6N135/6n136 6N135/6n136 general purpose type photocoupler *1 50% duty cycle, pulse widt h : 1ms *2 pulse width< = 1 m s, 30 0 p / s *4 for 10 seconds decreases at the rate of 1.6ma/?c if the external temperature is 70?c or more. n features 1. high speed response t ph l , t plh 2. high common mode rejection voltage 3. standard dual-in-line package n applications 2. high speed line receivers, high speed logic 3. telephone sets 4. signal transmission between circuits of different potentials and impedances 6n model q internal connection diagram n outline dimensions n absolute maximum ratings ( t a = 25? c ) ( uni t : m m ) parameter symbol rating unit input forward current i f 25 ma *1 peak forward current i f 50 ma *2 peak transient forward current i fm 1a reverse voltage v r 5v power dissipation p 45 m w output supply voltage v cc - 0.5 t o + 1 5 v output voltage v o - 0.5 t o + 1 5 v emitter-base reverse with- v ebo 5v average output current i o 8 m a peak output current i op 16 ma base curren t ( pin 7 ) i b 5 m a power dissipation p o 100 mw *3 isolation voltage v iso operating temperature t opr - 55 t o + 100 ?c storage temperature t stg - 55 t o + 125 ?c *4 soldering temperature t so1 260 ?c ( c m h : typ. 1kv / m s ) ( 6n13 5 : max. 1 . 5 m s at r l = 4.1 k w ) ( 6n13 6 : max. 0. 8 m s at r l = 1.9 k w ) data books, etc. contact sharp in order to obtain the latest version of the device specification sheets before using any shar p 's device . � � in the absence of confirmation by device specification sheets, sharp takes no responsibility for any defects that occur in equipment using any of sharp's devices, shown in catalogs, equipment stand voltag e ( pin 5 to 7 ) no. 0.8 0.5typ 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 nc 2 anode 3 cathode 4 nc 5 gnd 4. recognized by ul, file no. e64380 1. computers, measuring instruments, control an opic consists of a light-detecting element and signal- processing circuit integrated onto a single chip. * � opi c � ( optical i c ) is a trademark of the sharp corporation. 2 500 *3 40 to 60% rh, ac for 1 minute primary side mark ( sunken plac e ) v rms q = 0 to 1 3 ? 6 v o 7 v b 8 v cc 6.5 � 0.5 1.2 � 0.3 0.85 � 0.3 9.22 � 0.5 7.62 � 0.3 3.5 � 0.5 3.7 � 0.5 0.5 � 0.1 2.54 � 0.25 0.26 � 0.1
6N135/6n136 *5 current transfer ratio is the ratio of input current and output current expressed in % . *6 measured as 2-pin element ( short 1, 2, 3, 4 ) n electro-optical characteristics parameter symbol conditions min. typ. max. unit *5 current transfer ratio 6N135 ctr ( 1 ) ta = 25 ?c, i f = 16ma v o = 0.4v, v cc = 4.5v 7.0 40 - % 6n136 ctr ( 1 ) 19 40 - % 6N135 ctr ( 2 ) i f = 16ma, v o = 0.5v v cc = 4.5v 5.0 43 - % 6n136 ctr ( 2 ) 15 43 - % logic ( 0 ) output voltage v ol i f = 16ma, v cc = 4.5v - 0.1 0.4 v logic ( 1 ) output current i oh ( 1 ) t a =25?c, i f =0 v cc =v o = 5.5v - 3.0 500 na i oh ( 2 ) t a =25?c, i f =0 v cc =v o = 15v - 0.01 1.0 a i oh ( 3 ) i f = 0, v cc =v o = 15v - - 50 a logic ( 0 ) supply current i ccl i f = 16ma, v cc = 15v v o = open - 200 - a logic ( 1 ) supply current i cch ( 1 ) t a =25?c, v cc = 15v v f = open, i o =0 - 0.02 1.0 a i cch ( 2 ) v cc = 15v v o = open, i f =0 - - 2.0 a input forward voltage v f t a =25?c, i f = 16ma - 1.7 1.95 v input forward voltage d v f / d t a i f = 16ma - - 1.9 - mv/ ?c input reverse voltage bv r t a =25?c, i r = 10 a 5.0 - - v input capacitance c in v f = 0, f = 1mhz - 60 - i i-o t a v i-o = 3kvdc - - 1.0 a r i-o v i-o = 500vdc - 10 12 - w c i-o f = 1mhz - 0.6 - h fe v o = 5v, i o = 3ma - 70 - *7 6N135 :i o = 1.1ma, 6n136 :i o = 2.4ma ( ta = 0 to + 70 ?c unless otherwise specified ) temperature coefficient note ) typical volue : at ta = 25 ?c *6 leak current ( input-output ) *6 isolation resistance ( input-output ) *6 capacitance ( input-output ) transistor current amplification factor *7 = 25?c, 45 % rh, t = 5s pf pf m m m m m m m
6N135/6n136 *13 bandwidth represents a point where ac input goes down by 3db. instantaneous common mode rejection voltage � output ( 0 ) � represents a common mode voltage variation that can hold the output above ( 0 ) level ( v o < 0.8v ) . *8 r l l = 4.1k w is equivalent to one lsttl and 6.1k w pull-up resistor. r =1.9k w is equivalent to one ttl and 5.6k w pull-up resistor. symbol conditions min. typ. max. unit t phl r l = 4.1k w - 0.3 1.5 s t phl r l = 1.9k w - 0.3 0.8 s t plh r l = 4.1k w - 0.4 1.5 s t plh r l = 1.9k w - 0.3 0.8 s cm h - - v/ s cm l - - v/ s bw r l = 100 w - 2.0 - mhz pulse generator 100 w pulse input duty ratio 1 2 3 4 8 7 6 5 1.5v 1.5v 5v 5 6 7 8 4 3 2 1 +- a b 10v 0v 2v 0.8v 10 % 90 % 10 % 90 % = 1/10 i f i f monitor c l = 15pf 0.01 m f v o v cc r l i f 0 v o t phl t plh v ff i f v cm r l v o v cm cm h v o cm l v o i f = 16ma i f = 0 5v v ol t r t f *12 i f = 0, v cm = 10v p-p *12 v cm = 10v p-p , i f = 16ma n switching characteristics ( ta = 25 ?c, v cc = 5v, i f = 16ma ) *10 instantaneous common mode rejection voltage � output ( 1 ) � represents a common mode voltage variation that can hold the output above ( 1 ) level ( v o > 2.0v ) . parameter output ( 1 ) ? ( 0 ) 6N135 6n136 output ( 0 ) ? ( 1 ) 6N135 6n136 *10,11 instantaneous common mode rejection voltage � output ( 1 ) � *10,11 instantaneous common mode rejection voltage � output ( 0 ) � *13 bandwidth *12 6N135 :r l = 4.1k w 6n136 :r l = 1.9k w *8 propagation *9 delay time *8 propagation *9 delay time *11 test circuit for instantaneous common mode rejection voltage v cc = 5v 1 000 - 1 000 *9 test circuit for propagation delay time 0.01 m f m m m m m m
5 10 30 25 20 15 0 125 100 75 50 25 0 -55 ambient temperature ambient temperature t a ( ?c ) fig. 1 forward current vs. f ( ma ) 0 120 -40 p 0 25 50 75 100 125 100 80 60 20 40 70 45 fig. 2 power dissipation vs. ambient temperature power dissipation p, p o ( mw ) ambient temperature t a ( ?c ) 50?c 25?c 70?c 1.0 0.01 0.1 1 10 100 1.2 1.4 1.6 1.8 2.0 2.2 f ( ma ) forward voltage v f ( v ) forward voltage fig. 3 forward current vs. 0 0.1 ctr = 100% at 50 100 150 1 10 100 forward current forward current i f ( ma ) fig. 4 relative current transfer ratio vs. 0 0 2 2 dotted line shows 4 6 8 10 12 14 16 18 20 4 6 8 10 12 14 pulse characteristics 20ma 15ma 10ma 5ma 20 16 18 output current i o ( ma ) output voltage v o ( v ) fig. 5 output current vs. output voltage 80 60 70 90 100 110 0 20 40 60 80 100 relative current transfer ratio ( % ) ambient temperature fig. 6 relative current transfer ratio vs. ambient temperature t a ( ?c ) forward current i forward current i -60 -40 -20 relative current transfer ratio ( % ) p o t a =0?c i f = 16ma t a =25?c v o = 0.4v v cc =5v t a =25?c v cc =5v i f = 25ma i f = 16ma v o = 0.4v v cc =5v ctr = 100 % at t a =25?c 6N135/6n136
0 200 400 600 800 - 60 - 20 20 60 100 80 40 0 -40 ambient temperature fig. 7 propagation delay time vs. phl , t plh ( ns ) ambient temperature t a ( ?c ) - 60 - 40 - 20 0 20 100 80 60 40 v cc =v o =5v ambient temperature ambient temperature t a ( ?c ) 10 -5 10 -6 10 -7 10 -8 10 -9 10 -10 10 -11 high level output current i oh ( a ) fig. 8 high level output current vs. frequency f ( mhz ) -20 -15 -10 -5 0 -25 -30 0.1 0.2 0.5 1 2 5 10 220 w 470 w 1k w fig. 9 frequency response voltage gain a v ( db ) i f = 16ma t a =25?c r l = 100 w propagation delay time t 100 w 15v v o 560 w ac input 20k w r l 1.6v dc 0.25v ac 5v 1 2 3 4 8 7 6 5 ( 1 ) it is recommended that a by-pass capacitor of more than 0.01 f be added between v cc and gnd near the device in order to stabilize power supply line. ( 2 ) transistor of detector side in bipolar configuration is apt to be affected by static electricity for its minute design. when handling them, general counterplan against static electricity should be taken to avoid breakdown of devices or degradation of characteristics. n precautions for use 6N135/6n136 test circuit for frequency characteristic v cc =5v i f = 16ma t plh t phl ( page 78 to 93 ) pp - 6n136 ( r l = 1.9k w ) 6N135 ( r l = 4.1k w ) as for other general cautions, please refer to the chapter � precautions for use � . m l
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