Showing
1 - 5
of 5
Compare
Mfr Part #
Price
Stock
Supplier
Mfr
Min Qty
DK Part #
Series
Package
Part Status
Type
Coil Type
Voltage - Rated
Current Rating (Amps)
Steps per Revolution
Step Angle
Accuracy
Torque - Holding (oz-in / mNm)
Size / Dimension
NEMA Frame Size
Diameter - Shaft
Length - Shaft and Bearing
Mounting Hole Spacing
Termination Style
Operating Temperature
Coil Resistance
Features
NEMA11
STEPPER MOTOR W/ INCREMENTAL ENC
$172.40000
30 - Immediate
CUI DevicesCUI Devices
1
102-4707-ND
NEMA11-AMT112S
Box
Active-Bipolar24 ~ 48VDC1.3 A2001.8°±0.2%13.7 / 96.74Square - 1.110" x 1.110" (28.20mm x 28.20mm)110.197" (5.00mm)0.791" (20.10mm)0.909" (23.10mm)Connector-20°C ~ 50°C1.3 OhmsIntegrated Encoder
NEMA11
STEPPER MOTOR W/ INCREMENTAL ENC
$170.70000
5 - Immediate
CUI DevicesCUI Devices
1
102-4706-ND
NEMA11-AMT112S
Box
Active-Bipolar24 ~ 48VDC670 mA2001.8°±0.2%13.7 / 96.74Square - 1.110" x 1.110" (28.20mm x 28.20mm)110.197" (5.00mm)0.791" (20.10mm)0.909" (23.10mm)Connector-20°C ~ 50°C7.1 OhmsIntegrated Encoder
NEMA11
STEPPER MOTOR W/ INCREMENTAL ENC
$179.75000
8 - Immediate
CUI DevicesCUI Devices
1
102-4708-ND
NEMA11-AMT112S
Box
Active-Bipolar24 ~ 48VDC670 mA2001.8°±0.2%16.6 / 117.22Square - 1.110" x 1.110" (28.20mm x 28.20mm)110.197" (5.00mm)0.791" (20.10mm)0.909" (23.10mm)Connector-20°C ~ 50°C8.6 OhmsIntegrated Encoder
NEMA11
STEPPER MOTOR W/ INCREMENTAL ENC
$165.29000
0 - Immediate
CUI DevicesCUI Devices
1
102-4705-ND
NEMA11-AMT112S
Box
Active-Bipolar24 ~ 48VDC670 mA2001.8°±0.2%9.2 / 64.97Square - 1.110" x 1.110" (28.20mm x 28.20mm)110.197" (5.00mm)0.791" (20.10mm)0.909" (23.10mm)Connector-20°C ~ 50°C5.7 OhmsIntegrated Encoder
NEMA11
STEPPER MOTOR W/ INCREMENTAL ENC
$171.61600
0 - Immediate
CUI DevicesCUI Devices
10
Non-Stock
102-NEMA11-20-02D-AMT112S-ND
NEMA11-AMT112S
Box
Active-Bipolar24 ~ 48VDC1.3 A2001.8°±0.2%16.6 / 117.22Square - 1.110" x 1.110" (28.20mm x 28.20mm)110.197" (5.00mm)0.791" (20.10mm)0.909" (23.10mm)Connector-20°C ~ 50°C1.9 OhmsIntegrated Encoder
Showing
1 - 5
of 5

Stepper Motors


Stepper motors are DC voltage motion actuators that move in discrete steps. Multiple sets of coils organized in groups called "phases" determine the motors armature position. Energizing each phase in sequence causes armature rotation one step at a time. With computer or microcontroller managed stepping, precise positioning and/or speed control is achieved. Steppers are selected by torque, steps per revolution, step angle, NEMA frame size, coil resistance, polarity and shaft features.