Prøve GULL - Gratis
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.
Denne historien er fra May 2025-utgaven av Electronics For You.
Abonner på Magzter GOLD for å få tilgang til tusenvis av kuraterte premiumhistorier og over 9000 magasiner og aviser.
Allerede abonnent? Logg på
FLERE HISTORIER FRA Electronics For You
Electronics For You
Low-power, reliable transmitter chip
Researchers at MIT (United States) have developed a compact transmitter chip that reduces signal errors by a factor of four and extends battery life for IoT devices.
1 min
September 2025
Electronics For You
Leading Suppliers of MICROSCOPES FOR OC OF ELECTRONICS
Who are India's Leading Suppliers of Microscopes for Quality Control of Electronics? Here is the list...
5 mins
September 2025
Electronics For You
Compact swarm-level AI drones navigation using neural network
Researchers at Shanghai Jiao Tong University (Shanghai, China) have developed a compact AI navigation system for drones.
1 min
September 2025
Electronics For You
ML-based wireless power transfer
Researchers at Chiba University (Chiba, Japan) have developed a machine learning-based method to design wireless power transfer (WPT) systems that stay efficient and stable across varying loads.
1 min
September 2025
Electronics For You
Wi-Fi that knows who you are
WhoFi, developed at La Sapienza University (Rome, Italy), is a Wi-Fi-based surveillance system that identifies individuals by how their bodies disrupt wireless signals; no cameras, contact, or consent is needed.
1 min
September 2025
Electronics For You
3mm-thick holographic display that delivers lifelike 3D visuals
Stanford researchers (California) have unveiled a 3mm-thick holographic display that delivers lifelike 3D visuals using true holography, not stereoscopy.
1 min
September 2025
Electronics For You
Smart Trolley Robot 'TROLL.E 1.0'
Robots now play a vital role across modern society, often described as human-like due to their growing presence in social and commercial environments.
3 mins
September 2025
Electronics For You
Compact metal-free thin-film supercapacitor delivers 200V
GDUT (Guangzhou, China )researchers have developed a metal-free thin-film supercapacitor (TFSC) stack that delivers 200V in just 3.8cm³.
1 min
September 2025
Electronics For You
Al-powered self-driving lab tests materials 10x faster
Researchers at NC State (Raleigh, North Carolina) have developed an Al-powered self-driving lab that uses dynamicstate flow and real-time data to test materials 10x faster than traditional labs.
1 min
September 2025
Electronics For You
Breakthrough in co-packaging photonic and electronic chips
The MIT (United States) FUTUR-IC team has developed a breakthrough chip packaging method that co-integrates electronics and photonics using passive alignment.
1 min
September 2025
Listen
Translate
Change font size