Theory of Operation – Page 2 – Magnet-Schultz of America

Power Control Modules for Electronic Actuators Series, Part Three: Fundamentals of Pulse Width Modulation

POWER CONTROL MODULES FOR ELECRONIC ACTUATORS SERIES, PART THREE Edited by David Stockwell; Technical information provided by Roland Mueller & Simon Benik Fundamentals of Pulse Width Modulation Exploring the effects of INDUCTANCE, FREQUENCY AND INPUT CURRENT RIPPLE relating to On-Off Electromagnetic Devices. Pulse Width Modulation, Theory of Operation, Effects of INDUCTANCE, FREQUENCY & INPUT

Magnet-Schultz of America2019-06-04T14:13:42-05:00Coil Temperature Control, Continuous Duty Coil, Electromagnetic Actuators, Electromagnetic Devices, Energy Efficient Solenoids, High Performing, Innovative Collaboration with MSA, Intermittent Duty Coil, Power Control Modules, Pulse Duty Coil, Theory of Operation|

Power Control Modules for Electronic Actuators Series, Part One: Basics of Solenoid Operation Demonstrating the Need for Improved Power Control

POWER CONTROL MODULES FOR ELECTROMAGNETIC ACTUATORS: PART ONE Edited by David Stockwell; Technical information provided by Roland Mueller & Simon Benik Magnet-Schultz of America (MSA) discuses how to achieve smaller, higher performing, more energy efficient solenoids, and avoid heat issues by utilizing electronic power control techniques, such as Pulse Width Modulation (PWM). Driving electromagnetic actuators

Magnet-Schultz of America2019-06-04T14:25:25-05:00Coil Temperature Control, Continuous Duty Coil, Electromagnetic Actuators, Electromagnetic Devices, Energy Efficient Solenoids, High Performing, Innovative Collaboration with MSA, Intermittent Duty Coil, Power Control Modules, Pulse Duty Coil, Theory of Operation|

Electromechanical Voice Coil Solenoids and Actuators

Magnet-Schultz of America (MSA) defines and clarifies key characteristics, working functionality and benefits of Voice Coil linear actuators (also known as Lorentz Force Actuators). OVERVIEW A Voice Coil is a type of solenoid linear actuator within which an electrical coil and a permanent magnet interact to create high speed, precisely controlled linear motion. The

Magnet-Schultz of America2019-06-04T14:54:42-05:00Choosing a Solenoid, Specialty Solenoids, Theory of Operation, Voice Coils|

Magnetic Latching Mechanisms

Magnetic Latching mechanisms fall into one of three distinct categories relative to how they are operated, the electrical energy needed to operate them, and the release force, which their return spring mechanism can generate. CATEGORY ONE: Permanent-Magnet/Electro-Magnetic Linear Actuators (also known as Magnetic-Latching Solenoids or MLS) A more complete discussion of the differences between

Magnet-Schultz of America2019-06-04T15:11:30-05:00Locking Mechanisms, Magnetic-Latching Technology, Theory of Operation|

Permanent-Magnet/Electro-Magnetic Linear Actuators

Magnetic-latching functionality is employed in products we come across everyday, even though the mechanism by which this technology functions isn’t something most people think about. Being an engineer, I always feel the need to research and understand how things work. Because I’m also a bit of a professor at heart, I would like to share

Magnet-Schultz of America2019-06-04T15:15:56-05:00Electromagnetic Linear Actuators, Magnetic-Latching Technology, Theory of Operation|