Datasheets
6N136SV by:
onsemi
Everlight Electronics Co Ltd
Fairchild Semiconductor Corporation
Lite-On Semiconductor Corporation
onsemi
Not Found

Logic IC Output Optocoupler

Part Details for 6N136SV by onsemi

Results Overview of 6N136SV by onsemi

Tip: Data for a part may vary between manufacturers. You can filter for manufacturers on the top of the page next to the part image and part number.

Applications Space Technology Aerospace and Defense Transportation and Logistics Renewable Energy Automotive Robotics and Drones

6N136SV Information

6N136SV by onsemi is an Optocoupler.
Optocoupler are under the broader part category of Optoelectronics.

Optoelectronic components work to detect, generate, and control light. They can essentially produce and/or react to light. Read more about Optoelectronics on our Optoelectronics part category page.

Part Details for 6N136SV

6N136SV CAD Models

There are no models available for this part yet.

Sign in to request this CAD model.

Register or Sign In

6N136SV Part Data Attributes

6N136SV onsemi
Buy Now Datasheet
Compare Parts:
6N136SV onsemi Logic IC Output Optocoupler
Select a part to compare:
Part Life Cycle Code Active
Ihs Manufacturer ONSEMI
Reach Compliance Code compliant
HTS Code 8541.40.80.00
Factory Lead Time 4 Weeks
Additional Feature UL RECOGNIZED, VDE APPROVED
Configuration SINGLE
Data Rate-Nom 1 MBps
Forward Current-Max 0.025 A
Isolation Voltage-Max 2500 V
Mounting Feature SURFACE MOUNT
Number of Elements 1
Number of Functions 1
On-State Current-Max 0.008 A
Operating Temperature-Max 70 °C
Operating Temperature-Min
Optoelectronic Device Type LOGIC IC OUTPUT OPTOCOUPLER
Response Time-Max 0.000001 s
Response Time-Nom 4.5e-7 ns
Shape RECTANGULAR
Surface Mount YES

Alternate Parts for 6N136SV

This table gives cross-reference parts and alternative options found for 6N136SV. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of 6N136SV, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.

Part Number Manufacturer Composite Price Description Compare
6N136SDV onsemi Check for Price Logic IC Output Optocoupler 6N136SV vs 6N136SDV
Part Number Manufacturer Composite Price Description Compare
6N136S onsemi Check for Price Logic IC Output Optocoupler 6N136SV vs 6N136S
6N136S Fairchild Semiconductor Corporation Check for Price Logic IC Output Optocoupler, 1-Element, 2500V Isolation, 1MBps, SURFACE MOUNT, DIP-8 6N136SV vs 6N136S
6N136SV Fairchild Semiconductor Corporation Check for Price Logic IC Output Optocoupler, 1-Element, 2500V Isolation, 1MBps, SURFACE MOUNT, DIP-8 6N136SV vs 6N136SV
6N136S Everlight Electronics Co Ltd Check for Price Logic IC Output Optocoupler, 1-Element, 5000V Isolation, 1MBps, ROHS COMPLIANT, SURFACE MOUNT, DIP-8 6N136SV vs 6N136S
6N136SD Fairchild Semiconductor Corporation Check for Price Logic IC Output Optocoupler, 1-Element, 2500V Isolation, 1MBps, SURFACE MOUNT, DIP-8 6N136SV vs 6N136SD

6N136SV Related Parts

6N136SV Frequently Asked Questions (FAQ)

  • A good PCB layout practice is to keep the input and output circuits separate, use a ground plane, and minimize the loop area of the input and output traces. Additionally, place a 0.1uF bypass capacitor between the VCC and GND pins to reduce noise.

  • To ensure reliability, operate the 6N136SV within its recommended temperature range (-40°C to 100°C). Use a heat sink if the device is expected to dissipate more than 100mW of power. Also, follow proper soldering and handling procedures to prevent damage during assembly.

  • The maximum allowable voltage on the input pins is 5.5V, which is the absolute maximum rating. However, it's recommended to operate the input within the recommended voltage range of 0 to 5V to ensure reliable operation.

  • The 6N136SV is suitable for high-frequency applications up to 25kHz. However, the device's bandwidth and rise time may limit its performance at higher frequencies. For frequencies above 25kHz, consider using a faster optocoupler or a different isolation technology.

  • To troubleshoot issues, first verify the input signal and voltage levels. Check for proper connections, soldering, and PCB layout. Use an oscilloscope to measure the input and output waveforms. If the issue persists, try replacing the 6N136SV with a new device or consult the onsemi application note AN3005 for more detailed troubleshooting steps.