Medium Work Solenoid
Medium sized work solenoid base model for quick turn customization.
The medium work solenoid is suitable for a wide variety of applications. With typical strokes up to 1.5+ inches and forces up to 40+ pounds, this base model allows for a quick turn customization to meet your application requirements. Modifications include various coil voltages, mounting and plunger variations, spring returns, and more.
Features and Benefits
- Long strokes and high forces
- 100/50/10% duty-cycles
- Peak and hold capability
- Push and pull models available
- Various voltages and power levels
- Class F temperature rating
- Zinc plated components
- Mounting variations
- Quick turn customization
All TLX components are customized to fit system requirements, meaning technical specifications are unique to each customer and design. Examples given on our website are for illustration purposes only.
Is our Medium Work Solenoid the right fit for your application?
TLX Technologies partners with the world’s top brands, first-tier suppliers, and OEMs. Contact our engineers today to discuss the details of your project.
Our engineers begin by designing with 3D CAD and performing electromagnetic and fluid dynamic analysis with state-of-the-art finite element analysis software. Every design is engineered and tested in our lab to meet our customers’ specifications.
Precise control with high accuracy through tighter tolerances. Reducing friction and inefficiencies provides extremely low hysteresis.
Multiple variables in the design and manufacturing process are optimized to reduce overall weight and size of the solenoid or valve.
Custom solenoids can be designed to utilize the best control scheme for your application, resulting in a minimized footprint.
Limited Power Consumption
Latching technology in solenoid and valve design minimizes overall power consumption.
Can be designed to meet extreme environments that include moisture, dirt/dust, vibration and/or extreme temperature requirements.
Failsafe modes are designed into solenoids and valves utilizing integrated electronic controls.