The Allen-Bradley 150-F480NBD SMC Flex Smart Motor Controller is a sophisticated solid-state device equipped with a microprocessor for precise motor management through customizable parameters. This controller efficiently handles motor operations with its wide array of start, stop, and smart braking modes, allowing for energy-efficient and secure motor performance. It functions on a supply voltage of 200-460V AC, 3-Phase, and supports a control voltage of 100-240V AC, with a robust capacity to deliver up to 480 Amperes and 400 HP at 460VAC. The 150-F480NBD enhances operational flexibility through compatibility with Human Interface Modules and diverse communication options, including DF1, Profibus DP, ControlNet, Interbus, MODBUS TCP, DeviceNet, Ethernet I/P, and others, ensuring seamless integration into various industrial networks.
Technical specifications for 150-F480NBD
Manufacturer
Rockwell Automation
Bulletin Number
150
Control Voltage
100…240V AC (5…480 A units)
Part Number/Catalog No.
150-F480NBD
Brand
Allen-Bradley
Product Family:
SMC Flex Smart Motor Controller
Operating Modes:
Soft Start, Full Voltage Start, Smart Motor Braking, Current Limit Start, Dual Ramp Start, Accu-Stop, Selectable Kickstart, Pump Start, Slow Speed with Braking, Coast-to-rest, Preset Slow Speed, Linear Speed Acceleration (Tachometer required), Soft Stop and Pump Stop
Line Voltage:
200…460V AC, 3-Phase, 50 and 60 Hz
Maximum output Current
480.0 A
Maximum output Power
400 HP
Communications
One DPI provided for connection to optional human interface and one DPI provided for connection to communication
Auxiliary Contacts
Four fully programmable contacts as normal/up-to- speed/fault/alarm/network (N.O./N.C.), or external bypass (N.O. only)
Metering
Amps, volts, kW, kWh, MW, MWH, elapsed time, power factor, motor thermal capacity usage
Protection and Diagnostics
Power loss, line fault, voltage unbalance, excessive starts/hour, phase reversal, undervoltage, overvoltage, controller temp, stall, jam, open gate, overload, underload, communication fault.