OPTEK TECHNOLOGY INC ObE D | 6796580 0000248 & Optoslectronics Division 1987 Cost Saver Product! aan TRW Electronic Components Group Call TRW for more information! Jitu Product Bulletin 5256 January 1985 . 7 f/ ~- 3 High Gain Optocouplers Types 6N138, 6N139 + 00 + DIMENSIONS ARE (N INCHES (MILUMETERS) @OOO A ors TTT 2606.60) 3107.87) 5 NOM 74016.10) 2907.37) 0110.33 * 0070.18) Vd be hs DOT INDICATES PHI TD) @ @ @ 2010.51) $95(4.70H4 .0T5(0.98) i MAX { \ ! 11912.92)- ' | MN | | q 1 I : 025(0.64) __. L. 083{1,60) L ~- for)... 4 : MAK " 2.79 osgo%er a 5 128 (3) was ane et 03510: NC Features Absolute Maximum Ratings (No derating required up to 70C) High CTR Storage Temperature 2.2.0... eee e eect tee ee reece eeeeaeeeeneeneeaeeas 6C to+ 126C Low drive current required Operating Temperature... eee ence eter e eee e ee es OC to+ 70C TTL compatible Lead Soldering Temperature (1/16 inch [1.6 mm] from case for 10 seconds) .................008. 260C 3000 V isolation Average Input Current IFoo... 6. cece cece cece ce cee ses eeneeneeeaeereteaeennespanaes 20 mall High output current Peak Input Cursrent Ip (50% duty cycle, 1 ms pulse Width). ........... 0.0... cece cee ee eee eee 40 mA High common mode rejection Peak Transient Input Current - Ip (<3 1 ys pulse width, 300 pps)... 2.2.2... ccc cece eee eee 1.00A UL. Recognized, file No. E58730 Reverse Input Valtage-VR .... 2... ee eee e cette eect terete steeeateeeeresaeratoee DOV Input Power Dissipation 2.0.0.2... ...cccceaeeesevecscaseceenavenss dee eea ee eeeeees 36 mw) Description Output Current |Q ... 2... ccc cececcseeueceuceceeescaetecuscusvareeeeeaenrenaens 60 ma) GaAsP emitters are coupled with high gain Emitter-Base Reverse Voltage 2... 6... eee cece cece ene e nee eee e scene eneneeeees 0.50V integrated photodetectors to provide good Supply and Output Voltage ~ Vcc, Vo sensitivity at low input currents. A photodiode GN13B. ccc cece cee e reste eee eens restos eesenn weap ees -0.50 V to 7.0 V . Arives two wansistor stages to provide good speed GNTID. eee e eee ence ee ene ee ee eee e ea een ees -0.60 V to 18.0 V performance with an open callector output capable Output Power Dissipation ............0.ccccceseeccevevescesevcaeeateaeecaeeuteaes 100 mv!) of interface to TTL. Alternatively, the two * JEDEC Registered Data collectors can be externally connected for Notas: darlington operation. {f) Derate linearly above 60C free-air temperatura at a rate of 0.4 mA/C. oe (2) Derate fineatly above 0C free-air temperatura at a rate of 0.7 mW/C. The 6N139 is suitable for cmos or LTTL (3) Derate linearly above 25C free-air temperature at a rate of 0.7 mA/C. applications with a 400% minimum CTR at 0.5 MA {4} Derate finearly abova 26C free-air temperature at a rata of 2.0 mW/C. input drive. Caution: This component is susceptible 10 damage fram alectrostatic discharge. Normal static prevention procaduras should be The 6N138 is for use in TTL applications with a used in handling. minimum CTR of 300% at 1.6 mA input. This allows TTL in and TTL out when used with a 2.2 k@ pull-up resistor. Optoelectronics Division, TRW Electronic Components Group, 1216 W. Crosby Ad., Cerrollten, TX 75006 (214) 323-2200, TLX 8716092 or 218849 &OPTEK TECHNOLOGY INC OLE D Be7casao o000e44 4 i Types 6N138, 6N139 T-41-83 Elactrical Characteristics Over recommended temperatura {Ta =0C ta 70C), unless otherwise noted Symbol Parameter Device | Min. | Typ.** | Max. | Units Test Conditions Figura 400 B00 Ip =0.60 mA, Vp =0.40 V, Veo =4.5 V 6N139 % F 7 VO CC -| cra | cunent Transfer Ratio 600} 900 I= 1.60 mA, Vp =0.40 V, Veo=4.5 V 3 eNiga | 300 600 % | p= 1.60 mA, Vg 0.40 V, Vog=4.5 V 0.100 | 0.40 [p= 1.60 mA, Ip =6.4 mA, Vec=4.5 V ; 6N199 0.100 0.40 v IF=5.0 mA, ig =15.0 mA, Voc =4.5 V Vo_ | Logic Low Qutput Voltage 0.20 0.40 IF=12.0 mA, Ip =24 mA, Voc = 4.5 V 6N198 0.100 | 040 V | p= 1.60 mA, Ig =4.9 mA, Voo=4.5 V 6N139 0.060 100 Ip=0 mA, Vo=Vec= 18.0 V lon | Logie High Output Current uF omice 6N138 oic0 | 250 A | ip 0 mA, Vp=Vec=7.0 V ect | Logie Low Supply Current 0.20 mA = | Ip=1.60 mA, Vg =Open, Voc =5.0 {ec | Logie High Supply Current 10.0 nA ig =0 mA, Vg = Open, Voc =5.0 V Ve* | Input Forward Voltage 1.40 1.70 v Ip = 1.60 mA, Ty = 25C . 4 BYp* | Input Reverse Breakdown Voltage 5.0 v ty =10.0 pA, Ta = 25C AVE | Temperature Coefficient of Ata __ | Forward Voltage -1,80 mv/C | p= 1.60 mA Cin _| input Capacitance 60 pF | f= 1.00 MHz, Ve=0 {nput-Output Insulation 45% Relative Humidity, Ta = 28C to* ity, Ta LO" | Leakage Curent 100 | A | 50s, 9 =3000 voc Rig _| Input-Output Resistance 1012 Q Vio = 600 VDC Co Input-Output Capacitance 0.60 pF f=1.00MHz Switching Specifications (Ta = 26C} 5.0 26 ip =0.50 mA, AL =4.7 kO 6N139 Bs = = tpHL | Propagaticn Delay Tine 0.20 1.00 IF=12.0 mA, Rp =270 2 7 6N138 1.00 | 100 ps | Ip=1.80 mA, FL=2.2 ka 5.0 60 lp=0.60 mA, AL =4.7 0 N139 Bs = = tPLH* | Propagation Delay Time 1.00 10 F=12.0 mA, AL =270 O 7 6N138 40 35 ps Ip 1.80 mA, RL =2.2 kQ Common Mode Transient Immunity Ip=0 mA, Ry =2.2 kQ, Acg =O CMH | at Logic High Level Output 500 Wi#S | (Vem) = 10.0 Vpip (See Note 6) 10 Common Mode Transient Immunity _ Ip=1.60 mA, RL =2.2 kO, Rep=0 CML | st Logic Low Level Cutput 500 Vie | (Vel = 10.0 Vp-p (Soe Note 6) 10 JEDEC Registered Data. ** AM typical at Ta =25C and Voc =5 V, unless otherwise noted. Notes: 5. CMy is the maximum allowable dv/dt on the leading edge of e common made pulse to assure that the output will not switch from high to low. 8. CM is tha maximum negative dv/dt allowabla on tha trading edga of a common mode pulse to assure that the output will not switch from low to high. DAE EE ETS TES Optoelectronics Division, TRW Electronic Components Group, 1216 W. Crosby Rd., Carrollton, 1X 750068 {214} 323-2200, TLX 6718032 or 215849 183OPTEK .TECHNOLOGY INC OLE Dp B .7sssao g0gde3o 4 | Types 6N138, 6N139 Figure 1. 6N139 DC Transfer Characteristics 100 oo lp =5.0mA ~~ Ip = 4.5mA oe lpr 4.0mA _ ee (gp =3.5mA Veg = 5.0 Vg = 0.4 oT wm enw ig = 3.0mA wo eee ome IF = ZEA we Ip = ZUMA = Ip = 1.5mA Ig ~ OUTPUT CURRENT ~ mA 3 Ig = 1.0mA w wn 1p = 0.5mA Q 1.0 20 3.0 Vo - OUTPUT VOLTAGE -V Current Transfer Ratio vs Figure 3. Forward Current 2400 Veo =5V 2400 Vo = 0.4V Z 3 CTA CURRENT TRANSFER RATIO % 1 10 te 10.0 ig FORWARD CURRENT mA 6N139 Output Current vs Input Dioda Forward Current Figure 5. 100.0 10.0 a1 Ip OUTPUT CURRENT mA 0.01 0.001 Litt ob TEE oie 0.18 1.0 10.0 100.0 tg FORWARD CURRENT - mA T-4\-83 Figure 2. 6N138 DC Transfer Characteristics Vee = 5.0 Ip = 5.0mA = 250 we |e a, sop Tae Ee a 1g =3.5mA t tg 22.0mA 5 Ip = 2.5mA & Leeann If * 2.0m oo 2 25 Leen. IF = 1.5mA, E = ig = 1.0mA Ip 20.5mA 0 | \ \ 9 1.8 zo 30 Vo GUTPUT VOLTAGE -V Figure 4. Input Diode Forward Current vs Forward Voltage 100.0 Ta = 25C 10.0 of & t L ~ 3 Al: s > = = ot 2 YY + Sf Ve 0.07 _ TP act | 1.00 1.10 1.20 1.30 149 1.58 Ve FORWARD VOLTAGE V Figure 6. N138 Output Current vs . Input Diode Forward Current 100.0 10, Ig QUTPUT CURRENT mA 0. 0.001 0.010 0.10 10 10.8 106.0 Ta= Tq #25C =70C If - FORWARD CURRENT mA Optoelectronics Division, TRW Electronic Components Group, 1216 W. Crosby Rd., Carrollton, TX 76006 (214) 323-2200, TLX 6716032 or 216849 194OPTEK TECHNOLOGY INC ObE Types 6N138, 6N139 Figure 7. Propagation Delay vs Temperature 60 Ay = 2.2k2 Ig = 1.6mA 50 It = bOys a I z ae a e 3 ze 30 < 3 = & 20 T * 1.0 {SEE FIG. 9 FOR TEST CIRCUIT) o 0 2 40 6 bi Ta TEMPERATURE - C Figure 9. Switching Time Test Circuit ir PULSE GEN. _ 29 = 8002 1 8 +V ty = Sns 2 f 7 aL 10% DUTY CYCLE Wt << 100us 3 6 Vo fg MONITOR 4 5 voase = | C= Ser Ie JT & Le 9 1 | sv Vo i (SATURATED RESPONSE) I VoL TPHL | av Vo [NON-SATURATED RESPONSE} *JEDEC Registered Data. TRW reserves the right to make changes at any time in order to improve design and to supply the best product possible. p Bf} o7saseo oooo292 & i Ta HI-8 3) Figura 8. Non Saturated Rise and Fall Time vs Load Resistance 100.0 = [ Veco =8.0V Ta = 25C A a YY) E w 10.0 z _ MM - (fp ADJUSTED FOR Voy *2.8V (SEE FtG. $ FOR TEST cancun 10 po Lot ttt at 1.8 10.8 RL LOAD RESISTANCE - kl Figure 10. Test Circuit. for Transient Immunity and Typical Waveforms yer f : av le { 2 f 7 AL Q A a Yo ' 8 = a 5 vee] Yom +@= J 4 PULSE GEN. = sv Vo SWITCH ATA: Ip = @mA Vo ee Ae Vou SWITCH AT B: Ip = 1.00 mA Plastic colar may vary. Optoelectronics Division, TRW Electronic Components Group, 1216 W. Crosby Rd., Carrollton, TX 75006 (214) 823-2200, TLX 6716032 or 215848 TAW Inc. 1986. TAW is the nama and mark of TRW Inc, 185 inted in U.S.A,