SFH6701 Vishay, SFH6701 Datasheet

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... Internal Shield for Very High Common Mode Transient Immunity • Wide Supply Voltage Range (4 • Low Input Current (1 5.0 mA) • Three State Output (SFH6700/ 19) • Totem Pole Output (SFH6701/ 02/ 11/ 12) • Open Collector Output (SFH6705) • Lead (Pb)-free component • Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/EC Agency Approvals • ...

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... SFH6705-X007 Open Collector Output, SMD-8 (option 7) SFH6711-X007 Totem Pole Output, SMD-8 (option 7) For additional information on the available options refer to Option Information. Truth Table (Positive Logic) SFH6700 SFH6719 SFH6701 SFH6702 SFH6705 SFH6711 SFH6712 Absolute Maximum Ratings °C, unless otherwise specified amb Stresses in excess of the absolute Maximum Ratings can cause permanent damage to the device. Functional operation of the device is not implied at these or any other conditions in excess of those given in the operational sections of this document ...

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... Comparative tracking index per DIN IEC 112/VDE 0303, part 1 Isolation resistance V = 500 500 ( (3) Shield SFH6700/ ( (3) Shield SFH6701/11 isfh6700_01 Document Number 83683 Rev. 1.5, 15-Apr-05 SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Test condition Symbol diss Test condition Symbol T stg T amb T sld V ISO = 25 °C R amb IO = 100 °C R amb ...

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... SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Vishay Semiconductors Recommended Operating Conditions A 0.1 µF bypass capacitor connected between pins 5 and 8 must be used. Parameter Supply voltage Enable voltage high Enable voltage low Forward input current Operating temperature Output pull-up resistor Fan Output R = 1.0 kΩ L (1) We recommended using a 2 ...

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... F OSL = OSL = OSL = OSL R thja Test condition Symbol °C R amb IO = 100 °C R amb IO Vishay Semiconductors Min Typ. Max 0.5 2.4 0.5 100 1.0 500 0.5 100 1.0 500 2.0 0.8 20 100 0.001 250 - 320 - 100 0.001 500 3.7 6.0 4.1 6.5 3 ...

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... SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Vishay Semiconductors Switching Characteristics 0 °C ≤ T ≤ 85 °C; 4.5 V ≤ V ≤ 1.6 mA ≤ I amb CC ≤ I ≤ 0.1 mA Foff Typical values ° 5 amb CC Parameter Propagation delay time to logic Without peaking capacitor low output level, SFH6700/01/ 02/11/12/19 With peaking capacitor ...

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... Temperature - °C isfh6700_02 Figure 2. Permissible Total Power Dissipation vs. Temperature Document Number 83683 Rev. 1.5, 15-Apr-05 SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Test condition Part Symbol = 1.6 mA SFH6700 | SFH6701 |CM H SFH6702 |CM H SFH6705 | 1.6 mA SFH6711 | SFH6712 |CM H SFH6719 | SFH6700 | SFH6701 |CM F ...

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... SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Vishay Semiconductors 1.75 1.70 1.65 1.60 1.55 1.50 1.45 -60 -40 - Temperature - °C isfh6700_04 Figure 4. Typical Forward Input Voltage vs. Temperature 4 –2 6 0.0 0.1 0.2 0.3 0.4 0.5 0 -Input Current - mA isfh6700_05 Figure 5. Typical Output Voltage vs. Forward Input Current (except ...

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... (without peaking capacitor) 140 120 100 100 -60 isfh6700_14 Figure 14. Typical Propagation Delay to Logic LOw vs. 100 120 pF (without peaking capacitor - 100 isfh6700_15 Figure 15. Typical Propagation Delays to Logic High vs. Vishay Semiconductors 1 - 100 Temperature - °C Temperature (except SFH6705 1.6 mA -40 - 100 Temperature - °C Temperature (except SFH6705 ...

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... SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Vishay Semiconductors 170 150 C1 = 120 pF (without peaking capacitor) 130 110 1 -60 -40 - Temperature - °C isfh6700_16 Figure 16. Typical Propagation Delay to Logic Low vs. Temperature (without peaking capacitor -60 -40 - Temperature - °C isfh6700_17 Figure 17. Typical Propagation Delays to Logic High vs. Temperature 170 (without ...

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... Figure 25. Typical Propagation Delays to Low Level vs. 250 225 200 ˇ 50 ˇ ˇ - -60 -40 isfh6700_26 Figure 26. Typical Rise, Fall Time vs. Temperature (only 60 80 100 Vishay Semiconductors ˇ 1 100 Temperature - °C Temperature ( only SFH6705 kΩ kΩ 350 kΩ 350-4 kΩ - 100 Temperature - ° ...

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... Node I F Out 0.1 µ Bypass En Gnd 120 kOhm All diodes are 1N916 or 1N3064 * SFH6701/02/11/12 without V EN 1.1 kOhm 681 Ohm * SFH6702/12 Pin 6 V OUT and Pin 7 n. Fon 50% I Fon 1 PHL t PLH Figure 27. Test Circuit for PLH PHL V CC ...

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... including Probe and Jig Capacitances Input V EN Output V O Output V O isfh6700_29 Figure 29. Test Circuit for SFH6701/02/11/12 without SFH6702/12 Pin 6 V OUT and Pin 7 n.c. VCM Output V O isfh6700_30 Figure 30. Test Circuit for Common Mode Transient Immunity and Typical Waveforms-SFH6700/01/02/11/12/19 Document Number 83683 Rev ...

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... SFH6700/ 01/ 02/ 05/ 11/ 12/ 19 Vishay Semiconductors R Output V O isfh6700_31 Figure 31. Test Circuit for Common Mode Transient Immunity and Typical Waveforms-SFH6705 Package Dimensions in Inches (mm .255 (6.48) .268 (6.81 .379 (9.63) .390 (9.91) .030 (0.76) .045 (1.14) 4° typ. .050 (1.27) .018 (.46) ...

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... TYP . .180 (4.6) .160 (4.1) .0040 (.102) .0098 (.249) .315 (8.0) MIN. .331 (8.4) MIN. .406 (10.3) MAX. Vishay Semiconductors Option 9 .375 (9.53) .395 (10.03) .300 (7.62) ref. .012 (.30) typ. .020 (.51) .040 (1.02) 15° max. .315 (8.00) min. 18450 www ...

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... Various national and international initiatives are pressing for an earlier ban on these substances. Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of ODSs listed in the following documents. 1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively 2 ...

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... Information contained herein is intended to provide a product description only. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Vishay's terms and conditions of sale for such products, Vishay assumes no liability whatsoever, and disclaims any express or implied warranty, relating to sale and/or use of Vishay products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right ...