute Maximum RatingsSYMBOL PARAMETER RATING UNITS V DDH Power Supply -0.3 to V DDH +0.3 VV IN Input Signal Voltage -0.3 to 3.6 VV OUT Output Signal Voltage-0.3 to V DDH +0.3 VT STG Storage Temperature-40 to 150 O C5.2 Recommended Operating ConditionsTable 5.2 Recommended Operating ConditionsSYMBOL PARAMETER MIN TYP MAX UNITS V DDH Power Supply 3.0 3.3 3.6 V V DD Digital Supply 2.25 2.5 2.75 V V IN Input Signal Voltage 0 3.3 3.6 V T OPR Operating Temperature 0 70 O C 5.3G e n e r a l D C C h a r a c t e r i s t i c sTable 5.3 General DC CharacteristicsSYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITSI IN Input current No pull-up orpull-down-10 ±1 10 µAI OZ Tri-state leakage current-10 ±1 10 µA C IN Input capacitance Pad Limit 2.8 ρF C OUT Output capacitance Pad Limit 2.8 ρFC BID Bi-directional buffercapacitancePad Limit 2.8 ρFAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 75.4D C E l e c t r i c a l C h a r a c t e r i s t i c s o f3.3V I/O C e l l sTable 5.4 DC Electrical Characteristics of 3.3V I/O CellsLimitsSYMBOL PARAMETER CONDITIONSMIN TYP MAXUNIT V DDH Power supply 3.3V I/O 3.0 3.3 3.6 V V il Input low voltage 0.8 VV ih Input high voltage LVTTL2.0 VV ol Output low voltage ∣I ol∣=2~16mA 0.4 V V oh Output high voltage ∣I oh∣=2~16mA 2.4 V R pu Input pull-up resistance PU=high, PD=low55 75 190 KΩR pd Input pull-down resistance PU=low, PD=high40 75 190 KΩI in Input leakage current V in= V DDH or 0 -10 ±1 10 μAI oz Tri-state output leakagecurrent-10 ±1 10 μA5.5U S B T r a n s c e i v e r C h a r a c t e r i s t i c sTable 5.5 Electrical characteristicsSymbol Parameter Conditions Min.Typ. Max.Unit VD33 Analog supply Voltage 3.0 3.3 3.6 V VDDUVDDADigital supply Voltage 2.25 2.5 2.75 VI CC Operating supply current High speed operatingat 480 MHz73mAI CC (susp)Suspend supply currentIn suspend mode,current with 1.5kΩpull-up resistor on pinRPU disconnected120µAAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 8Table 5.6 Static characteristic：Digital pinSymbol Parameter Conditions Min. Typ. Max. UnitInput levelsV IL Low-level input voltage 0.8 V V IH High-level input voltage 2.0 VOutput levelsV OL Low-level output voltage 0.2 V V OH High-level output voltage VDDH-0.2V Table 5.7 Static characteristic：Analog I/O pins（DP/DM）Symbol Parameter Conditions Min.Typ. Max. UnitUSB2.0 Transceiver（HS）Input Levels（differential receiver）V HSDIFF High speed differentialinput sensitivity∣V I（DP）-V I（DM）∣measured at theconnection asapplication circuit300 mVV HSCM High speed data signalingcommon mode voltagerange-50 500mVSquelch detected 100 mVV HSSQ High speed squelchdetection threshold No squelch detected150 mVDisconnectiondetected625 mVV HSDSC High speed disconnectiondetection threshold Disconnection notdetected525mVOutput LevelsV HSOIHigh speed idle leveloutput voltage(differential)-10 10mVV HSOLHigh speed low leveloutput voltage(differential)-10 10mVV HSOHHigh speed high leveloutput voltage(differential)-360 400mVV CHIRPJ Chirp-J output voltage（differential）700 1100mVV CHIRPK Chirp-K output voltage（differential）-900 -500mVResistanceR DRV Driver output impedance Equivalent resistanceused as internal chiponly3 6 9 ΩAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 9Overallresistanceincluding externalresistor40.5 45 49.5 TerminationV TERM Termination voltage forpull-up resistor on pinRPU3.0 3.6V USB1.1 Transceiver（FS/LS）Input Levels（differential receiver）V DI Differential inputsensitivity∣V I（DP）-V I（DM）∣0.2 VV CM Differential commonmode voltage0.8 2.5V Input Levels（single-ended receivers）V SE Single ended receiverthreshold0.8 2.0VOutput levelsV OL Low-level output voltage0 0.3 V V OH High-level output voltage 2.8 3.6 VTable 5.8 Dynamic characteristic：Analog I/O pins（DP/DM）Symbol Parameter Conditions Min.Typ. Max. UnitDriver CharacteristicsHigh-Speed Modet HSR High-speed differentialrise time500 pst HSF High-speed differential falltime500 psFull-Speed Modet FR Rise time CL=50pF；10 to 90﹪of∣V OH-V OL∣；4 20nst FF Fall time CL=50pF；90 to 10﹪of∣V OH-V OL∣；4 20nst FRMA Differential rise/fall timematching（t FR / t FF）Excluding the firsttransition from idlemode90 110 ％V CRS Output signal crossovervoltageExcluding the firsttransition from idlemode1.32.0 VLow-Speed Modet LR Rise time CL=200pF-600pF；10 to 90﹪of∣V OH-V OL∣；75 300nsAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 10t LFFall timeCL=200pF-600pF ；90 to 10﹪of ∣V OH -V OL ∣； 75 300 nst LRMA Differential rise/fall timematching （t LR / t LF ）Excluding the firsttransition from idlemode80 125 ％ V CRS Output signal crossovervoltageExcluding the firsttransition from idlemode 1.3 2.0 V V OHHigh-level output voltage2.83.6VAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W115.6 P o w e r S w i t c h F e a t u r eFigure 5.1 Built-in card power switch I-V curve3.3V+/- 0.3V1ms to 10ms ( Depend Load Capacitor )CARD_POWERCARD_DETECT100ms + System Polling timingFigure 5.2 Card Detect Power-on TimingAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W126. Mechanical InformationFigure 6.1 Mechanical Information DiagramGAUGE PLANE SEATING PLANE1.60.15 1.45 0.16 BSC BSC BSC BSC BSC 0.270.75 REF1.JEDEC OUTLINE: MS-026 BBC2. DIMENSIONS D1 AND E1 DO NOT INCLUDE MOLD PROTRUSION.ALLOWABLE PROTRUSION IS 0.25mm PER SIDE. D1 AND E1 ARE MAXIMUM PLASTIC BODY SIZE DIMENSIONS IMCLUDING MOLD MISMATCH.3. DIMENSION b DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBAR PROTRUSION SHALL NOT CAUSE THE LEAD WIDTH TO EXCEED THE MAXIMUM b DIMENSION BY MORE THAN 0.08mmAU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W137. AbbreviationsIn this chapter some of the terms and abbreviations used throughout the technical reference manual are listed as follows.SIE Serial Interface EngineCF Compact FlashMD Micro DriveSMC SmartMedia CardMS Memory StickSD Secure DigitalMMC Multimedia CardUTMI USB Transceiver Macrocell InterfaceAbout Alcor Micro, Corp.Alcor Micro, Corp. designs, develops and markets highly integrated and advanced peripheral semiconductor, and software driver solutions for the personal computer and consumer electronics markets worldwide. We specialize in USB solutions and focus on emerging technology such as USB and IEEE 1394. The company offers a range of semiconductors including controllers for USB hub, integrated keyboard/USB hub and USB Flash memory card reader…etc. Alcor Micro, Corp. is based in Taipei, Taiwan, with sales offices in Taipei, Japan, Korea and California. Alcor Micro is distinguished by its ability to provide innovative solutions for spec-driven products. Innovations like single chip solutions for traditional multiple chip products and on-board voltage regulators enable the company to provide cost-efficiency solutions for the computer peripheral device OEM customers worldwide.AU6366 USB 2.0 Single LUN Multiple Flash Card Reader Controller V1.03W 14。

FS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 1/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874G e n e r a l D e s c r i p t i o nThe FS8856 is a low-dropout linear regulator that operations in the input voltage range from +2.5V to +6.5V and delivers 550mA output current.The high-accuracy output voltage is preset at an internally trimmed voltage 2.5V or 3.3V. Other output voltages can be mask-optioned from 1.3V to 5.0V with 100mV increment, except FS8856-29Cx which has 2.85V output voltage. The FS8856 consist of a 1.25V reference compare amplifier, and a P-channel pass transistor. Other features include short-circuit protection and thermal shutdown protection. The FS8856 devices are available in TO-92, SOT-89 and SOT-223 packages.F e a t u r e sLow dropout voltage 750mV at 550mA(Typ.) Up to ±35mV output voltage accuracy Preset at 2.5V, 3.3VMask option from 1.3V to 5.0VSmall output capacitor Output current limit Thermal overload shutdownprotectionTO-92, SOT-89 and SOT-223 PackagesA p p l i c a t i o n sCD-ROM Drivers DVD-ROM DriversPortable Consumer Equipment Radio Control SystemsWireless Communication SystemsO r d e r i n g I n f o r m a t i o nFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-47422/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874P i n C o n f i g u r a t i o n s(BOTTOM VIEW)P a c k a g e M a r k i n g I n f o r m a t i o nFS8856 xxxxxxxxFS8856 xxxxxxxx1231 23SOT-223SOT-89Part No. Pin 1 Pin 2 Pin 3FS8856 -xxxGIN GND OUTFS8856-xxxHGND IN OUTFS8856-xxxJGND OUT INFS8856-xxxX OUT GND INPart No.Pin 1Pin 2Pin 3 FS8856-xxxKIN GND OUTFS8856-xxxLGNDIN OUTFS8856-xxxIOUT GNDIN FS8856-xxxYGND OUTINPart No. Pin 1 Pin 2 Pin 3FS8856 -xxxDIN GND OUTFS8856-xxxEGND IN OUTFS8856-xxxFOUT GND INFS8856-xxxWGND OUT INTO-921 2 3FS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 3/13TD-0405008 Rev. 1.3FAX: +886-2-2809-4874P i n D e s c r i p t i o nPart NO. SymbolDescriptionGND Ground pin.IN Regulator input pin.FS8856-xxCD FS8856-xxCE FS8856-xxCF FS8856-xxCW FS8856-xxCG FS8856-xxCH FS8856-xxCJ FS8856-xxCX FS8856-xxCK FS8856-xxCL FS8856-xxCI FS8856-xxCYOUT Regulator output pin.IN is the regulator input pin. Supply voltage can range from 2.5V to 6.5V. Bypass with a 1µF capacitor to GND.OUT is the output voltage pin. Sources up to 550mA. Bypass with a 3.3µF capacitor to GND.GND provides the reference for all voltages.F u n c t i o n a l B l o c k D i a g r a mFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 4/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874T y p i c a l A p p l i c a t i o n C i r c u i tA b s o l u t e M a x i m u m R a t i n g sInput voltage V IN to GND ----------------------------------------------------------------------------------------------------- 7V Output current limit, I (LIMIT) -------------------------------------------------------------------------------------------------- 0.8A Continuous power dissipation, P DSOT-223 ---------------------------------------------------------------------------------------------------------------------------------------- 0.65W SOT-89 ---------------------------------------------------------------------------------------------------------------------------------------- 0.55W TO-92 ---------------------------------------------------------------------------------------------------------------------------------------- 0.55W * The power dissipation values are based on the condition that junction temperature T J and ambient temperature T A difference is 100°C.Junction Temperature, T J -----------------------------------------------------------------------------------------------+155°C Storage temperature range, T STG ---------------------------------------------------------------------- -55°C to +150°C Operating junction temperature range ---------------------------------------------------------------- -40°C to +125°C Lead temperature (soldering, 10sec) ------------------------------------------------------------------------------- 260°C* Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and function operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.FS8856FS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-47425/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874E l e c t r i c a l C h a r a c t e r i s t i c s(T A =25℃, unless otherwise noted.) Symbol Parameter Test ConditionsMin Typ Max Unit V IN Input Voltage2.5 6.5 VV OUT Output VoltageV IN =V OUT +0.9V, I OUT =1mAV OUT - 0.035 V OUT V OUT +0.035V∆ V OUT Output Voltage Accuracy V IN >V OUT +0.9V, V IN ≦6.5V -35 +35mV I MAX Maximum Load Current 550 mA I LIMITCurrent Limit0.8AI SC Short-Circuit Current V OUT =0V, V IN >V OUT +0.9V 350 400 mAI Q Ground Pin Current I LOAD =0mA to 550mA, V IN =V OUT +0.9V 65 90 µA I OUT =100mA 110 130 mVI OUT =300mA 350 420 mV I OUT =500mA 650 800 mV V DROP Dropout VoltageI OUT =550mA 750 900 mV∆V LINE Line Regulation V OUT +0.9V<V IN <6.5V, I LOAD =1mA 0.2 0.3 %/V ∆V LOAD Load Regulation I OUT =0mA to 550mA0.020.03%/mAPSRR Ripple Rejection75 dB T SDThermal ShutdownTemperature155 °C T HYSThermal ShutdownHysteresis20 °C SOT-223155 °C/W SOT-89 180 °C/W θJAThermal Resistance TO-92180°C/WFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 6/13TD-0405008 Rev. 1.3FAX: +886-2-2809-4874T y p i c a l O p e r a t i n g C h a r a c t e r i s t i c s(C IN =1.0µF, C OUT =3.3µF, T A =+25℃, unless otherwise noted.)OUTPUT VOLTAGE vs. INPUT VOLTAGE0.511.522.533.51234567INPUT VOLTAGE (V)O U T P U T V O L T A G E (V )DROPOUT VOLTAGE vs. LOAD CURRENT0.00.10.20.30.40.50.60.70.80.10.150.20.250.30.350.40.450.50.550.6LOAD CURRENT (A)D R O P O U T V O L T A GE (V )POWER SUPPLY REJECTION RATIO vs.FREQUENCY-100-90-80-70-60-50-40-30-20-1000.010.11101001000FREQUENCY (KHz)P S R R (d B )GROUND PIN CURRENT vs. AMBIENT10203040506070-40-30-20-1001020304050607080AMBIENT TEMPERATURE (℃)G R O U N D P I N C U R R E N T (µA )Ron vs. LOAD CURRENT0.800.901.001.101.201.301.40100150200250300350400450500550LOAD CURRENT (mA)R o n (Ω)GND PIN CURRENT vs. LOAD CURRENT48505254565860620150100150200250300350400450500550LOAD CURRENT (mA)G R O U N D P I N C U R R E N T (µA )550mA100mA 1mA *EX ：Model FS8856-33CxFS8856550mA LDO Linear RegulatorFortune Semiconductor Co. TEL : +886-2-2809-4742 7/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874OUTPUT VOLTAGE vs. AMBIENTTEMPERATURE3.263.283.33.323.343.36-40-30-20-101020304050607080AMBIENT TEMPERATURE (℃)O U T P U T V O L T A G E (V )LINE TRANSIENT (I OUT =0mA)GROUND PIN CURRENT vs. INPUT VOLTAGE010203040506070801234567INPUT VOLTAGE (V)G R O U N D P I N C U R R E N T (u A )LINE TRANSIENT (I OUT =10mA)LINE TRANSIENT (I OUT =250mA)LINE TRANSIENT (I OUT =550mA)LOAD TRANSIENT5.0V 4.0VC IN 1µF C OUT 3.3µF50mV/divV INV OUT5.0V 4.0VC IN 1µF C OUT 3.3µF50mV/divV INV OUT V INV OUTV INV OUT5.0V 4.0VC IN 1µF C OUT 3.3µF 50mV/div5.0V 4.0VC IN 1µF C OUT 3.3µF50mV/divFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 8/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874LOAD TRANSIENTLOAD TRANSIENTLOAD TRANSIENTI OUTV OUT 100mA0mAC IN 1µF C OUT 3.3µF 50mV/divI OUTV OUT 500mA0mAC IN 1µF C OUT 3.3µF OUT 550mA250mAC IN 1µF C OUT 3.3µF 50mV/div250mA100mAC IN 1µF C OUT 3.3µF 50mV/div100mV/divI OUTV OUTFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 9/13TD-0405008 Rev. 1.3FAX: +886-2-2809-4874D e t a i l D e s c r i p t i o nThe FS8856 is a low-dropout linear regulator. The device provides preset 2.5V and 3.3V output voltages for output current up to 550mA. Other mask options for special output voltages from 1.3V to 5.0V with 100mV increment are also available. As illustrated in function block diagram, it consists of a 1.25V reference, error amplifier, P-channel pass transistor and an internal feedback voltage divider.The 1.25V bandgap reference is connected to the error amplifier, which compares this reference with the feedback voltage and amplifies the voltage difference. If the feedback voltage is lower than the reference voltage, the pass-transistor gate is pulled lower, which allows more current to pass to the output pin and increases the output voltage. If the feedback voltage is too high, the pass-transistor gate is pulled up to decrease the output voltage.The output voltage is feedback through an internal resistive divider connected to OUT pin. Additional blocks include an output current limiter, thermal sensor, and shutdown logic.Internal P-channel Pass TransistorThe FS8856 features a P-channel MOSFET pass transistor. Unlike similar designs using PNP pass transistors, P-channel MOSFETs require no base drive, which reduces ground pin current. PNP-based regulators also waste considerable current in dropout when the pass transistor saturates, and use high base-drive currents under large loads. The FS8856 does not suffer from these problems and consumes only 65µA (Typ.) of ground pin current under heavy loads as well as in dropout conditions.Output Voltage SelectionThe FS8856 output voltage is preset at an internally trimmed voltage 2.5V, 3.3V or can be mask-optioned from 1.3V to 5.0V with 100mV increment. The first two digits of part number suffix identify the output voltage (see Ordering Information ). For example, the FS8856-33CL has a preset 3.3V output voltage.Current LimitThe FS8856 also includes a fold back current limiter. It monitors and controls the pass transistor’s gate voltage, estimates the output current, and limits the output current within 0.8A.Thermal Overload ProtectionThermal overload protection limits total power dissipation in the FS8856. When the junction temperature exceeds T J = +155°C , a thermal sensor turns off the pass transistor, allowing the IC to cool down. The thermal sensor turns the pass transistor on again after the junction temperature cools down by 20°C , resulting in a pulsed output during continuous thermal overload conditions.Thermal overload protection is designed to protect the FS8856 in the event of fault conditions. For continuous operation, the maximum operating junction temperature rating of T J = +125°C should not be exceeded.Operating Region and Power DissipationMaximum power dissipation of the FS8856 depends on the thermal resistance of the case and circuit board, the temperature difference between the die junction and ambient air, and the rate of airflow. The power dissipation across the devices is P = I OUT x (V IN -V OUT ). The resulting maximum power dissipation is:()()JA A J CAJCA JMAX T T T T P θθθ−=+−=Where (T J -T A ) is the temperature difference between the FS8856 die junction and the surrounding air, θJC is the thermal resistance of the package chosen, and θCA is the thermal resistance through the printed circuit board, copper traces and other materials to the surrounding air. For better heat-sinking, the copper area should be equally shared between the IN, OUT, and GND pins.If the FS8856 uses a SOT-89 package and this package is mounted on a double sided printedFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-4742 10/13 TD-0405008 Rev. 1.3FAX: +886-2-2809-4874circuit board with two square inches of copper allocated for “heat spreading”, the resulting θJA is 180°C/W .Based on a maximum operating junction temperature 125°C with an ambient of 25°C, the maximum power dissipation will be:()()W T T P CA JCA JMAX 555.018025125=−=+−=θθThermal characteristics were measured using a double sided board with 1” x 2” square inches of copper area connected to the GND pin for “heatspreading”.Input-Output VoltageA regulator’s minimum input-output voltage differential, or dropout voltage, determines the lowest usable supply voltage. In battery-powered systems, this will determine the useful end-of-life battery voltage. The FS8856 uses a P-channel MOSFET pass transistor, its dropout voltage is a function of drain-to-source on-resistance (R DS(ON)) multiplied by the load current.V DROPOUT = V IN -V OUT = R DS(ON) x I OUTFS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-474211/13 TD-0405008 Rev. 1.3 FAX: +886-2-2809-4874 P a c k a g e O u t l i n eSOT-223FS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-474212/13 TD-0405008 Rev. 1.3 FAX: +886-2-2809-4874SOT-89FS8856550mA LDO Linear RegulatorFortune Semiconductor Co.TEL : +886-2-2809-474213/13 TD-0405008 Rev. 1.3 FAX: +886-2-2809-4874TO-92。