EB9021中文资料

For technical questions, contact: aluminumcaps1@Document Number: 25013EKBVishay RoedersteinAluminum CapacitorsRadial StyleFEATURES•Polarized aluminum electrolytic capacitors,non-solid electrolyte•Radial leads, cylindrical aluminum case•Miniaturized, high CV-product per unit volume •Extended temperature range: 105 °C •RoHS compliantAPPLICATIONS•General purpose, industrial and audio-video•Coupling, decoupling, timing, smoothing, filtering,buffering in SMPS•Portable and mobile equipment (small size, low mass)Note10 % capacitance tolerance on request Component outlinesQUICK REFERENCE DATADESCRIPTIONUNIT VALUENominal case size (Ø D x L)mm 5 x 11 to 8 x 11.510 x 12.5 to 18 x 40Rated capacitance range C R µF 2.2 to 22 000Capacitance tolerance %± 20Rated voltage rangeV 6.3 to 100160 to 350400 to 450Category temperature range °C - 55 to + 105- 40 to + 105- 25 to + 105Load lifeh10002000Based on sectional specification IEC 60384-4/EN 130300Climatic category 55/105/5640/105/5625/105/56IEC 60068SELECTION CHART FOR C R , U R AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)C R (µF)RATED VOLTAGE (V) (> 100 V see next page)6.31016253550631002.2→→→→→→ 5 x 11 5 x 113.3→→→→→→ 5 x 11 5 x 114.7→→→→→→ 5 x 11 5 x 116.8→→→→→→ 5 x 11 5 x 1110→→→→→→ 5 x 11 5 x 1115→→→→→→ 5 x 11 6.3 x 1122→→→→→→ 5 x 11 6.3 x 1133→→→→→ 5 x 11 6.3 x 118 x 11.547→→→→ 5 x 11→ 6.3 x 1110 x 12.568→→→ 5 x 11 6.3 x 11→8 x 11.510 x 16100→→ 5 x 11→ 6.3 x 11→8 x 11.510 x 20150→ 5 x 11→ 6.3 x 118 x 11.5→10 x 12.512.5 x 20220→ 5 x 11 6.3 x 11→8 x 11.510 x 12.510 x 1612.5 x 25330→ 6.3 x 11→8 x 11.510 x 12.510 x 1610 x 2016 x 25470→ 6.3 x 118 x 11.510 x 12.510 x 1610 x 2012.5 x 2016 x 256808 x 11.5→10 x 12.510 x 1612.5 x 1612.5 x 2012.5 x 2516 x 31.510008 x 11.510 x 12.510 x 1610 x 2012.5 x 2012.5 x 2516 x 2518 x 401500→10 x 1612.5 x 1612.5 x 2016 x 2016 x 2516 x 35.5-2200→10 x 2012.5 x 2012.5 x 2516 x 2516 x 31.516 x 35.5-330012.5 x 1612.5 x 2012.5 x 2516 x 2516 x 35.516 x 35.518 x 40-470012.5 x 2012.5 x 2516 x 2516 x 31.516 x 35.5---680012.5 x 2516 x 2516 x 31.518 x 35.5----10 00016 x 2516 x 35.518 x 35.5-----15 00016 x 35.518 x 35.5------22 00018 x 40-------Document Number: 25013For technical questions, contact: aluminumcaps1@EKBAluminum CapacitorsRadial StyleVishay RoedersteinNote10 % capacitance tolerance on requestSELECTION CHART FOR C R , U R AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)C R (µF)RATED VOLTAGE (V)1602002503504004502.2→→ 6.3 x 11→8 x 11.510 x 12.53.3→ 6.3 x 11→8 x 11.510 x 12.510 x 164.7 6.3 x 11→8 x 11.5→10 x 12.510 x 166.88 x 11.5→10 x 12.5→10 x 1610 x 2010→→10 x 12.510 x 1610 x 2012.5 x 2015→→10 x 1610 x 2012.5 x 2012.5 x 2522→10 x 1610 x 2012.5 x 2012.5 x 2516 x 2533→10 x 2012.5 x 2012.5 x 2516 x 2516 x 31.547→12.5 x 2012.5 x 2516 x 2516 x 31.516 x 35.56812.5 x 2516 x 2016 x 2516 x 31.518 x 35.518 x 4010012.5 x 2516 x 2516 x 31.518 x 35.518 x 40-15016 x 2516 x 35.518 x 35.518 x 40--22016 x 31.518 x 35.518 x 40---33018 x 35.518 x 40----47018 x 40----- For technical questions, contact: aluminumcaps1@Document Number: 25013EKBVishay RoedersteinAluminum CapacitorsRadial StyleGENERAL NOTE•For Standard Packaging Quantity (SPQ) and Minimum Order Quantity (MOQ) please refer to our price list or contact customer service •For other packaging forms please refer to Vishay Roederstein General InformationNoteUnless otherwise specified, all electrical values apply at T a = 20 °C , P = 80to 120kPa, RH =45to 75 %.ORDERING EXAMPLEEKB 3300 µF/25 V, ± 20 %, size: 16 x 25 mm Leads: LongOrdering code: MALREKB00JG433E00K Leads: ShortOrdering code: MALREKB05...For 5 ≤ Ø D ≤ 8 mmLeads: Bent open, shortened and formed Ordering code: MALREKB09...For 10 ≤ Ø D ≤ 18 mmLeads: Shortened and formed Ordering code: MALREKB06 ...ELECTRICAL DATASYMBOL DESCRIPTIONU R rated voltageC R rated capacitance at 120 Hz tan δmax. dissipation factor at 120 HzR ESR calculated equivalent series resistance at 120Hz I Rrated ripple current (rms) at 120 Hz and upper category temperatureDocument Number: 25013For technical questions, contact: aluminumcaps1@EKBAluminum CapacitorsRadial StyleVishay RoedersteinELECTRICAL DATA AND ORDERING INFORMATIONU R (V)C R 120Hz (µF)DIMENSIONSD x L (mm)tan δ120 Hz R ESR 120Hz (Ω)I R120 Hz/105 °C(mA)WEIGHT (g)CATALOG NUMBER (Long Leads)6.36808 x 11.50.280.55348 1.10MALREKB00PB368B00K 10008 x 11.50.280.37422 1.10MALREKB00PB410B00K 330012.5 x 160.340.14983 3.00MALREKB00FD433B00K 470012.5 x 200.360.101219 4.00MALREKB00FE447B00K 680012.5 x 250.400.081480 5.00MALREKB00FG468B00K 10 00016 x 250.460.0618078.50MALREKB00JG510B00K 15 00016 x 35.50.560.05223311.0MALREKB00JL515B00K 22 00018 x 400.700.04265214.6MALREKB00KK522B00K 10150 5 x 110.24 2.121340.45MALREKB00AA315C00K 220 5 x 110.24 1.451620.45MALREKB00AA322C00K 330 6.3 x 110.240.962280.46MALREKB00BA333C00K 470 6.3 x 110.240.682720.46MALREKB00BA347C00K 100010 x 12.50.240.32544 2.05MALREKB00DC410C00K 150010 x 160.260.23680 2.20MALREKB00DD415C00K 220010 x 200.280.17844 3.10MALREKB00DE422C00K 330012.5 x 200.300.121148 4.00MALREKB00FE433C00K 470012.5 x 250.320.091421 5.00MALREKB00FG447C00K 680016 x 250.360.0717378.50MALREKB00JG468C00K 10 00016 x 35.50.420.06217211.0MALREKB00JL510C00K 15 00018 x 35.50.520.05248214.0MALREKB00KL515C00K 16100 5 x 110.20 2.651190.45MALREKB00AA310D00K 220 6.3 x 110.20 1.212030.46MALREKB00BA322D00K 4708 x 11.50.200.56349 1.10MALREKB00PB347D00K 68010 x 12.50.200.39488 2.05MALREKB00DC368D00K 100010 x 160.200.27648 2.20MALREKB00DD410D00K 150012.5 x 160.220.19862 3.00MALREKB00FD415D00K 220012.5 x 200.240.141055 4.00MALREKB00FE422D00K 330012.5 x 250.260.101323 5.00MALREKB00FG433D00K 470016 x 250.280.0816578.50MALREKB00JG447D00K 680016 x 31.50.320.06198210.0MALREKB00JS468D00K 10 00018 x 35.50.380.05240914.0MALREKB00KL510D00K 2568 5 x 110.16 3.121080.45MALREKB00AA268E00K 150 6.3 x 110.16 1.411850.46MALREKB00BA315E00K 3308 x 11.50.160.64324 1.10MALREKB00PB333E00K 47010 x 12.50.160.45449 2.05MALREKB00DC347E00K 68010 x 160.160.31591 2.20MALREKB00DD368E00K 100010 x 200.160.21782 3.10MALREKB00DE410E00K 150012.5 x 200.180.161017 4.00MALREKB00FE415E00K 220012.5 x 250.200.121235 5.00MALREKB00FG422E00K 330016 x 250.220.0915628.50MALREKB00JG433E00K 470016 x 31.50.240.07191610.0MALREKB00JS447E00K 680018 x 35.50.280.05233514.0MALREKB00KL468E00KEKBVishay Roederstein Aluminum CapacitorsRadial Style3547 5 x 110.14 3.95960.45MALREKB00AA247F00K 68 6.3 x 110.14 2.731320.46MALREKB00BA268F00K 100 6.3 x 110.14 1.861600.46MALREKB00BA310F00K 1508 x 11.50.14 1.24231 1.10MALREKB00PB315F00K 2208 x 11.50.140.84280 1.10MALREKB00PB322F00K 33010 x 12.50.140.56399 2.05MALREKB00DC333F00K 47010 x 160.140.40521 2.20MALREKB00DD347F00K 68012.5 x 160.140.27740 3.00MALREKB00FD368F00K 100012.5 x 200.140.19974 4.00MALREKB00FE410F00K 150016 x 200.160.141188 6.00MALREKB00JE415F00K 220016 x 250.180.1114268.50MALREKB00JG422F00K 330016 x 35.50.200.08185711.0MALREKB00JL433F00K 470016 x 35.50.220.06222414.0MALREKB00JL447F00K5033 5 x 110.12 4.82920.45MALREKB00AA233H00K 22010 x 12.50.120.72376 2.05MALREKB00DC322H00K 33010 x 160.120.48504 2.20MALREKB00DD333H00K 47010 x 200.120.34657 3.10MALREKB00DE347H00K 68012.5 x 200.120.23927 4.00MALREKB00FE368H00K 100012.5 x 250.120.161226 5.00MALREKB00FG410H00K 150016 x 250.140.1214428.50MALREKB00JG415H00K 220016 x 31.50.160.10144210.0MALREKB00JS422H00K 330016 x 35.50.180.07179411.0MALREKB00JL433H00K632.2 5 x 110.1060.29260.45MALREKB00AA122J00K3.3 5 x 110.1040.19320.45MALREKB00AA133J00K4.7 5 x 110.1028.22380.45MALREKB00AA147J00K 6.8 5 x 110.1019.50460.45MALREKB00AA168J00K 10 5 x 110.1013.26560.45MALREKB00AA210J00K 15 5 x 110.108.84680.45MALREKB00AA215J00K 22 5 x 110.10 6.03830.45MALREKB00AA222J00K 33 6.3 x 110.10 4.021160.46MALREKB00BA233J00K 47 6.3 x 110.10 2.821390.46MALREKB00BA247J00K 688 x 11.50.10 1.95197 1.10MALREKB00PB268J00K 1008 x 11.50.10 1.33239 1.10MALREKB00PB310J00K 15010 x 12.50.100.88340 2.05MALREKB00DC315J00K 22010 x 160.100.60451 2.20MALREKB00DD322J00K 33010 x 200.100.40603 3.10MALREKB00DE333J00K 47012.5 x 200.100.28844 4.00MALREKB00FE347J00K 68012.5 x 250.100.2011075.00MALREKB00FG368J00K 100016 x 250.100.1314908.50MALREKB00JG410J00K 150016 x 35.50.120.11177011.0MALREKB00JL415J00K 220016 x 35.50.140.08177011.0MALREKB00JL422J00K 330018 x 400.160.06268914.6MALREKB00KK433J00KELECTRICAL DATA AND ORDERING INFORMATIONU R (V)C R120Hz(µF)DIMENSIONSD x L(mm)tan δ120 HzR ESR120Hz(Ω)I R120 Hz/105 °C(mA)WEIGHT(g)CATALOGNUMBER(Long Leads)Document Number: 25013For technical questions, contact: aluminumcaps1@EKBAluminum CapacitorsRadial StyleVishay Roederstein1002.2 5 x 110.0848.23260.45MALREKB00AA122L00K3.3 5 x 110.0832.15320.45MALREKB00AA133L00K4.7 5 x 110.0822.58380.45MALREKB00AA147L00K 6.8 5 x 110.0815.60460.45MALREKB00AA168L00K 10 5 x 110.0810.61560.45MALREKB00AA210L00K 156.3 x 110.087.07780.46MALREKB00BA215L00K 22 6.3 x 110.08 4.82950.46MALREKB00BA222L00K 338 x 11.50.08 3.22137 1.10MALREKB00PB233L00K 4710 x 12.50.08 2.26190 2.05MALREKB00DC247L00K 6810 x 160.08 1.56251 2.20MALREKB00DD268L00K 10010 x 200.08 1.06332 3.10MALREKB00DE310L00K 15012.5 x 200.080.71477 4.00MALREKB00FE315L00K 22012.5 x 250.080.48630 5.00MALREKB00FG322L00K 33016 x 250.080.328568.50MALREKB00JG333L00K 47016 x 250.080.2310218.50MALREKB00JG347L00K 68016 x 31.50.080.16134410.0MALREKB00JS368L00K 100018 x 400.080.11192514.6MALREKB00KK410L00K 1604.7 6.3 x 110.1542.33340.46MALREKB00BA147M00K 6.88 x 11.50.1529.2649 1.10MALREKB00PB168M00K 6812.5 x 250.15 2.93273 5.00MALREKB00FG268M00K 10012.5 x 250.15 1.99331 5.00MALREKB00FG310M00K 15016 x 250.15 1.334508.50MALREKB00JG315M00K 22016 x 31.50.150.9059610.0MALREKB00JS322M00K 33018 x 35.50.150.6082214.0MALREKB00KL333M00K 47018 x 400.150.42101514.6MALREKB00KK347M00K 2003.3 6.3 x 110.1560.29290.46MALREKB00BA133S00K 2210 x 160.159.04111 2.20MALREKB00DD222S00K 3310 x 200.15 6.03149 3.10MALREKB00DE233S00K 4712.5 x 200.15 4.23208 4.00MALREKB00FE247S00K 6816 x 200.15 2.93279 6.00MALREKB00JE268S00K 10016 x 250.15 1.993688.50MALREKB00JG310S00K 15016 x 35.50.15 1.3351711.0MALREKB00JL315S00K 22018 x 35.50.150.9067114.0MALREKB00KL322S00K 33018 x 400.150.6085014.6MALREKB00KK333S00K 2502.2 6.3 x 110.1590.43230.46MALREKB00BA122N00K 4.78 x 11.50.1542.3340 1.10MALREKB00PB147N00K 6.810 x 12.50.1529.2656 2.05MALREKB00DC168N00K 1010 x 12.50.1519.8968 2.05MALREKB00DC210N00K 1510 x 160.1513.2692 2.20MALREKB00DD215N00K 2210 x 200.159.04121 3.10MALREKB00DE222N00K 3312.5 x 200.15 6.03175 4.00MALREKB00FE233N00K 4712.5 x 250.15 4.23227 5.00MALREKB00FG247N00K 6816 x 250.15 2.933038.50MALREKB00JG268N00K 10016 x 31.50.15 1.9940210.0MALREKB00JS310N00K 15018 x 35.50.15 1.3355414.0MALREKB00KL315N00K 22018 x 400.150.9069414.6MALREKB00KK322N00KELECTRICAL DATA AND ORDERING INFORMATIONU R (V)C R 120Hz (µF)DIMENSIONSD x L (mm)tan δ120 Hz R ESR 120Hz (Ω)I R120 Hz/105 °C(mA)WEIGHT (g)CATALOG NUMBER (Long Leads) For technical questions, contact: aluminumcaps1@Document Number: 25013EKBVishay RoedersteinAluminum CapacitorsRadial Style3503.38 x 11.50.2080.3834 1.10MALREKB00PB133O00K 1010 x 160.2026.5375 2.20MALREKB00DD210O00K 1510 x 200.2017.68100 3.10MALREKB00DE215O00K 2212.5 x 200.2012.06143 4.00MALREKB00FE222O00K 3312.5 x 250.208.04190 5.00MALREKB00FG233O00K 4716 x 250.20 5.642528.50MALREKB00JG247O00K 6816 x 31.50.20 3.9033210.0MALREKB00JS268O00K 10018 x 35.50.20 2.6540714.0MALREKB00KL310O00K 15018 x 400.20 1.7752314.6MALREKB00KK315O00K 4002.28 x 11.50.20120.628 1.10MALREKB00PB122X00K3.310 x 12.50.2080.3839 2.05MALREKB00DC133X00K4.710 x 12.50.2056.4447 2.05MALREKB00DC147X00K 6.810 x 160.2039.0162 2.20MALREKB00DD168X00K 1010 x 200.2026.5382 3.10MALREKB00DE210X00K 1512.5 x 200.2017.68118 4.00MALREKB00FE215X00K 2212.5 x 250.2012.061555.00MALREKB00FG222X00K 3316 x 250.208.042118.50MALREKB00JG233X00K 4716 x 31.50.20 5.6427610.0MALREKB00JS247X00K 6818 x 35.50.20 3.9037314.0MALREKB00KL268X00K 10018 x 400.20 2.6542714.6MALREKB00KK310X00K 4502.210 x 12.50.20120.627 2.05MALREKB00DC122P00K3.310 x 160.2080.3836 2.20MALREKB00DD133P00K4.710 x 160.2056.4443 2.20MALREKB00DD147P00K 6.810 x 200.2039.0156 3.10MALREKB00DE168P00K 1012.5 x 200.2026.5380 4.00MALREKB00FE210P00K 1512.5 x 250.2017.681075.00MALREKB00FG215P00K 2216 x 250.2012.061448.50MALREKB00JG222P00K 3316 x 31.50.208.0419310.0MALREKB00JS233P00K 4716 x 35.50.20 5.6424211.0MALREKB00JL247P00K 6818 x 400.203.9035214.6MALREKB00KK268P00KELECTRICAL DATA AND ORDERING INFORMATIONU R (V)C R120Hz(µF)DIMENSIONSD x L (mm)tan δ120 Hz R ESR 120Hz (Ω)I R120 Hz/105 °C(mA)WEIGHT (g)CATALOG NUMBER (Long Leads)LOW TEMPERATURE BEHAVIORIMPEDANCE RATIOZ(T2)/Z(T1)RATED VOLTAGE(V)T2/T1 6.31016253550 ~ 100160200 ~ 350400450- 25/+ 20 °C 54322234610- 40/+ 20 °C108643348--ADDITIONAL ELECTRICAL DATAPARAMETERCONDITIONSVALUECurrent Leakage current(T est conditions: U R , 20 °C)After 1 minute at U R I L1 ≤ 0.03 x C R x U R or 4 µA for U R ≤ 100 V (whichever is greater)After 2 minutes at U R I L2 ≤ 0.01 x C R x U R or 3 µA for U R ≤ 100 V (whichever is greater) After 5 minutes at U RI L5 ≤ 0.02 x C R x U R+ 15 µAfor U R > 100 V (whichever is greater)ResistanceEquivalent series resistance (ESR)Calculated from tan δmax.and C RESR = tan δ/2 π f C RDocument Number: 25013For technical questions, contact: aluminumcaps1@EKBAluminum CapacitorsRadial StyleVishay RoedersteinMULTIPLIER OF RIPPLE CURRENT (I R ) AS A FUNCTION OF FREQUENCYFREQUENCY(Hz)I R MULTIPLIER FOR U R ≤ 100 VC R ≤ 47 µFC R = 68 to 680 µFC R ≥ 1000 µF500.750.800.85120 1.00 1.00 1.00300 1.35 1.25 1.101000 1.55 1.35 1.15≥ 10 0002.001.501.15MULTIPLIER OF RIPPLE CURRENT (I R ) AS A FUNCTION OF FREQUENCYFREQUENCY(Hz)I R MULTIPLIER FOR U R 160 V to ≤ 450 VC R = 47 to 220 µFC R ≥ 330 µF500.800.90120 1.00 1.00300 1.25 1.101000 1.40 1.13≥ 10 0001.601.15TEST PROCEDURES AND REQUIREMENTSTESTPROCEDURE (QUICK REFERENCE)REQUIREMENTSLoad lifeT amb = 105 °C U R and I R appliedAfter 1000 hours Ø 5, Ø 6.3, Ø 8 mm After 2000 hours ≥ Ø 10 mmΔ C/C: ± 20 % of initial value I L ≤ spec. limittan δ ≤ 2 x spec. limitShelf lifeT amb = 105 °C No voltage applied After 1000 hoursAfter test: U R to be applied for 30 minutes 24 to 48 hours before measurementΔ C/C: ± 20 % of initial value I L ≤ spec.limittan δ ≤ 2 x spec. limitDisclaimer Legal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.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 herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.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.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网Document Number: 。

Features• Low Power Consumption • Industry Standard Size• Industry Standard Pinout • Choice of Character Size7.6 mm (0.30 in), 10 mm (0.40 in), 10.9 mm (0.43 in), 14.2 mm (0.56 in), 20 mm (0.80 in)• Choice of ColorsAlGaAs Red, High Efficiency Red (HER), Yellow, Green• Excellent Appearance Evenly Lighted Segments±50° Viewing Angle• Design FlexibilityCommon Anode or Common CathodeSingle and Dual DigitLeft and Right Hand Decimal Points±1. Overflow Character• Categorized for Luminous IntensityYellow and Green Categorized for ColorUse of Like Categories Yields a Uniform Display• Excellent for Long Digit String Multiplexing DescriptionThese low current seven segment displays are designed for applica-tions requiring low power consumption. They are tested and selected for their excellent low current characteristics to ensure that the segments are matched at low currents. Drive currents as low as 1 mA per segment are available.Pin for pin equivalent displays are also available in a standard current or high light ambient design. The standard current displays are available in all colors and are ideal for most applica-tions. The high light ambient displays are ideal for sunlight ambients or long string lengths. For additional information see the 7.6 mm Micro Bright Seven Segment Displays, 10 mm Seven Segment Displays, 7.6 mm/10.9 mm Seven Segment Displays, 14.2 mm Seven Segment Displays, 20 mm Seven Segment Displays, or High Light Ambient Seven Segment Displays data sheets.Low Current Seven SegmentDisplays Technical Data HDSP-335x SeriesHDSP-555x SeriesHDSP-751x SeriesHDSP-A10x Series HDSP-A80x Series HDSP-A90x Series HDSP-E10x Series HDSP-F10x Series HDSP-G10x Series HDSP-H10x Series HDSP-K12x, K70x Series HDSP-N10x SeriesHDSP-N40x SeriesDevicesAlGaAs HER Yellow Green Package HDSP-HDSP-HDSP-HDSP-Description Drawing A1017511A801A9017.6 mm Common Anode Right Hand Decimal A A1037513A803A9037.6 mm Common Cathode Right Hand Decimal B A1077517A807A9077.6 mm Common Anode ±1. Overflow C A1087518A808A9087.6 mm Common Cathode ±1. Overflow D F10110 mm Common Anode Right Hand Decimal E F10310 mm Common Cathode Right Hand Decimal F F10710 mm Common Anode ±1. Overflow G F10810 mm Common Cathode ±1. Overflow H G10110 mm Two Digit Common Anode Right Hand Decimal X G10310 mm Two Digit Common Cathode Right Hand Decimal Y E100335010.9 mm Common Anode Left Hand Decimal I E101335110.9 mm Common Anode Right Hand Decimal J E103335310.9 mm Common Cathode Right Hand Decimal K E106335610.9 mm Universal ±1. Overflow[1]L H101555114.2 mm Common Anode Right Hand Decimal M H103555314.2 mm Common Cathode Right Hand Decimal N H107555714.2 mm Common Anode ±1. Overflow O H108555814.2 mm Common Cathode ±1. Overflow P K121K70114.2 mm Two Digit Common Anode Right Hand Decimal R K123K70314.2 mm Two Digit Common Cathode Right Hand Decimal S N10020 mm Common Anode Left Hand Decimal Q N101N40120 mm Common Anode Right Hand Decimal T N103N40320 mm Common Cathode Right Hand Decimal U N10520 mm Common Cathode Left Hand Decimal V N106N40620 mm Universal ±1. Overflow[1]W Note:1. Universal pinout brings the anode and cathode of each segment’s LED out to separate pins. See internal diagrams L or W.Part Numbering System5082-x xx x-x x x xxHDSP-x xx x-x x x xxMechanical Options[1]00: No mechanical optionColor Bin Options[1,2]0: No color bin limitationMaximum Intensity Bin[1,2]0: No maximum intensity bin limitationMinimum Intensity Bin[1,2]0: No minimum intensity bin limitationDevice Configuration/Color[1]G: GreenDevice Specific Configuration[1]Refer to respective datasheetPackage[1]Refer to Respective datasheetNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest Agilent representative fordetails.2. Bin options refer to shippable bins for a part-number. Color and Intensity Bins are typically restricted to 1 bin per tube (excep-tions may apply). Please refer to respective datasheet for specific bin limit information.Package DimensionsPackage Dimensions (cont.)Package Dimensions (cont.)*The Side View of package indicates Country of Origin.Package Dimensions (cont.)Package Dimensions (cont.)Package Dimensions (cont.)Internal Circuit DiagramInternal Circuit Diagram (cont.)Absolute Maximum RatingsAlGaAs Red - HDSP-HERA10X/E10X/H10X HDSP-751X/Yellow GreenK12X/N10X/N40X335X/555X/HDSP-A80X HDSP-A90X Description F10X, G10X Series K70X Series Series Series Units Average Power per Segment or DP375264mW Peak Forward Current per 45mA Segment or DPDC Forward Current per15[1]15[2]mA Segment or DPOperating Temperature Range-20 to +100-40 to +100°C Storage Temperature Range -55 to +100°C Reverse Voltage per Segment 3.0V or DPWave Soldering Temperature for 3Seconds (1.60 mm [0.063 in.] below 250°C seating body)Notes:1. Derate above 91°C at 0.53 mA/°C.2. Derate HER/Yellow above 80°C at 0.38 mA/°C and Green above 71°C at 0.31 mA/°C.Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions315600I F = 1 mA A10x3600I F = 5 mA330650I F = 1 mAF10x, G10x3900I F = 5 mA390650I F = 1 mA E10x Luminous Intensity/Segment[1,2]I Vµcd(Digit Average)3900I F = 5 mA400700I F = 1 mAH10x, K12x4200I F = 5 mA270590I F = 1 mAN10x, N40x3500I F = 5 mA1.6I F = 1 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA1.82.2I F = 20 mA PkAll Devices Peak WavelengthλPEAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2 mV mV/°CV F/Segment or DPA10x255F10x, G10x320E10x340Thermal Resistance LED RθJ-PIN°C/W/SegH10x, K12x Junction-to-Pin400N10x, N40x430High Efficiency RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions160270I F = 2 mA 751x1050I F = 5 mA200300I F = 2 mA Luminous Intensity/Segment[1,2]I V mcd(Digit Average)1200I F = 5 mA335x, 555x,K70x270370I F = 2 mA1480I F = 5 mA1.6I F = 2 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA2.1 2.5I F = 20 mA Pk All Devices Peak WavelengthλPEAK635nmDominant Wavelength[3]λd626nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DP751x200335x Thermal Resistance LED RθJ-PIN280°C/WJunction-to-Pin555x, K70x345YellowDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250420I F = 4 mA(Digit Average)I V mcd1300I F = 10 mA1.7I F = 4 mAForward Voltage/Segment or DP V F 1.8V I F = 5 mA A80x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK583nmDominant Wavelength[3,5]λd581.5585592.5nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinGreenDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250475I F = 4 mA(Digit Average)I V mcd1500I F = 10 mA1.9I F = 4 mAForward Voltage/Segment or DP V F 2.0V I F = 10 mA A90x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK566nmDominant Wavelength[3,5]λd571577nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinNotes:1. Device case temperature is 25°C prior to the intensity measurement.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd, is derived from the CIE chromaticity diagram and is the single wavelength which defines the color of thedevice.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. The yellow (HDSP-A800) and Green (HDSP-A900) displays are categorized for dominant wavelength. The category is designated by anumber adjacent to the luminous intensity category letter.AlGaAs RedIntensity Bin Limits (mcd)AlGaAs RedHDSP-A10xIV Bin Category Min.Max.E0.3150.520F0.4280.759G0.621 1.16H0.945 1.71I 1.40 2.56J 2.10 3.84K 3.14 5.75L 4.708.55HDSP-E10x/F10x/G10xIV Bin Category Min.Max.D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-H10x/K12xIV Bin Category Min.Max.C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50HDSP-N10xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued HERHDSP-751xIV Bin Category Min.Max.B0.1600.240C0.2000.300D0.2500.385E0.3150.520F0.4280.759G0.621 1.16HDSP-751xIV Bin Category Min.Max.B0.2400.366C0.3000.477D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-555x/K70xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued YellowHDSP-A80xIV Bin Category Min.Max.D0.2500.385E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60GreenHDSP-A90xIV Bin Category Min.Max.E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60Electrical/OpticalFor more information on electrical/optical characteristics, please see Application Note 1005.Contrast Enhancement For information on contrast enhancement, please see Application Note 1015.Soldering/Cleaning Cleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from the chorinated hydrocarbon family (methylene chloride, trichloro-ethylene, carbon tetrachloride, etc.) are not recommended for cleaning LED parts. All of these various solvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs, please refer to Application Note 1027.Note:All categories are established for classification of products. Productsmay not be available in all categories. Please contact your localAgilent representatives for further clarification/information.Color Categories/semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788 6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6271 2451India, Australia, New Zealand: (+65) 6271 2394Japan: (+81 3) 3335-8152(Domestic/International), or0120-61-1280(Domestic Only)Korea: (+65) 6271 2194Malaysia, Singapore: (+65) 6271 2054Taiwan: (+65) 6271 2654Data subject to change.Copyright © 2005 Agilent Technologies, Inc.Obsoletes 5988-8412ENJanuary 19, 20055989-0080EN。

8205a中文资料锂电池保护板根据使用的不同IC和电压具有不同的电路和参数。

常用的保护IC是8261，DW01 +，CS213，GEM5018等。

其中，精工的8261系列具有更好的精度，当然价格也更昂贵。

后者全部在台湾制造。

国内二级市场主要使用DW01 +和CS213。

以下是带有MOS管8205A（8pin）的DW01 +的说明：锂电池保护板的正常工作流程为：当电池电压在2.5V至4.3V之间时，DW01的第一引脚和第三引脚均输出高电平（等于电源电压），第二引脚电压为0V。

此时，DW01的引脚1和3的电压将分别施加到8205A的引脚5和4。

由于8205A中的两个电子开关的G 极连接到DW01的电压，因此它们处于导通状态。

两个电子开关均处于打开状态。

此时，电池单体的负极直接连接至保护板的P-端子，并且保护板具有电压输出。

2.保护板过放电保护控制原理：当电池通过外部负载放电时，电池电压将缓慢降低，与此同时，DW01将通过R1电阻实时监控电池电压。

当电池电压降至约2.3V时，DW01将认为电池电压处于过放电电压状态，引脚1的输出电压立即断开，从而引脚1的电压变为0V，并且开关由于引脚5上没有电压，因此8205A中的电子管关闭。

此时，电池单元的B-和保护板的P-处于断开状态。

即，电池单元的放电电路被切断，并且电池单元将停止放电。

保护板处于过放电状态，并且已经维护。

保护板的P 和P-具有间接充电电压后，DW01通过B-检测到充电电压后，将立即停止过放电状态，并再次在引脚1上输出高电压以开启过放电控制8205A中的电子管。

也就是说，电池单元的B-和保护板的P-被重新连接，并且电池由充电器直接充电。

3.保护板过充保护控制原理：当电池由充电器正常充电时，随着充电时间的增加，电池的电压将越来越高。

当电池电压升至4.4V时，DW01将认为电池电压处于过充电电压状态。

然后立即断开引脚3的输出电压，以使引脚3的电压变为0V，并且由于引脚4上没有电压，因此8205A中的开关管被闭合。

100% UIS Tested 100% Rg TestedSymbol V DS V GSI DM T J , T STGSymbolt ≤ 10s Steady-State Steady-StateR θJLW 2Maximum Junction-to-Lead°C/W°C/W Maximum Junction-to-Ambient A D 329040Maximum Junction-to-Ambient A T A =25°C T A =70°C Power DissipationBP D Pulsed Drain Current CContinuous Drain CurrentT A =25°C AI D -9-7-60V MaximumUnits Parameter Absolute Maximum Ratings T A =25°C unless otherwise noted V ±8Gate-Source Voltage Drain-Source Voltage -12°C/W R θJA 487462.5°CThermal Characteristics Units ParameterTyp Max 1.28T A =70°CJunction and Storage Temperature Range -55 to 150G1S1G2S2D1D1D2D224513867 Top ViewSOIC-8Top View Bottom ViewPin1G1D11S1RgG2D2S2RgSymbolMin Typ Max Units BV DSS -12VV DS =-12V, V GS =0V-1T J =55°C-5I GSS ±10µA V GS(th)Gate Threshold Voltage -0.35-0.53-0.85V I D(ON)-60A 1619T J =125°C22271924m Ω2330m Ωg FS 45S V SD -0.56-1V I S-3A C iss 139017402100pF C oss 230334435pF C rss 120200280pF R g0.9 1.3 1.7k ΩQ g (4.5V)151923nC Q gs 3.6 4.5 5.4nC Q gd 35.37.4nC t D(on)240ns t r 580ns t D(off)7µs t f 4.2µst rr 182226ns Q rr141720nCTHIS 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 TimeDrain-Source Breakdown Voltage On state drain currentI D =-250µA, V GS =0V V GS =-4.5V, V DS =-5V V GS =-4.5V, I D =-9AReverse Transfer Capacitance I F =-9A, dI/dt=500A/µsV GS =0V, V DS =-6V, f=1MHz SWITCHING PARAMETERS Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions I DSS µA V DS =V GS I D =-250µA V DS =0V, V GS = ±8V Zero Gate Voltage Drain Current Gate-Body leakage current Forward Transconductance Diode Forward VoltageR DS(ON)Static Drain-Source On-Resistancem ΩI S =-1A,V GS =0VV DS =-5V, I D =-9A V GS =-1.8V, I D =-6AV GS =-2.5V, I D =-8A Gate resistanceV GS =0V, V DS =0V, f=1MHzTurn-Off Fall TimeTotal Gate Charge V GS =-4.5V, V DS =-6V, I D =-9AGate Source Charge Gate Drain Charge Body Diode Reverse Recovery Charge I F =-9A, dI/dt=500A/µsMaximum Body-Diode Continuous CurrentInput Capacitance Output CapacitanceTurn-On DelayTime DYNAMIC PARAMETERS Turn-On Rise Time Turn-Off DelayTime V GS =-4.5V, V DS =-6V, R L =0.67Ω,R GEN =3ΩA. The value of R θJA is measured with the device mounted on 1in 2FR-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. The power dissipation P D is based on T J(MAX)=150°C, using ≤ 10s junction-to-ambient thermal resistance.C. Repetitive rating, pulse width limited by junction temperature T J(MAX)=150°C. Ratings are based on low frequency and duty cycles to keep initialT J =25°C.D. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.E. The static characteristics in Figures 1 to 6 are obtained using <300µs pulses, duty cycle 0.5% max.F. These curves are based on the junction-to-ambient thermal impedence which is measured with the device mounted on 1in 2 FR-4 board with 2oz. Copper, assuming a maximum junction temperature of T J(MAX)=150°C. The SOA curve provides a single pulse ratin g.TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICS5101520Q g (nC)Figure 7: Gate-Charge Characteristics-V G S (V o l t s )24681012-V DS (Volts)Figure 8: Capacitance Characteristics C a p a c i t a n c e (p F )VdsCharge Gate Charge Test Circuit & WaveformD iode RVVddVddVR esistive S w itching Test C ircuit & W aveform s分销商库存信息: AOSAO4821。

TL F 66109601 DM9601 Retriggerable One ShotJune19899601 DM9601Retriggerable One ShotGeneral DescriptionThese retriggerable one shots provide the designer withfour inputs two active high and two active low This permitsa choice of either leading-edge or trailing-edge triggeringindependent of input transition times When input conditonsfor triggering are met a new cycle starts and the externalcapacitor is rapidly discharged and then allowed to chargeagain The retriggerable feature allows for output pulsewidths to be expanded In fact a continuous true output canbe maintained by having an input cycle time which is shorterthan the output cycle time Retriggering may be inhibited bytying the Q output to an active low inputFeaturesY High speed operation input repetition rate l10MHzY Flexibility of operation optional retriggering lock-outcapabilityY Output pulse width range 50ns to%Y Leading or trailing edge triggeringY Complementary outputs inputsY Input clamping diodesY DTL TTL compatible logic levelsY Alternate Military Aerospace device(9601)is availableContact a National Semiconductor Sales Office Distrib-utor for specificationsConnection DiagramDual-In-Line PackageTL F 6610–1Order Number9601DMQB 9601FMQB DM9601J DM9601W or DM9601NSee NS Package Number J14A N14A or W14BFunction TableInputs OutputsA1A2B1B2Q QH e High Logic LevelH H X X L HL e Low Logic LevelX X L X L HX e Either Low orX X X L L H High Logic LevelL X H H L H u e Low to High LevelTransitionL X u Hv e High to Low LevelL X H uTransitionX L H H L He Positive PulseX L u H e Negative PulseX L H uH v H Hv v H Hv H H HC1995National Semiconductor Corporation RRD-B30M105 Printed in U S AAbsolute Maximum Ratings(Note)If Military Aerospace specified devices are required please contact the National Semiconductor Sales Office Distributors for availability and specifications Supply Voltage7V Input Voltage5 5V Operating Free Air Temperature RangeMilitary b55 C to a125 C Commercial0 to a70 C Storage Temperature Range b65 C to a150 C Note The‘‘Absolute Maximum Ratings’’are those values beyond which the safety of the device cannot be guaran-teed The device should not be operated at these limits The parametric values defined in the‘‘Electrical Characteristics’’table are not guaranteed at the absolute maximum ratings The‘‘Recommended Operating Conditions’’table will define the conditions for actual device operationRecommended Operating ConditionsSymbol ParameterMilitary CommercialUnits Min Nom Max Min Nom MaxV CC Supply Voltage4 555 54 7555 25V V IH High Level Input T A e b55 C2Voltage TA e0 C1 9T A e25 C1 71 8VT A e75 C1 6T A e125 C1 5V IL Low Level Input T A e b55 C0 85Voltage TA e0 C0 85T A e25 C0 90 85VT A e75 C0 85T A e125 C0 85I OH High Level Output Current b0 72b0 96mA I OL Low Level Output Current1012 8mA T A Free Air Operating Temperature b55125075 C Electrical Characteristics over recommended operating free air temperature range(unless otherwise noted)Symbol Parameter Conditions(Note3)MinTypMax Units (Note1)V I Input Clamp Voltage V CC e Min I I e b12mA b1 5V V OH High Level Output V CC e Min I OH e Max2 4VVoltage V IL e Max V IH e Min (Note4)V OL Low Level Output V CC e Min I OL e Max MIL0 4Voltage V IL e Max V IH e MinCOM0 45V(Note4)I IH High Level Input V CC e Max V I e4 5V60m A CurrentI IL Low Level Input V CC e Max MIL V IN e0 40V b1 6mA Current COM VIN e0 45V b1 6I OS Short Circuit V CC e Max MIL b10b40mA Output Current(Notes2and4)COM b10b40I CC Supply Current V CC e Max25mA Note1 All typicals are at V CC e5V T A e25 CNote2 Not more than one output should be shorted at a timeNote3 Unless otherwise noted R X e10k between PIN13and V CC on all testsNote4 Ground PIN11for V OL test on PIN6 V OH and I OS tests on PIN8 Open PIN11for V OL test on PIN8 V OH and I OS tests on PIN62Switching Characteristics at V CC e5V and T A e25 C(See Section1for Test Waveforms and Output Load)Symbol Parameter From(Input)Conditions Min Max Units To(Output)t PLH Propagation Delay Time Negative Trigger C L e15pFLow to High Level Output Input to C X e040nsTrue Output R X e5k Xt PHL Propagation Delay Time Negative TriggerHigh to Low Level Output Input to40nsComplement Outputt PW(MIN)Minimum True Output65ns Pulse Widtht PW Pulse Width R X e10k X3 083 76m sC X e1000pFC STRAY Maximum Allowable Pin13to GND50pF Wiring CapacitanceR X External Timing Resistor DM9625k XR X External Timing Resistor DM8650k X Operating Rules1 An external resistor R X and an external capacitor C X arerequired for operation The value of R X can vary between the limits shown in switching characteristics The value ofC X is optional and may be adjusted to achieve the re-quired output pulse width2 Output pulse width t PW may be calculated as follows t PW e K R X C X 1a0 7R X((for C X l103pF)K 0 34R X in k X C X in pF and t PW in ns(For C X k103pF see curve )3 R X and C X must be kept as close as possible to thecircuit in order to minimize stray capacitance and noise pickup If remote trimming is required R X may be split up such that at least R X(MIN)must be as close as possible to the circuit and the remote portion of the trimming re-sistor R k R X(MAX)b R X4 Set-up time(t1)for input trigger pulse must be l40ns(See Figure1)Release time(t2)for input trigger pulse must be l40ns (See Figure2)TL F 6610–2FIGURE1TL F 6610–3FIGURE25 Retrigger pulse width(see Figure3)is calculated as fol-lowst W e t PW a t PLH e K R X C X 1a0 7R X(a t PLHTL F 6610–4FIGURE3Typical‘‘K’’Coefficient Variation vs Timing Capacitance The multiplicative factor‘‘K’’varies as a function of the tim-ing capacitor C X The graph below details this characteris-ticTL F 6610–5 For further detailed device characteristics and output performance please refer to the NSC one-shot application note AN-3663Typical Performance CharacteristicsCapacitance For C X k 103pFTiming Resistance AndOutput Pulse Width vs TemperaturePulse Width vs Ambient Normalized OutputVoltagePulse Width vs Supply Normalized Output Operating Duty CyclePulse Width vsNormalized Output Resistance Pulse Width vs Timing Ambient TemperatureOutput Pulse Width vs TL F 6610–6Schematic DiagramTL F 6610–74Physical Dimensions inches(millimeters)14-Lead Ceramic Dual-In-Line Package(J)Order Number9601DMQB or DM9601JNS Package Number J14A14-Lead Molded Dual-In-Line Package(N)Order Number DM9601NNS Package Number N14A59601 D M 9601R e t r i g g e r a b l e O n e S h o tPhysical Dimensions inches (millimeters)(Continued)14-Lead Ceramic Flat Package (W)Order Number 9601FMQB or DM9601WNS Package Number W14BLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL SEMICONDUCTOR CORPORATION As used herein 1 Life support devices or systems are devices or 2 A critical component is any component of a life systems which (a)are intended for surgical implant support device or system whose failure to perform can into the body or (b)support or sustain life and whose be reasonably expected to cause the failure of the life failure to perform when properly used in accordance support device or system or to affect its safety or with instructions for use provided in the labeling can effectivenessbe reasonably expected to result in a significant injury to the userNational Semiconductor National Semiconductor National Semiconductor National Semiconductor CorporationEuropeHong Kong LtdJapan Ltd1111West Bardin RoadFax (a 49)0-180-530858613th Floor Straight Block Tel 81-043-299-2309。

Rev 2July 20051/12LM2901Low Power Quad Voltage Comparator■Wide single supply voltage range or dualsupplies for all devices: +2V to +36V or ±1V to ±18V■Very low supply current (1.1mA) independent of supply voltage (1.4mW/comparator at +5V)■Low input bias current: 25nA typ.■Low input offset current: ±5nA typ.■Input common-mode voltage range includes ground■Low output saturation voltage:250mV typ. (I O = 4mA)■Differential input voltage range equal to the supply voltage■TTL, DTL, ECL, MOS, CMOS compatible outputsDescriptionThis device consists of four independent precision voltage comparators. All these comparators were designed specifically to operate from a single supply over a wide range of voltages. Operation from split power supplies is also possible.These comparators also have a unique characteristic in that the input common-mode voltage range includes ground even though operated from a single power supply voltage.Order CodesPart Number Temperature RangePackage Packaging Marking LM2901N-40°C, +125°C DIP14T ubeLM2901N LM2901D/LM2901DT SO-14Tube or Tape & Reel2901LM2901PT TSSOP14(Thin Shrink Outline Package)T ape & Reel 2901LM2901YD/YDTSO-14 (automotive grade level)Tube or Tape & Reel2901YAbsolute Maximum Ratings LM29012/121 Absolute Maximum RatingsTable 1.Key parameters and their absolute maximum ratingsTable 2.Operating conditionsSymbol ParameterValue Unit V CC Supply Voltage±18 to 36V V ID Differential Input Voltage ±36V V IInput Voltage-0.3 to +36VOutput Short-circuit to Ground (1)1.Short-circuit from the output to V cc + can cause excessive heating and eventual destruction. The maximumoutput current is approximately 20mA, independent of the magnitude of V cc +P dPower Dissipation (2)DIP14 SO-14TSSOP142.Pd is calculated with T amb = +25°C, T j = +150°C andR thja = 80°C/W for DIP14 package R thja = 150°C/W for SO-14 package R thja = 175°C/W for TSSOP14 package1500830710mWT J Junction Temperature +150°C T stgStorage Temperature Range -65 to +150°C ESDHBM: Human Body Model (3)3.Human body model, 100pF discharged through a 1.5k Ω resistor into pin of device.1.5Kv MM: Machine Model (4)4.Machine model ESD, a 200pF cap is charged to the specified voltage, then discharged directly into the IC withno external series resistor (internal resistor < 5Ω), into pin to pin of device.100V CDM: Charged Device Model1500VSymbol ParameterValue Unit V CC Supply Voltage2 to 32±1 to ±16V V icm Common Mode Input Voltage Range 0 to (V CC + -1.5)V T operOperating Free-Air T emperature range-40 to +125°CLM2901Typical Application Schematics 2 Typical Application Schematics3/124/123 Electrical CharacteristicsTable 3.V CC + = 5V, V cc - = GND, T amb = 25°C (unless otherwise specified)Symbol ParameterMin.Typ.Max.Unit V ioInput Offset Voltage (1)T amb = +25°CT min ≤ T amb ≤ T max.1. At output switch point, VO ≈ 1.4V, RS = 0 with VCC + from 5V to 30V, and over the full input common-moderange (0V to VCC + –1.5V).1715mVI ioInput Offset Current T amb = +25°CT min ≤ T amb ≤ T max.550150nAI ibInput Bias Current (I I + or I I -) (2)T amb = 2.5VT min ≤ T amb ≤ T max.2.The direction of the input current is out of the IC due to the PNP input stage. This current is essentiallyconstant, independent of the state of the output, so no loading charge exists on the reference of input lines 25250400nAA vd Large Signal Voltage Gain(V cc = 15V ,R L =15k Ω, V o =1 to 11V) 25200V/mVI ccSupply Current (all comparators))V CC = +5V, no load V CC = +30V, no load1.11.322.5mAV icm Input Common Mode Voltage Range (V cc = 30V)(3)T amb = +25°CT min ≤ T amb ≤ T max.3.The input common-mode voltage of either input signal voltage should not be allowed to go negative by morethan 0.3V. The upper end of the common-mode voltage range is VCC + –1.5V, but either or both inputs can go to +30V without damage.00V CC +-1.5V CC +-2V V idDifferential Input Voltage (4)4.The response time specified is for a 100mV input step with 5mV overdrive.V CC +VV OLLow Level Output Voltage V id = -1V , I sink = 4mA T amb = +25°CT min ≤ T amb ≤ T max 250400700mVI oh High Level Output Current (V CC =V o =30V, V id = 1V)T amb = +25°CT min ≤ T amb ≤ T max0.11nA µA I sink Output Sink Current (V id = -1V,V o = 1.5V)616mA t reSmall Signal Response Time (5)(R L = 5.1k Ω connected to V CC + 5.Positive excursions of input voltage may exceed the power supply level. As long as the other voltage remainswithin the common-mode range, the comparator will provide a proper output state. The low input voltage state must not be less than –0.3V (or 0.3V bellow the negative power supply, if used) 1.3µst relLarge Signal Response Time (6)TTL Input (V ref = +1.4 V, R L =5.1k Ω to V CC +)Output Signal at 50% of final value Output Signal at 95% of final value6.Maximum values are guaranteed by design.5001ns µsFigure 3.Supply current versus supplyFigure 4.Input current versus supply voltageFigure 6.Response time for various input5/12Typical Applications LM29016/124 Typical ApplicationsLM2901Typical Applications7/12Figure 14.Low frequency op- amp with offsetFigure 15.Zero crossing detector (singleFigure 16.Limit comparatorFigure 17.Split-supply applications - zeroFigure 18.Crystal controlled oscillatorFigure parator with a negativeTypical Applications LM29018/12LM2901PACKAGE MECHANICAL DATA 5 PACKAGE MECHANICAL DATA9/12PACKAGE MECHANICAL DATA LM290110/125.2 SO-14 packageLM2901PACKAGE MECHANICAL DATA11/125.3 TSSOP14 packageRevision History LM290112/126 Revision HistoryDate RevisionChangesJan. 20021Initial release.July 200521 - PPAP references inserted in the datasheet see Table : Order Codeson page 1.2 - ESD protection inserted in T able 1 on page 2.Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics.All other names are the property of their respective owners© 2005 STMicroelectronics - All rights reservedSTMicroelectronics group of companiesAustralia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan -Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America。

MAX6100EURRev. ARELIABILITY REPORTFORMAX6100EURPLASTIC ENCAPSULATED DEVICESFebruary 14, 2003MAXIM INTEGRATED PRODUCTS120 SAN GABRIEL DR.SUNNYVALE, CA 94086Written byReviewed byJim Pedicord Bryan J. Preeshl Quality Assurance Quality Assurance Reliability Lab Manager Executive DirectorConclusionThe MAX6100 successfully meets the quality and reliability standards required of all Maxim products. In addition, Maxim’s continuous reliability monitoring program ensures that all outgoing product will continue to meet Maxim’s quality and reliability standards.Table of ContentsI. ........Device Description V. ........Quality Assurance InformationII. ........Manufacturing Information VI. .......Reliability EvaluationIII. .......Packaging Information IV. .......Die Information.....AttachmentsI. Device DescriptionA. GeneralThe MAX6100 is a low-cost, low-dropout (LDO), micropower voltage references. This three-terminal reference has an output voltage option of 1.8V. It features a proprietary curvature-correction circuit and laser-trimmed, thin-filmresistors that result in a low temperature coefficient of 75ppm/°C (max) and an initial accuracy of ±0.4% (max). This device is specified over the extended temperature range (-40°C to +85°C).This series-mode voltage reference draws only 90µA of supply current and can source 5mA and sink 2mA of load current. Unlike conventional shunt-mode (two-terminal) references that waste supply current and require an external resistor, this device offers a supply current that is virtually independent of the supply voltage (with only a 4µA/Vvariation with supply voltage) and does not require an external resistor. Additionally, this internally compensated device does not require an external compensation capacitor and is stable with load capacitance. Eliminating the external compensation capacitor saves valuable board area in space-critical applications. Low dropout voltage and supply-independent, ultra-low supply current makes this device ideal for battery-operated, high-performance, low-voltage systems.The MAX6100 is available in a tiny 3-pin SOT23 packages.B. Absolute Maximum RatingsItem Rating(Voltages Referenced to GND)IN -0.3V to +13.5VOUT -0.3V to (VIN + 0.3V)Output Short-Circuit to GND or IN (VIN < 6V) ContinuousOutput Short-Circuit to GND or IN (VIN = 6V) 60sOperating Temperature Range -40°C to +85°CStorage Temperature Range -65°C to +150°CLead Temperature (soldering, 10s) +300°CContinuous Power Dissipation (TA = +70°C)3-Pin SOT23 320mWDerates above +70°C3-Pin SOT23 4.0mW/°CII. Manufacturing InformationA. Description/Function: Low-Cost, Micropower, Low-Dropout, High-Output-Current, SOT23 Voltage ReferencesB. Process: B12 (Standard 1.2 micron silicon gate CMOS)C. Number of Device Transistors: 117D. Fabrication Location: California or Oregon, USAE. Assembly Location: Malaysia or ThailandF. Date of Initial Production: March, 2001III. Packaging InformationA. Package Type: 3-Pin SOT23B. Lead Frame: Copper or Alloy 42C. Lead Finish: Solder PlateD. Die Attach: Silver-filled EpoxyE. Bondwire: Gold (1.0 mil dia.)F. Mold Material: Epoxy with silica fillerG. Assembly Diagram: # 05-0901-0179H. Flammability Rating: Class UL94-V0I. Classification of Moisture Sensitivityper JEDEC standard JESD22-112: Level 1IV. Die InformationA. Dimensions: 44 x 31milsB. Passivation: Si3N4/SiO2 (Silicon nitride/ Silicon dioxide)C. Interconnect: Aluminum/Si (Si = 1%)D. Backside Metallization: NoneE. Minimum Metal Width: 1.2 microns (as drawn)F. Minimum Metal Spacing: 1.2 microns (as drawn)G. Bondpad Dimensions: 5 mil. Sq.H. Isolation Dielectric: SiO2I. Die Separation Method: Wafer SawV. Quality Assurance InformationA. Quality Assurance Contacts: Jim Pedicord (Manager, Reliability Operations)Bryan Preeshl (Executive Director)Kenneth Huening (Vice President)B. Outgoing Inspection Level: 0.1% for all electrical parameters guaranteed by the Datasheet.0.1% For all Visual Defects.C. Observed Outgoing Defect Rate: < 50 ppmD. Sampling Plan: Mil-Std-105DVI. Reliability EvaluationA. Accelerated Life TestThe results of the 135°C biased (static) life test are shown in Table 1. Using these results, the Failure Rate (λ) is calculated as follows:λ = 1 = 1.83 (Chi square value for MTTF upper limit)MTTFλ = 6.79 x 10-9λ = 6.79 F.I.T. (60% confidence level @ 25°C)This low failure rate represents data collected from Maxim’s reliability monitor program. In addition to routine production Burn-In, Maxim pulls a sample from every fabrication process three times per week and subjects it to an extended Burn-In prior to shipment to ensure its reliability. The reliability control level for each lot to be shipped as standard product is 59 F.I.T. at a 60% confidence level, which equates to 3 failures in an 80 piece sample. Maxim performs failure analysis on any lot that exceeds this reliability control level. Attached Burn-In Schematic (Spec. # 06-5630) shows the static Burn-In circuit. Maxim also performs quarterly 1000 hour life test monitors. This data is published in the Product Reliability Report (RR-1M).B. Moisture Resistance TestsMaxim pulls pressure pot samples from every assembly process three times per week. Each lot sample must meet an LTPD = 20 or less before shipment as standard product. Additionally, the industry standard 85°C/85%RH testing is done per generic device/package family once a quarter.C. E.S.D. and Latch-Up TestingThe RF24-7die type has been found to have all pins able to withstand a transient pulse of ±1500V, per Mil-Std-883 Method 3015 (reference attached ESD Test Circuit). Latch-Up testing has shown that this device withstands a current of ±250mA.Table 1Reliability Evaluation Test ResultsMAX6100EURTEST ITEM TEST CONDITION FAILURE SAMPLE NUMBER OFIDENTIFICATION PACKAGE SIZE FAILURES Static Life Test (Note 1)Ta = 135°C DC Parameters 160 0Biased & functionalityTime = 192 hrs.Moisture Testing (Note 2)Pressure Pot Ta = 121°C DC Parameters SOT 77 0P = 15 psi. & functionalityRH= 100%Time = 168hrs.85/85 Ta = 85°C DC Parameters 77 0RH = 85% & functionalityBiasedTime = 1000hrs.Mechanical Stress (Note 2)Temperature -65°C/150°C DC Parameters 77 0Cycle 1000 Cycles & functionalityMethod 1010Note 1: Life Test Data may represent plastic DIP qualification lots.Note 2: Generic Package/Process dataAttachment #1TABLE II. Pin combination to be tested. 1/ 2/1/ Table II is restated in narrative form in 3.4 below. 2/ No connects are not to be tested. 3/ Repeat pin combination I for each named Power supply and for ground (e.g., where V PS1 is V DD , V CC , V SS , V BB , GND, +V S, -V S , V REF , etc). 3.4 Pin combinations to be tested. a.Each pin individually connected to terminal A with respect to the device ground pin(s) connected to terminal B. All pins except the one being tested and the ground pin(s) shall be open. b. Each pin individually connected to terminal A with respect to each different set of a combination of all named power supply pins (e.g., V SS1, or V SS2 or V SS3 or V CC1, or V CC2) connected to terminal B. All pins except the one being tested and the power supply pin or set of pins shall be open.c.Each input and each output individually connected to terminal A with respect to a combination of all the other input and output pins connected to terminal B. All pins except the input or output pin being tested and the combination of all the other input and output pins shall be open.Terminal A (Each pin individually connected to terminal A with the other floating) Terminal B (The common combination of all like-named pins connected to terminal B) 1. All pins except V PS1 3/ All V PS1 pins 2. All input and output pinsAll other input-output pinsMil Std 883DMethod 3015.7Notice 8TERMINAL BTERMINAL APROBE(NOTE 6) R = 1.5k Ω C = 100pf。

E1U列•符合RoHS（无铅）•HC-49 / US短包•AT或BT切提供•电阻焊接密封•紧公差/稳定性•磁带和卷轴,绝缘片,和自定义引线长度可供选择NOTES H 2.50L 11.18W 4.70水晶_____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________电气特性频率范围频率公差/稳定性在工作温度范围温度范围工作温度范围老化（25°C）存储温度范围并联电容绝缘电阻驱动电平负载电容（C)3.579545MHz为50.000MHz为±50ppm /±100ppm（标准）,±30ppm/为±50ppm（AT切割只）,±15ppm/±30ppm（AT切割只）,±15ppm/±20ppm（AT切割只）,或±10ppm/±15ppm（AT切割专用）0°C到70°C,-20°C至70°C（AT切割只）,或-40°C至85°C（AT切割专用）±5ppm/年最大-40°C至125°C7pF最大500兆欧最低在100V1 mWatt最大18pF之（标准）,自定义C 10pF,或串联谐振等效串联电阻（ESR）,运作模式（MODE）,切频率范围3.579545MHz到4.999MHz5.000MHz到5.999MHz6.000MHz到7.999MHz8.000MHz到8.999MHz9.000MHz到9.999MHz10.000MHz到14.999MHz ESR (Ω)200最大150最大120最大90马克斯80马克斯70马克斯模式/剪切基本/ AT基本/ AT基本/ AT基本/ AT基本/ AT基本/ AT频率范围15.000MHz到15.999MHz16.000MHz到23.999MHz24.000MHz到30.000MHz24.000MHz到40.000MHz24.576MHz为29.999MHz30.000MHz到50.000MHzESR (Ω)60马克斯50马克斯40马克斯40马克斯150最大100最大模式/剪切基本/ AT基本/ AT基本/ AT基本/ BT三次泛音/ AT三次泛音/ AT.ECLIPTEK CORP.CRYSTAL E1U HC-49/US Short CR4111/07零件编码指南E1U A A 18 - 20.000M - I2 TR频率公差/稳定性A =±50PPM 25°C时,±0℃至100ppm70℃B =±50PPM,在25°C,±100ppm-20℃至70℃C =±50PPM,在25°C,±100ppm温度范围为-40°C至85°CD =±30ppm25°C时,±0℃50PPM至70℃E =±30ppm25°C时,为±50ppm -20℃至70℃F =±30ppm25°C时,为±50ppm -40°C至85°CG =±15ppm25°C时,±0℃为30ppm至70℃H =±15ppm25°C时,±30ppm-20℃至70℃J =±15ppm25°C时,±30ppm温度范围为-40°C至85°C K =±15ppm25°C时,±0℃为20ppm至70℃L =±15ppm25°C时,±20ppm-20℃至70℃M =±15ppm25°C时,±20ppm温度范围为-40°C至85°C N =±10ppm25°C时,±0℃为15ppm至70℃P =±10ppm25°C时,±15ppm-20℃至70℃包装选择空白=散装,A =盘,TR =卷带式可选项空白=无（标准）CX =自定义引线长度I2 =绝缘子标签频率负载电容S =系列X X = X X pF（自定义）动作模式/水晶切割A =基本/ A TB =三次泛音/ A TD =基本/ BT外形尺寸ALL DIM ENSIONS IN M ILLIM ET ERS 卷带尺寸ALL DIM ENSIONS IN M ILLIM ET ERS环境/机械特性PARAMET ER SPECIFICAT ION 标记规格1000 Pieces per ReelCompliant to EIA-468B精细泄漏测试总泄漏测试铅完整铅端接机械冲击耐焊接热抗溶剂可焊性温度循环振荡M IL-STD-883,方法1014,条件AM IL-STD-883,方法1014,条件CM IL-STD-883 2004方法锡2微米 - 6微米M IL-STD-202,方法213,条件CM IL-STD-202,方法210M IL-STD-202,方法215M IL-STD-883,2002年法M IL-STD-883,法1010M IL-STD-883,方法2007,条件A1号线：电子X X.X X X中号Frequency in MHz(5 Digits Maximum + Decimal).ECLIPTEK CORP.CRYSTAL E1U HC-49/US Short CR4111/07。