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NEMA17 NEMA23 NEMA11 NEMA 8 NEMA14 NEMA 24 NEMA 34 0-10V DALI

Stepper Motor Search Tool

What's the Stepper Motor Search Tool?

Stepper Motor Search Tool Instructions

The purpose of the Stepper Motor Search Tool is to make you become a motors expert to find the right products that match your job requirements. Simply enter Torque/Speed value of your Working Point and easily get what you want. Stepper Motor Search Tool is also easy to use in attributes filter, products comparison with multiple torque/speed curves. The optimization function can generate the dynamic torque curve of motors by entering the value of voltage and current. All of what Stepper Motor Search Tool can do is to serve you to achieve higher performance goal with less time and effort.

FAQ

FAQ

  • When the stepper motor is driven by a constant current, why is there a different driving voltage display on the curve? What effect does different driving voltage have on the torque output of the motor?
    • The constant current driver is a constant current chopper power amplifier. When the output current determined, the driver can obtain different output power by adjusting the driving voltage, then the driving conditions could have different driving voltages. The output torque of the motor decreases as the speed increases, mainly reason is the stator winding inductance. As while as the input voltage goes larger, the average current of the motor at high speed is larger and the performance at high speed is better.
  • Is the input voltage of the drive the same as the input voltage of the motor? What is the difference between the input voltage and output voltage of the driver?
    • The input voltage of the drive is higher than the voltage across the motor. The difference is determined by the drive circuit of the driver: whether the driver adopts a full-bridge or a half-bridge mode, there will be a voltage drop loss caused by the switch tube, which is generally around 0~0.6V. In addition, in the design of the drive circuit, other devices voltage drop may loss.
  • Is the drive used by Stepper Motor Search Tool a regular drive? Is there any difference in torque output between different drivers?
    • The drive parameters of Stepper Motor Search Tool based on the conventional drive settings. Different drive configuration method has a great impact on the output torque. For example, the smoothness of the whole step is not as good as the subdivision method, but the maximum torque performance will be better than the subdivision method; if the motor is equipped with a position sensor, the phase angle between the current and the magnetic flux can be accurately controlled, then the relative position open-loop drive mode is easier to achieve the maximum torque.
  • Which parameters of the drive will affect the output of the motor?
    • Generally, the input condition setting of the drive will directly affect the output of the motor. When the driving conditions of the motor are determined, the efficiency difference, nonlinear distortion rate, heat dissipation performance, and parameter selection between different drivers will also affect the output of the driver.
  • How to obtain the temperature rise and speed curve of the motor? Is the temperature rise curve related to the driving voltage?
    • The temperature rise and speed curve is obtained by calculating the temperature rise data of the motor at different speeds. The temperature rise calculation is to multiply the loss of the motor by the thermal resistance. The loss is divided into copper loss and iron loss. The thermal resistance is the motor plus the specified Thermal resistance after mounting the board; stepper motor has low efficiency, large current, and high harmonic components. The driving voltage will affect the current during the motor operation and the hysteresis eddy current effect of the iron core, affect the loss of the motor, and then affect the temperature rise .
    Smarter Way to Find Right Products Meeting Your Requirements.

    FILTER

      Category: Stepper Motor

      Enter specific Torque/Speed value of your First Working Point to easily select right motors. Your Second Working Point is optional when the First Working Point is confirmed.

      Torque at Speed1

        From To
        At
        RESET CONFIRM

      Torque at Speed2

        From To
        At
        RESET CONFIRM
      Frame Size
        RESET CONFIRM

      Phase

        RESET CONFIRM

      Step Angle°

        RESET CONFIRM

      Holding Torque(Nm)

        From To
        RESET CONFIRM

      Rated Current

        From To
        RESET CONFIRM

      Motor Length

        From To
        RESET CONFIRM
    RESET SEARCH

    Torque at Speed:  Nm  ~ Nm  at RPM

    Torque at Speed:  Nm  ~ Nm  at  RPM

    Phase : 

    Motor Length: mm  ~ mm  

    Step Angle°: 

    Frame Size: 

    Holding Torque(Nm): Nm  ~ Nm  

    Rated Current: A  ~ A  

    472  Results

    Compare Item Speed Torque Price(USD) LEAD TIME(Working Days)
    PSE34HCA3L3200   PSE34HCA3L3200   30

     Phase  3  Frame Size  86*86mm
     Step Angle  1.2°  Inductance(mH Typ.)  13.6(mH Typ.)
     Resistance(Ohms ±10%@20℃)  3.3(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  2.4(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  2(A)  Length(mm)  45(mm)
     Connect  Leads  Rotor Inertia (gcm²)  930(gcm²)
    CSE34HCA0L3300   CSE34HCA0L3300   30

     Phase  3  Frame Size  86*86mm
     Step Angle  1.2°  Inductance(mH Typ.)  5(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.2(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  1.4(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  3(A)  Length(mm)  30.3(mm)
     Connect  Leads  Rotor Inertia (gcm²)  557(gcm²)
    PSE34HCA0L3300   PSE34HCA0L3300   30

     Phase  3  Frame Size  86*86mm
     Step Angle  1.2°  Inductance(mH Typ.)  4.7(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.2(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  1.7(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  3(A)  Length(mm)  30.3(mm)
     Connect  Leads  Rotor Inertia (gcm²)  600(gcm²)
    CSE34HCA3L3300   CSE34HCA3L3300   30

     Phase  3  Frame Size  86*86mm
     Step Angle  1.2°  Inductance(mH Typ.)  6.8(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.4(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  2.1(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  3(A)  Length(mm)  45(mm)
     Connect  Leads  Rotor Inertia (gcm²)  930(gcm²)
    PSE34HCA3L3300   PSE34HCA3L3300   30

     Phase  3  Frame Size  86*86mm
     Step Angle  1.2°  Inductance(mH Typ.)  6(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.4(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  2.4(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  3(A)  Length(mm)  45(mm)
     Connect  Leads  Rotor Inertia (gcm²)  930(gcm²)
    HS17HX7L4100   HS17HX7L4100   45

     Phase  2  Frame Size  NEMA17(42mm)
     Step Angle  1.8°  Inductance(mH Typ.)  2.9(mH Typ.)
     Resistance(Ohms ±10%@20℃)  3(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.2(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  1(A)  Length(mm)  20.5(mm)
     Connect  Leads  Rotor Inertia (gcm²)  1.6(gcm²)
    HS14HS7L4100   HS14HS7L4100   45

     Phase  2  Frame Size  NEMA14(35mm)
     Step Angle  1.8°  Inductance(mH Typ.)  2.3(mH Typ.)
     Resistance(Ohms ±10%@20℃)  2.47(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.075(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  1(A)  Length(mm)  20.5(mm)
     Connect  Leads  Rotor Inertia (gcm²)  1.6(gcm²)
    VHS23HM6L4100   VHS23HM6L4100   45

     Phase  2  Frame Size  NEMA23(56mm)
     Step Angle  1.8°  Inductance(mH Typ.)  3.2(mH Typ.)
     Resistance(Ohms ±10%@20℃)  2(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.23(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  1(A)  Length(mm)  20.5(mm)
     Connect  Leads  Rotor Inertia (gcm²)  2.9(gcm²)
    HS24HS0L4150   HS24HS0L4150   45

     Phase  2  Frame Size  NEMA24(60mm)
     Step Angle  1.8°  Inductance(mH Typ.)  2.4(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.43(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.38(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  1.5(A)  Length(mm)  20.5(mm)
     Connect  Leads  Rotor Inertia (gcm²)  2.9(gcm²)
    CSE23HYA9L4150   CSE23HYA9L4150   3

     Phase  2  Frame Size  55.5*55.5mm
     Step Angle  1.8°  Inductance(mH Typ.)  1.03(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.1(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.095(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  1.5(A)  Length(mm)  8.8(mm)
     Connect  Leads  Rotor Inertia (gcm²)  18(gcm²)
    CSE23HYA8L4150   CSE23HYA8L4150   3

     Phase  2  Frame Size  55.5*55.5mm
     Step Angle  1.8°  Inductance(mH Typ.)  1.16(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.2(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.086(Nm)  Detent Torque(mNm)  (mNm)
     Rated Current(A)  1.5(A)  Length(mm)  8(mm)
     Connect  Leads  Rotor Inertia (gcm²)  18(gcm²)
    ML23HS4P4150   ML23HS4P4150 $45.60 5

     Phase  2  Frame Size  NEMA23(56.4mm)
     Step Angle  1.8°  Inductance(mH Typ.)  9.2(mH Typ.)
     Resistance(Ohms ±10%@20℃)  3.1(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  1.2(Nm)  Detent Torque(mNm)  28(mNm)
     Rated Current(A)  1.5(A)  Length(mm)  45(mm)
     Connect  Plug  Rotor Inertia (gcm²)  155(gcm²)
    ML42HS2L4X20   ML42HS2L4X20 $460.00 15

     Phase  2  Frame Size  NEMA42(110mm)
     Step Angle  1.8°  Inductance(mH Typ.)  3.6(mH Typ.)
     Resistance(Ohms ±10%@20℃)  0.177(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  22(Nm)  Detent Torque(mNm)  600(mNm)
     Rated Current(A)  12(A)  Length(mm)  151(mm)
     Connect  Leads  Rotor Inertia (gcm²)  10900(gcm²)
    MS17HD4P6120   MS17HD4P6120 Contact
    customer service

     Phase  2  Frame Size  NEMA17(42mm)
     Step Angle  1.8°  Inductance(mH Typ.)  2.5(mH Typ.)
     Resistance(Ohms ±10%@20℃)  2.9(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.25(Nm)  Detent Torque(mNm)  12(mNm)
     Rated Current(A)  1.2(A)  Length(mm)  34.3(mm)
     Connect  Plug  Rotor Inertia (gcm²)  38(gcm²)
    PL23HS8P4150   PL23HS8P4150 $107.00 5

     Phase  2  Frame Size  NEMA23(56.4mm)
     Step Angle  1.8°  Inductance(mH Typ.)  10.7(mH Typ.)
     Resistance(Ohms ±10%@20℃)  3.1(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  2.2(Nm)  Detent Torque(mNm)  100(mNm)
     Rated Current(A)  1.5(A)  Length(mm)  55(mm)
     Connect  Plug  Rotor Inertia (gcm²)  260(gcm²)
    ML42HS0L8420   ML42HS0L8420 $315.00 15

     Phase  2  Frame Size  NEMA42(110mm)
     Step Angle  1.8°  Inductance(mH Typ.)  5(mH Typ.)
     Resistance(Ohms ±10%@20℃)  0.3(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  12.2(Nm)  Detent Torque(mNm)  300(mNm)
     Rated Current(A)  8.4(A)  Length(mm)  100(mm)
     Connect  L Parallel  Rotor Inertia (gcm²)  5500(gcm²)
    MS17HD6P4200   MS17HD6P4200 $42.10 5

     Phase  2  Frame Size  NEMA17(42mm)
     Step Angle  1.8°  Inductance(mH Typ.)  2.9(mH Typ.)
     Resistance(Ohms ±10%@20℃)  1.3(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.63(Nm)  Detent Torque(mNm)  25(mNm)
     Rated Current(A)  2(A)  Length(mm)  48.3(mm)
     Connect  Plug  Rotor Inertia (gcm²)  82(gcm²)
    MS17HD6P4050   MS17HD6P4050 Contact
    customer service

     Phase  2  Frame Size  NEMA17(42mm)
     Step Angle  1.8°  Inductance(mH Typ.)  53(mH Typ.)
     Resistance(Ohms ±10%@20℃)  24(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  0.67(Nm)  Detent Torque(mNm)  25(mNm)
     Rated Current(A)  0.5(A)  Length(mm)  48.3(mm)
     Connect  Plug  Rotor Inertia (gcm²)  82(gcm²)
    PL23HSAP4150   PL23HSAP4150 $170.00 5

     Phase  2  Frame Size  NEMA23(56.4mm)
     Step Angle  1.8°  Inductance(mH Typ.)  15.2(mH Typ.)
     Resistance(Ohms ±10%@20℃)  4.3(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  3.4(Nm)  Detent Torque(mNm)  150(mNm)
     Rated Current(A)  1.5(A)  Length(mm)  77(mm)
     Connect  Plug  Rotor Inertia (gcm²)  460(gcm²)
    MS23HA8P4150   MS23HA8P4150 15

     Phase  2  Frame Size  NEMA23(56.4mm)
     Step Angle  0.9°  Inductance(mH Typ.)  21(mH Typ.)
     Resistance(Ohms ±10%@20℃)  3.1(Ohms ±10%@20℃)  Shaft  Single
     Holding Torque(Nm)  1.4(Nm)  Detent Torque(mNm)  45(mNm)
     Rated Current(A)  1.5(A)  Length(mm)  55(mm)
     Connect  Plug  Rotor Inertia (gcm²)  221(gcm²)