HCPL-7840 Avago Technologies US Inc., HCPL-7840 Datasheet
HCPL-7840
Specifications of HCPL-7840
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Related parts for HCPL-7840
HCPL-7840 Summary of contents
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... HCPL-7840. A differential output voltage is created on the other side of the HCPL-7840 optical isolation barrier. This differential output voltage is proportional to the motor current and can be converted to a single-ended signal by using an op-amp as shown in the recommended application circuit ...
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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-7840-560E to order product of Gull Wing Surface Mount package in Tape and Reel packaging with IEC/EN/DIN EN 60747-5-2 Safety Approval and RoHS compliant. Example 2: HCPL-7840 to order product of 300 mil DIP package in Tube packaging and non RoHS compliant ...
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... DIMENSIONS IN MILLIMETERS AND (INCHES). NOTE: FLOATING LEAD PROTRUSION IS 0.5 mm (20 mils) MAX. Note: Initial or continued variation in the color of the HCPL-7840’s white mold compound is normal and does not affect device performance or reliability. 3 9.80 ± 0.25 ...
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Gull Wing Surface Mount Option 300 9.80 ± 0.25 (0.386 ± 0.010 7840 YYWW 1.19 (0.047) MAX. 1.080 ± 0.320 (0.043 ± 0.013) 2.54 (0.100) BSC DIMENSIONS IN MILLIMETERS (INCHES). TOLERANCES (UNLESS OTHERWISE ...
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Solder Reflow Temperature Profile 300 PREHEATING RATE 3°C + 1°C/–0.5°C/SEC. REFLOW HEATING RATE 2.5°C ± 0.5°C/SEC. 200 160°C 150°C 140°C 3°C + 1°C/–0.5°C 100 PREHEATING TIME 150° SEC. ROOM TEMPERATURE Note: Non-halide flux should ...
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... Regulatory Information The HCPL-7840 has been approved by the following organizations: IEC/EN/DIN EN 60747-5-2 Approved under: IEC 60747-5-2:1997 + A1:2002 EN 60747-5-2:2001 + A1:2002 DIN EN 60747-5-2 (VDE 0884 Teil 2):2003-01. IEC/EN/DIN EN 60747-5-2 Insulation Characteristics* Description Installation classification per DIN VDE 0110/1.89, Table 1 for rated mains voltage ≤300 Vrms for rated mains voltage ≤ ...
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Insulation and Safety Related Specifications Parameter Symbol Minimum External Air Gap L(101) (Clearance) Minimum External Tracking L(102) (Creepage) Minimum Internal Plastic Gap (Internal Clearance) Tracking Resistance CTI (Comparative Tracking Index) Isolation Group Absolute Maximum Ratings Parameter Storage Temperature Operating Temperature ...
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DC Electrical Specifications Unless otherwise noted, all typicals and figures are at the nominal operating conditions and T = 25°C; all Min./Max. specifications are within the Recommended Operating Conditions. A Parameter Symbol Input Offset Voltage ...
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AC Electrical Specifications Unless otherwise noted, all typicals and figures are at the nominal operating conditions and T = 25°C; all Min./Max. specifications are within the Recommended Operating Conditions. DD2 A Parameter Symbol V ...
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... The ampli- tude of the step is adjusted until the differential output (V exhibits more than a 200 mV deviation from the average output voltage for more than 1µs. The HCPL-7840 will continue to func-tion if more than long as the breakdown voltage limitations are observed. ...
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... V – SUPPLY VOLTAGE – Figure 3. Input offset vs. supply. HCPL-7840 fig 3 V +15 V DD2 8 0.1 µ – 0.47 0.47 µF µF HCPL-7840 fig 5 V OUT 8.035 DD1 8.03 DD2 8.025 8.02 8.015 8.01 5.5 -55 -35 - – TEMPERATURE – °C A Figure 4. Gain vs. temperature. ...
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... FREQUENCY Figure 13. Phase vs. frequency. HCPL-7840 fig 13 0.005 0.004 0.003 0.002 95 125 4.5 4.75 5.0 V – SUPPLY VOLTAGE – Figure 8. Nonlinearity vs. supply. HCPL-7840 fig 0.3 0.5 -0.6 -0.4 -0 – INPUT VOLTAGE – Figure 11. Input current vs. input voltage. HCPL-7840 fig 11 5.5 4 ...
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... HCPL-7840 PULSE GEN. + Figure 16. CMTI test circuits +15 V DD2 0.1 µF 8 0.1 µ – MC34081 0.1 µ -15 V HCPL-7840 fig 15 150 pF V DD2 + 0.1 µ – MC34081 150 pF -15 V – HCPL-7840 fig 16 V OUT 10 K 0.1 µF V OUT 0.1 µF ...
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... R4 should be chosen to supply sufficient current from the existing floating supply. The voltage from the current sensing resistor (Rsense) is applied to the input of the HCPL-7840 through an RC anti-aliasing filter (R2 and C2). Although the application circuit is relatively simple, a few recommendations should be followed to ensure optimal performance. ...
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... As shown in Figure 18, 0.1 µF bypass capacitors (C1, C2) should be located as close as possible to the pins of the HCPL-7840. The bypass capacitors are required because of the high-speed digital nature of the signals inside the HCPL-7840. A 0.01 µF bypass capacitor (C2) is also rec- ommended at the input due to the switched-capacitor POSITIVE FLOATING ...
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... HCPL-7840; this minimizes the loop area of the connection and reduces the possibility of stray mag- netic fields from interfering with the measured signal. If the sense resistor is not located on the same PC board as the HCPL-7840 circuit, a tightly twisted pair of wires can accomplish the same thing. ...
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... GND1 (pin 4), with the power-supply return path functioning as the sense line to the negative termi- nal of the current sense resistor. This allows a single pair of wires or PC board traces to connect the HCPL-7840 circuit to the sense resistor. By referencing the input circuit to the negative side of the sense resistor, any load ...
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... C at least 100 pF works well.) 2.4: How do I ensure that the HCPL-7840 is not destroyed as a result of short circuit conditions which cause voltage drops across the sense resistor that exceed the ratings of the HCPL-7840’s inputs? Select the sense resistor so that it will have less than 5 V drop when short circuits occur ...
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... The output completely settles down in 100 ms after device powering up. 6. MISCELLANEOUS 6.1: How does the HCPL-7840 measure negative signals with only supply? The inputs have a series resistor for protection against large negative inputs. Normal signals are no more than 200 mV in amplitude ...