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TB2005: What Is It and Why You Need It

TB2005 is a piezoelectric tube scanner that can be used for various applications such as scanning probe microscopy, nanomanipulation, optical fiber alignment, and laser scanning. It is a thin cylinder of radially poled piezoelectric material with four external electrodes and a solid or quadrant internal electrode. When a voltage is applied to one of the external electrodes, the actuator wall expands which causes a vertical contraction and a large lateral deflection of the tube tip.

tb2005

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TB2005 has a length of 20 mm, a diameter of 5.0 mm, a thickness of 0.66 mm, and a maximum voltage of +/- 264 V. It can achieve a scan range of 15 um and weighs only 0.10 kg. It is easy to mount and wire and can be built into a scanner with other components such as position sensors, feedback controllers, and mechanical stages. TB2005 is manufactured by PiezoDrive, a leading company in piezoelectric actuators and amplifiers.

If you are looking for a high-performance, low-cost, and versatile piezoelectric tube scanner, TB2005 is the perfect choice for you. You can order it online from PiezoDrive's website for only $USD 104.00. You can also find other models of tube scanners with different sizes and ranges to suit your needs. PiezoDrive offers fast shipping, secure payment, and excellent customer service.

Don't miss this opportunity to get TB2005 for your project. It is a powerful tool that can help you achieve precise and accurate results in various fields of science and engineering. Order it now and enjoy the benefits of piezoelectric tube scanning.Piezoelectric Tube Scanning: How It Works and What It Can Do

Piezoelectric tube scanning is a technique that uses piezoelectric actuators to move a probe or a sample in a controlled manner. Piezoelectric actuators are devices that convert electrical energy into mechanical energy and vice versa. They can produce large displacements with high resolution and speed, making them ideal for scanning applications.

A piezoelectric tube scanner consists of a piezoelectric tube actuator and a feedback system that monitors and controls the position of the tube tip. The feedback system can be based on capacitive, optical, or strain gauge sensors. The feedback signal is used to adjust the voltage applied to the tube electrodes, which in turn changes the shape and position of the tube. By applying different voltages to different electrodes, the tube can be moved in three dimensions: x, y, and z.

Piezoelectric tube scanning can be used for various purposes such as:

• Scanning probe microscopy: This is a technique that uses a sharp probe to scan the surface of a sample and measure its physical or chemical properties. Examples of scanning probe microscopy include atomic force microscopy (AFM), scanning tunneling microscopy (STM), and near-field scanning optical microscopy (NSOM).

• Nanomanipulation: This is a technique that uses a probe to manipulate nanoscale objects such as molecules, atoms, or nanoparticles. Examples of nanomanipulation include nanolithography, nanosurgery, and nanorobotics.

• Optical fiber alignment: This is a technique that uses a probe to align optical fibers or waveguides for optical communication or sensing. Examples of optical fiber alignment include fiber splicing, fiber coupling, and fiber Bragg grating writing.

• Laser scanning: This is a technique that uses a probe to deflect or modulate a laser beam for imaging or processing. Examples of laser scanning include confocal microscopy, laser Doppler velocimetry, and laser engraving.

Piezoelectric tube scanning has many advantages over other methods of scanning such as electromagnetic or electrostatic actuators. Some of these advantages are:

• High resolution: Piezoelectric tube scanners can achieve nanometer or sub-nanometer resolution due to their high stiffness and low hysteresis.

• High speed: Piezoelectric tube scanners can operate at high frequencies up to several kilohertz due to their low mass and inertia.

• Low power consumption: Piezoelectric tube scanners only consume power when they change their position, not when they hold their position. This reduces the heat generation and the power consumption.

• Wide operating range: Piezoelectric tube scanners can work in various environments such as vacuum, air, liquid, or magnetic fields without affecting their performance.

• Simple design: Piezoelectric tube scanners have a simple structure with few moving parts, which makes them easy to fabricate and integrate.

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