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{| {{Tabelle}} class="wikitable sortable" id="transistors-npn"
{| {{Tabelle}} class="wikitable sortable" id="transistors-npn"
|- bgcolor="#eeeeee"
|- bgcolor="#eeeeee" style="writing-mode:sideways-lr"
! Bezeichnung
! style="width:8em" | Bezeichnung
! Gehäuse
! Gehäuse
! Vce-max
! Vce (max)<br>[V]
| Vsupply
! Vsupply<br>[V]
! CTR
! CTR<br>[%]
! Iout
! Iout<br>[mA]
! Geschwindigkeit
! Geschwindigkeit
! Bemerkung
! Bemerkung
! Lieferant
! Lieferant
! Datenblatt
! style="width:7em" | Datenblatt
|-
|-
| 4N25, 4N26, 4N27, 4N28
| '''4N25'''<br>4N26<br>4N27<br>4N28
| DIP6
| DIP6
| 30 V
| 30
| -
|
| 20 %, 10 %
| 20, 10
|  
|  
| ton/off 2 µs (typ.)
| style="writing-mode:sideways-lr"  | ton/off 2 µs (typ.)
|  
|  
| B C D DK e F U R
| B C D DK e F U R
| [http://www.avagotech.com/docs/AV02-0412EN Avago], [http://www.everlight.com/file/ProductFile/201407061933068723.pdf Everlight], [http://www.fairchildsemi.com/datasheets/4N/4N25M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/4N25_26_27_28.pdf Isocom], [http://optoelectronics.liteon.com/upload/download/DS-70-99-0010/S_110_4N25(26).pdf LiteOn], [http://www.mouser.com/ds/2/408/Toshiba-4N25_25A_26_27_28-Short-189542.pdf Toshiba], [http://www.vishay.com/docs/83725/4n25.pdf Vishay]
| [https://docs.broadcom.com/docs/AV02-0412EN Broadcom]<br>[http://www.ct-micro.com/uploads_zip/4N25.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/201407061933068723.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/4N25_26_27_28.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS-70-99-0010/S_110_4N25(26).pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/4N37M-D.pdf ONSemi]<br>[http://www.qt-brightek.com/datasheet/4N2X%20_4N3X_H11AX_series_v1.1.pdf QT-Brightek]<br>[http://www.mouser.com/ds/2/408/Toshiba-4N25_25A_26_27_28-Short-189542.pdf Toshiba]<br>[http://www.vishay.com/docs/83725/4n25.pdf Vishay]
|-
|-
| 4N32, 4N33
| '''4N32'''<br>4N33
| DIP6, SMD6
| DIP6, SMD6
| 30 V
| 30
|  
|
| >= 500 %
| 500
| 100 mA max.
| 100
| 5 µS / 100 µS
| style="writing-mode:sideways-lr"  | 5 µS / 100 µS
|  
|  
| B C DK F U R
| B C DK F U R
| [http://www.everlight.com/file/ProductFile/TIL113_4NXX_H11BX.pdf Everlight], [http://www.fairchildsemi.com/datasheets/4N/4N32M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/4N29-4N33_Data_Sheet.pdf Isocom], [http://www.vishay.com/docs/81865/4n32.pdf Vishay]
| [http://www.ct-micro.com/uploads_zip/4N32.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/TIL113_4NXX_H11BX.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/4N29-4N33_Data_Sheet.pdf Isocom]<br>[http://www.onsemi.com/pub/Collateral/H11B1M-D.pdf ONSemi]<br> [http://www.vishay.com/docs/81865/4n32.pdf Vishay]
|-
|-
| 4N35, 4N36, 4N37
| '''4N35'''<br>4N36<br>4N37
| DIP6, DCJ6
| DIP6, DCJ6
| 30 V
| 30
| -
|
| >= 100 %
| 100
| 100 mA
| 100
| ton/off 7 µs
| style="writing-mode:sideways-lr"  | ton/off 7 µs
|  
|  
| B C D DK e F U R
| B C D DK e F U R
| [http://www.avagotech.com/docs/AV02-0773EN Avago], [http://www.everlight.com/file/ProductFile/201407061933068723.pdf Everlight], [http://www.fairchildsemi.com/datasheets/4N/4N35M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/4N35-4N37.pdf Isocom], [http://optoelectronics.liteon.com/upload/download/DS-70-99-0012/S_110_4N35%20%204N37%20(%20M,%20S,%20S-TA1%20)%20(Rev.pdf LiteOn], [http://www.mouser.com/catalog/specsheets/Toshiba-4N35_36_37-Short.pdf Toshiba], [http://www.vishay.com/docs/81181/4n35.pdf Vishay]
| [https://docs.broadcom.com/docs/AV02-0773EN Broadcom]<br>[http://www.ct-micro.com/uploads_zip/4N35.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/201407061933068723.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/4N35-4N37.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS-70-99-0012/S_110_4N35%20%204N37%20(%20M,%20S,%20S-TA1%20)%20(Rev.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/4N37M-D.pdf ONSemi]<br>[http://www.qt-brightek.com/datasheet/4N2X%20_4N3X_H11AX_series_v1.1.pdf QT-Brightek]<br>[http://www.mouser.com/catalog/specsheets/Toshiba-4N35_36_37-Short.pdf Toshiba]<br>[http://www.vishay.com/docs/81181/4n35.pdf Vishay]
|-
|-
| 6N135, 6N136, HCPL2503, HCPL4502
| 6N135<br>'''6N136'''<br>PS8501
| DIP8
| DIP8
| 20 V
| rowspan="3" | 20
| 0 - 30 V
| rowspan="3" | 15
| 18 - 30 %
| rowspan="3" |  30
| 100 mA
| rowspan="3" | 100
| 1 MBit/s
| rowspan="3" style="writing-mode:sideways-lr" | 1 MBit/s
| Dual-channel: HCPL2530, HCPL2531
| rowspan="2" style="writing-mode:sideways-lr" | Dual-channel: HCPL-xx3x
| B C D DK F P U R
| rowspan="3" | B C D DK F P U R
| [http://www.avagotech.com/docs/AV02-0171EN Avago], [http://www.cosmo-ic.com/object/products/KPC6N136.pdf Cosmo], [http://www.everlight.com/file/ProductFile/6N135_6N136_EL450X.pdf Everlight], [http://www.fairchildsemi.com/datasheets/6N/6N135M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93134.pdf Isocom], [http://optoelectronics.liteon.com/upload/download/DS70-2008-0032/S_110_6N135%20%206N136%20series.pdf LiteOn], [http://toshiba.semicon-storage.com/info/docget.jsp?type=datasheet&lang=en&pid=6N136 Toshiba], [http://www.vishay.com/docs/83604/6n135.pdf Vishay]
| [https://docs.broadcom.com/docs/AV02-0171EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/KPC6N136.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/6N135.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/6N135_6N136_EL450X.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93134.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2008-0032/S_110_6N135%20%206N136%20series.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/HCPL2530M-D.pdf ONSemi]<br>[http://documentation.renesas.com/doc/YOUSYS/document/PN10656EJ04V0DS.pdf Renesas]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?type=datasheet&lang=en&pid=6N136 Toshiba]<br>[http://www.vishay.com/docs/83604/6n135.pdf Vishay]
|-
| HCPL-0500/1<br>EL0500/1<br>ICPL0500/1<br>SFH6315/6
| SO8
| [https://docs.broadcom.com/docs/AV02-0171EN Broadcom]<br>[http://www.everlight.com/file/ProductFile/EL045X_050X.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93163.pdf Isocom]<br>[http://www.onsemi.com/pub/Collateral/HCPL0534-D.pdf ONSemi]<br>[http://www.vishay.com/doc?83677 Vishay]
|-
| KPC457<br>CTM452<br>ELM452<br>FODM452<br>PS8101<br>TLP109<br>VOM452
| SO5
|
| [http://www.cosmo-ic.com/object/products/KPC457.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CTM452.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/ELM45X.pdf Everlight]<br>[http://www.onsemi.com/pub/Collateral/FODM453-D.pdf ONSemi]<br>[http://documentation.renesas.com/doc/YOUSYS/document/PN10260EJ06V0DS.pdf Renesas]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=12329&prodName=TLP109 Toshiba]<br>[http://www.vishay.com/doc?81587 Vishay]
|-
|-
| 6N137
| '''6N137'''<br>PS9587
| DIP8
| DIP8
| rowspan="3" | 7
| rowspan="3" | 5
| rowspan="3" | digital
| rowspan="3" | 15
| rowspan="3" style="writing-mode:sideways-lr" | 10 MBit/s
| rowspan="2" style="writing-mode:sideways-lr" | Dual-channel: HCPL-xx3x
| rowspan="3" | B C D DK F I U R
| [https://docs.broadcom.com/docs/AV02-0940EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/KPC6N137.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/6N137.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/6N137_EL26XX.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93136.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2008-0035/S_110_6N137%2020140411.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/HCPL2631M-D.pdf ONSemi], [http://documentation.renesas.com/doc/YOUSYS/document/PN10678EJ04V0DS.pdf Renesas]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?type=datasheet&lang=en&pid=6n137 Toshiba]<br>[http://www.vishay.com/docs/84732/6n137.pdf Vishay]
|-
| HCPL-0600<br>EL0600<br>ICPL0600<br>LTV-0601<br>PS9817A<br>VO0600
| SO8
| [https://docs.broadcom.com/docs/AV02-0940EN Broadcom]<br>[http://www.everlight.com/file/ProductFile/EL06XX.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93162.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2013-0015/S_110_LTV-0601%2020140411.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/HCPL0639-D.pdf ONSemi]<br>[http://documentation.renesas.com/doc/YOUSYS/document/PN10647EJ03V0DS.pdf Renesas]<br>[http://www.vishay.com/doc?84607 Vishay]
|-
| HCPL-M600<br>KPC410<br>CTM600<br>ELM600<br>FODM611<br>ICPLM600<br>LTV-M601<br>PS9117A<br>PC410<br>TLP2362
| SO5
|  
|  
| 4,5 - 5,5 V
| [https://docs.broadcom.com/docs/AV02-0941EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/KPC410.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CTM600.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/ELM6XX.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93131.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2013-0020/S_110_LTV-M601%20201503.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/FODM611-D.pdf ONSemi]<br>[http://documentation.renesas.com/doc/YOUSYS/document/PN10646EJ04V0DS.pdf Renesas]<br>[http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc410l0nip_e.pdf Sharp]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=7706&prodName=TLP2362 Toshiba]
|
| 15 mA
| 10 MBit/s
|
| B C D DK F I U R
| [http://www.avagotech.com/docs/AV02-0940EN Avago], [http://www.cosmo-ic.com/object/products/KPC6N137.pdf Cosmo], [http://www.everlight.com/file/ProductFile/6N137_EL26XX.pdf Everlight], [http://www.fairchildsemi.com/datasheets/6N/6N137.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93136.pdf Isocom], [http://optoelectronics.liteon.com/upload/download/DS70-2008-0035/S_110_6N137%2020140411.pdf LiteOn], [http://toshiba.semicon-storage.com/info/docget.jsp?type=datasheet&lang=en&pid=6n137 Toshiba], [http://www.vishay.com/docs/84732/6n137.pdf Vishay]
|-
|-
| 6N138, 6N139
| '''6N138'''<br>6N139
| DIP8
| DIP8
|  
| rowspan="2" | 7, 18
| 0 - 7 V, 0 - 18 V
| rowspan="2" | 7, 18
| >= 300 %, >= 400 %
| rowspan="2" | 300
| 60 mA
| rowspan="2" | 60
| ton 15 µs, toff 50 µs
| rowspan="2" style="writing-mode:sideways-lr" | ton 15 µs, toff 50 µs
|
| rowspan="2" style="writing-mode:sideways-lr" | Dual-channel: HCPL-xx3x
| B C D DK e F R U
| rowspan="2" | B C D DK e F R U
| [http://www.avagotech.com/docs/AV02-1359EN Avago], [http://www.cosmo-ic.com/object/products/KPC6N138.pdf Cosmo], [http://www.everlight.com/file/ProductFile/6N138_139.pdf Everlight], [http://www.fairchildsemi.com/datasheets/6N/6N138M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93135.pdf Isocom], [http://optoelectronics.liteon.com/upload/download/DS70-2009-0001/S_110_6N138-L,%206N139-L.pdf LiteOn], [http://toshiba.semicon-storage.com/info/docget.jsp?pid=6N138&lang=en&type=datasheet Toshiba], [http://www.vishay.com/docs/83605/6n138.pdf Vishay]
| [https://docs.broadcom.com/docs/AV02-1359EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/KPC6N138.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/6N138.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/6N138_139.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93135.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2009-0001/S_110_6N138-L,%206N139-L.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/HCPL2731M-D.pdf ONSemi]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?pid=6N138&lang=en&type=datasheet Toshiba]<br>[http://www.vishay.com/docs/83605/6n138.pdf Vishay]
|-
| HCPL-0700/1<br>TLP2403
| SO8
| [https://docs.broadcom.com/docs/AV02-1359EN Broadcom]<br>[http://www.onsemi.com/pub/Collateral/HCPL0731-D.pdf ONSemi]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=5956&prodName=TLP2403 Toshiba]
|-
|-
| CNY17
| '''CNY17'''
| DIP6
| DIP6
| 70 V
| 70
| -
|
| 40 % – 160 %
| 160
| 50 mA
| 50
| ton 14 µs, toff 63 µs
| style="writing-mode:sideways-lr"  | ton 14 µs, toff 63 µs
|  
|  
| B C D DK e F U R
| B C D DK e F U R
| [http://www.avagotech.com/docs/AV02-0772EN Avago], [http://www.everlight.com/file/ProductFile/201407061850553781.pdf Everlight], [http://www.fairchildsemi.com/datasheets/CN/CNY171M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/CNY17-1X_2X_3X_4X.pdf Isocom], [http://optoelectronics.liteon.com/upload/download/DS-70-99-0001/S_110_CNY17.pdf LiteOn], [http://www.vishay.com/docs/83606/cny17.pdf Vishay]
| [https://docs.broadcom.com/docs/AV02-0772EN Broadcom]<br>[http://www.ct-micro.com/uploads_zip/CNY17.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/201407061850553781.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/CNY17-1X_2X_3X_4X.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS-70-99-0001/S_110_CNY17.pdf LiteOn], [http://www.onsemi.com/pub/Collateral/CNY17F4M-D.pdf ONSemi]<br>[http://www.qt-brightek.com/datasheet/CNY17_and_CNY17F_Series_v1.1.pdf QT-Brightek]<br>[http://www.vishay.com/docs/83606/cny17.pdf Vishay]
|-
|-
| FOD060
| '''H11L1'''<br>VOH1016A
| DIP8, SMT8
| DIP6
|  
| rowspan="2" | 16
| 3,0 - 5,5 V
| rowspan="2" | 16
|  
| rowspan="2" | digital
|  
| rowspan="2" | 50
| 10 MBit/s
| rowspan="2" style="writing-mode:sideways-lr" | 1 MBit/s
|
| rowspan="2" style="writing-mode:sideways-lr" | [[Schmitt-Trigger]]
|  
| rowspan="2" | B C DK F P U
|
| [http://www.ct-micro.com/uploads_zip/H11L1.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/H11L1.pdf Everlight], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/H11l1-H11L4_data_sheet.pdf Isocom]<br>[http://www.onsemi.com/pub/Collateral/H11L3M-D.pdf ONSemi]<br>[http://www.qt-brightek.com/datasheet/H11L1_H11L2_H11L3_v1.1.pdf QT-Brightek]<br>[http://www.vishay.com/docs/84896/voh1016ab.pdf Vishay]
|-
|-
| H11L1, PC900
| PC400<br>VOH1016A
| DIP6
| SO5
|
| [https://www.sharpsde.com/fileadmin/products/Optoelectronics/Isolation%20Devices/Specs%20Photocoupler/PC400J00000F_07Jun07_Spec_ED-04P172A.pdf Sharp]<br>[https://www.vishay.com/docs/84896/voh1016ab.pdf Vishay]
| 3 - 15 V
| –
| 50 mA
| 1 MBit/s
| Schmitt-Trigger
| B C DK F P U
| [http://www.everlight.com/file/ProductFile/H11L1.pdf Everlight], [http://www.fairchildsemi.com/datasheets/H1/H11L1M.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/H11l1-H11L4_data_sheet.pdf Isocom], [http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc900v0nszx_e.pdf Sharp]
|-
|-
| HCPL-814, K3010, EL814, FOD814, ISP814, KB814, LTV-814, K814P
| HCPL-814<br>K3010<br>CT814<br>EL814<br>ISP814<br>KB814<br>LTV-814<br>FOD814<br>Q814<br>PS2565<br>K814P
| DIP4
| DIP4
| 35 V
| rowspan="2" | 35
|  
| rowspan="2" | —
| 20 % – 300 %
| rowspan="2" | 300
| 50 mA
| rowspan="2" | 50
| trise/tfall 20 µs
| rowspan="2" style="writing-mode:sideways-lr" | trise/tfall 20 µs
| AC-Eingang,<br>Dual/Quad als *824/*844
| rowspan="2" style="writing-mode:sideways-lr" | AC-Eingang,<br>Dual/Quad als *824/*844
| B C DK e F I R U
| rowspan="2" | B C DK e F I R U
| [http://www.avagotech.com/docs/AV02-0771EN Avago], [http://www.cosmo-ic.com/object/products/K3010.pdf Cosmo], [http://www.everlight.com/file/ProductFile/EL814.pdf Everlight], [https://www.fairchildsemi.com/datasheets/FO/FOD814.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/ISP814_Data_Sheet.pdf Isocom], [http://www.kingbright.com/attachments/file/psearch/000/00/00/KB814(Ver.7).pdf Kingbright], [http://optoelectronics.liteon.com/upload/download/DS-70-96-0013/S_110_LTV-8X4%20series%2020150514.pdf LiteOn], [http://www.vishay.com/docs/83523/83523.pdf Vishay]
| [https://docs.broadcom.com/docs/AV02-0771EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/K3010.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CT814.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/EL814.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/ISP814_Data_Sheet.pdf Isocom]<br>[http://www.kingbright.com/attachments/file/psearch/000/00/00/KB814(Ver.7).pdf Kingbright]<br>[http://optoelectronics.liteon.com/upload/download/DS-70-96-0013/S_110_LTV-8X4%20series%2020150514.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/FOD814-D.PDF ONSemi]<br>[http://www.qt-brightek.com/datasheet/Q814%20v1.2.pdf QT-Brightek]<br>[http://documentation.renesas.com/doc/YOUSYS/document/PN10236EJ05V0DS.pdf Renesas]<br>[http://www.vishay.com/docs/83523/83523.pdf Vishay]
|-
| ACPL-214<br>KPS2805<br>CTH214<br>EL3H4<br>IS3H4<br>LTV-214<br>HMHAA280<br>PS2805C<br>PC3H4<br>TLP290<br>VOS627A
| SO4
| [https://docs.broadcom.com/docs/AV02-0469EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/KPS2805.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CTH214.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/EL3H4-G.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_pdfs/is3h4_new.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2010-0067/S_110_LTV-2X4-G%20series%20201412.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/HMHAA280-D.PDF ONSemi], [http://documentation.renesas.com/doc/YOUSYS/document/r08ds0074ej0300_nepoc.pdf Renesas]<br>[http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc3h4_e.pdf Sharp]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=14154&prodName=TLP290(SE Toshiba]<br>[http://www.vishay.com/doc?83475 Vishay]
|-
|-
| KPC815, EL815, ISP815, KB815, LTV-815, PC815, K815P
| KPC815<br>CT815<br>EL815<br>ISP815<br>KB815<br>LTV-815<br>Q815<br>'''PC815'''<br>K815P
| DIP4
| DIP4
| 35 V
| 35
|  
|
| 600 % – 7500 %
| 600
| 80 mA
| 80
| trise 300 µs, tfall 250 µs
| style="writing-mode:sideways-lr"  | trise 300 µs, tfall 250 µs
| Dual/Quad als *825/*845
| style="writing-mode:sideways-lr"  | Dual/Quad als *825/*845
| B DK R U
| B DK R U
| [http://www.cosmo-ic.com/object/products/KPC815.pdf Cosmo], [http://www.everlight.com/file/ProductFile/EL815.pdf Everlight], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/ISP815.pdf Isocom], [http://www.kingbright.com/attachments/file/psearch/000/00/00/KB815(Ver.10).pdf Kingbright], [http://optoelectronics.liteon.com/upload/download/DS-70-96-0015/S_110_LTV-815%20825%20845%20(%20M,%20S,%20S-TA1,%20S-TA,%20S-TP%20)%20Series.pdf LiteOn], [http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc81510nsz_e.pdf Sharp], [http://www.vishay.com/docs/83524/k851p.pdf Vishay]
| [http://www.cosmo-ic.com/object/products/KPC815.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CT815.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/EL815.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/ISP815.pdf Isocom]<br>[http://www.kingbright.com/attachments/file/psearch/000/00/00/KB815(Ver.10).pdf Kingbright]<br>[http://optoelectronics.liteon.com/upload/download/DS-70-96-0015/S_110_LTV-815%20825%20845%20(%20M,%20S,%20S-TA1,%20S-TA,%20S-TP%20)%20Series.pdf LiteOn]<br>[http://www.qt-brightek.com/datasheet/Q815_v.1.1.pdf QT-Brightek]<br>[http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc81510nsz_e.pdf Sharp]<br>[http://www.vishay.com/docs/83524/k851p.pdf Vishay]
|-
|-
| EL816, KB816, LTV-816, PC123
| CT816<br>EL816<br>KB816<br>LTV-816<br>PC123
| DIP4
| DIP4
| 70 V
| 70
|  
|
| 50 % – 600 %
| 50
| 50 mA
| 50
| trise/tfall 18 µs
| style="writing-mode:sideways-lr" | trise/tfall 18 µs
| Dual/Quad als *826/*846
| style="writing-mode:sideways-lr" | Dual/Quad als *826/*846
| DK e R U
| DK e R U
| [http://www.everlight.com/file/ProductFile/EL816.pdf Everlight], [http://www.kingbright.com/attachments/file/psearch/000/00/00/KB816(Ver.9).pdf Kingbright], [http://optoelectronics.liteon.com/upload/download/DS70-2012-0048/S_110_LTV-816%20(M,%20S,%20S-TA,%20S-TA1,%20S-TP)%20Series.pdf LiteOn], [http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc123xnnsz_e.pdf Sharp]
| [http://www.ct-micro.com/uploads_zip/CT816.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/EL816.pdf Everlight]<br>[http://www.kingbright.com/attachments/file/psearch/000/00/00/KB816(Ver.9).pdf Kingbright]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2012-0048/S_110_LTV-816%20(M,%20S,%20S-TA,%20S-TA1,%20S-TP)%20Series.pdf LiteOn]<br>[http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc123xnnsz_e.pdf Sharp]
|-
|-
| HCPL-817, K1010, EL817, FOD817, ISP817, KB817, LTV-817, PC817, TLP785, K817P
| HCPL-817<br>K1010<br>CT817<br>EL817<br>ISP817<br>KB817<br>LTV-817<br>FOD817<br>Q817<br>PS2561D<br>'''PC817'''<br>TLP785<br>K817P
| DIP4
| DIP4
| 35 V
| rowspan="2" | 35
| rowspan="2" | —
| rowspan="2" | 50
| rowspan="2" | 50
| rowspan="2" style="writing-mode:sideways-lr" | ton 3 µs, toff 50 µs
| style="writing-mode:sideways-lr"  | Dual/Quad als *827/*847
| rowspan="2" | B C D DK e F I R U
| [https://docs.broadcom.com/docs/AV02-0265EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/K1010.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CT817.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/EL817.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/db9227580v.pdf Isocom]<br>[http://www.kingbright.com/attachments/file/psearch/000/00/00/KB817(Ver.12).pdf Kingbright]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2012-0050/S_110_LTV-817%20series%20201406.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/FOD814-D.PDF ONSemi]<br>[http://www.qt-brightek.com/datasheet/Q817_Series.pdf QT-Brightek]<br>[http://documentation.renesas.com/doc/YOUSYS/document/PN10777EJ02V0DS.pdf Renesas]<br>[http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc817xnnsz_e.pdf Sharp]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=10569&prodName=TLP785 Toshiba]<br>[http://www.vishay.com/docs/83522/k817p.pdf Vishay]
|-
| HCPL-181<br>KPS2801<br>CTH217<br>EL3H7<br>IS3H7<br>LTV-217<br>HMHA281<br>PS2801C<br>PC3H7<br>TLP291<br>VOS617A
| SO4
|  
|  
| 50 % – 600 %
| [https://docs.broadcom.com/docs/AV02-0774EN Broadcom]<br>[http://www.cosmo-ic.com/object/products/KPS2801.pdf Cosmo]<br>[http://www.ct-micro.com/uploads_zip/CTH217.pdf CT-Micro]<br>[http://www.everlight.com/file/ProductFile/EL3H7-G.pdf Everlight]<br>[http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/dc93174.pdf Isocom]<br>[http://optoelectronics.liteon.com/upload/download/DS70-2009-0016/S_110_LTV-217-G%20Series%20Rev%20-%20July%2016%202012.pdf LiteOn]<br>[http://www.onsemi.com/pub/Collateral/HMHA2801B-D.PDF ONSemi]<br>[http://documentation.renesas.com/doc/YOUSYS/document/r08ds0072ej0400_nepoc.pdf Renesas]<br>[http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc3h7_e.pdf Sharp]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=14152&prodName=TLP291(SE Toshiba]<br>[http://www.vishay.com/doc?83497 Vishay]
| 50 mA
| ton 3 µs, toff 50 µs
| Dual/Quad als *827/*847
| B C D DK e F I R U
| [http://www.avagotech.com/docs/AV02-0265EN Avago], [http://www.cosmo-ic.com/object/products/K1010.pdf Cosmo], [http://www.everlight.com/file/ProductFile/EL817.pdf Everlight], [http://www.fairchildsemi.com/datasheets/FO/FOD817.pdf Fairchild], [http://www.isocom.com/images/stories/isocom/isocom_new_pdfs/db9227580v.pdf Isocom], [http://www.kingbright.com/attachments/file/psearch/000/00/00/KB817(Ver.12).pdf Kingbright], [http://optoelectronics.liteon.com/upload/download/DS70-2012-0050/S_110_LTV-817%20series%20201406.pdf LiteOn], [http://sharp-world.com/products/device/lineup/data/pdf/datasheet/pc817xnnsz_e.pdf Sharp], [http://toshiba.semicon-storage.com/info/docget.jsp?did=10569&prodName=TLP785 Toshiba], [http://www.vishay.com/docs/83522/k817p.pdf Vishay]
|-
|-
| HCPL-2200, EL2200, FOD2200, TLP2200, SFH6700
| HCPL-2200<br>EL2200<br>'''TLP2200'''<br>SFH6700
| DIP8
| DIP8
|  
| 15
| 4,5 - 20 V
| 15
|
| digital
| 25 mA
| 25
| 2,5 MBit/s
| style="writing-mode:sideways-lr"  | 2,5 MBit/s
| nicht-invertierender Push-/Pull-TTL-Ausgang
| style="writing-mode:sideways-lr"  | nicht-invertierender Push-/Pull-TTL-Ausgang<br>Dual-channel: HCPL-2231
| C DK F U R
| C DK F U R
| [http://www.avagotech.com/docs/AV01-0557EN Avago], [http://www.everlight.com/file/ProductFile/EL220X.pdf Everlight], [http://media.digikey.com/pdf/Data%20Sheets/Fairchild%20PDFs/FOD2200.pdf Fairchild], [http://toshiba.semicon-storage.com/info/docget.jsp?did=16819&prodName=TLP2200 Toshiba], [http://www.vishay.com/docs/83683/sfh6700.pdf Vishay]
| [https://docs.broadcom.com/docs/AV01-0557EN Broadcom]<br>[http://www.everlight.com/file/ProductFile/EL220X.pdf Everlight]<br>[http://toshiba.semicon-storage.com/info/docget.jsp?did=16819&prodName=TLP2200 Toshiba]<br>[http://www.vishay.com/docs/83683/sfh6700.pdf Vishay]
|-
|-
| SFH610
| ACPL-M75L<br>FODM8071<br>'''TLP2361'''
| DIP4, SMT (SFH6106)
| SO5
| 70 V
| rowspan="2" | 6
|
| rowspan="2" |  5
| 40 % - 320 %
| rowspan="2" | digital
|  
| rowspan="2" | 10
| 10 MBit/s
| rowspan="2" style="writing-mode:sideways-lr" | 15 MBit/s
| Veraltet
| rowspan="2" style="writing-mode:sideways-lr" | Push-/Pull-CMOS-Ausgang
|  
| rowspan="2" | B C DK e F U
|
| [https://docs.broadcom.com/docs/AV02-0964EN Broadcom]<br>[http://www.onsemi.com/pub/Collateral/FODM8071-D.pdf ONSemi]<br>[https://toshiba.semicon-storage.com/info/docget.jsp?did=14229&prodName=TLP2361 Toshiba]
|-
|-
| '''ACPL-071L'''<br>EL071L<br>TLP2466
| SO8
| [https://docs.broadcom.com/docs/AV02-0963EN Broadcom]<br>[http://ultran.ru/sites/default/files/el071l_datasheet_prelimilary.pdf Everlight]<br>[https://toshiba.semicon-storage.com/info/docget.jsp?did=10162&prodName=TLP2466 Toshiba]
|}
|}


Zeile 221: Zeile 248:
=== Typen mit MOSFET ===
=== Typen mit MOSFET ===


* [http://www.panasonic-electric-works.com/peweu/en/html/photomos.php PhotoMOS Relais bei Panasonic]
* [https://www.panasonic-electric-works.com/eu/96.htm PhotoMOS Relais bei Panasonic]


=== Lineare Optokoppler ===
=== Lineare Optokoppler ===


* [http://www.avagotech.com/products/parametric/optocouplers/optocouplers_-_plastic/plastic_high_linearity_analog_optocoupler/ Avago HCNR-200/201]
* [https://www.broadcom.com/products/optocouplers/industrial-plastic/specific-function/high-linearity-analog/ Broadcom HCNR-200/201]
* [https://www.broadcom.com/products/optocouplers/industrial-plastic/isolation-amplifiers-modulators/isolation-amplifiers/acpl-c870 Broadcom ACPL-C870] Vollintegrierter, optischer, analoger Trennverstärker, arbeitet intern jedoch digital
* [http://www.vishay.com/optocouplers/opto-linear/ Vishay IL300]
* [http://www.vishay.com/optocouplers/opto-linear/ Vishay IL300]
* [http://www.ssousa.com/pdf/SLC800.pdf Solid State Optronics SLC800] mit [http://www.ssousa.com/pdf/an060.pdf Applikationshinweis]
* [http://www.ssousa.com/pdf/SLC800.pdf Solid State Optronics SLC800] mit [http://www.ssousa.com/pdf/an060.pdf Applikationshinweis]
Zeile 249: Zeile 277:
* Für höhere Geschwindigkeiten bietet z.&nbsp;B. Analog Devices recht teure [http://www.analog.com/en/interface/digital-isolators/products/index.html Digital Isolators] an, genannt '''iCoupler''' und von Texas Instruments die [http://focus.ti.com/paramsearch/docs/parametricsearch.tsp?family=analog&familyId=897&uiTemplateId=NODE_STRY_PGE_T ISO Koppler] auf kapazitiver Basis.
* Für höhere Geschwindigkeiten bietet z.&nbsp;B. Analog Devices recht teure [http://www.analog.com/en/interface/digital-isolators/products/index.html Digital Isolators] an, genannt '''iCoupler''' und von Texas Instruments die [http://focus.ti.com/paramsearch/docs/parametricsearch.tsp?family=analog&familyId=897&uiTemplateId=NODE_STRY_PGE_T ISO Koppler] auf kapazitiver Basis.


== Beispiele ==
=== Optokoppler für höhere Schaltleistungen ===
 
Für höhere Ströme jenseits einiger mA gibt es von Panasonic sogenannte Photo-MOS Relais. Das sind MOSFETs, welche optisch angesteuert werden. Ebenso gibt es MOSFET-Treiber, welche diskrete MOSFETs potentialfrei ansteuern können, ohne eine zusätzliche Hilfsversorgung zu benötigen.
 
* [https://www.panasonic-electric-works.com/de/photomos-relais.htm PhotoMOS Relais]
 
== Siehe auch ==
 
* [[I2C-Schaltmodul]] mit Optokoppler MOC3040 zur galvanischen Trennung von [[I2C]]-[[Bus]] und [[230V]] Netzspannung.
* [https://www.mikrocontroller.net/topic/218153#new| Forumsbeitrag]: Methoden zur Beschleunigung von Optokopplern
* [https://www.mikrocontroller.net/topic/380250#4327204 Forumsbeitrag]: Verpolungs- und Überspannungsschutz mit Photo-MOS
* [https://www.mikrocontroller.net/topic/394574#4538291 Forumsbeitrag]: Lineare Spannungsübertragung mit IL300
* [https://www.mikrocontroller.net/topic/431716#5087308 Forumsbeitrag]: Hinweise zum ACPL-C870
* [https://www.mikrocontroller.net/topic/534764#7018285 Forumsbeitrag]: Lebensdauer Optokoppler
* [https://www.mikrocontroller.net/topic/561924#7546115 Forumsbeitrag]: warum hier zwei Vorwiderstände (Gleichtaktstörungen bei schnellen Gatetreibern mit Digitalkoppler)
 
== Links ==


* [[I2C-Schaltmodul]] mit Optokoppler MOC3040 zur galvanischen Trennung von [[I2C]]-[[Bus]] und 230 Volt Netzspannung.
* [http://www.learnabout-electronics.org/ssr_01.php Opto-coupled devices, (engl.)]
* [https://toshiba.semicon-storage.com/info/docget.jsp?did=13438 Basic Characteristics and Application Circuit Design of Transistor Photocouplers] (engl., Application Note von Toshiba)
* [https://toshiba.semicon-storage.com/info/docget.jsp?did=60965 Basic Characteristics and Application Circuit Design of IC Couplers] (engl., Application Note von Toshiba)
* [https://datasheetspdf.com/pdf-file/369404/PerkinElmerOptoelectronics/VTL5C9/1 Vactrols], Photoconductive Cells and Analog Optoisolators, PerkinElmer Optoelectronics, PDF


[[Category:Bauteile]]
[[Category:Bauteile]]
[[Category:Datenübertragung]]
[[Category:Datenübertragung]]

Version vom 29. November 2023, 07:46 Uhr

Beschreibung

Optokoppler dienen zur Kopplung elektronischer Schaltungen mit Hilfe von Lichtenergie. In einem Optokoppler befindet sich ein Lichtsender (LED, meist Infrarot) und ein Lichtempfänger (z. B. Fototransistor), welche durch einen sehr kurzen Lichtleiter verbunden sind. Die elektrische (galvanische) Trennung zwischen Eingang und Ausgang ermöglicht Kopplung von Schaltungen sehr unterschiedlichen Spannungsniveaus. Das ist notwendig bei gefährlich hohen Spannungen, störverseuchten Umgebungen oder zur Verhinderung von Masseschleifen. Neben Optokopplern mit Fototransistoren als Lichtempfänger gibt es Typen mit Fotodioden oder Triacs. Typen mit Photodioden sind dabei wesentlich schneller als Transistor- und Triactypen. Ausserdem gibt es noch komplett integrierte Typen, welche ohne weitere Beschaltung wie ein normaler digitaler IC verwendet werden können.

Die meisten Optokoppler sind nur für digitale Signale nutzbar. Zur elektrischen Trennung von analogen Signalen eignen sich spezielle Optokoppler. Diese haben meist zwei Photoempfänger, meist Photodioden. Eine Photodiode dient als galvanisch getrennter Ausgang, die Zweite als Vergleichsausgang zur Kompensation von Unlinearitäten, Drift- und Alterungseffekten. Durch diese lässt sich eine Regelung aufbauen die die Vergleichsspannung proportional zur Eingangsspannung einstellt. Dadurch ist die Übertragungsfunktion des Optokopplers als linear anzusehen. Daher wird im Zusammenhang mit analogen Optokopplern häufig auch von linearen Optokopplern gesprochen. Für gemäßigte Ansprüche kann man aber auch mit normalen, digitalen Optokopplern analoge Signale übertragen.

Beschaltung

Optokoppler sind relativ leicht nutzbar. Sie bieten ausserdem die Möglichkeit, das Signal bei der Übertragung zu invertieren. Nachfolgend sind drei Grundschaltungen gezeigt. Links nichtinvertierend, in der Mitte mit Invertierung am Eingang und rechts mit Invertierung am Ausgang, das ist die häufigste Schaltung.

Optokoppler grundschaltungen.png

Wie berechnet man nun die Widerstände für die LED und den Transistor am Ausgang? Recht einfach. Zunächst muss man den Strom durch die LED festlegen, hier hilft auch das Datenblatt. Typische Werte liegen zwischen 5-20mA. Die Berechnung des Vorwiderstands erfolgt gemäß Beschreibung im Artikel LED, wobei die Flußspannung meist 1,2-1,5V beträgt. Der Arbeitswiderstand am Ausgang berechnet sich wie folgt:

[math]\displaystyle{ R_A = \frac{Vcc \cdot SF}{I_{LED} \cdot CTR } }[/math]

  • R_A : Arbeitswiderstand
  • Vcc: Betriebsspannung am Ausgang
  • CTR: Stromübertragungsfaktor (engl. Current Transfer Ratio)
  • SF: Sicherheitsfaktor

Dabei muss man im Datenblatt nach dem minimalen CTR suchen, der ist abhängig von dem speziellen Typ, Temperatur und ggf. vom LED-Strom. Als Sicherheitsfaktor sollte man mindestens 2 wählen, weil die gängige Definition der Lebensdauer einer LED bzw. Optokopplers auf die halbe optische Leistung ausgelegt ist. Wenn man die LED jedoch deutlich unter dem Nennstrom betreibt (50% und weniger), erhöht sich die Lebensdauer beachtlich, Faktor 10 und mehr ist möglich. Praktisch wird man einen Sicherheitsfaktor zwischen 2-5 wählen. Aber auch hier muss man Kompromisse eingehen. Denn um die maximale Geschwindigkeit eines Optokopplers zu erreichen, muss man meist mit Nennstrom und minimalem Arbeitswiderstand arbeiten. Hier sind dann die High Speed Optokoppler mit aktivem Empfänger und Verstärker deutlich im Vorteil (z.B. 6N137). Bei Optokopplern mit Transistorausgang und herausgeführtem Basisanschluß kann man durch einen passenden Widerstand zwischen Basis und Emitter vor allem die Abschaltgeschwindigkeit deutlich steigen, allerdings auf Kosten der Empfindlichkeit.

Geläufige Typen

Bezeichnung Gehäuse Vce (max)
[V] 		Vsupply
[V] 		CTR
[%] 		Iout
[mA] 		Geschwindigkeit Bemerkung Lieferant Datenblatt
4N25
4N26
4N27
4N28 		DIP6 30 20, 10 ton/off 2 µs (typ.) B C D DK e F U R Broadcom
CT-Micro
Everlight
Isocom
LiteOn
ONSemi
QT-Brightek
Toshiba
Vishay
4N32
4N33 		DIP6, SMD6 30 500 100 5 µS / 100 µS B C DK F U R CT-Micro
Everlight
Isocom
ONSemi
Vishay
4N35
4N36
4N37 		DIP6, DCJ6 30 100 100 ton/off 7 µs B C D DK e F U R Broadcom
CT-Micro
Everlight
Isocom
LiteOn
ONSemi
QT-Brightek
Toshiba
Vishay
6N135
6N136
PS8501 		DIP8 20 15 30 100 1 MBit/s Dual-channel: HCPL-xx3x B C D DK F P U R Broadcom
Cosmo
CT-Micro
Everlight
Isocom
LiteOn
ONSemi
Renesas
Toshiba
Vishay
HCPL-0500/1
EL0500/1
ICPL0500/1
SFH6315/6 		SO8 Broadcom
Everlight
Isocom
ONSemi
Vishay
KPC457
CTM452
ELM452
FODM452
PS8101
TLP109
VOM452 		SO5 Cosmo
CT-Micro
Everlight
ONSemi
Renesas
Toshiba
Vishay
6N137
PS9587 		DIP8 7 5 digital 15 10 MBit/s Dual-channel: HCPL-xx3x B C D DK F I U R Broadcom
Cosmo
CT-Micro
Everlight
Isocom
LiteOn
ONSemi, Renesas
Toshiba
Vishay
HCPL-0600
EL0600
ICPL0600
LTV-0601
PS9817A
VO0600 		SO8 Broadcom
Everlight
Isocom
LiteOn
ONSemi
Renesas
Vishay
HCPL-M600
KPC410
CTM600
ELM600
FODM611
ICPLM600
LTV-M601
PS9117A
PC410
TLP2362 		SO5 Broadcom
Cosmo
CT-Micro
Everlight
Isocom
LiteOn
ONSemi
Renesas
Sharp
Toshiba
6N138
6N139 		DIP8 7, 18 7, 18 300 60 ton 15 µs, toff 50 µs Dual-channel: HCPL-xx3x B C D DK e F R U Broadcom
Cosmo
CT-Micro
Everlight
Isocom
LiteOn
ONSemi
Toshiba
Vishay
HCPL-0700/1
TLP2403 		SO8 Broadcom
ONSemi
Toshiba
CNY17 DIP6 70 160 50 ton 14 µs, toff 63 µs B C D DK e F U R Broadcom
CT-Micro
Everlight
Isocom
LiteOn, ONSemi
QT-Brightek
Vishay
H11L1
VOH1016A 		DIP6 16 16 digital 50 1 MBit/s Schmitt-Trigger B C DK F P U CT-Micro
Everlight, Isocom
ONSemi
QT-Brightek
Vishay
PC400
VOH1016A 		SO5 Sharp
Vishay
HCPL-814
K3010
CT814
EL814
ISP814
KB814
LTV-814
FOD814
Q814
PS2565
K814P 		DIP4 35 300 50 trise/tfall 20 µs AC-Eingang,
Dual/Quad als *824/*844 		B C DK e F I R U Broadcom
Cosmo
CT-Micro
Everlight
Isocom
Kingbright
LiteOn
ONSemi
QT-Brightek
Renesas
Vishay
ACPL-214
KPS2805
CTH214
EL3H4
IS3H4
LTV-214
HMHAA280
PS2805C
PC3H4
TLP290
VOS627A 		SO4 Broadcom
Cosmo
CT-Micro
Everlight
Isocom
LiteOn
ONSemi, Renesas
Sharp
Toshiba
Vishay
KPC815
CT815
EL815
ISP815
KB815
LTV-815
Q815
PC815
K815P 		DIP4 35 600 80 trise 300 µs, tfall 250 µs Dual/Quad als *825/*845 B DK R U Cosmo
CT-Micro
Everlight
Isocom
Kingbright
LiteOn
QT-Brightek
Sharp
Vishay
CT816
EL816
KB816
LTV-816
PC123 		DIP4 70 50 50 trise/tfall 18 µs Dual/Quad als *826/*846 DK e R U CT-Micro
Everlight
Kingbright
LiteOn
Sharp
HCPL-817
K1010
CT817
EL817
ISP817
KB817
LTV-817
FOD817
Q817
PS2561D
PC817
TLP785
K817P 		DIP4 35 50 50 ton 3 µs, toff 50 µs Dual/Quad als *827/*847 B C D DK e F I R U Broadcom
Cosmo
CT-Micro
Everlight
Isocom
Kingbright
LiteOn
ONSemi
QT-Brightek
Renesas
Sharp
Toshiba
Vishay
HCPL-181
KPS2801
CTH217
EL3H7
IS3H7
LTV-217
HMHA281
PS2801C
PC3H7
TLP291
VOS617A 		SO4 Broadcom
Cosmo
CT-Micro
Everlight
Isocom
LiteOn
ONSemi
Renesas
Sharp
Toshiba
Vishay
HCPL-2200
EL2200
TLP2200
SFH6700 		DIP8 15 15 digital 25 2,5 MBit/s nicht-invertierender Push-/Pull-TTL-Ausgang
Dual-channel: HCPL-2231 		C DK F U R Broadcom
Everlight
Toshiba
Vishay
ACPL-M75L
FODM8071
TLP2361 		SO5 6 5 digital 10 15 MBit/s Push-/Pull-CMOS-Ausgang B C DK e F U Broadcom
ONSemi
Toshiba
ACPL-071L
EL071L
TLP2466 		SO8 Broadcom
Everlight
Toshiba

Typen mit Transistorausgang

  • CNY17/x: 1-fach Koppler im DIL6-Gehäuse
  • PC817-Serie: 1-,2-,3- und 4-fachTyp verfügbar, CTR: 50%, 80 kHz
  • 6N135, 6N136: 1-fach Typ, DIL8, Highspeed 1 MBit/s
  • 6N138, Darlingtonausgang mit hohem CTR

Typen mit Triacausgang

  • IL4218 TRIAC DRIVER OPTOCOUPLER
  • MOC3020 6-Pin DIP Random-Phase Optoisolators Triac Driver Output 400 V
  • MOC3052 6-Pin DIP Random-Phase Optoisolators Triac Drivers 600 V
  • MOC306x 6-Pin DIP Zero-Cross Optoisolators Triac Driver Output 600 V

Typen mit MOSFET

Lineare Optokoppler

Vollintegrierte Optokoppler

  • 6N137: 1-fach Typ, DIL8, Highspeed 10 Mbit/s
  • H11L1: 1-fach Typ, DIL6, Highspeed 1 Mbit/s
  • HCPL-2200: 1-fach Typ, DIL8, Highspeed 2,5 Mbit/s
  • HCPL 2630: 2-fach Typ, DIL8, Highspeed 10 Mbit/s

Alternative Technologien

  • Für höhere Geschwindigkeiten bietet z. B. Analog Devices recht teure Digital Isolators an, genannt iCoupler und von Texas Instruments die ISO Koppler auf kapazitiver Basis.

Optokoppler für höhere Schaltleistungen

Für höhere Ströme jenseits einiger mA gibt es von Panasonic sogenannte Photo-MOS Relais. Das sind MOSFETs, welche optisch angesteuert werden. Ebenso gibt es MOSFET-Treiber, welche diskrete MOSFETs potentialfrei ansteuern können, ohne eine zusätzliche Hilfsversorgung zu benötigen.

Siehe auch

Links

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