GFW electric power controllers provide complete single-bi-three phase modular solutions from 40 A up to 600 A per phase, suited to manage linear and non linear loads for electric heating in a wide range of industrial applications, equipped with easy to replace on-board fuses and settable analogue outputs to retransmit controlled variables.
Universal commands
The construction flexibility allows you to control GFW controllers with analogue signals in 0-10V voltage, 4-20mA current, with potentiometers, with ON/OFF linear signals or in PWM mode.
Single signals allow you to control biphase and three-phase models even as single independent single-phase.
The control power values can also be directly sent via one of the multiple available Fieldbus, with convenient cascading IN/OUT connections.
Control functions
To adapt to the multiple possible applications, even the Power module firing choice can be set on the product; you can choose between various types of “Zero crossing” with fixed cycle times or optimised for linear loads and high heat inertia systems, or for fast firing modes, like the Half Single Cycle and Phase angle, to better control non linear loads like SWIR infrared lamps, Super Kanthal and Silicon carbide heating elements or single and three-phase transformer primaries directly.
Soft Start, current limits settable for both peak values and RMS values and closed loop Voltage, Current and Power feedback algorithms complete the control.
A universal PID temperature controller can be built into some models to optimise space and costs and manage a temperature and power control loop with a single device.
Diagnostic, preventive manintenance and alarms
Some of the strengths of this range include the multiple diagnostic functions, preventive maintenance and alarms for current, voltage and temperature.
Current
– Total and partial interrupted load alarm with alarm threshold auto-learning
– SCR short circuit alarm
– Short circuit or surge load alarm
– Broken internal fuse alarm
Voltage
– No voltage alarm.
– Incorrect rotation of the three phases alarm in three-phase systems
– Unbalanced three-phase line alarm temperature
– Power module temperature monitoring with automatic off in the event of overheating alarm
– Temperature measurement of all power terminals with loosened connection alarm
– Fan output temperature measurement for cooling efficiency diagnostics
– No fan power alarm