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Products / Opto-Mechanics /Motorized Piezo Stage(high-precision) /Piezo Nano Linear Stage /

Piezo Nano Linear Stage

Overviews Selection Guide Specification Working Principle Order Now Specification Working Principle Order Now

Piezo Nano Linear Stage are precision motion platforms based on piezoelectric ceramics as the driving source, combined with flexure hinge mechanisms to achieve multi-dimensional precision movement up to six axes. Driving methods include direct-drive mechanisms and amplified mechanisms. The motion range can reach the millimeter level, featuring a compact size, zero friction, and rapid response. By adding high-precision sensors, closed-loop operation can be further realized, achieving nanometer-level positioning accuracy and resolution.

SIMTRUM provides a series of nanoscale piezoelectric linear stages, including X-axis, Z-axis, XY-axis, XZ-axis, and XYZ-axis. These are suitable for various application scenarios such as biotechnology, precision control, and surface structural analysis. Additionally, select models support vacuum and non-magnetic versions.

Features

Nanoscale high resolution and positioning accuracy
Millisecond-level fast response speed
Closed-loop control with high repeatability positioning accuracy
Frictionless flexure hinge guiding structure

Applications

Scanning/Confocal microscopy
Nano-manipulation and nanoimprinting
Laser interference and optical path adjustment
CCD image processing
Biotechnology/AFM (Atomic Force Microscopy)
Optical communication and precision metrology

Piezoelectric linear translation stage

Piezoelectric Linear Translation Stage

The following chart presents the basic coverage data of different series of piezoelectric nano linear translation stages provided by SIMTRUM. For detailed specifications, please refer to the Specifications page for further inquiry according to your requirements

Series	DOF	Travel Range(μm)	Resolution(nm)	Repeatability(%F.S.)	Linearity(%F.S.)	Resonant Freq.(kHz)	Load Capacity(kg)
X-axis Piezo Linear Stage	X	2.4-250	Open: 0.1-2 / Closed: 0.5-7	0.01-0.25	0.05-0.5	0.3-12	Horiz: 0.5-10 / Vert: 0.3-5
Z-axis Piezo Linear Stage	Z	6.8-1000	Open: 0.1-4 / Closed: 0.2-35	0.02-0.5	0.05-0.5	0.12-2.5	Horiz: 0.5-2.5 / Vert: 0.02-1.5
XY-axis Piezo Linear Stage	XY	6.8-200	Open: 0.1-0.5 / Closed: 0.2-10	0.05-0.25	0.1-0.4	0.6-2.5	Horiz: 0.5-8 / Vert: 0.05-0.5
XZ-axis Piezo Linear Stage	XZ	6.8-430	Open: 0.1-2 / Closed: 0.2-15	0.025-0.25	0.07-0.4	0.155-2.5	Horiz: 0.5-80 / Vert: 0.05-10
XYZ-axis Piezo Linear Stage	XYZ	6.8-500	Open: 0.1-1.5 / Closed: 0.2-18	0.006-0.25	0.007-0.4	0.08-1.2	Horiz: 0.4-1 / Vert: 0.02-0.5
Special Scenario Linear Stage	X/Z/XYZ	8-500	Open: 0.1-7 / Closed: 0.5-18	0.01-0.15	0.01-0.5	0.08-3.3	Horiz: 5-80 / Vert: 0.1-5

We have classified all products according to their axis direction and axis number.

For further selection, please refer to the following key parameters based on your actual requirements:

Maximum Travel

The first parameter listed for each series is the maximum travel achievable by the product. Select a product whose travel range fully covers your application requirements. The maximum travel is measured at the maximum driving voltage. For reliable long-term operation, please refer to the corresponding product page for recommended driving voltages and their corresponding travel ranges.

Resolution

The second parameter listed for each series is the product resolution. Resolution here refers to the minimum command increment for controlling the stage movement. For applications requiring repetitive positioning, closed-loop products are recommended, and the closed-loop linearity and closed-loop repeatability data should be referenced.

Maximum Load Capacity

The third parameter listed for each series is the horizontal maximum load capacity of the product. This determines the maximum weight of the sample that the stage can carry. Please select a product with a load capacity greater than your actual requirement. Note that some stage models support vertical and inverted mounting. The load capacity varies under different mounting conditions; please refer to the corresponding product page for detailed specifications.

Closed-loop Requirements

Based on whether sensors are integrated, our products are divided into open-loop and closed-loop versions, marked with the letters K (open-loop) and S (closed-loop) in the product part number respectively.

Open-loop Products
Open-loop stages are not equipped with sensors, eliminating the limitation of feedback frequency on response speed. The no-load step response time can be less than 1 ms. They feature a more compact structure and high cost-performance ratio. Suitable for experiments with low precision requirements but high priority on speed, such as ultrafast laser shutters and initial fiber coupling alignment.
Closed-loop Products
Closed-loop piezo stages are equipped with high-precision sensors for real-time position detection and feedback. When used with our piezo controllers, they enable precise displacement adjustment and nanometer-level positioning control with shorter settling time. Suitable for high-precision and high-repeatability applications, such as AFM scanning and micro-fabrication of surface structures. The built-in sensors include SGS, CAP, and LVDT types:
- a. SGS is the most common closed-loop solution. It is extremely lightweight, has minimal impact on resonant frequency, offers high cost-performance ratio, and can be used in special environments such as vacuum and high magnetic fields.
- b. CAP (capacitive sensor) measures displacement by detecting capacitance changes between plates. It provides higher resolution and linearity, ideal for applications demanding superior accuracy.
- c. LVDT is an electromagnetic sensor that measures displacement via electromagnetic induction. It delivers excellent linearity in long-travel stages.
Our closed-loop products mainly adopt the SGS solution. For customization of other closed-loop schemes, please contact us for further information.

With the information above, you can preliminarily select the required products. To further confirm the optimal model, you may also focus on the following parameters:

No-load Resonant Frequency

This refers to the natural mechanical resonant frequency of the piezo stage without any load, determined only by its structural mass and stiffness. In practice, the operating frequency is usually much lower than the no-load resonant frequency. The resonant frequency decreases significantly as the load increases. This parameter is critical for high-speed imaging applications, as it determines the imaging speed.

Closed-loop Linearity and Repeatability

Closed-loop linearity describes the accuracy between the commanded motion and the actual motion under closed-loop control.
Repeatability refers to the minimum deviation when reaching the same position multiple times.

Linearity reflects the motion accuracy of the product, while repeatability reflects its stability. Linearity is a key reference for quantitative measurement applications, while repeatability is more important for fixed-point detection applications.

This chart provides the parameter distribution of the entire product range based on the Maximum Travel and Resolution of the primary axis. The subplots show the parameter coverage for each series. Please use the specific parameter distribution tables for each series to further locate the required product.

Table 1: Specifications for X Single-axis Piezo Linear Stages

Part Number	DOF	Max. Travel [μm]	Resonant Freq. [kHz]	Resolution [nm]	CL Linearity [%F.S.]	Repeatability [%F.S.]	Load [kg] H/V/R	Drive	Drawing
OM-PTS-T1-2.4-0.5-1-K	X	2.4	12	0.5	-	-	1/1/1	Direct
OM-PTS-T1-100-3-0.8-S	X	100	0.3	3	0.05	0.02	0.8/0.05/0.8	Amplified
OM-PTS-T1-100-1-0.8-K	X	100	0.3	1	-	-	0.8/0.05/0.8	Amplified
OM-PTS-T1-200-5.5-0.5-S	X	200	0.3	5.5	0.05	0.02	0.5/0.03/0.5	Amplified
OM-PTS-T1-200-2-0.5-K	X	200	0.3	2	-	-	0.5/0.03/0.5	Amplified

Table 2: Specifications for Z Single-axis Piezo Linear Stages

Part Number	DOF	Max. Travel [μm]	Resonant Freq. [kHz]	Resolution [nm]	CL Linearity [%F.S.]	Repeatability [%F.S.]	Load [kg] H/V/R	Drive	Drawing
OM-PTS-T2-100-1-0.8-K	Z	100	0.7	1	-	-	0.8/0.05/0.05	Amplified
OM-PTS-T2-100-3-0.8-S	Z	100	0.7	3	0.05	0.02	0.8/0.05/0.05	Amplified
OM-PTS-T2-200-2-0.5-K	Z	200	0.18	2	-	-	0.5/0.03/0.03	Amplified
OM-PTS-T2-200-5.5-0.5-S	Z	200	0.18	5.5	0.15	0.06	0.5/0.03/0.03	Amplified

Table 3: Specifications for XY Dual-axis Piezo Linear Stages

Part Number	DOF	Max. Travel [μm]	Resonant Freq. [kHz]	Resolution [nm]	CL Linearity [%F.S.]	Repeatability [%F.S.]	Load [kg] H/V/R	Drive	Drawing
OM-PTS-T3-30-0.5-5-K	XY	30	X0.9/Y1.6	0.5	-	-	5/0.3/5	Direct
OM-PTS-T3-30-1-5-S	XY	30	X0.9/Y1.6	1	0.1	0.08	5/0.3/5	Direct
OM-PTS-T3-100-1-0.7-K	XY	100	X0.2/Y0.3	1	-	-	0.7/0.03/0.7	Amplified
OM-PTS-T3-100-3-0.7-S	XY	100	X0.2/Y0.3	3	0.1	0.03	0.7/0.03/0.7	Amplified

Table 4: Specifications for XZ Dual-axis Piezo Linear Stages

Part Number	DOF	Max. Travel [μm]	Resonant Freq. [kHz]	Resolution [nm]	CL Linearity [%F.S.]	Repeatability [%F.S.]	Load [kg] H/V/R	Drive	Drawing
OM-PTS-T4-100-1-0.7-K	XZ	100/Axis	X0.2/Z0.3	1	-	-	0.7/0.04/0.05	Amplified
OM-PTS-T4-100-3-0.7-S	XZ	100/Axis	X0.2/Z0.3	3	0.1	0.03	0.7/0.04/0.05	Amplified
OM-PTS-T4-30-0.5-1-K	XZ	30/Axis	X1.5/Z0.8	0.5	-	-	1/0.05/0.1	Direct
OM-PTS-T4-30-1-1-S	XZ	30/Axis	X1.5/Z0.8	1	0.1	0.08	1/0.05/0.1	Direct

Table 5: Specifications for XYZ Triple-axis Piezo Linear Stages

Part Number	DOF	Max. Travel [μm]	Resonant Freq. [kHz]	Resolution [nm]	CL Linearity [%F.S.]	Repeatability [%F.S.]	Load [kg] H/V/R	Drive	Drawing
OM-PTS-T5-30-0.5-1-K	XYZ	30	X0.6/Y0.7/Z1.2	0.5	-	-	1/0.05/0.1	Direct
OM-PTS-T5-30-1-1-S	XYZ	30	X0.6/Y0.7/Z1.2	1	0.15	0.1	1/0.05/0.1	Direct
OM-PTS-T5-100-1-0.6-K	XYZ	100	X0.2/Y0.3/Z0.18	1	-	-	0.6/0.04/0.04	Amplified
OM-PTS-T5-100-3-0.6-S	XYZ	100	X0.2/Y0.3/Z0.18	3	0.1	0.03	0.6/0.04/0.04	Amplified

Principle of Operation

The core driving source of the positioning stage is Piezoelectric Ceramics (stack actuators in some models), which operate based on the "Converse Piezoelectric Effect":

When the controller outputs a specific voltage (typically 0–150V, up to 1000V for high-voltage models), the ceramic produces micro-mechanical deformation proportional to the voltage.
This deformation serves as the primary motive power, which is either directly transmitted or mechanically amplified to achieve the target travel range.
The high-response characteristics (frictionless, zero backlash) ensure millisecond or sub-millisecond response speeds.

Mechanical Structure Selection

Amplified Mechanism Design

Designed for long-travel requirements. Flexure hinges amplify the micro-deformation of the ceramic by several to dozens of times, achieving travel ranges exceeding 100μm.
The integrated flexure hinge structure, optimized via Finite Element Analysis (FEA), eliminates mechanical clearance and friction, ensuring high stiffness and load capacity.

Direct-Drive Mechanism Design

Ideal for ultra-high precision and short-travel scenarios. The ceramic directly drives the platform without amplification, minimizing transmission errors.
Offers exceptional resolution ranging from 0.1nm to 0.5nm.

Open and Closed Loop Control

The system achieves precision control through "Drive-Detect-Feedback" loops or simplified open-loop configurations:

Open-loop Control
- Logic: The controller outputs signals based on preset voltage-displacement curves without real-time position detection.
- Application: Suitable for scenarios with lower requirements for repeatability; resolution is typically 1–5nm.
Closed-loop Control
- Logic: Integrated high-precision sensors detect actual platform displacement in real-time.
- Feedback: Sensors convert displacement into electrical signals for the controller to dynamically adjust voltage, eliminating hysteresis, creep, and thermal drift.

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