SEO TAGLIST
Hardware Circuit Development, Smart Hardware, IoT
A system designed for industrial equipment health management scenarios. Based on multi-channel signal acquisition and edge computing technologies, it realizes real-time collection, analysis and remote transmission of equipment status data. Optimized data processing and anti-interference design effectively improve real-time performance and stability, solving data latency and synchronization deficiencies in traditional solutions. The product can be widely used in equipment fault early warning, energy operation and maintenance and other industrial scenarios.
A system developed for rapid detection demands in public security fields, integrating machine vision and multi-source data acquisition technologies to achieve non-contact intelligent detection. Through image feature analysis, dynamic recognition algorithms, identity verification and automatic data upload functions, it effectively improves detection efficiency and accuracy. The system optimizes response speed and reduces manual dependency in traditional detection processes, featuring higher processing efficiency and stability. Suitable for rapid deployment in high-traffic scenarios and widely used in security inspection at airports, subway stations, railway stations and other locations.
Engineering Master Control System
Developed based on mainstream software frameworks for industrial automation application scenarios, supporting equipment control, production line integration and industrial deployment requirements. Through modular function design, it realizes equipment configuration, parameter management and logic control capabilities to meet full lifecycle management requirements of equipment. The system supports standardized configuration file management and interface self-adaptation, with excellent compatibility and scalability, effectively improving deployment efficiency and system flexibility.
A system designed for CNC machine tools and precision manufacturing scenarios. Based on multi-sensor fusion and edge computing capabilities, it realizes real-time monitoring of equipment operating status. Through multi-dimensional data analysis including vibration and current combined with intelligent algorithms, it identifies and warns of tool conditions and abnormal working conditions. The system effectively optimizes low efficiency and insufficient early warning capabilities of traditional detection methods, improving equipment operation stability and extending the service life of key components to a certain extent.
Vibration Isolation Control System
A system designed for precision manufacturing, experimental testing and other application scenarios. Based on multi-source data fusion and intelligent control technologies, it realizes collaborative control and status monitoring during equipment operation. The system integrates industrial control and data acquisition functions, supporting real-time acquisition of key data and linkage control of actuators, improving overall operation stability and control accuracy.
Multi-channel High-speed Acquisition Module FPGA-K7
High-efficiency acquisition and real-time transmission of multi-channel signals are core demands in industrial automation and high-precision testing scenarios. Developed based on actual customer needs, this is a multi-channel high-speed acquisition module integrating 32-channel synchronous acquisition, high-speed data processing and multi-protocol communication capabilities. The device realizes multi-channel synchronous sampling control through FPGA chips, equipped with Gigabit Ethernet and optical communication interfaces, effectively solving real-time monitoring of multi-source signals, high-bandwidth data transmission and complex environment adaptation in industrial sites.
3-axis Micro-hemisphere Controller ZYNQ 7035
A core control device for high-precision motion perception scenarios. Relying on MEMS technology and closed-loop feedback control principles, it integrates 3-axis angular velocity detection, signal conditioning and dynamic compensation algorithms, realizing high-precision angular velocity measurement and real-time attitude calculation within the range of ±300°/s. The device solves technical problems of traditional inertial measurement devices including miniaturization, anti-vibration interference and temperature drift, and can be widely used in UAV flight control, industrial robot navigation, vehicle-mounted stable platforms and other industries with extremely high requirements for space size and dynamic performance.
Laser Frequency Stabilization Control Card ZYNQ 7035
A dedicated control device for precision optical measurement and quantum technology research scenarios. Designed based on Modulation Transfer Spectroscopy (MTS), it realizes sub-kilohertz ultra-high stability locking of 532nm band laser frequency through a dual-channel feedback control mechanism. The system adopts external modulation technology to separate optical path tuning from light source output, and completes high-precision demodulation of detection optical sideband signals combined with four-wave mixing effect, overcoming industry bottlenecks of traditional saturated absorption spectroscopy including high power demand and significant linewidth broadening. It can fully meet high-end scientific research and engineering scenarios with extreme requirements for laser frequency stability such as cold atom experiments and gravitational wave detection.
High-speed Data Acquisition Card ZYNQ 7020
High-precision multi-channel signal high-speed acquisition and real-time processing are core technologies in industrial testing and high-end scientific research fields. This device is a high-performance data acquisition system integrating 8-channel high-speed ADC, multi-protocol communication and intelligent algorithm processing. Adopting FPGA+ARM heterogeneous multi-core architecture, the system efficiently completes signal acquisition, real-time algorithm processing and fast data distribution, successfully overcoming technical bottlenecks of traditional acquisition equipment including insufficient channel density, high response delay and multi-interface compatibility adaptation. It can be widely used in precision instrument monitoring, industrial automation testing, laboratory signal analysis and other scenarios with strict requirements for performance and reliability.
Analog Source Monitoring System ZYNQ 7020
A high-precision signal acquisition and analysis equipment designed for industrial and laboratory environments. Through multi-channel data acquisition technology, embedded software control and intelligent algorithms, it realizes real-time monitoring, abnormal alarm and data analysis functions for analog signal sources. Based on hardware development and embedded software development technologies, the system solves problems of traditional monitoring equipment including low sampling accuracy, weak anti-interference ability and insufficient data processing efficiency, and can be widely used in industrial control, scientific research experiments and automated testing scenarios.
Data Acquisition & Processing System ZYNQ 7020
A system designed for industrial automation testing, precision instrument monitoring and other high-end scenarios. Adopting a multi-channel parallel acquisition architecture and relying on isolated communication and high-speed network transmission technologies, it achieves ultra-high-precision synchronous data acquisition and real-time processing of 500kHz/channel for multiple mainboards. The system completes signal isolated transmission through dedicated isolation chips, combined with FPGA hardware synchronous control and host computer intelligent analysis platform, successfully overcoming industry bottlenecks of multi-device collaborative acquisition including data asynchronization, transmission packet loss and long-term storage management. It can be widely used in high-precision measurement fields with strict requirements for accuracy and stability such as motor vibration analysis, power equipment status monitoring and semiconductor testing.
Pipeline MFL Detector ZYNQ XCZU3
A professional detection device for oil and gas pipelines, urban pipe networks and other scenarios. Based on magnetic flux leakage + eddy current composite sensing technology, equipped with a multi-stage hub architecture and industrial-grade embedded system, it realizes real-time acquisition, intelligent analysis and massive data storage of pipeline defects. Through modular hardware design and anti-strong magnetic interference circuit optimization, it integrates geometric detection, attitude sensing and multi-channel temperature and pressure acquisition modules, overcoming industry pain points of traditional equipment including signal distortion in complex magnetic environments, limited sampling rate and insufficient long-distance storage. It can fully meet efficient and high-precision detection requirements for large-diameter pipelines.
Dust Substance Analyzer ZYNQ XCZU3
A handheld high-precision analysis equipment for environmental safety detection. Based on miniaturized hardware development and embedded software development technologies, it integrates a high-resolution industrial camera, intelligent suction pump and multi-spectral imaging system, realizing rapid sampling, microscopic imaging and accurate component analysis of airborne particles. Through modular structure design and anti-interference algorithm optimization, it solves problems of traditional detection equipment including bulky size, slow response speed and large data error in complex environments, and can be widely used in security inspection, environmental monitoring and industrial quality inspection scenarios.
Vibration Data Acquisition Instrument ZYNQ XCZU3
A multi-channel high-precision acquisition equipment for industrial testing and equipment health management, specially designed for rotating machinery vibration analysis, noise monitoring and speed measurement scenarios. Based on FPGA+ARM heterogeneous architecture, the device solves problems of traditional acquisition equipment including limited sampling rate, low synchronization accuracy and insufficient scalability through 4-channel synchronous acquisition, intelligent anti-aliasing filtering and multi-board cascade technology. It can accurately capture high-speed dynamic signals and meet industrial site rapid diagnosis and long-term monitoring requirements.
Wire Cut EDM Control System FPGA-XC7S25
A dedicated CNC system designed for high-precision wire cut EDM machining requirements. Developed based on ARM+DSP heterogeneous computing architecture and Linux real-time operating system, it deeply integrates CAD modeling, intelligent trajectory planning and 5-axis linkage control technologies, solving industry pain points including insufficient complex geometry machining accuracy (±0.5μm), low multi-process collaboration efficiency and difficult equipment remote management and control. Through self-developed taper compensation algorithm and intelligent machining database, it significantly improves the processing qualification rate of special-shaped workpieces and can meet micron-level machining requirements for aerospace precision parts, medical device molds and other fields.
A device designed for chemical experiments and industrial detection scenarios. Based on embedded system and optical analysis technologies, it realizes high-precision image acquisition, intelligent algorithm processing and real-time data feedback, solving problems of traditional chemical analysis including low color interpretation efficiency, environmental interference and high manual misjudgment rate. The device integrates high-speed camera control, adaptive sampling algorithm and cloud data management functions, which can quickly capture color changes in chemical reactions and accurately identify analysis results, significantly improving detection efficiency and accuracy.
Handheld Substance Analyzer ARM-RK3399
A handheld device designed for rapid hazardous explosive detection and data management scenarios. Through multi-spectral analysis technology and intelligent module expansion, it realizes efficient identification of hazardous substances and traceable management of detection results. The device integrates three expansion modules: printer, ID information extraction and GPS positioning, supporting one-key function mode switching to adapt to different scenario requirements, solving problems of traditional detection equipment including single function, low data recording efficiency and lack of overseas positioning.
Automatic Image Analyzer ARM-RK3399
An efficient intelligent device for industrial testing and automated production scenarios. Based on hardware development and embedded software development technologies, it integrates multi-axis motion control, image recognition algorithms and industrial-grade communication protocols, realizing full-process unmanned operation of consumable automatic replacement, stain cleaning, image acquisition and analysis. Through collaborative design of stepper motor drive system and air path control module combined with interactive interface developed by QT application software, it solves problems of traditional equipment including manual dependency, low multi-device collaboration efficiency and insufficient data real-time performance. It can be widely used in intelligent manufacturing, environmental monitoring and laboratory automation fields.
Tunnel 3D Laser Imager ARM-I.MX6UL
A device specially designed for underground engineering scenarios. By integrating high-precision LiDAR, 9-axis sensor and multi-modal communication technologies, it realizes real-time 3D modeling and data collection of tunnel structures. Based on I.MX6 high-performance processor and embedded Linux system combined with self-developed data fusion algorithm, the device solves problems of traditional detection including low efficiency, insufficient accuracy and poor environment adaptability, and can quickly generate mm-level tunnel deformation analysis reports to provide reliable guarantee for engineering safety.
Developed based on Rockchip RV1126 high-performance processor, the system is specially designed for intelligent security, industrial testing and remote monitoring scenarios. The system integrates multi-protocol communication, high-resolution video acquisition (IMX415 sensor, 8-megapixel and real-time encoding capability), and realizes efficient human-computer interaction through Linux system and QT environment, solving problems of traditional IPC equipment including single communication mode, insufficient scalability and limited video processing performance. Supports dual-version design for flexible adaptation to different scenarios.