Ultrasonic Sensors

The CSDB series ultrasonic fork sensor uses a slot-type detection method, enabling precise positioning of labels in high-speed motion. It is easy to install, requires no alignment, offers high sensitivity, and saves space, making it ideal for labeling machines handling various types of labels.

The integration of ultrasonic radar collision avoidance sensors in Automated Guided Vehicles (AGVs) is an essential safety feature. These sensors utilize ultrasonic technology to monitor the surrounding environment in real-time, effectively avoiding collisions with obstacles. Below, we will detail the working principle, advantages, and practical applications of ultrasonic radar collision avoidance sensors in AGVs.

CSB30 series has a detection range of 350-6000 mm, with switching, analog, and RS485 output options. It can detect the height and position of materials inside the stacker in real-time, providing accurate control signals for the automatic distribution of materials. When the material height reaches the set value, the sensor sends a signal to the control system, which controls the stacker to perform corresponding actions, such as stopping the distribution or adjusting the direction of distribution.

DADISICK's CSB30 series ultrasonic sensors play a crucial role in vehicle identification and position calibration in contactless car wash machines, improving washing precision and safety.

In modern automated production lines, real-time monitoring of roll diameter is crucial for ensuring continuous production. This solution utilizes DADISICK’s CSB18 series ultrasonic sensors, which, through advanced performance and intelligent control systems, continuously and accurately monitor the diameter of various materials—including transparent, glossy, colored, black, and metalized materials—while automating the roll replacement process.

Liquid level measurement technology plays a vital role in numerous fields and industries, ensuring production safety, improving efficiency, and optimizing product quality. This article discusses ultrasonic level sensors as a common solution for liquid level measurement and explains how they work.

This article mainly introduces how to correctly install ultrasonic sensors. Installation requirements include ensuring the correct installation angle, maintaining sufficient sensor spacing to avoid interference, considering environmental factors such as temperature and wind speed, and achieving effective detection in confined spaces by adjusting angles or using accessories. Additionally, using synchronous or asynchronous functions can ensure the measurement accuracy of multiple sensors.

In the automotive industry, reversing assistance systems have become a standard feature in many vehicles, highlighting their undeniable importance. But how exactly do these systems achieve precise distance measurement and issue timely warnings? The key lies in the signal transmission method they use—ultrasonic technology. The principle involves using ultrasonic distance sensors to detect any obstacles in or near the vehicle's reversing path and promptly issue warnings.

This article provides a detailed overview of well-known global ultrasonic sensor manufacturers, covering their brand background and main product series.

This article explains the working principles, types, and applications of ultrasonic sensors, particularly in the medical, industrial, and automotive fields. It details the operation of piezoelectric ultrasonic sensors, discusses key factors in sensor selection, and compares ultrasonic sensors with sonar sensors. The article also provides advice on maintaining sensor performance in unstable environments.

DADISICK's ultrasonic sensors accurately detect the presence of liquid containers, effectively preventing production issues caused by missing containers. The sensors offer high stability and durability, making them suitable for complex environments and ensuring smooth production processes.

DADISICK's CSB12 series ultrasonic sensors, with their compact 12mm design, are ideal for detecting liquid levels in containers, especially those with small openings. These sensors require no auxiliary devices and provide accurate measurements during the filling process, ensuring the liquid level is within the target range before sealing the container.

The principle and application of using ultrasonic technology in robot vacuum cleaner to identify carpets are similar to A-ultrasound diagnosis, which judges the floor material through echoes. Compared to AI target detection, ultrasonic technology is not limited by conditions such as lighting and color.

In the printing industry, ultrasonic double-sheet sensors have become essential for ensuring accurate and efficient paper transport due to their unique penetration and reflection properties. Particularly, DADISICK's CSDA series ultrasonic double-sheet sensors, with their high precision and stability, effectively prevent multiple sheets from entering the printing press simultaneously, thus avoiding waste and damage.

DADISICK's CSC series ultrasonic sensors are available in two range models, 60 mm - 1000 mm and 150 mm - 2500 mm. They feature small blind zones and narrow sound cones, making them particularly suitable for close-range precision detection. With IP67 waterproof performance and a flange probe design made from PVDF (polyvinylidene fluoride) corrosion-resistant material, these sensors are ideal for use in various corrosive environments.