ACPL-224 / ACPL-244 AC Input Multi-Channel Half-Pitch Phototransistor Optocoupler Data Sheet Lead (Pb) Free RoHS 6 fully compliant RoHS 6 fully compliant options available; -xxxE denotes a lead-free product Description Features The ACPL-224 is an AC-input dual channel half-pitch phototransistor optocoupler each of which contains 2 light emitting diodes connected inversely parallel & optically coupled to 2 separate phototransistors. It is packaged in an 8-pin SO package. x Current transfer ratio (CTR: 20% (min) at IF = ±1mA, VCE = 5V) Likewise, the ACPL-244 is an AC-input quad channel halfpitch phototransistor optocoupler each of which contains 2 light emitting diodes connected inversely parallel & optically coupled to 4 separate phototransistors. It is packaged in a 16-pin SO package. x SO package For both devices, the input-output isolation voltage is rated at 3,000 Vrms. Response time, tr, is 2μs typically, while minimum CTR is 20% at input current of ±1 mA. ACPL-224 pin 8 7 6 16 15 14 x Non-saturated Response time (tr: 2μs (typ) at VCC = 10V, IC = 2mA, RL= 100Ω) x CMR 10kV/μs (typical) x Safety and regulatory approvals - cUL - IEC/EN/DIN EN 60747-5-2 x Options available: - CTR Rank ‘0’ only ACPL-244 pin 5 x High input-output isolation voltage (VISO = 3,000VRMS) 13 12 11 10 9 Applications x I/O Interface for Programmable controllers, computers. x Sequence controllers x System appliances, measuring instruments 1 2 3 4 1 2 3 4 5 6 Pin 1, 3 Anode/ Cathode Pin 1, 3, 5, 7 Pin 2, 4, 6, 8 Cathode/Anode Pin 2, 4 Cathode/ Anode Pin 9,11,13,15 Emitter Pin 5, 7 Emitter Pin 10,12,14,16 Collector Pin 6, 8 Collector Anode/Cathode 7 8 x Signal transmission between circuits of different potentials and impedances. Ordering Information ACPL-2x4-xxxx is UL Recognized at 3,000 Vrms for 1 minute per UL1577 and Canadian Component Acceptance Notice #5. RoHS Compliant Option Part number ACPL-224 ACPL-244 Rank ‘O’, 20%<CR<400%, IF=±1mA, VCE=5V Package No. Of Channels Surface Mount Tape & Reel -500E SO-8 Dual X X -560E SO-8 Dual X X -500E SO-16 Quad X X -560E SO-16 Quad X X IEC / EN / DIN EN 60747-5-2 Quantity 2000 pcs per reel X 2000 pcs per reel X 2000 pcs per reel 2000 pcs per reel To order, choose a part number from the part number column and combine with the desired option from the option column to form an order entry. Example 1: ACPL-224-560E to order product of Dual Channel SO-8 Surface Mount package in Tape & Reel with IEC/EN/DIN EN 60747-5-2 Safety Approval, 20%<CTR<400% and RoHS compliant. Example 2: ACPL-244-500E to order product of Quad Channel SO-16 Surface Mount package in Tape and Reel packaging with 20%<CTR<400% and RoHS compliant. Option datasheets are available. Contact your Avago sales representative or authorized distributor for information. 2 Package Outline Drawings ACPL-224 Package Outline 1.27 ±0.25 0.050 ±0.010 LEAD FREE VDE option only 0.75 0.030 A224V YYWWA 2.00 ±0.20 0.079 ±0.008 5.20 ±0.30 0.205 ±0.012 5.30 ±0.3 [0.208 ±0.012] 0.20 ±0.05 0.008 ±0.002 RANK 0.75 0.030 0.12 ±0.10 0.005 ±0.004 PIN ONE 4.40 ±0.20 0.173 ±0.008 DATE CODE 0.7 ±0.2 [0.028 ±0.008] 0.40 ±0.10 0.016 ±0.004 7.00 ±0.40 0.276 ±0.016 DIMENSIONS IN MILLIMETERS [INCHES] ACPL-244 Package Outline 1.27 ±0.25 0.050 ±0.010 LEAD FREE VDE option only A244V YYWWA 0.75 0.030 0.75 0.030 RANK 5.30 ±0.3 [0.208 ±0.012] 2.00 ±0.20 0.079 ±0.008 0.12 ±0.10 0.005 ±0.004 10.28 ±0.30 0.405 ±0.012 0.40 ±0.10 0.016 ±0.004 DIMENSIONS IN MILLIMETERS[INCHES] 3 0.7 ±0.2 [0.028 ±0.008] 7.00 ±0.40 0.276 ±0.016 0.20 ±0.05 0.008 ±0.002 PIN ONE 4.40 ±0.20 0.173 ±0.008 DATE CODE Solder Reflow Temperature Profile Recommended reflow condition as per JEDEC Standard, J-STD-020 (latest revision). Non-Halide Flux should be used. Absolute Maximum Ratings Parameter Symbol Storage Temperature TS -55~125 Operating Temperature TA -55~110 qC Average Forward Current IF(AVG) ±50 mA Pulse Forward Current IFSM ±1 A Reverse Voltage VR 6 V ACPL-244 Units Note qC LED Power Dissipation (1 channel) PI 65 mW Collector Current IC 50 mA Collector-Emitter Voltage VCEO 80 V V Emitter-Collector Voltage VECO 7 Isolation Voltage (AC for 1min, R.H. 40~60%) VISO 3,000 Collector Power Dissipation (1 channel) PC 150 100 mW Total Power Dissipation PTOT 200 170 mW Lead Solder Temperature 4 ACPL-224 VRMS 260°C for 10 seconds 1min Electrical Specifications (DC) Over recommended ambient temperature at 25°C unless otherwise specified. Parameter Symbol Min. Typ. Max. Forward Voltage VF - 1.2 1.4 Reverse Current IR - - 10 Terminal Capacitance Ct - 30 - pF V = 0, f = 1MHz Collector Dark Current ICEO - - 100 nA VCE = 48V, IF = 0 mA Collector-Emitter Breakdown Voltage BVCEO 80 - - V IC = 0.5 mA, IF = 0 mA Emitter-Collector Breakdown Voltage BVECO 7 - - V IE = 100 μA, IF = 0 mA Current Transfer Ratio CTR 20 - 400 % IF = ±1 mA, VCE = 5V Saturated CTR CTR(sat) - 60 - % IF=±1mA, VCE = 0.4V Collector-Emitter Saturation Voltage VCE(sat) - - 0.4 V IF = ±8mA, IC = 2.4mA Isolation Resistance Riso 5x1010 1x1011 - Ω DC500V, R.H. 40~60% Test Conditions Note V IF = ±20mA Fig.6 μA VR = 5V Fig.12 CTR=(IC/IF )* 100% Fig.14 Floating Capacitance CF - 0.6 1 pF V = 0, f = 1MHz Cut-off Frequency (-3dB) FC - 80 - kHz VCC = 5V, IC = 2 mA, RL = 100Ω Fig. 2,19 Response Time (Rise) tr - 2 - μs tf - 3 - μs VCC = 10V, IC = 2 mA, RL = 100Ω Fig. 1 Response Time (Fall) Turn-on Time ton - 3 - μs Turn-off Time toff - 3 - μs Turn-ON Time tON - 2 - μs Fig. 1, 17 Storage Time TS - 25 - μs VCC = 5V, IF = ±16 mA, RL = 1.9kΩ Turn-OFF Time tOFF - 40 - μs Common Mode Rejection Voltage CMR - 10 - kV/μs Ta=25ºC, RL=470Ω, VCM=1.5kV(peak), IF=0mA, VCC=9V, Vnp=100mV Fig.20 ,) 5/ 9&& 9&( ,) WU 9&( WI WV W RQ Figure 1. Switching Time Test Circuit 9&& 5/ 5 Units 2XWSXW 5' W RII Figure 2. Frequency Response Test Circuit $&3/ $&3/ &ROOHFWRU3RZHU'LVVLSDWLRQ3FP: )RUZDUG&XUUHQW,)P$ 3XOVHZLGWKȝV 7D & )RUZDUG&XUUHQW,)P$ 3HDN)RUZDUG&XUUHQW,)3P$ $PELHQW7HPSHUDWXUH7D& Figure 4. Collector Power Dissipation vs. Ambient Temperature & & 7D & )RUZDUG 9ROWDJH 9)9 Figure 6. Forward Current vs. Forward Voltage Figure 5. Pulse Forward Current vs. Duty Cycle Ratio )RUZDUGYROWDJHWHPSHUDWXUHFRHIIFLHQW 9) 7DP9& 3XOVH)RUZDUG&XUUHQW,)3P$ )RUZDUGFXUUHQW,)P$ )RUZDUGFXUUHQW, P$ ) Figure 7. Forward Voltage Temperature Coefficient vs. Forward Current 6 & & & 'XW\5DWLR $&3/ $PELHQW7HPSHUDWXUH7D& Figure 3. Forward Current vs. Ambient Temperature $&3/ 3XOVH:LGWKȝV 5HSHWLWLYH )UHTXHQF\ +] 7D & 3XOVH)RUZDUG9ROWDJH9)39 Figure 8. Pulse Forward Current vs. Pulse Forward Voltage &ROOHFWRU&XUUUHQW,FP$ P$ &ROOHFWRU&XUUHQW,FP$ 7D & P$ P$ 3&PD[ P: $&3/ 3&PD[ P: $&3/ P$ ,) P$ P$ P$ P$ P$ P$ &ROOHFWRU(PLWWHU9ROWDJH9&(9 ,) P$ &ROOHFWRU(PLWWHU9ROWDJH9&(9 Figure 10. Collector Current vs. Small Collector-Emitter Voltage Figure 9. Collector Current vs. Collector-Emitter Voltage &ROOHFWRU&XUUHQW,&$ &ROOHFWRU'DUN&XUUHQW,&(2$ 9 9 9&( 9 )RUZDUG&XUUHQW,)$ Figure 11. Collector Current vs. Forward Current ( ( 9&( 9 9 9 9 ( $PELHQW7HPSHUDWXUH7D& Figure 12. Collector Dark Current vs. Ambient Temperature &ROOHFWRU(PLWWHU 6DWXUDWLRQ9ROWDJH 9&(VDW 9 &XUUHQW7UDQVIHU5DWLR&75 9 9 9&( 9 ,) P$ ,& P$ ,) P$ ,& P$ ,) P$ ,& P$ )RUZDUG &XUUHQW ,)$ Figure 13. Current Transfer Ratio vs. Forward Current 7 $PELHQW 7HPSHUDWXUH 7D & Figure 14. Collector-Emitter Saturation Voltage vs. Ambient Temperature P$ P$ P$ P$ ,) P$ W 2)) W2)) W6 W21 /RDG5HVLVWDQFH5/N Figure 16. Switching Time vs. Load Resistance ,) P$ 9&& 9 5 N / $PELHQW7HPSHUDWXUH7D& Figure 17. Switching Time vs. Ambient Temperature &ROOHFWRU(PLWWHU6DWXUDWLRQ9ROWDJH9&(VDW9 6ZLWFKLQJWLPHWȝV W 21 7D & 9&& 9 5/ N $PELHQW7HPSHUDWXUH7DR& Figure 15. Collector Current vs. Ambient Temperature 76 7D & P$ P$ P$ P$ P$ ,& P$ 6ZLWFKLQJ7LPHWȝV &ROOHFWRU&XUUHQW,&P$ )RUZDUG&XUUHQW,)P$ Figure 18. Collector-Emitter Saturation Voltage vs. Forward Current 5/ G9GW 9RG% 5/ N 9R 9&0 9FF 9 ,& P$ 7D & +LJK9ROWDJH3XOVH )UHTXHQF\IN+] Figure 19. Frequency Response For product information and a complete list of distributors, please go to our web site: Figure 20. CMR Test Circuit www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2010 Avago Technologies. All rights reserved. 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