B32340C4001A840中文资料

N E W P R O D U C TProduct SummaryDescription and ApplicationsThe schottky rectifier providing low V F and excellent reverse leakage stability at high temperatures, this device is ideal for use in general rectification applications such as:∙ Boost Diode ∙ Blocking Diode ∙ Recirculating DiodeFeatures and Benefits∙ Reduced Low Forward Voltage Drop (V F ); Better Efficiency and Cooler Operation∙Reduced High-temperature Reverse Leakage; Increased Reliability against Thermal Runaway Failure in High Temperature Operation.∙ Lead-Free Finish; RoHS Compliant (Notes 1 & 2)∙ Halogen and Antimony Free. “Green” Device (Note 3)Mechanical Data∙ Case: SMA∙ Case Material: M olded Plastic, “Green” Molding Compound. UL Flammability Classification Rating 94V-0 ∙ Moisture Sensitivity: Level 1 per J-STD-020∙ Terminals: Finish - Matte Tin Annealed over Copper Leadframe. Solderable per MIL-STD-202, Method 208 ∙ Polarity: Cathode Band∙Weight: 0.063 grams (Approximate)Notes: 1. EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant. All applicable RoHS exemptions applied.2. See /quality/lead_free.html for more information about Diodes Incorporated’s definitions of Hal ogen- and Antimony-free, "Green" and Lead-free.3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds.4. For packaging details, go to our website at /products/packages.html.Marking InformationB3XXAE = Product Type Marking Code, ex: B320AE= Manufacturers’ Code Marking YWW = Date Code MarkingY = Last Digit of Year (ex: 6 for 2016) WW = Week Code (01 to 53)Top ViewSMABottom ViewB3XXAEGreenN E W P R O D U C TMaximum Ratings (@T A = +25°C, unless otherwise specified.)Single phase, half wave, 60Hz, resistive or inductive load.Thermal CharacteristicsNotes: 5. Device mounted on FR-4 substrate, 1"*1", 2oz, single-sided, PC boards with 0.56"*0.73" copper pad.6. Short duration pulse test used to minimize self-heating effect.N E W P R O D U C TN E W P R O D U C TPackage Outline DimensionsPlease see /package-outlines.html for the latest version.SMASuggested Pad LayoutPlease see /package-outlines.html for the latest version.SMAN E W P R O D U C T万联芯城专注电子元器件配单服务，只售原装现货库存，万联芯城电子元器件全国供应，专为终端生产，研发企业提供现货物料，价格优势明显，BOM配单采购可节省逐个搜索购买环节，只需提交BOM物料清单，商城即可为您报价，万联芯城现货库存销售能够满足多种客户的物料需求，一站式报价为客户节省采购成本，点击进入万联芯城。

Data sheet acquired from Harris Semiconductor SCHS041D − Revised October 2003The CD4043B and CD4044B types are supplied in 16-lead hermetic dual-in-line ceramic packages (F3A suffix), 16-lead dual-in-line plastic packages (E suffix), 16-lead small-outline packages (D, DR, DT, DW, DWR, and NSR suffixes), and 16-lead thin shrink small-outline packages (PW and PWR suffixes).PACKAGING INFORMATIONOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)CD4043BD ACTIVE SOIC D1640Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4043BDR ACTIVE SOIC D162500Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4043BDT ACTIVE SOIC D16250Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4043BDW ACTIVE SOIC DW1640Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMCD4043BDWR ACTIVE SOIC DW162000Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMCD4043BE ACTIVE PDIP N1625Pb-Free(RoHS)CU NIPDAU Level-NC-NC-NC CD4043BF3A ACTIVE CDIP J161None Call TI Level-NC-NC-NC CD4043BM OBSOLETE SOIC D16None Call TI Call TICD4043BNSR ACTIVE SO NS162000Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4043BPW ACTIVE TSSOP PW1690Pb-Free(RoHS)CU NIPDAU Level-1-250C-UNLIMCD4043BPWR ACTIVE TSSOP PW162000Pb-Free(RoHS)CU NIPDAU Level-1-250C-UNLIMCD4044BD ACTIVE SOIC D1640Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4044BDR ACTIVE SOIC D162500Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4044BDT ACTIVE SOIC D16250Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4044BDW ACTIVE SOIC DW1640Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMCD4044BDWR ACTIVE SOIC DW162000Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMCD4044BE ACTIVE PDIP N1625Pb-Free(RoHS)CU NIPDAU Level-NC-NC-NC CD4044BF ACTIVE CDIP J161None Call TI Level-NC-NC-NC CD4044BF3A ACTIVE CDIP J161None Call TI Level-NC-NC-NC CD4044BM OBSOLETE SOIC D16None Call TI Call TICD4044BNSR ACTIVE SO NS162000Pb-Free(RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIMCD4044BPW ACTIVE TSSOP PW1690Pb-Free(RoHS)CU NIPDAU Level-1-250C-UNLIMCD4044BPWR ACTIVE TSSOP PW162000Pb-Free(RoHS)CU NIPDAU Level-1-250C-UNLIM(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan-May not be currently available-please check /productcontent for the latest availability information and additional product content details.None:Not yet available Lead(Pb-Free).Pb-Free(RoHS):TI's terms"Lead-Free"or"Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all6substances,including the requirement that lead not exceed0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Green(RoHS&no Sb/Br):TI defines"Green"to mean"Pb-Free"and in addition,uses package materials that do not contain halogens, including bromine(Br)or antimony(Sb)above0.1%of total product weight.(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDECindustry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.元器件交易网IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications,enhancements, improvements, and other changes to its products and services at any time and to discontinueany product or service without notice. Customers should obtain the latest relevant information before placingorders and should verify that such information is current and complete. All products are sold subject to TI’s termsand conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale inaccordance with TI’s standard warranty. T esting and other quality control techniques are used to the extent TIdeems necessary to support this warranty. Except where mandated by government requirements, testing of allparameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible fortheir products and applications using TI components. T o minimize the risks associated with customer productsand applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right,copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or processin which TI products or services are used. Information published by TI regarding third-party products or servicesdoes not constitute a license from TI to use such products or services or a warranty or endorsement thereof.Use of such information may require a license from a third party under the patents or other intellectual propertyof the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is withoutalteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproductionof this information with alteration is an unfair and deceptive business practice. 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贴片元件标记对应型号资料贴片元件标记对应型号资料标记型号生产厂家封装引脚数1HR 2SD2185 松下MiniP3-F1 3 1HS 2SD2185 松下MiniP3-F1 3 1IR 2SB1440 松下MiniP3-F1 3 1IS 2SB1440 松下MiniP3-F1 3 1KQ 2SD2210 松下MiniP3-F1 3 1KR 2SD2210 松下MiniP3-F1 3 1KS 2SD2210 松下MiniP3-F1 3 1S 2SD2413 松下MiniP3-F1 3 1U 2SB1589 松下MiniP3-F1 3 1V 2SD2441 松下MiniP3-F1 3 1XQ 2SB1599 松下MiniP3-F1 3 1XR 2SB1599 松下MiniP3-F1 3 1YQ 2SD2457 松下MiniP3-F1 3 1YR 2SD2457 松下MiniP3-F1 3 2A 2SC5712 東芝SC-63 32AR 2SC5026 松下MiniP3-F1 3 2AS 2SC5026 松下MiniP3-F1 3 2C 2SC5713 東芝SC-63 32E 2SC5714 東芝SC-63 32ER 2SD2459 松下MiniP3-F1 3 2ES 2SD2459 松下MiniP3-F1 3 3D 2SC5819 東芝SC-63 33E 2SC5785 東芝SC-63 34D 2SA2069 東芝SC-63 34E 2SA2066 東芝SC-63 34F 2SA2059 東芝SC-63 34G 2SC2060 東芝SC-63 37O 2SA1621 東芝SC-59 37Y 2SA1621 東芝SC-59 3A 2SC2413K ROHM SC-59A 3 A 2SC4098 ROHM 3A1 1SS272 東芝SC-61 4A3 1SS181 東芝SC-59 3A3 1SS300 東芝SC-70 3A4 1SS319 東芝SC-61 4A4 1SS383 東芝4A5 1SS384 東芝SOT-343 4A5 1SS391 東芝SC-61 4A6 HN2S01F 東芝SC-74 6A6 HN2S01FU 東芝SC-88 6 A7 1SS402 東芝SOT-343 4A9 1SS294 東芝SC-59 3AL 2SA1971 東芝SC-63 3AL 2SC5307 東芝SC-63 3AN 2SC2532 東芝SC-59 3 AO 2SA2880 東芝SC-63 3 AQ 2SB766 松下MiniP3-F1 3 AR 2SB766 松下MiniP3-F1 3 AS 2SB766 松下MiniP3-F1 3 AU 2SB804 NEC SC-62 3AV 2SB804 NEC SC-62 3AW 2SB804 NEC SC-62 3AY 2SA2880 東芝SC-63 3B 2CS4081 ROHM 3B 2SC2412K ROHM SC-59A 3 B3 1SS184 東芝SC-59 3B3 1SS301 東芝SC-70 3B9 1SS311 東芝SC-59 3B9 1SS397 東芝SC-70 3BD 1SS271 東芝SC-59 3BE 1SV172 東芝BF 1SS268 東芝SC-59 3BG 1SS269 東芝SC-59 3BH 1SS295 東芝SC-59 3BO 2SA1200 東芝SC-63 3 BQ 2SB766A 松下MiniP3-F1 3 BR 2SB766A 松下MiniP3-F1 3 BS 2SB766A 松下MiniP3-F1 3 BU 2SD1005 NEC SC-62 3BU DA228K ROHM SC-59 3 BU DA228U ROHM SC-70 3 BV 2SD1005 NEC SC-62 3BW 2SD1005 NEC SC-62 3BY 2SA1200 東芝SC-63 3C 2SC2411K ROHM SC-59A 3C 2SC4097 ROHM 3C1 1SS352 東芝C1 1SS387 東芝C3 1SS226 東芝SC-59 3C9 1SS307 東芝SC-59 3CEO 2SC3325 東芝SC-59 3 CEY 2SC3325 東芝SC-59 3CG 2SA1163 東芝SC-59 3CK 2SD999 NEC SC-62 3CL 2SD999 NEC SC-62 3CM 2SD999 NEC SC-62 3CO 2SC2881 東芝SC-63 3CO 2SC4209 東芝SC-59 3CQ 2SB767 松下MiniP3-F1 3 CR 2SB767 松下MiniP3-F1 3 CY 2SC2881 東芝SC-63 3CY 2SC4209 東芝SC-59 3D 2SA1037KLN ROHM SC-59A 3 D3 1SS187 東芝SC-59 3DG 2SC2713 東芝SC-59 3DK 2SB798 NEC SC-62 3DL 2SB798 NEC SC-62 3DM 2SB798 NEC SC-62 3DO 2SA1201 東芝SC-63 3DQ 2SB789 松下MiniP3-F1 3 DR 2SB789 松下MiniP3-F1 3 DY 2SA1201 東芝SC-63 3E3 1SS190 東芝SC-59 3EK 2SD1001 NEC SC-62 3EL 2SD1001 NEC SC-62 3EM 2SD1001 NEC SC-62 3EO 2SC2882 東芝SC-63 3EQ 2SB789A 松下MiniP3-F1 3 ER 2SB789A 松下MiniP3-F1 3 EX 2SD2402 NEC SC-62 3EY 2SC2882 東芝SC-63 3EY 2SD2402 NEC SC-62 3EZ 2SD2402 NEC SC-62 3F 2SA1037K ROHM SC-59A 3 F 2SA1576 ROHM 3F3 1SS193 東芝SC-59 3F5 1SS250 東芝SC-59 3F5 1SS370 東芝SC-70 3F5 1SS403 東芝SOD-323 2F9 1SS321 東芝SC-59 3FK 2SB800 NEC SC-62 3FL 2SB800 NEC SC-62 3FM 2SB800 NEC SC-62 3FO 2SA1202 東芝SC-63 3FX 2SB1571 NEC SC-62 3FY 2SA1202 東芝SC-63 3FY 2SB1571 NEC SC-62 3FZ 2SB1571 NEC SC-62 3G3 1SS196 東芝SC-59 3G3 2SA1455K ROHM SC-59A 3 GK 2SD1615 NEC SC-62 3GL 2SD1615 NEC SC-62 3GM 2SD1615 NEC SC-62 3 GO 2SC2883 東芝SC-63 3 GP 2SD1615A NEC SC-62 3 GQ 2SD1615A NEC SC-62 3 GX 2SD2403 NEC SC-62 3GY 2SC2883 東芝SC-63 3GY 2SD2403 NEC SC-62 3GZ 2SD2403 NEC SC-62 3H9 1SS344 東芝SC-59 3HK 2SD1006 NEC SC-62 3HL 2SD1006 NEC SC-62 3HM 2SD1006 NEC SC-62 3 HO 2SA1203 東芝SC-63 3HP 2SD1007 NEC SC-62 3HQ 2SD1007 NEC SC-62 3HR 2SD1007 NEC SC-62 3HR 2SB956 松下MiniP3-F1 3 HS 2SB956 松下MiniP3-F1 3 HX 2SB1572 NEC SC-62 3HY 2SA1203 東芝SC-63 3HY 2SB1572 NEC SC-62 3HZ 2SB1572 NEC SC-62 3I9 1SS336 東芝SC-59 3IK 2SA1463 NEC SC-62 3IL 2SA1463 NEC SC-62 3IO 2SC3515 東芝SC-63 3IQ 2SB1073 松下MiniP3-F1 3 IR 2SC3515 東芝SC-63 3IR 2SB1073 松下MiniP3-F1 3 J 2SC2059K ROHM SC-59A 3J 2SC4099 ROHM 3J9 1SS337 東芝SC-59 3JO 2SA1384 東芝SC-63 3JR 2SK208 東芝SC-59 3JR 2SA1384 東芝SC-63 3K DA221 ROHM SC-75A 3K DA204U ROHM SC-70 3K DA204K ROHM SC-59 3K9 1SS348 東芝SC-59 3KA 2SC4409 東芝SC-63 3KD 2SC4541 東芝SC-63 3KK 2SB805 NEC SC-62 3KL 2SB805 NEC SC-62 3KM 2SB805 NEC SC-62 3KP 2SB806 NEC SC-62 3KQ 2SB806 NEC SC-62 3KR 2SB806 NEC SC-62 3L 2SC2412KLN ROHM SC-59A 3 L9 1SS349 東芝SC-59 3LA 2SA1681 東芝SC-63 3LD 2SA1736 東芝SC-63 3LK 2SD1000 NEC SC-62 3LL 2SD1000 NEC SC-62 3LM 2SD1000 NEC SC-62 3MK 2SB799 NEC SC-62 3 ML 2SB799 NEC SC-62 3 MM 2SB799 NEC SC-62 3 MO 2SC2873 東芝SC-63 3 MY 2SC2873 東芝SC-63 3 N9 1SS372 東芝SC-70 3 N9 1SS374 東芝SC-59 3 NA 2SK1273 NEC SC-62 3 NB 2SK1586 NEC SC-62 3 NC 2SK1485 NEC SC-62 3 ND 2SK1583 NEC SC-62 3 NE 2SK1585 NEC SC-62 3 NF 2SK1587 NEC SC-62 3 NG 2SK1588 NEC SC-62 3 NH 2SK1584 NEC SC-62 3 NI 2SK1586 NEC SC-62 3 NJ 2SK2111 NEC SC-62 3 NK 2SC2780 NEC SC-62 3 NL 2SC2780 NEC SC-62 3 NM 2SC2780 NEC SC-62 3 NO 2SA1213 東芝SC-63 3 NO 2SK1592 NEC SC-62 3 NP 2SK1593 NEC SC-62 3 NQ 2SK1959 NEC SC-62 3 NR 2SK1960 NEC SC-62 3 NS 2SK2109 NEC SC-62 3 NT 2SK2110 NEC SC-62 3 NV 2SK2112 NEC SC-62 3 NW 2SK2159 NEC SC-62 3 NX 2SK2857 NEC SC-62 3 NY 2SA1213 東芝SC-63 3 O9 1SS377 東芝SC-59 3 O9 1SS378 東芝SC-70 3 O9 1SS385 東芝SC-75 3 O9 1SS385F 東芝SC-81 3 OK 2SC3736 NEC SC-62 3 OL 2SC3736 NEC SC-62 3PA 2SJ179 NEC SC-62 3PB 2SJ197 NEC SC-62 3PC 2SJ199 NEC SC-62 3PD 2SJ205 NEC SC-62 3PE 2SJ207 NEC SC-62 3PF 2SJ208 NEC SC-62 3PH 2SJ206 NEC SC-62 3PO 2SC2884 東芝SC-63 3 PO 2SJ212 NEC SC-62 3PP 2SJ213 NEC SC-62 3PQ 2SJ355 NEC SC-62 3PR 2SJ356 NEC SC-62 3PY 2SC2884 東芝SC-63 3 QO 2SC2714 東芝3R12 UMR12N ROHM SC-88 6 R23 2SC3356 Q NEC SC-59 3 R24 2SC3356 R NEC SC-59 3 R25 2SC3356 S NEC SC-59 3 R9 1SS392 東芝SC-59 3R9 1SS393 東芝SC-70 3RQ 2SD1280 松下MiniP3-F1 3 RR 2SD1280 松下MiniP3-F1 3 RS 2SD1280 松下MiniP3-F1 3 S2 1SS315 東芝SC-59 3S9 1SS394 東芝SC-59 3SA 2SC2982 東芝SC-63 3SK 2SC3554 NEC SC-62 3SL 2SC3554 NEC SC-62 3SM 2SC3554 NEC SC-62 3 SO 2SA1162 東芝SC-59 3T9 1SS396 東芝SC-59 3TA 2SA1314 東芝SC-63 3TA 1SV231 東芝1-1E1A 2TB 2SA1314 東芝SC-63 3TC 2SA1314 東芝SC-63 3TE 2SD1702 NEC SC-62 3TF 2SD1702 NEC SC-62 3TL 2SC3617 NEC SC-62 3TM 2SC3617 NEC SC-62 3TQ 2SD1699 NEC SC-62 3TQ 2SD1119 松下MiniP3-F1 3 TR 2SD1699 NEC SC-62 3TR 2SD1119 松下MiniP3-F1 3 UK 2SC3618 NEC SC-62 3UL 2SC3618 NEC SC-62 3UM 2SC3618 NEC SC-62 3VK 2SD1950 NEC SC-62 3VL 2SD1950 NEC SC-62 3VM 2SD1950 NEC SC-62 3 VR 2SD968A 松下MiniP3-F1 3 VS 2SD968A 松下MiniP3-F1 3 VY 2SJ106 東芝SC-59 3W 2SD1383K ROHM SC-59A 3 W3 FMW3 ROHM 5X9 1SS398 東芝SC-59 3XK 2SD1614 NEC SC-62 3XL 2SD1614 NEC SC-62 3XM 2SD1614 NEC SC-62 3 XN 2SD1784 東芝SC-63 3 XR 2SD875 松下MiniP3-F1 3 XS 2SD875 松下MiniP3-F1 3 YB 2SK680A NEC SC-62 3YK 2SB1115 NEC SC-62 3YL 2SB1115 NEC SC-62 3YM 2SB1115 NEC SC-62 3YP 2SB1115A NEC SC-62 3 YQ 2SB1115A NEC SC-62 3 YQ 2SD874A 松下MiniP3-F1 3 YR 2SD874A 松下MiniP3-F1 3 YS 2SD874A 松下MiniP3-F1 3 Z7 2SK2549 東芝SC-63 3Z8 2SJ360 東芝SC-63 3Z9 2SJ465 東芝SC-63 3ZA 2SK2615 東芝SC-63 3ZB 2SK2963 東芝SC-63 3 ZC 2SK2964 東芝SC-63 3 ZD 2SK2992 東芝SC-63 3 ZE 2SJ508 東芝SC-63 3ZF 2SJ511 東芝SC-63 3ZG 2SK3471 東芝SC-63 3 ZK 2SB1114 NEC SC-62 3 ZL 2SB1114 NEC SC-62 3 ZM 2SB1114 NEC SC-62 3 ZO 2SA1182 東芝SC-59 3 ZQ 2SD874 松下MiniP3-F1 3 ZR 2SD874 松下MiniP3-F1 3 ZS 2SD874 松下MiniP3-F1 3 ZX 2SB1628 NEC SC-62 3 ZY 2SB1628 NEC SC-62 3 ZZ 2SB1628 NEC SC-62 3。

b340a 稳压原理B340A稳压原理引言：稳压器是一种用于稳定电压输出的电子设备。

B340A稳压器是一种常见的稳压器型号，它采用了特定的原理来实现对电压的稳定控制。

本文将介绍B340A稳压器的工作原理及其应用。

一、B340A稳压器的基本原理B340A稳压器是一种线性稳压器，它通过调整内部电路的工作状态来实现对输出电压的稳定控制。

其基本原理可以概括为以下几个方面：1. 参考电压源：B340A稳压器内部有一个参考电压源，它提供一个稳定的参考电压。

这个参考电压与输出电压进行比较，用于控制稳压器的工作状态。

2. 反馈回路：B340A稳压器内部有一个反馈回路，它将输出电压与参考电压进行比较，并产生一个反馈信号。

这个反馈信号用于调整稳压器的工作状态，使输出电压保持稳定。

3. 控制元件：B340A稳压器内部有一个控制元件，它根据反馈信号的大小来控制稳压器的工作状态。

当反馈信号偏离参考电压时，控制元件会调整内部电路，使输出电压回到稳定状态。

二、B340A稳压器的工作过程B340A稳压器的工作过程可以分为以下几个步骤：1. 输入电压稳定：B340A稳压器首先接收输入电压，通过内部电路进行滤波和稳定处理，确保输入电压的稳定性。

这样可以保证稳压器能够正常工作，并提供稳定的输出电压。

2. 参考电压生成：B340A稳压器内部的参考电压源会产生一个稳定的参考电压。

这个参考电压与输出电压进行比较，用于控制稳压器的工作状态。

3. 反馈信号调整：B340A稳压器将输出电压与参考电压进行比较，产生一个反馈信号。

这个反馈信号会被控制元件调整，以控制稳压器的工作状态。

4. 输出电压稳定：根据反馈信号的大小，控制元件会调整内部电路，使输出电压回到稳定状态。

通过不断调整工作状态，稳压器能够保持输出电压的稳定性。

三、B340A稳压器的应用B340A稳压器由于其稳定可靠的特性，被广泛应用于各种电子设备中。

以下是一些常见的应用场景：1. 电源模块：B340A稳压器可以作为电源模块中的核心元件，用于稳定输出电压，保证电子设备的正常运行。

TL H 11924TP3404Quad Digital Adapter for Subscriber Loops (QDASL)PRELIMINARYJuly 1994TP3404Quad Digital Adapter for Subscriber Loops (QDASL)General DescriptionThe TP3404is a combination 4-line transceiver for voice and data transmission on twisted pair subscriber loops typi-cally in PBX line card applications It is a companion device to the TP3401 2 3DASL single-channel transceivers In addition to 4independent transceivers a time-slot assign-ment circuit is included to support interfacing to the system backplaneEach QDASL line operates as an ISDN ‘‘U’’Interface for short loop applications typically in a PBX environment pro-viding transmission for 2B channels and 1D channel Full-duplex transmission at 144kb s is achieved on single twisted wire pairs using a burst-mode technique (Time Com-pression Multiplexed) All timing sequences necessary for loop activation and de-activation are generated on-chip Alternate Mark Inversion (AMI)line coding is used to ensure low error rates in the presence of noise with lower emi radia-tion than other codes such as Biphase (Manchester) On 24AWG cable the range is at least 1 8km (6k ft)Features4COMPLETE ISDN PBX 2-WIRE DATA TRANSCEIVERS INCLUDINGY Quad 2B plus D channel interface for PBX ‘‘U’’interfaceY 144kb s full-duplex on 1twisted pair using Burst Mode Transmission TechniqueY Loop range up to 6kft ( 24AWG)Y Alternate Mark Inversion coding with transmit Pulse Shaping DAC Smoothing Filter and scrambler for low emi radiationY Adaptive line equalizerY On-chip timing recovery no external componentsY Programmable Time-Slot Assignment TDM interface for B channelsY Separate interface for D channel with Programmable Sub-Slot Assignment Y 4 096MHz master clock Y 4loop-back test modesY MICROWIRE TM compatible serial control interface Y 5V operationY 28-pin PLCC packageBlock DiagramTL H 11924–1TRI-STATE is a registered trademark of National Semiconductor Corporation MICROWIRE TM is a trademark of National Semiconductor Corporation C 1995National Semiconductor CorporationRRD-B30M115 Printed in U S AAbsolute Maximum RatingsIf Military Aerospace specified devices are required please contact the National Semiconductor Sales Office Distributors for availability and specifications V DDA V DDD to GNDA GNDD7V Voltage at Any Li Lo Pin V CC a1V to GND b1V Current at Any Lo g100mA Voltage at Any Digital Input V CC a1V to GND b1V Current at Any Digital Output g50mA Storage Temperature Range b65 C to a150 C Lead Temperature(Soldering 10sec )300 CElectrical Characteristics Unless otherwise specified limits printed in BOLD characters are guaranteed for V CCA e V CCD e5V g5% T A e0 C to a70 C Typical characteristics are specified at V DDA e V DDD e5 0V T A e25 C All signals are referenced to GND which is the common of GNDA and GNDDSymbol Parameter Conditions Min Typ Max Units DIGITAL INTERFACESV IH Input High Voltage All Digital Inputs(DC)2V V IL Input Low Voltage All Digital Inputs(DC)0 8V V OH Output High Voltage I L e a1mA2 4V V OL Output Low Voltage I L e b1mA0 4V I IL Input Low Current All Digital Input GND k V IN k V IL b1010m A I IH Input High Current All Digital Input V IH k V IN k V CC b1010m AI OZ Output Current in High Impedance BO CO and DOb1010m A (TRl-STATE )LINE INTERFACESR Li Input Resistance0V k V Li k V CC20k X C LLo Load Capacitance From Lo to GND200pF ROLS Output Resistance Load e60X in Series with2m F to GND3XV DC Mean DC Voltage at Lo Load e200X in Series with2m F to GND1 752 25VVoltage at LS a LS bPOWER DISSIPATIONI CC0Power Down Current BCLK e0Hz MCLK e0Hz CCLK e0Hz10mA I CC1Power Up Current All4Channels Activated75mA TRANSMISSION PERFORMANCETransmit Pulse Amplitude at Lo R L e200X in Series with2m F to GND1 11 31 5VpkInput Pulse Amplitude at Li g60mVpk TIMING SPECIFICATIONSSymbol Parameter Conditions Min Typ Max Units MASTER CLOCK INPUT SPECIFICATIONSf MCLK Frequency of MCLK4 096MHzMaster Clock Tolerance Relative2X MCLK in Slave b100a100ppm t WMH Period of MCLK High Measured from V IH to V IH70ns t WML Period of MCLK Low Measured from V IL to V IL70ns t RM Rise Time of MCLK Measured from V IL to V IH15ns t FM Fall Time of MCLK Measured from V IH to V IL15ns2Electrical Characteristics Unless otherwise specified limits printed in BOLD characters are guaranteed for V CCA e V CCD e5V g5% T A e0 C to a70 C Typical characteristics are specified at V DDA e V DDD e5 0V T A e25 C All signals are referenced to GND which is the common of GNDA and GNDD(Continued)TIMING SPECIFICATIONS(Continued)Symbol Parameter Conditions Min Typ Max UnitsDIGITAL INTERFACE TIMINGf BCLK BCLK Frequency4 0964 1MHzt WBH Clock Pulse Width High Measured from V IH to V IH70ns t WBL and Low for BCLK Measured from V IL to V IL70t RB Rise Time and Fall Time Measured from V IL to V IH15ns t FB of BCLK Measured from V IH to V IL15t HBM BCLK Transition to MCLK High or Low b3030nst SFC Set up Time FS Valid to BCLK Invalid204nst HCF Hold Time BCLK Low to FS Invalid4030nst SBC Setup Time BI Valid to BCLK Invalid3011nst HCB Hold Time BCLK Valid to BI Invalid407nst SDC Setup Time DI Valid to BCLK Low30nst HCD Hold Time BCLK Low to DI Invalid40nst DCB Delay Time BCLK High to BO Valid Load e2LSTTL a100pF80nst DCBZ Delay Time BCLK Low to BO High-Z80120nst DCD Delay Time BCLK High to DO valid Load e2LSTTL a100pF80nst DCZ Delay Time BCLK Low to DO High40120ns Impedancet DCT Delay Time BCLK High to TSB Low120nst ZBT Disable Time BCLK Low to TSB High-Z120nsMICROWIRE CONTROL INTERFACE TIMINGf CCLK Frequency of CCLK2 1MHzt CH Period of CCLK High Measured from V IH to V IH150nst CL Period of CCLK Low Measured from V IL to V IL150nst SSC Setup Time CS Low to CCLK High50nst HCS Hold Time CCLK High to CS Transition40nst SIC Setup Time CI Valid to CCLK High50nst HCI Hold Time CCLK High to CI Invalid20nst DCO Delay Time CCLK Low to CO Valid80nst DSOZ Delay Time CS High to CO High-Z80nst DCIZ Delay Time CCLK to INT High-Z100ns Notes For the purposes of this specification the following conditions applya All input signals are defined as V IL e0 4V V IH e2 7V t r k10ns t f k10nsb Delay times are measured from the input signal Valid to the output signal Validc Setup times are measured from the Data input Valid to the clock input Invalidd Hold times are measured from the clock signal Valid to the Data input Invalid3Pin DescriptionsPin PinDescriptionNo Name1GNDA Analog Ground or0V All analog signals are referenced to this pin15GNDD Digital Ground0V It must connect to GNDA with a shortest possible trace This can be done directly underneath the part28VDDA Positive power supply input to QDASL analog section It must be5V g5%16VDDD Positive power supply input to QDASL digital section It must be5V g5% and connect to VDDA with the shortest possible trace This can be done directly underneath the part11FS Frame Sync input this signal is the8kHz clock which defines the start of the transmit and receive frames at the digital interfaces9MCLK This pin is the4 096MHz Master Clock input which requires a CMOS logic level clock from a stable source MCLK must be synchronous with BCLK10BCLK Bit Clock logic input which determines the data shift rate for B and D channel data at the BI BO DI and DO pins BCLK may be any multiple of8kHz from256kHz to4 096MHz but must be synchronous with MCLK12BI Time-division multiplexed input for B1and B2channel data to be transmitted to the4lines Data on this pin is shifted in on the failing edge of BCLK into the B1and B2channels during the selected transmit time-slots13BO Time-division multiplexed receive data output bus B1and B2channel data from all4lines is shifted out on the rising edge of BCLK on this pin during the assigned receive time-slots At all other times this output isTRI-STATE(high impedance)14TSB This pin is an open-drain output which is normally high impedance but pulls low during any active B channel receive time slots at the BO pin7DI Time-division multiplexed input for D channel data to be transmitted to the4lines Data on this pin is shifted in on the failing edge of BCLK into the D channel during the selected transmit sub-time-slots8DO Time-division multiplexed output for D channel data received from the4lines Data on this pin is shifted out on the rising edge of BCLK during the selected receive sub-time-slot19CCLK Microwire Control Clock input This clock shifts serial control information into CI and out from CO when the CS input is low depending on the current instruction CCLK may be asynchronous with the other system clocks21CI Control data Input Serial control information is shifted into the QDASL on this pin on the rising edges of CCLK when CS is low17INT Interrupt request output a latched output signal which is normally high impedance and goes low to indicate a change of status of any of the4loop transmission systems This latch is cleared when the Status Register isread by the microprocessor Bipolar Violation does not effect this output20CO Control data Output Serial control status information is shifted out from the QDASL on this pin on the falling edges of CCLK when CS is low18CS Chip Select input When this pin is pulled low the Microwire interface is enabled to allow control information to be written in to and out from the device via the CI and CO ins When high this pin inhibits the Microwireinterface4Lo0Line driver transmit outputs for the4transmission channels Each output is an amplifier intended to drive a transformer3Lo126Lo225Lo35Li0Line receive amplifier inputs for the4transmission channels Each Li pin is a self-biased high impedance input which should be connected to the transformer via the recommended line interface circuit2Li127Li224Li34Connection DiagramTL H 11924–2Top ViewOrder Number TP3404V See NS Package Number V28AFunctional DescriptionThe QDASL contains 4transceivers each of which can in-teroperate with any of the TP340X family of single-channel DASL transceivers Each QDASL transceiver has its own independent line transmit and receive section timing recov-ery circuit scrambler descrambler and loop activation con-troller Functions which are shared by the 4transceivers include the Microwire control port and the digital interface with time-slot assignmentBURST MODE OPERATIONFor full-duplex operation over a single twisted-pair burst mode timing is used with the QDASL end of each line act-ing as the loop timing master and the DASL at the terminal being the timing slave (the QDASL transceivers cannot op-erate in loop timing slave mode)Each burst within a DASL line is initiated by the QDASL Master transmitting a startbit for burst framing followed by the B1 B2and D channel data from 2consecutive 8kHz frames combined in the format shown in Figure 1 During transmit bursts the receiver input for that channel is inhibit-ed to avoid disturbing the adaptive circuits The slave’s re-ceiver is enabled at this time and it synchronizes to the start bit of the burst which is always an unscrambled ‘‘1’’(of the opposite polarity to the last ‘‘1’’sent in the previous burst) When the slave detects that 36bits following the start bit have been received it disables the received input waits 6line symbol periods to match the other end settling guard time and then begins to transmit its burst back towards the master which by this time has enabled its receiver input The burst repetition rate is thus 4KHzLINE TRANSMIT SECTIONSAlternate Mark Inversion (AMI)line coding in which binary ‘‘1’’s are alternately transmitted as a positive pulse then a negative pulse is used on each DASL line because of its spectral efficiency and null DC energy content All transmit-ted bits excluding the start bit are scrambled by a 9-bit scrambler to provide good spectral spreading with a strong timing content The scrambler feedback polynomial is X 9a X 5a 1TL H 11924–3FIGURE 1 Burst Mode Timing on the Line5Functional Description (Continued)Pulse shaping is obtained by means of a Digital to Analog Converter followed by a Continuous Smoothing Filter in or-der to limit RF energy and crosstalk while minimizing Inter-Symbol Interference (ISI) Figure 2shows the pulse shape at the Lo output while a template for the typical power spectrum transmitted to the line with random data is shown in Figure 3Each line-driver output Lo0–Lo3 is designed to drive a transformer through a capacitor and termination resistor A 1 1transformer terminated in 100X results in signal ampli-tude of typically 1 3Vpk on the line Over-voltage protection must be included in each interface circuitLINE RECEIVE SECTIONSThe input of each receive section Li0–Li3 consists of a continuous anti-alias filter followed by a switched-capacitor low-pass filter designed to limit the noise bandwidth withminimum intersymbol interference To correct pulse attenu-ation and distortion caused by the transmission line an AGC circuit and first-order equalizer adapt to the received pulse shape thus restoring a ‘‘flat’’channel response with maxi-mum received eye opening over a wide spread of cable attenuation characteristicsFrom the equalized output a DPLL (Digital Phase-Locked Loop)recovers a low-jitter clock for optimum sampling of the received symbols The MCLK input provides the refer-ence clock for the DPLL at 4 096MHzFollowing detection of the recovered symbols the received data is de-scrambled by the same X 9a X 5a 1polynomial and presented to the digital system interface circuitWhen a transmission line is de-activated a Line-Signal De-tect Circuit is enabled to detect the presence of incoming bursts if the far-end starts to activate the loopTL H 11924–4FIGURE 2 Typical AMI Waveform at LoTL H 11924–5FIGURE 3 Typical AMI Transmit Spectrum Measured at LO Output (With RGB e 100Hz)6Functional Description(Continued)ACTIVATION AND LOOP SYNCHRONIZATION Activation(i e power-up and loop synchronization)may be initiated from either end of the loop If the master(QDASL) end is activating the loop it sends normal bursts of scram-bled‘‘1’’s which are detected by the slave’s line-signal-de-tect circuitry The slave then replies with bursts of scram-bled‘‘1’’s synchronized to the received bursts and the Framing Detection circuit at each end searches for4con-secutive correctly formatted receive bursts to acquire full loop synchronization The QDASL receiver indicates when it is correctly in sync with received bursts by setting an indica-tion in the Status Register and pulling the INT pin lowFor the slave end to initiate activation it begins transmission of alternate bursts i e the burst repetition rate is2KHz not 4KHz At this point the slave is running from its local oscilla-tor and is not receiving any sync information from the mas-ter When the master’s Line-Signal Detect Circuit recogniz-es this‘‘wake-up’’signal the appropriate QDASL line must be activated by writing to the Control Register The master begins to transmit bursts synchronized as normal to the FS input with a4KHz repetition rate This enables the slave’s receiver to correctly identify burst timing from the master and to re-synchronize its own burst transmissions to those it receives The Framing Detection Circuits then acquire full loop sync as described earlierLoop synchronization is considered to be lost if the Framing Detection Circuit does not find four framing marks of the four consecutive4KHz line frames At this point an indica-tion is set in the Status Register the INT output is pulled low and the receiver searches to re-acquire loop sync MICROWIRE CONTROL INTERFACEA serial interface which can be clocked independently from theB and D channel system interfaces is provided for mi-crocontroller access to the time-slot assignment Control and Status Registers in the QDASL The microcontroller is normally the timing master of this interface and it supplies the CCLK and CS signals All data transfers consist of simultaneous read and write cycles in which2continuous bytes are sampled on the CI pin at the same time as2bytes are shifted out from the CO pin see Figure6 The first byte is a register address and the second is the data To initiate a Microwire read write cycle CS must be pulled low for16cycles of CCLK Data on CI is sampled on rising edges of CCLK and shifted out from CO on failing edges When CS is high the CO pin is in the high-impedance TRI-STATE enabling the CO pins of many de-vices to be multiplexed togetherWhenever a change(except Bipolar Violation)in any of the QDASL status conditions occurs the Interrupt output INT is pulled low to alert the microprocessor to initiate a read cycle of the Status Register This latched output is cleared when the read cycle is initiatedTable1lists the address map of control functions and status indicators Table2lists the addresses for the Control Registers for each QDASL line Even-numbered addresses are read-write cycles in which the data returned by the CO pin is previous contents of the addressed register Odd-numbered addresses are readback commands onlyTABLE I Global Register Address Map AddressRegisters(Hex)00–0F LINE0Control(TSX TSR CTRL)10–1F LINE1Control(TSX TSR CTRL)20–2F LINE2Control(TSX TSR CTRL)30–3F LINE3Control(TSX TSR CTRL)40–CF Not usedFF Common Status Register for all lines(0–3)See Table VITABLE II Per Line Control Register Address MapFunctionByte1(Note2)Byte2 MSB NibbleLSB Nibble(Note1)76543210Write TSXD Register N0000See Table V Read TSXD Register N0001See Table V Write TSXB1Register N0010See Table IV Read TSXB1Register N0011See Table IV Write TSXB2Register N0100See Table IV Read TSXB2Register N0101See Table IV Write TSRD Register N0110See Table V Read TSRD Register N0111See Table V Write TSRB1Register N1000See Table IV Read TSRB1Register N1001See Table IV Write TSRB2Register N1010See Table IV Read TSRB2Register N1011See Table IV Write Line Control Register(CTR L)N1110See Table III Read Line Control Register(CTRL)N1111See Table IIINote1 N e0 1 2 or3in straight Binary notation for Line0 1 2 or3respectivelyNote2 Bit7of bytes1and2is always the first bit clocked into or out from the CI and CO pins7Functional Description(Continued)LINE CONTROL REGISTERS CTRLNEach of the4transceivers has a Line Control Register CTRL0–CTRL3 which provides for control of loop activa-tion Ioopbacks Interrupt enabling and D channel interface enabling Table3lists the functionsPOWER ON INITIALIZATIONFollowing the initial application of power the QDASL enters the power-down(de-activated)state in which all the internal circuits are inactive and in a low power state except for a Line-Signal Detect Circuit for each of the4lines and the necessary bias circuits The4line outputs Lo0–Lo3 are in a high impedance state and all digital outputs are inactive All bits in the Line Control Registers power-up initially set to ‘‘0’’ While powered-down each Line-Signal Detect Circuit continually monitors its line to detect if the far-end initiates loop transmissionPOWER-UP DOWN CONTROLTo power-up the device and initiate activation bit C7in any of the4Line Control Registers must be set high see Table III Setting C7low de-activates the loop or puts the channel in power-down state During power-down state internal reg-ister data is retained and still can be accessed LOOPBACKSFour different loopbacks can be set for each line They are enabled and disabled by setting the corresponding bits in the Control Register see Table III In addition a line must be activated to see the effect of loopback commands1 2B a D Line LoopbackWhen bit5is set to1 this loop will transfer all three channels B1 B2and D that are received at the Li pin back to the Lo pin Data out on BO DO is still the same as received at the Li input 2 B1Line LoopbackWhen bit4is set high the loop path is the same as(1) but only data on the B1channel is looped back to the line Transmit data in the B2and D channels is from the Bi DI pins3 B2Line LoopbackAs(2)but for the B2channel4 2B a D Digital LoopbackThis loop will transfer all data(2B a D)received at BI DI back to BO DO The data is also transmitted to the line TIME-SLOT ASSIGNMENTThe digital interface of the QDASL uses time-division multi-plexing with data framed in up to64possible8-bit time-slots per125m s frame Channels B1and B2for all4lines are clocked in(towards the line)at the BI pin and clocked out(from the line)at the BO pin A separate port is provided for the D channel data for all4lines which is clocked in on DI and out on DO In addition to time-slot assignment D channel data may be assigned into2-bit sub-slots within each time slot with up to256sub-slots per frame(with BCLK e4 096MHz) Each frame starts with the first posi-tive edge of BCLK after the FS signal goes high and count-ing of timeslots starts from zero at the beginning of the frame Figure4shows the timing with some example time-slot assignmentsFor each of the4QDASL lines there are6Time-Slot As-signment control registers one each for transmit and re-ceive B1 B2and D channels Selection of time-slots for transmit data into the BI or DI pin is made by writing the timeslot number(in Hex notation)into the appropriate TSX register TSXB1is the time-slot assignment for the transmit B1 TSXB2is the time-slot assignment register for the trans-mit B2channel and TSXD is the sub-slot assignment regis-ter for the transmit D channelTABLE III Byte2of Control Register(CTRLN)Bit NumberFunction765432100Deactivate Line1Activate Line0Disable Digital Loopback1Enable2B a D Digital Loopback 0Disable Line Loopback1Enable2B a D Line Loopback0Disable B1Line Loopback1Enable B1Line Loopback0Disable B2Line Loopback1Enable B2Line Loopback0Disable Interrupt from this Line1Enable Interrupt from this Line0D Channel enabled from DO to Line1D Channel disabled from DO to Line0D Channel enabled from Line to DI1D Channel disabled from Line to DI8Functional Description(Continued)In the same manner the time-slot number should be written into the appropriate TSR registers for receive data at the BO and DO pins TSRB1is the time-slot assignment for the receive B1channel TSRB2is the time-slot assignment reg-ister for the receive B2channel and TSRD is the sub-slot assignment register for the receive D channelWhenever any receive time-slot is active at BO the TSB output is also pulled lowREGISTERS TSXB1 TSXB2 TSRB1 TSRB2The data format for all B channel time-slot assignment reg-isters is shown in Table IVBit7Transparency Control EBThis bit enables or disables data transparency between the digital interface and the line interface for the selected chan-nelEB e0disables the channelEB e1enables the channelWhen the transmit direction(towards the line)is disabled there will be all‘‘ONE’s’’(scrambled)as data for this chan-nel at the Lo pin If the receive direction(from the line)is disabled BO will stay high impedance for the programmed time slot while if it is enabled data out on BO in the as-signed time slot is the data from LiBits5–0 TS5–TS0These bits define the binary number of the time-slot select-ed Time-slots are numbered from0–63 The frame sync signal is used as marker pulses for the beginning of time slot0TABLE IV Byte2of Register TSXB1 TSXB2 TSRB1or TSRB2for B Channel Time-Slot AssignmentBit Number and NameFunction 76543210EB X TS5TS4TS3TS2TS1TS00X X X X X X X Disable B1and or B2 1X Assign One Binary Coded Time-Slot Enable B1and or from0–63B2Note If two B channels are erroneously assigned to the same time-slot data out on Bo is not valid while data out on Lo is valid REGISTERS TXD TRDThe data format for all D channel time-slot assignment reg-isters is as followsData transparency between the digital interface and the line interface for the D channels can be controlled via the Chan-nel Control Register see Table IIIBits7–0 TS7–TS0These bits define the binary number of the sub-slot select-ed Sub-slots are numbered from0–255 The frame sync signal is used as marker pulses for the beginning of Sub-slot 0TABLE V Byte2of Register TSXD or TSRD for DChannel Time-Slot AssignmentBit Number and Name76543210SS SS SS SS SS SS SS SS76543210 Assign One Binary Coded Sub-Slot from0–255for D ChannelTL H 11924–6FIGURE4 QDASL Digital Interface Timing9Functional Description(Continued)TABLE VI Status Register FunctionsByte2Indication7654321000Line3 deactivated01Line3 line signal present but not in sync10Line3 activated bipolar violation(Note1)11Line3 activated no bipolar violation00Line2 deactivated01Line2 line signal present but not in sync10Line2 activated bipolar violation(Note1)11Line2 activated no bipolar violation00Line1 deactivated01Line1 line signal present but not in sync10Line1 activated bipolar violation(Note1)11Line1 activated no bipolar violation00Line0 deactivated01Line0 line signal present but not in sync10Line0 activated bipolar violation(Note1)11Line0 activated no bipolar violation Note1 Bipolar Violation does not cause an InterruptSTATUS REGISTERStatus information for all4channels may be read from the common Status Register by addressing location X FF 2bits per line are coded as shown in Table VI A change in the status of1or more lines is indicated by the INT pin being pulled low provided bit2of the corresponding control regis-ter is set to‘‘ONE’’to enable the interrupt for that line BIPOLAR VIOLATION DETECTOROn an activated line whenever a line error is received there will be a violation of the AMI coding rule This is reported by setting the code10for that line The violation indication is cleared to11after a read of the Status RegisterAs an example of the interpretation of the Status Register contents if the byte2read back from the Status Register e00111001(e X 39) this indicates the following status of the4lines line3is deactivated line2is in sync with no error since the last read cycle line1is in sync but there has been1or more errors since the last read cycle of the Status Register line0is receiving a line signal but the line trans-mission is not synchronizedApplications InformationPOWER SUPPLIESWhile the pins of the TP3404QDASL device are well pro-tected against electrical misuse it is recommended that the standard CMOS practice of applying GND to the device be-fore any other connections are made should always be fol-lowed In applications where the printed circuit card may be plugged into a hot socket with power and clocks already present an extra long ground pin on the connector should be usedTo minimize noise sources the VDDA and VDDD pins should be connected together via the shortest possible trace likewise the GNDA and GNDD pins must be connect-ed together These two connections can be done directly underneath the part All other ground connections to each device should meet at a common point as close as possible to the GNDD pin in order to prevent the interaction of ground return currents flowing through a common bus im-pedance A power supply decoupling capacitor of0 1m F should be connected from this common point to VDDD as close as possible to the device pinsFigure5shows a typical4line application of the QDASL The current list of suitable commercial transformers isSchott Corporation(Nashville)Phone615-889-8800Part numbers 67110850(dry)67110860(50mA DC)Pulse Engineering(San Diego)Phone619-674-8100Part number TBDNote that the zener diode protection shown in Figure8is only intended as secondary protection for inside wiring ap-plications primary protection is also necessary Further in-formation can be found in the datasheet for the TP3401 2 3DASL devices and in Application Note AN-509‘‘Using the TP3401 2 3ISDN PBX Transceivers’’10。

B320B - B360B3.0A SURFACE MOUNT SCHOTTKY BARRIER RECTIFIERFeatures• Guard Ring Die Construction for Transient Protection • Ideally Suited for Automatic Assembly • Low Power Loss, High Efficiency • Surge Overload Rating to 125A Peak• For Use in Low Voltage, High Frequency Inverters, Free Wheeling, and Polarity Protection Application •Lead Free Finish/RoHS Compliant (Note 4)Mechanical Data• Case: SMB• Case Material: Molded Plastic. UL Flammability Classification Rating 94V-0• Moisture Sensitivity: Level 1 per J-STD-020C • Terminals: Lead Free Plating (Matte Tin Finish). Solderable per MIL-STD-202, Method 208 • Polarity: Cathode Band• Marking Information: See Page 3 • Ordering Information: See Page 3•Weight: SMB 0.093 grams (approximate)SMB Dim Min Max A 3.30 3.94 B 4.06 4.57 C 1.96 2.21 D 0.15 0.31 E 5.00 5.59 G 0.10 0.20 H 0.76 1.52 J2.002.40All Dimensions in mm* Note: Device may have a semicircular indentation/notch on one side of the device (as shown).Maximum Ratings and Electrical Characteristics @T A = 25°C unless otherwise specifiedSingle phase, half wave, 60Hz, resistive or inductive load. For capacitive load, derate current by 20%.CharacteristicSymbol B320B B330B B340B B350B B360B Unit Peak Repetitive Reverse Voltage Working Peak Reverse Voltage DC Blocking Voltage V RRM V RWM V R 20 30 40 50 60 V RMS Reverse VoltageV R(RMS)142128 3542V Average Rectified Output Current@ T T =100C °I O 3.0 A Non-Repetitive Peak Forward Surge Current 8.3ms single half sine-wave superimposed on rated load I FSM125A Forward Voltage (Note 3)@ I F = 3.0A V FM 0.500.70V Peak Reverse Current@ T A = 25°C at Rated DC Blocking Voltage (Note 3) @ T A = 100°CI RM 0.5 20 mA Typical Capacitance (Note 2)C T 200 pF Typical Thermal Resistance, Junction to Terminal R θJT 25 °C/W Typical Thermal Resistance, Junction to Ambient (Note 1) R θJA 95 °C/W Operating Temperature Range T j -55 to +125 °C Storage Temperature Range T STG-55 to +150°CNotes: 1. Thermal Resistance: Junction to terminal, unit mounted on glass epoxy substrate with 2x3mm copper pad 2. Measured at 1.0MHz and applied reverse voltage of 4.0V DC. 3. Short duration test pulse used to minimize self-heating effect.4. RoHS revision 13.2.2003. Glass and high temperature solder exemptions applied, see EU Directive Annex Notes 5 and 7.020406080100110I , 100P E A K F O R W A R D S U R G E C U R R E N T (A )F S M NUMBER OF CYCLES AT 60 HzFig. 4 Max Non-Repetitive Peak Forward Surge CurrentOrdering Information (Note 5)Device*Packaging ShippingB3xxB-13-F SMB 3000/Tape & Reel * xx = Device type, e.g. B320B-13-F (SMB package).Notes: 5. For Packaging Details, go to our website at /datasheets/ap02007.pdf.Marking Information (Note 6)Notes: 6. Device has a cathode band (as shown above) and may also have a cathode notch (as shown on Page 1).IMPORTANT NOTICEDiodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to any product herein. Diodes Incorporated does not assume any liability arising out of the application or use of any product described herein; neither does it convey any license under its patent rights, nor the rights of others. The user of products in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on our website, harmless against all damages.LIFE SUPPORTDiodes Incorporated products are not authorized for use as critical components in life support devices or systems without the expressed written approval of the President of Diodes Incorporated.。

ARINC 600 BKAD/E/F Low insertion force contacts.Both environmental and non- environmentalversions.Polarizing posts that are removable from themating face.Field replaceable inserts for size 22 andpower contacts.Up to 800 size 22 contacts in one connector.Crimp, coax, power, printed circuit and wirewrappable post style contacts.Uses standard DPX crimp, insertion/extractiontooling.Waveguide connections available.BKAD/EBKAD/E connectors represent a major milestones in presenting a new rack and panel connector for support of the air transportation market.Several important design concerns have been ad-dressed and solved in this new series. High mating forces of pluggable modules in a rack have been reduced by approximately two-thirds.The low insertion force contacts are also inter-changeable with the contacts used in the DPX series and permit retrofit of existing equipment.BKAFThis new connector is totally intermateable and intermountable with ARINC 600 connectors now in the field.The BKAF permits the user to easily replace a contact in case of problems, rather than disas-semble the entire connector--it is available with size 22 contacts in wrap post or solder-tail ver-sions. The system maintains the advantages of low insertion force technology incorporated in all ARINC 600 connectors.Rear Release/Rear Removable Size 12, 16, 20, 22 Crimp Contacts Front Release/Front RemovableSize 22 Solder Tail and Wrap Post ContactsPos-Aline Connector Construction FeatureMaterial Specifications In the ARINC 600 connector series, Size 22 con-tacts are the only size that utilize this designfeature. The hooded socket extends from its in-sulator while the pin contacts are shrouded by itsfront insulator.All other contacts used in this series employ stan-dard contact design.The result is that the complement of contacts forthe plug connectors will consist of pin contacts forsize 22 and socket contacts for all others. Thereceptacle contacts will be just the reverse, socketcontact for size 22 and pin contacts for thebalance.Shell & WaveguideBKAD BKAE BKAF SpecificationsInsulatorContactsGrommets/Seals O-Ring FinishMaterialMaterialMaterialFinishTerminationMaterialMaterial1200AlodineThermosetAluminum alloyCopper alloyGold over NickelCrimpN/AN/A1200AlodineThermosetAluminum alloyCopper alloyGold over NickelCrimpSilicone-based ElastomerSilicone-based Elastomer1200AlodineThermosetAluminum alloyCopper alloyGold over NickelP.C./Wrap PostN/AN/AMIL-C-5541N/AQQ A-591/A380QQ-C-533MIL-G-45204N/AN/AN/A* = For Polarizing Position greater then 99, add third digit. ARINC 600 BKAD/E/FCONNECTOR SERIES CLASS SHELL SIZECONNECTOR LAYOUT DESCRIPTION SIZE 1 COAX INSERT MODIFIER BOEING COAX MODIFIER SHELL STYLECONNECTOR MOUNTING MODIFIER POLARIZING POSITIONMODIFIER (Contact, Finish, Material)How to OrderBKA D 2 A234 M * 3 00 01 * F0CONNECTOR SERIESBOEING COAX MODIFIERSHELL STYLECONNECTOR MOUNTING MODIFIERCLASSNon-environmental (rear release, crimp contacts)Environmental (rear release, crimp con-tacts)Non-environmental (front release, solder and wrap post #22 contact, rear release all others)Same as E, except uses BKAD shells, and Less 0 rings on plug side.Environmental (0-ring is used to seal between connector shell and insulators)with rear release, crimp contacts.Non-environmental connector using fil-tered contacts (reference Cannon Phoe-nix)Max. contact capacity - 125Max. contact capacity - 400Max. contact capacity - 800Connector contains modified 71W1 or 2W2 insert (four MTG screw hole loca-tions and coaxial contact used in this insert are interchangeable between dif-ferent manufacturersPlug (rack side)Receptacle (box side)Standard design, .148 dia. holesWith #6-32 ESNA (#12 NCFMA2-62) clinch nuts (see chart)Size 1 receptacle only - less 3 printed circuit board mounting lugsWith #4-40 ESNA (#22 NCFMA2-40) clinch nuts (see chart)Size 2 and 3 plug and receptacle only - with #4-40 ESNA (#22 NCFMA2-40) clinch nuts (all mounting holes)Size 2 and 3 plug and receptacle only - with #6-32 ESNA (#12 NCFMA2-62) clinch nuts (all mounting holes)Same as - 00 mounting modification except with nickel finished shells .0008 - .0012 thick with EMI grounding spring for plug shells and supplied with non-environmental inserts.Same as - 00 mounting modification except with nickel finished shells .0008 - .0012 thick with EMI grounding spring for plug shells and supplied with environmental inserts not potted into shell.With floating eyelets (.048 min. radial float)4 corner holes per connector.Consult factory if other modifications are requiredSHELL SIZECONNECTOR LAYOUT DESCRIPTIONSIZE 1 COAX INSERT MODIFIERNOTE: A dash must be inserted whenever code does not apply.D BKA (Per ARINC 600)E FC ST 3 -4 -00 -01 -02 -03 -08 -09 -16 -17 -23 -M123(See page 4)----------Boeing Coax Code Connector Size1234484610Number of Clinch Nuts Plug ReceptacleITTC Code Plug Connector Receptacle Connector ITTC Coax Contacts SuppliedAA AB AC AD AE AFBlank B C D E FNo Coax Supplied 349-0013-000 349-0015-000 349-0013-000 349-0017-000 349-0015-000 349-0018-000 349-0015-000 349-0017-000No Coax Supplied 349-0014-000 349-0016-000 349-0014-000 349-0002-000 349-0016-000 349-0004-000 349-0016-000 349-0002-000AR INC 600 B K AD/E/FHow to Order (Continued)CONNECTOR LAYOUT DESCRIPTION NOTE. ANY OTHER COMBINATION OF INSERTS WITHIN A SPECIFIC SHELL IS AVAILABLE UPON REQUESTPOLARIZING POSITIONMODIFIER (Contact, Finish, Material)01 thru 99 (per ARINC 600)Blank-Polarizing posts or keys not installed but supplied with connectorBlank -SC -WC -WD -SD -WA -WB -Rear release, crimp, signal and powercontacts supplied with connector (when applicable)Contacts not supplied with connector (FO not stamped on connector)Less contacts and waveguide (FOO notstamped on connector)Front release .025(0.63) D. x .150(3.81) solder post and crimp, rear re-lease power contacts (when applica-ble) supplied with connectorFront release .025(0.63) D. x .250(6.35) solder post and crimp, rear re-lease power contacts (when applica-ble) supplied with connectorFront release .025(0.63) D. x .375(9.53) solder post and crimp, rear re-lease power contacts (when applica-ble) supplied with connectorFront release .025(0.63) D. x .500(12.7) solder post and crimp, rear re-lease power contacts (when applica-ble) supplied with connectorFront release .025(0.63) Sq. x .250(6.35) (1 wrap) wrap post and crimp,rear release power contacts (when ap-plicable) supplied with connector Front release .025(0.63 Sq. x .375(9.53) (2 wraps) wrap post and crimp,rear relase power contacts (when ap-plicable) supplied with connectorFront release .025(0.63) Sq. x 500(12.7) (3 wraps) wrap post and crimp,rear release power contacts (when ap-plicable) supplied with connector Front release .025 (0.64) Sq. x 641(16.28) (3 wraps) wrap post and crimp, rear release power contacts (when applicable) supplied with con-nectorNOTE: COAXIAL CONTACTS TO BE ORDERED SEPARATELYFO -FOO -SA -SB -Layout included in the following ARINC configurations 702, 710, 711, 712, 714, 715, 716, yout included in the following ARINC configurations 707, 718 & 730.Layout included in the following ARINC configurations 701, 702, 703, 704, 705, 706, 724, yout included in the following ARINC configurations 701, 717, 726, 729.Note: All layouts with "OPEN' insert cavity are not supplied with an insulator. If a Blank insert is required please consult factory.Shell Dimensions - Size 1PlugRetainer Plate *This dimension indicates distance from centerline of retaining screw to the centerline of first contact cavity.For further information, refer to ARINC 600 specification or consult factory.Size 1 Receptacle Panel CutoutRetainer Plate Size 1 Plug Panel CutoutReceptacleFor further information, refer to ARINC 600 specification or consult factory.* This dimension indicates distance from centerline of retaining screw to the centerline of first contact cavity.BKAE SERIES 1.550 (39.37) MAXCBABKAE SERIES 1.670 (42.42)Shell Dimensions - Size 2 Plug11550 (39.37) MAXBKAE SERIES130 (3.30.120 (3.05)1.317 (33.45).355 (9.02)1.5301.670 (42.42)Retainer Plate*This dimension indicates distance from centerline of retaining screw to the centerline of first contact cavity.For further information, refer to ARINC 600 specification or consult factory.Size 2 Receptacle Panel Cutout Retainer Plate Size 2 Plug Panel Cutout ReceptacleFor further information, refer to ARINC 600 specification or consult factory.* This dimension indicates distance from centerline of retaining screw to the centerline of first contact cavity.Shell Dimensions - Size 3BKAE SERIES 1.550 (39.37) MAX1.670 (42.42 )MAXRetainer Plate ReceptaclePlugSize 3 Plug Panel Cutout* This dimension indicates distance form centerline of retaining screw to the centerline of first contact cavity.For furter information, refer to ARINC 600 specification or consult factory.Retainer Plate Size 3 Plug Panel Cutout* This dimension indicates distance form centerline of retaining screw to the centerline of first contact cavity.For furter information, refer to ARINC 600 specification or consult factory.Contact Arrangements - Shell Size 1Contact Arrangements - Shell Sizes 2 and 3BKAD/BKAE (Plug Rear face shown)BKAD/BKAE (Plug Rear face shown)REAR SURFACE WHITE ON BLUE TO INDICATE REAR RELEASE REAR REMOVAL CONTACTS ENGAGING END SURFACE WHITE ON RED TO INDICATE FRONT RELEASE FRONT REMOVAL CONTACTS**Pending ARINC release.NOTE: In layouts using #22 contacts mixed with any other contact size (20HD, 16, 12), the size #22 contact type (pin or socket) determines the insulator as a pin insert or a socket insert.(For Contact Cavity Location and Contact Cavity Identification refer to ARINC 600 or consult factory)REAR SURFACE WHITE ON BLUE TO INDICATE REAR RELEASE, REAR REMOVAL CONTACTS FOR INSERTS CONTAINING STANDARD SIGNAL & POWER CONTACTS(For Contact Cavity Location and Contact Cavity Identification refer to ARINC 600 or consult factory)30T228 #222 #8 TWINAX/COAX (#8 Grounded toShell)6060 #226**6 #86T6**6 #8(Metallic Insert)13W24 #20, 4 #12, 3 #162 #5 COAX24T4**20 #20, 4 #8100100 #228580 #22, 4 #20, 1 #1659**50 #22, 5 #16, 4 #1234**24 #20, 10 #1844 #125W21 #122 #162 #5 COAX4040 #226060 #225W21 #122 #162 #5 COAXBKAF - Available Receptacle Shell Only (Front Release)Shell Cavity A or BShell Cavity C or FShell CavityCShell CavityCShell CavityA or BContact Arrangements - Shell Sizes 2 and 3BKAD/BKAE (Plug Rear face shown)Shell Cavity A,B,D,E2W22 #1 COAX4W44 Modified #1 COAX (Metallic Insert)10T10**10 #8 TRIAX/COAX (#8 Grounded to Shell)(Metallic Insert)24**24 #1271W170 #221 #1 COAX 71W1B 70 #221 #1 COAX60**60 #2049T2**47 #202 #8110**100 #225 #12 & 5 #20** Pending ARINC release.(For Contact Cavity Location and Contact Cavity Identification refer to ARINC 600 or consult factory)REAR SURFACE WHITE ON BLUE TO INDICATE REAR RELEASE. REAR REMOVAL CONTACTS FOR INSERTS CONTAINING STANDARD SIGNAL & POWER CONTACTS150150 #22120T2 **118 #222 #8 TWINAX/COAX (#8 Grounded to Shell)121**110 #225 #166 #20Contact Arrangements - Shell Sizes 2 and 3BKAF - Available Receptacle Shell ONLY (Front Release)SHELL CAVITY A, B, D, E,BKAF - Available Receptacle Shell ONLY (Front Release)SHELL CAVITY C, F** Pending ARINC release.NOTE #22 CONTACTS ARE SOCKETS, 20HD,16, 12 ARE PIN CONTACTS.(For Contacts Cavity Location and Contact Cavity Identification refer to ARINC 600 or Consult Factory)ENGAGING END SURFACE WHITE ON RED TO INDICATE FRONT RELEASE FRONT REMOVAL CONTACTS FOR INSERTS CONTAINING STANDARD SIGNAL & POWER CONTACTSENGAGING END SURFACE WHITE ON RED TO INDICATE FRONT RELEASE, FRONT REMOVAL CONTACTS FOR INSERTS CONTAINING STANDARD SIGNAL & POWER CONTACTS71W170 #22150150 #226T6**6 #813W24 #203 #164 #122 #5 COAX100100 #2271W1B 70 #2210T10**10 #8121F**110 #22 6 #205 #16Waveguide ConnectionsPolarization (Engaging End)WAVEGUIDE DETAIL SHOWN FULLY ENGAGEDFULLYCENTERPOSTRIGHTPOSTLEFTPOSTCENTERPOSTRIGHTPOSTLEFTPOST INSULATOR ANDWAVEGUIDE RETAININGPLATEPlugBKA*1PLUG RECEPTACLE PLUG RECEPTACLEBKA*2BKA*3ReceptaclePolarizing PositionsPOSTDark area represents postPositionPositionLeft PostCenter PostRight PostLeft PostCenter PostRight PostPositionLeft PostCenter PostRight PostPositionLeft PostCenter PostRight PostPositionLeft PostCenter PostRight PostPositionLeft PostCenter PostRight PostPlug ShellReceptacle ShellKEYKit P/N 320-1067-000Kit P/N 320-1067-0030102030405060708091011121314151617181920212223242526272829303132333435363738394041424344454647484950515253545556575859606162636465666768697071727374750102030405060708091011121314151617181920212223242526272829303132333435363738394041424344454647484950515253545556575859606162636465666768697071727374751234561234561234561234561234561234561234561234561234561234561234561234561231111111111111111111111111111111111112222222222222222222222222222222222223331111116666665 55555444444333333222222111111666666555555444444333333222222111456123456123456123456123456123456123 456123456123456123456123456123456123456444444555555666666111111222222333333444444555555666666111111222222333333444444444444444444444444444444444444444333333333333333333333333333333333333222432165432165432165432165432165432165432165432165432165432165432165432165432444555555666666111111222222333333444444555555666666111111222222333333444444222222222222222222222222222222222111111111111111111111111111111111111666666165432165432165432165432165432165432165432165432165432165432165432165432165333333333333333333333333333333333444444444444444444444444444444444444555555111666666555555444444333333222222111111666666555555444444333333222222111111123456123456123456123456123456123456123456123456123456123456123456555555555555555555555555555555666666666666666666666666666666666666666666555555444444333333222222111111666666555555444444333333222222555555666666111111222222333333444444555555666666111111222222333333666666666666666666666666666666555555555555555555555555555555555555432165432165432165432165432165432165432165432165432165432165432165151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150Contact and Termination Tooling DataBKA* (LIF) Crimp ContactsBKAF-ARINC 600 Size 22 Wrap Post Socket Contacts With .025(6.35) Square Wire-Wrappable Tails-Receptacle Only.BKA* Thermocouple ContactsBKAF Printed Circuit Solder Post Socket Contacts Size 22 with .025(6.35) Dia. Printed Circuit Tails-Receptacle Only.The new low insertion force, front-insertable, front-removable #22 socket contacts with .025(6.35) dia., PC tails are now availble for use in the BKAF non-environmental receptacle version only.These contacts can be sold separately or they can be supplied with a connector (see How to Order). Use part numbers shown in the table on the right when ordering separately.BKAD/F Solder Post, Power Pin Contacts (Captive)-Receptacle Only.Contacts are captivated between two unbonded insulator halves.BKAF Solder Post Pin Contact Front ReleaseFront Release Pin Contacts Size 20 and 16The new low insertion force, front-insertable, front-removable #22 socketcontacts with .025(6.35) square wire wrappable tails are now available for use in the BKAF non-enviornmental receptacle version only.These contacts can be sold separately or they can be supplied with a connector (see How to Order). Use part numbers shown in the table on the right when ordering separately.*Applies to BKAF 13W2 and 5W2 inserts only*Consult facotry for other available lengthsSize 5 Coax Contact (Rear insertable/removable)Size 12 Shielded Contact (Rear insertable/removable)Size 1 Modified Coaxial Contacts (4W4 Layout Only)Crimp Center Contact-Conforming to ARINC 600Part Number Style Solder Type Replacement Termination KitsCrimpType CoaxCoaxReplacement Termination KitsCable AccommodationPart Number Style Solder Type CrimpType Cable AccommodationRG316 DS RG142Various349-1051-002349-1044-000349-1042-000Straight Straight SMA Adapter320-1066-008320-1066-007N/A N/A RG214AA-5886RG393ECS 311201AA-5887AA-5888RG142Various349-1043-001349-1048-000349-1051-000349-1046-000349-1049-000349-1050-000349-1047-000349-1047-001Straight Straight Straight Straight Straight Straight Straight TNC Adapter320-1066-000320-1066-002320-1066-003320-1066-001320-1066-004320-1066-005320-1066-006320-1066-016320-1066-018320-1066-019320-1066-017320-1066-013320-1066-014320-1066-015----Plug ConnectorCustomer Use Drawings:All Coax contacts (except 349-1047-001) customer use drawing #349-0000-305Crimp termination kits: Customer use drawing #320-0000-305Solder termination kits: Customer use drawing #320-0000-304Receptacle ConnectorCustomer Use Drawings:Coax contacts 349-1051-002 and 349-1044-000 are located on cusomter use drawing #349-0000-304Coax contacts 349-1042-000 is located on cusomter use drawing #320-1042-000Sizes 1 Coax Contacts (71W1 layout only)Sizes 1 Coax Contacts (To be used with connectors containing 71W1A, 71W1B and 2W2 insert modifier-"M")Same standard coax contacts as used in ITT Cannon's DPX (ARINC 404) connector series.Designed to be interchangeable with contacts made by other manufacturers.Receptacle ConnectorPlug ConnectorSize 8 Coaxial ContactsSize 8 Twinax ContactsSize 8 Ground ContactsPlug ConnectorReceptacle ConnectorPlug ConnectorReceptacle ConnectorReceptacle ConnectorPlug ConnectorContact Type Socket Part Number *Engagement**TerminationShort Long Crimp RR-RR X -----349-1087-000-----349-1087-001349-1084-000349-1084-001349-1084-002349-1084-003349-1086-000349-1086-001349-1006-000349-1081-000----X X349-1007-000349-1080-000349-1080-001349-1080-002349-1080-003349-1082-000349-1082-001349-1088-000031-3300-000--X8, 10 AWG030-3306-000030-3306-001030-3676-000---X X8, 10 AWG 8, 10 AWG 8, 10 AWGX X -X-X -X -X ----X X X-X X X-X X XXXXXX X XX X XX X XX XX Crimp FR-RRSolder .250 (6.35)FR-FR .375 (9.52)RF Cable NumberContact Type Socket Part Number *Engagement**TerminationShort Long Crimp RR-RRCrimp FR-RRFR-FR .250 (6.35)Solder .375 (9.52)RF Cable NumberContact Type Socket Part Number *Engagement**TerminationShort Long Crimp RR-RR Crimp FR-RRSolder .250 (6.35)FR-FR .375 (9.52)RF Cable Number Contact Type Socket Part Number *Engagement**TerminationShortLong Crimp RR-RR Crimp FR-RRSolder .250 (6.35)FR-FR .375 (9.52)RF Cable Number Contact Type Socket Part Number * The electrical engagement of "Long" contacts is .150 (3.81) greater than the electrical engagement of "Short" contact.**RR-RR indicates rear release, rear removal. FR-RR indicates front release, rear removal. FR-FR indicates front release, front removal.*Engagement**TerminationShortLong Crimp RR-RRCrimp FR-RRSolder .250 (6.35)FR-FR .375 (9.52)Wire Size Contact Type Socket Part Number *Engagement**TerminationShortLong Crimp RR-RRCrimp FR-RRSolder .250 (6.35)FR-FR .375 (9.52)Wire Size Adams-Russell Co. Inc.FC11Z Adams-Russell Co. Inc.FC14ZAdams-Russell Co. Inc.FC11Z Adams-Russell Co. Inc.FC14ZM17/176-00002Tensolite Co.24463/9 B017X-2 (LD)Tensolite Co.24463/9 B017X-2 (LD)Tensolite Co.24463/9 B017X-2 (LD)Tensolite Co.24463/9 B017X-2 (LD)M17/176-00002Sealing Plugs-BKAE Environmental Connnectors OnlyFiller Plugs-BKAD Non-Environmental Connectors OnlyCavity ReducerDust CapsPart Number Contact Size Color A B C Part Number #5 Coax to #12 ContactCavity reducers are available when additional circuits are required for siz 12 power contacts. These reducers, having the internal configuration of size 12 power contact, are inserted into the size 5 coaxial insulator cavity to create size 12 power contact cavity.225-0094-000225-1013-000225-0070-000225-0071-000225-0072-000225-0090-000225-0095-000225-0096-000225-0097-000225-0098-000225-0099-000025-1121-001025-1122-001025-1123-001025-1124-001PinP/N 021-8756-000SocketP/N 021-8757-000Note: Supplied as standard for BKA product line only.BKAD 1-A & B-Plug BKAD 1-C-Plug BKAD 2&3-A & B-Plug BKAD 2&3-C-Plug025-1155-001025-1156-001025-1157-001025-1158-001BKAD 1-A&B-Receptacle BKAD 1-C-Receptacle BKAD 2&3-A & B-Receptacle BKAD 2&3-C-Receptacle22201612#5 Coax (Pin)22201612#5 and #9 Coax#5 and #9 Coax(Socket)Black Red Blue Yellow White Black Red Blue Yellow White.063 (1.6).085 (2.2).115 (2.9).171 (4.3).365 (9.3).040 (1.0).065 (1.6).075 (1.9).121 (3.1).287 (7.3).469 (11.9).469 (11.9).469 (11.9).564 (14.3).835 (21.2)White.069 (1.7).083 (2.1).131 (3.3).187 (4.7).275 (7.0).275 (7.0).051 (1.3).069 (1.7).108 (2.7).156 (4.0).251 (6.4).251 (6.4).420 (10.7).350 (8.9).320 (8.1).320 (8.1).450 (11.4)1.061 (26.9)Part Number Part Number Description Description Contact Size Color A B C P/N 225-0090-000Material: Teflon(All others thermoplastic)P/N 225-0099-000Material: Teflon(All others thermoplastic)BKAF P/N 225-1058-000(Size 22 - Black)(See Customer Use Drawing for details)Conductive dust caps protect against static electricity.AAAABBBBCCCCReplaceable InsertsPart NumberSocket AssemblyPin AssemblyClassBKAD BKAE BKAE BKAD BKAE BKAD BKAE BKAF BKAE BKAD BKAE BKAF BKAD BKAE BKAD BKAE BKAF BKAD BKAE BKAD BKAE BKAE BKAE BKAE BKAD BKAE BKAF BKAD BKAE BKAF BKAD BKAE BKAF BKAD BKAE BKAF BKAD BKAE BKAF BKAD BKAE BKAF BKAE BKAD BKAE BKAF BKAD BKAE BKAD BKAE BKAF 144-2944-000144-2944-000143-1156-001177-1000-002177-1000-002143-1912-000143-1912-001143-1141-000143-1154-001228-1026-002228-1026-001N/A228-1027-002228-1027-001143-1908-000143-1908-001143-1142-000143-1173-000143-1173-001143-1159-001143-1097-005143-1171-001143-1167-001143-3714-003143-1910-000143-1910-001N/A143-1958-000143-1958-002N/A143-2085-001143-2085-000N/A143-1113-000143-114-000N/A143-3877-000143-3879-000N/A143-2015-000143-2015-001N/A143-1182-000N/A143-1165-001N/A143-1150-002143-1150-001143-1906-000143-1906-001N/A144-2945-000144-2945-000143-1157-001177-1001-004177-1001-004143-1913-000143-1913-001N/A143-1155-001228-1012-003228-1012-001228-1015-001N/A228-1014-002143-1909-000143-1909-001N/A143-1174-000143-1174-001N/A143-1098-005143-1172-001143-1170-001143-3715-003143-1911-000143-1911-001143-2065-000143-1960-000143-1960-002143-2090-000143-2086-001143-2086-000143-2066-000143-1111-000143-1112-000143-1118-000143-3878-000143-3880-000143-1178-000143-2016-000143-2016-001143-2067-000143-1183-000143-1166-002143-1166-001143-1177-000143-1158-002143-1158-001143-1907-000143-1907-001143-2068-000Layout2W2**A4W4**5W266T610T1013W230T2344059*60-#20**60-#22**71W171W1A*71W1B85100110120T2121150Consult factory for Insert Part Numbers not listed.*Modified 71W1 insert to be used with connectors containing 71W1 insert modifier "M"**"Pin Inserts' accept receptacle coax contacts. "Socket Inserts" accept plug coax contacts.AR INC 600 R ack and Panel Connectors B K AD/E/FCross Reference-Part Number/Customer-Use DrawingCOMPONENT PART NUMBER CUSTOMER USE DRAWING NUMBERCOMPONENT PART NUMBER CUSTOMER USE DRAWING NUMBERCOMPONENT PART NUMBERCUSTOMER USE DRAWING NUMBER030-1975-009030-1975-010030-2259-000030-2273-000030-2280-000030-2286-000030-2356-000030-2357-000030-2358-000031-1113-009031-1113-010031-1287-000031-1302-000031-1303-000031-1308-000031-1351-000031-1351-001031-1351-002031-1351-003031-1352-000031-1252-000031-1252-002031-1352-003143-1908-000143-1908-001143-1909-000143-1909-001143-1910-000143-1910-001143-1911-000143-1911-001143-1912-000143-1912-001143-1913-000143-1913-001143-1958-000143-1958-002143-1960-000143-1960-002143-2015-000143-2015-001143-2016-000143-2016-001143-2065-000143-2066-000143-2067-000143-2068-000143-2085-000143-2085-001143-2086-000143-2086-001249-1521-002249-1522-009249-1522-010249-1554-002249-1604-003249-1604-004249-2201-000249-2202-000249-5027-013249-5027-015249-5027-016320-0051-000320-1066-000320-1066-001320-1066-002320-1066-003320-1066-004320-1066-005320-1066-006249-1521-002249-1522-010249-1522-010249-1554-002249-1604-003249-1604-004249-1521-002249-1522-010249-5027-013249-5027-007249-5027-0161250Y320-000-305025-1121-001025-1122-001025-1123-001025-1124-001025-1155-001025-1156-001025-1157-001025-1158-001025-0000-054(Conductive Only)025-0000-055(Conductive Only)225-0000-014225-0094-000225-0095-000225-0096-000225-0097-000225-0098-000225-0099-000225-1058-000225-0072-000225-0090-000225-1013-000225-1014-000225-1015-000225-0000-006225-0090-000225-0000-008143-0000-081143-0000-077143-0000-080143-0000-079143-0000-0781247Y 143-0000-079249-1521-000249-1522-000249-1522-002249-1554-000249-1604-000249-1604-001249-5027-008249-5027-017249-5027-000249-5027-007349-0000-306249-1521-000249-1522-000249-1522-002249-1554-000249-1604-000249-1604-001249-1604-002249-1882-000249-1882-002249-1885-002249-5027-008249-5027-017249-5123-000249-5123-001349-1053-000349-1053-001349-1053-002349-1053-003349-1053-0043491053-005349-1053-006349-1053-007349-1053-008349-1053-009030-1975-009030-1975-010030-2259-000030-2273-000030-2280-000030-2286-000030-2356-000030-2357-000030-2358-000031-1113-009031-1113-010031-1287-000031-1302-000031-1303-000031-1308-000031-0000-343031-0000-344021-0144-000021-0144-001021-0144-002021-0144-003021-0144-004021-0144-006021-0144-008021-0144-011021-0144-000021-0144-001021-0144-002021-0144-003021-0144-004021-0144-006021-0144-008021-0144-011349-0013-000349-0014-000349-0015-000349-0016-000349-1003-000349-1009-000349-0000-000349-0000-001349-0000-002349-0000-001349-000-301249-1767-000249-1767-001249-1768-000249-2203-000249-1767-000249-1767-001249-1768-000249-2203-000143-1906-000143-1906-001143-1907-001143-1907-001143-0000-079ContactsReplacement Coax Termination KitDust CapsFiller PlugsSealing PlugsReplacement Coax Body AssemblySize #1 Coax ContactsSize #5 Coax ContactsSize #12 Shielded ContactReplaceable InsertsFor part numbers not listed, consult ITT Cannon for applicalbe customer-use drawing.。

SymbolTyp Max 659085125R θJL 4380Maximum Junction-to-Lead CSteady-State°C/WThermal Characteristics ParameterUnits Maximum Junction-to-Ambient AF t ≤ 10s R θJA °C/W Maximum Junction-to-Ambient A Steady-State °C/W AO3401AAO3401ASymbolMin TypMaxUnits BV DSS -30V -1T J =55°C-5I GSS ±100nA V GS(th)-0.6-1-1.3V I D(ON)-25A 3644T J =125°C52634455m Ω6280m Ωg FS 13S V SD -0.75-1V I S-2A C iss 9331200pF C oss 108pF C rss 81pF R g69ΩQ g 9.312.2nC Q gs 1.5nC Q gd 3.7nC t D(on) 5.2ns t r 6.8ns t D(off)42ns t f 15ns t rr 2128ns Q rr14.3nCTHIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.Body Diode Reverse Recovery TimeBody Diode Reverse Recovery Charge I F =-4.3A, dI/dt=100A/µsDrain-Source Breakdown Voltage On state drain currentI D =-250µA, V GS =0V V GS =-2.5V, I D =-2.5AV GS =-4.5V, V DS =-5V V GS =-10V, I D =-4.3AReverse Transfer Capacitance Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions I DSS µA Gate Threshold Voltage V DS =V GS I D =-250µA V DS =-30V, V GS =0VV DS =0V, V GS =±12V Zero Gate Voltage Drain Current Gate-Body leakage current R DS(ON)Static Drain-Source On-ResistanceForward TransconductanceDiode Forward Voltage m ΩV GS =-4.5V, I D =-3.5A I S =-1A,V GS =0V V DS =-5V, I D =-4.3AI F =-4.3A, dI/dt=100A/µsV GS =0V, V DS =-15V, f=1MHz SWITCHING PARAMETERS Total Gate Charge V GS =-4.5V, V DS =-15V, I D =-4.3AGate Source Charge Gate Drain Charge Turn-On Rise Time Turn-Off DelayTime V GS =-10V, V DS =-15V, R L =3.5Ω, R GEN =6ΩGate resistanceV GS =0V, V DS =0V, f=1MHzTurn-Off Fall TimeMaximum Body-Diode Continuous CurrentInput Capacitance Output Capacitance Turn-On DelayTime DYNAMIC PARAMETERS A: The value of R θJA is measured with the device mounted on 1in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in any given application depends on the user's specific board design. B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using <300 µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating.F.The current rating is based on the t ≤ 10s thermal resistance rating.Rev0: Apr.2007AO3401AAO3401A。

Eaton SPN64N3MEAXX2CEaton Power Defense SB, Double Narrow, 4000 A, 65 kA, 3-Pole,Drawout w/ MR2, PXR20LSIG, 64N3MEAXX2CGeneral specificationsEaton Magnum low voltage power circuitbreakerSPN64N3MEAXX2C78668974094816.3 in16.8 in24.9 in177 lbCE Marked NEMA Compliant SABA Listed CCC Marked ANSICSA CertifiedABS CertifiedUL ListedKEMA CertifiedLloyd's Register Certified DNV GL CertifiedProduct Name Catalog NumberUPCProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications4000 A UL 891Double narrow Three-pole Power Defense SBMR2UL 891Double narrow Magnum PXR20Drawout Three-pole4000 A 600 VACDrawout 65 kA65 kA4000 A4000 A 600 VACZone selective interlocking application paper Magnum circuit breakers with Power Xpert Release trip units product aid Amperage Rating Application Frame Number of poles TypeAccessories Application Frame Series Trip Type Mounting Method Number of poles Rated uninterrupted current (Iu)Voltage rating Mounting Method Interrupt rating Interrupt rating Amperage Rating Rated uninterrupted current (Iu)Voltage rating Application notesBrochuresCatalogsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaSelevctive coordination application paper - IA0120000E3Magnum PXR and PD-SB standard and narrow frame UL Certificate of ComplianceMagnum PXR and PD-SB double and double narrow frame UL Certificate of CompliancePower Xpert Release trip unit for Magnum PXR circuit breakers PXR 20/25 user manualMicrosoft Word - Power Xpert Protection Manager Quick Start Guide.docxMagnum PXR low voltage power circuit breakers user manual Power Xpert Protection Manager x64 22.6 1 Power Xpert Protection Manager x32 22.06 1 Eaton Specification Sheet - SPN64N3MEAXX2C Low voltage circuit breakers guide spec Magnum PXR 20/25 electronic trip units time current curves Molded case and low-voltage power circuit breaker health Safer by design: arc energy reduction techniques Cyber security white paperCertification reportsManuals and user guidesSoftware, firmware, and applications Specifications and datasheetsTime/current curvesWhite papers。