High Isolation Voltage DC Input Response Type SSOP Photo Coupler KPS2801 UL 1577 (File No.E169586) Features Outside Dimension:Unit (mm) 1. High isolation voltage ( BV = 2500 Vrms) 2. Small and thin package ( 4pin SOP, Pin pitch 1.27mm ) 3. High collector to emitter voltage ( Vceo = 80 V ) 4. High-speed switching ( tr = 3 us TYP., tf = 5 us TYP.) Applications 1. Programmable logic controllers 2. Measuring instruments 3. Power supply 4. Hybrid IC 5. Gaming machines TOLERANCE :+ 0.2mm Schematic:Top View 1. Anode 2. Cathode 3. Emitter 4. Collector Absolute Maximum Ratings (T Parameter Input Symbol Rating Unit Forward current (DC) IF 50 mA Reverse voltage VR 6 V Power dissipation derating Output PD 0.6 Power dissipation PD 60 mW Peak forward current *1 IFP 1 A Collector-emitter voltage VCEO 80 V Emitter-collector voltage VECO 6 IC 50 V mA Collector current Power dissipation derating PC 1.2 Total power dissipation Ptot 120 mW Isolation voltage *2 Viso 2500 Vrms Operating temperature Topr -30 to +100 Storage temperature Tstg -55 to +125 *1 PW=100us, Duty Cycle-1% *2 AC voltage for 1 minute at TA Electro-optical Characteristics Parameter Input 18 Symbol (T MIN. TYP. MAX. Forward voltage VF Conditions IF =5mA — 1.1 1.4 Unit V Reverse current IR VR =5V — — 5 uA Terminal capacitance Ct V=0V, f=1.0kHz — 30 — pF Output Collector dark current ICEO VCE =80V, IF =0mA — — 100 nA Transfer Current transfer ratio CTR IF =5mA, VCE=5V 80 — 600 % charac- Collector-emitter saturation voltage VCE(sat) IF=10mA, IC=2mA — — 0.3 V teristics Isolation resistance RI - o DC500V 5X1010 1011 — ohm Floating capacitance CI - o V=0V, f=1.0MHz — 0.4 — pF Respone time(Rise) tr — 3 — Respone time(Fall) tf — 5 — c 2004 cosmoTION ELECTRONICS CORPORA http://www.cosmo-ic.com VCE=5V, IC=2mA, RL=100ohm us KPS2801 Fig.2 Collector Power Dissipation vs. Ambient Temperature Current transfer ratio CTR (%) Collector Power Dissipation Pc (mW) Fig.1 Current Transfer Ratio vs. Forward Current *1 Test circuit for switshing time. Forward Current IF (mA) Fig.4 Forward Current vs. Ambient Temperature Fig.5 Forward Current vs. Forward Voltage Ambient Temperature Ta (°C) Forward Current IF (mA) Forward Current IF (mA) Collector Dark Current Iceo (A) Fig.3 Collector Dark Current vs. Ambient Temperature Ambient Temperature Ta (°C) Ambient Temperature Ta (°C) Fig.8 Collector-emitter Saturation Voltage vs. Ambient Temperature Collector-emitter Saturation Voltage Vce (V) Fig.7 Relative Current Transfer Ratio vs. Ambient Temperature Collector-emitter Voltage VCE (V) Ambient Temperature Ta (°C) Ambient Temperature Ta (°C) Fig.10 Response Time vs. Load Resistance Fig.11 Response Time vs. Load Resistance Response Rise Time (us) Collector-emitter Saturation Voltage Vce (V) Fig.9 Collector-emitter Saturation Voltage vs. Forward Current Response Rise Time (us) Collector Current Ic (mA) Relative Current Transfer Ratio (%) Fig.6 Collector Current vs. Collectoremitter Voltage Forward Voltage VF (V) Forward Current IF (mA) Load Resistance RL(K ohm) Load Resistance RL(K ohm) c 2004 cosmo ELECTRONICS CORPORATION http://www.cosmo-ic.com 19