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    197 Products

    Stepper Motors

    Motors
    Image of Product. Square Body. Front orientation. Stepper Motors. Motors, Square Body.
    Image of Product. Round Body. Front orientation. Stepper Motors. Motors, Round Body.

    Square Body

    Round Body

    Image of Attribute. Front orientation. Contains Annotated. Motors.
    Image of Attribute. Side1 orientation. Contains Annotated. Motors.
    These stepper motors are good for precise, repetitive movements, such as those made by the head of a 3D printer. Similar to the hands of a clock, their shaft turns in small, equal increments. When the shaft stops, it holds its position even when a counteracting force is applied to the load. You can control the position of the load without having to configure encoders or sensors. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher torque, precision, and efficiency than unipolar stepper motors.
    All motors require a controller and drive (not included).
    8 Wire Leads—Motors with 8 wire leads can be connected to a drive in two different ways, so you can choose between more speed or more torque. Depending on your application, you could configure the motor for high torque at low speeds or for low torque at high speeds.
    2 Shafts—When relative positioning is critical, such as coordinating motion in a multi-axis system, choose a motor with two shafts and mount an encoder (not included) on one of them. The encoder monitors the position of the shaft and reports back to the controller.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    No. of
    Shafts
    Min.
    Max.
    Each
    Square Body
     
    NEMA 6 Frame Size
    1.910,0000.63.46°Bipolar41.8"0.6"0.8"4 mm11.9 mm0.4"Solid101206627T111000000
     
    NEMA 8 Frame Size
    4.22,4500.51.8°Bipolar41.9"0.8"0.8"4 mm8.5 mm0.4"D-Profile201206627T121000000
    73,2500.91.8°Bipolar42.3"0.8"0.8"4 mm8.5 mm0.4"D-Profile201206627T131000000
     
    NEMA 11 Frame Size
    8.53,3000.671.8°Bipolar42.1"1.1"1.1"5 mm18 mm0.56"Solid101206627T357000000
    142,4750.671.8°Bipolar42.6"1.1"1.1"5 mm18 mm0.56"Solid101206627T356000000
    172,4750.671.8°Bipolar42.8"1.1"1.1"5 mm18 mm0.56"Solid101206627T355000000
     
    NEMA 14 Frame Size
    7.53,3000.451.8°Bipolar41.6"1.4"1.4"5 mm13.5 mm0.7"Solid101206627T3900000
    201,8000.81.8°Bipolar41.9"1.4"1.4"5 mm13.5 mm0.7"Solid101206627T38000000
    56.63,00021.8°Bipolar43.1"1.4"1.4"5 mm22 mm0.7"D-Profile101206627T141000000
     
    NEMA 17 Frame Size
    271,3000.671.8°Bipolar41.9"1.7"1.7"4.5 mm20.3 mm0.84"D-Profile101206627T6400000
    391,0000.621.8°Bipolar42.1"1.7"1.7"5 mm24 mm0.84"Solid101206627T6500000
    62.31,2000.840.9°Bipolar42.8"1.7"1.7"5 mm22 mm0.84"D-Profile101206627T231000000
    648250.71.8°Bipolar42.3"1.7"1.7"5 mm24 mm0.84"Solid101206627T6600000
    712,47521.8°Bipolar42.5"1.7"1.7"4.5 mm20.3 mm0.84"D-Profile101206627T6700000
    848201.051.8°Bipolar42.6"1.7"1.7"5 mm24 mm0.84"D-Profile101206627T9100000
    1151,00021.8°Bipolar43.8"1.7"1.7"5 mm22 mm0.84"D-Profile201206627T921000000
    12597521.8°Bipolar43.1"1.7"1.7"5 mm24 mm0.84"D-Profile101206627T9200000
     
    NEMA 23 Frame Size
    731,8002.81.8°Bipolar82.6"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T261000000
    763,0004.21.8°Bipolar82.4"2.3"2.3"1/4"13/16"1.11"D-Profile101206627T61100000
    173.51,0002.81.8°Bipolar43"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T53000000
    173.91,0002.81.8°Bipolar43.6"2.3"2.3"1/4"3/4"1.13"D-Profile201206627T922000000
    1782,7005.61.8°Bipolar83"2.3"2.3"1/4"13/16"1.11"D-Profile101206627T62100000
    198.24001.50.9°Bipolar43"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T242000000
    2057502.81.8°Bipolar83.9"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T271000000
    2371,17541.8°Bipolar43.9"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T54000000
    2623,00071.8°Bipolar83.8"2.3"2.3"1/4"13/16"1.11"D-Profile101206627T631000000
    339.82501.50.9°Bipolar43.9"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T251000000
    4252,1007.061.8°Bipolar85.3"2.3"2.3"1/4"13/16"1.11"D-Profile101206627T641000000
    467.330021.8°Bipolar43.8"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T923000000
    600.41,3006.51.8°Bipolar44.2"2.3"2.3"1/4"3/4"1.13"D-Profile101206627T161000000
     
    NEMA 24 Frame Size
    1532,1002.81.8°Bipolar82.7"2.4"2.4"1/4"13/16"1.18"D-Profile101206627T55100000
    2292,1002.81.8°Bipolar83"2.4"2.4"1/4"13/16"1.18"D-Profile101206627T56100000
    2923,0005.61.8°Bipolar83.5"2.4"2.4"1/4"13/16"1.18"D-Profile101206627T571000000
    3802,4002.81.8°Bipolar83.8"2.4"2.4"1/4"13/16"1.18"D-Profile101206627T581000000
    4311,8005.61.8°Bipolar84.3"2.4"2.4"1/4"13/16"1.18"D-Profile101206627T591000000
     
    NEMA 34 Frame Size
    3627506.31.8°Bipolar84.1"3.4"3.4"1/2"1 3/8"1.7"D-Profile101206627T281000000
    4672,70071.8°Bipolar83.8"3.4"3.4"1/2"1 1/4"1.69"Keyed101206627T651000000
    4704,0004.21.8°Bipolar44.1"3.4"3.4"1/2"1 1/2"1.7"D-Profile101206627T56000000
    5956756.31.8°Bipolar85.3"3.4"3.4"1/2"1 3/8"1.7"D-Profile101206627T291000000
    6372,7008.61.8°Bipolar84.4"3.4"3.4"1/2"1 1/4"1.69"Keyed101206627T661000000
    8707504.21.8°Bipolar45.3"3.4"3.4"1/2"1 1/2"1.7"D-Profile101206627T57000000
    1,1403006.31.8°Bipolar86.5"3.4"3.4"1/2"1 3/8"1.7"D-Profile101206627T311000000
    1,2002,7009.81.8°Bipolar85.9"3.4"3.4"1/2"1 1/4"1.69"Keyed101206627T671000000
    1,4352504.831.8°Bipolar46.5"3.4"3.4"1/2"1 1/2"1.7"D-Profile101206627T58000000
    1,7001,500101.8°Bipolar87.4"3.4"3.4"5/8"1 1/4"1.69"Keyed101206627T681000000
    2,124.136051.8°Bipolar47.4"3.4"3.4"5/8"1"1.7"Keyed101206627T924000000
     
    NEMA 42 Frame Size
    3,155.4225121.8°Bipolar88.1"4.3"4.3"3/4"2 1/8"2.17"Keyed101206627T925000000
    4,531.5160161.8°Bipolar810.1"4.3"4.3"3/4"2 1/8"2.17"Keyed101206627T171000000
     
    Round Body
     
    NEMA 14 Frame Size
    15.58250.60.9°Bipolar41.6"1.4"1.4"5 mm18.2 mm0.7"D-Profile101206627T21100000
    15.51,4751.20.9°Bipolar41.6"1.4"1.4"5 mm18.2 mm0.7"D-Profile101206627T22100000
     
    NEMA 17 Frame Size
    2.81,6000.50.9°Bipolar41.1"1.7"1.7"5 mm13.1 mm0.84"Solid101206627T49100000
    5.61,1000.60.9°Bipolar41.1"1.7"1.7"5 mm13.1 mm0.84"Solid101206627T51100000
    71,9000.60.9°Bipolar41.2"1.7"1.7"5 mm13.1 mm0.84"Solid101206627T521000000
    15.51,4501.20.9°Bipolar41.4"1.7"1.7"5 mm13.1 mm0.84"Solid101206627T531000000
    22.61,6000.80.9°Bipolar41.7"1.7"1.7"5 mm13.1 mm0.84"Solid101206627T541000000
     
    NEMA 23 Frame Size
    76.41,6000.351.8°Bipolar42.4"2.3"2.3"1/4"3/4"1.13"Solid101206627T321000000
    106.29751.41.8°Bipolar42.8"2.3"2.3"1/4"3/4"1.13"Solid101206627T331000000
    131.71,9003.11.8°Bipolar43.1"2.3"2.3"1/4"3/4"1.13"Solid101206627T341000000
    175.61,1004.341.8°Bipolar43.8"2.3"2.3"1/4"3/4"1.13"Solid101206627T351000000
     
    Motor/Drives
    Image of Product. Front orientation. Stepper Motors. Motor/Drives.
    Image of Attribute. Front orientation. Contains Annotated. Motor/Drives.
    Image of Attribute. Side1 orientation. Contains Annotated. Motor/Drives.
    Reduce the size and complexity of your stepper motor setup—these motors have a drive built in, so you don’t need to run cable to a standalone drive. The drive delivers power to the motor based on signals from a PLC, pulse generator, or other controller. These motors are good for precise, repetitive movements, such as those made by the head of a 3D printer. Similar to the hands of a clock, their shaft turns in small, equal increments for smooth motion. When the shaft stops, it holds its position even when a counteracting force is applied to the load. You can control the position of the load without having to configure encoders or sensors. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher torque, precision, and efficiency than unipolar stepper motors.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Step Resolution—You can adjust the step resolution down to 1/256 of a full step, which translates to 51,200 microsteps per revolution. Increasing the number of steps directs an even more precise position and reduces the step-step-step motion to mimic a smooth, continuous rotation. The higher the number of step resolution settings, the greater the flexibility you have for determining the size of the motor’s step.
    Current per
    Phase, amp
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Min.
    Max.
    Voltage,
    V DC
    Full Step
    Increment
    Step Resolution
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    Min.
    Max.
    Each
    Square Body
     
    NEMA 17 Frame Size
    316600.070.7112 to 241.8°1, 1/2, 1/4, 1/8Bipolar73.2"1.7"1.7"5 mm21.8 mm0.85"D-Profile01206627T1080000000
    507200.080.8512 to 241.8°1, 1/2, 1/4, 1/8Bipolar73.4"1.7"1.7"5 mm21.8 mm0.85"D-Profile01206627T109000000
    627200.080.8512 to 241.8°1, 1/2, 1/4, 1/8Bipolar73.7"1.7"1.7"5 mm21.8 mm0.85"D-Profile01206627T112000000
     
    NEMA 23 Frame Size
    761,5000.212.112 to 241.8°1, 1/2, 1/8, 1/64, 1/256Bipolar73.8"2.2"2.2"1/4"3/4"1.11"D-Profile01206627T113000000
    1751,5000.212.112 to 241.8°1, 1/2, 1/8, 1/64, 1/256Bipolar74.2"2.2"2.2"1/4"3/4"1.11"D-Profile01206627T114000000
    2621,5000.212.112 to 241.8°1, 1/2, 1/8, 1/64, 1/256Bipolar75.1"2.2"2.2"1/4"3/4"1.11"D-Profile01206627T115000000
    4251,5000.212.112 to 241.8°1, 1/2, 1/8, 1/64, 1/256Bipolar76.6"2.2"2.2"1/4"3/4"1.11"D-Profile01206627T116000000
     
    NEMA 34 Frame Size
    6371,5000.434.320 to 801.8°1Bipolar6.6"3.5"3.5"1/2"1 3/16"1.76"Keyed01206627T117000000
    1,2003,0000.494.920 to 801.8°1Bipolar8.1"3.5"3.5"1/2"1 3/16"1.76"Keyed01206627T118000000
    1,7001,8000.5520 to 801.8°1Bipolar9.6"3.5"3.5"5/8"1 3/16"1.76"Keyed01206627T119000000
     
    Motor/Encoders
    Image of Product. Front orientation. Stepper Motors. Motor/Encoders.
    Image of Attribute. Front orientation. Contains Annotated. Motor/Encoders.
    Image of Attribute. Side1 orientation. Contains Annotated. Motor/Encoders.
    To improve positioning accuracy, these stepper motors have a built-in encoder that monitors the real-time speed and position of the shaft. It sends that data to a controller (not included), which adjusts or stops the shaft if it isn’t in the right place. This makes them useful when relative positioning is critical, such as when coordinating motion between two motors. Stepper motors are good for precise, repetitive movements. Similar to the hands of a clock, their shaft turns in small, equal increments for smooth motion. When the shaft stops, it holds its position even when a counteracting force is applied to the load. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher torque, precision, and efficiency than unipolar stepper motors.
    All motors require a controller and drive (not included).
    2 Shafts—When relative positioning is critical, such as coordinating motion in a multi-axis system, choose a motor with two shafts and mount an encoder (not included) on one of them. The encoder monitors the position of the shaft and reports back to the controller.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Voltage,
    V DC
    Full Step
    Increment
    Stepper Motor
    Polarity
    Encoder Positioning
    Type
    No. of Counts
    per Rev.
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    No. of
    Shafts
    Min.
    Max.
    Each
    Square Body
     
    NEMA 17 Frame Size
    26.91,5000.6751.8°BipolarIncremental1,00042.6"2.3"1.7"5 mm22 mm0.84"D-Profile201206627T3610000000
    399000.6251.8°BipolarIncremental1,00042.8"2.3"1.7"5 mm22 mm0.84"Solid201206627T371000000
    647500.751.8°BipolarIncremental1,00043"2.3"1.7"5 mm22 mm0.84"Solid201206627T381000000
    70.83,000251.8°BipolarIncremental1,00043.2"2.3"1.7"5 mm22 mm0.84"D-Profile201206627T391000000
    83.58251.0551.8°BipolarIncremental1,00043.5"2.3"1.7"5 mm22 mm0.84"D-Profile201206627T411000000
    124.61,400251.8°BipolarIncremental1,00043.9"2.3"1.7"5 mm22 mm0.84"D-Profile201206627T421000000
     
    NEMA 23 Frame Size
    1816002.851.8°BipolarIncremental1,00043.7"2.6"2.3"1/4"3/4"1.13"D-Profile201206627T441000000
    237525451.8°BipolarIncremental1,00044.6"2.6"2.3"1/4"3/4"1.13"D-Profile201206627T451000000
    355900651.8°BipolarIncremental1,00044.9"2.6"2.3"1/4"3/4"1.13"D-Profile201206627T461000000
    467.3300251.8°BipolarIncremental1,00044.5"2.5"2.3"1/4"3/4"1.11"D-Profile201206627T471000000
    600.41,3006.551.8°BipolarIncremental1,00044.9"2.6"2.3"1/4"3/4"1.13"D-Profile201206627T481000000
     

    Economy Stepper Motors

    Often used in prototyping, these light duty stepper motors deliver precise, repeatable motion. Their shaft turns in small, equal increments, similar to the hands of a clock. When the shaft stops, it holds its position even when a counteracting force is applied to the load. You can control the position of the load without having to configure encoders or sensors. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher precision than unipolar stepper motors.
    All motors require a controller and drive (not included).
    Motors
    Image of Product. Front orientation. Stepper Motors. Economy Stepper Motors.
    Image of Attribute. Front orientation. Contains Annotated. Economy Stepper Motors, Motors.
    Image of Attribute. Side1 orientation. Contains Annotated. Economy Stepper Motors, Motors.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.,
    mm
    Lg.,
    mm
    Ctr.-to-Base
    Lg.
    Type
    No. of
    Shafts
    Min.
    Temp.
    Each
    Square Body
     
    NEMA 17 Frame Size
    32.52600.331.8°Bipolar42.3"1.7"1.7"5240.83"Solid1Not Rated4798N11000000
    681,0001.70.9°Bipolar42.8"1.7"1.7"5240.83"Solid1Not Rated4798N1200000
     
    NEMA 23 Frame Size
    1251,00021.8°Bipolar43"2.2"2.2"6211.1"Solid1Not Rated4798N1300000
     

    Stepper Motors with Linear Actuation

    Instead of a shaft, these stepper motors have a lead screw that converts rotational motion to linear motion. Moving in increments smaller than the thickness of a sheet of paper, they're ideal for applications that require fine motion control, such as positioning electrical components on a circuit board. They move in equal steps and hold their position when stationary, so they do not require encoders, sensors, or other position feedback devices. The lead screw is built into the motor, so there are fewer points of failure than systems that use a shaft coupling to connect the lead screw. All are bipolar hybrid stepper motors, which deliver greater torque, precision, and efficiency than other types of stepper motors.
    All motors require a controller and drive (not included).
    External Lead Screw—External lead screw stepper motors work similar to a traditional linear motion system; attach the load to the flanged nut, which travels back and forth along the lead screw.
    Pass-Through Lead Screw—Pass-through lead screw stepper motors give you the most design versatility because there are two ways to move your load: on the motor body or on the ends of the lead screw. The motor moves when the lead screw is fixed or the lead screw moves when the motor body is fixed.
    Travel Distance per Full Step—Travel distance per full step determines the control you have over the motor’s positioning. The smaller the measurement, the finer positioning control you have, but the more steps it will take to go the same distance.
    Dynamic Load Capacity—Dynamic load capacity is the maximum load a motor can move. If you increase the speed, the dynamic load capacity decreases. Click on a part number and select "Product Detail" to view the load-speed chart and confirm the motor will work for your application.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Temp.
    Range, ° F
    Travel Distance
    per Full Step
    Travel
    Lg.
    Dynamic
    Load Cap., lb.
    Max. Speed,
    in/sec
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Lead Screw
    Lg.
    Thread
    Size
    Min.
    Max.
    Each
    External Lead Screw
    Image of Product. Front orientation. Stepper Motors. Stepper Motors with Linear Actuation, External Lead Screw.
     
    NEMA 8 Frame Size
    0.00006"3.3"100.10.41.8°Bipolar45.1"0.8"0.8"4"9/64"-83.3351308677N370000000
    0.00006"7.3"100.10.41.8°Bipolar49.1"0.8"0.8"8"9/64"-83.3351308677N38000000
    0.00019"3.3"100.40.41.8°Bipolar45.1"0.8"0.8"4"M3.5 × 1 mm351308677N39000000
    0.00019"7.3"100.40.41.8°Bipolar49.1"0.8"0.8"8"M3.5 × 1 mm351308677N41000000
    0.00078"3.3"31.80.41.8°Bipolar45.1"0.8"0.8"4"M3.5 × 1 mm351308677N42000000
    0.00078"3.3"71.51.31.8°Bipolar45.5"0.8"0.8"4"M3.5 × 1 mm351308677N43000000
    0.00078"7.3"31.80.41.8°Bipolar49.1"0.8"0.8"8"M3.5 × 1 mm351308677N44000000
    0.00078"7.3"71.51.31.8°Bipolar49.5"0.8"0.8"8"M3.5 × 1 mm351308677N45000000
     
    NEMA 14 Frame Size
    0.00024"5.2"500.31.21.8°Bipolar47.4"1.4"1.4"6"7/32"-48351308677N46000000
    0.00024"11.2"500.31.21.8°Bipolar413.4"1.4"1.4"12"7/32"-48351308677N47000000
    0.00125"3.2"28221.8°Bipolar45.7"1.4"1.4"4"1/4"-16
    		351308677N48000000
    0.00125"5.2"161.71.21.8°Bipolar47.4"1.4"1.4"6"1/4"-16
    		351308677N49000000
    0.00125"7.2"28221.8°Bipolar49.7"1.4"1.4"8"1/4"-16
    		351308677N51000000
    0.00125"11.2"161.71.21.8°Bipolar413.4"1.4"1.4"12"1/4"-16
    		351308677N52000000
     
    NEMA 17 Frame Size
    0.0003125"5.2"500.41.51.8°Bipolar47.3"1.7"1.7"6"1/4"-16
    		351308677N53000000
    Stepper Motor with Linear Actuation, NEMA 17, 0.0003125" Travel Distance, 5.2" Travel Length
    EachIn stock
    0.0003125"11.2"500.41.51.8°Bipolar413.3"1.7"1.7"12"1/4"-16
    		351308677N54000000
    0.000625"5.2"501.21.51.8°Bipolar47.3"1.7"1.7"6"1/4"-16
    		351308677N17000000
    0.000625"5.2"751.12.61.8°Bipolar47.9"1.7"1.7"6"1/4"-16
    		351308677N22000000
    0.000625"11.2"501.21.51.8°Bipolar413.3"1.7"1.7"12"1/4"-16
    		351308677N18000000
    0.000625"11.2"751.12.61.8°Bipolar413.9"1.7"1.7"12"1/4"-16
    		351308677N23000000
    0.00125"5.2"2521.51.8°Bipolar47.3"1.7"1.7"6"1/4"-16
    		351308677N19000000
    0.00125"5.2"602.12.61.8°Bipolar47.9"1.7"1.7"6"1/4"-16
    		351308677N24000000
    0.00125"11.2"2521.51.8°Bipolar413.3"1.7"1.7"12"1/4"-16
    		351308677N21000000
    0.00125"11.2"602.12.61.8°Bipolar413.9"1.7"1.7"12"1/4"-16
    		351308677N25000000
    0.0025"6.2"283.92.61.8°Bipolar47.9"1.7"1.7"6"1/4"-16
    		351308677N55000000
    0.0025"11.2"283.92.61.8°Bipolar413.9"1.7"1.7"12"1/4"-16
    		351308677N56000000
     
    NEMA 23 Frame Size
    0.0001562"5"900.220.9°Bipolar47.8"2.3"2.3"6"3/8"-16
    		351308677N57000000
    0.0001562"11"900.220.9°Bipolar413.8"2.3"2.3"12"3/8"-16
    		351308677N58000000
    0.0003125"5"2000.421.8°Bipolar47.8"2.3"2.3"6"3/8"-16
    		351308677N59000000
    0.0003125"11"2000.521.8°Bipolar413.8"2.3"2.3"12"3/8"-16
    		351308677N28000000
    0.0003125"15"2000.421.8°Bipolar417.8"2.3"2.3"16"3/8"-16
    		351308677N61000000
    0.0005"5"1960.521.8°Bipolar47.8"2.3"2.3"6"3/8"-10
    		351308677N62000000
    0.0005"11"2000.821.8°Bipolar413.8"2.3"2.3"12"3/8"-10
    		351308677N27000000
    0.0005"15"1960.521.8°Bipolar417.8"2.3"2.3"16"3/8"-10
    		351308677N63000000
    0.002"5"702.621.8°Bipolar47.8"2.3"2.3"6"3/8"-10
    		351308677N64000000
    0.002"11"75321.8°Bipolar413.8"2.3"2.3"12"3/8"-10
    		351308677N26000000
    0.002"15"702.621.8°Bipolar417.8"2.3"2.3"16"3/8"-10
    		351308677N65000000
     
    Pass-Through Lead Screw
    Image of Product. Front orientation. Stepper Motors. Stepper Motors with Linear Actuation, Pass-Through Lead Screw.
     
    NEMA 8 Frame Size
    0.00006"2.8"100.10.41.8°Bipolar44.1"0.8"0.8"4"9/64"-83.3351308677N66000000
    0.00006"6.8"100.10.41.8°Bipolar48.1"0.8"0.8"8"9/64"-83.3351308677N67000000
    0.00019"2.8"100.40.41.8°Bipolar44.1"0.8"0.8"4"M3.5 × 1 mm351308677N68000000
    0.00019"6.8"100.40.41.8°Bipolar48.1"0.8"0.8"8"M3.5 × 1 mm351308677N69000000
    0.00078"2.4"31.81.31.8°Bipolar44.1"0.8"0.8"4"M3.5 × 1 mm351308677N72000000
    0.00078"2.8"31.80.41.8°Bipolar44.1"0.8"0.8"4"M3.5 × 1 mm351308677N71000000
    0.00078"6.8"31.80.41.8°Bipolar48.1"0.8"0.8"8"M3.5 × 1 mm351308677N73000000
    0.00078"6.8"31.81.31.8°Bipolar48.1"0.8"0.8"8"M3.5 × 1 mm351308677N74000000
     
    NEMA 14 Frame Size
    0.00024"4.5"500.31.21.8°Bipolar46.3"1.4"1.4"6"7/32"-48351308677N75000000
    0.00024"10.5"500.31.21.8°Bipolar412.3"1.4"1.4"12"7/32"-48351308677N76000000
    0.00125"4.5"161.71.21.8°Bipolar46.3"1.4"1.4"6"1/4"-16
    		351308677N77000000
    0.00125"10.5"161.71.21.8°Bipolar412.3"1.4"1.4"12"1/4"-16
    		351308677N78000000
     
    NEMA 17 Frame Size
    0.0003125"4.6"500.41.51.8°Bipolar46.3"1.7"1.7"6"1/4"-16
    		351308677N79000000
    0.0003125"10.5"500.41.51.8°Bipolar412.3"1.7"1.7"12"1/4"-16
    		351308677N81000000
    0.000625"4"750.92.61.8°Bipolar46.3"1.7"1.7"6"1/4"-16
    		351308677N83000000
    0.000625"4.6"500.81.51.8°Bipolar46.3"1.7"1.7"6"1/4"-16
    		351308677N82000000
    0.000625"10.1"751.12.61.8°Bipolar412.3"1.7"1.7"12"1/4"-16
    		351308677N32000000
    0.000625"10.6"501.21.51.8°Bipolar412.3"1.7"1.7"12"1/4"-16
    		351308677N29000000
    0.000625"16"750.92.61.8°Bipolar418.3"1.7"1.7"18"1/4"-16
    		351308677N85000000
    0.000625"16.6"500.81.51.8°Bipolar418.3"1.7"1.7"18"1/4"-16
    		351308677N84000000
    0.00125"4"611.92.61.8°Bipolar46.3"1.7"1.7"6"1/4"-16
    		351308677N87000000
    0.00125"4.6"241.91.51.8°Bipolar46.3"1.7"1.7"6"1/4"-16
    		351308677N86000000
    0.00125"10.1"602.12.61.8°Bipolar412.3"1.7"1.7"12"1/4"-16
    		351308677N33000000
    0.00125"10.6"2521.51.8°Bipolar412.3"1.7"1.7"12"1/4"-16
    		351308677N31000000
    0.00125"16"611.92.61.8°Bipolar418.3"1.7"1.7"18"1/4"-16
    		351308677N89000000
    0.00125"16.6"241.91.51.8°Bipolar418.3"1.7"1.7"18"1/4"-16
    		351308677N88000000
    0.0025"4"283.92.61.8°Bipolar46.3"1.7"1.7"6"1/4"-16
    		351308677N91000000
    0.0025"10"283.92.61.8°Bipolar412.3"1.7"1.7"12"1/4"-16
    		351308677N92000000
     
    NEMA 23 Frame Size
    0.0001562"4.1"900.220.9°Bipolar46.5"2.3"2.3"6"3/8"-16
    		351308677N93000000
    0.0001562"10.1"900.220.9°Bipolar412.5"2.3"2.3"12"3/8"-16
    		351308677N94000000
    0.0003125"4.1"2000.421.8°Bipolar46.5"2.3"2.3"6"3/8"-16
    		351308677N95000000
    0.0003125"10.2"2000.521.8°Bipolar412.5"2.3"2.3"12"3/8"-16
    		351308677N36000000
    0.0003125"22.1"2000.421.8°Bipolar424.5"2.3"2.3"24"3/8"-16
    		351308677N96000000
    0.0005"4.1"1960.521.8°Bipolar46.5"2.3"2.3"6"3/8"-10
    		351308677N97000000
    0.0005"10.2"2000.821.8°Bipolar412.5"2.3"2.3"12"3/8"-10
    		351308677N35000000
    0.0005"22.1"1960.521.8°Bipolar424.5"2.3"2.3"24"3/8"-10
    		351308677N98000000
    0.002"4.1"702.621.8°Bipolar46.5"2.3"2.3"6"3/8"-10
    		351308677N99000000
    0.002"10.2"75321.8°Bipolar412.5"2.3"2.3"12"3/8"-10
    		351308677N34000000
    0.002"22.1"702.621.8°Bipolar424.5"2.3"2.3"24"3/8"-10
    		351308677N111000000
     

    Stepper Motors with Integrated Motion Control

    Image of Product. Front orientation. Stepper Motors. Stepper Motors with Integrated Motion Control.
    With a built-in controller and drive, these stepper motors come ready to program and operate. Connect them to a computer and use the free downloadable software to set them up. After that, the controller can store and run programs on its own. The controller communicates to the drive which directs the motor’s shaft to move in small, equal increments. When the shaft stops, it holds its position even when a counteracting force is applied to the load. All are bipolar hybrid stepper motors, which deliver greater torque, precision, and efficiency than other types of stepper motors.
    Encoders—When relative positioning is critical, such as coordinating motion in a multi-axis system, choose a motor with an encoder. The encoder monitors the position of the shaft and reports back to the controller.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Step Resolution—You can adjust the step resolution down to 1/256 of a full step, which translates to 51,200 microsteps per revolution. Increasing the number of steps directs an even more precise position and reduces the step-step-step motion to mimic a smooth, continuous rotation. The higher the number of step resolution settings, the greater the flexibility you have for determining the size of the motor’s step.
    Current per
    Phase, amp
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Min.
    Max.
    Voltage,
    V DC
    Full Step
    Increment
    Step Resolution
    No. of Inputs/Outputs
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    Min.
    Max.
    Each
    Motor/Controller/Drives
     
    NEMA 17 Frame Size
    40.31,2000.1212 to 401.8°1, 1/2, 1/4, 1/8, 1/16, 1/32, 1/64, 1/128, 1/2562 Digital-Inputs/Outputs2.3"1.7"1.7"5 mm22 mm0.84"Solid01206627T250000000
    74.91,0000.1212 to 401.8°1, 1/2, 1/4, 1/8, 1/16, 1/32, 1/64, 1/128, 1/2562 Digital-Inputs/Outputs2.5"1.7"1.7"5 mm22 mm0.84"Solid01206627T26000000
    85.48200.1212 to 401.8°1, 1/2, 1/4, 1/8, 1/16, 1/32, 1/64, 1/128, 1/2562 Digital-Inputs/Outputs2.8"1.7"1.7"5 mm22 mm0.84"Solid01206627T24000000
     
    NEMA 23 Frame Size
    761,5000.212.112 to 241.8°1, 1/2, 1/4, 1/82 Digital-Inputs,
    1 Digital-Output    		3.7"2.3"2.3"1/4"13/16"1.17"D-Profile01206627T122000000
    1751,5000.212.112 to 241.8°1, 1/2, 1/4, 1/82 Digital-Inputs,
    1 Digital-Output    		4.3"2.3"2.3"1/4"13/16"1.17"D-Profile01206627T123000000
    2621,5000.212.112 to 241.8°1, 1/2, 1/4, 1/82 Digital-Inputs,
    1 Digital-Output    		5.1"2.3"2.3"1/4"13/16"1.17"D-Profile01206627T124000000
    4251,5000.212.112 to 241.8°1, 1/2, 1/4, 1/82 Digital-Inputs,
    1 Digital-Output    		6.6"2.3"2.3"1/4"13/16"1.17"D-Profile01206627T125000000
     
    NEMA 34 Frame Size
    6371,5000.434.320 to 801.8°1/102 Digital-Inputs,
    1 Digital-Output    		6.6"3.5"3.5"1/2"1 1/4"1.76"Keyed01206627T126000000
    1,2003,0000.494.920 to 801.8°1/102 Digital-Inputs,
    1 Digital-Output    		8.2"3.5"3.5"1/2"1 1/4"1.76"Keyed01206627T127000000
    1,7001,8000.5520 to 801.8°1/102 Digital-Inputs,
    1 Digital-Output    		9.6"3.5"3.5"5/8"1 1/4"1.76"Keyed01206627T128000000
     
    Motor/Controller/Drive/Encoders
     
    NEMA 17 Frame Size
    313,0000.12.212 to 481.8°1 to 1/2561 Analog-Input,
    3 Digital-Inputs,
    1 Digital-Output    		3.7"1.7"3"5 mm22 mm0.84"D-Profile351006627T104000000
    543,0000.12.212 to 481.8°1 to 1/2561 Analog-Input,
    3 Digital-Inputs,
    1 Digital-Output    		3.9"1.7"3"5 mm22 mm0.84"D-Profile351006627T105000000
    683,0000.12.212 to 481.8°1 to 1/2561 Analog-Input,
    3 Digital-Inputs,
    1 Digital-Output    		4.2"1.7"3"5 mm22 mm0.84"D-Profile351006627T106000000
     
    NEMA 23 Frame Size
    100.52,4750.3312 to 401.8°1, 1/2, 1/4, 1/8, 1/16, 1/32, 1/64, 1/128, 1/2564 Digital-Inputs/Outputs3.8"2.3"2.3"1/4"3/4"1.13"D-Profile01206627T101000000
    182.52,0000.3312 to 401.8°1, 1/2, 1/4, 1/8, 1/16, 1/32, 1/64, 1/128, 1/2564 Digital-Inputs/Outputs4.3"2.3"2.3"1/4"3/4"1.13"D-Profile01206627T102000000
    294.58200.3312 to 401.8°1, 1/2, 1/4, 1/8, 1/16, 1/32, 1/64, 1/128, 1/2564 Digital-Inputs/Outputs5.1"2.3"2.3"1/4"3/4"1.13"D-Profile01206627T103000000
     
    NEMA 24 Frame Size
    3402,4003512 to 701.8°1 to 1/2561 Analog-Input,
    4 Digital-Inputs/Outputs    		4.9"2.4"3.8"8 mm21 mm1.18"D-Profile351006627T10700000000
     

    Wet-Environment Stepper Motors

    To precisely position loads in automated systems that are frequently rinsed, these stepper motors are IP65 rated to seal out water. Their shaft turns in small, equal increments, similar to the hands of a clock. When the shaft stops, it holds its position even when force is applied to the load. This means you don’t need to configure encoders or sensors to control the position of the load. All are hybrid bipolar stepper motors, so they have more torque, precision, and efficiency than other stepper motors.
    These stepper motors require a controller and drive (not included).
    Motors
    Image of Product. Front orientation. Stepper Motors. Wet-Environment Stepper Motors.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    No. of
    Shafts
    Min.
    Max.
    Enclosure
    Rating
    Each
    Square Body
     
    NEMA 17 Frame Size
    85.41,6002.11.8°Bipolar42.9"1.7"1.7"5 mm22 mm0.84"Solid10120IP65
    		5958N110000000
    12597521.8°Bipolar43.6"1.7"1.7"5 mm24 mm0.84"D-Profile10120IP65
    		5958N101000000
     
    NEMA 23 Frame Size
    173.51,0002.81.8°Bipolar43.1"2.3"2.3"1/4"3/4"1.13"D-Profile10120IP65
    		5958N102000000
    2371,17541.8°Bipolar44"2.3"2.3"1/4"3/4"1.13"D-Profile10120IP65
    		5958N103000000
    2748202.81.8°Bipolar44"2.3"2.3"1/4"3/4"1.13"D-Profile10120IP65
    		5958N12000000
    352.53,00061.8°Bipolar44.4"2.3"2.3"1/4"3/4"1.13"D-Profile10120IP65
    		5958N104000000
     
    NEMA 34 Frame Size
    4704,0004.21.8°Bipolar44.1"3.4"3.4"1/2"1 1/2"1.7"D-Profile10120IP65
    		5958N105000000
    9104102.81.8°Bipolar45.4"3.4"3.4"1/2"1 3/8"1.7"D-Profile10120IP65
    		5958N13000000
    1,4352504.831.8°Bipolar46.4"3.4"3.4"1/2"1 1/2"1.7"D-Profile10120IP65
    		5958N106000000
     

    Clean Room Stepper Motors

    Deliver precise, repeatable motion in applications where contamination is a concern, such as semiconductor manufacturing. These motors meet the strictest clean room standards—all components are cleaned and assembled in a clean room and stored in vacuum sealed packaging. Made of treated aluminum, they minimize gas and particle emission in your clean room’s environment. They're often used in vacuum chambers, where low particle emission prevents the vacuum from degrading. Similar to the hands of a clock, the shaft on these stepper motors turns in small, equal increments for smooth motion. When the shaft stops, it holds its position even when a counteracting force is applied to the load. You can control the position of the load without having to configure encoders, sensors, or other position feedback devices. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher torque, precision, and efficiency than unipolar stepper motors.
    All motors require a controller and drive (not included).
    Motors
    Image of Product. Front orientation. Stepper Motors. Clean Room Stepper Motors.
    Image of Attribute. Front orientation. Contains Annotated. Clean Room Stepper Motors, Motors.
    Image of Attribute. Side1 orientation. Contains Annotated. Clean Room Stepper Motors, Motors.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.,
    mm
    Lg.,
    mm
    Type
    No. of
    Shafts
    Vacuum Rating,
    Torr
    Min.
    Max.
    Clean Room
    Std.
    Each
    Square Body
     
    NEMA 11 Frame Size
    103,2500.671.8°Bipolar42.1"1.1"1.1"518Solid11× 10^-70120ISO Class 1
    		4799N11000000000
    19.51,5500.671.8°Bipolar42.8"1.1"1.1"518Solid11× 10^-70120ISO Class 1
    		4799N1200000000
     
    NEMA 17 Frame Size
    85.48501.051.8°Bipolar42.9"1.7"1.7"522Solid11× 10^-70120ISO Class 1
    		4799N1300000000
    115.11,15021.8°Bipolar43.3"1.7"1.7"522Solid11× 10^-70120ISO Class 1
    		4799N1400000000
     
    NEMA 23 Frame Size
    1811,3002.81.8°Bipolar43.1"2.3"2.3"621D-Profile11× 10^-70120ISO Class 1
    		4799N1500000000
    2372,00041.8°Bipolar44"2.3"2.3"621D-Profile11× 10^-70120ISO Class 1
    		4799N1600000000
     

    High-Temperature Stepper Motors

    The widest temperature range of any stepper motor we offer—these motors were designed with grease and magnets that are particularly good for temperatures up to 212° F. They also work well in low temperatures down to -40° F. Similar to the hands of a clock, their shaft turns in small, equal increments. When the shaft stops, it holds its position even when a counteracting force is applied to the load. You can control the position of the load without having to configure encoders, sensors, or other position feedback devices. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher torque, precision, and efficiency than unipolar stepper motors.
    All motors require a controller and drive (not included).
    Motors
    Image of Product. Front orientation. Stepper Motors. High-Temperature Stepper Motors.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    No. of
    Shafts
    Min.
    Max.
    Each
    Square Body
     
    NEMA 17 Frame Size
    85.48201.051.8°Bipolar42.8"1.7"1.7"5 mm24 mm0.84"D-Profile1-402128643N120000000
    115.197521.8°Bipolar43.285"1.7"1.7"5 mm24 mm0.84"D-Profile1-402128643N13000000
     
    NEMA 23 Frame Size
    1811,0002.81.8°Bipolar43"2.3"2.3"1/4"3/4"1.13"D-Profile1-402128643N14000000
    2371,17541.8°Bipolar43.9"2.3"2.3"1/4"3/4"1.13"D-Profile1-402128643N15000000
     

    Hollow-Shaft Stepper Motors

    Route light beams, wire, or tubing through the hollow shaft of these stepper motors when space is tight. Often used in robotics and optical equipment, they're good for precise, repetitive movements. Similar to the hands of a clock, their shaft turns in small, equal increments for smooth motion. When the shaft stops, it holds its position even when a counteracting force is applied to the load. You can control the position of the load without having to configure encoders, sensors, or other position feedback devices. All are bipolar hybrid stepper motors, so the current can flow in both directions. This helps them deliver higher torque, precision, and efficiency than unipolar stepper motors.
    All motors require a controller and drive (not included).
    Motors
    Image of Product. Front orientation. Stepper Motors. Hollow-Shaft Stepper Motors.
    Image of Attribute. Front orientation. Contains Annotated. Hollow-Shaft Stepper Motors, Motors.
    Image of Attribute. Side1 orientation. Contains Annotated. Hollow-Shaft Stepper Motors, Motors.
    Maximum Holding Torque—Holding torque is the force needed to move the shaft out of position when it is stationary. When the shaft is in motion, torque generally decreases as speed increases. Use a torque-speed curve to confirm which motor will work for your application. Click on a part number and select “Product Detail” to view the curve for a motor.
    Full Step Increment—Full step increment is the rotation of the shaft from one position to the next. A smaller full step increment means the rotor has more teeth, producing smoother and more precise motion. 1.8° is considered standard.
    Overall
    Shaft
    Temp.
    Range, ° F
    Max. Holding
    Torque, in·ozf
    Max. Rotation
    Speed, rpm
    Max. Current
    per Phase, amp
    Full Step
    Increment
    Stepper Motor
    Polarity
    No. of Wire
    Leads
    Lg.
    Wd.
    Ht.
    Dia.
    Lg.
    Ctr.-to-Base
    Lg.
    Type
    ID
    No. of
    Shafts
    Min.
    Max.
    Each
    Square Body
     
    NEMA 17 Frame Size
    16.91,4751.20.9°Bipolar41.9"1.7"1.7"1/2"3/4"0.84"Hollow7/16"101206627T1810000000
    33.91,7001.40.9°Bipolar42.5"1.7"1.7"1/2"3/4"0.84"Hollow7/16"101206627T191000000
     
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