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HighCMR,HighSpeedTTLCompatibleOptocouplers
TechnicalData
6N137HCNW137HCNW2601HCNW2611HCPL-0600HCPL-0601HCPL-0611HCPL-0630
HCPL-0631HCPL-0661HCPL-2601HCPL-2611HCPL-2630HCPL-2631HCPL-4661
Features
5kV/msMinimumCommonModeRejection(CMR)atVCM=50VforHCPL-X601/X631,HCNW2601and
10kV/msMinimumCMRatVCM=1000VforHCPL-X611/X661,HCNW2611
HighSpeed:10MBdTypical
LSTTL/TTLCompatible
LowInputCurrentCapability:5mA
GuaranteedacanddcPerformanceoverTemper-ature:-40Cto+85C
Availablein8-PinDIP,
SOIC-8,WidebodyPackages
StrobableOutput(SingleChannelProductsOnly)
SafetyApproval
ULRecognized-2500Vrms
Applications
IsolatedLineReceiver
Computer-PeripheralInterfaces
MicroprocessorSystemInterfaces
DigitalIsolationforA/D,D/AConversion
SwitchingPowerSupply
InstrumentInput/OutputIsolation
GroundLoopElimination
PulseTransformerReplacement
FunctionalDiagram
SHIELD
6N137,HCPL-2601/2611HCPL-0600/0601/0611HCNW137/2601/2611
PowerTransistorIsolationinMotorDrives
IsolationofHighSpeedLogicSystems
Description
The6N137,HCPL-26XX/06XX/4661,HCNW137/26X1are
opticallycoupledgatesthatcombineaGaAsPlightemittingdiodeandanintegratedhighgainphotodetector.Anenableinputallowsthedetectortobestrobed.TheoutputofthedetectorICis
SHIELD
HCPL-2630/2631/4661HCPL-0630/0631/0661
for1minuteand5000Vrms*for1minuteperUL1577
CSAApproved
VDE0884ApprovedwithVIORM=630VpeakforHCPL-2611Option060andVIORM=1414VpeakforHCNW137/26X1
BSICertified(HCNW137/26X1Only)
MIL-STD-1772VersionAvailable(HCPL-56XX/66XX)
NCANODECATHODE
NC
LED
ENABLE
OUTPUT
ON
H
L
OFF
H
H
ON
L
H
OFF
L
H
ON
NC
L
OFF
NC
H
TRUTHTABLE(POSITIVELOGIC)
VCCVEVOGND
ANODE1
CATHODE1
CATHODE2
ANODE2
TRUTHTABLE(POSITIVELOGIC)
LED
OUTPUT
ON
L
OFF
H
VCCVO1VO2GND
*5000Vrms/1MinuteratingisforHCNW137/26X1andOption020(6N137,HCPL-2601/11/30/31,HCPL-4661)productsonly.
A0.1mFbypasscapacitormustbeconnectedbetweenpins5and8.
CAUTION:Itisadvisedthatnormalstaticprecautionsbetakeninhandlingandassemblyofthiscomponenttopreventdamageand/ordegradationwhichmaybeinducedbyESD.
anopencollectorSchottky-clampedtransistor.Theinternalshieldprovidesaguaranteedcommonmodetransientimmunityspecificationof5,000V/msfortheHCPL-X601/X631andHCNW2601,and10,000V/msfortheHCPL-X611/X661andHCNW2611.
ThisuniquedesignprovidesmaximumacanddccircuitisolationwhileachievingTTLcompatibility.Theoptocoupleracanddcoperationalparametersareguaranteedfrom-40Cto
+85Callowingtroublefreesystemperformance.
The6N137,HCPL-26XX,HCPL-06XX,HCPL-4661,HCNW137,
andHCNW26X1aresuitableforhighspeedlogicinterfacing,input/outputbuffering,aslinereceiversinenvironmentsthatconventionallinereceiverscannottolerateandarerecom-mendedforuseinextremelyhighgroundorinducednoiseenvironments.
SelectionGuide
MinimumCMR
InputOn-Current
(mA)
OutputEnable
8-PinDIP(300Mil)
Small-OutlineSO-8
Widebody(400Mil)
Hermetic
dV/dt(V/ms)
VCM(V)
SingleChannel
Package
DualChannel
Package
SingleChannel
Package
DualChannel
Package
SingleChannel
Package
Single
andDualChannel
Packages
NA
NA
5
YES
6N137
HCPL-0600
HCNW137
NO
HCPL-2630
HCPL-0630
5,000
50
YES
HCPL-2601
HCPL-0601
HCNW2601
NO
HCPL-2631
HCPL-0631
10,000
1,000
YES
HCPL-2611
HCPL-0611
HCNW2611
NO
HCPL-4661
HCPL-0661
1,000
50
YES
HCPL-2602[1]
3,500
300
YES
HCPL-2612[1]
1,000
50
3
YES
HCPL-261A[1]
HCPL-061A[1]
NO
HCPL-263A[1]
HCPL-063A[1]
1,000[2]
1,000
YES
HCPL-261N[1]
HCPL-061N[1]
NO
HCPL-263N[1]
HCPL-063N[1]
1,000
50
12.5
[3]
HCPL-193X[1]HCPL-56XX[1]HCPL-66XX[1]
Notes:
TechnicaldataareonseparateHPpublications.
15kV/mswithVCM=1kVcanbeachievedusingHPapplicationcircuit.
Enableisavailableforsinglechannelproductsonly,exceptforHCPL-193Xdevices.
OrderingInformation
SpecifyPartNumberfollowedbyOptionNumber(ifdesired).
Example:
HCPL-2611#XXX
020=5000Vrms/1minuteULRatingOption*060=VDE0884VIORM=630VpeakOption**300=GullWingSurfaceMountOption†
500=TapeandReelPackagingOption
Optiondatasheetsavailable.ContactHewlett-Packardsalesrepresentativeorauthorizeddistributorforinformation.
*For6N137,HCPL-2601/11/30/31andHCPL-4661(8-pinDIPproducts)only.
**ForHCPL-2611only.CombinationofOption020andOption060isnotavailable.
†Gullwingsurfacemountoptionappliestothroughholepartsonly.
Schematic
IF
2+
6N137,HCPL-2601/2611HCPL-0600/0601/0611
HCNW137,HCNW2601/2611 ICC
8VCC
1 IF1
+
HCPL-2630/2631/4661HCPL-0630/0631/0661
ICC
IO1
SHIELD
IO2
VCCV
VF
–
3 SHIELD
IE 7
VE
IO
6VO
GND
5
VF1
–2
3–
VF2
IF2
O1
VO2
USEOFA0.1µFBYPASSCAPACITORCONNECTED
BETWEENPINS5AND8ISRECOMMENDED(SEENOTE5). +
4
SHIELD
GND
5
PackageOutlineDrawings
8-pinDIPPackage**(6N137,HCPL-2601/11/30/31,HCPL-4661)
7.62±0.25
(0.300±0.010)
6.35±0.25
(0.250±0.010)
5°TYP.
9.65±0.25
(0.380±0.010)
TYPENUMBER 8 7
6 5 OPTIONCODE*
HPXXXXZ
YYWW
1 2 3 4
DATECODE
ULRECOGNITION
1.19(0.047)MAX. 1.78(0.070)MAX.
4.70(0.185)MAX.
+0.076
0.254
-0.051
(0.010
+0.003)
-0.002)
0.51(0.020)MIN.
2.92(0.115)MIN.
1.080±0.320
(0.043±0.013)
**JEDECRegisteredData(for6N137only).
0.65(0.025)MAX.
2.54±0.25
(0.100±0.010)
DIMENSIONSINMILLIMETERSAND(INCHES).
*MARKINGCODELETTERFOROPTIONNUMBERS"L"=OPTION020
"V"=OPTION060
OPTIONNUMBERS300AND500NOTMARKED.
8-pinDIPPackagewithGullWingSurfaceMountOption300(6N137,HCPL-2601/11/30/31,HCPL-4661)
1.016(0.040)
1.194(0.047)
(0.190)
4.826TYP.
9.398(0.370)
9.906(0.390)
1.194(0.047)
1.778(0.070)
0.381(0.015)
0.635(0.025)
PADLOCATION(FORREFERENCEONLY)
9.65±0.25
(0.380±0.010)
8 7 6 5
6.350±0.25
(0.250±0.010)
1 2 3 4
1.19
(0.047)MAX.
1.780
(0.070)MAX.
4.19MAX.
(0.165)
9.65±0.25
(0.380±0.010)
7.62±0.25
(0.300±0.010) +0.076
0.254-0.051
(0.010
+0.003)
-0.002)
1.080±0.320
(0.043±0.013)
2.54
(0.100)BSC
0.635±0.130
(0.025±0.005)
0.635±0.25
(0.025±0.010)
12°NOM.
DIMENSIONSINMILLIMETERS(INCHES).
LEADCOPLANARITY=0.10mm(0.004INCHES).
Small-OutlineSO-8Package(HCPL-0600/01/11/30/31/61)
3.937±0.127
(0.155±0.005)
0.381±0.076
(0.016±0.003)
8 7 6 5
XXXYWW
1 2 3 4
5.842±0.203
(0.236±0.008)
TYPENUMBER(LAST3DIGITS)
DATECODE
1.270BSG
(0.050)
5.080±0.127 7°
(0.200±0.005)
3.175±0.127
(0.125±0.005) 1.524
(0.060)
0.432
45°X
(0.017)
0.228±0.025
(0.009±0.001)
DIMENSIONSINMILLIMETERS(INCHES).
LEADCOPLANARITY=0.10mm(0.004INCHES).
0.305MIN.
(0.012)
0.152±0.051
(0.006±0.002)
8-PinWidebodyDIPPackage(HCNW137,HCNW2601/11)
11.15±0.15
(0.442±0.006)
8 7 6 5
HPHCNWXXXX
YYWW
1 2 3 4
TYPENUMBERDATECODE
11.00MAX.
(0.433)
9.00±0.15
(0.354±0.006)
1.55
(0.061)MAX.
10.16(0.400)TYP.
7°TYP.
5.10MAX.
(0.201)
+0.076
0.254
-0.0051
(0.010
+0.003)
-0.002)
3.10(0.122)
3.90(0.154) 0.51(0.021)MIN.
2.54(0.100)TYP.
1.78±0.15
(0.070±0.006)
0.40(0.016)
0.56(0.022) DIMENSIONSINMILLIMETERS(INCHES).
8-PinWidebodyDIPPackagewithGullWingSurfaceMountOption300(HCNW137,HCNW2601/11)
11.15±0.15
(0.242)
6.15TYP.
12.30±0.30
(0.484±0.012)
1.3
(0.051)
0.9
(0.035)
(0.442±0.006) PADLOCATION(FORREFERENCEONLY)
8 7 6 5
9.00±0.15
(0.354±0.006)
1 2 3 4
1.55
(0.061)MAX.
12.30±0.30
(0.484±0.012)
11.00MAX.
(0.433)
MAX.
(0.158)
1.78±0.15
(0.070±0.006)
2.54
(0.100)BSC
0.75±0.25
(0.030±0.010)
1.00±0.15
(0.039±0.006)
0.254
+0.076
-0.0051
(0.010
+0.003)
-0.002)
DIMENSIONSINMILLIMETERS(INCHES).
LEADCOPLANARITY=0.10mm(0.004INCHES).
7°NOM.
SolderReflowTemperatureProfile(HCPL-06XXandGullWingSurfaceMountOption300Parts)
DT=145°C,1°C/SEC
DT=115°C,0.3°C/SEC
DT=100°C,1.5°C/SEC
260
240
220
200
TEMPERATURE–°C
180
160
140
120
100
80
60
40
20
0
0 1 2 3 4 5 6 7 8 9 10 11 12
TIME–MINUTES
Note:Useofnonchlorineactivatedfluxesishighlyrecommended.
RegulatoryInformation
The6N137,HCPL-26XX/06XX/
46XX,andHCNW137/26XXhavebeenapprovedbythefollowingorganizations:
UL
RecognizedunderUL1577,ComponentRecognitionProgram,FileE55361.
CSA
ApprovedunderCSAComponentAcceptanceNotice#5,FileCA88324.
VDE
ApprovedaccordingtoVDE0884/06.92.(HCPL-2611Option
060andHCNW137/26X1only)
BSI
CertificationaccordingtoBS415:1994
(BSEN60065:1994),
BS7002:1992
(BSEN60950:1992)and
EN41003:1993forClassIIapplications.(HCNW137/26X1only)
InsulationandSafetyRelatedSpecifications
Parameter
Symbol
8-pinDIP(300Mil)
Value
SO-8
Value
Widebody(400Mil)
Value
Units
Conditions
MinimumExternalAirGap(ExternalClearance)
L(101)
7.1
4.9
9.6
mm
Measuredfrominputterminalstooutputterminals,shortestdistancethroughair.
MinimumExternalTracking(ExternalCreepage)
L(102)
7.4
4.8
10.0
mm
Measuredfrominputterminalstooutputterminals,shortestdistancepathalongbody.
MinimumInternalPlasticGap(InternalClearance)
0.08
0.08
1.0
mm
Throughinsulationdistance,conductortoconductor,usuallythedirectdistancebetweenthephotoemitterandphotodetectorinsidetheoptocouplercavity.
MinimumInternalTracking(InternalCreepage)
NA
NA
4.0
mm
Measuredfrominputterminalstooutputterminals,alonginternalcavity.
TrackingResistance(ComparativeTrackingIndex)
CTI
200
200
200
Volts
DINIEC112/VDE0303Part1
IsolationGroup
IIIa
IIIa
IIIa
MaterialGroup
(DINVDE0110,1/89,Table1)
Option300-surfacemountclassificationisClassAinaccordancewithCECC00802.
VDE0884InsulationRelatedCharacteristics(HCPL-2611Option060Only)
Description
Symbol
Characteristic
Units
InstallationclassificationperDINVDE0110/1.89,Table1
forratedmainsvoltage£300Vrms
I-IV
forratedmainsvoltage£450Vrms
I-III
ClimaticClassification
55/85/21
PollutionDegree(DINVDE0110/1.89)
2
MaximumWorkingInsulationVoltage
VIORM
630
Vpeak
InputtoOutputTestVoltage,Methodb*
VIORMx1.875=VPR,100%ProductionTestwithtm=1sec,PartialDischarge<5pC
VPR
1181
Vpeak
InputtoOutputTestVoltage,Methoda*VIORMx1.5=VPR,Typeandsampletest,tm=60sec,PartialDischarge<5pC
VPR
945
Vpeak
HighestAllowableOvervoltage*(TransientOvervoltage,tini=10sec)
VIOTM
6000
Vpeak
SafetyLimitingValues
(Maximumvaluesallowedintheeventofafailure,alsoseeFigure16,ThermalDeratingcurve.)
CaseTemperatureInputCurrentOutputPower
TSIS,INPUTPS,OUTPUT
175
230
600
C
mAmW
InsulationResistanceatTS,VIO=500V
RS
‡109
W
*Refertothefrontoftheoptocouplersectionofthecurrentcatalog,underProductSafetyRegulationssection(VDE0884),foradetaileddescription.
Note:Isolationcharacteristicsareguaranteedonlywithinthesafetymaximumratingswhichmustbeensuredbyprotectivecircuitsinapplication.
VDE0884InsulationRelatedCharacteristics(HCNW137/2601/2611Only)
Description
Symbol
Characteristic
Units
InstallationclassificationperDINVDE0110/1.89,Table1
forratedmainsvoltage£600Vrms
I-IV
forratedmainsvoltage£1000Vrms
I-III
ClimaticClassification(DINIEC68part1)
55/100/21
PollutionDegree(DINVDE0110/1.89)
2
MaximumWorkingInsulationVoltage
VIORM
1414
Vpeak
InputtoOutputTestVoltage,Methodb*
VIORMx1.875=VPR,100%ProductionTestwithtm=1sec,PartialDischarge<5pC
VPR
2651
Vpeak
InputtoOutputTestVoltage,Methoda*
VIORMx1.5=VPR,Typeandsampletest,tm=60sec,PartialDischarge<5pC
VPR
2121
Vpeak
HighestAllowableOvervoltage*
(TransientOvervoltage,tini=10sec)
VIOTM
8000
Vpeak
SafetyLimitingValues
(Maximumvaluesallowedintheeventofafailure,alsoseeFigure16,ThermalDeratingcurve.)
CaseTemperatureInputCurrentOutputPower
TSIS,INPUTPS,OUTPUT
150
400
700
C
mAmW
InsulationResistanceatTS,VIO=500V
RS
‡109
W
*Refertothefrontoftheoptocouplersectionofthecurrentcatalog,underProductSafetyRegulationssection(VDE0884),foradetaileddescription.
Note:Isolationcharacteristicsareguaranteedonlywithinthesafetymaximumratingswhichmustbeensuredbyprotectivecircuitsinapplication.
AbsoluteMaximumRatings*(NoDeratingRequiredupto85C)
Parameter
Symbol
Package**
Min.
Max.
Units
Note
StorageTemperature
TS
-55
125
C
OperatingTemperature†
TA
-40
85
C
AverageForwardInputCurrent
IF
Single8-PinDIPSingleSO-8Widebody
20
mA
2
Dual8-PinDIPDualSO-8
15
1,3
ReverseInputVoltage
VR
8-PinDIP,SO-8
5
V
1
Widebody
3
InputPowerDissipation
PI
Widebody
40
mW
SupplyVoltage
(1MinuteMaximum)
VCC
7
V
EnableInputVoltage(NottoExceedVCCbymorethan500mV)
VE
Single8-PinDIPSingleSO-8Widebody
VCC+0.5
V
EnableInputCurrent
IE
5
mA
OutputCollectorCurrent
IO
50
mA
1
OutputCollectorVoltage(SelectionforHigherOutputVoltagesupto20VisAvailable.)
VO
7
V
1
OutputCollectorPowerDissipation
PO
Single8-PinDIPSingleSO-8Widebody
85
mW
Dual8-PinDIPDualSO-8
60
1,4
LeadSolderTemperature(ThroughHolePartsOnly)
TLS
8-PinDIP
260Cfor10sec.,
1.6mmbelowseatingplane
Widebody
260Cfor10sec.,uptoseatingplane
SolderReflowTemperatureProfile(SurfaceMountPartsOnly)
SO-8andOption300
SeePackageOutlineDrawingssection
*JEDECRegisteredData(for6N137only).
**RatingsapplytoalldevicesexceptotherwisenotedinthePackagecolumn.
†0Cto70ConJEDECRegistration.
RecommendedOperatingConditions
Parameter
Symbol
Min.
Max.
Units
InputCurrent,LowLevel
IFL*
0
250
mA
InputCurrent,HighLevel[1]
IFH**
5
15
mA
PowerSupplyVoltage
VCC
4.5
5.5
V
LowLevelEnableVoltage†
VEL
0
0.8
V
HighLevelEnableVoltage†
VEH
2.0
VCC
V
OperatingTemperature
TA
-40
85
C
FanOut(atRL=1kW)[1]
N
5
TTLLoads
OutputPull-upResistor
RL
330
4k
W
*TheoffconditioncanalsobeguaranteedbyensuringthatVFL£0.8volts.
**Theinitialswitchingthresholdis5mAorless.Itisrecommendedthat6.3mAto10mAbeusedforbestperformanceandtopermitatleasta20%LEDdegradationguardband.
†Forsinglechannelproductsonly.
ElectricalSpecifications
Overrecommendedtemperature(TA=-40Cto+85C)unlessotherwisespecified.AllTypicalsatVCC=5V,TA=25C.Allenabletestconditionsapplytosinglechannelproductsonly.Seenote5.
Parameter
Sym.
Package
Min.
Typ.
Max.
Units
TestConditions
Fig.
Note
HighLevelOutputCurrent
IOH*
All
5.5
100
mA
VCC=5.5V,VE=2.0V,VO=5.5V,IF=250mA
1
1,6,
19
InputThresholdCurrent
ITH
SingleChannelWidebody
2.0
5.0
mA
VCC=5.5V,VE=2.0V,VO=0.6V,
IOL(Sinking)=13mA
2,3
19
DualChannel
2.5
LowLevelOutputVoltage
VOL*
8-PinDIPSO-8
0.35
0.6
V
VCC=5.5V,VE=2.0V,IF=5mA,
IOL(Sinking)=13mA
2,3,
4,5
1,19
Widebody
0.4
HighLevelSupplyCurrent
ICCH
SingleChannel
7.0
10.0*
mA
VE=0.5V
VCC=5.5VIF=0mA
7
6.5
VE=VCC
DualChannel
10
15
Both
Channels
LowLevelSupplyCurrent
ICCL
SingleChannel
9.0
13.0*
mA
VE=0.5V
VCC=5.5VIF=10mA
8
8.5
VE=VCC
DualChannel
13
21
Both
Channels
HighLevelEnableCurrent
IEH
SingleChannel
-0.7
-1.6
mA
VCC=5.5V,VE=2.0V
LowLevelEnableCurrent
IEL*
-0.9
-1.6
mA
VCC=5.5V,VE=0.5V
9
HighLevelEnableVoltage
VEH
2.0
V
19
LowLevelEnableVoltage
VEL
0.8
V
InputForwardVoltage
VF
8-PinDIPSO-8
1.4
1.5
1.75*
V
TA=25C
IF=10mA
6,7
1
1.3
1.80
Widebody
1.25
1.64
1.85
TA=25C
1.2
2.05
InputReverseBreakdownVoltage
BVR*
8-PinDIPSO-8
5
V
IR=10mA
1
Widebody
3
IR=100mA,TA=25C
InputDiodeTemperatureCoefficient
DVF/DTA
8-PinDIPSO-8
-1.6
mV/C
IF=10mA
7
1
Widebody
-1.9
InputCapacitance
CIN
8-PinDIPSO-8
60
pF
f=1MHz,VF=0V
1
Widebody
70
*JEDECregistereddataforthe6N137.TheJEDECRegistrationspecifies0Cto+70C.HPspecifies-40Cto+85C.
SwitchingSpecifications(AC)
OverRecommendedTemperature(TA=-40Cto+85C),VCC=5V,IF=7.5mAunlessotherwisespecified.AllTypicalsatTA=25C,VCC=5V.
Parameter
Sym.
Package**
Min.
Typ.
Max.
Units
TestConditions
Fig.
Note
PropagationDelayTimetoHighOutputLevel
tPLH
20
48
75*
ns
TA=25C
RL=350W
8,9,
10
1,10,
19
100
CL=15pF
PropagationDelayTimetoLowOutputLevel
tPHL
25
50
75*
ns
TA=25C
1,11,
19
100
PulseWidthDistortion
|tPHL-tPLH|
8-PinDIPSO-8
3.5
35
ns
8,9,
10,
11
13,19
Widebody
40
PropagationDelaySkew
tPSK
40
ns
12,13,
19
OutputRiseTime(10-90%)
tr
24
ns
12
1,19
OutputFallTime(90-10%)
tf
10
ns
12
1,19
PropagationDelayTimeofEnablefromVEHtoVEL
tELH
SingleChannel
30
ns
RL=350W,CL=15pF,
VEL=0V,VEH=3V
13,
14
14
PropagationDelayTimeofEnablefromVELtoVEH
tEHL
SingleChannel
20
ns
15
*JEDECregistereddataforthe6N137.
**RatingsapplytoalldevicesexceptotherwisenotedinthePackagecolumn.
Parameter
Sym.
Device
Min.
Typ.
Units
TestConditions
Fig.
Note
LogicHighCommonModeTransientImmunity
|CMH|
6N137HCPL-2630
HCPL-0600/0630HCNW137
10,000
V/ms
|VCM|=10V
VCC=5V,IF=0mA,VO(MIN)=2V,
RL=350W,TA=25C
15
1,16,
18,19
HCPL-2601/2631
HCPL-0601/0631HCNW2601
5,000
10,000
|VCM|=50V
HCPL-2611/4661
HCPL-0611/0661HCNW2611
10,000
15,000
|VCM|=1kV
LogicLowCommonModeTransientImmunity
|CML|
6N137HCPL-2630
HCPL-0600/0630HCNW137
10,000
V/ms
|VCM|=10V
VCC=5V,IF=7.5mA,VO(MAX)=0.8V,
RL=350W,TA=25C
15
1,17,
18,19
HCPL-2601/2631
HCPL-0601/0631HCNW2601
5,000
10,000
|VCM|=50V
HCPL-2611/4661
HCPL-0611/0661HCNW2611
10,000
15,000
|VCM|=1kV
PackageCharacteristics
AllTypicalsatTA=25C.
Parameter
Sym.
Package
Min.
Typ.
Max.
Units
TestConditions
Fig.
Note
Input-OutputInsulation
II-O*
Single8-PinDIPSingleSO-8
1
mA
45%RH,t=5s,
VI-O=3kVdc,TA=25C
20,21
Input-OutputMomentaryWith-standVoltage**
VISO
8-PinDIP,SO-8
2500
Vrms
RH£50%,t=1min,TA=25C
20,21
Widebody
5000
20,22
OPT020†
5000
Input-OutputResistance
RI-O
8-PinDIP,SO-8
1012
W
VI-O=500Vdc
1,20,
23
Widebody
1012
1013
TA=25C
1011
TA=100C
Input-OutputCapacitance
CI-O
8-PinDIP,SO-8
0.6
pF
f=1MHz,TA=25C
1,20,
23
Widebody
0.5
0.6
Input-InputInsulationLeakageCurrent
II-I
DualChannel
0.005
mA
RH£45%,t=5s,VI-I=500V
24
Resistance(Input-Input)
RI-I
DualChannel
1011
W
24
Capacitance(Input-Input)
CI-I
Dual8-PinDIP
0.03
pF
f=1MHz
24
DualSO-8
0.25
*JEDECregistereddataforthe6N137.TheJEDECRegistrationspecifies0Cto70C.HPspecifies-40Cto85C.
**TheInput-OutputMomentaryWithstandVoltageisadielectricvoltageratingthatshouldnotbeinterpretedasaninput-outputcontinuousvoltagerating.ForthecontinuousvoltageratingrefertotheVDE0884InsulationCharacteristicsTable(ifapplicable),yourequipmentlevelsafetyspecificationorHPApplicationNote1074entitled“OptocouplerInput-OutputEnduranceVoltage.”
†For6N137,HCPL-2601/2611/2630/2631/4661only.
Notes:
Eachchannel.
Peakingcircuitsmayproducetransientinputcurrentsupto50mA,50nsmaximumpulsewidth,providedaveragecurrentdoesnotexceed20mA.
Peakingcircuitsmayproducetransientinputcurrentsupto50mA,50nsmaximumpulsewidth,providedaveragecurrentdoesnotexceed15mA.
Deratelinearlyabove80Cfree-airtemperatureatarateof2.7mW/CfortheSOIC-8package.
Bypassingofthepowersupplylineisrequired,witha0.1mFceramicdisccapacitoradjacenttoeachoptocouplerasillustratedinFigure17.Totalleadlengthbetweenbothendsofthecapacitorandtheisolatorpinsshouldnotexceed20mm.
TheJEDECregistrationforthe6N137specifiesamaximumIOHof250mA.HPguaranteesamaximumIOHof100mA.
TheJEDECregistrationforthe6N137specifiesamaximumICCHof15mA.HPguaranteesamaximumICCHof10mA.
TheJEDECregistrationforthe6N137specifiesamaximumICCLof18mA.HPguaranteesamaximumICCLof13mA.
TheJEDECregistrationforthe6N137specifiesamaximumIELof–2.0mA.HPguaranteesamaximumIELof-1.6mA.
ThetPLHpropagationdelayismeasuredfromthe3.75mApointonthefallingedgeoftheinputpulsetothe1.5Vpointontherisingedgeoftheoutputpulse.
ThetPHLpropagationdelayismeasuredfromthe3.75mApointontherisingedgeoftheinputpulsetothe1.5Vpointonthefallingedgeoftheoutputpulse.
tPSKisequaltotheworstcasedifferenceintPHLand/ortPLHthatwillbeseenbetweenunitsatanygiventemperatureandspecifiedtestconditions.
Seeapplicationsectiontitled“PropagationDelay,Pulse-WidthDistortionandPropagationDelaySkew”formoreinformation.
ThetELHenablepropagationdelayismeasuredfromthe1.5Vpointonthefallingedgeoftheenableinputpulsetothe1.5Vpointontherisingedgeoftheoutputpulse.
ThetEHLenablepropagationdelayismeasuredfromthe1.5Vpointontherisingedgeoftheenableinputpulsetothe1.5Vpointonthefallingedgeoftheoutputpulse.
CMHisthemaximumtolerablerateofriseofthecommonmodevoltagetoassurethattheoutputwillremaininahighlogicstate(i.e.,VO>2.0V).
CMListhemaximumtolerablerateoffallofthecommonmodevoltagetoassurethattheoutputwillremaininalowlogicstate(i.e.,VO<0.8V).
Forsinusoidalvoltages,(|dVCM|/dt)max=pfCMVCM(p-p).
Noexternalpullupisrequiredforahighlogicstateontheenableinput.IftheVEpinisnotused,tyingVEtoVCCwillresultinimprovedCMRperformance.Forsinglechannelproductsonly.
Deviceconsideredatwo-terminaldevice:pins1,2,3,and4shortedtogether,andpins5,6,7,and8shortedtogether.
InaccordancewithUL1577,eachoptocouplerisprooftestedbyapplyinganinsulationtestvoltage‡3000Vrmsforonesecond(leakagedetectioncurrentlimit,II-O£5mA).Thistestisperformedbeforethe100%productiontestforpartialdischarge(Methodb)shownintheVDE0884InsulationCharacteristicsTable,ifapplicable.
InaccordancewithUL1577,eachoptocouplerisprooftestedbyapplyinganinsulationtestvoltage‡6000Vrmsforonesecond(leakagedetectioncurrentlimit,II-O£5mA).Thistestisperformedbeforethe100%productiontestforpartialdischarge(Methodb)shownintheVDE0884InsulationCharacteristicsTable,ifapplicable.
MeasuredbetweentheLEDanodeandcathodeshortedtogetherandpins5through8shortedtogether.Fordualchannelproductsonly.
Measuredbetweenpins1and2shortedtogether,andpins3and4shortedtogether.Fordualchannelproductsonly.
IOH–HIGHLEVELOUTPUTCURRENT–µA
VCC=5.5VVO=5.5VVE=2.0V*IF=250µA
FORSINGLECHANNELPRODUCTS
ONLY
15 6
VO–OUTPUTVOLTAGE–V
5
8-PINDIP,SO-8 WIDEBODY
VCC=5VTA=25°C
RL=350W
RL=1KWRL=4KW
VCC=5VTA=25°C
RL=350W
RL=1KWRL=4KW
6
VO–OUTPUTVOLTAGE–V
5
10 4 4
3 3
5 2 2
1 1
0
-60-40-20020406080100
TA–TEMPERATURE–°C
0
0 1 2 3 4 5 6
IF–FORWARDINPUTCURRENT–mA
0
0 1 2 3 4 5 6
IF–FORWARDINPUTCURRENT–mA
Figure1.TypicalHighLevelOutputCurrentvs.Temperature.
Figure2.TypicalOutputVoltagevs.ForwardInputCurrent.
ITH–INPUTTHRESHOLDCURRENT–mA
8-PINDIP,SO-8
6
WIDEBODY
RL=350W
RL=1KW
RL=4KW
VCC=5.0VVO=0.6V
ITH–INPUTTHRESHOLDCURRENT–mA
6
5 5
4 4
3 3
2 2
1 1
0
-60-40-20020406080100
0
-60-40-20020406080100
TA–TEMPERATURE–°C TA–TEMPERATURE–°C
Figure3.TypicalInputThresholdCurrentvs.Temperature.
VOL–LOWLEVELOUTPUTVOLTAGE–V
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
8-PINDIP,SO-8
VCC=5.5V*FORSINGLEVE=2.0V* CHANNEL
IF=5.0mA PRODUCTSONLY
IO=16mA
IO=9.6mA
IO=6.4mA
IO=12.8mA
VOL–LOWLEVELOUTPUTVOLTAGE–V
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
WIDEBODY
VCC=5.0V *FORSINGLEVE=2.0V* CHANNEL
VOL=0.6V PRODUCTSONLY
IF=10-15mA
IF=5.0mA
VCC=5.5VVE=2.0VIF=5.0mA
IO=16mA
IO=12.8mA
IO=9.6mA
IO=6.4mA
IOL–LOWLEVELOUTPUTCURRENT–mA
70
60
50
40
20
-60-40-20020406080100 -60-40-20020406080100 -60-40-20020406080100
TA–TEMPERATURE–°C TA–TEMPERATURE–°C TA–TEMPERATURE–°C
Figure4.TypicalLowLevelOutputVoltagevs.Temperature. Figure5.TypicalLowLevelOutputCurrentvs.Temperature.
8-PINDIP,SO-8 WIDEBODY
TA=25°C
IF
VF
1000 110
IF–FORWARDCURRENT–mA
IF–FORWARDCURRENT–mA
100 100
10 10
1.0 1.0
0.1 0.1
0.01 0.01
0.001
1.1 1.2 1.3 1.4 1.5 1.6
VF–FORWARDVOLTAGE–V
0.001
1.2 1.3 1.4 1.5 1.6 1.7
VF–FORWARDVOLTAGE–V
Figure6.TypicalInputDiodeForwardCharacteristic.
dVF/dT–FORWARDVOLTAGETEMPERATURECOEFFICIENT–mV/°C
-2.4
8-PINDIP,SO-8
dVF/dT–FORWARDVOLTAGETEMPERATURECOEFFICIENT–mV/°C
-2.3
WIDEBODY
-2.2
-2.0
-1.8
-1.6
-1.4
-2.2
-2.1
-2.0
-1.9
-1.2
0.1 1
10 100
-1.8
0.1 1
10 100
IF–PULSEINPUTCURRENT–mA IF–PULSEINPUTCURRENT–mA
Figure7.TypicalTemperatureCoefficientofForwardVoltagevs.InputCurrent.
SINGLECHANNEL +5V
OUTPUTVO
PULSEGEN.ZO=50W
tf=tr=5ns
IF
INPUTMONITORING
NODE
DUALCHANNEL
VCC8
2 7
0.1µF
+5V
RLOUTPUTVO
MONITORINGNODE
MONITORING 3
NODE RM
4
6
GND5
BYPASS
CL*
*CLISAPPROXIMATELY15pFWHICHINCLUDESPROBEANDSTRAYWIRINGCAPACITANCE.
IF=7.50mA
INPUT
IF
OUTPUT
VO
tPHL tPLH
IF=3.75mA
1.5V
Figure8.TestCircuitfortPHLandtPLH.
tP–PROPAGATIONDELAY–ns
100
80
105
VCC=5.0VIF=7.5mA
tPLH,RL=4KW
tPHL,RL=350W
1KW
4KW
tPLH,RL=1KW
tPLH,RL=350W
tP–PROPAGATIONDELAY–ns
90
VCC=5.0VTA=25°C
tPLH,RL=4KW
60 75
40 60
tPLH,RL=350W
tPLH,RL=1KW
20 45tPHL,RL=350W
1KW
0 30 4KW
-60-40-20020406080100 5 7 9 11 13 15
TA–TEMPERATURE–°C IF–PULSEINPUTCURRENT–mA
Figure9.TypicalPropagationDelayvs.Temperature.
Figure10.TypicalPropagationDelayvs.PulseInputCurrent.
PWD–PULSEWIDTHDISTORTION–ns
40
30
20
10
0
300
RL=4kW
VCC=5.0VIF=7.5mA
RL=350W
RL=1kW
tr,tf–RISE,FALLTIME–ns
290
60
40
20
VCC
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