HCPL-4502-500资料

Single Channel, High SpeedOptocouplersTechnical Data

6N135/6HCNW135/6HCNW4502/3HCPL-2502HCPL-0452/3HCPL-0500/1HCPL-4502/3

Features

• 15 kV/µs Minimum CommonMode Transient Immunity atVCM = 1500 V (4503/0453)• High Speed: 1 Mb/s• TTL Compatible

• Available in 8-Pin DIP, SO-8,Widebody Packages• Open Collector Output• Guaranteed Performancefrom Temperature: 0°Cto70°C

• Safety Approval

UL Recognized – 3750 V rmsfor 1 minute (5000 V rms for1 minute for HCNW andOption 020 devices) perUL1577CSA Approved

IEC/EN/DIN EN 60747-5-2Approved

–VIORM = 630 V peak forHCPL-4503#060

–VIORM = 1414 V peak forHCNW devices

• Dual Channel Version

Available (253X/4534/053X/0534)

• MIL-PRF-38534 HermeticVersion Available (55XX/65XX/4N55)

Applications

• High Voltage Insulation• Video Signal Isolation

• Power Transistor Isolationin Motor Drives• Line Receivers

• Feedback Element inSwitched Mode PowerSupplies

• High Speed Logic GroundIsolation – TTL/TTL, TTL/CMOS, TTL/LSTTL

• Replaces Pulse Transformers• Replaces Slow

Phototransistor Isolators• Analog Signal GroundIsolation

Description

These diode-transistor optocoup-lers use an insulating layer

between a LED and an integratedphotodetector to provide elec-trical insulation between inputand output. Separate connectionsfor the photodiode bias andoutput-transistor collectorincrease the speed up to a

hundred times that of a conven-tional phototransistor coupler byreducing the base-collectorcapacitance.

Functional Diagram

NC1ANODE2CATHODE3NC48VCC*7VB6VO5GNDTRUTH TABLE(POSITIVE LOGIC)VOLEDLOWONHIGHOFF* NOTE: FOR 4502/3, 0452/3, PIN 7 IS NOT CONNECTED.A 0.1 µF bypass capacitor must be connected between pins 5 and 8.

CAUTION: It is advised that normal static precautions be taken in handling and assembly of this component toprevent damage and/or degradation which may be induced by ESD.

元器件交易网www.cecb2b.com

2

These single channel optocoup-lers are available in 8-Pin DIP,SO-8 and Widebody packageconfigurations.

The 6N135, HCPL-0500, andHCNW135 are for use in TTL/CMOS, TTL/LSTTL or widebandwidth analog applications.Current transfer ratio (CTR) forthese devices is 7% minimum atIF=16mA.

The 6N136, HCPL-2502,

HCPL-0501, and HCNW136 aredesigned for high speed TTL/TTLapplications. A standard 16 mATTL sink current through theinput LED will provide enough

output current for 1 TTL load anda 5.6 kΩ pull-up resistor. CTR forthese devices is 19% minimum atIF=16mA.

The HCPL-4502, HCPL-0452,and HCNW4502 provide theelectrical and switchingperformance of the 6N136,

HCPL-0501, and HCNW136 withincreased ESD protection.The HCPL-4503, HCPL-0453,and HCNW4503 are similar to theHCPL-4502, HCPL-0452, andHCNW4502 optocouplers buthave increased common modetransient immunity of 15 kV/µsminimum at VCM=1500Vguaranteed.

Schematic2+VFCATHODE–3IFICC8VCCANODEIO6VOSHIELDHCPL-4503/0453HCNW45035GNDIB7*VB* NOTE: FOR HCPL-4502/-3, HCPL-0452/3, HCNW4502/3, PIN 7 IS NOT CONNECTED.Selection GuideMinimum CMRdV/dt(V/µs)1,000 8-Pin DIP (300 Mil)CurrentSingleDualChannelChannelVCMTransfer(V) Ratio (%)PackagePackage*1076N135HCPL-2530196N136HCPL-2531HCPL-4502†15HCPL-2502150019HCPL-4503†HCPL-4534109 Small-Outline SO-8SingleDualChannelChannelPackagePackage*HCPL-0500HCPL-0530HCPL-0501HCPL-0531HCPL-0452†HCPL-0453†HCPL-0534Widebody(400 Mil)HermeticSingleSingle andChannelDual ChannelPackagePackages*HCNW135HCNW136HCNW4502†HCNW4503†HCPL-55XXHCPL-65XX4N5515,0001,000*Technical data for these products are on separate Agilent publications.†Pin 7, transistor base, is not connected.

Ordering Information

Specify Part Number followed by Option Number (if desired).Example:

HCPL-4503#XXXX020 =UL 5000 V rms/1 Minute Option*

060 =IEC/EN/DIN EN 60747-5-2 VIORM = 630 V peak Option**300 =Gull Wing Surface Mount Option†500 =Tape and Reel Packaging OptionXXXE = Lead Free Option

Option data sheets available. Contact your Agilent sales representative or authorized distributor for information.

*For 6N135/6 and HCPL-4502/3 only.

**For HCPL-4503 only. Combination of Option 020 and Option 060 is not available.†Gull wing surface mount option applies to through hole parts only.

Remarks: The notation “#” is used for existing products, while (new) products launched since 15th July2001 and lead free option will use “-”

元器件交易网www.cecb2b.com

3

Package Outline Drawings

8-Pin DIP Package (6N135/6, HCPL-4502/3, HCPL-2502)

9.65 ± 0.25(0.380 ± 0.010)TYPE NUMBER8765OPTION CODE*DATE CODE7.62 ± 0.25(0.300 ± 0.010)6.35 ± 0.25(0.250 ± 0.010)A XXXXZYYWW11.19 (0.047) MAX.234ULRECOGNITION1.78 (0.070) MAX.+ 0.0760.2- 0.051+ 0.003)(0.010- 0.002)5° TYP.3.56 ± 0.13(0.140 ± 0.005)4.70 (0.185) MAX.0.51 (0.020) MIN.2.92 (0.115) MIN.1.080 ± 0.320(0.043 ± 0.013)0.65 (0.025) MAX.2. ± 0.25RU(0.100 ± 0.010)DIMENSIONS IN MILLIMETERS AND (INCHES).*MARKING CODE LETTER FOR OPTION NUMBERS\"L\" = OPTION 020\"V\" = OPTION 060OPTION NUMBERS 300 AND 500 NOT MARKED.NOTE: FLOATING LEAD PROTRUSION IS 0.25 mm (10 mils) MAX.8-Pin DIP Package with Gull Wing Surface Mount Option 300 (6N135/6, HCPL-4502/3)

LAND PATTERN RECOMMENDATION9.65 ± 0.25(0.380 ± 0.010)87651.016 (0.040)6.350 ± 0.25(0.250 ± 0.010)10.9 (0.430)12341.27 (0.050)1.780(0.070)MAX.9.65 ± 0.25(0.380 ± 0.010)7.62 ± 0.25(0.300 ± 0.010)2.0 (0.080)1.19(0.047)MAX.3.56 ± 0.13(0.140 ± 0.005)+ 0.0760.2- 0.051+ 0.003)(0.010- 0.002)1.080 ± 0.320(0.043 ± 0.013)0.635 ± 0.1302.(0.025 ± 0.005)(0.100)BSCDIMENSIONS IN MILLIMETERS (INCHES).LEAD COPLANARITY = 0.10 mm (0.004 INCHES).0.635 ± 0.25(0.025 ± 0.010)12° NOM.NOTE: FLOATING LEAD PROTRUSION IS 0.25 mm (10 mils) MAX.元器件交易网www.cecb2b.com

4

Small Outline SO-8 Package (HCPL-0500/1, HCPL-0452/3)

LAND PATTERN RECOMMENDATION87653.937 ± 0.127(0.155 ± 0.005)XXXYWW5.994 ± 0.203(0.236 ± 0.008)TYPE NUMBER(LAST 3 DIGITS)DATE CODE7.49 (0.295)PIN ONE10.406 ± 0.076(0.016 ± 0.003)2341.9 (0.075)1.270BSC(0.050)0. (0.025)*5.080 ± 0.127(0.200 ± 0.005)3.175 ± 0.127(0.125 ± 0.005)7°45° X0.432(0.017)1.524(0.060)0 ~ 7°0.228 ± 0.025(0.009 ± 0.001)0.203 ± 0.102(0.008 ± 0.004)*TOTAL PACKAGE LENGTH (INCLUSIVE OF MOLD FLASH)5.207 ± 0.2 (0.205 ± 0.010)DIMENSIONS IN MILLIMETERS (INCHES).LEAD COPLANARITY = 0.10 mm (0.004 INCHES) MAX.0.305MIN.(0.012)8-Pin Widebody DIP Package (HCNW135/6, HCNW4502/3)

11.15 ± 0.15(0.442 ± 0.006)876511.00MAX.(0.433)9.00 ± 0.15(0.3 ± 0.006)TYPE NUMBERDATE CODEA HCNWXXXXYYWW12341.55(0.061)MAX.10.16 (0.400)TYP.7° TYP.+ 0.0760.2- 0.0051+ 0.003)(0.010- 0.002)5.10MAX.(0.201)3.10 (0.122)3.90 (0.1)2. (0.100)TYP.1.78 ± 0.15(0.070 ± 0.006)0.40 (0.016)0.56 (0.022)0.51 (0.021) MIN.DIMENSIONS IN MILLIMETERS (INCHES).NOTE: FLOATING LEAD PROTRUSION IS 0.25 mm (10 mils) MAX.元器件交易网www.cecb2b.com

5

8-Pin Widebody DIP Package with Gull Wing Surface Mount Option 300 (HCNW135/6,HCNW4502/3)

11.15 ± 0.15(0.442 ± 0.006)8765LAND PATTERN RECOMMENDATION9.00 ± 0.15(0.3 ± 0.006)13.56(0.534)12341.3(0.051)1.55(0.061)MAX.12.30 ± 0.30(0.484 ± 0.012)11.00MAX.(0.433)2.29(0.09)4.00MAX.(0.158)1.78 ± 0.15(0.070 ± 0.006)2.(0.100)BSC0.75 ± 0.25(0.030 ± 0.010)1.00 ± 0.15(0.039 ± 0.006)+ 0.0760.2- 0.0051+ 0.003)(0.010- 0.002)7° NOM.DIMENSIONS IN MILLIMETERS (INCHES).LEAD COPLANARITY = 0.10 mm (0.004 INCHES).NOTE: FLOATING LEAD PROTRUSION IS 0.25 mm (10 mils) MAX.Solder Reflow Temperature Profile

300PREHEATING RATE 3°C + 1°C/–0.5°C/SEC.REFLOW HEATING RATE 2.5°C ± 0.5°C/SEC.PEAKTEMP.245°CPEAKTEMP.240°CTEMPERATURE (°C)200160°C150°C140°CPEAKTEMP.230°C2.5°C ± 0.5°C/SEC.30SEC.30SEC.SOLDERINGTIME200°C3°C + 1°C/–0.5°C100PREHEATING TIME150°C, 90 + 30 SEC.50 SEC.TIGHTTYPICALLOOSEROOMTEMPERATURE0050100150200250TIME (SECONDS)

元器件交易网www.cecb2b.com

6

Recommended Pb-Free IR Profile

tpTpTL260 +0/-5 °C217 °CRAMP-UP3 °C/SEC. MAX.150 - 200 °CRAMP-DOWN6 °C/SEC. MAX.TIME WITHIN 5 °C of ACTUALPEAK TEMPERATURE20-40 SEC.TEMPERATURETsmaxTsmintsPREHEAT60 to 180 SEC.25t 25 °C to PEAKTIMEtL60 to 150 SEC.NOTES:THE TIME FROM 25 °C to PEAK TEMPERATURE = 8 MINUTES MAX.Tsmax = 200 °C, Tsmin = 150 °CRegulatory Information

The devices contained in this datasheet have been approved by thefollowing organizations:

UL

Recognized under UL 1577,Component RecognitionProgram, File E55361.

CSA

Approved under CSA ComponentAcceptance Notice #5, File CA88324.

IEC/EN/DIN EN 60747-5-2Approved under

IEC 60747-5-2:1997 + A1:2002EN 60747-5-2:2001 + A1:2002DIN EN 60747-5-2 (VDE 0884 Teil 2):2003-01

(HCNW and Option 060 only)

Insulation and Safety Related Specifications

Parameter SymbolMinimum ExternalL(101)Air Gap (ExternalClearance)

Minimum ExternalL(102)Tracking (ExternalCreepage)

Minimum InternalPlastic Gap

(Internal Clearance)

8-Pin DIP (300 Mil)Value7.1

SO-8Value4.9

Widebody(400 Mil)ValueUnits9.6mm

Conditions

Measured from input terminalsto output terminals, shortestdistance through air.

Measured from input terminalsto output terminals, shortestdistance path along body.Through insulation distance,conductor to conductor, usuallythe direct distance between thephotoemitter and photodetectorinside the optocoupler cavity.Measured from input terminalsto output terminals, alonginternal cavity.

DIN IEC 112/VDE 0303 Part 1

7.44.810.0mm

0.080.081.0mm

Minimum InternalTracking (InternalCreepage)

Tracking Resistance(ComparativeTracking Index)Isolation Group

NANA4.0mm

CTI200200200Volts

IIIaIIIaIIIa

Material Group

(DIN VDE 0110, 1/, Table 1)

Option 300 - surface mount classification is Class A in accordance with CECC 00802.

元器件交易网www.cecb2b.com

7

IEC/EN/DIN EN 60747-5-2 Insulation Related Characteristics(HCPL-4503 OPTION 060 ONLY)

DescriptionInstallation classification per DIN VDE 0110/1., Table 1for rated mains voltage ≤300 V rmsfor rated mains voltage ≤450 V rmsClimatic ClassificationPollution Degree (DIN VDE 0110/1.)Maximum Working Insulation VoltageInput to Output Test Voltage, Method b*VIORM x 1.875 = VPR, 100% Production Test with tm = 1 sec,Partial Discharge < 5 pCInput to Output Test Voltage, Method a*VIORM x 1.5 = VPR, Type and sample test,tm = 60 sec, Partial Discharge < 5 pCHighest Allowable Overvoltage*(Transient Overvoltage, tini = 10 sec)Safety Limiting Values(Maximum values allowed in the event of a failure,also see Figure 9, Thermal Derating curve.)Case TemperatureInput CurrentOutput PowerInsulation Resistance at TS, VIO = 500 VSymbolCharacteristic I-IVI-III55/100/2126301181UnitsVIORMVPRVPRVIOTMV peakV peak945V peak6000V peakIS,INPUTPS,OUTPUTRSTS175230600≥109°CmAmWΩIEC/EN/DIN EN 60747-5-2 Insulation Related Characteristics (HCNW135/6, HCNW4502/3ONLY)

DescriptionInstallation classification per DIN VDE 0110/1., Table 1for rated mains voltage ≤600 V rmsfor rated mains voltage ≤1000 V rmsClimatic ClassificationPollution Degree (DIN VDE 0110/1.)Maximum Working Insulation VoltageInput to Output Test Voltage, Method b*VIORM x 1.875 = VPR, 100% Production Test with tm = 1 sec,Partial Discharge < 5 pCInput to Output Test Voltage, Method a*VIORM x 1.5 = VPR, Type and sample test,tm = 60 sec, Partial Discharge < 5 pCHighest Allowable Overvoltage*(Transient Overvoltage, tini = 10 sec)Safety Limiting Values(Maximum values allowed in the event of a failure,also see Figure 9, Thermal Derating curve.)Case TemperatureInput CurrentOutput PowerInsulation Resistance at TS, VIO = 500 VSymbolCharacteristic I-IVI-III55/85/21214142652UnitsVIORMVPRVPRVIOTMV peakV peak2121V peak8000V peakIS,INPUTPS,OUTPUTRSTS150400700≥ 109°CmAmWΩ*Refer to the front of the optocoupler section of the current catalog, under Product Safety Regulations section IEC/EN/DIN EN60747-5-2, for a detailed description.

Note: Isolation characteristics are guaranteed only within the safety maximum ratings which must be ensured by protective circuits inapplication.

元器件交易网www.cecb2b.com

8

Absolute Maximum RatingsParameterStorage Temperature*Operating Temperature*SymbolTSTADevice8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody8-Pin DIPSO-8WidebodyMin.-55-55-55Max.1251008525504010.153408165-0.5-0.5-0.5-0.5302015155100Units°C°CNoteAverage Forward Input Current*Peak Forward Input Current*(50% duty cycle, 1 ms pulse width)(50% duty cycle, 1 ms pulse width)Peak Transient Input Current*(≤1 µs pulse width, 300 pps)Reverse LED Input Voltage* (Pin 3-2)IF(AVG)IF(PEAK)mAmAA12IF(TRANS)VRVInput Power Dissipation*PINmW3Average Output Current* (Pin 6)Peak Output Current*Emitter-Base Reverse Voltage*(Pin 5-7, except 4502/3, 0452/3)Supply Voltage (Pin 8-5)Output Voltage (Pin 6-5)Supply Voltage* (Pin 8-5)Output Voltage* (Pin 6-5)Base Current* (Pin 7, except 4502/3, 0452/3)Output Power Dissipation*Lead Solder Temperature*(Through-Hole Parts Only)1.6 mm below seating plane, 10 secondsup to seating plane, 10 secondsReflow Temperature Profile*Data has been registered with JEDEC for the 6N135/6N136.

IO(AVG)IO(PEAK)VEBRVCCVOVCCVOIBPOmAmAVVVVVmAmW4TLSTRP8-Pin DIPWidebodySO-8 andOption 300260°C260°CSee Package OutlineDrawings section元器件交易网www.cecb2b.com

9

Electrical Specifications (DC)

Over recommended temperature (TA = 0°C to 70°C) unless otherwise specified. See note 13.

ParameterCurrent

Transfer Ratio

SymbolCTR*

Device6N135HCPL-0500HCNW135HCPL-25026N136HCPL-4502/3HCPL-0501HCPL-0452/3HCNW136HCNW4502/3

6N135HCPL-0500HCNW1356N136HCPL-2502HCPL-4502/3HCPL-0501HCPL-0452/3HCNW136HCNW4502/3

Min.Typ.**718515151915

19

22

252425

50Max.50

Units Test Conditions%TA = 25°CVO = 0.4 VIF = 16 mA,

VCC = 4.5 V

VO = 0.5 V

TA = 25°CVO = 0.4 V

VO = 0.5 V

TA = 25°CVO = 0.4 V

VO = 0.5 V

Fig.1, 2,4

Note5, 11

Logic Low

Output Voltage

VOL

0.10.10.10.1

0.40.50.40.5

V

TA = 25°CIO = 1.1 mAIO = 0.8 mA

TA = 25°CIO = 3.0 mA

IO = 2.4 mA

IF = 16 mA,VCC = 4.5 V

Logic HighOutput CurrentLogic Low

Supply CurrentLogic HighSupply CurrentInput ForwardVoltage

IOH*

0.0030.01500.02

8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody

1.5

1.451.3553

-1.6-1.960901501301801601.68

ICCLICCH*VF*

0.5150200121.71.81.851.95

µA

µAµAV

TA = 25°CVO = VCC = 5.5 VIF = 0 mATA = 25°CVO = VCC = 15 V

VO = VCC = 15 V

IF = 16 mA, VO = Open, VCC = 15 VTA = 25°CIF = 16 mA, VO = Open,

VCC = 15 V

TA = 25°CIF = 16 mATA = 25°CIF = 16 mA

7

1313

3

Input ReverseBreakdownVoltage

TemperatureCoefficient ofForward VoltageInput

CapacitanceTransistor DCCurrent Gain

BVR*

V

IR = 10 µA

∆VF/∆TACIN

IR = 100 µA

mV/°CIF = 16 mA

pF

f = 1 MHz, VF = 0 V

hFE

VO = 5 V, IO = 3 mAVO = 0.4 V, IB = 20 µAVO = 5 V, IO = 3 mAVO = 0.4 V, IB = 20 µA

*For JEDEC registered parts.**All typicals at TA = 25°C.

元器件交易网www.cecb2b.com

10

Switching Specifications (AC)

ParameterPropagationDelay Timeto Logic Lowat Output

Sym.tPHL*

Over recommended temperature (TA = 0°C to 70°C), VCC = 5 V, IF = 16 mA unless otherwise specified.

DeviceMin.Typ.**Max.6N1350.21.5HCPL-05002.0HCNW1356N1360.20.8HCPL-2502HCPL-4502/3HCPL-0501HCPL-0452/31.0HCNW136HCNW4502/3

6N1351.31.5tPLH*

HCPL-05002.0HCNW1356N1360.60.8HCPL-2502HCPL-4502/3HCPL-0501HCPL-0452/31.0HCNW136HCNW4502/3

6N1351|CMH|

HCPL-0500HCNW1356N1361HCPL-2502HCPL-4502HCPL-0501HCPL-0452HCNW4502HCPL-45031530HCPL-0453HCNW45036N1351|CML|

HCPL-0500HCNW1356N1361HCPL-2502HCPL-4502HCPL-0501HCPL-0452HCNW4502HCPL-45031530HCPL-0453HCNW4503

BW6N135/69

HCPL-2502HCPL-0500/1HCNW135/611

Units Test Conditions

µsTA = 25°CRL = 4.1 kΩ

Fig.

5, 6,11

Note8, 9

TA = 25°CRL = 1.9 kΩ

PropagationDelay Time toLogic High atOutput

µs

TA = 25°CRL = 4.1 kΩ

5, 6,11

8, 9

TA = 25°CRL = 1.9 kΩ

Common ModeTransientImmunity atLogic HighLevel Output

kV/µsRL = 4.1 kΩIF = 0 mA, TA = 25°C,

VCM = 10 Vp-pCL = 15 pF

RL = 1.9 kΩ

12

7, 8,9

Common ModeTransientImmunity atLogic LowLevel Output

RL = 1.9 kΩIF = 0 mA, TA = 25°C,

VCM = 1500 Vp-p,CL = 15 pF

kV/µsRL = 4.1 kΩIF = 16 mA, TA = 25°C,

VCM = 10 Vp-pCL = 15 pF

RL = 1.9 kΩ

12

7, 8,9

BandwidthMHz

RL = 1.9 kΩIF = 16 mA, TA = 25°C,

VCM = 1500 Vp-p,CL = 15 pF

See Test Circuit

8, 1010

*For JEDEC registered parts.**All typicals at TA = 25°C.

元器件交易网www.cecb2b.com

11

Package Characteristics

Over recommended temperature (TA = 0°C to 70°C) unless otherwise specified. ParameterInput-OutputMomentaryWithstandVoltage**Sym.VISODevice8-Pin DIPSO-8Widebody8-Pin DIP(Option 020)8-Pin DIPMin.Typ.*3750500050001µA45% RH, t = 5 s,VI-O = 3 kVdc,TA = 25°CVI-O = 500 VdcTA = 25°CTA = 100°Cf = 1 MHzMax.UnitsV rmsTest ConditionsRH < 50%,t = 1 min.,TA = 25°CFig.Note6, 146, 156, 12,156, 16II-OInput-OutputResistanceRI-O8-Pin DIPSO-8Widebody8-Pin DIPSO-8Widebody10121012101110130.60.50.6Ω6Input-OutputCapacitanceCI-OpF6*All typicals at TA = 25°C.

**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 IEC/EN/DIN EN 60747-5-2 Insulation Related CharacteristicsTable (if applicable), your equipment level safety specification or Agilent Application Note 1074 entitled “Optocoupler Input-OutputEndurance Voltage,” publication number 5963-2203E.

Notes:

1.Derate linearly above 70°C free-air temperature at a rate of 0.8 mA/°C (8-Pin DIP).Derate linearly above 85°C free-air temperature at a rate of 0.5 mA/°C (SO-8).

2.Derate linearly above 70°C free-air temperature at a rate of 1.6 mA/°C (8-Pin DIP).Derate linearly above 85°C free-air temperature at a rate of 1.0 mA/°C (SO-8).

3.Derate linearly above 70°C free-air temperature at a rate of 0.9 mW/°C (8-Pin DIP).Derate linearly above 85°C free-air temperature at a rate of 1.1 mW/°C (SO-8).

4.Derate linearly above 70°C free-air temperature at a rate of 2.0 mW/°C (8-Pin DIP).Derate linearly above 85°C free-air temperature at a rate of 2.3 mW/°C (SO-8).

5.CURRENT TRANSFER RATIO in percent is defined as the ratio of output collector current, IO, to the forward LED input current, IF,times 100.

6.Device considered a two-terminal device: Pins 1, 2, 3, and 4 shorted together and Pins 5, 6, 7, and 8 shorted together.

7.Common mode transient immunity in a Logic High level is the maximum tolerable (positive) dVCM/dt on the leading edge of thecommon mode pulse signal, VCM, to assure that the output will remain in a Logic High state (i.e., VO > 2.0 V). Common mode

transient immunity in a Logic Low level is the maximum tolerable (negative) dVCM/dt on the trailing edge of the common mode pulsesignal, VCM, to assure that the output will remain in a Logic Low state (i.e., VO < 0.8 V).8.The 1.9 kΩ load represents 1 TTL unit load of 1.6 mA and the 5.6 kΩ pull-up resistor.9.The 4.1 kΩ load represents 1 LSTTL unit load of 0.36 mA and 6.1 kΩ pull-up resistor.10.The frequency at which the ac output voltage is 3 dB below its mid-frequency value.

11.The JEDEC registration for the 6N136 specifies a minimum CTR of 15%. Agilent guarantees a minimum CTR of 19%.12.See Option 020 data sheet for more information.

13.Use of a 0.1 µf bypass capacitor connected between pins 5 and 8 is recommended.

14.In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 4500 V rms for 1 second

(leakage detection current limit, II-O ≤ 5 µA). This test is performed before the 100% Production test shown in the IEC/EN/DIN EN60747-5-2 Insulation Related Characteristics Table if applicable.

15.In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 6000 V rms for 1 second

(leakage detection current limit, II-O ≤ 5 µA). This test is performed before the 100% Production test shown in the IEC/EN/DIN EN60747-5-2 Insulation Related Characteristics Table if applicable.16.This rating is equally validated by an equivalent ac proof test.

元器件交易网www.cecb2b.com

12

8 PIN DIP, SO-8IO – OUTPUT CURRENT – mAWIDEBODY40 mA35 mA30 mA25 mA16T = 25°CAV = 5.0 VCC1240 mA35 mA30 mA825 mA20 mA15 mA410 mAI = 5 mAF0010VO – OUTPUT VOLTAGE – V20IO – OUTPUT CURRENT – mAT = 25°CA10V = 5.0 VCC520 mA15 mA10 mA0I = 5 mAF010VO – OUTPUT VOLTAGE – V20Figure 1. DC and Pulsed Transfer Characteristics.

NORMALIZED CURRENT TRANSFER RATIO1.5 6N135, HCPL-0500 6N136, HCPL-4502/3, HCPL-2502 HCPL-0501/0452/04531.0NORMALIZED CURRENT TRANSFER RATIO8 PIN DIP, SO-8WIDEBODY1.5HCNW135/6,HCNW4502/31.00.50.101NORMALIZEDI = 16 mAFV = 0.4 VOV = 5 VCCT = 25°CA101000.5001NORMALIZEDI = 16 mAFV = 0.4 VOV = 4.5 VCCT = 25 °CA10100IF – INPUT CURRENT – mAIF – INPUT CURRENT – mAFigure 2. Current Transfer Ratio vs. Input Current.

8 PIN DIP, SO-81000IF – FORWARD CURRENT – mAIF – FORWARD CURRENT – mAWIDEBODY1000T = 25° CA100101.00.10.01 IF+VF–1.31.41.51.61.71.8100101.00.10.010.0011.1 IF+VF–T = 25°CA1.21.31.41.51.60.0011.2VF – FORWARD VOLTAGE – VOLTSVF – FORWARD VOLTAGE – VOLTSFigure 3. Input Current vs. Forward Voltage.

元器件交易网www.cecb2b.com

13

NORMALIZED CURRENT TRANSFER RATIONORMALIZED CURRENT TRANSFER RATIO8 PIN DIP, SO-81.11.00.9NORMALIZEDI = 16 mAFV = 0.4 VOV = 5 VCCT = 25°CA6N135, HCPL-05006N136, HCPL-4502/3, HCPL-2502HCPL-0501, 0452, 0453 020406080100WIDEBODY1.11.00.90.80.70.60.50.4-60-40-20020NORMALIZEDI = 16 mAFV = 0.4 VOV = 5 VCCT = 25°CA406080100HCNW135/6,HCNW4502/30.80.70.6-60-40-20TA – TEMPERATURE – °CTA – TEMPERATURE – °CFigure 4. Current Transfer Ratio vs. Temperature.

8 PIN DIP, SO-82000tp – PROPAGATION DELAY – nsWIDEBODY1000tp – PROPAGATION DELAY – ns1500IF = 16 mA, VCC = 5.0 V6N135, HCPL-0500 (RL = 4.1 kΩ)6N136, HCPL-0501, HCPL-2502HCPL-4502/3 (RL = 1.9 kΩ)HCPL-0452/3 800600IF = 16 mA, VCC = 5.0 VHCNW135 (RL = 4.1 kΩ)HCNW136 (RL = 1.9 kΩ)HCNW4502/31000tPLH500tPHLtPLH400tPHL2000-60-40-200-60-202060100020406080100TA – TEMPERATURE – °CTA – TEMPERATURE – °CFigure 5. Propagation Delay vs. Temperature.

8 PIN DIP, SO-83.0tP – PROPAGATION DELAY – µstP – PROPAGATION DELAY – µsWIDEBODY10.06.0I = 10 mAFI = 16 mAttPLH2.01.00.80.60.40.20.11I = 10 mAFI = 16 mAFV = 5.0 VCCT = 25 °CAtPLH4.0V = 5.0 VCCT = 25 °CA1.00.60.40.20.1tPHLtPHL234567101241040100RL – LOAD RESISTANCE – (kΩ)RL – LOAD RESISTANCE – (kΩ)Figure 6. Propagation Delay Time vs. Load Resistance.

元器件交易网www.cecb2b.com

14

IOH – LOGIC HIGH OUTPUT CURRENT – nAIOH – LOGIC HIGH OUTPUT CURRENT – nA10+410+310+210+110010-110-2-758 PIN DIP, SO-8I = 0FV = V = 5.0 VOCC10+3WIDEBODY10+2I = 0FV = V = 15 VOCC10+1-50-250+25+50+75+10010-60-40-200020406080100TA – TEMPERATURE – °CTA – TEMPERATURE – °CFigure 7. Logic High Output Current vs. Temperature.

∆ IO– SMALL SIGNAL CURRENT TRANSFER RATIOI∆ F8 PIN DIP, SO-8TA = 25°C, RL = 100 Ω, VCC = 5 V∆ IO∆ IF– SMALL SIGNAL CURRENT TRANSFER RATIOWIDEBODYTA = 25°C, RL = 100 Ω, VCC = 5 V0.300.500.400.200.300.100.200.10000481216202504812162025IF – QUIESCENT INPUT CURRENT – mAIF – QUIESCENT INPUT CURRENT – mAFigure 8. Small-Signal Current Transfer Ratio vs. Quiescent Input Current.

OUTPUT POWER – PS, INPUT CURRENT – IS8007006005004003002001000025HCPL-4503 OPTION 060PS (mW)IS (mA)OUTPUT POWER – PS, INPUT CURRENT – IS100090080070060050040030020010000HCNW135/6, HCNW4502/3PS (mW)IS (mA)5075100125150175200255075100125150175TS – CASE TEMPERATURE – °CTS – CASE TEMPERATURE – °CFigure 9. Thermal Derating Curve, Dependence of Safety Limiting Value with Case Temperature per IEC/EN/DIN EN 60747-5-2.

元器件交易网www.cecb2b.com

15

+56N135/6, HCPL-0500/1, HCPL-25026N135/6, HCPL-0500/1, HCPL-2502+12 VTA = 25 °CBd - 0ESNOPS-5ER DE-10ZILAMR-15ON-200.11.010100f - FREQUENCY - MHzHCNW135/6

Figure 10. Frequency Response.

0.1 µF18+12 V2.1 KΩ1.2 KΩ15 KΩ0.1 µF279.1 KΩQ347 µF100 Ω36Q2VOVFFQ10.1 µF470 Ω(1 MΩ 12 pF1 KΩ45100 ΩTEST INPUT)R51 ΩTTRIM FOR1N415022 ΩUNITY GAINQ , Q , Q : 2N3904123TYPICAL LINEARITY = ± 3% AT V = 1 VTYPICAL SNR = 50dBINp-pTYPICAL R = 375 TYPICAL V dc = 3.8 VTΩTYPICAL I = 9 mAOFHCNW135/6

元器件交易网www.cecb2b.com

IF0VO1.5 V5 VPULSEGEN.Z = 50ΩOt = 5 nsrIF123487*60.1µF5RL+5 V10% DUTY CYCLE1/f < 100 µS1.5 VVOLI MONITORFRMVOCL = 1.5 µF tPHLtPLH* PIN 7 UNCONNECTED IN HCPL-4502/3, HCPL-0452/3, HCNW4502/3Figure 11. Switching Test Circuit.

IF1B2VCM0 V10%trVOSWITCH AT A: I = 0 mAFVOSWITCH AT B: I = 16 mAFVOL+90%90%10%tf5 VVFFVCM–A360.1 µF45VO7*RL8+5 VPULSE GEN.*PIN 7 UNCONNECTED IN HCPL-4502/3, HCPL-02/3, HCNW4502/3Figure 12. Test Circuit for Transient Immunity and Typical Waveforms.

www.agilent.com/semiconductors

For product information and a complete list of

distributors, please go to our web site.For technical assistance call:

Americas/Canada: +1 (800) 235-0312 or(916) 788-6763

Europe: +49 (0) 41 92460China: 10800 650 0017

: (+65) 6756 2394

India, Australia, New Zealand: (+65) 6755 1939Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only)Korea: (+65) 6755 19

Singapore, Malaysia, Vietnam, Thailand,Philippines, Indonesia: (+65) 6755 2044Taiwan: (+65) 6755 1843Data subject to change.

Copyright © 2004 Agilent Technologies, Inc.Obsoletes 59-0305ENDecember 20, 200459-2112EN