Tomorrow's piezoelectric fiber controllercharacteristic

0~2000V/-500~1500V output

Maximum output power 150W

Chassis type: 1-4 channel board card type: 2 or 3 channels

Board type two/three channel output

AMD/AMT is a high voltage controller with dual/triple channel outputs, where one channel has a fixed 500V voltage output and the other channels have variable outputs ranging from 0-2000V voltage.

Chassis style 1-4 channels are optional

The HVA1500/50 series controller includes four specifications and models for 1-4 channels to choose from, with output voltages ranging from -500V to 1500V.

Tomorrow's piezoelectric fiber controller

Fiber optic stretching

When optical fibers are used as optical delay devices, they cause delay in the light pulses passing through the fibers. However, when the fibers are stretched, tensile strain is generated, causing changes in the length of the fibers and resulting in additional pulse delay. The fiber optic stretching mechanism uses the elongation of piezoelectric ceramics to push the distance between external mechanical structures, and the contraction of piezoelectric ceramics causes the mechanical structures to rebound, thereby stretching and winding the optical fibers around the external mechanical structures.

Piezoelectric dispensing valve

Piezoelectric jet dispensing valve is a non-contact jet dispensing valve, and piezoelectric ceramic is a key component of the piezoelectric jet dispensing valve. Through its differential micro motion, the opening and closing of the jet valve is controlled.

Excellent dispensing accuracy and process control. The non-contact dispensing method eliminates Z-axis movement, achieving higher production efficiency and avoiding needle collisions with workpieces, thereby improving the yield rate. The chip tomorrow is equipped with a control system that can drive a 10 μ F load with a step time of 50 μ s.

Widely used for controllable flow and high-speed dispensing operations of various adhesives such as mounting adhesives, conductive silver paste, IC packaging adhesives, bottom filling adhesives, sealants, surface coating adhesives, etc.

In situ testing

In situ testing (micro mechanical testing+visual monitoring): It is a mechanical testing technique that tests the mechanical properties of specimen materials at the nanoscale. It is compatible with integrated scanning electron microscopy (SEM), X-ray diffraction (XRD), Raman spectrometer, atomic force microscopy (AFM), image controller (CCD), metallographic microscope and other imaging equipment to dynamically monitor the micro deformation and damage of materials throughout the process. It deeply reveals the micro mechanical behavior, damage mechanism and the correlation between load and material properties of various materials and their products.

Wing damping

By dynamically adjusting the geometric shape of the wing model profile through piezoelectric bending plates, turbulence development is suppressed, dynamic stall is controlled, and wing aerodynamic gain is achieved, which is an effective method for active flow field control.

Fiber optic sensor

Fiber optic sensors send light from a light source through an optical fiber into a modulator, causing the measured parameters to interact with the light entering the modulation region, thereby changing the optical properties. The function of piezoelectric ceramics is to perform photoelectric interaction, which can change the distance between optical fibers through the deformation of piezoelectric ceramics, thereby changing the intensity, wavelength, frequency, etc. of light.

Piezoelectric pliers

The precise positioning of solder in ultrasonic welding plays a crucial role, and piezoelectric pliers use electrical signals to control the extension or contraction of piezoelectric ceramics to control the clamping and release of the jaws, thereby driving the movement of solder to complete precision welding.