Electromechanical and semiconductor relays panasonic industry

PhotoMOS® Application Notes

Can I increase the current rating of a PhotoMOS® relay? Yes, by using the correct output connection! Just read the MOSFET relay application notes.

PhotoMOS® application notes

PhotoMOS® with Protection Circuits
Application note

PhotoMOS® with Protection Circuits

Learn how PhotoMOS® relays with short circuit protection and current limiting prevent your circuit from damage.
PSpice Simulation of PhotoMOS® Relays
Application note

PSpice Simulation of PhotoMOS® Relays

Design PhotoMOS® circuits more accurately and effi ciently with a well-assembled component library.
PhotoMOS® Relays Technology
Application note

PhotoMOS® Relays Technology

Reliable, fast switching for future industries with high power consumption.
Normally-closed PhotoMOS® Relays
Application note

Normally-closed PhotoMOS® Relays

Reliable switching for applications that require an alarm contact setting or time-delay relays.
Driving Triacs with Phototriacs
Application note

Driving Triacs with Phototriacs

Phototriacs can be applied as drivers for a main triac – an effective and safe configuration.
Photovoltaic MOSFET drivers
Application note

Photovoltaic MOSFET drivers

Switch MOSFETs faster and more effi ciently with photovoltaic MOSFET drivers.
PhotoMOS® Input Circuits
Application note

PhotoMOS® Input Circuits

Ensuring the safe and reliable operation of PhotoMOS® relays – with the right input circuits.
Temperature Control Utilizing SSR
Application note

Temperature Control Utilizing SSR

Switching motors, solenoids, valves, lamps, heaters or fans in industrial and home appliance applications.
PhotoMOS® for Measurement
Application note

PhotoMOS® for Measurement

PhotoMOS® relays offer low signal loss and suitable characteristics for higher frequent load signals.
Protecting PhotoMOS® with Varistors
Application note

Protecting PhotoMOS® with Varistors

How to protect the MOSFET output from overvoltage by using varistors.
PhotoMOS® Relays Connection Methods
Application note

PhotoMOS® Relays Connection Methods

Learn about different semiconductor relay connection methods and how to adopt to various load requirements.
Low CxR PhotoMOS® Relays
Application note

Low CxR PhotoMOS® Relays

Low CxR PhotoMOS® relays feature an optimized layout of the MOSFET and its guard ring region, combined with an improved internal structure. The results are low signal loss, fast switching times...
Semiconductor vs. Emech Relays
Application note

Semiconductor vs. Emech Relays

What relay technology fits best for your application?
Reliability of PhotoMOS® Relays
Application note

Reliability of PhotoMOS® Relays

How to improve the application lifetime with MOSFET relays.
PhotoMOS® Output Characteristics
Application note

PhotoMOS® Output Characteristics

Two power MOSFETs positioned on the output side infl uence the output characteristics of PhotoMOS® relays.
PhotoMOS® Automotive Relay
Application note

PhotoMOS® Automotive Relay

When it comes to passenger safety in xEV cars, PhotoMOS® relays are a leading part for battery isolation monitoring.