ACPL-W314-500E Avago Technologies US Inc., ACPL-W314-500E Datasheet

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... RoHS 6 fully compliant options available; -xxxE denotes a lead-free product Description The ACPL-P314/W314 consists of a GaAsP LED optically coupled to an integrated circuit with a power output stage. These optocouplers are ideally suited for driving power IGBTs and MOSFETs used in motor control inverter applications ...

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... 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-P314-560E to order product of Stretched SO-6 Surface Mount package in Tape and Reel packaging with IEC/EN/DIN EN 60747-5-2 Safety Approval in RoHS compliant. Example 2: ACPL-P314-000E to order product of Stretched SO-6 Surface Mount package in tube packaging and RoHS compli- ant ...

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... ACPL-W314 Stretched SO-6 Package Recommended Solder Reflow Temperature Profile Note: Non-halide flux should be used 3 ...

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... Recommended Pb-Free IR Profile Note: Non-halide flux should be used Regulatory Information The ACPL-P314/W314 is pending approval by the following organizations: IEC/EN/DIN EN 60747-5-2 (Option 060 only) Approval under: IEC 60747-5-2 :1997 + A1:2002 EN 60747-5-2:2001 + A1:2002 DIN EN 60747-5-2 (VDE 0884 Teil 2):2003- Approval under UL 1577, component recognition ...

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... Table 1. IEC/EN/DIN EN 60747-5-2 Insulation Characteristics* (ACPL-P314/W314 Option 060) Description Installation classification per DIN VDE 0110/1.89, Table 1 for rated mains voltage 150V rms for rated mains voltage 300V rms for rated mains voltage 600V rms Climatic Classification Pollution Degree (DIN VDE 0110/1.89) ...

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Table 3. Absolute Maximum Ratings Parameter Storage Temperature Operating Temperature Average Input Current Peak Transient Input Current (<1 µs pulse width, 300pps) Reverse Input Voltage “High” Peak Output Current “Low” Peak Output Current Supply Voltage Output Voltage Output Power Dissipation ...

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Table 6. Switching Specifications (AC) Over recommended operating conditions unless otherwise specified. Parameter Propagation Delay Time to High Output Level Propagation Delay Time to Low Output Level Propagation Delay Difference Between Any Two Parts or Channels Rise Time Fall Time ...

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Figure 1. V vs. Temperature. OH Figure Figure 5. I vs. Temperature Figure 2. I vs. Temperature. OH Figure 4. V vs. Temperature. OL Figure ...

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Figure 7. I vs. Temperature. CC Figure 9. I vs. Temperature. FLH Figure 11. Propagation Delay vs Figure Figure 10. Propagation Delay vs Figure 12. Propagation ...

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Figure 13. Propagation Delay vs. Rg. Figure 15. Transfer Characteristics 500 Ω KHz 50% DUTY 3 CYCLE Figure 17. Propagation Delay Test Circuit and ...

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... The ACPL-P314/W314 total 270 Ω ACPL-P314/W314 1 1 CONTROL 2 INPUT 74XXX OPEN 3 COLLECTOR Figure 19. Recommended LED Drive and Application Circuit for ACPL-P314/W314 11 Figure 20. Energy Dissipated in the ACPL-P314/W314 and for Each IGBT Switching Cycle. power dissipation (P power (P ) and the output power ( peak specifi ...

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... Without a detector shield, the dominant cause of opto- coupler CMR failure is capacitive coupling from the input side of the optocoupler, through the package, to the detector IC as shown in Figure 21. The ACPL-P314/W314 improves CMR performance by using a detector IC with an optically transparent Faraday shield, which diverts the capacitively coupled current away from the sensitive IC circuitry ...

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... The maximum dead time is equivalent the difference between the maximum and minimum propagation delay difference specification as shown in Figure 27. The maximum dead time for the ACPL-P314 W314 is 1 µs (= 0.5 µs - (-0.5 µs)) over the operating tem- perature range of –40°C to 100°C. ...