ACPL-P483-000E

ACPL-M483/P483/W483 Inverted Logic High CMR Intelligent Power Module and Gate Drive Interface Optocoupler Data Sheet Description Features The ACPL-M483/P483/W483 fast-speed optocoupler contains a AlGaAs LED and photo detector with built-in Schmitt trigger to provide logic-compatible waveforms, eliminating the need for additional wave shaping. The totem pole output eliminates the need for a pull-up resistor and allows for direct drive Intelligent Power Module or gate drive. Minimized propagation delay difference between devices makes these optocouplers excellent solutions for improving inverter efficiency through reduced switching dead time.         Functional Diagram  ACPL-M483 Anode 1  6 VCC 5 VO Cathode 3 4 Ground SHIELD ACPL-P483 and ACPL-W483 Anode 1 6 VCC N.C. 2 5 VO Cathode 3 Inverted output type (totem pole output) Truth Table Guaranteed: VCC from 4.5V to 30V Performance Specified for Common IPM Applications Over Industrial Temperature Range Short Maximum Propagation Delays Minimized Pulse Width Distortion (PWD) Very High Common Mode Rejection (CMR) Hysteresis Available in SO-5 (ACPL-M483) and Stretched SO-6 package (ACPCL-P483/W483) Package Clearance/Creepage at 8 mm (ACPL-W483) Safety Approval: — UL Recognized with 5000VRMS (ACPL-W483) for 1 minute per UL1577. — CSA Approved. — IEC/EN/DIN EN 60747-5-5 Approved with VIORM = 567 Vpeak for ACPL-M483, VIORM = 891 Vpeak for ACPL-P483, and VIORM = 1140 Vpeak for ACPL-W483, under option 060. Specifications 4 Ground SHIELD  Note: A 0.1 μF bypass capacitor must be connected between pins 4 and 6. Truth Table Guaranteed: VCC from 4.5V to 30V. Truth Table (Inverting Logic) LED V0 On LOW OFF HIGH      Wide Operating Temperature Range: –40°C to +105°C Maximum Propagation Delay tPHL/tPLH = 120 ns/120 ns Maximum Pulse Width Distortion (PWD) = 50 ns Propagation Delay Difference: Min/Max = –100 ns/+100 ns Wide Operating VCC Range: 4.5V to 30V 30 kV/μs Minimum Common Mode Rejection (CMR) at VCM = 1000V CAUTION Broadcom -1- It is advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by ESD. ACPL-M483/P483/W483 Data Sheet Applications      IPM Interface Isolation Isolated IGBT/MOSFET Gate Drive AC and Brushless DC Motor Drives Industrial Inverters General Digital Isolation Ordering Information ACPL-M483/P483/W483 is UL recognized with 3750/3750/5000VRMS/1 minute rating per UL 1577, respectively. Option Part Number Package Surface Mount Tape and Reel RoHS Compliant -000E ACPL-M483 ACPL-P483 ACPL-W483 -500E -060E X Stretched SO-5 X X -000E X -060E Stretched SO-6 -560E X X X 1500 per reel X 100 per tube X 1500 per reel 100 per tube X X X Quantity 100 per tube X -560E -500E IEC/EN/DIN EN 60747-5-5 X 1000 per reel X 100 per tube X 1000 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 ordering part number.    Example 1: ACPL-P483-560E: Stretched SO-6 Surface Mount package in Tape and Reel packaging with IEC/EN/DIN EN 60747-5-5 Safety Approval and RoHS compliant. Example 2: ACPL-P483-000E to order product of Stretched SO-6 Surface Mount package in Tube packaging and RoHS compliant. Example 3: ACPL-M483-000E to order product of SO-5 Surface Mount package in Tube packaging and RoHS compliant. Option data sheets are available. Contact your Broadcom sales representative or authorized distributor for information. Recommended Pb-Free IR Profile The recommended reflow profile is per JEDEC Standard, J-STD-020 (latest revision). Non-halide flux should be used. Regulatory Information The ACPL-M483/P483/W483 is approved by the following organizations:    IEC/EN/DIN EN 60747-5-5 (Option 060 only): Approved with Maximum Working Insulation Voltage VIORM = 567Vpeak for ACPL-M483, VIORM = 891Vpeak for ACPL-P483, and VIORM = 1140Vpeak for ACPL-W483. UL: Approval under UL 1577, component recognition program up to VISO = 3750VRMS File E55361 for ACPL-M483 and ACPL-P483. Approval under UL 1577, component recognition program up to VISO = 5000VRMS File E55361 for ACPL-W483; CSA: Approval under CSA Component Acceptance Notice #5, File CA 88324. Broadcom -2- ACPL-M483/P483/W483 Data Sheet Package Outline Drawings ACPL-M483 SO-5 Package (5 mm Creepage and Clearance) TYPE NUMBER (LAST 3 DIGITS) DATE CODE Land Pattern Recommendation MXXX XXX 4.4 ±0.1 (0.173 ±0.004) 4.4 (0.17) 7.0 ±0.2 (0.276 ±0.008) 1.3 (0.05) 2.5 (0.10) 0.4 ±0.05 (0.016 ±0.002) 2.0 (0.080) 0.64 (0.025) 3.6 ±0.1* (0.142 ±0.004) 2.5 ±0.1 (0.098 ±0.004) 8.27 (0.325) 0.102 ±0.102 (0.004 ±0.004) 0.15 ±0.025 (0.006 ±0.001) 7° MAX. 1.27 BSC (0.050) 0.71 MIN (0.028) Dimensions in millimeters (inches). * Maximum Mold flash on each side is 0.15 mm (0.006). Note: Foating Lead Protrusion is 0.15 mm (6 mils) max. MAX. LEAD COPLANARITY = 0.102 (0.004) Broadcom -3- ACPL-M483/P483/W483 Data Sheet ACPL-P483 Stretched SO-6 Package (7 mm Clearance) with Land Pattern Recommendation *4.580 +– 0.254 0 1.27 (0.050) BSG 0.381 ±0.127 (0.015 ±0.005) Land Pattern Recommendation (0.180 +– 0.010 0.000 ) 0.64 (0.025) 1.27 (0.05) 2.16 (0.085) 10.7 (0.421) 7.62 (0.300) 1.590 ±0.127 (0.063 ±0.005) 6.81 (0.268) 0.45 (0.018) 45° 3.180 ±0.127 (0.125 ±0.005) 7° 7° 7° 0.20 ±0.10 (0.008 ±0.004) 7° 1 ±0.250 (0.040 ±0.010) 5° NOM. 0.254 ±0.050 (0.010 ±0.002) Floating Lead protusion max. = 0.25 mm [0.01 inches] Lead Coplanarity = 0.1 mm [0.004 inches] Dimensions in millimeters [inches] *Total Package Width = 4.834 ±0.254 mm (inclusive of mold flash) 9.7 ±0.250 (0.382 ±0.010) ACPL-W483 Stretched SO-6 Package (8 mm Clearance) with Land Pattern Recommendation 1.27 BSG 0.050 0.381 ±0.127 0.015 ±0.005 1 6 2 5 3 4 Land Pattern Recommendation 0.64 (0.025) 1.27 (0.05) 7.62 [0.300] +0.127 -0.000 +0.005 0.268 - 0.000 6.807 0.45 0.018 +0.254 0 +0.010 0.180 - 0.000 *4.580 7° 45° 1.905 (0.075) 12.65 (0.5) 1.590 ±0.127 0.063 ±0.005 3.180 ±0.127 0.125 ±0.005 7° 0.20 ±0.10 0.008 ±0.004 7° 0.750 ±0.250 [0.0295 ±0.010] 35° NOM. 11.500 ±0.25 0.453 ±0.010 7° 0.254 ±0.050 0.010 ±0.002 Floating Lead protusion max. = 0.25 mm [0.01 inches] Lead Coplanarity = 0.1 mm [0.004 inches] Dimensions in millimeters [inches] *Total Package Width = 4.834 ±0.254 mm (inclusive of mold flash) Broadcom -4- ACPL-M483/P483/W483 Data Sheet IEC/EN/DIN EN 60747-5-5 Insulation Characteristics (Option 060) Description Symbol ACPL-M483 ACPL-P483 ACPL-W483 I– IV I– IV I – III I – III I– IV I– IV I – III I – III I – IV I– IV I– IV I– IV I– III Installation classification per DIN VDE 0110/1.89, Table 1 for rated mains voltage ≤ 150VRMS for rated mains voltage ≤ 300VRMS for rated mains voltage ≤ 450VRMS for rated mains voltage ≤ 600VRMS for rated mains voltage ≤ 1000VRMS Climatic Classification Unit 55/105/21 Pollution Degree (DIN VDE 0110/1.89) 2 VIORM 567 891 1140 Vpeak Input to Output Test Voltage, Method ba VIORM x 1.875 = VPR, 100% Production Test with tm = 1 sec, Partial Discharge < 5 pC VPR 1063 1670 2137 Vpeak Input to Output Test Voltage, Method aa VIORM x 1.6=VPR, Type and Sample Test, tm = 10 sec, VPR 907 1426 1824 Vpeak VIOTM 6000 6000 8000 Vpeak Maximum Working Insulation Voltage Partial Discharge < 5 pC Highest Allowable Overvoltage (Transient Overvoltage tini = 60 sec) Safety-limiting Values – maximum values allowed in the event of a failure TS 175 °C Input Current IS, INPUT 230 mA Output Power PS, OUTPUT 600 mW RS >109 Ω Case Temperature Insulation Resistance at TS, VIO = 500V a. Refer to the optocoupler section of the Isolation and Control Components Designer’s Catalog, under the Product Safety Regulations section, (IEC/EN/DIN EN 60747-5-5), for a detailed description of Method a and Method b partial discharge test profiles. Insulation and Safety Related Specifications Parameter Symbol ACPL-M483 ACPL-P483 ACPL-W483 Unit Minimum External Air Gap (External Clearance) L(101) 5.0 7.0 8.0 mm Measured from input terminals to output terminals, shortest distance through air. Minimum External Tracking (External Creepage) L(102) 5.0 8.0 8.0 mm Measured from input terminals to output terminals, shortest distance path along body. 0.08 mm Through insulation distance conductor to conductor, usually the straight line distance thickness between the emitter and detector. >175 V Minimum Internal Plastic Gap (Internal Clearance) Tracking Resistance (Comparative Tracking Index) Isolation Group CTI IIIa Broadcom -5- Condition DIN IEC 112/VDE 0303 Part 1. Material Group (DIN VDE 0110, 1/89, Table 1). ACPL-M483/P483/W483 Data Sheet Absolute Maximum Ratings Parameter Symbol Min. Max. Unit Storage Temperature TS –55 +125 °C Operating Temperature TA –40 +105 °C Average Input Current IF(AVG) 10 mA Peak Transient Input Current ( 2.0V. CML is the maximum slew rate of the common mode voltage that can be sustained with the output voltage in the logic low state, VO < 0.8V. Note: Equal value split resistors (Rin/2) must be used at both ends of the LED. 8. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage. 4500VRMS for one second (leakage detection current limit, II-O ≤ 5 μA). This test is performed before the 100% production test for partial discharge (Method b) shown in the IEC/EN/DIN EN 60747-5-5 Insulation Characteristics Table, if applicable. 9. Pulse Width Distortion (PWD) is defined as |tPHL – tPLH| for any given device. 10. The difference of tPLH and tPHL between any two devices under the same test condition. 11. Use of a 0.1 μF bypass capacitor connected between pins VCC and Ground is recommended. Broadcom -8- ACPL-M483/P483/W483 Data Sheet VOL - LOW LEVEL OUTPUT VOLTAGE - V 0.05 Figure 2 Typical Logic High Output Current vs. Temperature (VCC-VOH) - High Level Output Voltage - V Figure 1 Typical Logic Low Output Voltage vs. Temperature IF = 4 mA 0.045 0.04 IO = 6.5 mA 0.035 0.03 0.025 IO = 3.5 mA 0.02 0.015 0.01 -40 -10 20 50 TA - TEMPERATURE - °C 80 110 Figure 3 Typical Output Voltage vs. Forward Input Current 0.1 IO = -6.5 mA 0.08 0.06 IO = -3.5 mA 0.04 0.02 -40 -10 20 50 TA - TEMPERATURE - °C 80 110 100.00000 IFLH IFHL 4 3 TA = 25°C 10.00000 IF - FORWARD CURRENT - mA Vo - OUTPUT VOLTAGE - V VF = 0V Figure 4 Typical Input Diode Forward Characteristic 5 VCC = 4.5V TA = 25°C 2 1 0 0.12 0 0.5 1 IF - INPUT CURRENT - mA 1.5 1.00000 0.10000 0.01000 0.00100 0.00010 0.00001 2 1.1 1.2 1.3 1.4 1.5 VF - FORWARD VOLTAGE - V 1.6 Figure 5 Test Circuit for tPLH, tPHL, tr, and tf PULSE GEN. tr = tf = 5 ns f = 100 kHz 10% DUTY CYCLE Vo = 5V Zo = 50Ω THE PROBE AND JIG CAPACITANCES ARE INCLUDED IN C1 AND C2. VCC 5V 1 6 2 5 OUTPUT Vo MONITORING * NODE 3 R1 7 mA IF(ON) INPUT IF C2 = 15 pF C1 = 120 pF 560Ω 4 mA D1 4 SHIELD 820Ω IF(ON) ALL DIODES ARE EITHER 1N916 OR 1N3064 619Ω D2 INPUT MONITORING NODE R1 5 kΩ tPHL D3 D4 VOH 1.3V OUTPUT V VOL (0V) *0.1 μF BYPASS – SEE NOTE 11 Broadcom -9- 50% IF(ON) 0 mA tPLH ACPL-M483/P483/W483 Data Sheet Figure 6 Typical Propagation Delays vs. Temperature Figure 7 Typical Logic High Output Voltage vs. Supply Voltage 35 90 IF = 4 mA TA = 25°C 30 80 VO - Output Voltage - V Tp - Propagation Delay - ns Vcc = 4.5V 70 TPHL (IF = 4 mA) TPLH (IF = 4 mA) TPHL (IF = 7 mA) TPLH (IF = 7 mA) 60 25 20 15 10 5 0 50 -40 -10 20 50 TA - Temperature - °C 80 110 0 5 10 15 20 25 VCC - Supply Voltage - V Figure 8 Typical Propagation Delay vs. Supply Voltage 90 Tp - Propagation Delay - ns TA = 25°C TPHL (IF = 4 mA) TPLH (IF = 4 mA) TPHL (IF = 7 mA) TPLH (IF = 7 mA) 80 70 60 50 0 5 10 15 20 25 VCC - Supply Voltage - V 30 35 Figure 9 Test Circuit for Common Mode Transient Immunity and Typical Waveforms CMH VCC CML RIN/2 A 1 6 B VFF + – 0V 0.1 μF 2 3 RIN/2 VCM (PEAK) |VCM| 5 4 SHIELD OUTPUT Vo MONITORING NODE VOH SWITCH AT B: VF = 0V Vo (MIN.)* OUTPUT Vo + VCM – VOL SWITCH AT A: IF = 4 mA Vo (MAX.)* * SEE NOTE 7 Broadcom - 10 - 30 35 ACPL-M483/P483/W483 Data Sheet Figure 10 VCC Ramp When LED ON 10V Vcc = 2V~4V Vcc Vcc = 1.8V (typ) Vcc = 2V~4V Vcc = 1.8V (typ) 0V Output High Impedance state High Impedance state 1 ms i. LED is OFF Discharge delay, depending on the power supply slew rate Figure 11 VCC Ramp When LED OFF 10V Vcc = 2V~4V Vcc Vcc = 1.8V (typ) Vcc = 2V~4V Vcc = 1.8V (typ) 0V High Impedance state Output 1 ms ii. LED is ON High Impedance state Discharge delay, depending on the power supply slew rate Broadcom - 11 - ACPL-M483/P483/W483 Data Sheet Thermal Model for ACPL-M483 SO-5 Package Optocoupler Thermal Model for ACPL-P483/W483 SO-6 Package Optocoupler Definitions Definitions             R11: Junction to Ambient Thermal Resistance of LED due to heating of LED R12: Junction to Ambient Thermal Resistance of LED due to heating of Detector (Output IC) R21: Junction to Ambient Thermal Resistance of Detector (Output IC) due to heating of LED. R22: Junction to Ambient Thermal Resistance of Detector (Output IC) due to heating of Detector (Output IC). P1: Power dissipation of LED (W). P2: Power dissipation of Detector/Output IC (W). T1: Junction temperature of LED (°C). T2: Junction temperature of Detector (°C). Ta: Ambient temperature. ΔT1: Temperature difference between LED junction and ambient (°C). ΔT2: Temperature deference between Detector junction and ambient. Ambient Temperature: Junction to Ambient Thermal Resistances were measured approximately 1.25 cm above optocoupler at ~23°C in still air             R11: Junction to Ambient Thermal Resistance of LED due to heating of LED R12: Junction to Ambient Thermal Resistance of LED due to heating of Detector (Output IC) R21: Junction to Ambient Thermal Resistance of Detector (Output IC) due to heating of LED. R22: Junction to Ambient Thermal Resistance of Detector (Output IC) due to heating of Detector (Output IC). P1: Power dissipation of LED (W). P2: Power dissipation of Detector/Output IC (W). T1: Junction temperature of LED (°C). T2: Junction temperature of Detector (°C). Ta: Ambient temperature. ΔT1: Temperature difference between LED junction and ambient (°C). ΔT2: Temperature deference between Detector junction and ambient. Ambient Temperature: Junction to Ambient Thermal Resistances were measured approximately 1.25 cm above optocoupler at ~23°C in still air Description Description This thermal model assumes that an 5-pin single-channel plastic package optocoupler is soldered into a 7.62 cm x 7.62 cm printed circuit board (PCB). The temperature at the LED and Detector junctions of the optocoupler can be calculated using the equations below. This thermal model assumes that an 6-pin single-channel plastic package optocoupler is soldered into a 7.62 cm x 7.62 cm printed circuit board (PCB). The temperature at the LED and Detector junctions of the optocoupler can be calculated using the equations below. T1 = (R11 × P1 + R12 × P2) + Ta -- (1) T1 = (R11 × P1 + R12 × P2) + Ta -- (1) T2 = (R21 × P1 + R22 × P2) + Ta -- (2) T2 = (R21 × P1 + R22 × P2) + Ta -- (2) JEDEC Specifications R11 R12, R21 R22 Low K board 191 77, 91 99 High K board 126 26, 35 51 Note: Maximum junction temperature for above parts: 125°C. JEDEC Specifications R11 R12, R21 R22 Low K board 167 64, 81 89 High K board 117 31, 39 54 Note: Maximum junction temperature for above parts: 125°C. Broadcom - 12 - For product information and a complete list of distributors, please go to our web site: www.broadcom.com. Broadcom, the pulse logo, Connecting everything, Avago Technologies, Avago, and the A logo are among the trademarks of Broadcom and/or its affiliates in the United States, certain other countries and/or the EU. Copyright © 2017 by Broadcom. All Rights Reserved. The term "Broadcom" refers to Broadcom Limited and/or its subsidiaries. For more information, please visit www.broadcom.com. Broadcom reserves the right to make changes without further notice to any products or data herein to improve reliability, function, or design. Information furnished by Broadcom is believed to be accurate and reliable. However, Broadcom does not assume any liability arising out of the application or use of this information, nor the application or use of any product or circuit described herein, neither does it convey any license under its patent rights nor the rights of others. AV02-3216EN – November 10, 2017