NEMA 17 Bipolar 3.6deg 0.053Nm (7.4oz.in) 0.1A 9.8V 42x42x34mm 4 Wires Stepper Motor
Manufacturer Part Number:42H034HF-0104
Frame Size: 42x42mm
Motor Type: Bipolar Stepper motor
Step Angle: 3.6deg
Holding Torque: 0.053Nm(7.4oz.in)
Rated Current/phase: 0.1A
Voltage: 9.8V
Resistance/phase: 98 ohms
Inductance: 200mH ± 20%(1KHz)
Body Length: 34mm
- Fast Delievery
- Quality Assurance
Customization Available
Product Introduction
Technical Parameter
|
Item |
Specifications |
|
Step Angle Accuracy |
±5% |
|
Resistance Accuracy |
±10% |
|
Inductance Accuracy |
±20% |
|
Temperature Rise |
80K Max. |
|
Ambient Temperature |
-20℃~+50℃ |
|
Insulation Resistance |
100MΩMin.@ 500VDC |
|
Dielectric strength |
One minute@500VAC∙5mA Max. |
|
Shaft Radial Play |
0.06Max.@450g |
|
Shaft Axial Play |
0.08Max.@450g |
Technical Specification
|
Model No. |
Polar |
Rated |
Current/ |
Resistance/ |
Inductance/ |
Holding |
# of |
Rotor |
Weight |
Length |
|
|
V |
A |
Ω |
mH |
oz-in |
kgf · cm |
g∙ cm2 |
kg |
mm |
|||
|
42H034HF-0104 |
Bipolar |
9.8 |
0.1 |
98 |
200 |
7.4 |
0.53 |
|
20 |
0.2 |
34 |
Pull Out Torque Curve
FAQ
Q: Can stepper motors be used for linear motion?
A: Yes, stepper motors can be used for linear motion applications. While stepper motors are commonly associated with rotary motion, they can also be employed to drive linear motion by coupling the motor to a linear actuator or other mechanisms. There are several methods for achieving linear motion with a stepper motor:
1. Lead Screws: A lead screw can be connected to the stepper motor's shaft, converting the rotary motion into linear motion. As the motor rotates, it drives the lead screw, which in turn moves a nut or carriage along the screw, producing linear displacement.
2. Belt and Pulley Systems: A belt and pulley system can be utilized to transfer the rotary motion of the stepper motor to linear motion. The motor drives a pulley connected to a belt, and the belt is then attached to a carriage or load, causing it to move along a linear path.
3. Rack and Pinion Mechanisms: A rack and pinion setup can be employed to convert the rotary motion of the stepper motor into linear motion. The motor's rotational movement is transformed into linear motion by engaging the motor's pinion gear with a rack, which moves the load or carriage along the linear path.
4. Linear Actuators: Stepper motors can be integrated into linear actuators, which are designed specifically for linear motion. Linear actuators can include screw-driven mechanisms, belt-driven systems, or other linear motion mechanisms. The stepper motor provides the necessary driving force for the actuator to achieve linear movement.
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