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  • 型号: FOD3120SDV
  • 制造商: Fairchild Semiconductor
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FOD3120SDV产品简介:

ICGOO电子元器件商城为您提供FOD3120SDV由Fairchild Semiconductor设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 FOD3120SDV价格参考¥9.49-¥20.48。Fairchild SemiconductorFOD3120SDV封装/规格:隔离器 - 栅极驱动器, 3A Gate Driver 光学耦合 5000Vrms 1 Channel 8-SMD。您可以下载FOD3120SDV参考资料、Datasheet数据手册功能说明书,资料中有FOD3120SDV 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
产品目录

隔离器

描述

OPTOCOUPLER GATE DRV 2.5A 8-SMD

产品分类

隔离器 - 栅极驱动器

品牌

Fairchild Semiconductor

数据手册

点击此处下载产品Datasheet

产品图片

产品型号

FOD3120SDV

rohs

无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

OPTOPLANAR®

上升/下降时间(典型值)

60ns, 60ns

不同If时的传播延迟高-低

275ns @ 7mA ~ 16mA

传播延迟tpLH/tpHL(最大值)

400ns, 400ns

供应商器件封装

8-SMDIP-W

共模瞬态抗扰度(最小值)

35kV/µs

其它名称

FOD3120SDVCT

包装

剪切带 (CT)

安装类型

表面贴装

封装/外壳

8-SMD,鸥翼型

工作温度

-40°C ~ 100°C

技术

光学耦合

数据速率

-

标准包装

1

电压-正向(Vf)(典型值)

1.5V

电压-电源

15 V ~ 30 V

电压-隔离

5000Vrms

电流-DC正向(If)

25mA

电流-峰值输出

3A

电流-输出/通道

2.5A

电流-输出高,低

2A, 2A

脉宽失真(最大)

100ns

认可

UL

输入类型

DC

输出类型

栅极驱动器

通道数

1

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Is Now Part of To learn more about ON Semiconductor, please visit our website at www.onsemi.com Please note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductor’s system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclature that utilizes an underscore (_), the underscore (_) in the Fairchild part numbers will be changed to a dash (-). This document may contain device numbers with an underscore (_). Please check the ON Semiconductor website to verify the updated device numbers. The most current and up-to-date ordering information can be found at www.onsemi.com. Please email any questions regarding the system integration to Fairchild_questions@onsemi.com. ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent-Marking.pdf. ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. “Typical” parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FDA Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that ON Semiconductor was negligent regarding the design or manufacture of the part. ON Semiconductor is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

F O D 3 February 2016 1 2 0 — FOD3120 H i g High Noise Immunity, 2.5 A Output Current, h N o Gate Drive Optocoupler i s e I m Features Description m • High Noise Immunity Characterized by 35 kV/μs The FOD3120 is a 2.5 A Output Current Gate Drive u n Minimum Common Mode Rejection Optocoupler, capable of driving most medium power i t • 2.5 A Peak Output Current Driving Capability for Most IGBT/MOSFET. It is ideally suited for fast switching y, 1200 V/20 A IGBT driving of power IGBT and MOSFETs used in motor 2 . • Use of P-channel MOSFETs at Output Stage Enables control inverter applications, and high performance 5 A Output Voltage Swing Close to The Supply Rail power system. O • Wide Supply Voltage Range from 15 V to 30 V It utilizes Fairchild’s coplanar packaging technology, u • Fast Switching Speed Optoplanar®, and optimized IC design to achieve high tp – 400 ns max. Propagation Delay noise immunity, characterized by high common mode u t – 100 ns max. Pulse Width Distortion rejection. C • Under Voltage LockOut (UVLO) with Hysteresis u It consists of a gallium aluminum arsenide (AlGaAs) light r • Extended Industrial Temperate Range, emitting diode optically coupled to an integrated circuit re -40°C to 100°C Temperature Range with a high-speed driver for push-pull MOSFET output n t • Safety and Regulatory Approved stage. , G – UL1577, 5000 VRMS for 1 min. a t – DIN EN/IEC60747-5-5 e • R of 1 Ω (typ.) Offers Lower Power Dissipation Related Resources D DS(ON) r • >8.0 mm Clearance and Creepage Distance i v (Option ‘T’ or ‘TS’) • FOD3150, 1 A Output Current, Gate Drive e Optocoupler Datasheet O • 1,414 V Peak Working Insulation Voltage (V ) IORM • www.fairchildsemi.com/products/optoelectronics/ p t Applications o c o • Industrial Inverter u • Uninterruptible Power Supply p l e • Induction Heating r • Isolated IGBT/Power MOSFET Gate Drive Functional Block Diagram Package Outlines NC 1 8 V DD 8 8 ANODE 2 7 VO2 1 1 CATHODE 3 6 VO1 NC 4 5 V 8 SS 8 1 Figure 1. Functional Block Diagram(1) 1 Figure 2. Package Outlines Note: 1. 0.1 μF bypass capacitor must be connected between pins 5 and 8. ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4

F O Truth Table D 3 1 LED VDD–VSS “Positive Going” VDD–VSS “Negative Going” V 2 (Turn-on) (Turn-off) O 0 — Off 0 V to 30 V 0 V to 30 V Low H On 0 V to 11.5 V 0 V to 10 V Low i g h On 11.5 V to 13.5 V 10 V to 12 V Transition N On 13.5 V to 30 V 12 V to 30 V High o i s e I m Pin Definitions m u n Pin # Name Description i t y 1 NC Not Connected , 2 2 Anode LED Anode .5 A 3 Cathode LED Cathode O 4 NC Not Connected u t 5 V Negative Supply Voltage p SS u 6 VO2 Output Voltage 2 (internally connected to VO1) t C 7 V Output Voltage 1 u O1 r r 8 VDD Positive Supply Voltage e n t , G a t e D r i v e O p t o c o u p l e r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 2

F O Safety and Insulation Ratings D 3 As per DIN EN/IEC 60747-5-5, this optocoupler is suitable for “safe electrical insulation” only within the safety limit 1 2 data. Compliance with the safety ratings shall be ensured by means of protective circuits. 0 — Parameter Characteristics H < 150 V I–IV i RMS g h < 300 V I–IV RMS Installation Classifications per DIN VDE N < 450 V I–III o 0110/1.89 Table 1, For Rated Mains Voltage RMS i s < 600 VRMS I–III e < 1000 VRMS (Option T, TS) I–III Im m Climatic Classification 40/100/21 u Pollution Degree (DIN VDE 0110/1.89) 2 n i t Comparative Tracking Index 175 y , 2 . 5 A Symbol Parameter Value Unit O Input-to-Output Test Voltage, Method A, V x 1.6 = V , u IORM PR 2,262 V t Type and Sample Test with t = 10 s, Partial Discharge < 5 pC peak p V m u PR Input-to-Output Test Voltage, Method B, VIORM x 1.875 = VPR, 2,651 V t C 100% Production Test with tm = 1 s, Partial Discharge < 5 pC peak u r V Maximum Working Insulation Voltage 1,414 V r IORM peak e n VIOTM Highest Allowable Over-Voltage 6,000 Vpeak t , External Creepage ≥ 8.0 mm G a External Clearance ≥ 7.4 mm t e External Clearance (for Option T or TS, 0.4" Lead Spacing) ≥ 10.16 mm D r DTI Distance Through Insulation (Insulation Thickness) ≥ 0.5 mm iv e TS Case Temperature(2) 175 °C O I Input Current(2) 400 mA p S,INPUT t o P Output Power (Duty Factor ≤ 2.7%)(2) 700 mW c S,OUTPUT o R Insulation Resistance at T , V = 500 V(2) > 109 Ω u IO S IO p l Note: e r 2. Safety limit value - maximum values allowed in the event of a failure. ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 3

F O Absolute Maximum Ratings (T = 25ºC unless otherwise specified) D A 3 Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be 1 operable above the recommended operating conditions and stressing the parts to these levels is not recommended. 2 0 In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability. — The absolute maximum ratings are stress ratings only. H Symbol Parameter Value Unit ig h T Storage Temperature -55 to +125 ºC STG N o T Operating Temperature -40 to +100 ºC OPR i s T Junction Temperature -40 to +125 ºC e J I Lead Wave Solder Temperature m TSOL (refer to page 21 for reflow solder profile) 260 for 10sec ºC m u I Average Input Current 25 mA n F(AVG) i I Peak Transient Forward Current(3) 1 A ty F(PEAK) , f Operating Frequency(4) 50 kHz 2 . 5 VR Reverse Input Voltage 5 V A I Peak Output Current(5) 3.0 A O O(PEAK) u 0 to 35 t V – V Supply Voltage V p DD SS T ≥ 90°C 0 to 30 u A t C V Peak Output Voltage 0 to V V O(PEAK) DD u tR(IN), tF(IN) Input Signal Rise and Fall Time 500 ns rr e PD Input Power Dissipation(6)(8) 45 mW n I t PDO Output Power Dissipation(7)(8) 250 mW , G a Notes: t e 3. Pulse Width, PW≤ 1 μs, 300 pps D r 4. Exponential Waveform, IO(PEAK)≤ | 2.5 A | (≤ 0.3 μs) iv e 5. Maximum pulse width = 10 μs, maximum duty cycle = 1.1% O 6. Derate linearly above 87°C, free air temperature at a rate of 0.77 mW/°C p t 7. No derating required across temperature range. o c 8. Functional operation under these conditions is not implied. Permanent damage may occur if the device is sub- o u jected to conditions outside these ratings. p l e r Recommended Operating Conditions The Recommended Operating Conditions table defines the conditions for actual device operation. Recommended operating conditions are specified to ensure optimal performance to the datasheet specifications. Fairchild does not recommend exceeding them or designing to absolute maximum ratings. Symbol Parameter Value Unit T Ambient Operating Temperature -40 to +100 °C A V – V Power Supply 15 to 30 V DD SS I Input Current (ON) 7 to 16 mA F(ON) V Input Voltage (OFF) 0 to 0.8 V F(OFF) ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 4

F O Isolation Characteristics D 3 Apply over all recommended conditions, typical value is measured at TA = 25ºC 1 2 0 Symbol Parameter Conditions Min. Typ. Max. Unit — VISO Input-Output Isolation TA = 25ºC, R.H.< 50%, t = 1.0min, 5,000 VRMS H Voltage I ≤ 10 μA, 50 Hz(9)(10) I-O i g R Isolation Resistance V = 500 V(9) 1011 Ω h ISO I-O N C Isolation Capacitance V = 0 V, Freq = 1.0 MHz(9) 1 pF ISO I-O o i s Notes: e 9. Device is considered a two terminal device: Pins 2 and 3 are shorted together and Pins 5, 6, 7 and 8 are shorted Im together. m u 10. 5,000 V for 1 minute duration is equivalent to 6,000 VAC for 1 second duration. RMS RMS n i t y , 2 Electrical Characteristics . 5 A Apply over all recommended conditions, typical value is measured at V = 30 V, V = Ground, T = 25°C DD SS A O unless otherwise specified. u t Symbol Parameter Conditions Min. Typ. Max. Unit p u VF Input Forward Voltage IF = 10 mA 1.2 1.5 1.8 V t C Temperature Coefficient u Δ(V / T ) -1.8 mV/ºC r F A of Forward Voltage r e n Input Reverse Breakdown BVR Voltage IR = 10 μA 5 V t, G C Input Capacitance f = 1 MHz, V = 0V 60 pF a IN F t e High Level Output VO = VDD – 3 V -1.0 -2.0 -2.5 D I A OH Current(4) VO = VDD – 6 V -2.0 -2.5 riv e I Low Level Output VO = VSS+ 3 V 1.0 2.0 2.5 A O OL Current(4) V = V + 6 V 2.0 2.5 p O SS t o I = 10 mA, I = -2.5 A V – 6.25 V V – 2.5 V F O DD DD c V High Level Output Voltage V OH o I = 10 mA, I = -100 mA V – 0.25 V V – 0.1 V F O DD DD u p V Low Level Output Voltage IF = 0 mA, IO = 2.5 A VSS + 2.5 V VSS + 6.25 V V le OL I = 0 mA, I = 100 mA V + 0.1 V V + 0.25 V r F O SS SS V = Open, I High Level Supply Current O 2.8 3.8 mA DDH I = 7 to 16 mA F V = Open, I Low Level Supply Current O 2.8 3.8 mA DDL V = 0 to 0.8 V F Threshold Input Current I I = 0 mA, V > 5 V 2.3 5.0 mA FLH Low to High O O Threshold Input Voltage V I = 0 mA, V < 5 V 0.8 V FHL High to Low O O VUVLO+ Under Voltage Lockout IF = 10 mA, VO > 5 V 11.5 12.7 13.5 V V Threshold I = 10 mA, V < 5 V 10.0 11.2 12.0 V UVLO– F O Under Voltage Lockout UVLO 1.5 V HYS Threshold Hysteresis ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 5

F O Switching Characteristics D 3 Apply over all recommended conditions, typical value is measured at VDD = 30 V, VSS = Ground, TA = 25°C 1 2 unless otherwise specified. 0 — Symbol Parameter Conditions Min. Typ. Max. Unit H t Propagation Delay Time to Logic 150 275 400 ns ig PHL Low Output h N Propagation Delay Time to Logic t 150 255 400 ns o PLH High Output i s e PWD P| tuPlHsLe –W tiPdLtHh |Distortion, IRFg = = 7 1 m0 AΩ t o, C1g6 =m1A0, nF, 20 100 ns Im m Propagation Delay Difference f = 10 kHz, Duty Cycle = 50% PDD u Between Any Two Parts or -250 250 ns n (Skew) Channels, (t – t )(11) it PHL PLH y , tR Output Rise Time (10% – 90%) 60 ns 2 . 5 tF Output Fall Time (90% – 10%) 60 ns A tUVLO ON UVLO Turn On Delay IF = 10 mA, VO > 5 V 1.6 μs O t UVLO Turn Off Delay I = 10 mA, V < 5 V 0.4 μs u UVLO OFF F O t p | CMH| CImommumnoitny Mato Oduet pTurat nHsiigehnt TIFA = = 7 2 t5o° C16, VmDAD, = 30 V, 35 50 kV/μs ut C VCM = 2000 V(12) u r Common Mode Transient T = 25°C, V = 30 V, V = 0 V, r | CM | A DD F 35 50 kV/μs e L Immunity at Output Low V = 2000 V(13) n CM t , Notes: G 11. The difference between t and t between any two FOD3120 parts under same test conditions. a PHL PLH t e 12. Common mode transient immunity at output high is the maximum tolerable negative dVcm/dt on the trailing edge of D the common mode impulse signal, Vcm, to assure that the output will remain high (i.e. V > 15.0 V). r O i v e 13. Common mode transient immunity at output low is the maximum tolerable positive dVcm/dt on the leading edge of O the common pulse signal, Vcm, to assure that the output will remain low (i.e. V < 1.0 V). O p t o c o u p l e r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 6

F O Typical Performance Characteristics D 3 1 2 0 — V) 0.00 HIGHVOLTAGEDROP(V) --0010....0505 TA=-40°CIVVFFDDSr=eDSuqt7==yutC10eoVn5y1cct6yloem=3=A020V5.01H%z TPUTVOLTAGEDROP( ---000...110505 VVIIFODS==SD7=-=1m001AV05VmtoAto163m0VA High Noise I UT -1.5 TA=25°C OU m OUTP -2.0 TA=100°C HIGH -0.20 mu -V)-DD -2.5 V)-DD -0.25 nity (VOH -3.00.0 0.5I -OUTP1.U0THIGHCU1.R5RENT(A)2.0 2.5 (V-OH -0.30-40 -20 0 20 40 60 80 100 , 2.5 OH TA-AMBIENTTEMPERATURE(°C) A Fig. 3 Output High Voltage Drop vs. Output High Current Fig. 4 Output High Voltage Drop vs. Ambient Temperature O u t p u 8 f=200Hz 5 f=100Hz t DUTYCYCLE=0.2% DUTYCYCLE=0.5% C HCURRENT(A) 6 RIFg==75tΩo1to6mGAND VDD=30V HCURRENT(A) 34 RIFg==71t0oΩ16tomGAND VDD=30V urrent, G OUTPUTHIG 24 VDD=15V OUTPUTHIG 2 VDD=15V ate Dri – – 1 v IOH IOH e O 0 0 p -40 -20 0 20 40 60 80 100 -40 -20 0 20 40 60 80 100 to TA–AMBIENTTEMPERATURE(°C) TA–AMBIENTTEMPERATURE(°C) co Fig. 5 Output High Current vs. Ambient Temperature Fig. 6 Output High Current vs. Ambient Temperature u p l e r (V) 4 VFDVrFDue(DtOqy=FuFCe1)ny5=ccV-lye3t=.o=0V239509t0V.o9H0%z.8V E(V) 00..2205 VVVIOFDS(=DSOF==1F0)10=0V5mV-3AtVo3to00V.8V GE 3 VSS=0V AG LTA TA=100°C OLT VO TA=25°C WV 0.15 W O O 2 L TL UT 0.10 U P P T T U -OUOL 1 TA=-40°C V-OOL 0.05 V 0.00 0 0.0 0.5 1.0 1.5 2.0 2.5 -40 -20 0 20 40 60 80 100 T -AMBIENTTEMPERATURE(°C) I -OUTPUTLOWCURRENT(A) A OL Fig. 7 Output Low Voltage vs. Output Low Current Fig. 8 Output Low Voltage vs. Ambient Temperature ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 7

F O Typical Performance Characteristics (Continued) D 3 1 2 0 — 8 f=200Hz 5 f=100Hz H DUTYCYCLE=99.8% DUTYCYCLE=99.5% i CURRENT(A) 6 IRFg==75tΩo1to6VmDAD VDD=30V CURRENT(A) 34 RIFg==71t0oΩ16tomVADD gh Nois TLOW 4 UTLOW 2 VDD=30V e Im PU VDD=15V TP m T U OU 2 –O 1 VDD=15V un I–OL IOL ity , 0 2 0-40 -20 T –0AMBIEN2T0TEMPE40RATURE6(0°C) 80 100 -40 -20 TA–0AMBIEN2T0TEMPE4R0ATURE6(0°C) 80 100 .5 A Fig. 9 Output Low Current vs. Ambient Temperature Fig. 10 Output Low Current vs. Ambient Temperature O u t p u mA) 33..46 VVIIFFDS==DS==010m03mV0AAV(f(oforrIDIDDLD)H) mA) 33..26 IIVFFS==S=100m0mA,AT(fA(ofor=Ir2D5IDD°DLC)H) t Curre ( 3.2 ( n RRENT 3.0 RRENT t, G I-SUPPLYCUDD 22..68 IIDDDDLH I-SUPPLYCUDD 22..48 IIDDDDLH ate Drive 2.4 O p 2.2 2.0 t -40 -20 0 20 40 60 80 100 15 20 25 30 o c TA-AMBIENTTEMPEATURE(°C) V-SUPPLYVOLTAGE(V) o Fig. 11 Supply Current vs. Ambient Temperature Fig. 12 Supply Current vs. Supply Voltage u p l e r RESHOLD (mA) 34..50 VVOSDuSDt=p=u10t5V=VOtope3n0V AY (ns) 345000 DfITRF=AUg==T1=10Y210k5m0CHΩ°YACz,CCLgE==1500n%F TH 3.0 EL 300 NT N D tPHL GH CURRE 22..05 OPAGATOI 220500 tPLH W TO HI 1.5 - PRtP150 O L I- FLH 1.0-40 -20 0 20 40 60 80 100 10015 18 21 24 27 30 T -AMBIENTTEMPERATURE(°C) VDD–SUPPLYVOLTAGE(V) A Fig. 13 Low to High Input Current Threshold vs. Fig. 14 Propagation Delay vs. Supply Voltage Ambient Temperature ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 8

F O Typical Performance Characteristics (Continued) D 3 1 2 0 — Y (ns) 450000 VRTDf=DAgUD=T1=0=Y2153k0C°H0ΩYCVz,C,CLVgESS===15000Vn%F Y (ns) 450000 IVRDfF=DgU=D1T=1=0Y013mk0CH0ΩYAVz,C,CLVgESS===15000Vn%F High N A A o L L E E i D D s N N e ATIO 300 tPHL ATIO 300 tPHL Im G G –PROPO 200 tPLH –PROPO 200 tPLH mun tP tP it y , 1006 8 10 12 14 16 100-40 -20 0 20 40 60 80 100 2. IF–FORWARDLEDCURRENT(mA) TA–AMBIENTTEMPERATURE(°C) 5 A Fig. 15 Propagation Delay vs. LED Forward Current Fig. 16 Propagation Delay vs. Ambient Temperature O u t p u 500 IF=10mA 500 IF=10mA t C VDD=30V,VSS=0V VDD=30V,VSS=0V u Y (ns) 400 CTDAgU=T=Y2150C°nCYFCLE=50% Y (ns) 400 DRTAUg=T=Y215C0°ΩYCCLE=50% rre LA f=10kHz LA f=10kHz n E E t D D , N N G OPOGATIO 300 ttPPLHHL OPOGATIO 300 ttPPLHHL ate D PR 200 PR 200 r –P –P iv t t e O 1000 10 20 30 40 50 1000 20 40 60 80 100 p t R -SERIESLOADRESISTANCE(Ω) C -LOADCAPACITANCE(nF) o g g c Fig. 17 Propagation Delay vs. Sereies Load Resistance Fig. 18 Propagation Delay vs. Load Capacitance o u p l e 35 T =25°C 100 r VA = DD 30V 30 mA) 10 E(V) 25 NT( TA=100°C G E VOLTA 20 CURR 1 TA=-40°C UTPUT 15 WARD 0.1 –O OR TA=25°C VO 10 F - 0.01 IF 5 0.001 0 0.6 0.8 1.0 1.2 1.4 1.6 1.8 0 1 2 3 4 5 V -FORWARDVOLTAGE(V) I – FORWARDLEDCURRENT (mA) F F Fig. 19 Transfer Characteristics Fig. 20 Input Forward Current vs. Forward Voltage ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 9

F O Typical Performance Characteristics (Continued) D 3 1 2 0 — 14 (12.75,12.80) H 12 ig (11.25,11.30) h V) 10 N GE( o A i LT 8 s O e V UT I TP 6 m U O m – VO 4 u n i t 2 y , 2 0 (11.20,0.00) (12.70,0.00) .5 0 5 10 15 20 A (V -V )–SUPPLYVOLTAGE(V) DD SS Fig. 21 Under Voltage Lockout O u t p u t C u r r e n t , G a t e D r i v e O p t o c o u p l e r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 10

F O Test Circuit D 3 1 2 0 — Power Supply H + i C1 + C2 VDD = 15 V to 30 V g 0.1μF 47μF h N Pulse Generator o i s 1 8 PW = 4.99 ms e PReriod = = 5 50 mΩs Pulse-In Im OUT 2 7 m R1020Ω Iol Power Supply un 3 6 + i t LED-IFmon VOL D1 C0.31μF + C474μF V = 6 V y, 2 4 5 . 5 A R1 100Ω To Scope O u Test Conditions: t p Frequency = 200 Hz u Duty Cycle = 99.8% t VDD = 15 V to 30 V C VSS = 0 V u VF(OFF) = -3.0 V to 0.8 V r r e n Figure 22. IOL Test Circuit t, G a t e D Power Supply r + iv C0.11μF + 4C72μF VDD = 15 V to 30 V e O p Pulse Generator to c PW = 10μs 1 8 o Period = 5 ms u ROUT = 50Ω Pulse-In p 2 7 + Power Supply le C3 + C4 r R2 Ioh 0.1μF 47μF V = 6 V 100Ω 3 6 – LED-IFmon VOH D1 Current 4 5 Probe To Scope R1 100Ω Test Conditions: Frequency = 200 Hz Duty Cycle = 0.2% VDD = 15 V to 30 V VSS = 0 V IF = 7 mA to 16 mA Figure 23. I Test Circuit OH ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 11

F O Test Circuit (Continued) D 3 1 2 0 — 1 8 H i g h 2 7 0.1μF N IF = 7 to 16 mA +– VDD = 15 to 30 V oi s 3 6 VO e I m 100 mA m 4 5 u n i t y , Figure 24. V Test Circuit 2 OH . 5 A O u t 1 8 p u t 100 mA C 2 7 u 0.1μF + VDD = 15 to 30 V rr – e n 3 6 VO t, G a 4 5 te D r i v e Figure 25. V Test Circuit O OL p t o c o u p l e r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 12

F O Test Circuit (Continued) D 3 1 2 0 — 1 8 H i g h 2 7 0.1μF N + VDD = 30 V o IF = 7 to 16 mA – i s 3 6 VO e I m m 4 5 u n i t y , 2 Figure 26. IDDH Test Circuit .5 A O u 1 8 tp u t C 2 7 0.1μF u + + VDD = 30 V r – VF = -0.3 to 0.8 V – re n 3 6 VO t , G a 4 5 te D r i v e Figure 27. IDDL Test Circuit O p t o c o u p l e r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 13

F O Test Circuit (Continued) D 3 1 2 0 — 1 8 H i g h 2 7 0.1μF N + VDD = 15 to 30 V o – is IF 3 6 VO > 5 V e I m m 4 5 u n i t y , Figure 28. IFLH Test Circuit 2.5 A O u 1 8 t p u t C 2 7 0.1μF u + + VDD = 15 to 30 V r – VF = –0.3 to 0.8 V – r e 3 6 VO nt , G a 4 5 t e D r i v Figure 29. V Test Circuit e FHL O p t o c 1 8 o u p l 2 7 0.1μF er + IF = 10 mA – 15 V or 30 V VDD Ramp 3 6 VO = 5 V 4 5 Figure 30. UVLO Test Circuit ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 14

F O Test Circuit (Continued) D 3 1 2 0 1 8 — 0.1μF H 2 7 VO ig + VDD = 15 to 30 V h + – – N F = 10 kHz Probe 3 6 Rg = 10Ω o DC = 50% is Cg = 10 nF 50Ω e 4 5 I m m u n i t y , IF 2 . 5 tr tf A O 90% u t p 50% u t VOUT 10% C u r r tPLH tPHL e n Figure 31. tPHL, tPLH, tR and tF Test Circuit and Waveforms t, G a t e D IF 1 8 r i v A e 2 7 0.1μF O B + – VDD = 30 V p 5V +– 3 6 VO toc o u 4 5 p l e r + – VCM = 2,000 V VCM 0V Δt VO VOH Switch at A: IF = 10 mA VO VOL Switch at B: IF = 0 mA Figure 32. CMR Test Circuit and Waveforms ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 15

F O Reflow Profile D 3 1 Max. Ramp-up Rate = 3°C/S 2 TP Max. Ramp-down Rate = 6°C/S 0 260 — 240 tP TL H 220 i g 200 Tsmax h tL N C) 180 Preheat Area o °ure ( 116400 Tsmin ts ise Im t 120 a m er 100 u p n m 80 i t e 60 y T , 40 2 . 5 20 A 0 O 120 240 360 u t p Time 25°C to Peak u t Time (seconds) C u r r e n t Profile Freature Pb-Free Assembly Profile , G Temperature Min. (Tsmin) 150°C a t e Temperature Max. (Tsmax) 200°C D Time (t ) from (Tsmin to Tsmax) 60–120 seconds r S i v Ramp-up Rate (t to t ) 3°C/second max. e L P O Liquidous Temperature (T ) 217°C L p t Time (t ) Maintained Above (T ) 60–150 seconds o L L c Peak Body Package Temperature 260°C +0°C / –5°C o u Time (t ) within 5°C of 260°C 30 seconds p P l e Ramp-down Rate (TP to TL) 6°C/second max. r Time 25°C to Peak Temperature 8 minutes max. ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 16

F O Ordering Information D 3 1 Part Number Package Packing Method 2 0 FOD3120 DIP 8-Pin Tube (50 units per tube) — FOD3120S SMT 8-Pin (Lead Bend) Tube (50 units per tube) H FOD3120SD SMT 8-Pin (Lead Bend) Tape and Reel (1,000 units per reel) ig h FOD3120V DIP 8-Pin, DIN_EN/IEC60747-5-5 option Tube (50 units per tube) N FOD3120SV SMT 8-Pin (Lead Bend), DIN_EN/IEC60747-5-5 option Tube (50 units per tube) o i s FOD3120SDV SMT 8-Pin (Lead Bend), DIN_EN/IEC60747-5-5 option Tape and Reel (1,000 units per reel) e I FOD3120TV DIP 8-Pin, 0.4” Lead Spacing, DIN_EN/IEC60747-5-5 option Tube (50 units per tube) m m FOD3120TSV SMT 8-Pin, 0.4” Lead Spacing, DIN_EN/IEC60747-5-5 option Tube (50 units per tube) u FOD3120TSR2V SMT 8-Pin, 0.4” Lead Spacing, DIN_EN/IEC60747-5-5 option Tape and Reel (700 units per reel) n i t y , 2 . 5 Marking Information A O u t p u t C 1 u r r e n 3120 2 t , G V XX YY B 6 a t e D r i v 3 4 5 e O Figure 33. Top Mark p t o c Definitions o u p 1 Fairchild logo l e r 2 Device number 3 DIN_EN/IEC60747-5-5 Option (only appears on component ordered with this option) 4 Two digit year code, e.g., ‘16’ 5 Two digit work week ranging from ‘01’ to ‘53’ 6 Assembly package code ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 17

F O Carrier Tape Specifications (Option SD) D 3 1 D 2 0 0 P0 P2 — t E K 0 H i g h N F o A 0 i W1 B0 W se I m m u n P it d UserDirectionofFeed D1 y, 2 . 5 A Symbol Description Dimension in mm O W Tape Width 16.0 ± 0.3 u t p t Tape Thickness 0.30 ± 0.05 u t P0 Sprocket Hole Pitch 4.0 ± 0.1 C u D Sprocket Hole Diameter 1.55 ± 0.05 0 r r E Sprocket Hole Location 1.75 ± 0.10 e n t F Pocket Location 7.5 ± 0.1 , G P2 2.0 ± 0.1 a t e P Pocket Pitch 12.0 ± 0.1 D A0 Pocket Dimensions 10.30 ±0.20 ri v B 10.30 ±0.20 e 0 O K 4.90 ±0.20 0 p W1 Cover Tape Width 13.2 ± 0.2 to c d Cover Tape Thickness 0.1 max o u Max. Component Rotation or Tilt 10° p l e R Min. Bending Radius 30 r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 18

F O Carrier Tape Specifications (Option TSR2) D 3 1 D 2 0 0 P0 P2 — t E K 0 H i g h N F o A 0 i W1 B0 W se I m m u n P it d UserDirectionofFeed D1 y, 2 . 5 A Symbol Description Dimension in mm O W Tape Width 24.0 ± 0.3 u t p t Tape Thickness 0.40 ± 0.1 u t P0 Sprocket Hole Pitch 4.0 ± 0.1 C u D Sprocket Hole Diameter 1.55 ± 0.05 0 r r E Sprocket Hole Location 1.75 ± 0.10 e n t F Pocket Location 11.5 ± 0.1 , G P2 2.0 ± 0.1 a t e P Pocket Pitch 16.0 ± 0.1 D A0 Pocket Dimensions 12.80 ± 0.1 ri v B 10.35 ± 0.1 e 0 O K 5.7 ±0.1 0 p W1 Cover Tape Width 21.0 ± 0.1 to c d Cover Tape Thickness 0.1 max o u Max. Component Rotation or Tilt 10° p l e R Min. Bending Radius 30 r ©2003 Fairchild Semiconductor Corporation www.fairchildsemi.com FOD3120 Rev. 1.4 19

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