Categories
Latest Products
The powerful stepper motors are mainly used for holding or positioning applications, as for example plotters, printers, moving lights or mirror mounts etc. A stepper motor (or step motor) divides a full rotation into a number of discrete steps.
The motor's position can then be commanded to move and hold at one of these steps. Once stopped, the stepper holds the load steady with a holding torque.
This is a NEMA 14 stepper motor. The NEMA 14 is smaller and generally lighter than for example a NEMA 17, however, its size is not an indication of its power.
Features:
1. Inexpensive, as the rotor contains no winding slip rings or commutator.
2. Easy to position moves in steps based on pulses supplied to the stator windings.
3. Direction of rotation is changed by reversing the pulse sequence.
4. Speed control through frequency of pulses or pulse rate Applications: Computer-controlled stepper motors are mainly used for holding or positioning applications, as for example plotters, printers, moving lights or mirror mounts.
Specifications£º
2 Phases
Step Angle: 1.8¡ã
Rated Voltage: 3.6V DC
Rated Current: 1.2A/phase
Winding Resistance: 8.8¡À10% ¦Ø/phase
Winding Inductance: 3.5 mH¡À20 %( 1kHz 1V rms)
Holding torque: 185mN.m Min (Bipolar)
insulation resistance£º100M¦Ø Min (DC 500V)
Insulation class: B (130¡ã C)
Rotor torque: 31g.cm 2
Weight: 190g
The powerful stepper motors are mainly used for holding or positioning applications, as for example plotters, printers, moving lights or mirror mounts etc. A stepper motor (or step motor) divides a full rotation into a number of discrete steps.
The motor's position can then be commanded to move and hold at one of these steps. Once stopped, the stepper holds the load steady with a holding torque.
This is a NEMA 14 stepper motor. The NEMA 14 is smaller and generally lighter than for example a NEMA 17, however, its size is not an indication of its power.
Features:
1. Inexpensive, as the rotor contains no winding slip rings or commutator.
2. Easy to position moves in steps based on pulses supplied to the stator windings.
3. Direction of rotation is changed by reversing the pulse sequence.
4. Speed control through frequency of pulses or pulse rate Applications: Computer-controlled stepper motors are mainly used for holding or positioning applications, as for example plotters, printers, moving lights or mirror mounts.
Specifications£º
2 Phases
Step Angle: 1.8¡ã
Rated Voltage: 3.6V DC
Rated Current: 1.2A/phase
Winding Resistance: 8.8¡À10% ¦Ø/phase
Winding Inductance: 3.5 mH¡À20 %( 1kHz 1V rms)
Holding torque: 185mN.m Min (Bipolar)
insulation resistance£º100M¦Ø Min (DC 500V)
Insulation class: B (130¡ã C)
Rotor torque: 31g.cm 2
Weight: 190g
RETURNS POLICY
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Morbi ut blandit risus. Donec mollis nec tellus et rutrum. Orci varius natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus. Ut consequat quam a purus faucibus scelerisque. Mauris ac dui ante. Pellentesque congue porttitor tempus. Donec sodales dapibus urna sed dictum. Duis congue posuere libero, a aliquam est porta quis.
Donec ullamcorper magna enim, vitae fermentum turpis elementum quis. Interdum et malesuada fames ac ante ipsum primis in faucibus.
Curabitur vel sem mi. Proin in lobortis ipsum. Aliquam rutrum tempor ex ac rutrum. Maecenas nunc nulla, placerat at eleifend in, viverra etos sem. Nam sagittis lacus metus, dignissim blandit magna euismod eget. Suspendisse a nisl lacus. Phasellus eget augue tincidunt, sollicitudin lectus sed, convallis desto. Pellentesque vitae dui lacinia, venenatis erat sit amet, fringilla felis. Nullam maximus nisi nec mi facilisis.
SHIPPING
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Morbi ut blandit risus. Donec mollis nec tellus et rutrum. Orci varius natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus. Ut consequat quam a purus faucibus scelerisque. Mauris ac dui ante. Pellentesque congue porttitor tempus. Donec sodales dapibus urna sed dictum. Duis congue posuere libero, a aliquam est porta quis.
Donec ullamcorper magna enim, vitae fermentum turpis elementum quis. Interdum et malesuada fames ac ante ipsum primis in faucibus.
Curabitur vel sem mi. Proin in lobortis ipsum. Aliquam rutrum tempor ex ac rutrum. Maecenas nunc nulla, placerat at eleifend in, viverra etos sem. Nam sagittis lacus metus, dignissim blandit magna euismod eget. Suspendisse a nisl lacus. Phasellus eget augue tincidunt, sollicitudin lectus sed, convallis desto. Pellentesque vitae dui lacinia, venenatis erat sit amet, fringilla felis. Nullam maximus nisi nec mi facilisis.
