KBL005-RS401中文资料

Manual D L401DL401100 MHz FADC1. Funktion (2)1.1. Übersicht (2)1.1.1. Anwendung (2)1.1.2. Daten (2)1.1.3. Besonderheiten (2)1.1.4. Aufbau (2)1.1.5. Stromversorgung (2)1.2. Blockdiagramm (3)1.3. Funktionsbeschreibung (3)1.4. Steckerbelegungen (4)1.4.1. P1-VME (4)1.4.2. P2-VME32/VXI (4)1.4.3. DL400C (5)2. Betrieb (6)2.1. Konfigurierung (6)2.1.1. Jumper (6)2.1.2. SHORT-Adresse (6)2.1.3. Interne/Externe Clock (6)2.1.4. Lineare/Nichtlineare Kennlinie (6)2.2. Bedienung (7)2.2.1. Eingangssignale (7)2.2.2. Steuerung (7)2.3. Programmierung (8)2.3.1. Reset (8)2.3.2. Initialisierung (8)2.3.3. Speicheraufteilung (9)2.3.4. Speicheraufteilung DL401Z (9)2.3.5. Serial DAC Programmierung (9)1. F UNKTION1.1. Übersicht1.1.1. AnwendungDriftkammern, Transient Recording1.1.2. DatenParameter WertKanalzahl4Abtastrate / Kanal≤ 100 MHz Speichertiefe1024 Samples Amplitudenauflösung linear8 BitAmplitudenauflösung nichtlinear10 BitEingangsempfindlichkeit (im unteren Bereich)195 µV/LSB Verstärkung (Anpaßverstärker)10Pedestal Korrektur 6 Bit1.1.3. Besonderheiten-COMMONSTART-COMMONSTOP, Addresscounter lesbar-AUTOSTOP bei Memory Overflow-START und STOP per Software-RUN und EOC (EndOfConversion) per Software lesbar-Multiple Event Speicherung-Auslese wahlfrei-100 MHz Quartzclock wahlweise1.1.4. AufbauDL400 Application-Module, VME-Doppeleuropa, Breite 3TE, Höhe 6HE1.1.5. StromversorgungSpannung Strom Leistung+5V.45 A 2.15 W-5.2V 4.6 A24 W+12V0.125 A 1.5 W-12V25 mA.3 WGesamt28.05 W1.2. Blockdiagramm1.3. FunktionsbeschreibungVon einem Frontstecker werden die differentiellen Analogsignale von 4 Kanälen über Anpaßverstärker um den Faktor 10 verstärkt und können für eine optimale Ausnutzung desdynamischen Bereichs im Pedestal verschoben werden. Die Pedestalwerte werden für alle Kanäle unabhängig in einem 4 Kanal DAC mit 6 Bit Auflösung erzeugt.Die Amplitudenauflösung der nachfolgenden FADCs beträgt 8 Bits. Durch ein vorgeschaltetes Netzwerk (NL) kann der dynamische Bereich um den Faktor 4 erweitert werden, so daß eine nichtlineare Übertragungsfunktion mit einer effektiven Amplitudenauflösung von 10 Bits (im unteren Bereich) erreicht wird.Das GATE-Signal über einen Frontstecker, bzw. über Software gesetzt, bestimmt Beginn und Ende der Aufzeichnung. Auf jeden CONVERT-Impuls werden die momentanen Analogwerte an allen 4 Kanälen gleichzeitig digitalisiert und anschließend in die Speicher eingeschrieben. Der Impuls kann wiederum von der Frontplatte oder per Software generiert werden. Als Quelle kann auch ein 100 MHz Quartzoszillator auf dem Board verwendet werden.Nach dem Einschreiben wird der Adresszähler um 1 erhöht. In der Betriebsart 'AutoStop' wird bei einem Überlauf des Zählers (>1023) die Aufzeichnung gestoppt, im anderen Modus(CommonStop) beginnt die Aufzeichnung immer wieder bei 0!Die Digitalisierung wird normalerweise durch Wegnahme des GATE-Signals beendet. Zu diesem Zeitpunkt wird ein Bit gesetzt und das Modul generiert (falls ermöglicht) einen Interrupt.Der Addresscounter wird dann gegebenenfalls ausgelesen und das wahlfreie Auslesen der Daten kann erfolgen.Falls die Tiefe der Memories dies erlaubt kann nach einem Stop auch die Wiederaufnahme der Aufzeichnung ohne Zwischenauslese erfolgen (Multi event storage). Bei einem RESET wird der Addresscounter auf 0 gesetzt.1.4. Steckerbelegungen1.4.1. P1-VME1.4.2. P2-VME32/VXI1.4.3. DL400C2. B ETRIEB2.1. Konfigurierung2.1.1. JumperBetriebsart Jumper BemerkungInternal Clock J3,/J4Quartz ClockExternal Clock J4,/J3NIM-InputDelay Delay do not changeDebug J1, J2do not change2.1.2. SHORT-AdresseUm das Modul im SHORT-Adressraum von VME ansprechen zu können, muß die gewünschte Adresse des Moduls mit den Rotary-HEX-Schaltern auf der DL400 Basisplatine eingestellt werden (siehe weiter unter 2.3. Programmierung).2.1.3. Interne/Externe ClockFalls die interne Clock mit 100 MHz benutzt werden soll, muß Internal Clock gesetzt werden.2.1.4. Nichtlineare/Lineare KennlinieBei nichtlinearer Eingangsbeschaltung der FADCs ist der Zusammenhang zwischen dem FADC-Code (C) und der Eingangsspannung (U i) am Modul nach folgender Formel gegeben:U i =C256 - a * C * U o / K;K (=10) kennzeichnet die Verstärkung des Anpaßverstärkers.a (=0.75) ist der Expansionsfaktor.U o (=0.5V) ist die Referenzspannung bei U i =0;ACHTUNG: Bei linearer Eingangsbeschaltung des FADC müssen die Widerstände R79…R82 (=15.4 Ω) unter den FADC chips entfernt werden (a=0, U o = 2V).2.2. Bedienung2.2.1. EingangssignaleDie analogen Signale für 4 Kanäle werden als differentielle Signale von der Frontseite zugeführt. Die Eingangsimpedanz zwischen den Eingangspins ±Cn beträgt 100Ω. Die Spannung für Vollaussteuerung beträgt 160mV.2.2.2. SteuerungZur externen Steuerung dienen im wesentlichen die 2 NIM-Signale GATE und CONVERT:•CONVERT: Dieses Signal stellt die Clock für die Konvertierung dar.•GATE: Dieses Signal bestimmt die Dauer der Konvertierung.2.3. Programmierung über DL400Das Modul ist ohne Programmierung zunächst nur im Short-Addressbereich (AM=$2D oder $29) ansprechbar. Die Bezeichnung "ss" in den folgenden Adressangaben steht für dieEinstellung der HEX-Schalter!2.3.1. ResetWRITE:SHORT.$ss20RESETD31D15D0HighWord LowWordLongWord2.3.2. InitialisierungFür die Festlegung der Standard-Basisadresse des Moduls, der Modulgröße, der gewünschten Addressmodifier und der Parameter für einen Interrupt müssen verschiedene Register (im Short-bereich) auf der DL400 Basisplatine geladen werden!WRITE:SHORT.$ss50D0…D15: Address Std-BaseaddressSHORT.$ss60D0…D3: MaskD8…D13: AMD15: Enable Mask for Submodule Size Address Modifierenable STD-accessSHORT.$ss70 (auch READ)D0…D7: IntVectorD8…D10: IntPrioD11: IntModeInterrupt VectorInterrupt Priority (0=Disable)0=RORA, 1=ROACD31D15D0HighWord LowWordLongWordFestlegung der Modulgröße:ModuleSize Mask64KB$0128KB$1256KB$3512KB$71MB$FACHTUNG:•D0…D3 in Address muß genauso wie D0…D3 in Mask gesetzt werden!•D8…D15 in Address bei Standard-Zugriff auf HIGH setzen!2.3.3. SpeicheraufteilungREAD:SHORT.$ss00Convert Convert do Internal ConvertSHORT.$ss70D12: RunD13: InterruptD14: DACRead test RUNtest INTERRUPT FLAG read Serial DACSHORT.$ss90D16…D25: Counter Read Address CounterSTD.$rAddr Ch3Ch2Ch1Ch0Sample 0 ……Ch3Ch2Ch1Ch0Sample 1023WRITE:SHORT.$ss00ClearInterrupt ClearInterrupt Clear Interrupt FlagSHORT.$ss10D0: DACWrite Shift DAC and Serial Write SHORT.$ss20RESET RESET Module RESETSHORT.$ss70D12: InternalD13: Gate/D14: DACEnableD15: AutoStop set internal Mode set internal Gate enable Serial DAC enable AutoStopD31D15D0HighWord LowWordLongWord2.3.4. Speicheraufteilung DL401ZREAD:SHORT.$ss90D0…D15: Counter Read Address CounterSTD.$rAddr Ch1Ch0Digital Sample 0 ……Ch1Ch0Digital Sample 32KD31D15D0HighWord LowWordLongWord2.3.5. Serial DAC ProgrammierungFür die volle Ausnutzung der Dynamik kann von jedem Kanal die Schwelle unabhängig calibriert werden. Zu diesem Zweck wird ein 4 Kanal DAC mit 6 bit Amplitudenauflösung programmiert. Bei einer Eingangsspannung von 0V am FADC ergeben sich etwa folgende Werte: DAC=0:FADC pedestal < 0DAC≈25:FADC pedestal ≈ 0DAC=63:FADC pedestal ≈ 50Die DACs müssen seriell gelesen bzw. beschrieben werden. Die Reihenfolge für die Datenbits ist von D5 nach D0 über Kanal 3 nach Kanal 0!SCHEMA für Lesen (und Setzen) der DACs:1)Enable DAC2)for ChannelNr:=3 downto 0 dofor DataBit:=5 downto 0 doRead Bit at D14 of DACReadWRITE Bit at D0 to DACWrite3)Disable DAC。

深圳市核达中远通电源技术有限公司SHENZHEN HOLDLUCK-ZYT POWER SUPPLY TECHNOLOGY CO., LTD.通孔插装元器件焊孔、焊盘设计工艺规范WI-EN-***版本：A/0分发号：1.0目的：规范元器件焊孔、焊盘设计，满足可制造性要求。

2.0适用范围：通孔插装元器件的焊孔、焊盘设计｡3.0内容3.1定义3.1.1引脚直径：若无特殊说明，指圆形引脚的直径，或者指方形（含扁形）引脚截面的对角线长度，用d表示，如图3.1.1（a）、图3.1.1（b）所示。

3.1.2方形（或扁形）引脚截面尺寸：用w表示引脚宽度，用t表示引脚厚度，如图3.1.1（b）所示。

当方形引脚的宽厚比w/t大于2时称为扁形引脚。

3.1.3焊孔直径：圆形焊孔直径，用d1表示，如图3.1.1（c）所示。

3.1.4焊盘直径：圆形焊盘直径，用D表示，如图3.1.1（c）所示。

3.1.5椭圆（或方形）焊盘长度：用L表示，如图3.1.1（d）所示。

3.1.6椭圆（或方形）焊盘宽度：用W表示，如图3.1.1（d）所示。

图3.1.1(b) 方形(或扁形)引脚元器件元件(c) 圆形焊孔及焊盘(d) 圆形焊孔及椭圆(或方形)焊盘3.2 焊孔3.2.1一般情况下,焊孔直径d1按表3.2.1选取： 表3.2.1面板取下限。

注2：在仅有有限的几个插装元件，多数元件为贴装元件的情况下，有可能使用到 通孔回流焊工艺，比如模块针脚的焊接。

3.2.2脚距精度较高，且定位要求也较高的元器件，如输入、输出插座等，焊孔直径等于引脚直径加上0.15~0.2mm 。

3.2.3 方形引脚焊孔:3.2.3.1 w ＞2.5mm 时,设计为方焊孔(圆角R 为0.3~0.35mm,防止圆角影响插装),方焊孔尺寸如图3.2.3.1所示。

3.2.3.2 w ＜2 mm 时,设计为圆孔，焊孔直径d1=d+0.15~0.25mm, d 为引脚截面对角线长。

TABLE OF CONTENTSGENERAL PURPOSE RECTIFIERS (1)ULTRA FAST RECOVERY RECTIFIERS (6)UF4001(G)---UF4007(G)1A1---1A7 UF5400(G)---UF5408(G)GP10A---GP10M1N4001(G)---1N4007(G) SURFACE MOUNT ULTRA FASTRL101(G)---RL107(G) RECOVERY RECTIFIERS (6)GP15A---GP15M US1A---US1M1N5391(G)---1N5399(G) UF1A---UF1MRL151(G)---RL157(G) US2A---US2MGP20A---GP20M UF2A---UF2MRL201(G)---RL207(G) UF3A---UF3MRL251(G)---RL257(G)1N5400(G)---1N5408(G) SUPER FAST RECOVERY RECTIFIERS (7)1N4139---1N4146GP30A---GP30M SF11---SF165A05---5A10 MUR105(G)---MUR11006A05---6A10 SF21---SF268A05---8A10 SF31---SF3610A05---10A10 MUR405---MUR4100SF51---SF56SURFACE MOUNT GENERAL SF61---SF66PURPOSE RECTIFIERS………………………………………………………3 MUR605CT---MUR660CTMURH805CT---MURH8100CTDL4001/SM4001---DL4007/SM4007 MUR(F)805---MUR(F)880GS1A/M1---GS1M/M7 MUR(F)805CT---MUR(F)880CTGS2A---GS2M MUR(F)1005CT---MUR(F)1080CTS1A---S1ZZ MUR(F)1605CT---MUR(F)1680CTS2A---S2M MUR(F)2005CT---MUR(F)2080CTS3A---S3M MUR3005PT---MUR3040PTS5A---S5M MUR5005PT---MUR5060PTS6A---S6MS8A---S8M SURFACE MOUNT SUPER FASTS10A---S10M RECOVERY RECTIFIERS (9)FAST RECOVERY RECTIFIERS……………………………………4 EMS101/DLSF11---EMS106/DLSF16ES1A---ES1M1F1---1F7 ES2A---ES2MFR101(G)---FR107(G) ER1A---ER1ZZFR151(G)---FR157(G) ER2A---ER2MFR201(G)---FR207(G) ER3A---ER3KFR251(G)---FR257(G) ER6A---ER6GFR301(G)---FR307(G) ER8A---ER8JFR501(G)---FR507(G) ER10A---ER10GFR601(G)---FR607(G)MR810---MR818 HIGH EFFICIENCY RECTIFIERS (10)MR850---MR856MR820---MR826 1H1---1H8HER101(G)---HER108(G)SURFACE MOUNT FAST RECOVERY HER151(G)---HER158(G)HER201(G)---HER208(G) RECTIFIERS (5)HER301(G)---HER308(G)DL4933/SM4933---DL4948/SM4948 HER501(G)---HER508(G)FS1A---FS1M HER601(G)---HER608(G)RS1A---RS1MFS2A---FS2M SCHOTTKY BARRIER RECTIFIERS (11)FR1A---FR1ZZFR2A---FR2M SB020---SB040FR3A---FR3M 1N5817---1N5819FR6A---FR6M SB120---SB160FR8A---FR8M SR120---SR1A0FR10A---FR10M SB220--SB260SR220---SR2A0 1N30641N5820---1N5822 1N4606SB320--SB360 1N4531SR320---SR3A0 1N4532SB520---SB560 1N4533SR520---SR5A0 1N4534MS820---MS8100 1N4536SR802---SR810 LL4148MBR(F)720---MBR(F)760 1SS244MBR(F)1020---MBR(F)10100 1SS130MBR(F)1020CT---MBR(F)10150CT 1SS131MBR(F)1520---MBR(F)1560 1SS132MBR(F)1520CT---MBR(F)1560CT 1SS134MBR(F)1620---MBR(F)1660 1SS133MBR(F)1620CT---MBR(F)16100CT BAV18MBR(F)2020CT---MBR(F)20200CT BAV19MBR(F)2520CT---MBR(F)2560CT BAV20MBR(F)3020CT---MBR(F)30100CT BAV21MBR3020PT---MBR3060PT 1SS245MBR4020PT---MBR4060PT 1S1553MBR5020PT---MBR5045PT 1S15551SS141SURFACE MOUNT SCHOTTKY 1SS1441SS145BARRIER RECTIFIERS (14)1SS146DL5817/SM5817---DLSR1010 1SS147SS12---SS110SK12---SK110 SURFACE MOUNT SWITCHING DIODES (19)SS22---SS210SK22---SK210 SURFACE MOUNT ZENER DIODES (21)SS32---SS310SK32A---SK310A BZT52C2V0S--- BZT52C39SSK32B---SK310B BZT52C2V4--- BZT52C51SK32---SK310 BZX84C2V4W---BZX84C39WSK52---SK510 BZX84C2V4---BZX84C51SK82---SK810 MMBZ5221BW---MMBZ5259BWSK102---SK1010 MMBZ5221B---MMBZ5262BSK152---SK1510 MMBZ5221BS---MMBZ5259BSMMSZ5221B---MMSZ5259BSURFACE MOUNT SMALL SIGNALSCHOTTKY DIODES (16)ZENER DIODES (23)SWITCHING DIODES……………………………………………………18 1N5221B/DL5221B---1N5227B/DL5227BBZX55-C2V4---BZX55-C361N4148 ZMM55-C2V4---ZMM55-C361N4151 1N4728/DL4728---1N4764/DL47641N4448 1ZB6.8---1ZB3901N4151 ZPY3V9---ZPY1101N3604 ZY1---ZY2001N4152 3EZ11---3EZ2001N3605 1N5342B---1N5388B1N41531N3606 TRANSIENT VOLTAGE SUPPRESSOR (31)1N41541N4446 P4KE6.8---P4KE440CA1N914A P6KE/SMBJ6.8---P6KE/SMBJ440CA1N4447 1.5KE/SMCJ6.8---1.5KE/SMCJ440CA1N916A1N4448 DIODES FOR TELEVISION AND MONITOR (37)1N914B1N4449 10DF1---10DF81N916B 10ELS1---10ELS61N4450 15DF4---15DF81N4454 1N4933---1N49371N5059---1N5062 ERB83-0061S1834---1S1835 ERB84-0091S1885---1S1888 ERB91-021S1941---1S1944 ERB93-0230DF1---30DF4 ERC01-02---ERA01-1031DF1---31DF4 ERC04-02F---ERC04-04F3JH45 ERC05-06---ERC05-083JH61 ERC06-13---ERC06-153TH41 ERC18-02---ERC18-04AG01Y---AG01A ERC25-04---ERC25-06AK03---AK04 ERC30-01---ERC30-02AM01Z---AM01A ERC33-02AU01Z---AU01A ERC35-02AU02Z---AU02A ERC38-04---ERC38-06BA157---BA159 ERC81-004---ERC81-006BY228 ERC84-009BY296---BY299S ERC91-02BY396---BY399S ERD07-13---ERD07-15BY448 ERD09-13---ERD09-15BYD31D-BYD31M ERD28-04---ERD28-06BYD33D---BYD33M ERD29-02---ERD29-06BYM6C ERD32-01---ERD32-02BYT52A---BYT52M ERD33-02BYT56A---BYT56M ERD38-04---ERD38-06BYV12---BYV16 ERE41-15BYV26A---BYV26E ES1Z---ES1FBYV27---(50---600) EU01Z---EU01ABYV37---BYV38 EU02Z---EU02ABYV95A---BYV95C EU1CBYV96D---BYV96E EU1Z---EU1ABYW32---BYW36 EU2YXBYW72---BYW76 EU2Z---EU2ABYW95A---BYW95C GP10K---GP10MBYW96D---BYW96E GP15A---GP15MDLE30B---DLE30E RC2EG01Y---EG01C RG2Y---RG2AEG1Y---EG1A RG4Y---RG4CEGP10A---EGP10G RGP02-12E--RGP02-20EEGP20A---EGP20G RGP10A---RGP10MEGP30A---EGP30G RGP15A---RGP15MEM01Z---EM01A RGP20A---RGP20MEM1Y---EM1C RGP30A---RGP30MERA15-01---ERA15-10 RM2Z---RM2CERA18-02---ERA18-04 RM11A---RM11CERA22-06---ERA22-10 RN1Z---RN4ZERA32-01---ERA32-02 RP1H RU1PERA34-10 RU2M---RU2AMERA38-04---ERA38-06 RU2YX---RU20AERA81-004 RU3---RU3YXERA82-004 RU30Z---RU30AERA83-004---ERA83-006 RU4D---RU4DSERA85-009 RU4Y---RU4CERA91-02 RU4YX---RU4AMERA92-02 S5295B---S5295JERB06-13---ERB06-15 TVR1B---TVR1JERB12-01---ERB12-10 TVR4J---TVR4NERB32-01---ERB32-02ERB35-02 BRIDGE RECTIFIERS (44)ERB37-08---ERB37-10ERB38-04---ERB38-06 MB2M---MB10MERB43-02---ERB43-04 MB2S---MB10SERB44-02---ERB44-10 DB101S---DB107SERB81-004 DB101---DB107ERB83-004 DB151S---DB157SDB151---DB157RB151(G)---RB157(G)W005(G)---W10(G)W005M(G)---W10M(G)2W005/RC201(G)---2W10/RC207(G)2W005M(G)---2W10M(G)KBP005/RS201---KBP10/RS207KBL005/RS401L---KBL10/RS407LKBU4A/RS401---KBU4M/RS407KBU6A/RS601---KBU6M/RS607KBU8A/RS801---KBU8M/RS807GBU4A---GBU4MGBU6A---GBU6MGBU8A---GBU8MGBU10A---GBU10MGBU15A---GBU15MGBU25A---GBU25MKBPC1005/BR305---KBPC110/BR310KBPC6005/BR605---KBPC610/BR610KBPC8005/BR805---KBPC810/BR810KBPC10005/BR1005---KBPC1010/BR1010KBPC15005/MB1505(W)---KBPC1510/MB1510(W) KBPC25005/MB2505(W)---KBPC2510/MB2510(W) KBPC35005/MB3505(W)---KBPC3510/MB3510(W) KBPC50005/MB5005(W)---KBPC5010/MB5010(W) GBPC15005/BR1505(W)---GBPC1510/BR1510(W) GBPC25005/BR2505(W)---GBPC2510/BR2510(W) GBPC35005/BR3505(W)---GBPC3510/BR3510(W) GBPC50005/BR5005(W)---GBPC5010/BR5010(W) KBJ/GBJ601---KBJ/GBJ607KBJ/GBJ801---KBJ/GBJ807KBJ/GBJ1001---KBJ/GBJ1007KBJ/GBJ1501---KBJ/GBJ1507KBJ/GBJ2001---KBJ/GBJ2007KBJ/GBJ2501---KBJ/GBJ2507PACKAGE OUTLINES (49)RECOMMENDED SOLDER PAD LAYOUTS (62)THROUGH HOLE-AXIAL LEADED (63)THROUGH HOLE-SURFACE MOUNT (64)V RRM (I=I RM )V FM I (AV)T A =25A V AV A A 1A1 1.050301.0 1.0 5.0501A2 1.0100301.0 1.0 5.0501A3 1.0200301.0 1.0 5.0501A4 1.0400301.0 1.0 5.050R--11A5 1.0600301.0 1.0 5.0501A6 1.0800301.0 1.0 5.0501A7 1.01000301.0 1.0 5.050GP10A 1.050301.0 1.0 5.050GP10B 1.0100301.0 1.0 5.050GP10D 1.0200301.0 1.0 5.050GP10G 1.0400301.0 1.0 5.050DO--41GP10J 1.0600301.0 1.0 5.050GP10K 1.0800301.0 1.0 5.050GP10M 1.01000301.0 1.0 5.0501N4001(G) 1.050301.0 1.0 5.0501N4002(G) 1.0100301.0 1.0 5.0501N4003(G) 1.0200301.0 1.0 5.0501N4004(G) 1.0400301.0 1.0 5.050DO--411N4005(G) 1.0600301.0 1.0 5.0501N4006(G) 1.0800301.0 1.0 5.0501N4007(G) 1.01000301.0 1.0 5.050RL101(G) 1.050301.0 1.0 5.050RL102(G) 1.0100301.0 1.0 5.050RL103(G) 1.0200301.0 1.0 5.050RL104(G) 1.0400301.0 1.0 5.050A--405RL105(G) 1.0600301.0 1.0 5.050RL106(G) 1.0800301.0 1.0 5.050RL107(G) 1.01000301.0 1.0 5.050GP15A 1.550501.1 1.5 5.050GP15B 1.5100501.1 1.5 5.050GP15D 1.5200501.1 1.5 5.050GP15G 1.5400501.1 1.5 5.050DO--15GP15J 1.5600501.1 1.5 5.050GP15K 1.5800501.1 1.5 5.050GP15M 1.51000501.1 1.5 5.0501N5391(G) 1.550501.1 1.5 5.0501N5392(G) 1.5100501.1 1.5 5.0501N5393(G) 1.5200501.1 1.5 5.0501N5394(G) 1.5300501.1 1.5 5.0501N5395(G) 1.5400501.1 1.5 5.050DO--151N5396(G) 1.5500501.1 1.5 5.0501N5397(G) 1.5600501.1 1.5 5.0501N5398(G) 1.5800501.1 1.5 5.0501N5399(G) 1.51000501.1 1.5 5.050RL151(G) 1.550501.1 1.5 5.050RL152(G) 1.5100501.1 1.5 5.050RL153(G) 1.5200501.1 1.5 5.050RL154(G) 1.5400501.1 1.5 5.050DO--15RL155(G) 1.5600501.1 1.5 5.050RL156(G) 1.5800501.1 1.5 5.050RL157(G) 1.51000501.1 1.5 5.050GP20A2.050701.22.0 5.050GP20B 2.0100701.22.0 5.050GP20D 2.0200701.12.0 5.050GP20G 2.0400701.12.0 5.050DO--15GP20J 2.0600701.12.0 5.050GP20K 2.0800701.12.0 5.050GP20M 2.0100070 1.1 2.0 5.050"G"SUFFIX SINGNIFIES A GLASS PASSIVATED DIE Type Forward Rectified CurrentRepetitive Reverse Voltage Forward Rectified Current Forward Voltage Peak Reverse Current Case Style I (AV)I FSM V FM I RM @V RRMV RRM (I=I RM )V FM I (AV)T A =25A V AV A A RL201(G) 2.050701.12.0 5.050RL202(G) 2.0100701.12.0 5.050RL203(G) 2.0200701.12.0 5.050RL204(G) 2.0400701.12.0 5.050DO--15RL205(G) 2.0600701.12.0 5.050RL206(G) 2.0800701.12.0 5.050RL207(G) 2.01000701.12.0 5.050RL251(G) 2.5501501.12.5 5.050RL252(G) 2.51001501.12.5 5.050RL253(G) 2.52001501.12.5 5.050RL254(G) 2.54001501.12.5 5.050R--3RL255(G) 2.56001501.12.5 5.050RL256(G) 2.58001501.12.5 5.050RL257(G) 2.510001501.12.5 5.0501N5400(G)3.0502001.0 3.0101001N5401(G) 3.01002001.0 3.0101001N5402(G) 3.02002001.0 3.0101001N5403(G) 3.03002001.0 3.0101001N5404(G) 3.04002001.0 3.010100DO--271N5405(G) 3.05002001.0 3.0101001N5406(G) 3.06002001.0 3.0101001N5407(G) 3.08002001.0 3.0101001N5408(G) 3.010002001.0 3.0101001N4139 3.0503001.0 3.0101001N4140 3.01003001.0 3.0101001N4141 3.02003001.0 3.0101001N4142 3.04003001.0 3.0101001N4143 3.06003001.0 3.0101001N4144 3.08003001.0 3.0101001N4145 3.010003001.0 3.0101001N4146 3.012003001.0 3.010100GP30A 3.0501251.2 3.0 5.050GP30B 3.01001251.2 3.0 5.050GP30D 3.02001251.1 3.0 5.050GP30G 3.04001251.1 3.0 5.050DO--27GP30J 3.06001251.1 3.0 5.050GP30K 3.08001251.1 3.0 5.050GP30M 3.010001251.1 3.0 5.0505A05(G) 5.0503001.0 5.0101005A1(G) 5.01003001.0 5.0101005A2(G) 5.02003001.0 5.0101005A4(G) 5.04003001.0 5.010100R--55A6(G) 5.06003001.0 5.0101005A8(G) 5.08003001.0 5.0101005A10(G) 5.010003001.0 5.0101006A05(G) 6.0504001.0 6.0101006A1(G) 6.01004001.0 6.0101006A2(G) 6.02004001.0 6.0101006A4(G) 6.04004001.0 6.010100R--66A6(G) 6.06004001.0 6.0101006A8(G) 6.08004001.0 6.0101006A10(G) 6.010004001.0 6.0101008A058.0504001.08.0101008A18.01004001.08.0101008A28.02004001.08.0101008A48.04004001.08.010100R--68A68.06004001.08.0101008A88.08004001.08.0101008A108.010004001.08.01010010A0510.0504001.010.01010010A110.01004001.010.01010010A210.02004001.010.01010010A410.04004001.010.010100R--610A610.06004001.010.01010010A810.08004001.010.01010010A1010.01000400 1.010.010100"G"SUFFIX SINGNIFIES A GLASS PASSIVATED DIE Peak Reverse Current Case Style I (AV)I FSM V FM I RM @V RRM DO--27Type Forward Rectified CurrentRepetitive Reverse Voltage Forward Rectified Current Forward VoltageV RRM(I=I RM)V FM I(AV)T A=25A V A V A ADL4001/SM4001 1.05030 1.1 1.0 5.050DL4002/SM4002 1.010030 1.1 1.0 5.050DL4003/SM4003 1.020030 1.1 1.0 5.050DL4004/SM4004 1.040030 1.1 1.0 5.050MELF DL4005/SM4005 1.060030 1.1 1.0 5.050DL4006/SM4006 1.080030 1.1 1.0 5.050DL4007/SM4007 1.0100030 1.1 1.0 5.050 GS1A/M1 1.05030 1.1 1.0 5.050GS1B/M2 1.010030 1.1 1.0 5.050GS1D/M3 1.020030 1.1 1.0 5.050 GS1G/M4 1.040030 1.1 1.0 5.050 GS1J/M5 1.060030 1.1 1.0 5.050 GS1K/M6 1.080030 1.1 1.0 5.050 GS1M/M7 1.0100030 1.1 1.0 5.050 GS2A 2.05050 1.1 2.0 5.050 GS2B 2.010050 1.1 2.0 5.050 GS2D 2.020050 1.1 2.0 5.050 GS2G 2.040050 1.1 2.0 5.050 GS2J 2.060050 1.1 2.0 5.050 GS2K 2.080050 1.1 2.0 5.050 GS2M 2.0100050 1.1 2.0 5.050 S1A 1.05030 1.1 1.0 5.050 S1B 1.010030 1.1 1.0 5.050 S1D 1.020030 1.1 1.0 5.050 S1G 1.040030 1.1 1.0 5.050 S1J 1.060030 1.1 1.0 5.050 S1K 1.080030 1.1 1.0 5.050 S1M 1.0100030 1.1 1.0 5.050 S1Q 1.0120030 1.1 1.010.0100 S1V 1.0140030 1.1 1.010.0100 S1Y 1.0160030 1.1 1.010.0100 S1Z 1.0180030 1.1 1.010.0100 S1ZZ 1.0200030 1.1 1.010.0100 S2A 2.05050 1.15 2.0 5.050 S2B 2.010050 1.15 2.0 5.050 S2D 2.020050 1.15 2.0 5.050 S2G 2.040050 1.15 2.0 5.050 S2J 2.060050 1.15 2.0 5.050 S2K 2.080050 1.15 2.0 5.050 S2M 2.0100050 1.15 2.0 5.050 S3A 3.050100 1.2 3.0 5.050 S3B 3.0100100 1.2 3.0 5.050 S3D 3.0200100 1.2 3.0 5.050 S3G 3.0400100 1.2 3.0 5.050 S3J 3.0600100 1.2 3.0 5.050 S3K 3.0800100 1.2 3.0 5.050 S3M 3.01000100 1.2 3.0 5.050 S5A 5.050200 1.2 5.010.0100 S5B 5.0100200 1.2 5.010.0100 S5D 5.0200200 1.2 5.010.0100 S5G 5.0400200 1.2 5.010.0100 S5J 5.0600200 1.2 5.010.0100 S5K 5.0800200 1.2 5.010.0100 S5M 5.01000200 1.2 5.010.0100 S6A 6.050200 1.2 6.010.0100 S6B 6.0100200 1.2 6.010.0100 S6D 6.0200200 1.2 6.010.0100 S6G 6.0400200 1.2 6.010.0100 S6J 6.0600200 1.2 6.010.0100 S6K 6.0800200 1.2 6.010.0100 S6M 6.01000200 1.2 6.010.0100 S8A8.050300 1.28.010.0100 S8B8.0100300 1.28.010.0100 S8D8.0200300 1.28.010.0100 S8G8.0400300 1.28.010.0100 S8J8.0600300 1.28.010.0100 S8K8.0800300 1.28.010.0100 S6M8.01000300 1.28.010.0100 S10A10.050300 1.210.010.0100 S10B10.0100300 1.210.010.0100 S10D10.0200300 1.210.010.0100 S10G10.0400300 1.210.010.0100 S10J10.0600300 1.210.010.0100 S10K10.0800300 1.210.010.0100 S10M10.01000300 1.210.010.0100SMA/HSMA/SMAESMB/HSMA/SMAE SMB/HSMBHSMC SMC/HSMCHSMCHSMCHSMC SMA/SMB/HSMBMaximum Forward Voltage MaximumPeakReverseCurrentCaseStyleI(AV)I FSM V FM I RM@V RRMType AverageForwardRectifiedCurrentPeakRepetitiveReverseVoltagePeakForwardRectifiedCurrentSURFACE MOUNT GENERAL PURPOSE RECTIFIERSVRRM (I=I RM )V FM I (AV)T A =25A VA V A A ns 1F1 1.05025 1.3 1.0 5.01001501F2 1.010025 1.3 1.0 5.01001501F3 1.020025 1.3 1.0 5.01001501F4 1.040025 1.3 1.0 5.0100150R--11F5 1.060025 1.3 1.0 5.01002501F6 1.080025 1.3 1.0 5.01005001F7 1.0100025 1.3 1.0 5.0100500FR101(G) 1.05030 1.3 1.0 5.0100150FR102(G) 1.010030 1.3 1.0 5.0100150FR103(G) 1.020030 1.3 1.0 5.0100150FR104(G) 1.040030 1.3 1.0 5.0100150DO--41FR105(G) 1.060030 1.3 1.0 5.0100250FR106(G) 1.080030 1.3 1.0 5.0100500FR107(G) 1.0100030 1.3 1.0 5.0100500FR151(G) 1.55060 1.3 1.5 5.0100150FR152(G) 1.510060 1.3 1.5 5.0100150FR153(G) 1.520060 1.3 1.5 5.0100150FR154(G) 1.540060 1.3 1.5 5.0100150DO--15FR155(G) 1.560060 1.3 1.5 5.0100250FR156(G) 1.580060 1.3 1.5 5.0100500FR157(G) 1.5100060 1.3 1.5 5.0100500FR201(G) 2.05070 1.3 2.0 5.0100150FR202(G) 2.010070 1.3 2.0 5.0100150FR203(G) 2.020070 1.3 2.0 5.0100150FR204(G) 2.040070 1.3 2.0 5.0100150DO--15FR205(G) 2.060070 1.3 2.0 5.0100250FR206(G) 2.080070 1.3 2.0 5.0100500FR207(G) 2.0100070 1.3 2.0 5.0100500FR301(G) 3.050200 1.3 3.010200150FR302(G) 3.0100200 1.3 3.010200150FR303(G) 3.0200200 1.3 3.010200150FR304(G) 3.0400200 1.3 3.010200150DO--27FR305(G) 3.0600200 1.3 3.010200250FR306(G) 3.0800200 1.3 3.010200500FR307(G) 3.01000200 1.3 3.010200500FR501(G) 5.050300 1.3 5.010200150FR502(G) 5.0100300 1.3 5.010200150FR503(G) 5.0200300 1.3 5.010200150FR504(G) 5.0400300 1.3 5.010200150R--5FR505(G) 5.0600300 1.3 5.010200250FR506(G) 5.0800300 1.3 5.010200500FR507(G) 5.01000300 1.3 5.010200500FR601(G) 6.050300 1.3 6.010200150FR602(G) 6.0100300 1.3 6.010200150FR603(G) 6.0200300 1.3 6.010200150FR604(G) 6.0400300 1.3 6.010200150R--6FR605(G) 6.0600300 1.3 6.010200250FR606(G) 6.0800300 1.3 6.010200500FR607(G) 6.01000300 1.3 6.010200500MR810 1.05030 1.2 1.0 5.0100750MR811 1.010030 1.2 1.0 5.0100750MR812 1.020030 1.2 1.0 5.0100750MR814 1.040030 1.2 1.0 5.0100750DO--41MR816 1.060030 1.2 1.0 5.0100750MR817 1.080030 1.2 1.0 5.0100750MR818 1.0100030 1.2 1.0 5.0100750MR850 3.050100 1.3 3.010200200MR851 3.0100100 1.3 3.010200200MR852 3.0200100 1.3 3.010200200DO--27MR854 3.0400100 1.3 3.010200200MR856 3.0600100 1.3 3.010200200MR820 5.050300 1.0 5.010200200MR821 5.0100300 1.0 5.010200200MR822 5.0200300 1.0 5.010200200R--5MR824 5.0400300 1.0 5.010200200MR826 5.0600300 1.0 5.010200200"G"SUFFIX SINGNIFIES A GLASS PASSIVATED DIEFAST RECOVERY RECTIFIERSV FM I RM @V RRM Reverse Recovery Time Trr Type Average Forward Rectified Current Peak Repetitive Reverse VoltagePeak Forward Rectified Current Maximum Forward Voltage Maximum Peak Reverse Current Case Style I (AV)I FSMV RRM (I=I RM )V FM I (AV)T A =25A V A V A A ns DL4933/SM4933 1.05030 1.3 1.0 5.0100150DL4934/SM4934 1.010030 1.3 1.0 5.0100150DL4935/SM4935 1.020030 1.3 1.0 5.0100150DL4936/SM4936 1.040030 1.3 1.0 5.0100150MELF DL4937/SM4937 1.060030 1.3 1.0 5.0100250DL4947/SM4947 1.080030 1.3 1.0 5.0100500DL4948/SM4948 1.0100030 1.3 1.0 5.0100500FS1A 1.05030 1.3 1.0 5.0100150FS1B 1.010030 1.3 1.0 5.0100150FS1D 1.020030 1.3 1.0 5.0100150FS1G 1.040030 1.3 1.0 5.0100150FS1J 1.060030 1.3 1.0 5.0100250FS1K 1.080030 1.3 1.0 5.0100500FS1M 1.0100030 1.3 1.0 5.0100500RS1A 1.05030 1.3 1.0 5.0100150RS1B 1.010030 1.3 1.0 5.0100150RS1D 1.020030 1.3 1.0 5.0100150RS1G 1.040030 1.3 1.0 5.0100150RS1J 1.060030 1.3 1.0 5.0100250RS1K 1.080030 1.3 1.0 5.0100500RS1M 1.0100030 1.3 1.0 5.0100500FS2A 2.05050 1.3 2.0 5.0100150FS2B 2.010050 1.3 2.0 5.0100150FS2D 2.020050 1.3 2.0 5.0100150FS2G 2.040050 1.3 2.0 5.0100150FS2J 2.060050 1.3 2.0 5.0100250FS2K 2.080050 1.3 2.0 5.0100500FS2M 2.0100050 1.3 2.0 5.0100500FR1A 1.05030 1.3 1.0 5.0100150FR1B 1.010030 1.3 1.0 5.0100150FR1D 1.020030 1.3 1.0 5.0100150FR1G 1.040030 1.3 1.0 5.0100150FR1J 1.060030 1.3 1.0 5.0100250FR1K 1.080030 1.3 1.0 5.0100500FR1M 1.0100030 1.3 1.0 5.0100500FR1Q 1.0120030 1.5 1.0 5.0100300FR1V 1.0140030 1.5 1.0 5.0100300FR1Y 1.0160030 1.5 1.0 5.0100300FR1Z 1.0180030 1.7 1.0 5.0100500FR1ZZ 1.0200030 1.7 1.0 5.0100500FR2A 2.05050 1.3 2.0 5.0100150FR2B 2.010050 1.3 2.0 5.0100150FR2D 2.020050 1.3 2.0 5.0100150FR2G 2.040050 1.3 2.0 5.0100150FR2J 2.060050 1.3 2.0 5.0100250FR2K 2.080050 1.3 2.0 5.0100500FR2M 2.0100050 1.3 2.0 5.0100500FR3A 3.050100 1.3 3.010200150FR3B 3.0100100 1.3 3.010200150FR3D 3.0200100 1.3 3.010200150FR3G 3.0 400 100 1.3 3.0 10 200 150 SMC FR3J 3.0600100 1.3 3.010200250FR3K 3.0800100 1.3 3.010200500FR3M 3.01000100 1.3 3.010200500FR6A 6.050300 1.3 6.010200150FR6B 6.0100300 1.3 6.010200150FR6D 6.0200300 1.3 6.010200150FR6G 6.0400300 1.3 6.010200150HSMC FR6J 6.0600300 1.3 6.010200250FR6K 6.0800300 1.3 6.010200500FR6M 6.01000300 1.3 6.010200500FR8A 8.050300 1.38.010200150FR8B 8.0100300 1.38.010200150FR8D 8.0200300 1.38.010200150FR8G 8.0400300 1.38.010200150HSMC FR8J 8.0600300 1.38.010200250FR8K 8.0800300 1.38.010200500FR8M 8.01000300 1.38.010200500FR10A 10.050300 1.310.010200150FR10B 10.0100300 1.310.010200150FR10D 10.0200300 1.310.010200150FR10G 10.0400300 1.310.010200150HSMC FR10J 10.0600300 1.310.010200250FR10K 10.0800300 1.310.010200500FR10M 10.01000300 1.310.010200500SMA/SMB/HSMB SMB/HSMB HSMA/SMAE SMA HSMA/SMAE Case StyleI (AV)I FSM V FM I RM @V RRM Trr Type Average Forward Rectified CurrentPeak Repetitive Reverse Voltage Peak Forward Rectified Current Maximum Forward Voltage Maximum Peak Reverse Current Reverse Recovery Time SURFACE MOUNT FAST RECOVERY RECTIFIERS/HSMCV RRM(I=I RM )V FM I (AV)T A =25A VAVAAnsUF4001(G) 1.05030 1.0 1.01010050UF4002(G) 1.010030 1.0 1.01010050UF4003(G) 1.020030 1.0 1.01010050UF4004(G) 1.040030 1.3 1.01010050DO--41UF4005(G) 1.060030 1.7 1.01010075UF4006(G) 1.080030 1.7 1.01010075UF4007(G) 1.0100030 1.7 1.01010075UF5400(G) 3.050150 1.0 3.01010050UF5401(G) 3.0100150 1.0 3.01010050UF5402(G) 3.0200150 1.0 3.01010050UF5403(G) 3.0300150 1.0 3.01010050UF5404(G) 3.0400150 1.3 3.01010050DO--27UF5405(G) 3.0500150 1.7 3.01010075UF5406(G) 3.0600150 1.7 3.01010075UF5407(G) 3.0800150 1.7 3.01010075UF5408(G) 3.01000150 1.73.01010075"G"SUFFIX SINGNIFIES A GLASS PASSIVATED DIEV RRM(I=I RM )V FM I (AV)T A =25A VAVAAnsUS1A 1.05030 1.0 1.01010050US1B 1.010030 1.0 1.01010050US1D 1.020030 1.0 1.01010050US1G 1.040030 1.3 1.01010050US1J 1.060030 1.7 1.01010075US1K 1.080030 1.7 1.01010075US1M 1.0100030 1.7 1.01010075UF1A 1.05030 1.0 1.01010050UF1B 1.010030 1.0 1.01010050UF1D 1.020030 1.0 1.01010050UF1G 1.040030 1.3 1.01010050SMB UF1J 1.060030 1.7 1.01010075UF1K 1.080030 1.7 1.01010075UF1M 1.0100030 1.7 1.01010075US2A 2.05050 1.0 2.01010050US2B 2.010050 1.0 2.01010050US2D 2.020050 1.0 2.01010050US2G 2.040050 1.3 2.01010050US2J 2.060050 1.7 2.01010075US2K 2.080050 1.7 2.01010075US2M 2.0100050 1.7 2.01010075UF2A 2.05050 1.0 2.01010050UF2B 2.010050 1.0 2.01010050UF2D 2.020050 1.0 2.01010050UF2G 2.040050 1.3 2.01010050SMB UF2J 2.060050 1.7 2.01010075UF2K 2.080050 1.7 2.01010075UF2M 2.0100050 1.7 2.01010075UF3A 3.050100 1.0 3.01010050UF3B 3.0100100 1.0 3.01010050UF3D 3.0200100 1.0 3.01010050UF3G 3.0 400 100 1.3 3.0 10 100 50 SMC UF3J 3.0600100 1.7 3.01010075UF3K 3.0800100 1.7 3.01010075UF3M 3.01000100 1.7 3.01010075SMA/SMAE SMA/SMAEI FSM V FMI RM @V RRM Trr SURFACE MOUNT ULTRA FAST RECOVERY RECTIFIERSTypeAverageForward Rectified CurrentPeak Repetitive ReverseVoltage PeakForward Rectified Current Maximum Forward Voltage Maximum Peak Reverse Current Reverse Recovery Time Case StyleI (AV)I FSM V FMI RM @V RRM Trr TypeForward Rectified Current Repetitive Reverse VoltageForward Rectified Current Forward Voltage Peak Reverse Current Recovery Time Case StyleI (AV)V RRM(I=I RM)V FM I(AV)T A=25A V A V A A nsSF11 1.050300.95 1.0 5.05035 SF12 1.0100300.95 1.0 5.05035 SF13 1.0150300.95 1.0 5.05035 SF14 1.0200300.95 1.0 5.05035 SF15 1.030030 1.25 1.0 5.05035 SF16 1.040030 1.25 1.0 5.05035 MUR105(G) 1.050350.975 1.0 5.05045 MUR110(G) 1.0100350.975 1.0 5.05045 MUR115(G) 1.0150350.975 1.0 5.05045 MUR120(G) 1.020035 1.35 1.0 5.05045 MUR140(G) 1.040035 1.35 1.0 5.05060 MUR160(G) 1.060035 1.35 1.0 5.05060 MUR180 1.080035 1.75 1.0 5.05075 MUR1100 1.0100035 1.75 1.0 5.05075 SF21 2.050500.95 2.0 5.05035 SF22 2.0100500.95 2.0 5.05035 SF23 2.0150500.95 2.0 5.05035 SF24 2.0200500.95 2.0 5.05035 SF25 2.030050 1.25 2.0 5.05035 SF26 2.040050 1.25 2.0 5.05035 SF31 3.0501250.95 3.0 5.05035 SF32 3.01001250.95 3.0 5.05035 SF33 3.01501250.95 3.0 5.05035 SF34 3.02001250.95 3.0 5.05035 SF35 3.0300125 1.25 3.0 5.05035 SF36 3.0400125 1.25 3.0 5.05035 MUR405 4.050150 1.0 4.010.020045 MUR410 4.0100150 1.0 4.010.020045 MUR415 4.0150150 1.0 4.010.020045 MUR420 4.0200150 1.35 4.010.020060 MUR440 4.0400150 1.35 4.010.020060 MUR460 4.0600150 1.35 4.010.020060 MUR480 4.0800150 1.85 4.010.020075 MUR4100 4.01000150 1.85 4.010.020075 SF51 5.0501500.95 5.0 5.010035 SF52 5.01001500.95 5.0 5.010035 SF53 5.01501500.95 5.0 5.010035 SF54 5.02001500.95 5.0 5.010035 SF55 5.0300150 1.25 5.0 5.010035 SF56 5.0400150 1.25 5.0 5.010035 SF61 6.0501500.95 6.0 5.010035 SF62 6.01001500.95 6.0 5.010035 SF63 6.01501500.95 6.0 5.010035 SF64 6.02001500.95 6.0 5.010035 SF65 6.0300150 1.25 6.0 5.010035 SF66 6.0400150 1.25 6.0 5.010035 MUR605CT 6.05040 1.25 3.0 5.010035 MUR610CT 6.010040 1.25 3.0 5.010035 MUR620CT 6.020040 1.25 3.0 5.010035 MUR640CT 6.040040 1.35 3.0 5.010060 MUR660CT 6.060040 1.35 3.0 5.010060 MURH805CT8.050100 1.25 4.050.050035 MURH810CT8.0100100 1.25 4.050.050035 MURH820CT8.0200100 1.25 4.050.050035MURH840CT8.0400100 1.25 4.050.050060 MURH860CT8.0600100 2.8 4.050.050060 MURH880CT8.0800100 2.8 4.050.050060 MURH8100CT8.01000100 2.8 4.050.050060TO-220AB DO--27 DO--27 DO--27 TO-220AB DO--41 DO--41 DO--15 DO--27I FSM V FM I RM@V RRMTrrType ForwardRectifiedCurrentRepetitiveReverseVoltageForwardRectifiedCurrentForwardVoltagePeakReverseCurrentRecoveryTime CaseStyle I(AV)V RRM(I=I RM )V FM I (AV)T A =25A VAVAAnsMUR(F)8058.050125 1.08.010.050035MUR(F)8108.0100125 1.08.010.050035MUR(F)8208.0200125 1.08.010.050035MUR(F)8308.0300125 1.38.010.050035MUR(F)8408.0400125 1.38.010.050035MUR(F)8608.0600125 1.58.010.050050MUR(F)8808.0800125 1.58.010.050050MUR(F)805CT 8.050100 1.0 4.010.050035MUR(F)810CT 8.0100100 1.0 4.010.050035MUR(F)820CT 8.0200100 1.0 4.010.050035MUR(F)830CT 8.0300100 1.3 4.010.050035MUR(F)840CT 8.0400100 1.3 4.010.050035MUR(F)860CT 8.0600100 1.5 4.010.050050MUR(F)880CT 8.0800100 1.5 4.010.050050MUR(F)1005CT 10.050125 1.0 5.010.050035MUR(F)1010CT 10.0100125 1.0 5.010.050035MUR(F)1020CT 10.0200125 1.0 5.010.050035MUR(F)1030CT 10.0300125 1.3 5.010.050035MUR(F)1040CT 10.0400125 1.3 5.010.050035MUR(F)1060CT 10.0600125 1.5 5.010.050050MUR(F)1080CT 10.0800125 1.5 5.010.050050MUR(F)1605CT 16.050125 1.08.010.050035MUR(F)1610CT 16.0100125 1.08.010.050035MUR(F)1620CT 16.0200125 1.08.010.050035MUR(F)1630CT 16.0300125 1.38.010.050035MUR(F)1640CT 16.0400125 1.38.010.050035MUR(F)1660CT 16.0600125 1.58.010.050050MUR(F)1680CT 16.0800125 1.58.010.050050MUR(F)2005CT 20.050150 1.010.010.050035MUR(F)2010CT 20.0100150 1.010.010.050035MUR(F)2020CT 20.0200150 1.010.010.050035MUR(F)2030CT 20.0300150 1.310.010.050035MUR(F)2040CT 20.0400150 1.310.010.050035MUR(F)2060CT 20.0600150 1.510.010.050050MUR(F)2080CT 20.0800150 1.510.010.050050MUR3005PT 30.050300 1.015.010.050035MUR3010PT 30.0100300 1.015.010.050035MUR3020PT 30.0200300 1.015.010.050035MUR3030PT 30.0300300 1.315.010.050035MUR3040PT 30.0400300 1.315.010.050035MUR150515.050150 1.2515.050.050035MUR151015.0100150 1.2515.050.050035MUR152015.0200150 1.2515.050.050035MUR154015.0400150 1.515.050.050060MUR156015.06001501.515.050.050060Peak Reverse Current Recovery Time Case StyleI (AV)I FSM V FMI RM @V RRM Trr TO-220AB(ITO-220AB)TO-220AB(ITO-220AB)TO-3P (TO-247AD)TO-220ACTO-220AC(ITO-220AC)TO-220AB(ITO-220AB)TO-220AB(ITO-220AB)TypeForward Rectified Current Repetitive Reverse VoltageForward Rectified Current Forward VoltageV RRM(I=I RM )V FM I (AV)T A =25A VAVAAnsEMS101/DLSF11 1.050300.95 1.0 5.05035EMS102/DLSF12 1.0100300.95 1.0 5.05035EMS103/DLSF13 1.0150300.95 1.0 5.05035EMS104/DLSF14 1.0200300.95 1.0 5.05035EMS105/DLSF15 1.030030 1.25 1.0 5.05050EMS106/DLSF161.040030 1.25 1.0 5.05050ES1A 1.050300.95 1.0 5.05050ES1B 1.0100300.95 1.0 5.05050ES1C 1.0150300.95 1.0 5.05050ES1D 1.0200300.95 1.0 5.05050ES1E 1.030030 1.25 1.0 5.05050ES1G 1.040030 1.25 1.0 5.05050ES1J 1.060030 1.35 1.0 5.05060ES1K 1.080030 1.35 1.0 5.05060ES1M 1.0100030 1.60 1.0 5.050100ES2A2.050500.95 2.0 5.05050ES2B 2.0100500.95 2.0 5.05050ES2D 2.0200500.95 2.0 5.05050ES2G 2.040050 1.25 2.0 5.05050ES2J 2.060050 1.35 2.0 5.05060ES2K 2.080050 1.35 2.0 5.05060ES2M 2.0100050 1.60 2.0 5.050100ER1A 1.050300.95 1.0 5.05050ER1B 1.0100300.95 1.0 5.05050ER1C 1.0150300.95 1.0 5.05050ER1D 1.0200300.95 1.0 5.05050ER1E 1.030030 1.25 1.0 5.05050ER1G 1.040030 1.25 1.0 5.05050ER1J 1.060030 1.35 1.0 5.05060ER1K 1.080030 1.35 1.0 5.05060ER1M 1.0100030 1.60 1.0 5.050100ER1Q 1.0120030 1.85 1.0 5.050150ER1V 1.0140030 1.85 1.0 5.050150ER1Y 1.0160030 2.00 1.0 5.050150ER1Z 1.0180030 2.00 1.0 5.050300ER1ZZ 1.0200030 2.00 1.0 5.050300ER2A 2.050500.95 2.0 5.05050ER2B 2.0100500.95 2.0 5.05050ER2C 2.0150500.95 2.0 5.05050ER2D 2.0200500.95 2.0 5.05050ER2E 2.030050 1.25 2.0 5.05050ER2G 2.040050 1.25 2.0 5.05050ER2J 2.060050 1.35 2.0 5.05060ER2K 2.080050 1.35 2.0 5.05060ER2M 2.0100050 1.60 2.0 5.050100ER3A3.0501000.95 3.0 5.05035ER3B 3.01001000.95 3.0 5.05035ER3C 3.01501000.95 3.0 5.05035ER3D 3.02001000.95 3.0 5.05035ER3E 3.0300100 1.25 3.0 5.05035ER3G 3.0400100 1.25 3.0 5.05035ER3J 3.0600100 1.70 3.0 5.05035ER3K 3.0800100 1.70 3.0 5.05035ER6A 6.050125 1.25 6.010.010050ER6B 6.0100125 1.25 6.010.010050ER6D 6.0200125 1.25 6.010.010050ER6G 6.0400125 1.25 6.010.010060ER8A 8.050150 1.358.010.010050ER8B 8.0100150 1.358.010.010050ER8D 8.0200150 1.358.010.010050HSMCER8G 8.0400150 1.358.010.010050ER8J 8.0600150 1.358.010.010060ER10A 10.050200 1.0010.010.010035ER10B 10.0100200 1.0010.010.010035ER10D 10.0200200 1.0010.010.010035ER10G10.04002001.0010.010.010060HSMCHSMCSMA/SMB/HSMBSMB/HSMBSMC/HSMCMELFSMA/HSMA/SMAESMB/HSMA/SMAEI FSM V FMI RM @V RRM Trr SURFACE MOUNT SUPER FAST RECOVERY RECTIFIERSTypeAverageForward Rectified CurrentPeak Repetitive ReverseVoltage Peak Forward Rectified Current Maximum Forward Voltage Maximum Peak Reverse Current Reverse Recovery Time Case StyleI (AV)。

KBL005 thru KBL10Vishay General SemiconductorDocument Number: 88655For technical questions within your region, please contact one of the following:Single-Phase Bridge RectifierFEATURES•UL recognition file number E54214 •Ideal for printed circuit boards •High surge current capability•High case dielectric strength of 1500 V RMS•Solder dip 260 °C, 40 s•Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/EC TYPICAL APPLICATIONSGeneral purpose use in ac-to-dc bridge full wave rectification for monitor, TV, printer, SMPS, adapter,audio equipment, and home appliances applications.MECHANICAL DATA Case: KBLEpoxy meets UL 94V-0 flammability ratingTerminals: Silver plated leads, solderable per J-STD-002 and JESD22-B102E4 suffix for consumer grade Polarity: As marked on bodyMounting Torque: 10 cm-kg (8.8 inches-lbs) max.Recommended Torque:5.7 cm-kg (5 inches-lbs)PRIMARY CHARACTERISTICSI F(AV) 4 A V RRM 50 V to 1000 VI FSM 200 A I R 5 µA V F 1.1 V T J max.150 °C~~MAXIMUM RATINGS (T A = 25°C unless otherwise noted)PARAMETERSYMBOL KBL005KBL01KBL02KBL04KBL06KBL08KBL10UNIT Maximum repetitive peak reverse voltage V RRM 501002004006008001000V Maximum RMS voltage V RMS 3570140280420560700V Maximum DC blocking voltageV DC 501002004006008001000V Maximum average forward current at T A = 50 °C I F(AV)4.0APeak forward surge current single sine-wave superimposed on rated loadI FSM 200 A Operating junction and storage temperature rangeT J , T STG- 50 to + 150°CELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted)PARAME T ER T ES T CONDI T IONS SYMBOL KBL005KBL01KBL02KBL04KBL06KBL08KBL10UNITMaximum instantaneousforward drop per diode 4.0 A V F 1.1V Maximum DC reverse current at rated DCblocking voltage per diodeT A = 25 °C T A = 125 °CI R5.01.0µA mAKBL005 thru KBL10Vishay General Semiconductor For technical questions within your region, please contact one of the following:Document Number: 88655Notes:(1)Thermal resistance from junction to ambient with units mounted on 3.0 x 3.0 x 0.11" thick (7.5 x 7.5 x 0.3 cm) aluminum plate(2)Thermal resistance from junction to lead with units mounted on P.C.B. at 0.375" (9.5 mm) lead length and 0.5 x 0.5" (12 x 12 mm) copper padsRATINGS AND CHARACTERISTICS CURVES (T A = 25°C unless otherwise noted)THERMAL CHARACTERISTICS (T A = 25°C unless otherwise noted)PARAME ER SYMBOL KBL005KBL01KBL02KBL04KBL06KBL08KBL10UNI T Typical thermal resistance R θJA R θJL19 (1)2.4 (2)°C/WORDERING INFORMATION (Example)PREFERRED P/N UNIT WEIGHT (g)PREFERRED PACKAGE CODEBASE QUANTITYDELIVERY MODE KBL06-E4/516.051300Anti-static PVC trayFigure 1. Derating Curve Output Rectified Current Figure 2. Maximum Non-Repetitive Peak Forward SurgeCurrent Per DiodeFigure 3. Typical Instantaneous Forward Characteristics Per DiodeFigure 4. Typical Reverse Leakage Characteristics Per DiodeKBL005 thru KBL10Vishay General SemiconductorDocument Number: 88655For technical questions within your region, please contact one of the following:PACKAGE OUTLINE DIMENSIONS in inches (millimeters)Figure 5. Typical Junction Capacitance Per DiodeLegal Disclaimer Notice VishayDisclaimerALL PRODU CT, PRODU CT SPECIFICATIONS AND DATA ARE SU BJECT TO CHANGE WITHOU T NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein.Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk and agree to fully indemnify and hold Vishay and its distributors harmless from and against any and all claims, liabilities, expenses and damages arising or resulting in connection with such use or sale, including attorneys fees, even if such claim alleges that Vishay or its distributor was negligent regarding the design or manufacture of the part. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereb y certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.Revision: 12-Mar-121Document Number: 91000分销商库存信息:VISHAY-GENERAL-SEMICONDUCTORKBL06-E4/51KBL02-E4/51KBL08-E4/51 KBL005-E4/51KBL04-E4/51KBL01-E4/51 KBL10-E4/51KBL01/1KBL04/1 KBL06/1KBL10/1。

BKL-501SC 型微机励磁装置运行规程我公司使用的BKL-501SC 型微机励磁装置为中国核工业电机运行技术开发公司设计研制励磁系统，采用液晶触摸显示屏，可显示各项运行参数、控制参数及故障信息。

装置采用双微机控制系统，具有优良的抗干扰性能，并可带载不停机更换控制插件、冷却风机、灭磁单元。

保护功能完善，具有带励、失励失步保护及不减载自动再整步功能。

一、主要技术性能1、采用全数字化双微机系统（CPU 采用Intel 196 系列16 位单片机），一套工作，另一套热备，故障时可自动无扰动切换至备用系统，也可手动切换。

2、采用触摸屏人机界面，信息量丰富，观察直观，操作方便。

可查看各项运行参数及装置发出的各类报警信息，并可在运行中随时修改设定值。

“事件记录”中记载了故障报警及重要操作。

3、主回路采用无续流二极管三相半控桥式电路，具有良好的启动控制回路，保证电机启动时无脉振，并使电机在失步后的再整步过程中有良好的再整步特性，即使在少有的控制插件、冷却风机单元、灭磁单元故障时，仍可保证电机稳定同步运转，并可在不停机、不减载条件下更换故障部件。

4、采用按滑差顺极性过零投励特性，投励时加短时整步强励，牵入同步迅速、可靠、平稳，投励时无冲击。

对凸极效应强、因凸极效应牵入同步的电机，则会自动启动计时环节投励。

具有自动投全压功能。

5、具有手动/自动调节励磁功能。

手动调节范围一般设置为额定励磁电压值的20%~130%。

采用增/减磁按钮来调节励磁，取消了以往故障率高的励磁调节电位器。

6、具有恒电流、恒功率因数自动调节功能。

由于有α角自动跟踪，手/自动切换时无扰动。

7、具有失步保护及不减载自动再整步功能。

当电机因负载突增、电压剧降、励磁电源短时消失等原因导致电机带励、失励失步时，在故障源消除后，本装置会实现自动带载再整步，使电机恢复稳定同步运行，如因故障时间、电机特性或负载等原因无法实现再整步时，失步保护装置会自动动作于跳闸。

富山HP-005伺服控制器安装维护手册本手册仅提供给技术支持、售后、维修使用。

文中所涉及的内容，是按最新版本软件编写。

如有和控制箱本身说明不符的地方，一律以控制箱本身的说明为准，在实际的维护过程中，可能会碰到文中没有提到的内容，请及时向公司有关部分反馈，尽可能的在下一版本中，将新发现的问题一一列出。

文中所提供的资料仅供参考，具体以实物的规格书为准！(仅供内部使用参考)目录0、主要技术数据： (4)1、安全注意事项： (5)1.1 使用范围： (5)1.2 工作环境： (5)1.3 安装： (5)1.4 保养维修的规定: (5)1.5危险提示 (6)1.6 其它安全规定: (6)2. 安装与调整： (6)2.1 电机的安装： (6)2.2 针位信号器及手轮的安装： (7)2.3 控制箱的安装： (7)2.4 停针位的调整： (8)3. 接线与接地： (8)3.1 电源线的接法： (8)3.2、控制器接线端子图： (9)4、操作面板的使用： (10)4.1、操作面板按键定义： (10)4.2、操作面板参数设定： (11)4.3、操作面板的组合操作及显示 (15)5、主控制箱面板操作说明书 (16)5.1、主控制箱面板的布局如下示意图， (16)5.2、待机状态： (16)5.3、缝纫模式及各段针数设置： (17)5.4 前固缝方式及针数设置： (18)5.5 后固缝方式及针数设置： (18)5.6 工艺参数设置： (19)6、针迹补偿调整方法 (20)6.1 调整前的准备 (20)6.2 调整步骤 (20)7、常用参数的修改示例 (21)7.0 参数修改状态的进入方法 (21)7.1 如何修改自由缝最高速度 (21)7.2 如何修改慢启动速度 (22)7.3 如何关掉上电找停针位 (22)7.4 如何修改剪线速度 (22)7.5 如何恢复出厂参数 (22)7.6 如何修改工艺参数密码 (22)7.7 如何修改底线总数 (22)8、控制箱硬件检测方法 (23)8.1 维护参数表 (23)8.2、历史故障查询功能 (25)8.3、控制箱外围部件检测 (25)1、电机码盘的检测 (25)2、手动倒缝开关的检测 (25)3、立式脚踏的检测 (25)4、脚踏的检测 (25)9、故障分析 (26)9.1、故障代码表内故障的解决办法 (26)9.2、电磁铁故障分析 (28)1、剪线电磁铁故障的分析 (28)2、扫（挑）线电磁铁故障的分析 (28)3、倒缝电磁铁故障的分析 (28)4、手动倒缝故障的分析 (28)5、抬压脚电磁铁故障的分析 (28)9.3、部分故障问答 (29)10、出厂及维护时使用的特殊操作 (29)10.1 密码清除 (29)10.2 主控箱软件版本查询 (30)10.3 存储器数据复位 (30)10.4 机头工作时间清除 (30)10.5、厂家出厂参数的修改 (30)10.6、出厂机型参数的修改 (31)10. ７、特殊机型参数的修改 (31)11. 七段数码管显示值与实际数值对照表 (32)0、主要技术数据：供电电压范围：AC220V ±15% 供电电源频率：50Hz/60Hz 整机最大功率：700W电机额定功率：550W 电机额定转速：4500rpm 电机额定转矩：1.0Nm 电机最大转矩：3.0Nm感谢您选用本公司工业平缝机伺服控制器。

第一章系统概述JBF-11S联动型火灾报警控制器为我公司按最新国家标准GB4717-93和GB16806-97设计研制开发的,并通过ISO9001认证。

控制器可以同时实现火灾报警和灭火联动两种功能, 可以挂接本公司生产的各种类型火灾探测部件、联动部件、光电感烟探测器、电子感温探测器、线型红外光束感烟探测器、线型感温缆式探测器、手动报警按钮, 消火栓报警按钮、声光报警器、总线控制模块、总线输入模块、总线隔离模块、广播电话系统、火灾显示盘(即重复显示盘)、气体灭火等。

JBF-11S控制器可以是壁挂式，也可以是入柜式。

JBF-11S控制器根据容量分为1回路、2回路、4回路和8回路四种机型，每回路的容量：127个报警点+64个联动点+15台火灾显示盘。

JBF-11S控制器特点1．两总线无极性，采用地址编码技术。

整个系统只用几根总线，建筑物布线极其简单，布线路径及方式任意(可以是树枝状，也可以是环状)，且不分先后顺序，提高了布线可靠性，也便于穿线施工和线路维修，并可大大降低工程造价。

2．液晶中文界面，全部采用汉字显示。

各种操作以菜单形式给出提示，显示内容一目了然，用起来清楚、直观，实现了良好的人机对话。

3.所接探测器模块等内嵌微处理器。

LN2100光电感烟探测器和LN2110电子感温探测器检测的是模拟量信号，微处理器通过软件对所测的模拟量信号进行监视及分析，从而实现对灰尘、温度、湿度等外界因素引起的信号变化进行补偿，保证火灾报警的可靠性。

4. 黑匣子功能。

控制器可以永久保存控制器开机、关机、火警、各种故障、联动设备的启动及停止等信息。

5．极强的抗干扰能力。

控制器无论是硬件还是软件都有极好的抗干扰措施，控制器能在电磁干扰强的环境使用。

6．无主从组网方式。

可以多台控制器连接组网，组网的控制器之间不分主机和分机，一台控制器报警可以同时在其它控制器得到反应。

从而可以组成非常大的报警系统。

7．超强的系统容量。

单台控制器随种类不同,可以组成系统总点数从127点到1016点, 组网后系统容量更大。