sCMOS cameras generate massive amounts of data—sometimes gigabytes per second. While USB 3.0 is common for general use, it often bottlenecks high-resolution, high-speed sensors. For advanced research, 10 Gigabit Ethernet (10GbE) or Fiber Optic interfaces (supporting up to 40Gb bandwidth) are preferred. These allow for long-distance data transmission (crucial in observatories) and ensure zero frames are dropped during high-speed captures.

Laser displacement sensor is a high-precision, non-contact measurement tool used to determine distance, height, thickness, and position. Built on a "multi-series + full-model" matrix, these sensors utilize laser triangulation technology to provide stable, repeatable data without physical interference. They serve as critical components for quality control in high-speed industrial production lines across sectors like semiconductors, automotive, and lithium batteries.

SinceVision sensors employ the laser triangulation method to calculate displacement based on the angle of reflected light. A laser beam is emitted onto the target surface; the reflected light is then focused through a lens onto a high-resolution receiving element.

1. Precision and Speed: The SG Series achieves an industry-leading sampling frequency of 590kHz and a repeat accuracy of 0.05μm, allowing it to capture even the most subtle vibrations or height changes in real-time.

2. Model Variety: The matrix includes the SG, SGI, SD33, SD22, and SD-C series, offering diverse solutions from ultra-high-speed scanning to cost-effective, compact designs.

Measure delicate or transparent materialso such as semiconductor wafers and thin film, without risk of damage or measurement errors caused by contact pressure.

1. Sub-Micron Precision: With 0.02μm repeatability and a ±0.02% F.S. linearity accuracy, SinceVision sensors provide laboratory-grade data in industrial environments.

2. High-Speed Data Output: Sampling rates up to 590kHz allow for the monitoring of high-speed rotating workpieces and structural vibrations.

3. Environmental Stability: Features a 0.01% F.S./℃ temperature control system and a low-temperature startup algorithm for stable operation from -40℃ to high-heat industrial zones.

4. Versatile Material Compatibility: Whether measuring glossy, matte, or multi-material surfaces, laser triangulation technology ensures stable data output regardless of reflectivity.

SinceVision provides specialized solutions for the rigorous demands of semiconductor manufacturing:

1. Lithography Lens Height Guidance: Provides precise vertical positioning for lens systems within lithography equipment.

2. Wafer Flatness and Thickness: Monitors surface consistency to prevent thermal stress during packaging and measures wafer thickness with high repetition accuracy.

3. Solder Ball Flatness Detection: Inspects solder balls on chips with a flatness error tolerance of <10µm.

4. Wafer Edge Height Difference: Detects recognizable height differences of 1μm at high frame rates.

Yes. SinceVision sensors are designed for high compatibility and easy debugging.

1. Multi-Protocol Support: They support a wide range of communication interfaces, including RS485, analog signals, EtherCAT, TCP/IP, and ModbusTCP.

2. PLC Integration: Their integrated design and flexible communication protocols allow for quick installation and seamless feedback loops for real-time device control and positioning.

You can choose from different laser displacment sensor series according to your application below:

1. SG Series: Choose for ultra-high-speed (590kHz) and high-precision ceramic or industrial inspections.

2. SGI Series: Ideal for high-end applications requiring integrated, high-precision detection ranges up to 250mm.

3. SD33 Series: Best for general-purpose high performance with EtherCAT support.

4. SD22 Series: Optimized for special applications requiring a larger measurement range and high-temperature resistance.

5. SD-C Series: The cost-effective, compact choice for 3C, automotive, and general industrial automation.

Following are the key features of our laser measurement sensor:

1. Ultra-High Sampling Frequency: Supports up to 590kHz, enabling the capture of minute displacement changes in high-speed rotating or vibrating workpieces.

2. Unmatched Repeatability: Delivers measurement consistency with 0.02μm repeatability, ensuring reliability for the most demanding quality control tasks.

3. Multi-Series Product Matrix: Features a comprehensive lineup including the SG, SGI, SD33, SD22, and SD-C series to meet diverse industrial needs from miniature size to large-range detection.

4. Intelligent Low-Temperature Adaptation: Utilizes a specialized startup algorithm to maintain high-precision operation in environments as cold as -40℃.

5. High-End Optical Optimization: Specifically engineered to overcome reflections in semiconductor applications, such as solder ball flatness detection and lens height guidance.

Following are the key features of our SD series sensor:

1. Broad Measurement Range: Offers flexible selection with ranges extending up to 900mm, suitable for large-scale industrial positioning and small-scale precision checks.

2. Industrial Communication Protocols: Equipped with high-compatibility interfaces, including RS485, analog signals, EtherCAT, and ModbusTCP, for seamless PLC integration.

3. Integrated Compact Design: Many models, such as the SD33 and SD-C series, feature a high-integration "all-in-one" design for easy installation in space-constrained machines.

4. Temperature Drift Control: Minimizes measurement errors with a temperature control system providing stability of 0.01% F.S./℃.

5. Easy Debugging & Calibration: Supports one-key calibration and user-friendly software interfaces to reduce setup time and maintenance costs.

The Ultra-High-Speed series supports industry-leading frame rates of up to 1.15 million FPS. For megapixel-level recording, the SH6 series reaches 15,800 FPS at full resolution.