The User Interface Module (UI) provides an intuitive, easy-to-use human
interface with powerful configuration capabilities to maximize system
performance.
Door or device mounted UI enables users to safely
configure, commission, monitor and troubleshoot the system at the
electrical panel without opening the enclosure door, eliminating the
possibility of an arc flash incident.motor soft start controller
System operating parameters can be monitored enterprise-wide through a
communications network. Increase uptime by providing data for process
management and preventive diagnostics.
Run bypass mode greatly reduces internal heating created by the greater
power dissipation in the SCRs. Bypass contactors directly connect the
motor to the line and improves system efficiency by reducing internal
power losses.
Internal solid-state overload protection provides accurate current
measurement and trip settings. Sophisticated algorithms solve a series
of differential equations that model true motor heating and cooling,
resulting in superior motor overload protection while minimizing
nuisance trips. Advanced selectable protective features safeguard the
motor and system against a variety of system faults.
Internal run bypass contactors and overload protection eliminate the
need for additional devices, reducing enclosure sizes minimizing
installation and wiring time and reducing overall assembly size and
cost.
Wide range of overload FLA settings (50–100% of rated frame current) and
a selectable trip class (5–30) offers users the flexibility to fine
tune the starter to match specific application requirements.
Variable ramp times and torque control settings provide unlimited
starting configurations, allowing for maximum application flexibility.
Kick-start feature enables soft starting of high friction loads.
Pump control option with sophisticated pump algorithms on both starting
and stopping that minimize the pressure surges that cause water hammer.
The pump control option will maximize the life of the pump and piping
systems while minimizing the downtime caused by system failure.
