This product complies with the RoHS Directive (EU 2002/95/EC). Transistors with built-in Resistor UNR911xG Series Silicon PNP epitaxial planar type For digital circuits / e ■ Features ■ Package •Costs can be reduced through downsizing of the equipmenct and •Code reduction of the number of parts. SSMindi3-F3 •SS-Mini type package, allowing automatic insertion nthrough tape •Pin Name packing. e1: Base 2: Emitter e. a g ■ Resistance by Part Number u3: Collector sta •UNR9110G Markin6gL Symboln4(7R k1Ω) (R2) ■ Internal Connyeclcet ion n c ••UUNNRR99111112GG 66ABe1202 kkΩΩ 1202 kkΩΩ ct lifRe1 C •UNR9113G 6C 47 kΩ 47i kΩ duB ••UUNNRR99111154GG nt66ED 1100 kkΩΩnt47 kΩ r Pro R2 E u •UNR9116G 6F 4.7 kΩ  o •UNR9117Gi 6H o22 kΩ  g f pe n. n y o •••••••••••UUUUUUUUUUUMNNNNNNNNNNNRRRRRRRRRRR999999999991111111111111111111111aACLHMBDEF98GGGGGGGGGGGDisE6666666666ZOQXNPKYIMIcDisco0112442n44.t001....5i77272700 1 kn kk kkkkkΩkkuΩΩΩΩΩΩΩΩΩed ipnl1454114121ca0l..7007020710nu kkkkkkkkkedkΩΩΩΩΩΩΩΩΩΩde pls mamfanaoiillenntotd eewdindiniasasncnccocoenen t ttitgi ynnpuUueeeRddL ttoayynb.ppopeeuadt nlaatseosnti ic.ncfoo.rjpm/aetin/ •UNR911NG cEe/W 4.7 kΩ 47 kΩ win mic •UNR911TG nEY 22 kΩ 47 kΩ o e •UNR911VG ntena FC 2.2 kΩ 2.2 kΩ sit follww.s ai vi w ■ Absolute MMaximum Ratings Ta = 25°C se p:// Parameter Symbol Ratinega Uhntitt Pl Collector-base voltage (Emitter open) V −50 V CBO Collector-emitter voltage (Base open) V −50 V CEO Collector current I −100 mA C Total power dissipation P 125 mW T Junction temperature T 125 °C j Storage temperature T −55 to +125 °C stg Publication date: July 2007 SJH00222AED 1

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series ■ Electrical Characteristics T = 25°C ± 3°C a Parameter Symbol Conditions Min Typ Max Unit Collector-base voltage (Emitter open) V I = −10 µA, I = 0 −50 V CBO C E Collector-emitter voltage (Base open) V I = −2 mA, I = 0 −50 V CEO C B Collector-base cutoff current (Emitter open) I V = −50 V, I = 0 − 0.1 µA CBO CB E / Collector-base cutoff current (Emitter open) ICEO VCE = −50 V, IB = 0 e − 0.5 µA Emitter-base UNR9110G/9115G/ IEBO VEB = −6 V, IC = 0 − 0.01 mA cutoff current 9116G/9117G/911BG c (Collector UNR9113G/911AG d − 0.1 open) UNR9112G/9114G/911DG/ n − 0.2 911EG/911MG/911NG/911TG e UNR9111G a − g0e.5. a UNR911FG/911HG u st−1.0 e UNR9119G n cl −1.5 y UNR9118G/911CG/911LG/911VG n c −2.0 e Forward UNR911VG ehFE VCE = −10 V, IC = −5 mA ct l6if 20  current UNR9118G/911LG i u 20 d transfer UNR9119G/911DG/9t11FG/911HG t o 30 r ratio UNR9111Gn n r P 35 u UUNNiRR99111123GG//991111E4GG/ o ng fo ype 8600 on. COOouuMlttlppeuucttt ovvroo-ellattm9UU9UUUUaag1g1iNNNNNNt1ee1tR 6RRRe RRAlhrDGo999999 iGws1g/11111a91h/11111i-t910-luVDEN3e11lGreGGv7GG1Gav/eGtC/9e/i9l19o/lG1911ns11/5 19vB1GT1oBG/Gl1cGtMaeg/GecDiscVoVVCnEOtOi(HLsant)ued iIVVIVVVpCCnlCCCC ==cCCCCal ====−−=nu 11 −−−−e−d0055555d e mm VVVVp Vls,,,, AAm am,fVVVV ,,Va naoBBBBiIIil BBle====nn t = ==otd−−−− e 231e−−−0w..0din6d 155.in50i V.aVVV s5.asV3, nc,, ,n mc R, mRR wRcoRcioLALLA eLne n=n == t =t=t itgi 1 11 y1 1nn k kk pkΩuUkuΩΩΩΩeemeRiddLc ttoayynb.pp−1ope8e460uad.09t nlaatseosnti ic.ncf−−oo44 . 0rj600.00.2p2m5/aetin/VVV n CC B o L e Transition fUUreNNquRRe99Mn11ac1i1yA3nGtGena fT VVVCCCBBC === −−−151s0 0Ve V V, ,Vv, i IIBEEs i ===t −1fp15: mo/m lV/lAA, ,w,R ff Lw = == 2w 21.00 0sk0 Ω MMHHzz 18500 MHz UNR911AG VCB =e −a10 V, IEh t=t 2 mA, f = 200 MHz 80 UNR911CG VPl = −10 V, I = 2 mA, f = 200 MHz 150 CB E Input UNR9118G R −30% 0.51 +30% kΩ 1 resistance UNR9119G 1.0 UNR911HG/911MG/911VG 2.2 UNR9116G/911FG/911LG/911NG 4.7 UNR9111G/9114G/9115G 10 UNR9112G/9117G/911TG 22 UNR9110G/9113G/911DG/911EG 47 UNR911AG/911BG 100 2 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series ■ Electrical Characteristics (continued) T = 25°C ± 3°C a Parameter Symbol Conditions Min Typ Max Unit Emitter-base resistance UNR911CG R −30% 47 +30% kΩ 2 Resistance UNR911MG R/R 0.047  1 2 ratio UNR911NG 0.1 / UNR9118G/9119G e 0.08 0.10 0.12 UNR9114G 0.17 0.21 0.25 UNR911HG c 0.17 0.22 0.27 UNR911TG d 0.47 UNR911FG n 0.37 0.47 0.57 UNR911AG/911VG e 1.0 e. UNR9111G/9112G/9113G/911LG a 0.8 1.0 a1g.2 UNR911EG u 1.70 2.1e4 st2.60 UNR911DG n 3.7 c4l.7 5.7 y n c Note)Measuring methods are based on JAPANESE INDUSTRIAL STANDARD JIS C 7030 measurieng methods for transistors. Common characteristics chaert ct lif i u PT  Tat t od r 150 n n r P u o ()Total power dissipation P mWT M11207520505050 Amabi4ei0nt Dtemip8e0ratures T12a 0 (°C)cDi16s0coontinued ipnlcalnuedde pls mamfanaoiillenntotd eewdindininasasgncnc fcocoenen t ttitgi ynynpuUpueeeeRddL ttoayynb.ppopeeuadt nlaatseosnti ic.ncfoo.rjpm/aetin/on. Characteristics charts of cUeN/R9110G win mic n o e ()Collector current I mAC−−−−−−11208642000000 IB = −−1 0.0.−9 m 0m.A8A ImMC−A a0i.7 n−m t V0A.e6−C nm E0A.a5− Tm0a.−−− A4= 000 m2...1235A m m°mCAAA ()or-emitter saturation voltage V VCE(sat)−−1−01−1 0−1012 PleVasCEe2( 5s°avCti) hsitttT fpaI :=Co/ lI7/lC5 °/w CIB w= 1w0.s Forward current transfer ratio hFE123400000000 hFE  ICTaV 2−=52C °E75C 5°=C° C–10 V ollect −25°C C 00 −2 −4 −6 −8 −10 −12 −10 −−210 −1 −1 −10 −102 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 3 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O ()C pFob 65 fIT E=a = =1 0 2M5°HCz −104 VTaO = = 2 −55° CV −102 TVaO = = 2 −5 °0C.2 V ollector output capacitancebase, input open circuited) 432 µ()Output current I AO−−−11100023 ce/()Input voltage V VIN−d1−0−1 −101 Cn n mo 1 m e Co e. ( −010 −1Collecto−-b1ase voltag−e1 0 VCB (V)−102 −−10a.4 −0In.6put −v0o.l8tage− 1V.0IN (V−u1).2 −1.4 −10 −−210 −1 Outpu−t1 ec usrrtenat g IO−1 0(mA) −102 n cl y n c e Characteristics charts of UNeR9111G ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mAC−−M−−114286000000Colle−ac2toir-e−mID4B i=tt ie−r1− .6vn0o mltAat−−gs8 e0 .T9 Va m −−−−−−−−=−C 00000000A 1E2........061 7328545 (°mmmmmmmmcVCDAAAAAAAA−i)1s2coont()Collector-emitter saturation voltage V ViCE(sat)−−n−11−001u−1 0−−−10212e10nd − 1ipnlCt−2coal5l°lneCuce−dt2o1d5er °p cClsu mamfrraenaoiilnletnn t o−tdI1C ee0 w TIdin(dCinami /n=as aAsI B7gnc n)c5 =°fco cCo10oe−nen t1 tuti0tgir2 yn ynpuUpuPreeeeRoForward current transfer ratio hddL FE ttoa11yyn4826b.p00000p−ope1VeuaCdEt n=Cl a−oa1lts0le eoVc−ts1noti0r icc.unrcfreoon.rtj − Ip1mC/0 2 ae(tTmian A−/=2o25 )75°n5°C.°CC−103 C  V ce/ I  V win mic V  I ob CB n O IN o e IN O ()C pFob 65 aintenafIT E=a = =1 0 2M5°HCz −104 visit folVTlaO = w= 2−5w5° CVw.s −102 TVaO = = 2 −5 0°C.2 V Collector output capacitancen base, input open circuited) 432 M µ()Output current I AO−−−11100023 Please http:// ()Input voltage V VIN−1−0−1 −101 mo 1 m o C ( −010 −1 −1 −10 −102 −−10.4 −0.6 −0.8 −1.0 −1.2 −1.4 −10 −−210 −1 −1 −10 −102 Collector-base voltage VCB (V) Input voltage VIN (V) Output current IO (mA) 4 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR9112G I  V V  I h  I C CE CE(sat) C FE C −160 −102 400 ()Collector current I mAC−−−1428000 IB = −1.0 mA− −0 .09.mT8maA− =−−−−−A 0 000002.7.....565432m°mmmmmCAAAAAA ()mitter saturation voltage V VCE(sat)−1−0−1 −101 n25°cC ITCa e/= I B7 =5° /1C0 ward current transfer ratio hFEd123000000 Ta −V=22 5C75E°5° C=°CC −10 V − 0.1mA ctor-e a−25°C eFor ge. 00 −2 −4 −6 −8 −10 −12 Colle−10 −−210 −1 −1 −10 u−102 0−1 −1e0 sta −102 −103 Collector-emitter voltage VCE (V) n Collector current IC (mA) Colyleccltor current IC (mA) n c e Cob  VCB e iIO  VIN uct lif VIN  IO ()C pFob65 ntfIT E=a = =1 0 2M5°HCz −104 nt TVaO = = 2 −55° CVur Prod−102 VTaO = = 2 −5 0°C.2 V Collector output capacitance(Common base, input open circuited) M−0432110 −C1ollaectoir−-b1Dasei voltag−e1 s0 VCB (Vc)D−i10s2coontµ()Output current I AiOn−−−11u−100−1023e0.d4 ipnl−c0alI.n6nupuedt −dve0 po.ls8l tmamfaganaoieil− le1 nVn.t0otdI Neew d ind(in−iVna1sas).2gncnc fcocooe−nen t1 tti.tgi4 ynynpuUpueeeeR()Input voltage V VddL IN −−tto11−ay00yn−1 −−−b.p1021p10opee −1uadt nlOaautstpeou−snt1ti c icu.rnrcefnoot. r jIO−pm1 / 0(ametiAn/o) n.−102 Characteristics charts of cUeN/R9113G win mic n o e ()Collector current I mAC−−−−1142860000 IMCIB a i= −n t1V.0e Cm−nEA 0a−.−9 0− 0m. 8T.0−−−−7A .a 00m00 6 m=.... 342A5m A2 mmmmA5°AAAAC ()mitter saturation voltage V VCE(sat)−−1−01−1 0−1012 PleVa2sC5E°eC( savti) hsittt fpI:TCIo/Cla/ l/= I w7B 5=°w C10w.s ward current transfer ratio hFE123400000000 hFE  ICVCTEa =−=2 2 −575°15°C0°CC V or-e −25°C For − 0.1 mA ct e oll 00 −2 −4 −6 −8 −10 −12 C−10 −−210 −1 −1 −10 −102 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 5 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O ()C pFob65 fIT E=a = =1 0 2M5°HCz −104 TVaO = = 2 −55° CV −102 VTaO == 2−5 0°C.2 V ollector output capacitancebase, input open circuited) 432 µ()Output current I AO−−−11100023 ce/()Input voltage V VIN−d1−0−1 −101 Cn n mo 1 m e Co e. ( 0 −1a −10 −2 g −10 −C1ollector−-b1ase voltag−e1 0 VCB (V)−102 −0.4 −0In.6put −v0o.l8tage− 1V.0IN (V−u1).2 −1.4 −10 −1 Outpu−t1 ec usrrtenat IO−1 0(mA) −102 n cl y n c e Characteristics charts of UNeR9114G ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mAC−−−−11M4286000000Colle−ca2tIoBr i=-e −−m41D.i0tt emir−A 6vnolta−g−t8e s0 T−. 9V a0 −−−−−−−m=.−C8 0000000 1AE2 .......m05316 7245 °A(mmmmmmmCVcAAAAAAA−D)i12scoon()tCollector-emitter saturation voltage V ViCE(sat)−−n−11−001u−1 0−−−102121e0n d− 1i−pnClt25ocal°lClneuc−etd2o15dre° pCclsu mramfraenaoinillten n t−otId1C eT0e w Iad(iCn dinm= i/n as7IaAsB5gnc )n°c= Cfc oc1o0oe−nen 1t tuti0tgir2 yn ynpuUpuPreeeeRForward current transfer ratio hoddLFE tto1234ayy0000nb.00000pp−1opeeuadt nClaoaltsleeoc−t1son0tir icc.unrcfreoon.rtj − IpT1Cm/0aV 2− 2 =a5(e2Ct m°E57iC n°5=AC/°o −C)1n0. V−103 C  V ce/ I  V win mic V  I ob CB n O IN o e IN O ()C pFob65 aintenafIT E=a = =1 0 2M5°HCz −104 visit foTVllaO = w= 2 −5w5° CVw.s −103 VTaO == 2−5 0°C.2 V Collector output capacitancen base, input open circuited) 432 M µ()Output current I AO−−−11100023 Please http:// ()Input voltage V VIN−−1−10102 mo 1 m o C (−010 −1 −1 −10 −102 −−10.4 −0.6 −0.8 −1.0 −1.2 −1.4 −10 −−110 −1 −1 −10 −102 Collector-base voltage VCB (V) Input voltage VIN (V) Output current IO (mA) 6 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR9115G I  V V  I h  I C CE CE(sat) C FE C −160 −102 400 ()Collector current I mAC−−−1428000 IB = −1.0 mA − 0T.−9a −−−−−−0=m . 000000 8A2...... 7326545m °mmmmmmACAAAAAA ()mitter saturation voltage V VCE(sat)−1−0−1 −101 n25°cC TICa /=e I 7B 5=° C/10 ward current transfer ratio hFEd123000000 Ta =V −27C255E5°° °=CCC −10 V − 0.1 mA or-e eFor e. ct a g 00 −2 −4 −6 −8 −10 −12 Colle−10 −−210 −1 −25°C−1 −10 u−102 0−1 −1e0 sta −102 −103 Collector-emitter voltage VCE (V) n Collector current IC (mA) Colyleccltor current IC (mA) n c e Cob  VCB e iIO  VIN uct lif VIN  IO () C pFob65 ntfIT E=a = =1 0 2M5°HCz −104nt TVaO = = 2 −55˚C Vur Prod−102 VTaO == 2−5 0°C.2 V Collector output capacitance (Common base, input open circuited) M−0432110 −1Coallecitor−-D1basie voltag−e1s 0 VCB (VcD)−i1s02coonµt()Output current I AiOn−−−u11−100−10e230d.4 ipnl−ca0Iln.6nupuedt d−ve p0ols.l8 tmaamfganaoeiil− le n1Vnt.otd0IN ee w dind(iniV−nas1as).g2ncnc fcocooene−n t 1ttitgi.4 ynynpuUpueeeeR()Input voltage V VddLIN −− tt11o−a00yy−1n −−−10b.p211p0ope e−1uadt nlOaautstpeou−st1n tic uicr.rnecfnoto .r jIO−p1 m /0(maetAin/)on.−102 Characteristics charts of cUeN/R9116G win mic n o e ()Collector current I mAC−−−−1142860000 IIBMC = a i−1n.0 tV meCAn−E 0a−.9T 0 am. −−−−−−8=A 000000 m2......5643275A °mmmmmmCAAAAAA ()mitter saturation voltage V VCE(sat)−−1−01−1 0−1012 PleVasCEe2( 5s°avCti) hsittt fpTI:CaIo/ Cl=/ l/ 7 Iw5B° =Cw 10w.s ward current transfer ratio hFE123400000000 hFE  ITCa V=2− 52C7°E55C °=°CC −10 V or-e For − 0.1 mA ect −25°C oll 00 −2 −4 −6 −8 −10 −12 C−10 −−210 −1 −1 −10 −102 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 7 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O ()C pFob 65 fITE =a = =1 0 2M5°HCz −104 TVaO = = 2 −55° CV −102 VTaO = = 2 −5 0°C.2 V Collector output capacitancen base, input open circuited) 432 µ()Output current I AO−−−11100023 nce/()Input voltage V VIN−1d−0−1 −101 mo 1 m e Co e. ( −010 −C1ollector−-b1ase voltag−e1 0 VCB (V)−102 −−10a.4 −0In.6put −v0o.l8tage− 1V.0IN (V−u1).2 −1.4 −10 −−210 −1 Outpu−t1 ec ursrtenat g IO−1 0(mA) −102 n cl y n c e Characteristics charts of UNeR9117G ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mAC−−−−−−11M20864200000000Colle−ac2tIoBr i=-e −−m41D−.i −00tt .−0m9ei −.0 r8−mA .− 0 67vm .An0− 6om.A 05lmAt. a4mA− gtmA8esA T Va−−− =−C 000 1E2...0 3215 (°mmmVCcAAA−D)i12scoont()Collector-emitter saturation voltage V ViCE(sat)−−n−11−001u−1 0−−−10212e10nd − 1ipnlCtcoalllneuce−dto1der p clsu2 −mam5fr2r°5aeCnaoi°ilnCletnn t o−tdI1C ee0 w ITdin(Cdinmai /na= saIAs B7gnc n)c 5=fc° oco1C0oe−nen t1 tuti0tgir2 yn ynpuUpuPreeeeRoForward current transfer ratio hddL FE ttoa1234yyn0000b.p00000p−op1eeuadt nClaoaltsleeoc−t1snoti0r icc.unrcfreoon.rtj − ITp1mC/a0V 2 −2 =ae5(C2t mE°75iC n5°=A/C°o −C)1n0. V−103 C  V ce/ I  V win mic V  I ob CB n O IN o e IN O ()C pFob65 aintenafIT E=a = =1 0 2M5°HCz −104 visit folTVlaO = w= 2 −5w5° CVw.s −102 VTaO = = 2 −5 0°C.2 V ollector output capacitancebase, input open circuited) 432 M µ()Output current I AO−−−11100023 Please http:// ()Input voltage V VIN−1−0−1 −101 Cn mo1 m o C (0 −1 −10 −2 −10 −1 −1 −10 −102 −0.4 −0.6 −0.8 −1.0 −1.2 −1.4 −10 −1 −1 −10 −102 Collector-base voltage VCB (V) Input voltage VIN (V) Output current IO (mA) 8 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR9118G I  V V  I h  I C CE CE(sat) C FE C −240 −102 160 ()Collector current I mAC−−−−−2110628400000 IB = − 1−.0 0 m.−9A 0m.8A m−T A0a.−−−−− 7= 00000 m2.....453265A °mmmmmCAAAAA ()or-emitter saturation voltage V VCE(sat)−1−0−1 −101 n25°CcTICa =/e I 7B5 =° C/10 eForward current transfer ratio hFEd1482000 e.VT−2Ca25E 5=° =°C 7C −51°C0 V 00 −2 −4 −6 −8 −− 01.01 mA−12 Collect−10 −−210a −1 −25°C−1 −10 u−102 0−1 −1e0 stag−102 −103 Collector-emitter voltage VCE (V) n Collector current IC (mA) Colyleccltor current IC (mA) n c e Cob  VCB e iIO  VIN uct lif VIN  IO ()C pFob65 ntfIT E=a = =1 0 2M5°HCz −104nt TVaO = = 2 −55° CVur Prod−102 VTaO = = 2 −5 0°C.2 V Collector output capacitance (Common base, input open circuited) M−0432110 −C1olalectior−-bD1asei voltag−e1 s0 VCB (Vc)D−i10s2coonµt()Output current I AiOn−−−u11−100−10e230.d4 ipnl−ca0Iln.6npuuedt d−ve p0ols.l8 tmaamfganaoeiil− l en1Vnt.otd0IN ee w din(diniV−nas1as).g2ncnc fcocooene−n t 1ttitgi.4 ynynpuUpueeeeR()Input voltage V VddL IN −−tto11−ay00y−n1 −−−b.p1021p10opee −1uadt nlOaautstpeou−snt1ti c icu.rnrcefnoot. r jIO−p1m / 0(ametiAn/o) n.−102 Characteristics charts of cUeN/R9119G win mic n o e ()Collector current I mAC−−−−−−2211406284000000 IB I=MC − a1i−.0 0n .m t9−V A0me.C8An E−m a0A.T7a −−−−m= 0000 A2....43655 °mmmmCAAAA ()or-emitter saturation voltage V VCE(sat)−−1−01−1 0−1012 PleVa2sC5°EeC( savti) hsittt fpI:CTIo/Cla/ l/= I w7B 5=°w C10w.s Forward current transfer ratio hFE1148260000 hFE  ICTV−a2 2C=5E5° 7 C°=5C °−C10 V − 0.2 mA ect −25°C 00 −2 −4 −6 −8 −− 01.01 mA−12 Coll−10 −−210 −1 −1 −10 −102 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 9 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O ()C pFob 65 fIT E=a = =1 0 2M5°HCz −104 TVaO = = 2 −55° CV −102 VTaO = = 2 −50°.C2 V ollector output capacitancebase, input open circuited) 432 µ()Output current I AO−−−11100023 ce/()Input voltage V VIN−d1−0−1 −101 Cn n mo 1 m e Co e. ( 0 −1a −10 −2 g −10 −1 −1 −10 −102 −0.4 −0.6 −0.8 −1.0 −1.2 −1.4 −10 −1 −1 a −10 −102 Collector-base voltage VCB (V) Input voltage VIN (Vu) Output ec usrrtent IO (mA) n cl y n c e Characteristics charts of UNeR911AG ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mAC−M−−−−1246800000000Colleac−t2oir-emD−it4tier vno−lt6atgIseB = TV−−−− −−a C0000 8=0E.... 3241.2 5 5mmmm( cm°VAAAACDA−)i1s0coon()Collector-emitter saturation voltage V VtiCE(sat)−−n11−00u−1 −−0121−e1nIdC i/ −IpnCBl2t 5=oca°l l1Cle20nu5ce°tdoCdre pclsuT −mramaf1 r=a0enaoi nil7lt5en n° toItCdC e ew d(indinminasAasgnc)nc fc−oco1oe0nen t2 tutitgir yn ynpuUpuPreeeeRoForward current transfer ratio hddL FE ttoay2112yn55050−b.p000000p10opee −uad1t nlCaoatsl−l1eeoctsnotir icc.u−nrcf1r0eoon.rjt pImC/V −a TeC(1tEmai0 n==2−A/o 227−)5551n°°°0.CCC V−103 C  V ce/ I  V win mic V  I ob CB n O IN o e IN O ollector output capacitance()base, input open circuited) C pFob 10 MaintenafT =a =1 2M5°HCz µ()Output current I AO−−−11100023 Please vihsittt fp:o/VTl/alO = =w 2 −5w5° CVw.s ()Input voltage V VIN−−11002 VTaO = = 2−5 °0C.2 V Cn o m m o C ( 1 −1 −1 0 −10 −20 −30 −40 −0.4 −0.8 −1.2 −1.6 −10 −1 −1 −10 −102 Collector-base voltage VCB (V) Input voltage VIN (V) Output current IO (mA) 10 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR911BG I  V V  I h  I C CE CE(sat) C FE C ()Collector current I mAC−−−−146800000 IB =T −−−−a 0000=.... 32452 5mmmm°AAAAC ()mitter saturation voltage V VCE(sat)−1−0−1 −011 IC / IB =2 150°CnTa = 75c°C e/ward current transfer ratio hFEd412300000000 VTCa E=− = 227 55−5°°°1CCC0 V −20 − 0.1 mA ector-e a−25°C eFor ge. 0 Coll−10 −2 u 0 sta 0 −2 −4 −6 −8 −10 −10 −1 −1 −10 −102 −10 −1 −1 e −10 −102 −103 Collector-emitter voltage V (V) n Collector current I (mA) Colleccltor current I (mA) CE C y C n c e Cob  VCB e iIO  VIN uct lif VIN  IO Collector output capacitance() (Common base, input open circuited) C pFobM1100 Colalec−ti1o0r-Dbasei −v2no0ltagtes fTV− =a3 C =01B 2 M 5(°HVCcz)Di−4s0coon()tOutput current I mAiO−−n11−00u−1 −−−10e210n.d4 ipnltcIalnpnuu−edt0 v.d8eo plslt maamfgaenaoiil leVnnt−otIdN1 e.e 2w VTd(indinVaOi n= as)=as 2 gnc−nc5 5°fcoc CoVoen−en t 1tutitgi.6r yn ynpuUpuPreeeeR()Input voltage V VoddINL − dtt−1o−0a1yy−1n 0−−10b.p121p0ope e−1uadt nlOaautstpeou−1stn tic uicr.rnecfnoto . rjIO−p 1m /VT0(maaOe t= A=i n 2−/)o5 °0Cn.2. V−102 Characteristics charts of cUeN/R911CG win mic n o e ()Collector current I mAC−−−1284000 IMC ain tVeCnEIaB =T−−−−−−− −a 00000001=........ 345678902 5mmmmmmmm°CAAAAAAAA ()mitter saturation voltage V VCE(sat)−10− −11 −2P5l2°C5e°CVasCEe( Tsaav ti=) hs7it5tt° C fpI:CIo/Cl/ l/ IwB =w 10w.s ward current transfer ratio hFE11228260400000 Ta = 75°ChFE  ICV2−52C°5EC °=C −10 V − 0.2 mA or-e For 40 ct − 0.1 mA olle 00 −2 −4 −6 −8 −10 C−10 −2−1 −10 −102 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 11 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O 102 −102 −10 ()C pFob fT =a =1 2M5°HCz VTaO = = 2 −55° CV VTaO = = 2−5 °0C.2 V ollector output capacitancebase, input open circuited) 10 ()Output current I mAO−10 ce/()Input voltage V VINd−1 Con n m m (Co 1 −1a e−10 −1 ge. 0 −10 −20 −30 −40 0 −0.4 −0.8 −10 −1 −1 a −10 −102 Collector-base voltage VCB (V) Input voltage VIN (Vu) Outpute c usrtrent IO (mA) n cl y n c e Characteristics charts of UNeR911DG ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mACM−−−−−−65432100000000Colle−ac2tIoBi r=- e−−−Dm 4 01−.i.90t −0t i me −m.04r− A.A0 86mnv. 5−moA ml0At−.aA6t− g 0sm8e.7 TA mVa −−−=A−C 00012E...05 321 ˚ (cmmmCVDAAAi−)1s2coont()Collector-emitter saturation voltage V ViCE(sat)n−−−11u−001−1− 0−−e101212n0d− 1ipnltC−caol2l5nlu°eCced2−to51de°r pC lsc umamfrarnaoieilnlentnt ot d−TI e1Ceaw0 d=iI ndin(C im7 na/s5a sIA°gBncCnc )=fcoc o1oe0ne−n t t1utitgi0r y2n ynpuUpuPreeeeRodForward current transfer ratio hdL FE ttoay11yn4826b.p00000p−ope1euadt nlCaaotslleeoc−stn1oti0r icc.uncrfreoon.rjt − pIm1/C0V T2−a2 e5(2taC mi°E5=nC ° =/Ao7C 5−)n°1.C0 V−103 C  V ce/ I  V win mic V  I ob CB n O IN o e IN O () pFCob65 aintenafIT E=a = =1 0 2M5°HCz −104 visit folVTlaO w= = 2 −w55° CwV.s −102 TVaO = = 2 −5 °0C.2 V ollector output capacitancebase, input open circuited) 432 M µ()Output current I AO−−−11100023 Please http:// ()Input voltage V VIN−1−0−1 −101 Cn mo 1 m o C ( 0 −1 −10 −2 −10 −1 −1 −10 −102 −1.5 −2.0 −2.5 −3.0 −3.5 −4.0 −10 −1 −1 −10 −102 Collector-base voltage VCB (V) Input voltage VIN (V) Output current IO (mA) 12 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR911EG I  V V  I h  I C CE CE(sat) C FE C ()Collector current I mAC−−−−−6543200000 IB = −−1 0.0.9− mm 0AA.8 m−A 0.−−4 00m..−75A 0mm.6AA mATa =−−− 0002...5123° mmmCAAA ()mitter saturation voltage V VCE(sat)−−1−01−1 0−1012 n25°CcTIaC =e/ I7B5 =°C/ 10 ward current transfer ratio hFEd123400000000 TaV 2=5C E°7C 5=° C−10 V −10 ctor-e a−25°C eFor ge.−25°C 00 −2 −4 −6 −8 −10 −12 Colle−10− −120−1 −1 −10 u−102 0−1 −1e0 sta −102 −103 Collector-emitter voltage V (V) n Collector current I (mA) Colleccltor current I (mA) CE C y C n c e Cob  VCB e iIO  VIN uct lif VIN  IO ()C pFob65 ntfIT E=a = =1 0 2M5°HCz −104nt TVaO = = 2 −55° CVur Prod−102 VTaO = = 2 −5 °0C.2 V Collector output capacitance (Common base, input open circuited) M−0432110 −C1olalectior−-Db1asei voltag−e1s 0 VCB (Vc)D−i1s02coontµ()Output current I AiOn−−−u11−100−10e231d.5 ipnl−ca2Iln.0nupuedt d−ve p2ols.l5 tmaamfganaoieil− le n3Vnt.otd0I Nee w dind(iniV−nas3as).g5ncnc fcocooene−n t t4titgi.0 ynynpuUpueeeeRd()Input voltage V VdL IN −−tto11a−y00yn−1 −−−b.p1021p10opee −1uadt nlaOatsuteop−usn1tti cicu.rnrcfenoot.r j I−Opm1/ 0(aemtinA/o)n.−102 Characteristics charts of cUeN/R911FG win mic n o e ()Collector current I mAC−−−−−−2211406284000000 IB = −I1M−C.0 0 a .mi9− A mn0 t.A−8V 0em.C7A−nE m0a.A6T ma −−−−=A 0000 2....23455 °mmmmCAAAA ()ector-emitter saturation voltage V VCE(sat)−−1−01−1 0−1012 P−l25e°CVasCEe2( 5s°avCti) hsittt fpI:CTo/Il/Cal =/ wI7B5 =°wC 10w.s Forward current transfer ratio hFE1148260000 hFE  IC V2−T52Ca °E5=C °= C7 −5°1C0 V 00 −2 −4 −6 −8 −− 01.01 mA−12 Coll−10− −120 −1 −1 −10 −102 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 13 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O ()C pFob65 fIT E=a = =1 0 2M5°HCz −104 TVaO = = 2 −55° CV −102 VTaO = = 2 −5 0°C.2 V Collector output capacitancemon base, input open circuited) 4321 µ()Output current I AO−−−11100023 nce/()Input voltage V VIN−1d−0−1 −101 Com e e. (−010 −1 −1 −10 −102 −−10a.4 −0.6 −0.8 −1.0 −1.2 −1.4 −10 −−210 −1 −1 ag−10 −102 Collector-base voltage VCB (V) Input voltage VIN (Vu) Output ec ursrtent IO (mA) n cl y n c e Characteristics charts of UNeR911HG ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mAC−−−−−−11M20864200000000Colle−ac2tori-e−m4Ditteir− 6vnolta−gItB8es =T Va− −−−−=− C0 0000 1E.25....0 23415 m (°mmmmVCcAAAAAD−)i12scoont()Collector-emitter saturation voltage V ViCE(sat)−−n−11−00u1−1 0−−10e212−1nd ipnCltcoalllneuc−2edt51o°0Tder−C pa2c ls=5u m °amr7fCr5aenao°iinlCletn n−t otId1C e0e w2I di(Cndinm i/na saIAsBgnc )nc= fc oc1o0oe−nen t1 tuti0tgir3 yn ynpuUpuPreeeeRodForward current transfer ratio hdL FE ttoay2211yn406284−b.p0000000p10opee −uad1t nlCaaotslleeoc−stn1oti ric c.uncrfTr2eo5ao n.°=rjCt 7− p5Im1/C°V0C a −eC(t2Emin5 =/°Ao C−)n1.0 V−102 C  V ce/ V  I win mic ob CB n IN O o e ()C pFob65 aintenafIT E=a = =1 0 2M5°HCz −102 visit fVTolaO l= = w2 −5 0°wC.2 wV.s put capacitanceopen circuited) 43 M ()ge V VIN−−110 Please http:// Collector outn base, input 2 Input volta−10 −1 mo 1 m o C ( 0−1 −10 −102 −10 −−210 −1 −1 −10 −102 Collector-base voltage VCB (V) Output current IO (mA) 14 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR911LG I  V V  I h  I C CE CE(sat) C FE C ()Collector current I mAC−−−−−22114062800000 IBT =a =−−− 1002...5086° mmmCAAA ()mitter saturation voltage V VCE(sat)−−1−01−1 0−1021 nT2a5 =°C 75c°C−25°CIC /e IB = /10 ward current transfer ratio hFEd22114062800000 25°CTa = 75°C VCE = −10 V −40 − 0.4 mA or-e eFor 40 −25°C e. ct a g 00 –2 –4 –6 –8 −– 01.02 mA–12 Colle−10 −2−1 −10 −102 u−103 0−1 −1e0 sta −102 −103 Collector-emitter voltage V (V) n Collector current I (mA) Colleccltor current I (mA) CE C y C n c e Cob  VCB e iVIN  IO uct lif ()C pFob 65 ntfIT E=a = =1 0 2M5°HCz −102 nt TVaO = = 2 −5 °0C.2 Vur Prod Collector output capacitance (Common base, input open circuited) M04321−1 Colalectio-bDasei −v1o0ltage s VCB (V−c)1D0i2scoont()Input voltage V ViIN−−n11−00u−1 −−−10211e0d − 1ipnlOcaluntupue−dt1 dec pulsr mramfeannaoiitl le nIntO−otd1 e e0(wmdindiniAnasas)gncnc fcocooe−nen t1 tti0tgi2 ynynpuUpueeeeRddL ttoayynb.ppopeeuadt nlaatseosnti ic.ncfoo.rjpm/aetin/on. Characteristics charts of cUeN/R911MG win mic n o e ()Collector current I mAC2211406284000000 IB I=MC −− a1 i0.0.−9n m t0mVA.−8eA 0Cm.n−7EA 0 am.6TA am −−−−=A 0000 2....35245 °mmmmCAAAA ()or-emitter saturation voltage V VCE(sat)−−11−00−1 −−1021 Pl−e22V5a5°°CsCCTEea( s=av ti7)5 hs°itCtt fpI:Co/Il/Cl / wIB =w 10w.s Forward current transfer ratio hFE123540000000000 hFE  ICVT2−C5a2 E°5= C°= 7C 5−°1C0 V ct − 0.1 mA olle 00 −2 −4 −6 −8 −10 −12 C−10 −3−1 −10 −102 −103 0−1 −10 −102 −103 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 15 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series C  V I  V V  I ob CB O IN IN O Collector output capacitance()on base, input open circuited) C pFob108642 fIT E=a = =1 0 2M5°HCz µ()Output current I AO−−−−11110000234 ncTVaOe == 2−55/° CV ()Input voltage V VIN−d−1−01−1 0−1012 VTaO = = 2 −5 0°C.2 V m m e Co e. (−010 −1 −1 −10 −102 −−10a.4 −0.6 −0.8 −1.0 −1.2 −1.4 −10 −−210 −1 −1 ag−10 −102 Collector-base voltage VCB (V) Input voltage VIN (Vu) Output ec usrrtent IO (mA) n cl y n c e Characteristics charts of UNeR911NG ct lif I  V iV  I u h  I C CE CE(sat) C d FE C ()Collector current I mAC−−−−M1125500000000Colle−ac2tori-e−m4Ditteir− 6vnolta−gtI8esB =T V −−−−−−−−−a− − =C10000000001 E..........203245678910 5 (mmmmmmmmmm°VcCAAAAAAAAAAD−)i12scoon()tCollector-emitter saturation voltage V ViCE(sat)−−n11−00u1− −−0−1e211nd i−p2nCl2t55o°ca°lClClneuc−et1dTo0adr e= pc ls7u m5ramf°rCaenaoinillten −n totI1dC 0ee 2w Id(iCndinm i/n asIAasBgn c)nc= fcoc1o0−oenen1 t t0utitgi3r yn ynpuUpuPreeeeRodForward current transfer ratio hdL FE ttoay32211yn050505b.p0000000p–ope1euadt nlCaoatslleeoc–tsn1oti0r icc.uncrfreoon.rjt − pIm1TC/0Va a 2 e=(−Ctmi E227n 55=/5Ao°° °−CC)Cn1.0 V−103 C  V ce/ I  V win mic V  I ob CB n O IN o e IN O Collector output capacitance()n base, input open circuited) C pFob65432 MaintenafIT E=a = =1 0 2M5°HCz µ()Output current I AO––––11110000234 Please vihsittt fp:o/l/TVlaO = w= 2 −w55° CVw.s ()Input voltage V VIN–1–−01−1 0−1012 VTaO = = 2 −5 °0C.2 V o m 1 m o C ( 0–1 –10 –102 –1−0.4 −0.6 −0.8 −1.0 −1.2 −1.4 −1.6 –10 –−210 −1 −1 −10 –102 Collector-base voltage VCB (V) Input voltage VIN (V) Output current IO (mA) 16 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series Characteristics charts of UNR911TG I  V V  I h  I C CE CE(sat) C FE C ()Collector current I mAC−−−11505000− 0.8 m−A 0.9 mIBA = −1.0 mA T−−−−−a 00000 =.....67435 2 mmmmm5°AAAAAC ()mitter saturation voltage V VCE(sat)–1–−011− 0−0112 25°C nTa = 75°Cc−25°ICC /e IB = 1/0 ward current transfer ratio hFEd132120005500000 T−a22 =55 °°7CC5°VCCE = 10 V − 0.2 mA or-e eFor 50 e. 0 − 0.1 mA Collect–10 −2 a u 0 stag 0 −5 −10 −1 −10 –102 –103 –10 −1 −1 e −10 –102 –103 Collector-emitter voltage VCE (V) n Collector current IC (mA) Colyleccltor current IC (mA) n c e Cob  VCB e iIO  VIN uct lif VIN  IO ()C pFob 56 nt ––110034nVTaO t= = 2 −55° CV ur Prod–102 TVaO = = 2 05.°2C V Collector output capacitance (Common base, input open circuited) M04321−1Collaectoir-bDasei −v1o0ltage s VCB (Vc)D–i10s2coonµt()Output current I AiO––n11–−001u−1 0−−−01212e0.2d 5ipnlcIalnnpuuedt −vde0 op.l7slt 5maamfgaenaoiil l enVntotdIN ee w di(ndin−Vi1nasa)s.2gnc5nc fcocooenen t ttitgi ynynpuUpueeeeR()Input voltage V VddLIN ––tto11−ay00y−n1 –−−b.p10121p0opee −1uadt nlOaautstpeou−sn1tti c uic.rnrcefnoot. r jIO−p m1/ 0(ametiAn/)on.–102 Characteristics charts of cUeN/R911VG win mic n o e ()Collector current I mAC−−−−−−11086422 IMC ain tVeCnEIBa =T −−−−−−−−a− =100000000 .........20324567895 mmmmmmmmm°CAAAAAAAAA ()ector-emitter saturation voltage V VCE(sat)–1−01− −011 PleV2a5sC°TCEae ( =s a7v−ti52)° 5hsC°itCtt fpI:CIo/Cl/ l/ IwB =w 10w.s Forward current transfer ratio hFE 11208642 Ta = 75−°2C5°ChFE 2 I5C°CVCE = −10 V 00 −2 −4 −6 −8 −− 01.10 mA−12 Coll–10 −−21 −10 –102 –103 0–1 –10 –102 Collector-emitter voltage VCE (V) Collector current IC (mA) Collector current IC (mA) 17 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). UNR911xG Series I  V V  I O IN IN O –104 –102 VTaO = = 2 −55° CV VTaO = = 2 −5 °0C.2 V –103 −10 )A )V µ(ent I O–102 (ge V IN −1 e/ Output curr −10 Input volta–10 −1 c d n e e. −1 –10 −2a g −0.4 −I0n.6put v−o0l.8tage − V1.0IN (V−1).2 −1.4 –10 −1 Outpu−1t current IO− 1 0(muA) –102 e sta n cl y n c e e ct lif i u d t t o r n n r P u o i o g f pe n. n y o M aDiscDiscontinued ipnlcalnuedde pls mamfanaoiillenntotd eewdindiniasasncnccocoenen t ttitgi ynnpuUueeeRddL ttoayynb.ppopeeuadt nlaatseosnti ic.ncfoo.rjpm/aetin/ ce/ win mic n o e ntena sit follww.s ai vi w M se p:// ea htt Pl 18 SJH00222AED

This product complies with the RoHS Directive (EU 2002/95/EC). SSMini3-F3 Unit: mm / e c d n 1.60+−00..0035 e e. a g +0.05 a 0.26−0.02 u st e n 5 cl 3 n 5 ±0.0 ecy e 0.37 ct lif i u d nt +0.055−0.03nt60 ±0.05 r Pro 0.8 1. ou i o °)g f pe n. M(5°1)aD(0i.501).00 s±0.(005.520c)Discontinued ipnlcalnuedde pls mamfanaoiillenntotd eewdin(5dininasasncnccocoenen t ttitgi ynynpuUueeeRddL ttoayynb.ppopeeuadt n0la.a1ts3eo+−sn00ti..0 0ic25.ncfoo(0.45).rjpm/aetin/o ce/ win mic aintenan +0.050.70−0.03 visit followww.se M 0 se p:// 0.1 ea htt o Pl 0 t

Request for your special attention and precautions in using the technical information and semiconductors described in this book (1)(cid:9)If any of the products or technical information described in this book is to be exported or provided to non-residents, the laws and regulations of the exporting country, especially, those with regard to security export control, must be observed. (2)(cid:9)The technical information described in this book is intended only to show the main characteristics and application circuit examples of the products, and no license is granted under any intellectual property right or other right owned by our company or any other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any other company which may arise as a result of the use of technical information described in this book. (3)(cid:9)The products described in this book are intended to be used for standard applications or general electronic equipment (such as office / equipment, communications equipment, measuring instruments and household appliances). Consult our sales staff in advance for information on the following applicateions: (cid:150) Special applications (such as for airplanes, aerospace, automobiles, traffic control equipment, combustion equipment, life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of the prod- c ucts may directly jeopardize life or harm the human body. (cid:150) Any applications other than the standard applications intended. d n (4)(cid:9)The products and product specifications described in this book are subject to change without notice for modification and/or im- e provement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most upe-t.o-date Product Standards in advance to make sure that the latest spaecifications satisfy your requirements. ag u st (5)(cid:9)When designing your equipment, comply with the range of absolute maximum rating and the guarantee ed operating conditions (operating power supply voltage and opernating environment etc.). Especially, please be careful not to yexclceed the range of absolute maximum rating on the transient state, such as power-on, power-onff and mode-switching. Otherwiseec, we will not be liable for any (cid:9) dEevfeecnt wwhheicnh t hmea pyr aordiusec tlsa taerre i nu syeodeu wr eitqhuinip tmhee ngt.uaranteed values, take into the consideration ocf ti nlicfidence of break down and failure i u mode, possible to occur to semiconductor products. Measures on the systems such as redudndant design, arresting the spread of fire or preventing glitch are retcommended in order to prevetnt physical injury, fire, social damoages, for example, by using the products. r n n r P (6)(cid:9)Comply with the instructions for use in order to prevent breakdown and characteruistics change due to external factors (ESD, EOS, o tdhaemrmp-apl rostorfe spisa caknidn gm iesc rheaqnuiicraeld s, tsraetsiss)f ya tt hteho ec otinmdiet ioofn sh, asnudclhin ags, smheoluf nlitfine ga nodnr gtah tfe c eulsatpoysmepdeer t'sim per oscinecsse. fWirsht eonp eunsiinngg tphreo dpuaccktsa ogfoenrs. .which (7)(cid:9)TEMhleics trbioc oIkna dmusatyriD abl eCi noo.,t Lrtedps.rinted coDri srecproondtuicnedu ewdh ietpnhlecalr nuwedhdoe pllsly mamf aonaoiilrl ennptotda erewtdinidinaialsaslyncnc,c ocowenen ti tttitgih ynonupuUute eeRthddL e t topayynrb.pipoopere uadwt nrliatattseneo spntie ricm.ncfisoso.irjonpm/ oaetfi nM/atsushita ce/ win mic n o e ntena sit follww.s ai vi w M se p:// ea htt Pl