ACPL-217-500E

ACPL-217 DC Input, Half-Pitch Phototransistor Optocoupler Data Sheet Description Features The ACPL-217 is a DC-input single-channel half-pitch phototransistor optocoupler that contains a light-emitting diode optically coupled to a phototransistor. It is packaged in a 4-pin SO package.  The input-output isolation voltage is rated at 3750VRMS. Response time, tr, is 2 μs typically, while minimum CTR is 50% at input current of 5 mA.      ACPL-217 Pin Layout 4 3 1 2  Current transfer ratio (CTR: 50% (min) at IF = 5 mA, VCC = 5V) High input-output isolation voltage (VISO = 3750VRMS) Non-saturated Response time (tr: 2 μs (typ) at VCC = 10V, IC = 2 mA, RL= 100Ω) SO package CMR 10 kV/μs (typical) Safety and regulatory approvals — cUL — IEC/EN/DIN EN 60747-5-2 Options available: — CTR Ranks 0, A, B, C, and D Applications    Pin Description 1 Anode 2 Cathode 3 Emitter 4 Collector  Broadcom -1- I/O Interface for programmable controllers, computers. Sequence controllers. System appliances, measuring instruments. Signal transmission between circuits of different potentials and impedances. ACPL-217 Data Sheet Ordering Information ACPL-217-xxxx is UL Recognized with 3750VRMS for 1 minute per UL1577 and Canadian Component Acceptance Notice #5. -50AE -50BE -50CE -50DE SO-4 X X 0° -560E -56AE -56BE -56CE -56DE SO-4 X X 0° -700E -70AE -70BE -70CE -70DE SO-4 X X 180° -760E -76AE -76BE -76CE -76DE SO-4 X X 180° IEC/EN/DIN EN 60747-5-2 IC Orientation -500E Tape & Reel ACPL -217 Rank D 300% < Package CTR < 600% IF = 5 mA VCE = 5V Surface Mount RoHS Compliant Option Rank 0 Rank A Rank B Rank C 50% < 80% < 130% < 200% < Part CTR < CTR < CTR < CTR < Number 600% 160% 260% 400% IF = 5 mA, IF = 5 mA, IF = 5mA, IF = 5 mA, VCE = 5V VCE = 5V VCE = 5V VCE = 5V Quantity 3000 pcs per reel X 3000 pcs per reel 3000 pcs per reel X 3000 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-217-560E to order product of SO-4 Surface Mount package in Tape & Reel packaging with IEC/EN/DIN EN 60767-5-2 Safety Approval, 50% < CTR < 600% and RoHS compliant. Example 2: ACPL-217-50BE to order product of SO-4 Surface Mount package in Tape & Reel packaging with 130% < CTR < 260% and RoHS compliant. Option data sheets are available. Contact your Broadcom sales representative or authorized distributor for information. Package Outline Drawings Broadcom -2- ACPL-217 Data Sheet 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 ACPL-217 Unit Storage Temperature TS –55~125 °C Operating Temperature TA –55~110 °C IF(AVG) 50 mA IFSM 1 A Reverse Voltage VR 6 V LED Power Dissipation PI 65 mW Collector Current IC 50 mA Collector-Emitter Voltage VCEO 80 V Emitter-Collector Voltage VECO 7 V Isolation Voltage (AC for 1 min, R.H. 40~60%) VISO 3750 VRMS PC 150 mW PTOT 200 mW Average Forward Current Pulse Forward Current Collector Power Dissipation Total Power Dissipation Lead Solder Temperature 260°C for 10 seconds Broadcom -3- Note 1 min ACPL-217 Data Sheet Electrical Specifications (DC) Over recommended ambient temperature at 25°C unless otherwise specified. Parameter Symbol Min. Typ. Max. Unit Forward Voltage VF — 1.2 1.4 V IF = 20 mA Reverse Current IR — — 10 μA VR = 5V Terminal Capacitance Ct — 30 — pF V = 0, f = 1 MHz 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 CTR 50 — 600 % IF = 5 mA, VCE = 5V Saturated CTR CTR(sat) — 100 — % IF = 1 mA, VCE = 0.4V Collector-Emitter Saturation Voltage VCE(sat) — — 0.4 V IF = 8 mA, IC = 2.4 mA Isolation Resistance RISO 5 x 1010 1 x 1011 — Ω DC500V, R.H. 40~60% Floating Capacitance CF — 0.6 1 pF V = 0, f = 1 MHz Cut-off Frequency (–3 dB) FC — 80 — kHz VCC = 5V, IC = 2 mA, RL = 100Ω Figure 2, Figure 19 Response Time (Rise) tr — 2 — μs VCC = 10V, IC = 2 mA, RL = 100Ω Figure 1 Response Time (Fall) tf — 3 — μs Turn-on Time ton — 3 — μs Turn-off Time toff — 3 — μs Turn-ON Time tON — 2 — μs VCC = 5V, IF = 16 mA, RL = 1.9 kΩ Figure 1, Figure 17 Storage Time TS — 25 — μs Turn-OFF Time tOFF — 40 — μs Common Mode Rejection Voltage CMR — 10 — Current Transfer Ratio Figure 1 Switching Time Test Circuit IF RL VCC VCE IF VCE tr tf ts 90% 10% ton toff Figure 2 Frequency Response Test Circuit RL VCC Output RD Broadcom -4- Test Conditions kV/μs TA = 25°C, RL = 470Ω, VCM = 1.5 kV(peak), IF = 0 mA, VCC = 9V, Vnp = 100 mV Note Figure 6 Figure 12 CTR = (IC/IF) * 100% Figure 14 Figure 20 ACPL-217 Data Sheet Figure 3 Forward Current vs. Ambient Temperature Figure 4 Collector Power Dissipation vs. Ambient Temperature 160 60 40 ACPL-217 30 20 10 -5 15 35 55 Ambient Temperature, Ta(º C) 75 95 ACPL-217 100 80 60 40 0 -25 115 Figure 5 Pulse Forward Current vs. Duty Cycle Ratio 0 25 50 75 Ambient Temperature, Ta(º C) 100 125 Figure 6 Forward Current vs. Forward Voltage 100 10000 Pulse width ≤100 Ps Ta = 25 º C Forward Current, I F (mA) Peak Forward Current, I FP (mA) 120 20 0 -25 1000 100 10 0.0001 0.0010 0.0100 Duty Ratio 0.1000 50 º C -30º C 0ºC 25 º C 75 º C Ta = 110 ºC 10 1 0.4 1.0000 Figure 7 Forward Voltage Temperature Coefficient vs. Forward Current 0.6 0.8 1.0 1.2 1.4 Forward Voltage, V F (V) 1.6 1.8 2.0 Figure 8 Pulse Forward Current vs. Pulse Forward Voltage 1000 -3.2 -2.8 Pulse Forward Current, I FP (mA) Forward Voltage Temperature Coefficient 'V F /'Ta (mV/ º C) 140 Collector Power Dissipation, Pc(mW) Forward Current, I F (mA) 50 -2.4 -2.0 -1.6 -1.2 -0.8 -0.4 0.1 1 10 Forward current, I F (mA) 100 10 1 0.5 100 Broadcom -5- Pulse Width ≤10 Ps Repetitive Frequency=100Hz Ta=25ºC 1 1.5 2 Pulse Forward Voltage, V FP (V) 2.5 3 ACPL-217 Data Sheet Figure 9 Collector Current vs. Collector-Emitter Voltage Figure 10 Collector Current vs. Small Collector-Emitter Voltage 50 50 Ta = 25º C 45 50mA 50mA 40 40 Collector Currrent, Ic( mA) Collector Current, Ic(mA) 30mA 20mA 30 P C (max)=150mW 20 10mA 30mA 30 25 20mA 20 10mA 15 10 10 0 0 5 Collector-Emitter Voltage, Vce(V) 10 Figure 11 Collector Current vs. Forward Current 5mA 5 I F =5mA 0 35 IF = 2mA 0 0.5 Collector-Emitter Voltage, V CE (V) 1 Figure 12 Collector Dark Current vs. Ambient Temperature 0.1 10V 1.E-06 Collector Dark Current, I CEO (A) Collector Current, I C (A) 5V V CE = 0.4V 0.01 0.001 0.0001 0.0001 -25 0.1 5V 10V -5 15 35 55 Ambient Temperature, Ta(°C) 75 95 Figure 14 Collector-Emitter Saturation Voltage vs. Ambient Temperature 1000 0.18 Collector-Emitter Saturation Voltage, V CE (sat) (V) Current Transfer Ratio, CTR (%) 24V 1.E-10 0.001 0.01 Forward Current, I F (A) Figure 13 Current Transfer Ratio vs. Forward Current 10V 5V VCE = 0.4V 100 10 0.0001 V CE = 48V 1.E-08 0.001 0.01 Forward Current, I F (A) 0.16 0.14 0.12 0.10 Broadcom -6- IF = 20mA, IC = 1mA 0.08 IF = 1mA, IC = 0.2mA 0.06 0.04 0.02 0.00 -30 0.1 I F = 8mA, I C = 2.4mA 5 40 Ambient Temperature, Ta(º C) 75 110 ACPL-217 Data Sheet Figure 15 Collector Current vs. Ambient Temperature Figure 16 Switching Time vs. Load Resistance 100 1000 IF=16mA VCC=5V Ta=25°C TOFF 25mA 6ZLWFKLQJ7LPHW—V Collector Current, I C (mA) 100 10mA 10 5mA 1mA 1 TS 10 1 I F = 0.5mA 0.1 -25 TON 0 0 25 50 Ambient Temperature, Ta ( o C) 75 100 Figure 17 Switching Time vs. Ambient Temperature 1 10 /RDG5HVLVWDQFH5/Nȍ 50 100 Figure 18 Collector-Emitter Saturation Voltage vs. Forward Current 100 5 t ON 1 I F = 16mA V CC = 5V RL = 1.9k: 0.1 -20 0 20 40 60 Ambient Temperature, Ta ( ºC) 80 2 1 0 100 Figure 19 Frequency Response 3 5mA 10 4 7mA I C = 10mA tS Ta = 25ºC 0.5mA 1mA 3mA Collector-Emitter Saturation Voltage, V CE(sat) (V) t OFF Switching Time, t (Ps) 5 0 5 10 Forward Current, I F (mA) 15 20 Figure 20 CMR Test Circuit 0 dV/dt RL = 100: Vcc -2 RL Vo, (dB) Vo -4 V CM (High Voltage Pulse) -6 V cc = 5V I C = 2mA Ta = 25ºC 1 10 Frequency, f (kHz) V np 9V 470 : 1k: -8 Vo V CM 100 Broadcom -7- V cp Vcp » (dV/dt)xCfxRL Vcp: Voltage that is generated by the displacement current in floating capacitance between primary and secondary sides. For product information and a complete list of distributors, please go to our web site: 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