HCPL-5120 Avago Technologies US Inc., HCPL-5120 Datasheet
HCPL-5120
Specifications of HCPL-5120
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HCPL-5120 Summary of contents
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... HCPL-5120, HCPL-5121 and 5962-04204 2.0 Amp Output Current IGBT Gate Drive Hermetically Sealed Optocoupler Data Sheet Description The HCPL-520 contains a GaAsP LED optically coupled to an integrated circuit with a power output stage. The device is ideally suited for driving power IGBTs and MOSFETs used in motor control inverter applications. ...
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... COUNTRY OF MFR. AVAGO CAGE CODE* 8.13 (0.320) MAX. 7.16 (0.282) 7.57 (0.298) 4.32 (0.170) MAX. 0.20 (0.008) MIN. 0.33 (0.013) 7.36 (0.290) 7.87 (0.310) HCPL-5120 HCPL-5121 Gold Plate Option - 200 Option - 100 Option - 300 5962- 0420401HPX 0420401HPC 0420401HPA 0420401HYC 0420401HYA 0420401HXA ...
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Hermetic Optocoupler Options Option Description 100 Surface mountable hermetic optocoupler with leads trimmed for butt joint assembly. This option is available on commercial and hi-rel product (see drawings below for details). 0.51 (0.020) MIN. 2.29 (0.090) 2.79 (0.110) NOTE: DIMENSIONS ...
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Absolute Maximum Ratings Parameter Storage Temperature Operating Temperature Case Temperature Junction Temperature Lead Solder Temperature Average Input Current Peak Transient Input Current (<1 µs pulse width, 300 pps) Reverse Input Voltage “High” Peak Output Current “Low” Peak Output Current Supply ...
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Electrical Specifications (DC) Over recommended operating conditions ( Ground), unless otherwise specified. EE Parameter Symbol Test Conditions High Level Output Current V = (VCC - Low Level ...
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Switching Specifications (AC) Over recommended operating conditions ( Ground), unless otherwise specified. EE Parameter Symbol Propagation Delay Time t PLH to High Output Level Propagation Delay Time t PHL to Low Output Level Pulse Width Distortion PWD ...
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... This is a momentary withstand test, not an operating condition. 6. Device considered a two-terminal device: pins on input side shorted together and pins on output side shorted together. . The difference between t and t between any two HCPL-520 parts under the same test condition. PHL PLH 8. Pins and 4 need to be connected to LED common. ...
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I = 10mA to 18mA -100mA OUT 30V -55 -35 - 105 125 TEMPERATURE - ...
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I = 10mA 30V Ω 400 Duty Cycle = 50 10khz A 300 200 T PLH T ...
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Figure 17. I Test Circuit 0.1 µ ...
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500 Ω KHz 50% DUTY 3 CYCLE < Figure 23 and t Test Circuit and ...
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... HCPL-520 is not an ideal voltage step. This results in lower peak currents (more margin) than predicted by this analysis. When negative gate drive is not used V the previous equation is equal to zero volts Step 2: Check the HCPL-5120 Power Dissipation and Increase R if Necessary. g The HCPL-520 total power dissipation (P ...
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... Energy Dissipation in the HCPL-5120 for each SW IGBT Switching Cycle (See Figure 27) f Switching Frequency 100 250 500 100 Rg - GATE RESISTANCE - Ω Figure 27. Energy Dissipated in the HCPL-5120 for Each IGBT Switching Cycle LEDP LEDN 4 5 Figure 28. Optocoupler Input to Output Capacitance Model for Unshielded Optocouplers 0.1 µ ...
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CMR with the LED On (CMR ). H A high CMR LED drive circuit must keep the LED on dur- ing common mode transients. This is achieved by over- driving the LED current beyond the input threshold so that it ...
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... The maximum dead time is equivalent to the difference between the maximum and minimum propagation delay difference specifications as shown in Figure 34. The maximum dead time for the HCPL-5 350 ns - (-350 ns)) over an operating tempera- ture range of -55°C to 25°C. Note that the propagation delays used to calculate PDD ...
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... Turn Off Delay, of 0.6 µs. When the HCPL-520 output is in the low state and the supply voltage rises above the HCPL-520 V old (.0 < V < 3.5) the optocoupler output will go � ...