HCPL-M456-560E Avago Technologies US Inc., HCPL-M456-560E Datasheet
HCPL-M456-560E
Specifications of HCPL-M456-560E
Related parts for HCPL-M456-560E
HCPL-M456-560E Summary of contents
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... RoHS 6 fully compliant options available; -xxxE denotes a lead-free product Description The HCPL-M456 consists of a GaAsP LED optically coupled to an integrated high gain photo detector. Minimized propagation delay difference between devices make these optocouplers excellent solutions for improving inverter efficiency through reduced switching dead time. ...
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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: HCPL-M456-560E to order product of SO-5 Surface Mount package in Tape and Reel packaging with IEC/EN/DIN EN 60747-5- Safety Approval in RoHS compliant. Example : HCPL-M456 to order product of SO-5 Surface Mount package in tube packaging and non RoHS compliant ...
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Land Pattern Recommendation 4.4 (0.17) 2.5 (0.10) 2.0 (0.080) 8.27 (0.325) DIMENSION IN MILLIMETERS (INCHES) Figure 1. 5 Pin SOIC Package (JEDEC MO-155) Device Outline Drawing. Absolute Maximum Ratings Parameter Storage Temperature Operating Temperature Average Input Current [1] Peak Input ...
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Solder Reflow Thermal Profile 300 PREHEATING RATE 3°C + 1°C/–0.5°C/SEC. REFLOW HEATING RATE 2.5°C ± 0.5°C/SEC. 200 2.5°C ± 0.5°C/SEC. 160°C 150°C 140°C 3°C + 1°C/–0.5°C 100 PREHEATING TIME 150° SEC. ROOM TEMPERATURE Note: ...
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... External Creepage Minimum Internal Plastic Gap Internal Clearance Tracking Resistance Isolation Group Regulatory Notes • The HCPL-M456 is recognized under the component program of U.L. (File No. 55361) for dielectric withstand proof voltages of 500 minute. RMS Electrical Specifications Over recommended operating conditions unless otherwise specified -40° ...
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Switching Specifications ( kΩ) L Over recommended operating conditions unless otherwise specified -40°C to +100° +4 Parameter Symbol Propagation Delay t PHL Time to Low Output Level ...
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... Without a detector shield, the dominant cause of op- tocoupler CMR failure is capacitive coupling from the input side of the optocoupler, through the package, to the detector IC as shown in Figure 14. The HCPL-M456 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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... Figure 4. The maximum dead time is also equivalent to the difference between the maximum and minimum propagation delay difference specifica- tions. The maximum dead time (due to the optocouplers) for the HCPL-M456 is 5 370 ns - (-150 ns)) over an operating temperature range of -40°C to 100°C. 1.05 1.00 ...
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... Figure 7. CMR Test Circuit. 9 HCPL-M456 fig 7a 6 0.1 µF 20 k – OUT *TOTAL LOAD CAPACITANCE HCPL-M456 fig k 0.1 µ – CC OUT 100 pF *100 pF TOTAL SWITCH CAPACITANCE V SWITCH 90% 90% V THHL 10% 10 PHL PLH Typical CMR Waveform. HCPL-M456 fig 7b V THLH V δ δ ...
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... TOTAL 3 CAPACITANCE Figure 14. Optocoupler Input to Output Capacitance Model for Un- shielded Optocouplers. 1400 1200 25°C A 1000 t PLH t PHL 800 600 400 200 100 200 300 400 CL – LOAD CAPACITANCE – pF Figure 10. Propagation Delay vs. Load Capacitance. HCPL-M456 fig LEDP LEDN HCPL-M456 fig 14 500 ...
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... SHIELD *100 pF TOTAL CAPACITANCE HCPL-M456 fig 16 C LEDP LED01 V ** – LEDN 3 4 SHIELD I CLEDN* /dt TRANSIENTS. CM < V DURING +dV /dt (OFF HCPL-M456 fig 18 C LEDP LED01 LEDN 3 4 SHIELD I CLEDN* /dt TRANSIENTS HCPL-M456 fig – OUT CC 20 k OUT 100 pF 20 k OUT ...
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... PLH MAX. PHL MIN. = PDD* MAX. - PDD* MIN. *PDD = PROPAGATION DELAY DIFFERENCE NOTE: THE PROPAGATION DELAYS USED TO CALCULATE THE MAXIMUM DEAD TIME ARE TAKEN AT EQUAL TEMPERATURES. Figure 24. Waveforms for Deadtime Calculation. HCPL-M456 fig 24 V CC1 20 k V OUT1 HCPL-M456 V CC2 HCPL-4506 20 k ...
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