China Excellent Performance Hybrid Stepper Motor with Planetary Gearbox – NEMA 2.3″ – 56 mm Square for Scanner Applications with Great quality

Product Description

Product Description

Stepper Motor Description

This bipolar Nema 2.3″ fifty six mm square stepper motor with planetary gearbox is configured with phase angle 1.8° with a measurement of fifty six.4 mm x fifty six.4 mm x 147.3 mm. It has 4 wires for bipolar relationship and each period draws recent 4.twenty A at .fifty V, with bipolar keeping torque two hundred.00 [Ncm] min.

The planetary gearbox has a gear ratio of 1:thirty.

The Ever Elettronica hybrid stepper motors with gearboxes are excellent for textiles, health-related and laboratory gear and in the packaging, laser chopping and scanner purposes.
 

Product Parameters

Motor Complex Specification

Flange

NEMA 2.3″ – 56 mm sq.

Bipolar holding torque

two hundred.00 [Ncm] min.

Step angle

one.8 [°] ± 5 [%]

Passi giro

200

Rated voltage

.fifty [Volt]

Rated present

four.20 [A/ph]

Stage resistance

fifteen [Ohm] ± 10 [%]

Section inductance

twenty [mH] ± 20 [%]

Rotor inertia

480 [g.cm²]

Wires amount

4 wires for bipolar link

Wires output

Direct wires output

Ambient temperature

-twenty [°C] ~ +forty [°C]

Temperature rise

80 [K]

Humidity

fifteen [%] ~ ninety [%]

Insulation resistance

100 [Mohm] min.

Dielectric strength

500 [VAC 1 Minute]

Insulation class

Course B, 130°

Course protection

IP30

Max. shaft radial load

seventy five [N]

Max. shaft axial load

15 [N]

Depth

77.thirty [mm]

Shaft

Double shaft

Dimensions H x L x W

56.4 [mm] x 56.4 [mm] x 147.3 [mm]

Weight

two.1 [Kg.]

Gearbox variety

Planetary

Lubrication

grease (long lasting lubrification)

Stacks amount

two

Gearbox reduction ratio

1 : 30

Max output torque

60. [Nm]

Operational temperature

-30 [°C] ~ +40 [°C]

Fat

.7 [Kg.]

Mechanical Drawing (in mm)

 

Nema Model Length Step Angle Current/Phase Resistance/Period Inductance/Phase Holding Torque # of Qualified prospects Rotor Inertia
(L)mm ( °) A Ω mH N.M. No. g.cm2
Open up LOOP Action MOTOR
Nema8 EW08-210H 37.eight one.80  one.00  four.30  1.70  .04min four.00  two.90 
Nema11 EW11-110 30.one 1.80  1.00  four.50  3.80  .08min four.00  5.00 
EW11-110H 30.1 1.80  1.00  4.50  4.00  .07min four.00  nine.00 
EW11-310 50.four one.80  one.00  two.50  two.20  .14min 4.00  twenty.00 
EW11-310D fifty.4 1.80  1.00  2.50  2.20  .14min 4.00  twenty.00 
Nema14 EW14-one hundred ten 25.five one.80  1.00  3.30  three.80  .17min four.00  25.00 
EW14-210 40.5 one.80  1.00  four.00  6.10  .2min four.00  25.00 
Nema17 EW17-220 33.seven 1.80  two.00  .70  one.40  .3min 4.00  40.00 
EW17-320 39.2 one.80  2.00  one.00  1.80  .45min 4.00  sixty.00 
EW17-320D 39.two one.80  two.00  1.00  1.80  .45min four.00  60.00 
EW17-420 47.two one.80  2.00  1.00  two.00  .56min four.00  eighty.00 
EW17-420D 47.two 1.80  two.00  1.00  two.00  .56min 4.00  80.00 
EW17-420M 80.one 1.80  two.00  1.35  3.20  .48min 4.00  seventy seven.00 
EW17-520 sixty one.80  two.00  one.35  two.90  .70min four.00  one hundred fifteen.00 
EW17-520M ninety nine.one 1.80  two.00  1.77  four.00  .72min 4.00  one hundred ten.00 
Nema23 EW23-140 forty one.nine 1.80  4.00  .37  one.00  .70min four.00  170.00 
EW23-240 52.nine 1.80  4.00  .45  1.70  one.25min 4.00  290.00 
EW23-240D 52.9 1.80  4.00  .45  one.70  one.25min four.00  290.00 
EW23-240M 95.five 1.80  four.00  .44  1.40  one.20min 4.00  480.00 
EW23-340 76.4 1.80  4.00  .50  one.80  two.00min four.00  520.00 
EW23-340D seventy six.four 1.80  four.00  .50  1.80  2.00min four.00  520.00 
EW23-350M 116.five 1.80  five.00  .40  one.80  two.00min 4.00  480.00 
Nema24 EW24-240 54.five one.80  four.00  .45  one.20  1.40min four.00  450.00 
EW24-440 eighty five.five 1.80  4.00  .80  three.00  three.00min 4.00  900.00 
EW24-450M 125.six one.80  five.00  .42  one.80  3.00min four.00  900.00 
Nema34 EW34-260 79.five one.80  six.00  .38  two.80  four.5min four.00  1900.00 
EW34-360 ninety nine one.80  6.00  .47  3.90  six.00min 4.00  2700.00 
EW34-460M one hundred fifty five.three 1.80  6.00  .54  5.00  eight.20min four.00  3800.00 
EW34-560 129 1.80  six.00  .64  six.00  9.00min 4.00  4000.00 
EW34-660 159.5 one.80  6.00  .72  seven.30  12min. 4.00  5000.00 
EH34-530 129 one.80  three.60  1.06  ten.00  seven.1min 4.00  4000.00 

Business Profile

     Taking gain of the proactive local climate of the 70s, in 1977 the engineer Felice Caldi, who had constantly been a passionate builder and inventor, established an revolutionary business, functioning internationally in the field of application for industrial machinery.
Given that then, this tiny firm based in Lodi has appreciated steady successes connected to modern merchandise and reducing edge “very best in course” technologies in the discipline of industrial automation, as confirmed by the several patents submitted for the duration of the a long time as nicely as the essential awards presented to it by the Chamber of Commerce of Milan and of the Lombardy Area.
    The organization, many thanks to its successes more than time, has developed noticeably, growing its revenue network abroad and opening one more company in China to handle the income circulation in the Asian marketplace. 
    Ever attentive to the dynamics and requirements of the automation market place, continually evolving and regularly in search of technological innovation, Ever Elettronica has been CZPT to respond to all the technological difficulties that have arisen more than the years, offering remedies CZPT to make its customer’s equipment more and a lot more performing and highly competitive.
    And it is exactly to underline the significance and the uniqueness of every single single consumer that we style, with treatment and determination, hugely customised automation solutions, that are CZPT to completely meet up with any ask for, equally concerning software program and components.
    Our team of mechatronic engineers can in fact customise the software with specifically created firmware, and it can also adapt the motor by customising, for example, the length of the cables or the diameter of the crankshaft and the IP safety degree, all strictly based mostly on the customer’s specialized requirements.


/ Piece
|
1 Piece

(Min. Order)

###

Application: Medical and Laboratory Equipment
Speed: Low Speed
Number of Stator: Two-Phase
Excitation Mode: HB-Hybrid
Function: Driving
Number of Poles: 2

###

Customization:
Available

|


###

Flange
NEMA 2.3" – 56 mm square
Bipolar holding torque
200.00 [Ncm] min.
Step angle
1.8 [°] ± 5 [%]
Passi giro
200
Rated voltage
0.50 [Volt]
Rated current
4.20 [A/ph]
Phase resistance
15 [Ohm] ± 10 [%]
Phase inductance
20 [mH] ± 20 [%]
Rotor inertia
480 [g.cm²]
Wires number
4 wires for bipolar connection
Wires output
Lead wires output
Ambient temperature
-20 [°C] ~ +40 [°C]
Temperature rise
80 [K]
Humidity
15 [%] ~ 90 [%]
Insulation resistance
100 [Mohm] min.
Dielectric strength
500 [VAC 1 Minute]
Insulation class
Class B, 130°
Class protection
IP30
Max. shaft radial load
75 [N]
Max. shaft axial load
15 [N]
Depth
77.30 [mm]
Shaft
Double shaft
Dimensions H x L x W
56.4 [mm] x 56.4 [mm] x 147.3 [mm]
Weight
2.1 [Kg.]
Gearbox type
Planetary
Lubrication
grease (permanent lubrification)
Stacks number
2
Gearbox reduction ratio
1 : 30
Max output torque
60.0 [Nm]
Operational temperature
-30 [°C] ~ +40 [°C]
Weight
0.7 [Kg.]

###

Nema Model Length Step Angle Current/Phase Resistance/Phase Inductance/Phase Holding Torque # of Leads Rotor Inertia
(L)mm ( °) A Ω mH N.M. No. g.cm2
OPEN LOOP STEP MOTOR
Nema8 EW08-210H 37.8 1.80  1.00  4.30  1.70  0.04min 4.00  2.90 
Nema11 EW11-110 30.1 1.80  1.00  4.50  3.80  0.08min 4.00  5.00 
EW11-110H 30.1 1.80  1.00  4.50  4.00  0.07min 4.00  9.00 
EW11-310 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
EW11-310D 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
Nema14 EW14-110 25.5 1.80  1.00  3.30  3.80  0.17min 4.00  25.00 
EW14-210 40.5 1.80  1.00  4.00  6.10  0.2min 4.00  25.00 
Nema17 EW17-220 33.7 1.80  2.00  0.70  1.40  0.3min 4.00  40.00 
EW17-320 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-320D 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-420 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420D 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420M 80.1 1.80  2.00  1.35  3.20  0.48min 4.00  77.00 
EW17-520 60 1.80  2.00  1.35  2.90  0.70min 4.00  115.00 
EW17-520M 99.1 1.80  2.00  1.77  4.00  0.72min 4.00  110.00 
Nema23 EW23-140 41.9 1.80  4.00  0.37  1.00  0.70min 4.00  170.00 
EW23-240 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240D 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240M 95.5 1.80  4.00  0.44  1.40  1.20min 4.00  480.00 
EW23-340 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-340D 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-350M 116.5 1.80  5.00  0.40  1.80  2.00min 4.00  480.00 
Nema24 EW24-240 54.5 1.80  4.00  0.45  1.20  1.40min 4.00  450.00 
EW24-440 85.5 1.80  4.00  0.80  3.00  3.00min 4.00  900.00 
EW24-450M 125.6 1.80  5.00  0.42  1.80  3.00min 4.00  900.00 
Nema34 EW34-260 79.5 1.80  6.00  0.38  2.80  4.5min 4.00  1900.00 
EW34-360 99 1.80  6.00  0.47  3.90  6.00min 4.00  2700.00 
EW34-460M 155.3 1.80  6.00  0.54  5.00  8.20min 4.00  3800.00 
EW34-560 129 1.80  6.00  0.64  6.00  9.00min 4.00  4000.00 
EW34-660 159.5 1.80  6.00  0.72  7.30  12min. 4.00  5000.00 
EH34-530 129 1.80  3.60  1.06  10.00  7.1min 4.00  4000.00 

/ Piece
|
1 Piece

(Min. Order)

###

Application: Medical and Laboratory Equipment
Speed: Low Speed
Number of Stator: Two-Phase
Excitation Mode: HB-Hybrid
Function: Driving
Number of Poles: 2

###

Customization:
Available

|


###

Flange
NEMA 2.3" – 56 mm square
Bipolar holding torque
200.00 [Ncm] min.
Step angle
1.8 [°] ± 5 [%]
Passi giro
200
Rated voltage
0.50 [Volt]
Rated current
4.20 [A/ph]
Phase resistance
15 [Ohm] ± 10 [%]
Phase inductance
20 [mH] ± 20 [%]
Rotor inertia
480 [g.cm²]
Wires number
4 wires for bipolar connection
Wires output
Lead wires output
Ambient temperature
-20 [°C] ~ +40 [°C]
Temperature rise
80 [K]
Humidity
15 [%] ~ 90 [%]
Insulation resistance
100 [Mohm] min.
Dielectric strength
500 [VAC 1 Minute]
Insulation class
Class B, 130°
Class protection
IP30
Max. shaft radial load
75 [N]
Max. shaft axial load
15 [N]
Depth
77.30 [mm]
Shaft
Double shaft
Dimensions H x L x W
56.4 [mm] x 56.4 [mm] x 147.3 [mm]
Weight
2.1 [Kg.]
Gearbox type
Planetary
Lubrication
grease (permanent lubrification)
Stacks number
2
Gearbox reduction ratio
1 : 30
Max output torque
60.0 [Nm]
Operational temperature
-30 [°C] ~ +40 [°C]
Weight
0.7 [Kg.]

###

Nema Model Length Step Angle Current/Phase Resistance/Phase Inductance/Phase Holding Torque # of Leads Rotor Inertia
(L)mm ( °) A Ω mH N.M. No. g.cm2
OPEN LOOP STEP MOTOR
Nema8 EW08-210H 37.8 1.80  1.00  4.30  1.70  0.04min 4.00  2.90 
Nema11 EW11-110 30.1 1.80  1.00  4.50  3.80  0.08min 4.00  5.00 
EW11-110H 30.1 1.80  1.00  4.50  4.00  0.07min 4.00  9.00 
EW11-310 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
EW11-310D 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
Nema14 EW14-110 25.5 1.80  1.00  3.30  3.80  0.17min 4.00  25.00 
EW14-210 40.5 1.80  1.00  4.00  6.10  0.2min 4.00  25.00 
Nema17 EW17-220 33.7 1.80  2.00  0.70  1.40  0.3min 4.00  40.00 
EW17-320 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-320D 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-420 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420D 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420M 80.1 1.80  2.00  1.35  3.20  0.48min 4.00  77.00 
EW17-520 60 1.80  2.00  1.35  2.90  0.70min 4.00  115.00 
EW17-520M 99.1 1.80  2.00  1.77  4.00  0.72min 4.00  110.00 
Nema23 EW23-140 41.9 1.80  4.00  0.37  1.00  0.70min 4.00  170.00 
EW23-240 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240D 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240M 95.5 1.80  4.00  0.44  1.40  1.20min 4.00  480.00 
EW23-340 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-340D 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-350M 116.5 1.80  5.00  0.40  1.80  2.00min 4.00  480.00 
Nema24 EW24-240 54.5 1.80  4.00  0.45  1.20  1.40min 4.00  450.00 
EW24-440 85.5 1.80  4.00  0.80  3.00  3.00min 4.00  900.00 
EW24-450M 125.6 1.80  5.00  0.42  1.80  3.00min 4.00  900.00 
Nema34 EW34-260 79.5 1.80  6.00  0.38  2.80  4.5min 4.00  1900.00 
EW34-360 99 1.80  6.00  0.47  3.90  6.00min 4.00  2700.00 
EW34-460M 155.3 1.80  6.00  0.54  5.00  8.20min 4.00  3800.00 
EW34-560 129 1.80  6.00  0.64  6.00  9.00min 4.00  4000.00 
EW34-660 159.5 1.80  6.00  0.72  7.30  12min. 4.00  5000.00 
EH34-530 129 1.80  3.60  1.06  10.00  7.1min 4.00  4000.00 

How to Maximize Gear Motor Reliability

A gearmotor is a mechanical device used to transmit torque from one location to another. As its name implies, it is designed to rotate one object relative to another. Its main use is to transmit torque from one point to another. The most common types of gear motors are: worm, spur, and helical. Each of these has specific functions and can be used for a variety of applications. Reliability is also an important factor to consider when choosing a gearmotor.

Applications of a gear motor

Despite its small size, a gear motor has many applications. These include heavy machinery lifts, hospital beds, and power recliners. It is also found in many everyday products, such as electromechanical clocks and cake mixers. Its versatility allows it to produce a high force from a small electric motor. Here are some of its most common uses. You can also find a gear motor in many household appliances and vehicles.
Before selecting a gearmotor, consider the specifications of the machine you need to power. You should consider its size, weight, and ambient conditions, which include temperature regimes, noise levels, and contaminating sources. You should also take into account the envelope size, mounting method, and orientation. Other considerations include the expected service life, maintenance scope, and control type. The most suitable gearmotor for your specific application will be one that can handle the load.
The motor and gearbox types can be mixed and matched, depending on the application. A three-phase asynchronous motor and a permanent magnet synchronous servomotor are common choices for these devices. The type of motor and gearbox combination you choose will determine the power supply, the efficiency of the motor, and cost. Once you understand the application, it will be easy to integrate a gear motor into your system.
When used in industrial applications, gear motors are effective for reducing the speed of rotating shafts. One third of all industrial electric motor systems use gearing to reduce output speed. They can also save energy, which benefits the workers who operate them. In fact, industrial electric motor systems are responsible for nearly one-tenth of the carbon dioxide emissions that are produced by fossil-fueled power plants. Fortunately, efficiency and reliability are just two of the benefits of using gear motors.
Motor

Types

Before choosing a gearmotor, it is important to understand its specifications. The key factors to consider are the size, weight, and noise level of the gearmotor. Additionally, the power, torque, and speed of the motor are important factors. Specifications are also important for its operating environment, such as the temperature and the level of ingress protection. Finally, it is important to determine its duty cycle to ensure it will operate properly. To choose a suitable gearmotor, consult the specifications of your application.
Some common applications of gearmotors include packaging equipment, conveyors, and material handling applications. They also come with several advantages, including their ability to control both position and speed. This makes them ideal for applications where speed and positioning are crucial. Parallel-shaft gear units, for instance, are commonly used in conveyors, material handling, and steel mills. They are also able to operate in high-precision manufacturing. For these reasons, they are the most popular type of gearmotor.
There are three common types of gears. Helical gears have teeth that are inclined at 90 degrees to the axis of rotation, making them more efficient. Helicoidal gears, meanwhile, have a lower noise level and are therefore preferred for applications requiring high torque. Worm gears are preferred for applications where torque and speed reduction are important, and worm gears are suited for those conditions. They also have advantages over spur gears and worm gears.
The application of a gear motor is almost limitless. From heavy machine lifts to hospital bed lifting mechanisms, gear motors make it possible to use a small rotor at a high speed. Their lightweight construction also allows them to move heavy loads, such as cranes, but they do so slowly. Gear motors are an excellent choice in applications where space is an issue. A few common applications are discussed below. When choosing a gear motor, remember to choose the best size and application for your needs.
Motor

Functions

A gearmotor’s speed is directly proportional to the gear ratio. By dividing the input speed by the gear ratio, the output speed can be determined. Gear ratios above one reduce speed, while gear ratios below one increase speed. Efficiency of a gearmotor is defined as its ability to transfer energy through its gearbox. This efficiency factor takes into account losses from friction and slippage. Most gearmotor manufacturers will provide this curve upon request.
There are several factors that must be considered when choosing a gearmotor. First, the application must meet the desired speed and torque. Second, the output shaft must rotate in the desired direction. Third, the load must be properly matched to the gearmotor. Lastly, the operating environment must be considered, including the ambient temperature and the level of protection. These details will help you find the perfect gearmotor. You can compare various types of gear motors on this page and choose the one that will meet your needs.
The micro-DC gear motor is one of the most versatile types of geared motors. These motors are widely used in intelligent automobiles, robotics, logistics, and the smart city. Other applications include precision instruments, personal care tools, and cameras. They are also commonly found in high-end automotives and are used in smart cities. They also find use in many fields including outdoor adventure equipment, photography equipment, and electronics. The benefits of micro-DC gear motors are many.
The main function of a gear motor is to reduce the speed of a rotating shaft. Small electric clocks, for example, use a synchronous motor with a 1,200-rpm output speed to drive the hour, minute, and second hands. While the motor is small, the force it exerts is enormous, so it’s crucial to ensure that the motor isn’t over-powered. There is a high ratio between the input torque and the output torque.

Reliability

The reliability of a gear motor is dependent on a number of factors, including material quality, machining accuracy, and operating conditions. Gear failure is often more serious than surface fatigue, and can compromise personal safety. Reliability is also affected by the conditions of installation, assembly, and usage. The following sections provide an overview of some important factors that impact gear motor reliability. This article provides some tips to maximize gear motor reliability.
First and foremost, make sure you’re buying from a reliable supplier. Gear motors are expensive, and there is no standardization of the sizes. If a gear breaks, replacing it can take a lot of time. In the long run, reliability wins over anything. But this doesn’t mean that you can ignore the importance of gears – the quality of a gear motor is more important than how long it lasts.
Motor

Cost

The cost of a gear motor is relatively low compared to that of other forms of electric motors. This type of motor is commonly used in money counters, printers, smart homes, and automation equipment. A DC gear motor is also commonly used in automatic window machines, glass curtain walls, and banknote vending machines. There are many advantages to using a gear motor. Here are a few of them. Read on to learn more about them.
Speed management is another benefit of a gear motor. The motors tend to have less wear and tear than other motors, which means less frequent replacements. Additionally, many gear motors are easy to install and require less maintenance, which also helps reduce the overall cost of ownership. Lastly, because noise is a common concern for many electronic OEMs, DC gear motors are often quieter than their counterparts. For these reasons, they are often used in industrial settings.
Another advantage of an electric gear motor is its size and power. They are typically designed for 12V, 24V, and 48V voltages and 200-watt power. Their rated speed is 3000 rpm and their torque is 0.64 Nm. They are also more reliable than their AC counterparts and are ideal for many industrial applications. They have a high ratio of three to two, which makes them ideal for a variety of applications.
A gear motor is an electric motor that is coupled with a gear train. It uses AC or DC power, and is often called a gear reducer. The main purpose of these gear reducers is to multiply torque, while maintaining compact size and overall efficiency. However, the efficiency of a gear motor is also affected by ambient temperature and lubricants. If the gear motor is installed in the wrong location, it may be ineffective and result in premature failure of the machine.

China Excellent Performance Hybrid Stepper Motor with Planetary Gearbox - NEMA 2.3China Excellent Performance Hybrid Stepper Motor with Planetary Gearbox - NEMA 2.3
editor by CX 2023-03-27