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Projects
01
Featured Projects
SecureLink PCB
Access Control Systems | Secure Authentication | Smart Entry Management
Secure RFID-based access and tracking.
RFID development board designed for high-performance contactless communication and wireless connectivity applications. The board integrates the ESP32 module for Bluetooth communication and system control, providing robust wireless data transfer and processing capability.
The RFID functionality is implemented using the CLRC663, a high-performance multi-protocol NFC frontend supporting ISO/IEC 14443 A/B, FeliCa, and ISO/IEC 15693 standards. The frontend enables reliable short-range communication with RFID and NFC tags.
Key features include:
- Integrated Bluetooth connectivity via ESP32
- High-performance multi-protocol NFC/RFID support
- Optimized RF antenna matching network
- SPI interface between ESP32 and CLRC663
- On-board power regulation and filtering
- Compact PCB layout suitable for embedded applications
The board is suitable for access control systems, asset tracking, smart identification, and IoT-based RFID solutions.
Secure RFID-based access and tracking.
RFID development board designed for high-performance contactless communication and wireless connectivity applications. The board integrates the ESP32 module for Bluetooth communication and system control, providing robust wireless data transfer and processing capability.
The RFID functionality is implemented using the CLRC663, a high-performance multi-protocol NFC frontend supporting ISO/IEC 14443 A/B, FeliCa, and ISO/IEC 15693 standards. The frontend enables reliable short-range communication with RFID and NFC tags.
Key features include:
- Integrated Bluetooth connectivity via ESP32
- High-performance multi-protocol NFC/RFID support
- Optimized RF antenna matching network
- SPI interface between ESP32 and CLRC663
- On-board power regulation and filtering
- Compact PCB layout suitable for embedded applications
The board is suitable for access control systems, asset tracking, smart identification, and IoT-based RFID solutions.
DualCore Connect
High Performance | Embedded Computing | Edge Processing
Smart data collecting server.
DualCore Connect is a high-performance embedded platform designed for smart data collection and edge processing applications. The system is built around the STM32H753XIH6, a high-performance Arm® Cortex®-M7 microcontroller in a BGA package, delivering advanced real-time processing capability.
To support intensive data buffering and high-speed operations, the design integrates two IS42S32400J synchronous DRAM devices, also in BGA packages, providing extended external memory capacity.
Wireless connectivity is enabled through the ESP32, allowing reliable communication with a central smart data collection server.
The platform is optimized for high-throughput acquisition, processing, and secure transmission of sensor and system data.
Smart data collecting server.
DualCore Connect is a high-performance embedded platform designed for smart data collection and edge processing applications. The system is built around the STM32H753XIH6, a high-performance Arm® Cortex®-M7 microcontroller in a BGA package, delivering advanced real-time processing capability.
To support intensive data buffering and high-speed operations, the design integrates two IS42S32400J synchronous DRAM devices, also in BGA packages, providing extended external memory capacity.
Wireless connectivity is enabled through the ESP32, allowing reliable communication with a central smart data collection server.
The platform is optimized for high-throughput acquisition, processing, and secure transmission of sensor and system data.
Compact 2.5G Edge Router
Industrial Networking | Secure Edge | High Throughput
Fanless, compact 2.5GbE router.
Compact 2.5G Edge Router is a high-performance networking platform designed for edge computing and high-speed broadband applications. The system is powered by the IPQ6018, a quad-core network processor optimized for routing, NAT, and secure data handling.
High-speed connectivity is enabled through the RTL8125B 2.5G Ethernet controller, providing reliable multi-gigabit WAN/LAN performance. The design integrates MT53E512M32D2DS DDR4 memory for efficient packet buffering and multitasking.
The router supports advanced firewall, VPN, and QoS features, making it suitable for enterprise edge deployments, industrial gateways, and high-speed residential networking environments.
Fanless, compact 2.5GbE router.
Compact 2.5G Edge Router is a high-performance networking platform designed for edge computing and high-speed broadband applications. The system is powered by the IPQ6018, a quad-core network processor optimized for routing, NAT, and secure data handling.
High-speed connectivity is enabled through the RTL8125B 2.5G Ethernet controller, providing reliable multi-gigabit WAN/LAN performance. The design integrates MT53E512M32D2DS DDR4 memory for efficient packet buffering and multitasking.
The router supports advanced firewall, VPN, and QoS features, making it suitable for enterprise edge deployments, industrial gateways, and high-speed residential networking environments.
Single Board Computer
High Performance | Embedded Computing | Edge Processing
Small, high-performance embedded computer system.
Single Board Computer Small is a compact, high-performance embedded computing platform designed for edge processing, multimedia, and industrial applications. The system is based on the BCM2711, a quad-core Arm® Cortex®-A72 processor widely used in single-board computing platforms such as the Raspberry Pi 4 Model B.
For hardware acceleration and custom logic implementation, the design integrates the XC7A35T-1CSG324C FPGA, enabling real-time processing, high-speed interfacing, and deterministic control.
The system includes DDR4 memory, Gigabit Ethernet, USB 3.0, HDMI output, and expansion interfaces, making it suitable for industrial automation, machine vision, software-defined I/O, and advanced embedded computing applications requiring both flexibility and performance.
Small, high-performance embedded computer system.
Single Board Computer Small is a compact, high-performance embedded computing platform designed for edge processing, multimedia, and industrial applications. The system is based on the BCM2711, a quad-core Arm® Cortex®-A72 processor widely used in single-board computing platforms such as the Raspberry Pi 4 Model B.
For hardware acceleration and custom logic implementation, the design integrates the XC7A35T-1CSG324C FPGA, enabling real-time processing, high-speed interfacing, and deterministic control.
The system includes DDR4 memory, Gigabit Ethernet, USB 3.0, HDMI output, and expansion interfaces, making it suitable for industrial automation, machine vision, software-defined I/O, and advanced embedded computing applications requiring both flexibility and performance.
SMARC-700 Industrial Control Unit (ICU)
High Performance | Embedded | Edge Processing
Compact Modular Industrial Control Unit.
SMARC-700 is a compact, modular Industrial Control Unit designed around a SMARC™ compute module from Kontron. The system combines high processing performance with industrial reliability in a space-efficient form factor.
The SMARC module integrates an Arm®-based processor with DDR memory and eMMC storage, while the custom carrier board provides industrial-grade I/O including Gigabit Ethernet, isolated digital inputs/outputs, RS-485/RS-232, CAN bus, and USB interfaces.
Designed for harsh environments, the SMARC-700 supports wide input voltage ranges and optimized thermal management. It is ideal for factory automation, machine control, smart energy systems, and edge-based industrial data acquisition where modularity, scalability, and long-term availability are essential.
Compact Modular Industrial Control Unit.
SMARC-700 is a compact, modular Industrial Control Unit designed around a SMARC™ compute module from Kontron. The system combines high processing performance with industrial reliability in a space-efficient form factor.
The SMARC module integrates an Arm®-based processor with DDR memory and eMMC storage, while the custom carrier board provides industrial-grade I/O including Gigabit Ethernet, isolated digital inputs/outputs, RS-485/RS-232, CAN bus, and USB interfaces.
Designed for harsh environments, the SMARC-700 supports wide input voltage ranges and optimized thermal management. It is ideal for factory automation, machine control, smart energy systems, and edge-based industrial data acquisition where modularity, scalability, and long-term availability are essential.
pH Sensor Unit
Measurement | Accuracy | Monitoring
Measures and monitors pH levels
The pH Sensor Unit is a high-precision measurement module designed for laboratory, industrial, and water-quality monitoring applications. It features a high-resolution isolated ADC to ensure accurate low-level signal acquisition while maintaining galvanic isolation for improved noise immunity and system safety.
The design includes a low-noise analog front end (AFE) with high input impedance buffering to interface with standard glass pH electrodes. Temperature compensation is integrated to improve measurement stability across varying environmental conditions.
Additional features include digital communication via I²C/SPI, onboard calibration support, and robust power isolation, making the unit suitable for process control, environmental monitoring, and embedded analytical systems requiring reliable and precise pH measurement.
Measures and monitors pH levels
The pH Sensor Unit is a high-precision measurement module designed for laboratory, industrial, and water-quality monitoring applications. It features a high-resolution isolated ADC to ensure accurate low-level signal acquisition while maintaining galvanic isolation for improved noise immunity and system safety.
The design includes a low-noise analog front end (AFE) with high input impedance buffering to interface with standard glass pH electrodes. Temperature compensation is integrated to improve measurement stability across varying environmental conditions.
Additional features include digital communication via I²C/SPI, onboard calibration support, and robust power isolation, making the unit suitable for process control, environmental monitoring, and embedded analytical systems requiring reliable and precise pH measurement.
Alarm Monitoring System
IoT | Notification | Security
Real-time monitoring and alerting system.
The Real-Time Monitoring and Alerting System is a compact wireless platform designed for continuous data acquisition and event notification. It is built around a low-power RF communication chip, enabling efficient short-range or long-range wireless connectivity depending on the application requirements.
The system integrates sensor interfaces, local signal processing, and threshold-based event detection to trigger immediate alerts. Data can be transmitted in real time to a gateway or central server for visualization and logging.
Optimized for low power consumption and small form factor, the solution is suitable for remote monitoring, asset tracking, safety systems, and distributed IoT deployments requiring reliable wireless communication and fast response capability.
Real-time monitoring and alerting system.
The Real-Time Monitoring and Alerting System is a compact wireless platform designed for continuous data acquisition and event notification. It is built around a low-power RF communication chip, enabling efficient short-range or long-range wireless connectivity depending on the application requirements.
The system integrates sensor interfaces, local signal processing, and threshold-based event detection to trigger immediate alerts. Data can be transmitted in real time to a gateway or central server for visualization and logging.
Optimized for low power consumption and small form factor, the solution is suitable for remote monitoring, asset tracking, safety systems, and distributed IoT deployments requiring reliable wireless communication and fast response capability.
Sensor Controller
Acquisition | Processing | Interface
Manages sensor data acquisition and processing.
The Sensor Controller is a compact embedded module designed to manage sensor data acquisition, signal conditioning, and real-time processing. It interfaces with multiple analog and digital sensors through protocols such as I²C, SPI, UART, and ADC channels, ensuring flexible integration across diverse applications.
The system performs local filtering, calibration, and threshold monitoring to reduce communication load and improve response time. It supports low-power operation modes for energy-efficient deployments and can transmit processed data to a host system, gateway, or cloud platform.
Designed for industrial, environmental, and IoT applications, the Sensor Controller enables reliable data handling, scalable sensor integration, and efficient edge-level decision-making.
Manages sensor data acquisition and processing.
The Sensor Controller is a compact embedded module designed to manage sensor data acquisition, signal conditioning, and real-time processing. It interfaces with multiple analog and digital sensors through protocols such as I²C, SPI, UART, and ADC channels, ensuring flexible integration across diverse applications.
The system performs local filtering, calibration, and threshold monitoring to reduce communication load and improve response time. It supports low-power operation modes for energy-efficient deployments and can transmit processed data to a host system, gateway, or cloud platform.
Designed for industrial, environmental, and IoT applications, the Sensor Controller enables reliable data handling, scalable sensor integration, and efficient edge-level decision-making.
USB to UART Bridge
High-Speed | Embedded | Serial
Reliable USB-to-serial communication.
The Reliable USB-to-Serial Communication module provides stable and high-performance data conversion between USB and UART interfaces for embedded systems, debugging, and device programming.
The design is based on a dedicated USB bridge controller CP2102N, ensuring robust driver support, high data throughput, and low latency communication. The interface supports standard baud rates and advanced flow control for dependable operation.
Additional features include onboard ESD protection, signal level compatibility (3.3V/5V), and optional isolation for industrial environments. This solution is ideal for firmware development, system configuration, data logging, and production testing applications.
Reliable USB-to-serial communication.
The Reliable USB-to-Serial Communication module provides stable and high-performance data conversion between USB and UART interfaces for embedded systems, debugging, and device programming.
The design is based on a dedicated USB bridge controller CP2102N, ensuring robust driver support, high data throughput, and low latency communication. The interface supports standard baud rates and advanced flow control for dependable operation.
Additional features include onboard ESD protection, signal level compatibility (3.3V/5V), and optional isolation for industrial environments. This solution is ideal for firmware development, system configuration, data logging, and production testing applications.
Obstacle Detection
ToF Sensor | IoT Edge | Real-Time Monitoring
Accurate obstacle detection using ToF sensor.
The Obstacle Detection Module provides high-precision distance measurement using Time-of-Flight (ToF) technology for reliable proximity sensing and object detection. The system enables fast response times and accurate short-range measurement, making it suitable for robotics, automation, and safety applications.
The design is based on a high-performance ToF sensor such as the VL53L1X, which uses infrared laser technology to measure distance with millimeter-level resolution. The sensor supports I²C communication for easy integration with embedded controllers.
With compact size, low power consumption, and immunity to ambient light variations, the module is ideal for obstacle avoidance, presence detection, smart devices, and industrial monitoring systems.
Accurate obstacle detection using ToF sensor.
The Obstacle Detection Module provides high-precision distance measurement using Time-of-Flight (ToF) technology for reliable proximity sensing and object detection. The system enables fast response times and accurate short-range measurement, making it suitable for robotics, automation, and safety applications.
The design is based on a high-performance ToF sensor such as the VL53L1X, which uses infrared laser technology to measure distance with millimeter-level resolution. The sensor supports I²C communication for easy integration with embedded controllers.
With compact size, low power consumption, and immunity to ambient light variations, the module is ideal for obstacle avoidance, presence detection, smart devices, and industrial monitoring systems.
Solar Battery Charger
Solar Battery Charger | Energy-Efficient | Renewable Power
Efficient solar-powered battery charging system.
he Solar-Powered Battery Charging System is a high-efficiency solution designed for solar energy harvesting and intelligent battery management in portable and off-grid applications. It ensures safe charging, optimized power conversion, and reliable long-term operation.
The design is based on a Texas Instruments power management IC TPS63060, enabling efficient voltage regulation from variable solar input sources. The system supports stable power delivery to downstream loads while maintaining high conversion efficiency.
Integrated protections include overcharge, over-discharge, short-circuit, and thermal monitoring. This solution is ideal for IoT devices, remote sensing systems, embedded platforms, and low-power autonomous electronics requiring dependable solar-based energy management.
Efficient solar-powered battery charging system.
he Solar-Powered Battery Charging System is a high-efficiency solution designed for solar energy harvesting and intelligent battery management in portable and off-grid applications. It ensures safe charging, optimized power conversion, and reliable long-term operation.
The design is based on a Texas Instruments power management IC TPS63060, enabling efficient voltage regulation from variable solar input sources. The system supports stable power delivery to downstream loads while maintaining high conversion efficiency.
Integrated protections include overcharge, over-discharge, short-circuit, and thermal monitoring. This solution is ideal for IoT devices, remote sensing systems, embedded platforms, and low-power autonomous electronics requiring dependable solar-based energy management.
EnviroNode IoT
IoT Edge | Battery-Powered | Environmental Data Collection
Battery-powered IoT environmental data logger.
The Battery-Powered IoT Environmental Data Logger is a low-power embedded system designed for long-term environmental monitoring and wireless data transmission. It collects sensor data such as temperature, humidity, pressure, and air quality, storing measurements locally and transmitting them periodically to a cloud platform or gateway.
The system is built around the nRF52840, a highly integrated ultra-low-power SoC supporting Bluetooth Low Energy connectivity. Its efficient architecture enables extended battery life while maintaining reliable wireless communication.
Optimized for energy efficiency, the design includes deep sleep modes, high-resolution sensor interfaces (I²C/SPI/ADC), and optional flash storage for data buffering. The solution is ideal for smart agriculture, environmental research, industrial monitoring, and remote IoT deployments.
Battery-powered IoT environmental data logger.
The Battery-Powered IoT Environmental Data Logger is a low-power embedded system designed for long-term environmental monitoring and wireless data transmission. It collects sensor data such as temperature, humidity, pressure, and air quality, storing measurements locally and transmitting them periodically to a cloud platform or gateway.
The system is built around the nRF52840, a highly integrated ultra-low-power SoC supporting Bluetooth Low Energy connectivity. Its efficient architecture enables extended battery life while maintaining reliable wireless communication.
Optimized for energy efficiency, the design includes deep sleep modes, high-resolution sensor interfaces (I²C/SPI/ADC), and optional flash storage for data buffering. The solution is ideal for smart agriculture, environmental research, industrial monitoring, and remote IoT deployments.
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