-40%
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM

BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM

$ 1452

Availability: 96 in stock
  • Current Type: DC
  • MPN: TGM4875
  • Brand: TGM
  • Power Source: DC
  • Power: 3570 W
  • Condition: Tested 24 hours for performance
  • Shaft Diameter: See Item Description
  • Type: Motor / Generator
  • Current Rating: 75 A
  • Shaft Type: See Item Description
  • Country/Region of Manufacture: United States
  • Mounting Type: See Item Description
  • System Configuration: 3 Phase
  • Voltage: 48 V
  • Axis Orientation: Any Orientation

    Description

    BLDC Permanent Magnet Motor (Generator) 3.57kW 48V 10,000RPM
    Model #
    TGM4875
    Description
    BLDC Permanent Magnet Motor (Generator)
    3.57kW 48V 10,000 RPM 3 Phase
    Motors are one tenth the size and weight of a comparable power induction motors.
    Ultra-low vibration with best in class positioning accuracy
    Iron-less composite stator results in truly zero cogging torque.
    Motor can be operated as servos, steppers, with speed control, or open loop.
    When operated as a motor best performance is obtained with high frequency sinusoidal drives
    External inductance is recommended per phase when operated with conventional <40 kHz drives
    SPECIFICATIONS:
    Max continuous torque (Nm): 4.26
    Max permissible speed (RPM): 10800
    Max continuous shaft power (kW): 3.57
    Max efficiency (%): 91%
    Max. Stator temperature (C): 120
    Peak torque - 1s (3s) (Nm): 17.47 (10.5)
    Winding Configuration
    Max continuous current Arms
    Parallel ∆: 72.5
    SYM: I
    Voltage constant Vpkl-l/(rad/s)
    Parallel ∆: 0.046
    SYM: Ke
    Voltage constant Vpkl-l/kRPM
    Parallel ∆: 4.8
    SYM: Ke
    Torque constant Nm/Arms
    Parallel ∆: 0.065
    SYM: Kt
    Motor Constant Nm/√W
    Parallel ∆: 0.330
    SYM: Km
    Terminal resistance Ω
    Parallel ∆: 0.020
    SYM: R
    Terminal Inductance μH
    Parallel ∆ 1.7
    SYM: L
    Motor Drive Voltage Vbus
    (RPM*Kv*π/30+Torque/Kt*R)*1.2
    Generator Terminal Voltage Vrms
    (RPM*Kv*π/30-Torque/Kt*R)/Sqrt(2)
    MECHANICAL SPECIFICATIONS
    Max outer diameter in (mm) 7.169 (182)
    Through hole diameter in (mm) 6.341 (161)
    Total axial height in (mm) 1.539 (39)
    Rotor mass lbs. (kg) 1.159 (0.526)
    Stator mass lbs. (kg) 0.504 (0.228)
    Part set mass (rotor & stator) lbs. (kg) 1.663 (0.754)
    Total motor assembly mass lbs. (kg) 2.8 (1.27)
    Rotor Inertia lbm-ft2 (kg-m2) 9.41E-2 (3.97E-3)
    Hubs, Shafts, Bearings, and Mounts
    Motors allow for a wide variety of mounting configurations to be used. Solid Shafts of different diameters, shafts with special steps, indentations, key-ways or other features can be accommodated. Hub and bearing configurations can be designed for optimum integration into your mechanism. While mounting hardware is normally fabricated from hardened steel, other materials can be used as well, including aluminum, brass and titanium. Hubs and mounts can attach to the rotor via screws into threaded holes in the Rotor, or they can be press-fit into the Rotor body, depending on the design. Shafts attach to the hub by various means to fit the application. Dimensions, materials, designs can be varied greatly and will depend on the application.
    Domestic Return Policy
    All refunds are made upon receipt of item/s after inspection and testing