Try GOLD - Free
Universal PWM SIGNAL ISOLATION MODULE
Electronics For You
|May 2025
This PWM (pulse width modulation) signal isolation module is built around the widely adopted 6N137 high-speed optocoupler.
The device combines a high-efficiency input LED with an integrated optical photodiode detector IC to ensure robust signal isolation.
The advanced 6N137 variants incorporate an open drain NMOS transistor output (photodetector logic gate), offering lower leakage than traditional open-collector Schottky-clamped transistor outputs (VO). An integrated enable function (VE) also allows the detector to be strobed, improving design flexibility and control.
Optocoupler speed is critical for its performance. According to the Everlight 6N137 datasheet, maximum output rise and fall times are 40ns and 10ns, respectively. These represent the output voltage transition times when the input LED is pulsed with forward current. The inverse of the sum of these times closely approximates the maximum operating frequency under specified drive conditions.
Fig. 1 shows how the 6N137 IC module looks and Fig. 2 shows its internal structure.
PWM resolution defines the number of distinct duty cycles within a given period. A 10-bit resolution yields 1024 steps, while an 8-bit resolution provides 256 discrete duty cycles.
This story is from the May 2025 edition of Electronics For You.
Subscribe to Magzter GOLD to access thousands of curated premium stories, and 10,000+ magazines and newspapers.
Already a subscriber? Sign In
MORE STORIES FROM Electronics For You
Electronics For You
FM RADIO RECEIVER Using TDA7000
This FM radio receiver demonstrates the practical application of RF engineering and analogue signal-processing techniques.
4 mins
July 2026
Electronics For You
Latest 3D chip stacking method could extend Moore's Law
Engineered by a team at the University of Illinois Grainger College of Engineering in Urbana-Champaign, the process uses ultrathin single-crystalline silicon nanomembranes transferred at temperatures below 200°C, avoiding heat damage to underlying circuits.
1 min
July 2026
Electronics For You
Stretchable patch detects heart failure risks
Researchers at the University of Chicago's Pritzker School of Molecular Engineering in Chicago have developed an AI-powered stretchable computing patch capable of processing health data directly on the body in milliseconds, eliminating the need for external servers or wireless connections.
1 min
July 2026
Electronics For You
Simple 12V To 24V VOLTAGE DOUBLER
Many electronic circuits require a voltage higher than that available from the power supply.
3 mins
July 2026
Electronics For You
Crystal stress method reshapes nanochip manufacturing techniques
Research conducted at Rice University in Houston, Texas, demonstrated that alpha-molybdenum trioxide crystals can deform under an electron beam, generating highly ordered nanoscale wrinkles that function as optical gratings for guiding and manipulating light on chips.
1 min
July 2026
Electronics For You
Hidden Costs In IoT PRODUCT DEVELOPMENT
Hardware mistakes do not show up early in development. The most expensive hardware mistakes are rarely the obvious ones. Decisions made during design, testing, and architecture shape costs for years.
7 mins
July 2026
Electronics For You
Temperature-Based DUAL SAFETY SYSTEM For Smart Homes
A temperature-based dual safety system addresses common household risks through intelligent control.
4 mins
July 2026
Electronics For You
Smart material developed to fight counterfeiting
Engineered by a team at the Indian Institute of Technology Guwahati, the technology uses perovskite nanocrystals with a double-layer protective coating that improves resistance to heat and chemicals while maintaining optical performance.
1 min
July 2026
Electronics For You
President Murmu inaugurates semiconductor training fab at IISc
On June 3, 2026, President Droupadi Murmu inaugurated IISc Bengaluru’s Semiconductor Training Fab at CeNSE, established with support from the Ministry of Tribal Affairs.
4 mins
July 2026
Electronics For You
Quantum Li-Fi secures networks
Research conducted in Germany by a consortium led by KEEQuant and supported by Fraunhofer IPMS highlights a pathway toward flexible, high-security next-generation wireless networks.
1 min
July 2026
Listen
Translate
Change font size
