7 -GENL | INSTR1 OPTOELEK 2). 10 MBIt/s LOGIC GATE MGL2601 (HCPL -2601) aa a | qaqo428 oo0e%23 7 To 7-4)-83 PACKAGE DIMENSIONS - at { . .s- . ass 219 wm. 6.35 (250) 0.36 (.014) O \ | (0.20 (008) ae TL [i stale | 162 178{O7)REF FO 9.14 (380) (300) , ~ as REF tt 2.54 (100) TYP - | 0.89 (035) TYP i . a [ 394 (155)? 4.95 (195) ] 360146), MAX FIBETHO ofa cpm 3.05 (120) = MIN hal 0.89 (035) TYP er tse (022 7 We 2091 ws 0.41 (016) DIMENSIONS IN mm (INCHES} aN : ONS er TABLE 8 Yi ic 71Ve E yt _-- eS H H {Positive Logic) op 5 GND L H ee VF A0.1pF bypass rH A f Aig ath gilie uta ss pins 8 and 5. (Se note1) ~~ Equivalent Circuit 27 over go capacitor must be connected between DESCRIPTION The 6N137 and MCL/HCPL-2601 single-channel optocouplers consists of a 700 nm GaAsP LED, optically coupled to a very high speed integrated photodetector logic gate with a strobable output. This output features an open collector, thereby permitting wired-OR outputs. The coupled parameters are guaranteed over the temperature range of 0-70C. A maximum input signal of 5 mA will provide a minimum output sink current of 13 mA (fan-out of 8). An interna! noise shield provides superior common made rejection of typically 10 kV/us. The MCL/HCPL-2601 has a minimum CMR of 1 kW/us. - . An improved package allows superior insulation, permitting a 480 V working voltage - compared to industry standard 220 V. FEATURES | = Very high speed 10 MBit/s . Superior CMR 10 k W/us = Superior insulation 2500 V RMS 1 min. = Double working voltage 480 V =u Fan-out of 8over0-70C - a Logic gate output Tog = Strobable output se = Wired-OR open collector - s ULL. recognized (File #E50151) " APPLICATIONS | s Ground loop elimination a LSTTL to TTL, LSTTL or 5-volt CMOS Line receiver, data transmission = Data multiplexing = Switching power supplies : = Pulse transformer replacement . - = Computer-peripheral interface ABSOLUTE MAXIMUM RATING Operating temperature .. Lead solder temperature .....-....- 260C for 10s DC/average forward input current Enable input voltage, (VE) ~ Storage temperature .........6-- ~55C to + 125C seeees OCCtO+ 70C . (Not to exceed Voc by more than 500 mV)... 6.5 V Reverse input voltage ....... Na geneeeen eens 5.0V Reverse supply voltage (-VcC).....0..ee0 -600 mV Supply voltage, (Vcc).... 7.0V/1 minute maximum Output current, (lo)....... seeareenoees oes 25MA Output voltage , (VO)-... ee eeene seccereeeres LOV Collector output power dissipation......... 40 mW ihGENL INSTR: OPTOELEK . as pe sacouza oooas24 9 t 6N137 MCL2601 (HCPL-2601) - 3890128 GENL INSTR, OPTOELEK 88D 02924 D RECOMMENDED OPERATING CONDITIONS T-y i 93> SYMBOL MIN, MAX. UNITS Input current, low level lFL 0 250 BA Input current, high level IFH "6.3 15 mA Supply voltage, output Veco 4.5 5.5 Vv Enable voltage low level VEL 0 0.8 Vv Enable voltage high level Veu 2.0 Vee Vv Operating temperature TA 0 70 C Fan out (TTL Joad) N 8 *6.3 mA is a guard banded value which allows for at least 20% CTR degradation. Initial input current threshold value is 5.0 mA or less. ELECTRICAL CHARACTERISTICS (T, = 0C to 70C Uniess Otherwise Specified) 6N137 MCL(HCPL)-2601 PARAMETER SYM. TEST CONDITIONS MIN. | TYP.**] MAX. | MIN. TYP.* | MAX. | UNITS High level output Veo = 5.5 V, Vo =5.5 V . current lon Ir = 250 pA, Ve =2.0V 02 | 250 02 250 7 HA Low levet output Voc = 5.5 V, IF =5 MA . voltage Vol. Ve = 2.0 V, lo. = 13 mA 34 0.6 34 0.6 v High level supply Voc = 5.5 V, IF = 0 mA . current Icon Ve =0.5V 10 16 10 16 mA Low level supply Veo = 5.5 V, IF = 10mA . current leet Ve =0.5V 16 | 18 15 18 | mA Low level enable | | Voc = 5.5 V, Ve =0.5V -1.5 | -2.0 -1.6 | -20| mA current High level enable _ _ . _ current len Voc = 6.5 V, Ve =2.0V 1,0 4.0 mA High level enabie _ _ voltage Venu Voc = 5.5 V, IF = 10 mA 2.0 2.0 Vv Low level enable | Note: 11 0.8 os | v voltage Input forward Ve Ir =10 mA, Ta = 25C 1.55 | 1.78" 158 | 475] V voltage . Input reverse i breakdown Bvr In =10 pA, Ta = 26C 5.0 5.0 Vv i voltage ! Input capacitance] Cin Ve =0, f= 1 MHz 60 60 pF Input diode temperature AVE/ATA| le =10 mA -1.4 -1.4 mV/C coefficient i Relative humidity = 45% annem k Ta =25C,t=5s 1.0 1.0 BA nsulation leak- lo Vi_o = 3000 VDC age current Note: 10 Withstand RH < 50 % insulation test Viso Ta = 25C 2500 2500 VRMS voltage =14 min. Resistance (input _ . 2 42 to output) Ri-o Vi-o = 500 V, Note: 10 10 10 a Capacitance (Input to Ci-o f= 1 MHz, Note: 10 0.6 0.6 pF output} 92GENL IWSTR> OPTOELEK 8 De seqni26 gonases 0 fr _ 6N137 MCL2601 (HOPL-2601) 3890128, GENL -INSTRs7 OPTOELEK ~ _ 88D 02925 ~~ 07-47-83 SWITCHING CHARACTERISTICS (Ta =25C, Voc =5.0V) . 6N137 MCL(HCPL)-2601 - . PARAMETER SYM. TEST CONDITIONS MIN.| TYP.**] MAX. | MIN, TYP." | MAX.{ UNITS . Propagation delay . - time (For . . output high TPLH oo 48 75 ; 48 75 ns tevel) Propagation delay time (For Ri = 350 0 * output low TPHL Ci = 15 pF 48 75 48 78 ns level) . - Output rise time _ . (10-20%) tr lr = 75 mA 30 30 ns Output fal time . . 7 - (90-10%) tt Notes 2, 3, 4 & 5, Figure 10 14 14 ns . Enable propa- . gation delay te "ik =7.6 mA . time (For output LH VeH=3.0V . 25 25 ns high level) . ~ Ver =O0V Enable propa- gation delay Ri = 350 0, Cr = 15 pf ; time (For output feHL Notes 6 & 7, Figure 11 4 4 ns low level) Common made . . transient Vom = 50 V (Peak) immunity CMx lp =0 mA, Vou (Min.) =2.0 V (At output RL = 350 1), Note 9 10,000 1000 10,000 V/ps high level) Figure 16, 15 Common mode . transient Vem =50 V (Peak) tmmunity CML l= 7.5 mA, Vo (Max.) =0.8V | (At output Fy = 3500 10,000 1000} -10,000 V/us low level} Note 8, Figure 16, 15 *JEDEC Registered Data **All typical values are at Voo =5 V, TA= 25C. TYPICAL CHARACTERISTIC CURVES (Ta = 28C Unless Otherwise Specified) to Bee ine CURVE TRACER TERMINALS - 5 V POWER SUPPLY ait 8/4 [ve . ; 0 2 3 4 5 6 7 ; .___ e= COLLECTOR VOLTAGE (V) . ~ 4 1979 C1614 Fig. 1. Curve Tracer Connection to obtain Collector Se Fig. 2, Optocoupler Collector Characteristics __ 7 - Charactoristics le} Lx] Le & _ FORWARD CURRENT (mA) Ip = 8st ill 1 atmap dake 'GENL INSTR. OPTOELEK a8 DE p389dlea oooesa, 2 i 7 AI-B3 TYPICAL CHARACTERISTIC CURVES (Ta = 25C Unless Otherwise Specified) ates tere ee . 80 Veg 6,0 x + : f - ve . > lh = 0-70C - [} 1 vec 5] O15V - yy 7-0 - | 8 \F t & 60 - ! wa $ g mo 2 { ? >Sar SRL & 5.0 at at r & 40 {:| 6 ov 8 30 I . : 1 | ad - U ! . * 20 [E ano} {| . 10 . L , . . - : ; = 1980 a _ 0 10 20 30 40 50 60 : - . SN _ + FORWARD INPUT CURRENT tl, mA) 1602 Fig. 3. Inout Output - | Fig. 4. Output Voltage vs. - : Schematic : Forward input - ot : - - : . Current 10.0 _ 10 - - s Ze i 8 . S 4 ey k = z 2 Ve = 2,0V & %] = 28C 3 x Ip = 250A = 10 > 54 3 2 = FE 5 B .04 5 = 3 2 a wu wu at @ Zz 01 . = x = .008 5 3 9 004 a 1 = + 2 *..002 > 3 1 0 001 1 12 14 1.6 6 10 2 30 40 5 60 70 10 20 30 40 50 6 70 Vp, FORWARD INPUT VOLTAGE {Vv} C1600 TEMPERATURE {T, C} C1598 . Ta- TEMPERATURE (C) C1613 Fig. 5. Forward Input - Fig. 6. Low Level Output a Fig.7. High Level Output Current vs. Forward Voitage vs. . . Current vs. Input Voltage - 7 - Temperature . Temperature 6N137_MCL2601 (HCPL-2601) tp ~ PROPAGATION DELAY (ns} tp - PROPAGATION DELAY ins} _- mm te . . -, ta = 6.0V ale 0 10 6200 3G 40570 . o 5 10 18 20 - ~ oe : oe . mF a |, ~ PULSED INPUT CURRENT (mA} = C1603 we Tet whe - Y, ~ TEMPERATURE (C] cig ES = Fig. a eer Delay ~*~ wae . Fla. 9. Pie Delay vs. omperature ee. a Pulse Input Current < + Ry 'BNI37 NCLZGUi nuri-2o GENL INSTR. whan ae ae OPTOELEK 4a ODE TYPICAL CHARACTERISTIC CURVES (Ta = 25 C Unless Otherwise Specified) : PULSE poo ee GN | - oe tas tat=Snafy : : ms - Zo = 500 , ion : INPUT MONITOR 0 3 (tr) > 703 Voc GND = ctget Fig. 10. Test Circuit and Waveforms for tpi, t, and ty = C1062 Fig. 11. . Test Circult tepy, and tere 8 z INPUT . p . w . ChanB w . . [i ! Veo fe vey = ~ { z "00 sv. 2 ! 7 $a7on 2 . : P| FF prPAss . 2 = at i fl " . [. GND sh . aa = - iL - cies o 10 2 3 40 80 60 70- - . Ty - TEMPERATURE (C) C1601 - . Fig. 1 12. Response Delay me , 2 . Fig. 13. Rise and Fall Time 3 Between TTL Gates 0 vs. Tamperature so 7 ~ Ds, - ce . - 95