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Nema 23 Bipolar Stepper Motor, 1A, 1.8 degree, 4 wires

Nema 23 Bipolar Stepper Motor, 1A, 1.8 degree, 4 wires
Nema 23 Bipolar Stepper Motor, 1A, 1.8 degree, 4 wires
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$63.31
Ex Tax: $63.31
  • Stock: In Stock
  • Model: SCJ009406
  • SKU: SCJ009406
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Product Views: 423

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  • Description

Nema 23 Bipolar Stepper Motor, 1A, 1.8 degree, 4 wires

Brief

brand new Nema 23 bipolar stepper motor, phase current 1A and resistance 5.4Ω, 0.55Nm holding torque, 1.8 deg. step angle (200 steps/rev), body in 41mm.

Description

Nema 23 bipolar Stepper motor, 0.55Nm in 41mm, 1.8 degree, 2 phase and 4 wires.

Specification

Electrical SpecificationModelSOCOJE57HS41-1004
Matched Driver ModelSCJ009406(Click it to see more info)
Step Angle1.8°
Holding Torque0.55Nm
Rated Current/phase1A
Phase Resistance5.4Ω
Inductance9.5mH
Rotor Inertia120g-cm2
Physical SpecificationFrame Size57 x 57mm
Length41mm
Shaft DiameterΦ8mm
Shaft Length19mm
Motor Leads4
Weight0.45kg
Technical ParametersStep Angle Accuracy±5% (full step, no load)
Resistance Accuracy±10%
Inductance Accuracy±20%
Temperature Rise80℃ Max. (rated current, 2 phase on)
Ambient Temperature-20℃~+50℃
Insulation Resistance100MΩ Min. 500VDC
Dielectric Strength500V AC for one minute
Shaft Radial Play0.02Max. 450g
Shaft Axial Play0.08Max. 450g
Quality AssuranceWarranty Period12 months
CertificateCE, ROHs, ISO/SGS9001

Dimensions: (Unit=mm)
Nema 23 Bipolar Stepper Motor, 1A, 1.8 degree, 4 wires

L Max=41mm, Shaft Length=L1-1.6mm, L1(Common)=20.6mm

Wiring Diagram

Nema 23 Bipolar Stepper Motor, 1A, 1.8 degree, 4 wires
Tips: Velocity characteristic of stepper motor

The rotational velocity of the stepper motor depends on pulse frequency, number of teeth and beats of rotor. Its angular velocity is in direct proportion to the pulse frequency. Meanwhile, the time synchronizes with the pulse. Therefore, under the circumstance that there is certain number of teeth and beats of teeth of rotor, the necessary velocity can be obtained by only controlling the pulse frequency. As the stepper motor is started by relying on its synchronic torque. To avoid step out, start frequency is not high. Especially, along with the increase in power, the diameter of the rotor increases and so does the inertia. The difference between start frequency and maximum operating frequency might be more than 10 times.
To make full use of the rapid performance of motor, the motor is generally started at low frequency lower than the start frequency, and then the pulse frequency is increased gradually until the expected velocity is reached. To choose the change rate, it is necessary to ensure the step out doesn’t occur and acceleration time should be shortened as far as possible. To ensure the positioning accuracy of the motor, the velocity of the motor should be gradually reduced to the velocity (equal to or larger than the start velocity) at which the motor can stop from the maximum velocity.

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