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1-131 h very high cmr, wide v cc logic gate optocouplers technical data hcpl-2201 hcpl-2202 hcpl-2211 hcpl-2212 hcpl-2231 hcpl-2232 hcpl-0201 hcpl-0211 hcnw2201 hcnw2211 features ? 10 kv/ m s minimum common mode rejection (cmr) at v cm = 1000 v (hcpl-2211/2212/0211/ 2232, hcnw2211) ? wide operating v cc range: 4.5 to 20 volts ? 300 ns propagation delay guaranteed over the full temperature range ? 5 mbd typical signal rate ? low input current (1.6 ma to 1.8 ma) ? hysteresis ? totem pole output (no pullup resistor required) ? available in 8-pin dip, soic-8, widebody packages ? guaranteed performance from -40 c to 85 c ? safety approval ul recognized -2500 v rms for 1 minute (5000 v rms for 1 minute for hcnw22xx) per ul1577 csa approved vde 0884 approved with v iorm = 630 v peak (hcpl- 2211/2212 option 060 only) and v iorm = 1414 v peak (hcnw22xx only) bsi certified (hcnw22xx only) ? mil-std-1772 version available (hcpl-52xx/62xx) applications ? isolation of high speed logic systems ? computer-peripheral interfaces ? microprocessor system interfaces ? ground loop elimination ? pulse transformer replacement ? high speed line receiver ? power control systems description the hcpl-22xx, hcpl-02xx, and hcnw22xx are optically- coupled logic gates. the hcpl-22xx, and hcpl-02xx contain a gaasp led while the hcnw22xx contains an algaas led. the detectors have totem pole output stages and optical receiver input stages with built-in schmitt triggers to provide logic- compatible waveforms, eliminat- ing the need for additional waveshaping. a superior internal shield on the hcpl-2211/12, hcpl-0211, caution: it is advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by esd. functional diagram a 0.1 m f bypass capacitor must be connected between pins 5 and 8. 7 1 2 3 4 5 6 8 nc anode cathode nc gnd v cc v o nc shield hcpl-2201/11 hcpl-0201/11 hcnw2201/11 7 1 2 3 4 5 6 8 nc anode cathode nc gnd v cc v o nc shield hcpl-2202/12 7 1 2 3 4 5 6 8 anode 1 cathode 1 cathode 2 anode 2 gnd v cc v o1 v o2 shield hcpl-2231/32 truth table (positive logic) led on off v o high low 5965-3595e
1-132 selection guide small- widebody minimum cmr input 8-pin dip (300 mil) outline so-8 (400 mil) hermetic on- single dual single single single and dv/dt current channel channel channel channel dual channel (v/ m s) v cm (v) (ma) package package package package packages 1,000 50 1.6 hcpl-2200 [1,2] hcpl-0201 hcnw2201 hcpl-2201 hcpl-2202 1.8 hcpl-2231 2,500 400 1.6 hcpl-2219 [1,2] 5,000 [3] 300 [3] 1.6 hcpl-2211 hcpl-0211 hcnw2211 hcpl-2212 1.8 hcpl-2232 1,000 50 2.0 hcpl-52xx [2] hcpl-62xx [2] notes: 1. hcpl-2200/2219 devices include output enable/disable function. 2. technical data for the hcpl-2200/2219, hcpl-52xx and hcpl-62xx are on separate hp publications. 3. minimum cmr of 10 kv/ m s with v cm = 1000 v can be achieved with input current, i f , of 5 ma. ordering information specify part number followed by option number (if desired). example: hcpl-2211#xxx 060 = vde 0884 v iorm = 630 v peak option* 300 = gull wing surface mount option** 500 = tape and reel packaging option option data sheets available. contact your hewlett-packard sales representative or authorized distributor for information. *for hcpl-2211/2212 only. **gull wing surface mount option applies to through hole parts only. schematic hcpl-2201/02/11/12 hcpl-0201/11 hcnw2201/11 i f shield v f v cc v o gnd i cc i o + 2 3 8 5 i f1 shield v f1 v cc v o1 i cc i o1 + 1 2 8 6 hcpl-2231/32 shield v f2 v o2 gnd i o2 + 3 4 5 i f2 7 hcpl-2232 and hcnw2211 guarantees common mode transient immunity of 10 kv/ m s at a common mode voltage of 1000 volts. the electrical and switching characteristics of the hcpl- 22xx, hcpl-02xx and hcnw22xx are guaranteed from -40 c to +85 c and a v cc from 4.5 volts to 20 volts. low i f and wide v cc range allow compatibil- ity with ttl, lsttl, and cmos logic and result in lower power consumption compared to other high speed couplers. logic signals are transmitted with a typical propagation delay of 150 ns.
1-133 1.080 ?0.320 (0.043 ?0.013) 2.54 ?0.25 (0.100 ?0.010) 0.51 (0.020) min. 0.65 (0.025) max. 4.70 (0.185) max. 2.92 (0.115) min. 5?typ. 0.254 + 0.076 - 0.051 (0.010 + 0.003) - 0.002) 7.62 ?0.25 (0.300 ?0.010) 6.35 ?0.25 (0.250 ?0.010) 9.65 ?0.25 (0.380 ?0.010) 1.78 (0.070) max. 1.19 (0.047) max. hp xxxxz yyww date code dimensions in millimeters and (inches). 5 6 7 8 4 3 2 1 option code* ul recognition ur type number *marking code letter for option numbers "v" = option 060 option numbers 300 and 500 not marked. package outline drawings 8-pin dip package (hcpl-2201/02/11/12/31/32) 8-pin dip package with gull wing surface mount option 300 (hcpl-2201/02/11/12/31/32) 0.635 ?0.25 (0.025 ?0.010) 12?nom. 9.65 ?0.25 (0.380 ?0.010) 0.635 ?0.130 (0.025 ?0.005) 7.62 ?0.25 (0.300 ?0.010) 5 6 7 8 4 3 2 1 9.65 ?0.25 (0.380 ?0.010) 6.350 ?0.25 (0.250 ?0.010) 1.016 (0.040) 1.194 (0.047) 1.194 (0.047) 1.778 (0.070) 9.398 (0.370) 9.906 (0.390) 4.826 (0.190) typ. 0.381 (0.015) 0.635 (0.025) pad location (for reference only) 1.080 ?0.320 (0.043 ?0.013) 4.19 (0.165) max. 1.780 (0.070) max. 1.19 (0.047) max. 2.54 (0.100) bsc dimensions in millimeters (inches). lead coplanarity = 0.10 mm (0.004 inches). 0.254 + 0.076 - 0.051 (0.010 + 0.003) - 0.002)
1-134 small-outline so-8 package (hcpl-0201/11) 8-pin widebody dip package (hcnw2201/11) 5 6 7 8 4 3 2 1 11.15 ?0.15 (0.442 ?0.006) 1.78 ?0.15 (0.070 ?0.006) 5.10 (0.201) max. 1.55 (0.061) max. 2.54 (0.100) typ. dimensions in millimeters (inches). 7?typ. 0.254 + 0.076 - 0.0051 (0.010 + 0.003) - 0.002) 11.00 (0.433) 9.00 ?0.15 (0.354 ?0.006) max. 10.16 (0.400) typ. hp hcnwxxxx yyww date code type number 0.51 (0.021) min. 0.40 (0.016) 0.56 (0.022) 3.10 (0.122) 3.90 (0.154) xxx yww 8765 4 3 2 1 5.842 ?0.203 (0.236 ?0.008) 3.937 ?0.127 (0.155 ?0.005) 0.381 ?0.076 (0.016 ?0.003) 1.270 (0.050) bsg 5.080 ?0.127 (0.200 ?0.005) 3.175 ?0.127 (0.125 ?0.005) 1.524 (0.060) 45?x 0.432 (0.017) 0.228 ?0.025 (0.009 ?0.001) type number (last 3 digits) date code 0.305 (0.012) min. dimensions in millimeters (inches). lead coplanarity = 0.10 mm (0.004 inches). 0.152 ?0.051 (0.006 ?0.002) 7
1-135 8-pin widebody dip package with gull wing surface mount option 300 (hcnw2201/11) note: use of nonchlorine activated fluxes is highly recommended. 240 d t = 115?, 0.3?/sec 0 d t = 100?, 1.5?/sec d t = 145?, 1?/sec time ?minutes temperature ?? 220 200 180 160 140 120 100 80 60 40 20 0 260 123 456789101112 solder reflow temperature profile (hcpl-02xx and gull wing surface mount option 300 parts) 1.00 ?0.15 (0.039 ?0.006) 7?nom. 12.30 ?0.30 (0.484 ?0.012) 0.75 ?0.25 (0.030 ?0.010) 11.00 (0.433) 5 6 7 8 4 3 2 1 11.15 ?0.15 (0.442 ?0.006) 9.00 ?0.15 (0.354 ?0.006) 1.3 (0.051) 12.30 ?0.30 (0.484 ?0.012) 6.15 (0.242) typ. 0.9 (0.035) pad location (for reference only) 1.78 ?0.15 (0.070 ?0.006) 4.00 (0.158) max. 1.55 (0.061) max. 2.54 (0.100) bsc dimensions in millimeters (inches). lead coplanarity = 0.10 mm (0.004 inches). 0.254 + 0.076 - 0.0051 (0.010 + 0.003) - 0.002) max.
1-136 regulatory information the hcpl-22xx/02xx and hcnw22xx have been approved by the following organizations: ul recognized under ul 1577, component recognition program, file e55361. csa approved under csa component acceptance notice #5, file ca 88324. vde approved according to vde 0884/06.92. (hcpl-2211/2212 option 060 and hcnw22xx only) bsi certification according to bs415:1994, (bs en60065:1994); bs en60950:1992 (bs7002:1992) and en41003:1993 for class ii applications. (hcnw22xx only) insulation and safety related specifications 8-pin dip package 8-pin dip widebody (300 mil) so-8 (400 mil) parameter symbol value value value units conditions minimum external l(101) 7.1 4.9 9.6 mm measured from input terminals air gap (external to output terminals, shortest clearance) distance through air. minimum external l(102) 7.4 4.8 10.0 mm measured from input terminals tracking (external to output terminals, shortest creepage) distance path along body. minimum internal 0.08 0.08 1.0 mm through insulation distance, plastic gap conductor to conductor, usually (internal clearance) the direct distance between the photoemitter and photodetector inside the optocoupler cavity. minimum internal na na 4.0 mm measured from input terminals tracking (internal to output terminals, along creepage) internal cavity. tracking resistance cti 200 200 200 volts din iec 112/vde 0303 part 1 (comparative tracking index) isolation group iiia iiia iiia material group (din vde 0110, 1/89, table 1) option 300 - surface mount classification is class a in accordance with cecc 00802.
1-137 vde 0884 insulation related characteristics (hcpl-2211/2212 option 060 only) description symbol characteristic units installation classification per din vde 0110/1.89, table 1 for rated mains voltage 300 v rms i-iv for rated mains voltage 450 v rms i-iii climatic classification 55/85/21 pollution degree (din vde 0110/1.89) 2 maximum working insulation voltage v iorm 630 v peak input to output test voltage, method b* v iorm x 1.875 = v pr , 100% production test with t m = 1 sec, v pr 1181 v peak partial discharge < 5 pc input to output test voltage, method a* v iorm x 1.5 = v pr , type and sample test, v pr 945 v peak t m = 60 sec, partial discharge < 5 pc highest allowable overvoltage* (transient overvoltage, t ini = 10 sec) v iotm 6000 v peak safety limiting values (maximum values allowed in the event of a failure, also see figure 12, thermal derating curve.) case temperature t s 175 c input current i s,output 230 ma output power p s,output 600 mw insulation resistance at t s , v io = 500 v r s 3 10 9 w *refer to the front of the optocoupler section of the current catalog, under product safety regulations section (vde 0884), for a detailed description. note: isolation characteristics are guaranteed only within the safety maximum ratings which must be ensured by protective circuits in application.
1-138 vde 0884 insulation related characteristics (hcnw22xx only) description symbol characteristic units installation classification per din vde 0110/1.89, table 1 for rated mains voltage 600 v rms i-iv for rated mains voltage 1000 v rms i-iii climatic classification 55/100/21 pollution degree (din vde 0110/1.89) 2 maximum working insulation voltage v iorm 1414 v peak input to output test voltage, method b* v iorm x 1.875 = v pr , 100% production test with t m = 1 sec, v pr 2652 v peak partial discharge < 5 pc input to output test voltage, method a* v iorm x 1.5 = v pr , type and sample test, v pr 2121 v peak t m = 60 sec, partial discharge < 5 pc highest allowable overvoltage* (transient overvoltage, t ini = 10 sec) v iotm 8000 v peak safety limiting values (maximum values allowed in the event of a failure, also see figure 12, thermal derating curve.) case temperature t s 150 c current (input current i f , p s = 0) i s,input 400 ma output power p s,output 700 mw insulation resistance at t s , v io = 500 v r s 3 10 9 w *refer to the front of the optocoupler section of the current catalog, under product safety regulations section (vde 0884), for a detailed description. note: isolation characteristics are guaranteed only within the safety maximum ratings which must be ensured by protective circuits in application. absolute maximum ratings parameter symbol min. max. units note storage temperature t s -55 125 c operating temperature t a -40 85 c average forward input current i f(avg) 10 ma 1 peak transient input current ( 1 m s pulse width, 300 pps) i f(tran) 1.0 a 1 ( 200 m s pulse width, hcnw22xx 40 ma < 1% duty cycle) reverse input voltage v r 5v 1 hcnw22xx 3 average output current i o 25 ma 1 supply voltage v cc 020v output voltage v o -0.5 20 v 1 total package power dissipation p t 210 mw 2 hcpl-223x 294 output power dissipation p o see figure 7 1 lead solder temperature (through hole parts 260 c for 10 sec., only) 1.6 mm below seating plane hcnw22xx 260 c for 10 sec., up to seating plane solder reflow temperature profile (surface see package outline drawings section mount parts only)
1-139 electrical specifications -40 c t a 85 c, 4.5 v v cc 20 v, 1.6 ma i f(on) * 5 ma, 0 v v f(off) 0.8 v, unless otherwise specified. all typicals at t a = 25 c. see note 7. parameter sym. min. typ. max. units test conditions fig. note logic low output voltage v ol 0.5 v i ol = 6.4 ma (4 ttl loads) 1, 3 1 logic high output voltage v oh 2.4 ** v i oh = -2.6 ma 2, 3, 1 2.7 i oh = -0.4 ma output leakage current i ohh 100 m av o = 5.5 v i f = 5 ma 1 500 v o = 20 v logic low supply i ccl 3.7 6.0 ma v cc = 5.5 v v f = 0 v 4.3 7.0 v cc = 20 v hcpl-223x 7.4 12.0 v cc = 5.5 v 8.6 14.0 v cc = 20 v logic high supply i cch 2.4 4.0 ma v cc = 5.5 v i f = 5 ma 2.7 5.0 v cc = 20 v hcpl-223x 4.8 8.0 v cc = 5.5 v 5.4 10.0 v cc = 20 v logic low short circuit i osl 15 ma v o = v cc = 5.5 v v f = 0 v 1, 3 20 v o = v cc = 20 v logic high short circuit i osh -10 ma v cc = 5.5 v i f = 5 ma 1, 3 -20 v cc = 20 v input forward voltage v f 1.5 1.7 v t a = 25 ci f = 5 ma 4 1 1.85 hcnw22xx 1.5 1.82 t a = 25 c 1.95 input reverse breakdown bv r 5vi r = 10 m a1 hcnw22xx 3 i r = 100 m a input diode temperature d v f -1.7 mv/ c i f = 5 ma hcnw22xx d t a -1.4 input capacitance c in 60 pf f = 1 mhz, v f = 0 v 1, 4 hcnw22xx 70 *for hcpl-223x, 1.8 ma i f(on) 5 ma. **typical v oh = v cc - 2.1 v. recommended operating conditions parameter symbol min. max. units power supply voltage v cc 4.5 20 v forward input current (on) i f(on) 1.6* 5 ma hcpl-223x 1.8? forward input voltage (off) v f(off) - 0.8 v operating temperature t a -40 85 c junction temperature t j -40 125 c fan out n 4 ttl loads *the initial switching threshold is 1.6 ma or less. it is recommended that 2.2 ma be used to permit at least a 20% led degradation guardband. ?the initial switching threshold is 1.8 ma or less. it is recommended that 2.5 ma be used to permit at least a 20% led degradation guardband. 8 (v out > v cc ) current current output current output current v o = gnd voltage coefficient i o = open i o = open
1-140 switching specifications (ac) -40 c t a 85 c, 4.5 v v cc 20 v, 1.6 ma i f(on) * 5 ma, 0 v v f(off) 0.8 v. all typicals at t a = 25 c, v cc = 5 v, i f(on) = 3 ma unless otherwise specified. parameter sym. min. typ. max. units test conditions fig. note propagation delay time t phl 150 ns without peaking capacitor 5, 6 1, 6 160 hcnw22xx 150 300 with peaking capacitor propagation delay time t plh 110 ns without peaking capacitor 5, 6 1, 6 180 hcnw22xx 90 300 with peaking capacitor output rise time (10-90%) t r 30 ns 5, 9 1 output fall time (90-10%) t f 7 ns 5, 9 1 parameter sym. device min. units test conditions fig. note logic high |cm h | hcpl-2201/02 1,000 v/ m s|v cm | = 50 v v cc = 5 v 10 1, 7 common mode hcpl-0201 i f = 1.6 ma ? t a = 25 c transient hcpl-2231 immunity hcnw2201 hcpl-2211/12 5,000 v/ m s|v cm | = 300 v hcpl-0211 i f = 1.6 ma ? 10,000 v/ m s|v cm | = 1 kv i f = 5.0 ma logic low |cm l | hcpl-2201/02 1,000 v/ m s|v cm | = 50 v v f = 0 v 10 1, 7 common mode hcpl-0201 v cc = 5 v transient hcpl-2231 t a = 25 c immunity hcnw2201 hcpl-2211/12 10,000 v/ m s|v cm | = 1 kv hcpl-0211 hcpl-2232 hcnw2211 * for hcpl-223x, 1.8 ma i f(on) 5 ma. ?i f = 1.8 ma for hcpl-2231. ?i f = 1.8 ma for hcpl-2232. hcpl-2232 hcnw2211 to logic low output level to logic high output level
1-141 package characteristics parameter sym. min. typ. max. units test conditions fig. note input-output momentary v iso 2500 v rms rh < 50%, t = 1 min. 5, 10 hcnw22xx 5000 t a = 25 c input-output resistance r i-o 10 12 w v i-o = 500 vdc 5 hcnw22xx 10 12 10 13 t a = 25 c 10 11 t a = 100 c input-output capacitance c i-o 0.6 pf f = 1 mhz, 5 hcnw22xx 0.5 0.6 t a = 25 c input-input insulation i i-i 0.005 m a relative humidity = 45%, 12 leakage current t = 5 s, v i-i = 500 v resistance (input-input) r i-i 10 11 w v i-i = 500 v 12 capacitance (input-input) c i-i 0.25 pf f = 1 mhz 12 * the input-output momentary withstand voltage is a dielectric voltage rating that should not be interpreted as an input-output continuous voltage rating. for the continuous voltage rating refer to the vde 0884 insulation characteristics table (if applicable), your equipment level safety specification or hp application note 1074 entitled optocoupler input-output endurance voltage, publication number 5963-2203e. withstand voltage * v i-o = 0 vdc notes: 1. each channel. 2. derate total package power dissipation, p t , linearly above 70 c free-air temperature at a rate of 4.5 mw/ c. 3. duration of output short circuit time should not exceed 10 ms. 4. for single devices, input capacitance is measured between pin 2 and pin 3. 5. device considered a two-terminal device: pins 1, 2, 3, and 4 shorted together and pins 5, 6, 7, and 8 shorted together. 6. the t plh propagation delay is measured from the 50% point on the leading edge of the input pulse to the 1.3 v point on the leading edge of the output pulse. the t phl propagation delay is measured from the 50% point on the trailing edge of the input pulse to the 1.3 v point on the trailing edge of the output pulse. 7. cm h is the maximum slew rate of the common mode voltage that can be sustained with the output voltage in the logic high state, v o > 2.0 v. cm l is the maximum slew rate of the common mode voltage that can be sustained with the output voltage in the logic low state, v o < 0.8 v. 8. for hcpl-2202/12, v o is on pin 6. 9. use of a 0.1 m f bypass capacitor connected between pins 5 and 8 is recommended. 10. in accordance with ul 1577, each optocoupler is proof tested by applying an insulation test voltage 3 3000 v rms for one second (leakage detection current limit, i i-o 5 m a). this test is performed before the 100% production test for partial discharge (method b) shown in the vde 0884 insulation characteristics table, if applicable. 11. in accordance with ul 1577, each optocoupler is proof tested by applying an insulation test voltage 3 6000 v rms for one second (leakage detection current limit, i i-o 5 m a). this test is performed before the 100% production test for partial discharge (method b) shown in the vde 0884 insulation characteristics table. 12. for hcpl-2231/32 only. measured between pins 1 and 2, shorted together, and pins 3 and 4, shorted together. 5, 11
1-142 i oh ?high level output current ?ma -60 -8 t a ?temperature ?? 100 0 -20 -5 20 60 -40 0 40 80 -3 -1 -6 v cc = 4.5 v i f = 5 ma -7 -4 -2 v o = 2.7 v v o = 2.4 v v o ?output voltage ?v 0 0 i f ?input current ?ma 1.5 5 2 1.0 0.5 3 1 v cc = 4.5 v t a = 25 ? 4 i o = 6.4 ma i o = -2.6 ma figure 1. typical logic low output voltage vs. temperature. figure 2. typical logic high output current vs. temperature. figure 3. typical output voltage vs. forward input current. i f ?forward current ?ma 1.1 0.001 v f ?forward voltage ?v 1.0 1000 1.3 0.01 1.5 1.2 1.4 0.1 t a = 25 ? 10 100 hcpl-22xx hcpl-02xx i f + v f i f ?forward current ?ma 1.1 0.001 v f ?forward voltage ?v 1.0 1000 1.3 0.01 1.5 1.2 1.4 0.1 10 100 hcnw22xx i f + v f 1.6 t a = 25 ? figure 4. typical input diode forward characteristic. figure 5. circuit for t plh , t phl , t r ,t f . 7 1 4 5 6 8 hcpl-2201/11 hcpl-02xx hcnw22xx gnd v cc 5 v 619 w input monitoring node pulse gen. t r = t f = 5 ns f = 100 khz 10 % duty cycle v o = 5 v z o = 50 c 2 = 15 pf the probe and jig capacitances are included in c 1 and c 2 . output v o monitoring node v cc r 1 d 1 d 2 5 k w d 3 d 4 2 3 c 1 = 120 pf r 1 i f (on) 2.15 k w 1.6 ma 1.10 k w 3 ma 681 w 5 ma all diodes are 1n916 or 1n3064. * 7 4 5 6 8 hcpl-223x gnd v cc 5 v 619 w input monitoring node pulse gen. t r = t f = 5 ns f = 100 khz 10 % duty cycle v o = 5 v z o = 50 c 2 = 15 pf the probe and jig capacitances are included in c 1 and c 2 . output v o monitoring node v cc r 1 d 1 d 2 5 k w d 3 d 4 2 3 c 1 = 120 pf r 1 i f (on) 1.96 k w 1.8 ma 1.10 k w 3 ma 681 w 5 ma all diodes are 1n916 or 1n3064. 1 * i f (on) 50 % i f (on) 0 ma t plh t phl v oh 1.3 v v ol input i f output v o * 0.1 ? bypass ?see note 9. v ol ?low level output voltage ?v -60 0 t a ?temperature ?? 100 1.0 -20 0.4 20 60 -40 0 40 80 0.6 0.8 0.2 v cc = 4.5 v v f = 0 v i o = 6.4 ma 0.1 0.3 0.5 0.7 0.9
1-143 t p ?propagation delay ?ns -60 50 t a ?temperature ?? 100 200 250 -20 100 20 60 -40 0 40 80 150 hcnw22xx v cc = 5.0 v, 20 v c1 (120 pf) peaking capacitor is used. see figure 5. 5 3 1.6 1.6, 5 i f (ma) t phl t plh figure 6. typical propagation delays vs. temperature. figure 7. maximum output power per channel vs. supply voltage. v oh ?high level output voltage ?v 0 0 v cc ?supply voltage ?v 20 15 20 5 5 10 15 10 typical v oh vs. v cc at i o = -2.6 ma t a = 25 ? t r , t f ?rise, fall time ?ns -60 0 t a ?temperature ?? 100 100 -20 40 20 60 -40 0 40 80 60 80 20 t r v cc = 5 v t f figure 8. typical logic high output voltage vs. supply voltage. figure 9. typical rise, fall time vs. temperature. figure 10. test circuit for common mode transient immunity and typical waveforms. v cm (peak) output v o 0 v v oh |v cm | v ol v o (max.)* v o (min.)* switch at a: i f = 1.6 ma** switch at b: v f = 0 v * see note 7, 9. ** i f = 1.8 ma for hcpl-2231/32 devices. t p ?propagation delay ?ns -60 50 t a ?temperature ?? 100 200 250 -20 100 20 60 -40 0 40 80 150 i f (ma) hcpl-22xx hcpl-02xx 5 3 1.6* 1.6* - 5 t plh t phl v cc = 5.0 v, 20 v c1 (120 pf) peaking capacitor is used. see figure 5. *i f = 1.8 ma for hcpl-223x devices. p o ?maximum output power per channel (mw) 0 0 v cc ?supply voltage ?v 20 60 80 5 20 10 t a = 75 ? 15 40 t a = 85 ? t a = 80? 7 1 4 5 6 8 hcpl-2201/11 hcpl-02xx hcnw22xx 0.1 ? bypass output v o monitoring node v cc r in 2 3 v ff a b + v cm pulse generator + 7 4 5 6 8 hcpl-2231/32 0.1 ? bypass output v o monitoring node v cc 2 3 v ff a b + v cm pulse generator 1 + r 1
1-144 output power ?p s , input current ?i s 0 0 t s ?case temperature ?? 200 50 400 125 25 75 100 150 600 800 200 100 300 500 700 p s (mw) i s (ma) hcpl-2211/2212 option 060 175 figure 11. typical input threshold current vs. temperature. figure 12. thermal derating curve, dependence of safety limiting value with case temperature per vde 0884. figure 13a. recommended lsttl to lsttl circuit where 500 ns propagation delay is sufficient. 18 27 36 45 1 2 hcpl-2201/11 hcpl-02xx hcnw22xx data input ttl or lsttl v cc2 (+5 v) up to 16 lsttl loads or 4 ttl loads * * 0.1 ? bypass 1.1 k w v cc1 (+5 v) data output input current threshold ?ma -60 0.5 t a ?temperature ?? 100 1.0 -20 0.7 20 60 -40 0 40 80 0.8 0.9 0.6 v cc = 5.0 v v cc = 20 v hcpl-22xx hcpl-02xx i f (on) i f (off) i f (on) i f (off) input current threshold ?ma -60 0.5 t a ?temperature ?? 100 1.0 -20 0.7 20 60 -40 0 40 80 0.8 0.9 0.6 v cc = 5.0 v v cc = 20 v hcnw22xx i f (on) i f (off) i f (on) i f (off) output power p s , input current i s 0 0 t s ?case temperature ?? 175 1000 50 400 125 25 75 100 150 600 800 200 100 300 500 700 900 p s (mw) i s (ma) hcnw22xx
1-145 figure 16. series led drive with open collector gate (4.7 k resistor shunts i oh from the led). figure 14. lsttl to cmos interface circuit. 18 27 36 45 hcpl-2201/11 hcpl-02xx hcnw22xx data input d1 (1n4150) required for active pull-up driver. 1.1 k w v cc1 (+5 v) v cc gnd d1 ttl or lsttl figure 15. alternative led drive circuit. 120 pf* 18 27 36 45 hcpl-2201/11 hcpl-02xx hcnw22xx data input ttl or lsttl 1.1 k w 80 w * v cc (+5 v) open collector gate * 120 pf peaking capacitor may be omitted and 80 w resistor may be shorted where 500 ns propagation delay is sufficient. v cc gnd 4.7 k w figure 13b. recommended lsttl to lsttl circuit for applications requiring a maximum allowable propagation delay of 300 ns. 120 pf 18 27 36 45 1 2 hcpl-2201/11 hcpl-02xx hcnw22xx data input ttl or lsttl v cc2 (+5 v) up to 16 lsttl loads or 4 ttl loads * * 0.1 ? bypass 1.1 k w 80 w v cc1 (+5 v) data output 120 pf* 18 27 36 45 1 2 hcpl-2201/11 hcpl-02xx hcnw22xx data input ttl or lsttl v cc2 (4.5 to 20 v) **0.1 ? bypass 1.1 k w 80 w * v cc1 (+5 v) data output totem pole output gate * 120 pf peaking capacitor may be omitted and 80 w resistor may be shorted where 500 ns propagation delay is sufficient. v cc gnd cmos v cc2 5 v 10 v 15 v 20 v r l 1.1 k w 2.37 k w 3.83 k w 5.11 k w r l **

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