6 N1 3 5, ] 3 6 GaA@As IRED & PHOTO-IC {6N135) DIGITAL LOGIC ISOLATION. LINE RECEIVER. POWER SUPPLY CONTROL SWITCHING POWER SUPPLY TRANSISTOR INVERTER. The TOSHIBA 6N135 and 6N136 consists of a high emitting diode and a one chip photo diode-transistor. Each unit is 8-lead DIP package. Isolation Voltage : 2500Vrms (Min.) . High Speed : tpHL, tpLH =0.5ys (Typ.) (RL, = 1.9k0) TTL Compatible e If base pin is open, output signal will be noisy by environmental condition, For this base, TLP550 is suitable UL Recognized : UL1577, File No. E67349 Unit in mm JEDEC _ EIAJ _ TOSHIBA 11-10C1 Weight : 0.54g PIN CONFIGURATIONS if y 18 au Te 34 16 4q 15 N.C . ANODE . CATHODE . N.C . EMITTER . COLLECTOR BASE, ANODE . CATHODE BARA ONe6N135, 136 (6N135) MAXIMUM RATINGS (Ta = 25C) CHARACTERISTIC SYMBOL RATING UNIT Forward Current (Note 1) Ip 25 mA Pulse Forward Current (Note 2) Ipp 50 mA | Total Pulse Forward Current Ippr 1 A a (Note 3) Reverse Voltage VR 5 Vv Olen a Dissipation Pp 45 mW Output Current Io 8 mA m~|Peak Output Current Iop 16 mA 2 Emitter-Base Reverse Voltage (Pin 5-7) VEB 5 Vv a Supply Voltage Vec 0.5~15 Vv e|Output Voltage Vo 0.5~15 v a Base Current (Pin 7) Ip 5 mA Oe wer Dissipation Py 100 mW Operating Temperature Range Topr ~55~100 C Storage Temperature Range Tstg ~55~125 C Lead Solder Temperature (10sec) (Note 6) Tsold 260 c Isolation Voltage (Note 7) BVg 2500 Vrms Note 1 : Derate 0.8mA above 70C. Note 2 : 50% duty cycle, lms pulse width. Derate 1.6mA/C above 70C. Note 3: Pulse width lus, 300pps. Note 4 : Derate 0.9mW/C above 70C, Note 5 : Derate 2mW/C above 70C. Note 6 : Soldering portion of lead : up to 2mm from the body of the device. Note 7 : R.H.260%, AC/1 min. 736N135, 136 {6N135) ELECTRICAL CHARACTERISTICS OVER RECOMMENDED TEMPERATURE (Ta = 0C~ 70C Unless otherwise noted) CHARACTERISTIC SYMBOL TEST CONDITION MIN. -**TYP.|MAX.| UNIT Current Transfer 6N136 Vcc =4.5V, Ta=25C (Note 8) 19 24 % Ratio 6N135 | np | IP=16mA, Vo=0.5V 5 i3| | % 6N136 Vcc =4.5V (Note 1) 15 21 _ % 6N135 Ip=16mA, Io=1.1mA 01 | 04] V Logic Low Output VoL Veco =4.5V Voltage Ifp=16mA, I9=2.4mA 6N1 , _ : : 36 Voc=4.5V 01) 0.4 Vv Ip=0mA, Vo=Vcc=5.5V Ta =25C _ 3 | 500 | nA Logic High Output Current OH Ip=0mA, Vo=Vcc=15V _ 0.1 1] vA Ta=25C 1oH Ip=0mA, Vo=Vcoc=15V _ 50 uA . Ip=16mA, VQ=Open Logic Low Supply Current IccL Voc=15V _ 40 vA ICCH Ip=0mA, Vo=Open _ 0.01 1 uh er Vcc=15V, Ta=25C Logic High Supply Current I Ip=0mA, Vo =Open 2 A CCH | vog=15V ~ M Input Forward Voltage VF Ip=16mA, Ta=25C _ 1.65 17 Vv Temperature Coefficient of _ Forward Voltage 4VF/4Ta | Ip=16mA _ -19 jmv/C Input Reverse Breakdown _ _ore Voltage BVR IR=10zA, Ta=25C 5 _ Vv Input Capacitance CIN f=1MHz, Vp=0 _ 60 | pF Resistance (Input-Output) RO VLQ=500V (Note 9)R.H.S60%| 10? | a Capacitance (Input-Output) CLO f=1MHz(Note 9) _- 0.6 _ pF Transistor DC Current Gain | hpg Vo=5V, Io =3mA _ 80} *% XX ~~ All typicals at Ta=25C6N135, 136 (6N135) SWITCHING SPECIFICATIONS (Unless otherwise specified. Ta = 25C, Vcc = 5V, Ip = 16mA) TEST CHARACTERISTIC SYMBOL |crrcurr | TEST CONDITION | MIN. | TYP. |MAX. | UNIT Propagation Delay | 6N135 RL =4.1k0 02) 15 | ws Time to Logic Low tpHL 1 at Output 6N136 RL =1.9ka _ 0.2) 0.8 BS Propagation Delay | 6N135 Ry =4.1k9 1.0] 1.5 | ps Time to Logic High toLH 1 at Output 6N136 Rp =1.9ko 0.5 | 0.8 Ss Ip=0mA Common Mode 6N135 VoM=10Vp_p )1000| |V/uzs i i Ry =4.1k0 Transient Immunity CMy 2 L at Logic High Level Ip=O0mA Output (Note 10) 6N136 VoM=10Vp_p | 1000] |V/zs RL =1.9ko VoM=10Vp~p Common Mode 6N135 Rp =4.1kQ _ 1000; Vi BS i i Ip=1l6mA Transient Immunity CMy, 2 F m at Logic Low Level VoM=10Vp_p Output (Note 10) 6N136 Rp=1.9k2 |-1000) |V/uzs Ip=16mA Bandwidth (Note 11) BW _ Rp, =1000 2) | MHz Note 8 : DC CURRENT TRANSFER RATIO is defined as the ratio of output collector current, Ip, to the forward LED input current, Ip, times 100%. 9 : Device considered a two-terminal device : Pins 1, 2, 3, and 4 shorted together and Pins 5, 6, 7 and 8 shorted together. 10 : Common mode transient immunity in Logic High level is the maximum tolerable (positive) dVCM/dt on the leading edge of the common mode pulse, VCM, to assure that the output will remain in a Logic High state (i.e, VWQ>2.0V). Common mode transient immunity in Logic Low level is the maximum tolerable (negative) dVCM/dt on the trailing edge of the common mode pulse signal, VCM, to assure that the output will remain in a Logic Low state (i.e., VQo<0.8V). 11 : The frequency at which the AC output voltage is 3dB below the low frequency asymptote.6N135, 136 (6N135) TEST CIRCUIT 1. PULSE GEN Zo=502 Ip tp=5ns JT DL 10% DUTY 0 5V. |CYCLE Vo Lo 1.5V 1.5V Ip bay ARE s}-4+# sv aa ie [6} x Vo ~ A VoL MONITORS By T* oO i re tpHL toLH * Cy, is approximately 15pF which includes probe and stray wiring capacitance. TEST CIRCUIT 2. tr, tf=8ns I ~ 5V 10V a Vv . 90% 10% cM ov 10% 90% A ty tr I T QO BV ~* Vo AER De] AN hbo S = | Ppt SWITCH AT A : Ip=0mA VF iy ef Vo VoL Y SWITCH AT B : Ip=16mA PULSE GEN.6N135, 136 (6N135) Ip VE ATP/ATa Ip Ta =25C = - 49 z eS -2 " ge 2 Be 2 - & BS oy ey > a q- 5 < 5 Be az 3 > 1 < QO = BE 5 =a -1 a o so co 1.0 1.2 14 1.6 1.8 2.0 01 0.3 0.5 1 3 5 10 30 FORWARD VOLTAGE Vp (} FORWARD CURRENT [yp (mA) fouq) Ta lo - Ir 5 ~ 8 < ro & % 3 2 & z 7 E oy 2 3 a ro 2 ay oO 2 eo 8 = Cal Be = 5 5 Voc =6Vv = Vo=0.av Ta =26C 0.04 0 40 80 120 160 1 0.30.5 1 3.5 10 3050 100 300 AMBIENT TEMPERATURE Ta (C) FORWARD CURRENT Ip (mA) loslp - IF Iostp Ta 1 S B " Ta = 25C = # 2 aR Be Z 8 $e 1 8 Fo z NORMALIZED eo 2 z me TO: & c g z Ip=16mA > oO Voc =4.6V Vo=0.4V 0366 1 3 5 10 30 50 -40 -20 0 20 40 60 80 100 FORWARD CURRENT Ip (mA) AMBIENT TEMPERATURE Ta (C)6N135, 136 (6N135) Vo Ip 5 pf jf Ip Yoc=5V < = = = & S 5 8 4 < 2 & x a m oO > be 5 5 a a Be & 3 Ip=5mA 4 1 2 3 4 5 6 7 0 4 8 12 16 20 24 OUTPUT VOLTAGE Vo t) FORWARD CURRENT Ip (mA) toHL, tpLH RL Tory a Ip=16mA . | + ob. ae Voco=5V iLL. Ww tpn | Tea =26C (us) PROPAGATION DELAY TIME toHL, tpLH ; To 1 35 10 30 50100 LOAD RESISTANCE Ry, (kf)