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X-Axis（Motor, Motor Characteristics：2-Phase Stepping Motor - Standard）

X-Axis products in the Automation Components category. Specified by Motor, Motor Characteristics 2-Phase Stepping Motor - Standard. There are around 1 items of X-Axis products available and the specifications can easily be compared. Search and select detailed specifications of parts for your machine with free CAD downloads. X-Axis offers a wide selection, on time delivery free of charge and no minimum order with a consulting team available.

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Specification/Dimensions

Load Capacity (Range)(N)
- 5~30
- 30.1~50
- 50.1~100
- 100.1~
Clear

Stroke (X Distance)(mm)
±7.5

±10

±12.5

13

15

±15

20

30

50

75

100

150

200

300
Drawing

Clear

Minimum Resolution(µm)
1

2

4

5
Selecting a high resolution type will further halve the minimum resolution.
Clear

Motor, Motor Characteristics
- 5-Phase Stepping Motor - Standard
- 5-Phase Stepping Motor - High Torque
- 5-Phase Stepping Motor - High Resolution
- 5-Phase Stepping Motor with Brake
- α-Step Motor
- 2-Phase Stepping Motor - Standard
Clear

Travel Guide
- Cross Roller
- Linear Ball
Clear

Table Size (Length) L(mm)
30

40

50

60

70

80

100

110
Drawing

Clear

Type
- X-Axis Stage
Clear

Table Size (Width) W(mm)
30

40

50

60

70

80
Drawing

Clear

Table Material
- Steel
- Stainless Steel
- Aluminum
- SCM420 Alloy Steel Equivalent
Clear

Feeding Method
- Ball Screw
Clear

Sensor
- Limit
- Limit (Home can be configured optionally.)
- Limit + Home
- Limit + Home + Near Home
Clear

Z-Axis Stage Surface
- Horizontal
Clear

Brand	(1) (1) CHUO PRECISION INDUSTRIAL (0) DPI (0) SURUGA SEIKI (0)
CAD	2D 3D
Days to Ship	All Same day 7 Day(s) or Less 8 Day(s) or Less 10 Day(s) or Less 11 Day(s) or Less Others

1 items

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: 30; 60; 90

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MiSUMi C-VALUE

X-Axis Motorized Positioning Stages

MiSUMi C-VALUE

・ Product Type: X-Axis Motorized Positioning Stages, C-XMBS series.
・ Table size [mm]: 40x40, 60x60, 60x100, 80x80
・ Table movement stroke [mm]: 18, 28, 43, 20
・ Cable length [m]: 2, 4
・ Movement structure: Ball Screw Φ6, Lead 1mm with Linear Ball Guide.
・ Maximum movement speed: 10 mm/sec
・ One-Way Positioning Accuracy: Within 20μm
・ Repetitive Positioning Accuracy: Within ±5.0μm
・ This is an economy item; The price is cheaper than the MISUMI standard product.

From: ฿ 20,185.71
Days to Ship: Same day

Same day


Brand
Product Series
CAD
From
Days to Ship
Specifications
Load Capacity (Range)(N)
Stroke (X Distance)(mm)
Minimum Resolution(µm)
Motor, Motor Characteristics
Travel Guide
Table Size (Length) L(mm)
Type
Table Size (Width) W(mm)
Table Material
Feeding Method
Sensor
Z-Axis Stage Surface

	You can add up to 6 items per a category to the compare list.Compare
Brand	MiSUMi C-VALUE
Product Series	X-Axis Motorized Positioning Stages
CAD	2D / 3D
From	฿ 20,185.71
Days to Ship	Same day
Specifications
Load Capacity (Range)(N)	-
Stroke (X Distance)(mm)	-
Minimum Resolution(µm)	5
Motor, Motor Characteristics	2-Phase Stepping Motor - Standard
Travel Guide	Linear Ball
Table Size (Length) L(mm)	40 ～ 100
Type	-
Table Size (Width) W(mm)	-
Table Material	-
Feeding Method	Ball Screw
Sensor	Limit + Home
Z-Axis Stage Surface	-

Related Categories to X-Axis

FAQ X-Axis stage

Question: What is a motorized X-axis stage?: Answer: A motorized X-axis stage is a device used for precise positioning along a single axis of motion, typically controlled by a motor to achieve desired translations. It can be used in various applications such as microscopy, manufacturing, and scientific research where accurate positioning is crucial.
Question: What should I consider when selecting a motorized X-axis stage?: Answer: When choosing a motorized X-axis stage, consider several key specifications:

Resolution: The smallest incremental motion the stage can make, which determines how finely the stage can adjust its position. This is critical for applications requiring high precision.
Load Capacity: The maximum weight the stage can handle without impacting performance. Ensure the stage can support all intended loads.
Travel Range: The maximum distance the stage can move, which must be adequate for the intended application.
Accuracy and Repeatability: Accuracy describes how closely the stage can achieve a targeted position, while repeatability refers to the stage's ability to return to a specific position over multiple cycles. High repeatability is crucial for tasks requiring consistent positioning.
Question: How do I ensure the stage meets my application needs?: Answer: Understanding the environment and load requirements is essential. Factors such as operational environment, load stress, and desired precision impact the stage's performance. Reviewing the stage’s specifications and how they align with your application's needs is recommended.
Question: What are the differences between stepper motors and servo motors in these stages?: Answer: Stepper Motors: Typically more cost-effective and characterized by high torque at lower speeds. Modern stepper motors equipped with microstepping drivers can also perform better at higher speeds, offering smoother motion and enhanced control.
Servo Motors: More expensive but provide continuous motion with high precision and consistent torque across their speed range. They include feedback systems for exact control, making them ideal for applications that demand precise and variable speed control.
Question: How do environmental factors affect a motorized stage?: Answer: Environmental factors such as temperature fluctuations, vibrations, and mechanical load can impact the performance of a motorized stage. For instance, temperature can cause drift, and vibrations may affect the resolution and accuracy. It’s important to account for these factors during the selection and operational process.
Question: How can I verify the stage's performance specifications?: Answer: Check the documentation and test results provided by the manufacturer. If specific performance metrics are critical to your application, it may be useful to conduct your own tests under the actual operating conditions to ensure the stage meets your requirements.
Question: What are the differences between manual and motorized stages?: Answer: Manual and motorized stages both serve the primary function of adjusting the position of an object in microscopic or precision manufacturing processes. However, they differ significantly in their operation, control, and application suitability.

Manual Stages:
Operation: Manual stages require physical adjustment by the user, often using knobs or screws.
Control: These stages do not involve electronic control systems. The precision of movement is directly dependent on the operator’s skill and the mechanical design, such as micrometer heads or vernier scales.
Cost: Generally less expensive than motorized stages due to their simpler design and absence of electronic components.
Applications: Suitable for applications where fine precision is not strictly necessary, or where manual adjustment provides adequate control. They are commonly used in educational settings or basic laboratory work.

Motorized Stages:
Operation: These stages are operated via motors, which can be controlled remotely, often through computer interfaces. This allows for precise and repeatable positioning without direct manual intervention.
Control: Motorized stages often incorporate feedback systems (like encoders) to precisely control and monitor position. They can execute complex, pre-programmed movements and are capable of very fine resolution.
Cost: More expensive due to the inclusion of motors, control systems, and often, sophisticated software.
Applications: Ideal for applications requiring high precision and repeatability, such as in automated manufacturing, advanced research, or situations where manual adjustment could introduce variability or is impractical.

Performance Differences:
Precision and Accuracy: Motorized stages typically offer greater precision and accuracy, especially with feedback systems that correct any positional errors in real-time.
Speed and Efficiency: Motorized stages can adjust positions much faster than manual stages, making them more suitable for high-throughput environments or testing scenarios where time is a factor.
Ease of Use: Although motorized stages require initial setup and programming, they can be more user-friendly in repetitive or complex tasks since the positioning can be controlled via software.

In summary, the choice between manual and motorized stages should be guided by the specific requirements of your application, including the need for precision, speed, and automation versus cost and simplicity.