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Produkte und Technologien / Nuvoton Launches NUC130/NUC140 with CAN 2.0
https://www.nuvoton.com.cn/news/news/products-technology/TSNuvotonNews-000044/
Nuvoton Launches NUC130/NUC140 with CAN 2.0 Brand new 32-bit μC powered by the ARM® Cortex™-M0 NuTiny-140 Development Tool Hsinchu, Taiwan – July 1st , 2011 – Following the success of the NUC100/NUC120 and NuMicro M051™ series, Nuvoton Technology today launched the brand new NUC130/NUC140 seriesembedded with Controller Area Network (CAN) 2.0B (License from BOSCH). The NUC130/NUC140 series powered by the ARM® Cortex™-M0 processor - the smallest, lowest power and most energy-efficient ARM processor available today, is developed for CAN network applications. With an operating frequency of up to 50MHz, equivalent to 45DMIPS (45 Dhrystone MIPS), theNUC130/NUC140 series can provide a powerful CAN network information communication and data processing capability. The NUC130/NUC140 series features a 32-bit single-cycle multiplier, NVIC (Nested Vectored Interrupt Controller), dual-channel APB and peripheral direct memory access (PDMA). The series offers built-in Flash memory from 32KB to 128KB,
Häufig gestellte Fragen / How to perform ISP upgrades for Nuvoton 8051 MCU series with the ISP function?
https://www.nuvoton.com.cn/support/technical-support/faq/d6725da3-04f1-11ea-b113-05daf7eedf03/
How to perform ISP upgrades for Nuvoton 8051 MCU series with the ISP function? 1467350807960 Through the 8051 ISP-ICP programmer: After starting the 8051 ISP-ICP programming tool, the user can select "ISP" as the "Programmer Type" to perform ISP upgrades. For details, please refer to “8051 ISP Programmer, v7.15.pdf” in the BSP (Board Support Package) of 8051 ISP-ICP programmer. Through the COM port: After starting the 8051 ISP-ICP programming tool, the user can select "ISP by COM Port" as the "Programmer Type" to perform ISP upgrades. For details, please refer to “8051 ISP by COM Port, v7.15.pdf” in the BSP (Board Support Package) of 8051 ISP-ICP programmer.
Häufig gestellte Fragen / How to write the ISP into Nuvoton 8051 MCU series?
https://www.nuvoton.com.cn/support/technical-support/faq/d676f186-04f1-11ea-b113-05daf7eedf03/
How to write the ISP into Nuvoton 8051 MCU series? 1467350819825 The BSP (Board Support Package) of 8051 ISP-ICP programmer (click here to download) contains the standard ISP program. User can select the corresponding programmer according to the series used to write standard ISP program. Standard 8051 series: User can write the ISP program through a third party programming tool. For details, please refer to “AN8002_Program_ISP_Code_in_LDROM_EN_Rev1.10.pdf” in the BSP (Board Support Package) of 8051 ISP-ICP programmer. Low Pin 8051 series: User can configure and write the ISP program in the LDROM of the 8051 ISP-ICP programmer through the 8051 ISP-ICP programmer. User can write the ISP program through a third party programming tool. For details, please refer to “AN8002_Program_ISP_Code_in_LDROM_EN_Rev1.10.pdf” in the BSP (Board Support Package) of 8051 ISP-ICP programmer.
M262ZIAAE
https://www.nuvoton.com.cn/products/microcontrollers/arm-cortex-m23-mcus/m261-m262-m263-series/m262ziaae/
The NuMicro® M262ZIAAE is a low-power microcontroller platform based on Arm® Cortex®-M23 core for Armv8-M architecture. It runs up to 64 MHz with 512 Kbytes embedded Flash memory in dual bank mode supporting Over-The-Air ( OTA ) firmware update and 96 Kbytes embedded SRAM . It also supports low supply voltage from 1.8 ~ 3.6 V and operating temperature range from - 40 ~ + 105 ℃ . Low power and robust security are two major vitals for Internet-of-Things ( IoT ) applications. The NuMicro® M262ZIAAE provides multi power modes for diverse operating scenarios, such as Power-down mode ( PD ) , Fast Wake-up Power-down mode ( FWPD ) , Low Leakage Power-down mode ( LLPD ) , Ultra Low Leakage Power-down mode ( ULLPD ) , Standby Power-down mode ( SPD ) and Deep Power-down mode ( DPD ) . Regarding the power consumption of the NuMicro® M262ZIAAE, 97 μA / MHz ( LDO mode ) and 45 μA / MHz ( DC-DC mode ) in normal run mode, 2.8 μA in Standby Power-down mode, and less than 2μA in Deep Power-down mode
M261KIAAE
https://www.nuvoton.com.cn/products/microcontrollers/arm-cortex-m23-mcus/m261-m262-m263-series/m261kiaae/
The NuMicro® M261KIAAE is a low-power microcontroller platform based on Arm® Cortex®-M23 core for Armv8-M architecture. It runs up to 64 MHz with 512 Kbytes embedded Flash memory in dual bank mode supporting Over-The-Air ( OTA ) firmware update and 96 Kbytes embedded SRAM . It also supports low supply voltage from 1.8 ~ 3.6 V and operating temperature range from - 40 ~ + 105 ℃ . Low power and robust security are two major vitals for Internet-of-Things ( IoT ) applications. The NuMicro® M261KIAAE provides multi power modes for diverse operating scenarios, such as Power-down mode ( PD ) , Fast Wake-up Power-down mode ( FWPD ) , Low Leakage Power-down mode ( LLPD ) , Ultra Low Leakage Power-down mode ( ULLPD ) , Standby Power-down mode ( SPD ) and Deep Power-down mode ( DPD ) . The NuMicro® M261KIAAE also integrates RTC with independent VBAT voltage source pin to support low power mode with main power off and VBAT only. Regarding the power consumption of the NuMicro® M261KIAAE, 97 μA /
M261SIAAE
https://www.nuvoton.com.cn/products/microcontrollers/arm-cortex-m23-mcus/m261-m262-m263-series/m261siaae/
The NuMicro® M261SIAAE is a low-power microcontroller platform based on Arm® Cortex®-M23 core for Armv8-M architecture. It runs up to 64 MHz with 512 Kbytes embedded Flash memory in dual bank mode supporting Over-The-Air ( OTA ) firmware update and 96 Kbytes embedded SRAM . It also supports low supply voltage from 1.8 ~ 3.6 V and operating temperature range from - 40 ~ + 105 ℃ . Low power and robust security are two major vitals for Internet-of-Things ( IoT ) applications. The NuMicro® M261SIAAE provides multi power modes for diverse operating scenarios, such as Power-down mode ( PD ) , Fast Wake-up Power-down mode ( FWPD ) , Low Leakage Power-down mode ( LLPD ) , Ultra Low Leakage Power-down mode ( ULLPD ) , Standby Power-down mode ( SPD ) and Deep Power-down mode ( DPD ) . The NuMicro® M261SIAAE also integrates RTC with independent VBAT voltage source pin to support low power mode with main power off and VBAT only. Regarding the power consumption of the NuMicro® M261SIAAE, 97 μA /
NuMaker-ML54SD
https://www.nuvoton.com.cn/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
NuTiny-N76S003AT
https://www.nuvoton.com.cn/board/nutiny-n76s003at/
The NuTiny-N76S003AT is an evaluation board for Nuvoton NuMicro N76S003AT20 microcontrollers. The NuTiny-N76S003AT consists of two parts: an N76S003AT20 target board and an on-board Nu-Link2-Me debugger and programmer. The NuTiny-N76S003A is designed for project evaluation, prototype development and validation with power consumption monitoring function. The NuTiny-N76S003A board is suitable for a wide range of applications such as home appliances, LED lighting controls, motor controls or Industrial automation. The NuTiny-N76S003A offers N76S003AT20 full pins extension connectors and diversified power supply option. It is an easy-to-develop platform for user to expand the functionality and build the applications. 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 messages on PC.
Häufig gestellte Fragen / How to handle it when using the ICP tool for chip programming but mistakenly setting BOD Reset voltage to be higher than the system voltage, such that the chip is always in the reset state?
https://www.nuvoton.com.cn/support/technical-support/faq/d6aa0f94-04f1-11ea-b113-05daf7eedf03/
How to handle it when using the ICP tool for chip programming but mistakenly setting BOD Reset voltage to be higher than the system voltage, such that the chip is always in the reset state? 1468907283660 When mistakenly setting the BOD Reset voltage to be higher than the system voltage, there are two solutions: Increase the system voltage of the target chip and make it higher than the BOR voltage, release the chip reset state, and then update the correct setting using the ICP Tool. Connect the target chip through the ICP Tool. When the following message appears, click "Yes". The ICP Tool will try to erase the entire chip, including the voltage value of the BOR. When the "connection status detection" shows "try to erase the whole chip…", as shown below, the user needs to enter a reset signal in the nRESET pin to reset the target chip. If erasure is completed successfully, the following message will be displayed. At this time, the whole chip (including the BOR voltage) has been erased.
M261ZIAAE
https://www.nuvoton.com.cn/products/microcontrollers/arm-cortex-m23-mcus/m261-m262-m263-series/m261ziaae/
The NuMicro® M261ZIAAE is a low-power microcontroller platform based on Arm® Cortex®-M23 core for Armv8-M architecture. It runs up to 64 MHz with 512 Kbytes embedded Flash memory in dual bank mode supporting Over-The-Air ( OTA ) firmware update and 96 Kbytes embedded SRAM . It also supports low supply voltage from 1.8 ~ 3.6 V and operating temperature range from - 40 ~ + 105 ℃ . Low power and robust security are two major vitals for Internet-of-Things ( IoT ) applications. The NuMicro® M261ZIAAE provides multi power modes for diverse operating scenarios, such as Power-down mode ( PD ) , Fast Wake-up Power-down mode ( FWPD ) , Low Leakage Power-down mode ( LLPD ) , Ultra Low Leakage Power-down mode ( ULLPD ) , Standby Power-down mode ( SPD ) and Deep Power-down mode ( DPD ) . Regarding the power consumption of the NuMicro® M261ZIAAE, 97 μA / MHz ( LDO mode ) and 45 μA / MHz ( DC-DC mode ) in normal run mode, 2.8 μA in Standby Power-down mode, and less than 2μA in Deep Power-down mode
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