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NuMaker-NUC029SGE
https://www.nuvoton.com/board/numaker-nuc029sge/
The NuMaker-NUC029SGE is an evaluation board for Nuvoton NuMicro NUC029SGE and NUC029LGE microcontrollers. The NuMaker-NUC029SGE consists of two parts: an NUC029SG target board and an on-board Nu-Link2-Me debugger and programmer. The NuMaker-NUC029SGE is designed for project evaluation, prototype development and validation with power consumption monitoring function. The NUC029SG target board is based on NuMicro NUC029SGE. For the development flexibility, the NUC029SG target board provides the extension connectors, the Arduino UNO compatible headers and the capability of adopting multiple power supplies. Furthermore, the Nuvoton-designed ammeter connector can measure the power consumption instantly, which is essential for the prototype evaluation. In addition, there is an attached on-board debugger and programmer “Nu-Link2-Me”. The Nu-Link2-Me supports on-chip debugging, online and offline ICP programming via SWD interface. The Nu-Link2-Me supports virtual COM (VCOM) port for printing
NuMaker-M253LE
https://www.nuvoton.com/board/numaker-m253le/
The NuMaker-M253LE is an evaluation board for Nuvoton NuMicro M253LE and M253LD microcontrollers. The NuMaker-M253LE consists of two parts: an M253LE target board and an on-board Nu-Link2-Me debugger and programmer. The NuMaker-M253LE is designed for project evaluation, prototype development and validation with power consumption monitoring function. The M253LE target board is based on NuMicro M253LE3AE. For the development flexibility, the M253LE target board provides the extension connectors of M253LE3AE, the Arduino UNO compatible headers and the capability of adopting multiple power supplies. Furthermore, the Nuvoton-designed ammeter connector can measure the power consumption instantly, which is essential for the prototype evaluation. In addition, there is an attached on-board debugger and programmer “Nu-Link2-Me”. The Nu-Link2-Me supports on-chip debugging, online and offline ICP programming via SWD interface. The Nu-Link2-Me supports virtual COM (VCOM) port for printing debug
NuMaker-M463KG
https://www.nuvoton.com/board/numaker-m463kg/
The NuMaker-M463KG is an evaluation board for Nuvoton NuMicro M463YG, M463LG, M463SG, M463KG series microcontrollers. The NuMaker-M463KG consists of two parts: a M463KG target board and an on-board Nu-Link2-Me debugger and programmer. The NuMaker-M463KG is designed for project evaluation, prototype development and validation with power consumption monitoring function. The M463KG target board is based on NuMicro M463KGCAE. For the development flexibility, the M463KG target board provides the extension connectors, the Arduino UNO compatible headers and the capability of adopting multiple power supplies. Furthermore, the Nuvoton-designed ammeter connector can measure the power consumption instantly, which is essential for the prototype evaluation. In addition, there is an attached on-board debugger and programmer “Nu-Link2-Me”. The Nu-Link2-Me supports on-chip debugging, online and offline ICP programming via SWD interface. The Nu-Link2-Me supports virtual COM (VCOM) port for printing
NuMaker-NUC1311L
https://www.nuvoton.com/board/numaker-nuc1311l/
The NuMaker-NUC1311L is an evaluation board for Nuvoton NUC1311LC and NUC1311LD microcontrollers. The NuMaker-NUC1311L consists of two parts: an NUC1311 target board and an on-board Nu-Link2-Me debugger and programmer. The NuMaker-NUC1311L is designed for project evaluation, prototype development and validation with power consumption monitoring function. The NUC1311 target board is based on NuMicro NUC1311LD2AE. For the development flexibility, the NUC1311 target board provides the extension connectors, the Arduino UNO compatible headers and the capability of adopting multiple power supplies. Furthermore, the Nuvoton-designed ammeter connector can measure the power consumption instantly, which is essential for the prototype evaluation. In addition, there is an attached on-board debugger and programmer “Nu-Link2-Me”. The Nu-Link2-Me supports on-chip debugging, online and offline ICP programming via SWD interface. The Nu-Link2-Me supports virtual COM (VCOM) port for printing debug
Product and Technology / [NuMicro® NEWS Vol.2]Unleash Your 8-bit Application's Potential with NuMicro M051™
https://www.nuvoton.com/news/news/products-technology/TSNuvotonNews-000061/
Vol.2 - Sep. 2010 | Nuvoton Homepage | Contact Us | NuMicro™ NEWS Unleash Your 8-bit Application's Potential with NuMicro M051™ Nuvoton's brand new 32-bit μC powered by the ARM® Cortex™-M0 - 9/1/2010 Hsinchu, Taiwan — 9/1/2010 — Following the success of the NuMicro™ family, Nuvoton Technology today launched the NuMicro M051™ series - M052/54/58/516, its newest addition tothe NuMicrofamily. The NuMicro M051 is powered by the ARM® Cortex™-M0 processor - the smallest, lowest power and most energy-efficient ARM processor available today. As the newest member of the highly successful and powerful NuMicro family, the NuMicro M051 series delivers the same wide operating voltages and high performance while including mixed-signal components and a variety of high-speed communication interfaces, enabling users to easily upgrade their products from the traditional 8051 to the brand new 32-bit NuMicro M051. NuvotonTechnology's new NuMicro M051 series satisfies the demands of 8-bit microcontroller
NuMaker-ML54SD
https://www.nuvoton.com/board/numaker-ml54sd/
The NuMaker-ML54SD is a development board for Nuvoton NuMicro® ML54 series microcontrollers. The ML54 series is the first of NuMicro® 8051 series integrated with LCD controller function. The NuMaker-ML54SD platform consists of three parts: an ML54 evaluation board, an on-board Nu-Link2-Me debugger and programmer, and a HTN-LCD panel module. The NuMaker-ML54SD is designed for project evaluation, prototype development and validation with power consumption monitoring function. The ML54 evaluation board is based on NuMicro® ML54SD1AE. For the development flexibility, the ML54 platform provides the extension connectors of ML54SD1AE, the Arduino UNO compatible headers and able to adopt multiple power supply. Furthermore, the Nuvoton-designed ammeter connector can measure the power consumption instantly, which is essential for the prototype evaluation. The NuMaker-ML54SD provides 8 x 28 COM/SEG LCD display function. With the HTN-LCD panel, user can implement LCD display function of ML54SD1AE
NuMaker-Volcano
https://www.nuvoton.com/board/numaker-volcano/
The NuMaker-Volcano is an evaluation board for Nuvoton NuMicro M0A21/M0A23 microcontrollers. The NuMaker-Volcano consists of two parts: an M0A21/M0A23 target board and an on-board debugger and programmer. The NuMaker-Volcano is designed for project evaluation, prototype development and validation. The M0A21/M0A23 target board is based on NuMicro M0A23EC1AC. For the development flexibility, the M0A21/M0A23 target board provides the extension connectors of M0A23EC1AC. In addition, there is an attached on-board debugger and programmer “Nu-Link2-Me”. The Nu-Link2-Me supports on-chip debugging, online ICP programming via SWD interface, and virtual COM (VCOM) port for printing debug messages on PC. Board Introduction Quick Start Board Features 1. Install the preferred toolchain. Please make sure at least one of the toolchains has been installed. - KEIL MDK Nuvoton edition M0 / M23 - IAR EWARM - NuEclipse (GCC) ( Windows ) - NuEclipse (GCC) ( Linux ) 2.
NuMaker-ML51SD
https://www.nuvoton.com/board/numaker-ml51sd/
The NuMaker-ML51SD is a development board for Nuvoton NuMicro® ML51 series microcontrollers. The NuMaker ML51SD consists of two parts: an ML51 platform and an on-board Nu-Link2-Me debugger and programmer. The NuMaker-ML51SD is designed for project evaluation, prototype development and validation with power consumption monitoring function. The ML51 platform is based on NuMicro® ML51SD1AE. For the development flexibility, the ML51 platform provides the extension connectors of ML51SD1AE, the Arduino UNO compatible headers and able to adopt multiple power supply. Furthermore, the Nuvoton-designed ammeter connector can measure the power consumption instantly, which is essential for the prototype evaluation. In addition to the ML51 platform, there is an attached on-board debugger and programmer “Nu-Link2-Me”. The Nu-Link2-Me supports on-chip debugging, online and offline ICP programming via SWD interface. The Nu-Link2-Me supports virtual COM (VCOM) port for printing debug messages on PC.
Special Application
https://www.nuvoton.com/foundry-service/application/special-application/
Specialty Applications To meet your specific applications in the field of special process requirements, we focus on the customization process. Sensors In order to sense and process real world analog signals, (such as light, temperature, pressure, pH etc.) ICs must have sensor capability. This enables customers to produce Mixed Signal IC’s with both Sensor capability. To serve the sensor needs Nuvoton Foundry Service provides sensor process platform. Specialty Power Devices With the rise of environmental consciousness, requirements for efficient high-power systems have become increasingly stringent. In some cases, Si material power components cannot perform to the required specifications so wide band-gap materials must be used instead. To serve these needs Nuvoton has a special process flow to build GaN power devices. ESD Protection Many electronic products have ports that interface with the outside world that exposes the circuits to Electrostatic Discharge (ESD).
Technologies
https://www.nuvoton.com/foundry-service/technologies/
Focus on Technology Nuvoton Foundry’s process technology currently offers 0.35um processes, including General logic, Mixed-signal, High voltage, Ultra high voltage, Power management, Mask ROM, Embedded logic Non-Volatile memory process and more. Available Technologies Process Technology Process Logic / Mixed Mode 0.35um 3.3V / 5V Mixed Mode 0.45um 3.3V , 5V Mixed Mode 0.5um 3.3V , 5V Mixed Mode Embedded Logic NVM 0.35um 3.3V , 5V Mixed Mode embedded NVM Mask ROM 0.35um 3.3V / 5V Logic embedded 0.32um Flat Cell 0.5um 5V Logic embedded 0.37um Flat Cell High Voltage / Power 0.35um 5V ~ 700V BCD Process 0.6um 5V / 12V / 16V / 20V CDMOS 5V / 18V / 30V / 40V Low-Vgs CDMOS 5V / 25V / 40V Dual-Vgs CDMOS 5V / 40V / UHV Modular Process Technology Roadmap In order to enhance our customers’ competitive edge, Nuvoton continues its evolution into power management with high voltage capability on our 0.35um process as we continue to optimize new high-voltage and power devices.