PC930 SeriesPC930 SeriessFeatures1. High sensitivity (IFLH, IFHL:MAX. 1mA)2. TTL and LSTTL compatible output3. Operating supply voltage range (VCC:4.5 to 15V, PC930/PC931/PC932/PC933)4. Various output forms (Open collector output, pull-up resistor built-in type, totem pole output)5. Low output current dissipation (ICCL:MAX. 3.8mA)6. High isolation voltage between input and output (Viso:5 000Vrms)7. Recognized by UL, file No. E380Digital Output, High SensitivityType OPIC PhotocouplersOutline Dimensions66.5±0.5(Unit:mm) Model No.1230.9±0.21.2±0.3 Anode mark7.12±0.50.5 TYP3.5±0.57.62±0.33.7±0.53.35±0.50.5±0.12.±0.25θ0.26±0.1θ=0 to 13˚θsModel Line-upOpen collectoroutput typePull-up resistorbuilt-in typeTotem poleoutput typeLow activeHigh activePC930PC931PC932PC933PC934PC935Internal connection diagramPC930/PC931PC932/PC93366sApplications1. Computer terminals2. High speed line receivers3. Interfaces with various data transmission equipment123Amp123AmpPC934/PC9356••••••1 Anode2 Cathode3NCVoltageregulator4VO5 GND6VCCsAbsolute Maximum RatingsParameterSymbolForward currentIF*1Peak forward currentIFMInputReverse voltageVRPower dissipationPPC930/PC931Supply voltagePC932/PC933VCCPC934/PC935OutputHigh level output voltagePC930/PC931VOHHigh level output currentPC934/PC935IOHLow level output currentIOLPower dissipationPOTotal power dissipationPtot*2Isolation voltageVisoOperating temperatureToprStorage temperatureTstg*3Soldering temperatureTsolRating201670-0.5 to 16.0-0.5 to 7.0-0.5 to 16.0-800501501705 000-25 to+85-40 to+125260UnitmAAVmWVVµAmAmWmWVrms˚C˚C˚C123Amp* “OPIC”( Optical IC) is a trademark of the SHARP Corporation. An OPIC consists of a light-detecting element and signal- processing circuit integrated onto a single chip.*1 Pulse width<=100µs Duty ratio:0.001*2 40 to 60%RH, AC for 1 minute*3 For 10 seconds“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, data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.”PC930 SeriessElectro-optical CharacteristicsParameterForward voltageInputReverse currentTerminal capacitancePC930/PC931OperatingPC932/PC933supplyPC934/PC935voltagePC930/PC932Low levelPC931/PC933outputPC934voltagePC935PC932High levelPC933outputPC934voltagePC935High levelPC930outputPC931currentPC930Low levelPC931supplyPC932/PC934currentPC933/PC935PC930/PC932High levelPC934supplyPC931/PC933currentPC935PC934Output shortcircuit currentPC935*4PC930/PC932“High→PC934Low”Thre-shold inputPC931/PC933currentPC935*5PC930/PC932“Low→PC934High” Thre-shold inputPC931/PC933currentPC935PC930/PC932PC934*6HysteresisPC931/PC933PC935Isolation resistance“High→Low”propagationdelay time“Low→High”propagationdelay timePC930/PC932PC934PC931/PC933PC935PC930/PC932PC934PC931/PC933PC935(Ta=0 to+70˚C unless otherwise specified.)SymbolVFIRCtVCCConditionsIF=2mAIF=0.1mATa=25˚C, VR=3VTa=25˚C, V=0, f=1kHz-IOL=16mA, VCC=5V, IF=1mAIOL=16mA, VCC=5V, IF=0IOL=16mA, VCC=4.5V, IF=1mAIOL=16mA, VCC=4.5V, IF=0VCC=5V, IF=0VCC=5V, IF=1mAVCC=4.5V, IF=0, IOH= -400µAVCC=4.5V, IF=1mA, IOH= -400µAVCC=VO=15V, IF=0VCC=VO=15V, IF=1mAVCC=5V, IF=1mAVCC=5V, IF=0VCC=5V, IF=1mAVCC=5V, IF=0VCC=5V, IF=0ICCHIOSVCC=5V, IF=1mAVCC=5V, IF=0, T=Within 1 secondVCC=5V, IF=1mA, T=Within 1 secondVCC=5V, RL=280Ω-6-IFHL0.10.1IFLHIFLH/IFHLIFHL/IFLHRISOtPHLVCC=5V, RL=280ΩTa=25˚C, DC500V, 40 to 60%RHTa=25˚CVCC=5VIF=1mARL=280ΩFig.1-5x1010------0.8101135530.050.1--9151590.50.5µs-ΩVCC=5V, RL=280Ω-0.7170.50.40.40.52.2351.0--1.0mAmAmAmAmAmAMIN.-0.55--4..5TYP.1.10.95-30-MAX.1.4-10250155.5UnitVVµApFVVVOL-0.150.4V3.52.4----------1.31.31.71.7--1001003.43.43.83.8VVµAmAmAmAmAVOHOutputIOHICCLTransfercharac-teristicsResponse timetPLHtftrFall timeRise time*4 IFHL represents forward current when output goes from high to low.*5 IFLH represents forward current when output goes from low to high.*6 Hysteresis stands for IFLH/IFHL.PC930 SeriessRecommended Operating ConditionsParameterLow level output currentHigh leveloutputPC934/PC935currentPC930/PC931SupplyPC932/PC933voltagePC934/PC935Operating temperatureSymbolIOLIOHMIN.--4..50TYP.1.6-5.05.025MAX.16-40015.05.570UnitmAµAVV˚CVCCToprFig. 1 Test Circuit for tPHL, tPLH, tr, tfPC930/PC931Voltage regulator5V280ΩVO0.01µF47ΩPC932/PC933Voltage regulator5V280ΩVO0.01µFInput47ΩPC934/PC935Voltage regulator5Vtr=tf=0.01µsVinZO=50Ω47Ω280ΩAmp.PC930/PC932/PC934InputtPHLtr=tf=0.01µsVinZO=50Ω50%tPLH90%1.5V10%tftrVOLVOHAmp.Outputtr=tf=0.01µsVinZO=50ΩAmp.PC931/PC933/PC93550%tPLH1.5VtPHLVOH90%10%VOLtrtfOutputVO0.01µFFig. 2 Forward Current vs. Ambient Temperature3025Fig. 3 Power Dissipation vs. Ambient Temperature200170Power dissipation PO, Ptot (mW)150PtotPOForward current IF (mA)20151050-25100500255075851000-25025507585100Ambient temperature Ta (˚C)Ambient temperature Ta (˚C)PC930 Series
Fig. 4 Forward Current vs. Forward Voltage
500200Forward current IF (mA)100502010521
0.400.51.01.52.02.53.03.505(V)Forward voltage VF Fig. 5-b Relative Threshold Input Current vs. Supply Voltage1.4
1IFHLIFLH2IFLHIFHL(PC934)(PC935)(PC934)(PC935)11.0
2Ta=75˚CRelative threshold input current50˚C25˚C0˚C-25˚C1.21.0Fig. 5-a Relative Threshold Input Current vs. Supply Voltage
1.41IFHL(PC930/PC932)IFLH(PC931/PC933)2IFLH(PC930/PC932)IFHL(PC931/PC933)10.820.6IFHL (PC930/PC932)=1IFLH (PC931/PC933)=1at VCC=5V1015CC (V)20Supply voltage VFig. 6 Relative Threshold Input Current vs. Ambient Temperature1IFHL(PC930/PC932/PC934)IFLH(PC931/PC933/PC935)2IFLH(PC930/PC932/PC934) IFHL(PC931/PC933/PC935)1.5VCC=5V2.0Relative threshold input current1.2
Relative threshold input current121.00.8
0.6
0.50.4345IFHL (PC934)=1IFLH (PC935)=1at VCC=5V678Supply voltage VCC (V)
IFHL(PC930/PC932/PC934)=1IFLH(PC931/PC933/PC935)=1at Ta=25˚C02550751000-25Ambient temperature Ta (˚C)
Fig. 7 Low Level Output Voltage vs. Low Level Output Current
1.0VCC=5V (PC930/PC931 PC932/PC933)(PC934/PC935)V=4.5V 0.5CCIF=1mA (PC930/PC932/PC934)IF=0 (PC931/PC933/PC935)Ta=25˚C0.2PC932/PC9330.1Fig. 8 Low Level Output Voltage vs. Ambient Temperature
VCC=5V(PC930/PC931/PC932/PC933)VCC=4.5V(PC934/PC935)
IF=1mA(PC930/PC932/PC934)IF=0(PC931/PC933/PC935)
IOL=30mA
0.2
16mA
0.050.020.01125Low level output voltage VOL (V)Low level output voltage VOL (V)PC930/PC931PC934/PC9350.1
5mA
1020501000-25
0255075100
Low level output current IOL (mA)
Ambient temperature Ta (˚C)
PC930 Series
Fig. 9-a Supply Current vs. Supply Voltage
(PC930/PC931)
4Fig. 9-b Supply Current vs. Supply Voltage
(PC932/PC933)
4Ta= -25˚CSupply current ICC(mA)Supply current ICC(mA)3325˚C2ICCL2Ta= -25˚C25˚CICCLICCLICCL85˚CTa= -25˚C1ICCHICCHICCHTa= -25˚C25˚C85˚C125˚C85˚CICCH85˚C00481216200048121620Supply voltage VCC(V)Supply voltage VCC(V)Fig.10 Propagation Delay Time vs. Forward Current20(µs)1tPLHtPHL2tPHLtPLH((((PC930/PC932/PC934PC931/PC933/PC935PC930/PC932/PC934PC931/PC933/PC935)VCC=5V)R=280ΩL)T=25˚C)aFig. 9-c Supply Current vs. Supply Voltage(PC934/PC935)4Supply current ICC(mA)3PLHPropagation delay time tPHL, tTa= -25˚C25˚C85˚CICCL1511021Ta= -25˚C25˚C52085˚C03
ICCH4
65
Supply voltage VCC(V)
78051015Forward current IF(mA)
20Fig.11-a Rise Time, Fall Time vs.
Load Resistance
(PC930/PC931)
0.5
VCC=5VIF=1mATa=25˚C
Fig.11-b Rise Time, Fall Time vs.
Load Resistance
(PC932/PC933)
0.5
VCC=5VIF=1mATa=25˚C
Rise time, fall time tr, tf(µs)0.3
Rise time, fall time tr, tf (µs)0.40.4
0.3
0.2
tr0.1
tf
00.1
0.2
0.5
1
2
5
10
0.2
tr
0.1
tf
00.1
0.2
0.5
1
2
5
10
Load resistance RL(kΩ)
Load resistance RL(kΩ)
PC930 Series
Fig.11-c Rise Time, Fall Time vs.
Resistance Load
(PC934/PC935)
0.5
VCC=5VIF=1mATa=25˚C
Rise time, fall time tr, tf (µs)0.4
0.3
0.2
trtf
00.1
0.2
0.5
1
2
5
10
0.1
Load resistance RL (kΩ)
sPrecautions for Use
(1) It is recommended that a by-pass capacitor of more than 0.01µF is added between VCC and GND near the device in order to stabilize power supply line.
(2) Handle this product the same as with other integrated circuits against static electricity.(3) As for other general cautions, refer to the chapter“Precautions for Use .”
