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| PC900V/PC900VQ PC900V/PC900VQ .. s Features 1. High reliability type ( PC900VQ ) 2. Normal OFF operation, open collector output 3. TTL and LSTTL compatible output 4. Operating supply voltage V CC : 3 to 15V 5. High isolation voltage between input and output ( Viso : 5 000V rms ) 6. Recognized by UL, file No. E64380 Digital Output Type OPIC Photocoupler s Outline Dimensions 2.54 0.25 Anode mark 6 5 4 6.5 0.5 g Lead forming type ( I type ) and taping reel type ( P type ) are also available. ( PC900VI/PC900VP ) gg TUV ( DIN-VDE0884 ) approved type is also available as an option. ( Unit : mm ) Internal connection diagram 6 Voltage regulator 5 4 PC900V Amp 1 2 3 1 2 3 0.9 0.2 1.2 0.3 7.12 0.5 0.5TYP. 7.62 0.3 s Applications 1. Isolation between logic circuits 2. Logic level shifters 3. Line receivers 4. Replacements for relays and pulse transformers 5. Noise reduction 3.5 0.5 3.7 0.5 3.35 0.5 = 0 to 13 0.26 0.1 0.5 0.1 2.54 0.25 1 Anode 2 Cathode 3 NC 4 VO 5 GND 6 V CC * " OPIC " ( Optical IC ) is a trademark of the SHARP Corporation. An OPIC consists of a light-detecting element and signalprocessing circuit integrated onto a single chip. s Absolute Maximum Ratings Parameter Forward current *1 Peak forward current Reverse voltage Power dissipation Supply voltage High level output voltage Low level output current Power dissipation Total power dissipation *2 Isolation voltage Operating temperature Storage temperature *3 Soldering temperature Symbol IF I FM VR P V CC V OH IOL PO P tot V iso T opr T stg T sol ( Ta = 25C ) Rating 50 1 6 70 16 16 50 150 170 5 000 - 25 to + 85 - 40 to + 125 260 Unit mA A V mW V V mA mW mW V rms C C C Input Output *1 Pulse width<=100 s, 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." PC900V/PC900VQ s Electro-optical Characteristics Parameter Forward voltage Input Reverse current Terminal capacitance Operating supply voltage Low level output voltage High level output current Low level supply current High level supply current *4 " HighLow " threshold input current *5 " LowHigh " threshold input current *6 Hysteresis Isolation resistance Response time " HighLow " propagation delay time " LowHigh " propagation delay time ( Ta = 0 to + 70C unless specified ) Symbol VF IR Ct V CC V OL IOH ICCL ICCH I FHL l FLH I FLH /I FHL R ISO t PHL t PLH tf tr MIN. 0.7 3 IOL = 16mA, V CC = 5V, I F = 4mA VO = VCC = 15V, I F = 0 VCC = 5V, I F = 4mA VCC = 5V, I F = 0 Ta = 25C, V CC = 5V, R L = 280 VCC = 5V, R L = 280 Ta = 25C, V CC = 5V, R L = 280 0.4 VCC = 5V, R L = 280 0.3 VCC = 5V, R L = 280 0.5 Ta = 25C, DC500V, 40 to 60% RH 5 x 1010 - Ta = 25C V CC = 5V, I F = 4mA R L = 280 Conditions IF = 4mA IF = 0.3mA Ta = 25C, V R = 3V Ta = 25C, V = 0, f = 1kHz TYP. 1.1 1.0 30 0.2 2.5 1.0 1.1 0.8 0.7 1011 1 2 0.05 0.1 MAX. 1.4 10 250 15 0.4 100 5.0 5.0 2.0 4.0 0.9 3 6 0.5 0.5 Unit V A pF V V A mA mA mA mA s Output Transfer characteristics Fall time Rise time *4 I FHL represents forward current when output goes from high to low. *5 I FLH represents forward current when output goes from low to high. *6 Hysteresis stands for I FLH /I FHL . *7 Test circuit for response time is shown below. Connect a capacitior of more than 0.1 F between VCC and GND. *7 Test Circuit for Response Time Voltage regulator 5V t r = tf = 0.01 s ZO = 50 VIN 47 Amp 50% VIN tPHL tPLH 280 VO 0.1 F VO tf VOH 90% 1.5V 10% VOL tr PC900V/PC900VQ Fig. 1 Forward Current vs. Ambient Temperature 60 Fig. 2 Power Dissipation vs. Ambient Temperature 200 170 150 P tot PO Forward current I F ( mA ) 40 Power dissipation P O, P tot ( mW ) 50 30 100 20 50 10 0 - 25 0 25 50 75 85 Ambient temperature T a ( C) 100 0 -25 0 25 50 a 75 85 ( C ) 100 Ambient temperature T Fig. 3 Forward Current vs. Forward Voltage 500 200 Forward current I F ( mA ) 100 50 20 10 5 2 1 0 0.5 1.0 1.5 2.0 2.5 Forward voltage V F ( V ) 3.0 Ta = 75C 50C Fig. 4 Relative Threshold Input Current vs. Supply Voltage 1.4 T a = 25C I FHL = 1 at V CC = 5V Relative threshold input current 25C 0C - 25C 1.2 I FHL 1.0 I FLH 0.8 0.6 0.4 0.2 0 5 10 15 Supply voltage V CC ( V ) 20 Fig. 5 Relative Threshold Input Current vs. Ambient Temperature 1.6 V CC = 5V 1.4 Relative threshold input current 1.2 1.0 0.8 I FLH 0.6 0.4 0.2 - 25 I FHL = 1 at T a = 25C 0 25 50 75 100 I FHL Fig. 6 Low Level Output Voltage vs. Low Level Output Current 1.0 V CC = 5V Low level output voltage V OL ( V ) 0.5 T a = 25C 0.2 0.1 0.05 0.02 0.01 1 2 5 10 20 OL 50 ( mA ) 100 Ambient temperature T a ( C ) Low level output current I PC900V/PC900VQ Fig. 7 Low Level Output Voltage vs. Ambient Temperature 0.5 V CC = 5V Low level output voltage V OL ( V ) 0.4 Supply current I CC ( mA ) I OL = 30mA Fig. 8 Supply Current vs. Supply Voltage 9 T a = - 25C 8 7 6 5 4 85C 3 2 1 ICCL{ I CCH{ 1 3 5 7 9 11 13 15 17 25C 85C T a = - 25C 25C 0.3 16mA 0.2 5mA 0.1 0 - 25 0 0 25 50 75 100 Ambient temperature T a ( C ) Supply voltage V CC ( V ) Fig. 9 Propagation Delay Time vs. Forward Current 5 s) V CC = 5V RL = 280 T a = 25C t PLH 3 Fig.10 Rise Time, Fall Time vs. Load Resistance 0.5 V CC = 5V I F =4mA T a = 25C PLH ( Propagation delay time t PHL , t Rise time, fall time t r , t f ( s ) 4 0.4 0.3 2 0.2 tr 0.1 tf 0 0.1 0.2 0.5 1 2 5 10 20 1 t PHL 0 0 10 20 30 F 40 ( mA ) 50 60 Forward current I Load resistance R L ( k ) s Precautions for Use ( 1 ) It is recommended that a by-pass capacitor of more than 0.01 F 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. * Please refrain from soldering under preheating and refrain from soldering by reflow. q Please refer to the chapter "Precautions for Use. " |
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