Control Techniques
Control Techniques UNI3405REGEN Regenerative Drive
Control Techniques UNI3405REGEN Regenerative Drive
β In Stock
12-Mo Warranty
Same-Day Dispatch
Ships Worldwide
π Veteran-Owned
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Get a price for UNI3405REGEN
Response within 1 business hour
12-month warranty
All units tested
Same-day dispatch
Order by 2pm CST
Worldwide delivery
US, EU, Asia, Middle East
Veteran-owned
CAGE: 9NK75
Energy regenerative capability
High efficiency
Precise motor control
Reduced power consumption
Suitable for braking applications
Product description
The Control Techniques UNI3405REGEN is a high-efficiency regenerative drive designed to capture and reuse energy during braking, improving overall system efficiency and reducing power consumption. It provides precise motor control with regenerative capabilities.
This drive is ideal for applications with frequent braking or overhauling loads, such as elevators, cranes, hoists, and material handling systems, where energy recovery is beneficial.
Stanlo Automation, a veteran-owned distributor of industrial surplus, offers the UNI3405REGEN, providing cost-effective solutions for your regenerative motor control needs.
Technical specifications
| Part Number | UNI3405REGEN |
| Manufacturer | Control Techniques |
| Type | Regenerative Drive |
Common applications
Elevators
Cranes & Hoists
Material Handling
Winding Machines
Motion Control
Compatible systems
Compatible with AC and DC motors in specific configurations
Also known as
Control Techniques Unidrive Regen Drive
Technical note
Expert tip
Ensure proper installation of braking resistors if the drive is used in a non-regenerative configuration or for supplementary braking.What happens next?
1
Email confirmation
Immediate receipt acknowledgment sent to you
2
Account manager assigned
Confirms your part's spec and condition
3
Your quote delivered
Tailored to your specific requirements
Frequently asked questions
How does the Control Techniques UNI3405REGEN drive improve efficiency?
The UNI3405REGEN drive captures energy generated during motor braking and feeds it back into the power supply, reducing overall energy consumption. This regenerative capability is particularly beneficial in applications with frequent deceleration or overhauling loads.