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5V Stepper Motor 28BYJ-48 with ULN2003
₹350.00 Original price was: ₹350.00.₹300.00Current price is: ₹300.00. inc. GST
- Rated voltage: 5V DC
- Reduction Ratio: 64:1
- Step Angle: 5.625° /64
- Frequency: 100Hz
- Self-positioning Torque: >34.3mN.m
- No of phase: 4
- Speed variation ratio: 1/64
- Pull-in torque: 300 gf.cm
- Friction torque: 600-1200 gf.cm
- DC resistance: 50Ω±7% (25°C)
- Insulated resistance: >10MΩ (500V)
- Insulated power: 600VAC/1mA/1s
- Rise in Temperature <40K(120Hz
- Noise <35dB(120Hz,No load,10cm
- Stepper motor with a standard interface, when used directly pluggable.
- Four-phase LED indicator which indicates the status of the stepper motor work.
- Compact size stepper motor perfect for small robotics applications.
This 5V DC 28BYJ-48 Stepper Motor is designed a compact-sized, low cost, and high-quality geared step motor. The 28BYJ-48 Stepper Motor comes with a ULN2003 Stepper Motor Driver IC which controls the stability and reliability of the system. The 28BYJ-48 Stepper Motor is designed as a 5-wire unipolar stepper motor that runs on 5 volts.
ULN2003 is defined as a Mini Stepper Motor Driver consisting of an array of 7 Darlington transistor pairs, each pair is capable of driving loads of up to 500mA and 50V. And used to amplify the control signals from the Arduino, in order to drive the 28BYJ-48 Stepper Motor. When a certain pulse is fed to the ULN2003 stepper driver, it will drive the step motor to a certain angle. The number of stepper motor driver pulses controls the Stepper Motor movement angle. The onboard four LEDs indicate the status of the four control input lines.
The 5V DC 28BYJ-48 Stepper Motor offers a reduction ratio of 64:1, providing a decent torque for its size at speeds of about 15 RPM. During full step mode, each step corresponds to a rotation of 11.25°means there are 32 steps per revolution (360°/11.25° = 32).  power These motors can be positioned accurately, one ‘step’ at a time. The other advantage is that they are relatively precise in their movement and they are quite reliable since the motor does not use contact brushes. They offer high torque even in the stand-still state which is maintained as long as power is supplied to the motor. The only drawback is that they consume power even when they are not moving. Hence power consumption of the motor is around 240mA.

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L297 Stepper Motor Controller IC
NEMA 17 1.6 kgcm
- Operating Voltage : 12~16 V
- Step Angle : 1.8°
- Holding Torque : 1.6 KgCm
- Operating Voltage : 12 - 16 volts
- Supply Current (A) :0.31 Ampere
- Number of Leads : 6
- Frame Size (mm) : 42 x 42
- Shaft Diameter (mm) : 5
- Shaft Length (mm) : 20
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
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- Control of this motor is less costly because of the exclusion of complex control circuitry.
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NEMA 17 5.5 kgcm
- Step Angle : 1.8°
- Holding Torque : 5.5 KgCm
- Operating Voltage : 12 - 16 volts
- Supply Current (A) :1.5 Ampere
- Number of Leads : 6
- Inductance : 5.5 mH
- Resistance : 2.8 Ohms
- Weight (gm) : 363
- Detent Torque (kg-cm) : 2.6
- Frame Size (mm) : 42 x 42
- Inductance Accuracy : ±20%
- Resistance Accuracy : ±10%
- Step Angle Accuracy : ±5%
- Shaft Diameter (mm) : 5
- Shaft Length (mm) : 22
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- Provides good starting, stopping and reversing.
- Control of this motor is less costly because of exclusion of complex control circuitry.
- The speed is proportional to the frequency of the input pulses.
NEMA 23 10.1 kg-cm
- Operating Voltage : 2.3 Volts
- Step Angle : 1.8°
- Holding Torque : 10.1 kg-cm
- Supply Current (A) : 2.8 Ampere/Phase
- Number of Leads : 4
- Inductance : 2.2 mH/Phase
- Resistance : 0.83 Ohm
- Rotor Inertia : 275 gm-cm2
- Weight (gm) : 650
- Detent Torque (kg-cm) : 0.36
- Frame Size (mm) : 57 x 57
- Inductance Accuracy : ±20%
- Resistance Accuracy : ±10%
- Shaft Diameter (mm) : 6.35
- Shaft Length (mm) : 20.6
- Step Angle Accuracy : ±5%
- Comparably more powerful than NEMA17 motors.
- The input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
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Stepper Motor NEMA 34 122 kg-cm Hybrid Bipolar
- Rated Voltage:4.08V
- Phase: 2
- Current/ phase: 4A
- Holding Torque: 122 kg-cm
- Number of Leads: 4
- Step Angle: 1.8°
- Step Angle Accuracy: ±5% (full step, no load)
- Resistance Accuracy: ±10%
- Inductance Accuracy: ±20%
- Frame Size: 85x85mm
- Shaft Length: 37mm
- Shaft Diameter: 13mm
- Long-lasting life
- Low cost for control achieved
- High torque at startup and low speeds
- Ruggedness
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- Can operate in an open-loop control system
- Low maintenance
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Stepper Motor NEMA 34 46 kg-cm Hybrid Bipolar
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- Current/ phase: 4A
- Inductance/ phase: 7.3mH
- Resistance/ phase: 0.87ohms
- Holding Torque: 46 kg-cm
- Â Number of Leads: 4
- Step Angle: 1.8°
- Step Angle Accuracy: ±5% (full step, no load)
- Resistance Accuracy: ±10%
- Inductance Accuracy: ±20%
- Frame Size: 85x85mm
- Shaft Length: 32mm
- Shaft Diameter: 12mm
- They are high torque stepper motors.
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- Provides good starting, stopping and reversing
ULN2003 Driver
- Contains 7 high-voltage and high current Darlington pairs
- Each pair is rated for 50V and 500mA
- Input pins can be triggered by +5V
- All seven Output pins can be connected to gather to drive loads up to (7×500mA) ~3.5A.
- Can be directly controlled by logic devices like Digital Gates PIC etc
- Available in 16-pin DIP, TSSOP, SOIC packages
- Dimensions: 32 x 18 x 11mm (LxWxH)
- Weight: 3 gm

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