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G-3-1 42 series two-phase stepping motor
42 series two-phase stepping motor General specifications Step accuracy : ±5%(Whole step、Empty load) Temperature rise:80°C Max Ambient temperature:-10℃-+50℃ Insulation resistance:100MΩmin.500VDC Pressure resistance:500VAC for one minute Radial runout:0.06Max.(450g-load) Axial runout:0.08Max.(450g-load) Stepper motor model Phase Step angle (°) Holding torque (NM) Rated current (A) Phase inductance (mH) Phase resistance (Ohm) Number Rotor inertia (g.cm²) Shaft... -
G-3-2 57 series two-phase stepping motor
57 series two-phase stepping motor General specifications Step accuracy : ±5%(Whole step、Empty load) Temperature rise:80°C Max Ambient temperature:-10℃-+50℃ Insulation resistance:100MΩmin.500VDC Pressure resistance:500VAC for one minute Radial runout:0.06Max.(450g-load) Axial runout:0.08Max.(450g-load) Stepper motor model Phase Step angle (°) Holding torque (NM) Rated current (A) Phase inductance (mH) Phase resistance (Ohm) Number Rotor inertia (g.cm²) Shaft... -
G-3-3 86 series two-phase stepping motor
86 series two-phase stepping motor General specifications Step accuracy : ±5%(Whole step、Empty load) Temperature rise:80°C Max Ambient temperature:-10℃-+50℃ Insulation resistance:100MΩmin.500VDC Pressure resistance:500VAC for one minute Radial runout:0.06Max.(450g-load) Axial runout:0.08Max.(450g-load) Stepper motor model Phase Step angle (°) Holding torque (NM) Rated current (A) Phase inductance (mH) Phase resistance (Ohm) Number Rotor inertia (g.cm²) Shaft... -
G-3-4 110-130 series two-phase stepping motor
110/130 series two-phase stepping motor General specifications Step accuracy : ±5%(Whole step、Empty load) Temperature rise:80°C Max Ambient temperature:-10℃-+50℃ Insulation resistance:100MΩmin.500VDC Pressure resistance:500VAC for one minute Radial runout:0.06Max.(450g-load) Axial runout:0.08Max.(450g-load) Stepper motor model Phase Step angle (°) Holding torque (NM) Rated current (A) Phase inductance (mH) Phase resistance (Ohm) Number Rotor inertia (g.cm²) ... -
G-2-1 Closed loop stepping driver 2LS556A
Based on the platform of 32-bit ARM processing chip, the magnetic field orientation and high-speed flux-weakening algorithm in the servo driver are designed to achieve excellent performance. The built-in vector control design and servo demodulation function of the driver, combined with the feedback of the closed-loop motor encoder, make the stepping servo system have the features of low noise, low heating, no lost steps and higher application speed , and can improve the intelligent equipment ... -
G-1 closed loop step motor
Introduction to closed loop stepping technology 1.Do not lose step Use of photoelectric encoder feedback motor position constitutes a closed-loop stepping drive system; The traditional stepping motor drive system may cause lost step or stall during sudden load, so it is necessary to reserve a large torque margin; and the closed loop stepping driver will collect the current position information every 50us, and according to the position error information adjusts the current, corrects the positi... -
G-2-2 Closed loop stepping driver 2LS860H
Based on the platform of 32-bit ARM processing chip, the magnetic field orientation and high-speed flux-weakening algorithm in the servo driver are designed to achieve excellent performance. The built-in vector control design and servo demodulation function of the driver, combined with the feedback of the closed-loop motor encoder , make the stepping servo system have the features of low noise , low heating no lost steps and higher application speed, and can improve the intelligent equipment ... -
G-4-3 57 60 Stepping driver 2NS556A
The Bergerda series of digital stepping drivers, based on a 32-bit DSP platform, utilizes micro-segmentation technology and PID current control algorithm design to provide a full range of performance beyond the ordinary analog stepping drivers. ·PID parameter adjustment function to better meet different types of load applications .Micro-segmentation control algorithm to improve the smoothness of the motor in each speed segment .Comman smoothing function makes the motor acceleration and decele... -
G-4-4 86 Stepping driver 2NS860H
The Bergerda series of digital stepping drivers, based on a 32-bit DSP platform, utilizes micro-segmentation technology and PID current control algorithm design to provide a full range of performance beyond the ordinary analog stepping drivers. ·PID parameter adjustment function to better meet different types of load applications .Micro-segmentation control algorithm to improve the smoothness of the motor in each speed segment .Comman smoothing function makes the motor acceleration and decele... -
G-4-5 110 130 stepping driver 3NS2280
The Bergerda series of digital stepping drivers, based on a 32-bit DSP platform, utilizes micro-segmentation technology and PID current control algorithm design to provide a full range of performance beyond the ordinary analog stepping drivers. ·PID parameter adjustment function to better meet different types of load applications .Micro-segmentation control algorithm to improve the smoothness of the motor in each speed segment .Comman smoothing function makes the motor acceleration and decele... -
G-5-1 Rs485 bus type stepping driver 2LS860R
Rs485 bus type stepping driver 2LS860R 2LS860R high-performance 485 bus stepping drive, using 32-bit ARM processor, integrated intelligent motion controller function, built-in S-shaped acceleration and deceleration command, can independently set acceleration and deceleration. Real-time control of the drive and motor by running the Modbus protocol over the RS485 network. Debug interface: display parameter settings Maximum current:7.2A Power supply:AC:18V~80VorDC:18V~110V Typical applications: ... -
G-4-2 57 60 stepping driver2NS556C
The Bergerda series of digital stepping drivers, based on a 32-bit DSP platform, utilizes micro-segmentation technology and PID current control algorithm design to provide a full range of performance beyond the ordinary analog stepping drivers. ·PID parameter adjustment function to better meet different types of load applications .Micro-segmentation control algorithm to improve the smoothness of the motor in each speed segment .Comman smoothing function makes the motor acceleration and decele...
