ideas Hatch

HUB PAA3905(OMT)
Optical Motion Tracking Sensor
The Best Choice for Optical Flow Positioning Sensors
Chip Manufacturer: PixArt Imaging Inc.
PixArt's Optical Motion Tracking (OMT) technology uses proprietary image sensing core technology to continuously capture, process, and analyze dynamic images, directly outputting relative X and Y displacement data. The PAA3905 integrates image processing and analysis into the sensor itself, eliminating the need for any external ISP and algorithms, thus reducing the complexity of image analysis development. The PAA3905 sensor features a low-power, high-frame-rate architecture that can quickly detect XY displacement at working distances of over 80mm and respond to the main controller in real-time, supporting longer continuous operation times. The compact and lightweight assembly of the PAA3905 sensor and its paired lens is ideal for space-constrained, lightweight product designs. The PAA3905 OMT sensor is an excellent choice for optical flow navigation, providing relative displacement data for stabilizing and tracking flight paths in drones flying in indoor areas with weak GPS signals or in dark, enclosed spaces.
PixArt's Optical Motion Tracking (OMT) technology uses proprietary image sensing core technology to continuously capture, process, and analyze dynamic images, directly outputting relative X and Y displacement data. The PAA3905 integrates image processing and analysis into the sensor itself, eliminating the need for any external ISP and algorithms, thus reducing the complexity of image analysis development. The PAA3905 sensor features a low-power, high-frame-rate architecture that can quickly detect XY displacement at working distances of over 80mm and respond to the main controller in real-time, supporting longer continuous operation times. The compact and lightweight assembly of the PAA3905 sensor and its paired lens is ideal for space-constrained, lightweight product designs. The PAA3905 OMT sensor is an excellent choice for optical flow navigation, providing relative displacement data for stabilizing and tracking flight paths in drones flying in indoor areas with weak GPS signals or in dark, enclosed spaces.

HUB 8735 Ultra
Powered by Ameba RTL8735
The optimized and upgraded ultra version of HUB 8735 is officially launched! While retaining all the original features of HUB 8735, the Ultra version adds GPIO pins, an LED fill light, function keys, switches to USB Type-C, and simplifies the flashing process, making it more user-friendly for developers!
Chip Manufacturer: Realtek
HUB 8735 Ultra, Smart AI CAM, is a highly integrated module with multifunctional image processing capabilities. It features a built-in NPU AI computing engine to accelerate AI model processing, as well as 802.11 a/b/g/n dual-band Wi-Fi and BLE low-power Bluetooth transmission. It can be widely applied to various IoT fields that integrate image recognition or AI computation, such as smart homes, industrial IoT, smart retail, healthcare, and automotive electronics. Multiple pre-trained AI models have been optimized to run directly on the module, making it a valuable tool for AI education and an easy-to-integrate, rapid deployment kit for Edge AI applications in product design.
HUB 8735 Ultra, Smart AI CAM, is a highly integrated module with multifunctional image processing capabilities. It features a built-in NPU AI computing engine to accelerate AI model processing, as well as 802.11 a/b/g/n dual-band Wi-Fi and BLE low-power Bluetooth transmission. It can be widely applied to various IoT fields that integrate image recognition or AI computation, such as smart homes, industrial IoT, smart retail, healthcare, and automotive electronics. Multiple pre-trained AI models have been optimized to run directly on the module, making it a valuable tool for AI education and an easy-to-integrate, rapid deployment kit for Edge AI applications in product design.

NuMaker-IoT-M467
Based on Arm Cortex-M4F
M467 Ethernet/Crypto Series
The NuMaker-IoT-M467 is a development board designed for Nuvoton’s NuMicro M467SJHAN, M467KJHAN, M467JJHAN, and M467HJHAN series microcontrollers. It consists of two parts: the M467 main control board and the Nu-Link2-Me debugger and programmer. The NuMaker-IoT-M467 serves as a platform for project evaluation, development, validation, and power consumption monitoring.
The M467 main control board includes a Wi-Fi module and a CAN FD transceiver, enabling users to develop industrial IoT-related applications. Additionally, the board is equipped with a temperature sensor and a 6-axis sensor to accelerate application development.
The M467 main control board features the NuMicro M467HJHAN microcontroller and provides an interface compatible with Arduino UNO, allowing for easy integration with various peripheral devices or Arduino modules. The board also supports multiple power supply designs, making project development more flexible. Furthermore, it includes a current measurement interface for real-time power consumption monitoring, aiding in project development and evaluation.
The other component of the NuMaker-IoT-M467 is the Nu-Link2-Me debugger and programmer. The Nu-Link2-Me supports online ICP programming and debugging of Nuvoton microcontrollers via the SWD interface and can also perform offline ICP programming. The programming status is displayed through a status LED. The Nu-Link2-Me also supports virtual COM port (VCOM) functionality, outputting messages to a terminal window. It can be detached from the development board to function as a standalone programmer for batch production.
The M467 main control board includes a Wi-Fi module and a CAN FD transceiver, enabling users to develop industrial IoT-related applications. Additionally, the board is equipped with a temperature sensor and a 6-axis sensor to accelerate application development.
The M467 main control board features the NuMicro M467HJHAN microcontroller and provides an interface compatible with Arduino UNO, allowing for easy integration with various peripheral devices or Arduino modules. The board also supports multiple power supply designs, making project development more flexible. Furthermore, it includes a current measurement interface for real-time power consumption monitoring, aiding in project development and evaluation.
The other component of the NuMaker-IoT-M467 is the Nu-Link2-Me debugger and programmer. The Nu-Link2-Me supports online ICP programming and debugging of Nuvoton microcontrollers via the SWD interface and can also perform offline ICP programming. The programming status is displayed through a status LED. The Nu-Link2-Me also supports virtual COM port (VCOM) functionality, outputting messages to a terminal window. It can be detached from the development board to function as a standalone programmer for batch production.
Purchase channels
Video tutorials
M467 Voice Control Scope

NuMaker-M2L31KI
Powered by NuMicro® M2L31KIDAE Microcontroller
32-bit Low Power Microcontroller
The NuMaker-M2L31KI is composed of two parts: the main control board featuring the NuMicro® M2L31KIDAE microcontroller, and the Nu-Link2-Me debugger and programmer. This development board allows users to develop, program, and validate applications with ease.
The NuMaker-M2L31KI main control board includes expansion interfaces for all pins of the M2L31KIDAE and offers an interface compatible with Arduino UNO, providing flexibility for integrating various peripheral devices or Arduino modules. The board also supports flexible power supply designs, making development more convenient. Additionally, it features a current measurement interface, allowing users to easily monitor the power consumption of the microcontroller during development.
The Nu-Link2-Me programmer and debugger supports programming and debugging via the SWD interface, and it includes a 16 Mbit SPI Flash for offline programming. It also supports virtual COM port functionality, outputting messages to a terminal window. The Nu-Link2-Me can be detached from the development board to serve as a production programming tool.
The NuMaker-M2L31KI main control board includes expansion interfaces for all pins of the M2L31KIDAE and offers an interface compatible with Arduino UNO, providing flexibility for integrating various peripheral devices or Arduino modules. The board also supports flexible power supply designs, making development more convenient. Additionally, it features a current measurement interface, allowing users to easily monitor the power consumption of the microcontroller during development.
The Nu-Link2-Me programmer and debugger supports programming and debugging via the SWD interface, and it includes a 16 Mbit SPI Flash for offline programming. It also supports virtual COM port functionality, outputting messages to a terminal window. The Nu-Link2-Me can be detached from the development board to serve as a production programming tool.
Purchase channels
Video tutorials
NuMaker-M2L31KI Video tutorials

MediaTek Genio 130
Powered by MT7933/MT7931
ntegrated MCU, Bluetooth 5.2, and Audio DSP in a Wi-Fi 6 IoT SoC
Chip Manufacturer: MediaTek
Official Website:https://www.mediatek.tw/
The MediaTek Genio 130 (MT7933/MT7931) is a system-on-chip (SoC) that integrates an Arm Cortex-M33 MCU, Wi-Fi 6, and Bluetooth 5.2 connectivity subsystems, a power management unit (PMU), and an optional audio DSP. Utilizing the latest connectivity standards, it provides reliable network connections and data transmission while achieving higher energy efficiency in a compact and low-power design. The optional audio DSP is particularly suitable for product developers designing IoT devices that support voice functionality.
Official Website:https://www.mediatek.tw/
The MediaTek Genio 130 (MT7933/MT7931) is a system-on-chip (SoC) that integrates an Arm Cortex-M33 MCU, Wi-Fi 6, and Bluetooth 5.2 connectivity subsystems, a power management unit (PMU), and an optional audio DSP. Utilizing the latest connectivity standards, it provides reliable network connections and data transmission while achieving higher energy efficiency in a compact and low-power design. The optional audio DSP is particularly suitable for product developers designing IoT devices that support voice functionality.
Purchase channels
Video tutorials

HUB 5168+
Powered by Realtek RTL8720DN
Bluetooth BLE 5.0 + Dual-Band Wi-Fi, the Best Partner for IoT Development
Chip Manufacturer: Realtek
The HUB 5168+ not only continues the advantages of the compact and lightweight DSI5168 with full compatibility for Arduino development, but also adds support for dual-band Wi-Fi (2.4G/5G), low-power Bluetooth BLE 5.0, and a dual-core processor. Combined with I/O expansion modules, it can easily connect to OLED displays and offers more I/O options, making it an excellent tool for IoT product development.
The HUB 5168+ not only continues the advantages of the compact and lightweight DSI5168 with full compatibility for Arduino development, but also adds support for dual-band Wi-Fi (2.4G/5G), low-power Bluetooth BLE 5.0, and a dual-core processor. Combined with I/O expansion modules, it can easily connect to OLED displays and offers more I/O options, making it an excellent tool for IoT product development.

CoreMaker-01
Powered by Nuvoton/M484SIDAE
Join You in Exploring the Evolution of AIoT
Chip Manufacturer:Coretronicmems
Official Website:https://www.coretronicmems.com/
The CoreMaker-01 utilizes the Nuvoton M484, featuring an Arm® Cortex®-M4F core with a DSP instruction set for high-performance, low-power microcontroller capabilities. It supports configurable UART/SPI/I²C interfaces. Developers can leverage the ARM Mbed IoT device platform, a single integrated solution that combines internet protocols, cybersecurity, and standardized management, specifically designed for IoT devices that are particularly sensitive to energy consumption and pricing.
Through multi-dimensional sensing modules, CoreMaker-01 implements the Device AI concept to create cost-effective AIoT solutions. Customers can develop their own AI models or collaborate with CMC to assist in AI model development, which can then be programmed onto the CoreMaker-01 MCU to create devices with AI functionality.
Official Website:https://www.coretronicmems.com/
The CoreMaker-01 utilizes the Nuvoton M484, featuring an Arm® Cortex®-M4F core with a DSP instruction set for high-performance, low-power microcontroller capabilities. It supports configurable UART/SPI/I²C interfaces. Developers can leverage the ARM Mbed IoT device platform, a single integrated solution that combines internet protocols, cybersecurity, and standardized management, specifically designed for IoT devices that are particularly sensitive to energy consumption and pricing.
Through multi-dimensional sensing modules, CoreMaker-01 implements the Device AI concept to create cost-effective AIoT solutions. Customers can develop their own AI models or collaborate with CMC to assist in AI model development, which can then be programmed onto the CoreMaker-01 MCU to create devices with AI functionality.

SenseBoost12-PH12
Powered by TS24GTR12S-P
Your First Choice for 24GHz mmWave Sensor Product Development
TeraSilIC offers AiM (Antenna-in-Module) and AiP (Antenna-in-Package) products, along with various versatile and cost-effective sensor development tools. Utilizing high-cost-performance CMOS radar sensors brings disruptive innovation to a wide range of consumer smart applications. From smart home appliances (air conditioning, bathroom fixtures, lighting control, voice assistants) to smart surveillance (monitoring cameras), automation (automotive kick tailgates, road gate monitoring), energy control, and many other new applications, the 24GHz multifunctional high-precision sensors can replace traditional low-frequency, bulky, and single-function sensors, tapping into the global smart living market, which exceeds hundreds of billions of dollars annually.

NuMaker-IoT-M487
NuMicro-M487 adopted
Supports MicroPytho、Compatible with Arduino’s development environment、Pin design meets open-source requirements
NuMaker-IoT-M487 is a product co-branded by Nuvoton & IoT Service Hub with its NuMaker-IoT-M487 EVB as the core, and built-in RJ45 Ethernet and Wi-Fi modules, allowing users to connect to the cloud in wired or wireless modes. Through different wireless daughter boards, it can provide connectivity via NB-IoT and 6LoWPAN to meet the needs of various application scenarios. NuMaker-IoT-M487 provides Arduino Uno compatible interface, mikroBUS™ interface, NuMakerBrickI2C connector, and specific I/O connector, as well as multiple networking methods and interfaces, which can support image sensing, sound recording/playback, and flexible data space augmentation. With the data platform of IoT Service Hub, NuMaker-IoT-M487 can either function as an endpoint device or a lightweight gateway application, proving itself as a great choice for novice programmers in the realm of IoT.
Purchase channels
Video tutorials

OPL 1000 EVB
Netlink OPL1000 adopted
Ultra-low power option which supports dual bands (Wi-Fi/Bluetooth)
Based on the dual-core ARM® Cortex, DSI 5188 is an embedded 2.4GHz wireless connection solution which integrates Wi-Fi 802.11b and Bluetooth Smart® into one SoC (System on a Chip). Compared with solutions that only support a single communication protocol, DSI 5188’s ground-breaking architecture which supports Wi-Fi and Bluetooth, baseband and MAC, consumes the lowest power yet yields the highest performance with the lowest system cost. In addition, it provides a scalable network, making it easier and more flexible to design interconnected IoT systems or connect to the cloud.

DSI 2598+
MT 2625 adopted
Taiwan's first small-scale Arduino NB-IoT EVB
DSI2598+ adopts the NB-IoT chip MT2625 module by MediaTek, based on the STM32 F103 core. This simple but complete option has pin functions such as PWM, I2C, SPI, ADC, UART, etc. with excellent computing capabilities, allowing users to seamlessly connect to most Arduino program libraries and develop various functional programs. The size of DSI2598+ is only 6x3cm, and is the first small-scale NB-IoT EVB in Taiwan.

WE-I Plus
Powered by WE-I Plus tinyML development board (HX6537-A)
HX6537-A Ultra-Low-Power AI Microprocessor
Assisting Rapid Development of Conceptual Smart Appliances and Smart Surveillance AIoT Edge Devices
Assisting Rapid Development of Conceptual Smart Appliances and Smart Surveillance AIoT Edge Devices
Chip Manufacturer: Himax Technologies
Official Website:https://www.himax.com.tw/zh/
The Himax WE-I Plus development board is the leading ultra-low-power and high-performance solution tailored for applications utilizing TensorFlow Lite for Microcontrollers. With a compact size of 40mm x 27mm, the board integrates a complete set of features, including AoS™ VGA sensors, left/right stereo microphones, a three-axis accelerometer, and USB with SPI/I2C bridges. It also provides a comprehensive SDK to effectively leverage machine learning techniques for processing sensory data obtained from images, speech, and environmental analog sensors.
Official Website:https://www.himax.com.tw/zh/
The Himax WE-I Plus development board is the leading ultra-low-power and high-performance solution tailored for applications utilizing TensorFlow Lite for Microcontrollers. With a compact size of 40mm x 27mm, the board integrates a complete set of features, including AoS™ VGA sensors, left/right stereo microphones, a three-axis accelerometer, and USB with SPI/I2C bridges. It also provides a comprehensive SDK to effectively leverage machine learning techniques for processing sensory data obtained from images, speech, and environmental analog sensors.
Purchase channels
Toolkit

DSI 5168
Ameba RTL8711AM adopted
Your “Best Help” for IoT product development
DSI5168 is a very convenient development tool for makers. It includes the RTL8711AM wireless module and an integrated programming tool, fully compatible with Arduino’s development features and integrating high-performance MCU, Wi-Fi, Ethernet and rich peripheral equipment. It provides a standard Arduino library to assist developers and makers to devise a complete set of IoT solutions.