影片中介紹新唐科技 MPU N9H30 Linux 與 Non-OS 開發環境建置，以 NuMaker-emWin-RDK-N9H30 為範例，由開發板介紹開始，到BSP與相關軟體下載。 - 新唐科技提供 emWin 開發平台其採用新唐的 N9H30 微處理器系列，此為一套完整的人機顯示介面解決平台，支援最高解析度為 1024 x 768 像素顯示器，因 N9H30 系列採用 ARM926EJ-S 為內核，運行速度達 300 MHz，最高可驅動彩色 1024 x 768 像素並行端口（Parallel Port），內建 TFT LCD 控制器與 2D 圖形加速器，該系列內建最高達 64 MB DDRII SDRAM 記憶體，讓開發者在使用 emWin 軟體時，具備設計彈性。 以下將帶給各位如何將 Linux OS 與 Non-OS code 燒錄至開發板，以 NuMaker-emWin-RDK-N9H30 做示範，這部影片中所有指令與網址都會放在下方影片內容給大家參考，User Manual 相關文件都放在新唐官方網站 https://www.nuvoton.com/products/gui-solution/gui-reference-design/numaker-emwin-rdk-n9h30/ 我們先示範將 Linux OS 建置到 N9H30 開發板，到新唐的 Github 網站 OpenNuvoton 找尋我們所使用的開發板 N9H30 並下載新唐提供的 VMware 映像 https://github.com/OpenNuvoton/MPU-Family VMware 主程式則需要到該公司的官方網站下載： https://www.vmware.com/tw/products/workstation-player/workstation-player-evaluation.html 首先我們開啟 VMware 主程式，找尋我們剛剛下載的 ubuntu_NUC970_980_Linux 資料夾，點選 Ubuntu 64-bit_nuvoton.vmx，點選 Play virtual machine，密碼請輸入 user，第一次打開會需要一點時間，開機完成後打開 Terminal，再來進入 NUC970_Buildroot-master 資料夾 進入資料夾後，我們先更新 Buildroot 工具，輸入以下指令： git reset --hard git pull 更新完成後，進入 dl 資料夾，先將既有的 Linux kernel 與 u-boot 刪除，輸入以下指令： sudo rm -rf linux-master.tar.gz uboot-master.tar.gz 輸入完後，輸入密碼 user 輸入完成後，離開 dl 資料夾，進入 buildroot 資料夾，下 make clean 以上動作只需要在更新時使用，接下來我們要設定開發板的編譯設定，先進入 configs 資料夾找尋開發板名稱，找到名稱後回到 buildroot，輸入 make nuvoton_n9h30_emwin_defconfig 產生 configuration file，設定完成後輸入 make 開始編譯，編譯時間大約為三小時。 編譯完成後，執行以下步驟 1.修改nuc970_evb.h，47~50行 ~$gedit /output/build/uboot-master/include/configs/nuc970_evb.h #define CONFIG_SYS_USE_SPIFLASH /* #define CONFIG_ENV_IS_IN_NAND */ #define CONFIG_ENV_IS_IN_SPI_FLASH 2. 修改uboot configuration ~/output/build/uboot-master$ make menuconfig -＞ Device Drivers -＞ SPI Support [*] NUC970/N9H30 SPI driver Select NUC970/N9H30 SPI in Quad mode or Normal mode (Quad mode) ---＞ -＞ SPI Flash Support [*] Legacy SPI Flash Interface support [*] SPI flash Bank/Extended address register support [*] Winbond SPI flash support -＞ Command line interface -＞ Device access commands [*] sf 3.重新編譯，並重新燒錄 u-boot.bin ~/Buildroot$ make uboot-rebuild 編譯完成後，請將以下兩個檔案複製至 windows 下 /NUC970_Buildroot-master/output/images/uImage /NUC970_Buildroot-master/output/build/uboot-master/u-boot.bin 並且建立記事本 env-nor.txt，內容如下 baudrate=115200 bootdelay=1 stderr=serial stdin=serial stdout=serial setspi=sf probe 0 50000000 loadkernel=sf read 0x7fc0 0x200000 0x600000 bootcmd=run setspi;run loadkernel;bootm 0x7fc0 bootargs=noinitrd root=/dev/mtdblock2 rw rootfstype=jffs2 console=ttyS0 rdinit=/sbin/init mem=32M mtdparts=m25p80:0x200000@0x0(u-boot),0x600000@0x200000(kernel),-(user) ignore_loglevel 再來我們則需要安裝 NuWriter 所需要的相關檔案，NuWriter 是新唐提供的燒錄工具，提供在 PC上使用的軟體及其原始碼，使用者可以依照需求自行開發功能 https://github.com/OpenNuvoton/MPU-Family 下載完成後，打開 NUC970_NuWriter-master，到 Driver 資料夾安裝 WinUSB4NuVCOM.exe，安裝完後，到 NuWriter 資料夾底下的 Release 執行 NuWriter，依據自身開發板，選擇晶片編號，我們要把 Image 燒錄到 SPI Flash， 因此選擇 SPI 這邊需要將開發板的 Power-On Setting 全都撥到 ON 的位置 ，並且按壓一次 Reset 鍵，回到 NuWriter 確認綠燈連結至開發板，如果沒有，請點選 Re-Connect 重新連結，確認完後開始燒錄Image： u-boot.bin 燒錄至 0xe00000 env-nor.txt 燒錄至 0x80000 uImage 燒錄至 0x200000 等燒入完成後將開發板上的 Power Setting 都撥到 OFF 的位置，按壓一次 Reset 鍵，即可開始從SPI-NOR 開機，開機完成後，我們先到 /etc/init.d 底下找尋範例程式 rcS，輸入 chmod 777 rcS 調整權限後，即可在開發板螢幕上看到相關應用，編譯與燒錄程式就到這邊告一段落。 接下來為大家帶來 Non-OS code 編譯與燒錄，請大家先到以下網址下載 MDK-Arm https://www.keil.com/download/product/ 後續再下載新唐提供的 Non-OS BSP 包 https://github.com/OpenNuvoton/MPU-Family BSP 包裡面含有 Keil 詳細的開發環境設定手冊可以參閱，使用 Keil 則需要購買相關的 license，下載安裝完成後，打開 Keil uVision，點選左上角 File，選擇 Open，到剛剛下載的 BSP 包裡面， 依序選擇 BSP、SampleCode、emWin_SimpleDemo、KEIL、emWin_SimpleDemo.uvproj 再來我們點選 Option for Target，點選 Device，選擇 NuMicro ARM9 Database、N9H_series 完成後點選 Rebuild，編譯完成後即會產出 sample code的binary 檔案。 編譯完成後，打開 NuWriter，重新連接開發板，連接完成後，選擇 SPI，依循以下路徑找尋我們剛剛編譯的程式 \N9H30_emWin_Non-OS_BSP_v1.04.000\N9H30_emWin_Non-OS_BSP_v1.04.000\BSP\SampleCode\emWin_SimpleDemo\KEIL\obj\emWin_SimpleDemo_FW070TFT_24BPP.bin 選擇完後，依照畫面設定，並燒錄至 0x0 的位置，燒錄完成後，將 Power-On Setting 改為 SPI 開機，即可在開發板上看到範例程式。 以上是這次的教學影片，後續我們還會為遠端監控功能和一些新的設計做更多介紹，感謝您的收看，歡迎訂閱我們的頻道，如果您想知道更多資訊歡迎聯絡我們！ #Basic #Product #Tool #Learning #zh-Hant - 更多產品資訊，請至新唐科技網站 https://bit.ly/3hVdcmC 購買管道：https://direct.nuvoton.com/tw 聯絡我們： SalesSupport@nuvoton.com

此影片將教各位從零開始使用 Chili Board，下載新唐提供的虛擬環境、BSP、Linux 環境設定、Image 編譯與燒錄、Chili Board 開機。基於新唐提供的開發平台，能有效縮短使用者在 Linux 的環境設定時間，直接進入開發應用程式的階段。 【步驟&時間軸】 00:00​ Intro 簡介 00:23 下載 Linux 開發環境 VMware 虛擬機、NUC980 Linux V4.4 BSP 00:59 開啟 VMware 主程式 01:42 更新 Buildroot 工具 02:44 開發板的編譯設定 03:31 抓取 Image 檔 04:12 uboot 啟動參數 04:23 安裝 NuWriter 所需要的相關檔案 05:15 將開發板兩個 Micro USB 接上 PC 05:20 執行 NuWriter 05:34 打開 PuTTY 06:10 開始燒錄 Image 【Linux 開發環境 VMware 虛擬機】 https://www.nuvoton.com/resource-download.jsp?tp_GUID=SW1320200406183205 【NUC980 Linux V4.4 BSP】 https://www.nuvoton.com/resource-download.jsp?tp_GUID=SW1820200909165814 【更新 Buildroot 工具】 進入 Buildroot 資料夾後請輸入以下指令: git reset --hard git pull 更新完成後進入 dl 資料夾，先將既有的 linux kernel 與 u-boot 刪除，並輸入以下指令： sudo rm -rf linux-master.tar.gz 輸入密碼 user，並輸入以下指令： sudo rm -rf uboot-master.tar.gz 離開 dl 資料夾，進入 Builroot 資料夾下 make clean。 【開發板的編譯設定】 進入 configs 資料夾，找到開發板名稱後回到 buildroot，輸入： make nuvoton_nuc980_chili_defconfig 產生預設的 configuration file，設定完成後輸入 make 開始編譯。 編譯完成後，點選左方檔案系統至各個地方抓取 Image 檔複製到 PC 資料夾，請參考以下路徑： /NUC970_Buildroot-master/output/images/uImage /NUC970_Buildroot-master/output/build/uboot-master/u-boot.bin env.txt 則需要自己建立，此檔案為 uboot 啟動參數，請參考下方文字： baudrate=115200 bootdelay=1 stderr=serial stdin=serial stdout=serial setspi=sf probe 0 30000000 loadkernel=sf read 0x7fc0 0x200000 0x800000 bootcmd=run setspi;run loadkernel;bootm 0x7fc0 #Linux #IoT #工業物聯網 #物聯網 #NUC980 #ChiliBoard #NuMaker-RTU-NUC980 #NK-RTU980 #RTU #application #learning #intermediate #zh-Hant - 更多產品資訊，請至新唐科技網站 https://bit.ly/3hVdcmC 購買管道：https://direct.nuvoton.com/tw 聯絡我們： SalesSupport@nuvoton.com

嗨，大家好我是新唐產品應用工程師 Aaron 今天為各位介紹的是新唐安全微控制開發平台 - NuMaker-IoT-M2354 NuMaker-IoT-M2354 開發板上帶有新唐 - NuMicro M2354 微控制器，採用封裝為 LQFP128。在正式介紹開發平台前，先快速帶領大家了解 NuMicro M2354 的各項特色，M2354 是基於 Arm® Cortex®-M23，新唐最新一代的安全物聯網微控制器，除了 CPU 本身具備的 TrustZone 安全防護功能，讓您在單一 CPU 內實現安全及非安全區的管理。全系列皆帶有 1 MB Flash, 256 KB 的 SRAM，讓使用者更能專注於軟體的開發而不需擔心資源不足的問題。這點在物聯網裝置常需搭配 OS 做開發來說來說，尤為重要。 M2354 提供豐富的周邊，除了基本的 UART, I²C, SPI，更支援 Quad SPI , USB FS OTG, SD Host 以及 CAN BUS，而為了便於物聯網裝置常有的數據顯示需求，M2354 支援了 COM/SEG LCD，多達 320 點的 LCD 驅動器，能夠滿足各種智慧家庭及物聯網應用。 除了豐富周邊，M2354 最大特色就是支援了許多安全功能：Secure boot 提供根信根機制，能確保運行軟體的合法法及完整性，RSA ECC AES SHA 各種加密算法能加速聯網時，所需要的認證及資料加密需求，搭配 key store的使用能將加解密的過程提升到更高的安全層次。 而為了能符合 PSA CertifiedTM Level 3 (物聯網認證標準) 的安全需求，M2354 針對非侵式的攻擊手法也提供了對應的安全防護措施，防止如側信道及故障故入等攻擊。 那緊接著介紹我們今天的主題，NuMaker-IoT-M2354 基於上述的特色及安全規劃，我們認為 M2354 非常適合作為物聯網裝置的開發平台，因此製作了一片開發板，希望能加速使用者孰悉 M2354 的開發及應用。NuMaker-IoT-M2354 搭載 Bosch BME680 環境感測器，能偵測 VOC (揮發性有機物) 氣壓、溫濕度等指數，藉由 MBED OS 開發平台提供的完整連雲範例以及 M2354 支援的各種加密加速器，可實時且安全的將數據送往雲端 (如 Pelion，AWS)。開發者也可同步將數據顯示在 LCD 屏上，新唐BSP 提供完整屏的函示庫做為快速開發使用。 NuMaker-IoT-M2354 平台提供 Wi-Fi 及 LoRa 兩種無線模組，使用者可根據資料傳遞量及功耗表現等需求來決定想採用的無線連接方式，其中需注意的是若使用 LoRa 模組進行連雲開發，則還須搭配新唐推出的 NUC980 LoRa Gateway。NuMaker-IoT-M2354 的 LoRa 模組共支援兩種頻段，分別為 915MHz/433MHz，使用者可在依據開發需求來做選購。 除了提供豐富周邊，為了讓使用者能有更為彈性的開發介面，NuMaker-IoT-M2354 同時支援了 Arduino UNO 及 mikroBUS 兩種擴充應用，若使用者有 NB-IoT 或者 4G-LTE 等連線開發需求，新唐同時也提供這兩種模組的 Arduino UNO 開發板可以與 NuMaker-IoT-M2354 做搭配使用 (Quectel-BG96A for NB-IoT/ Quectel-EC21A for 4G-LTE)。 除此之外，板子上也提供多種電源供應介面及耗電量測介面以及 Nu-link2-Me 燒錄偵錯開發工具，能支援 BSP 透過 Keil IAR GCC 進行開發，也支援 Mbed IDE 開發系統。 以上就是今天為大家所做的介紹，若有任何問題都歡迎與我們聯繫，謝謝。 #zh-Hant #Learning #Intermediate #application - 相關開發工具及購賣連結： ● M2354 Series https://www.nuvoton.com/products/microcontrollers/arm-cortex-m23-mcus/m2354-series/ ● NuMaker-LoRa-NUC980 https://www.nuvoton.com/products/iot-solution/lora-platform/index.html ● NuMaker-M2354 https://direct.nuvoton.com/tw/numaker-m2354 ● Quectel-BG96A https://direct.nuvoton.com/tw/quectel-bg96a ● Quectel-EC21A https://direct.nuvoton.com/tw/quectel-ec21a #zh-Hant #Learning #Basic #Application #Product #Nuvoton #NuMicro #新唐科技 #MCU #微控制器 #M2354 #TrustZone #安全 #物聯網 #NuMaker-IoT-M2354 #IoT #Arm®Cortex®-M23 #M23 - 更多產品資訊，請至新唐科技網站 https://bit.ly/3hVdcmC 購買管道：https://direct.nuvoton.com/tw 聯絡我們： SalesSupport@nuvoton.com

The NuMicro® MA35D1 series is a heterogeneous multi-core microprocessor targeted to high-end edge IIoT gateway. It is based on dual 64-bit Arm® Cortex®-A35 cores with speed up to 1 GHz, and one 180 MHz Arm® Cortex®-M4 core. Based on the high-performance cores, the MA35D1 series facilities the tiny AI/ML for edge computing. The MA35D1 supports 16-bit DDR2 and DDR3/ DDR3L SDRAM. For an easy system design and manufacture, the MA35D1 series also offers LQFP and BGA packages stacked with the DDR2/DDR3L SDRAM and density up to 512 MB, which significantly reduces PCB layer, size and electromagnetic interference (EMI). The MA35D1 series is a trusted system for IoT products' security requirements. It includes several advanced security mechanisms such as Nuvoton Trusted Secure Island (TSI) an isolated secure hardware unit, TrustZone, secure boot, tamper-detection, built-in cryptographic accelerators, and a TRNG, as well as Key Store and OTP memory. All the security operations are performed in the TSI to protect sensitive and high-value data. The features also satisfy customers in IEC 62443 certification requirements. For high-end edge IIoT gateway requirements, the MA35D1 series provides multiple advanced and high-speed connection interfaces, such as Gigabit Ethernet, SDIO3.0, USB 2.0 HS, and CAN FD, for edge gateway and new energy applications. For HMI applications, the MA35D1 series provides a LCD display controller with the resolution up to 1920x1080 at 60 FPS, a 2D graphic engine, a JPEG and a H.264 decoder integrated for better graphical HMI effects and video playback. NuMicro MA35D1 series targets the applications of: - Edge Gateway - Lightweight AI/ML - HMI & Industrial Control - New Energy Devices Contact us to get more information. Start to evaluate NuMicro MA35D1 and innovate your products today. #General #Product #Learning #en #MA35D1 #Nuvoton #NuvotonMPU #NuvotonHMI #NuvotonEdgeGateway #NuMaker-HMI-MA35D1-S1 #NuMaker-IoT-MA35D1-A1 - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC buy now: https://direct.nuvoton.com/ contact us: SalesSupport@nuvoton.com

Motorcycle Dashboard Demo on NuMaker-HMI-N9H30 EVB 【Demo Features】 • Fast booting (booting time less than 1 sec) • The dashboard GUI implementation by emWin graphics library • The 2D GFx help the smooth TFT-LCD display #en #Application #Learning #Basic - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC buy now: https://direct.nuvoton.com/ contact us: SalesSupport@nuvoton.com

Hi everyone, I'm Aaron. The FAE of Nuvoton technology. Today, I'm glad to show you the Nuvoton secure development board, NuMaker-IoT-M2354. The NuMaker-IoT-M2354 is an IoT evaluation board powered by the NuMicro® M2354 series. Before the introduction of NuMaker-IoT-M2354, I will take you to a quick understanding of NuMicro M2354. The M2354 is the latest NuMicro IoT series product which is based on Arm® Cortex®-M23 CPU core technology. The TrustZone® technology based on Armv8-M architecture is a CPU system-wide approach to microcontroller security. The M2354 series carry 1 Mbytes embedded Flash memory and 256 Kbytes SRAM. It's essential for IoT devices with real-time OS requirements. And you can focus on software development without warring about the flash and SRAM resource. The M2354 series is equipped with plenty of peripherals. In addition to providing UART I2C SPI Timer, it also supports the Quad SPI, USB FS OTG, and CAN BUS. Furthermore, to satisfy the IoT device's display development, the M2354 series built-in 8 COM x 40 SEG LCD controller drives up to 320 dots to meet various smart home and IoT appliances. In addition to providing many peripherals, the critical feature of M2354 is supporting many security functions. The secure boot ensures the legality and integrity of the running firmware. The hardware crypto with RSA/ECC/AES/SHA accelerators can help the device connect to the cloud fast and safely. Moreover, the M2354 is equipped with Key Store, which could be used with crypto accelerators to enhance the chip security level. To comply with Arm PSA CertifiedTM Level 3, the M2354 has implemented some countermeasures to protect against non-invasive attacks like side-channel attacks or fault injection attacks. The NuMaker-IoT-M2354 equips a Bosch environmental sensor, BME680, which contains temperature, humidity, barometric pressure, and VOC gas sensing capabilities. After getting data from the sensor, users can send data to the cloud, such as Pelion or AWS, by Mbed OS. Because M2354 supports hardware crypto, the data can be sent more efficiently and safely. The data could be shown on the LCD panel by the LCD library provided in the M2354 BSP. The NuMaker-IoT-M2354 contains a Wi-Fi module and LoRa module for wireless applications. Depending on the data throughput and power consumption, you can choose one of them for your IoT applications. In the LoRa network, each node is not connected but must be connected to the gateway before being linked back to the central host, or data can be transmitted to another node through the central host. For example, if choosing the LoRa module for the cloud development, you could use NUC980 LoRa Gateway for your gateway platform. The NuMaker-IoT-M2354 supports the radio frequency band of the LoRa module on 915MHz and 433MHz, depending on the customer's requirement. In addition to providing the rich peripheral, the NuMaker-IoT-M2354 also equips the Arduino UNO connector and mikroBUS™ connector for flexible applications. Suppose you want to develop other wireless connecting features like 4G-LTE or NB-IoT. In that case, the Nuvoton also provides a UNO-to-PCI adapter board to supports Quectel EC21 4G/LTE and Quectel BG96 NB-IoT modules. The NuMaker-IoT-M2354 also provides multiple power supplies by external power connectors and an ammeter connector that can instantly measure power consumption. In addition, the Nu-link2-Me on the board is a debugger and programmer supporting development on Keil, IAR, GCC, and Mbed IDE. #en #Learning #Basic #Application #Product - Online Purchase Development Tools： ● M2354 Series https://www.nuvoton.com/products/microcontrollers/arm-cortex-m23-mcus/m2354-series/index.html ● NuMaker-LoRa-NUC980 https://www.nuvoton.com/products/iot-solution/lora-platform/ ● NuMaker-M2354 https://direct.nuvoton.com/tw/numaker-m2354 ● Quectel-BG96A https://direct.nuvoton.com/en/quectel-bg96a ● Quectel-EC21A https://direct.nuvoton.com/en/quectel-ec21a - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC buy now: https://direct.nuvoton.com/ contact us: SalesSupport@nuvoton.com

The video introduces Nuvoton's MPU N9H30's development set-up for Linux and Non-OS, taking NuMaker-emWin-RDK-N9H30 for example. Starting from the EVB introduction to BSP and related software downloads. - User manuals and related resource can be downloaded https://www.nuvoton.com/products/gui-solution/gui-reference-design/numaker-emwin-rdk-n9h30/ First, we introduce how to program Linux OS to the N9H30 evaluation board Find the N9H30 evaluation board resource that we used on Nuvoton’s Github and download the VMware Image https://github.com/OpenNuvoton/MPU-Family VMware application can be downloaded from the VMware website https://www.vmware.com/tw/products/workstation-player/workstation-player-evaluation.html First, open the VMware Find the ubuntu_NUC970_980_Linux folder we downloaded Choose Ubuntu 64-bit_nuvoton.vmx Choose Play virtual machine The password is “user” It will take a while to open this application for the first time Open the terminal when the system is ready Enter NUC970_Buildroot-master folder After entering the folder, we need to update the Buildroot tool Enter the command as shown below “git reset –hard” “git pull” After updating, enter the dl folder Remove the original Linux kernel and u-boot Enter the command as shown below “sudo rm -rf linux-master.tar.gz uboot-master.tar.gz” After entering, enter the password “user” Leave the dl folder and enter the Buildroot folder Enter the “make clean” command You don’t need to do these steps unless updating Buildroot tools Now, we set up the evaluation board configuration Enter configs folder to search evaluation board name Back to buildroot after searching Enter “make nuvoton_n9h30_emwin_defconfig” to generate configuration file After finishing these step, enter “make” to compile It will take about three hours to compile After compiling, copy the two files below to windows “/NUC970_Buildroot-master/output/images/uImage” “/NUC970_Buildroot-master/output/build/uboot-master/u-boot.bin” Create text file ”env-nor.txt” The content is shown below: baudrate=115200 bootdelay=1 stderr=serial stdin=serial stdout=serial setspi=sf probe 0 50000000 loadkernel=sf read 0x7fc0 0x200000 0x600000 bootcmd=run setspi;run loadkernel;bootm 0x7fc0 bootargs=noinitrd root=/dev/mtdblock2 rw rootfstype=jffs2 console=ttyS0 rdinit=/sbin/init mem=32M mtdparts=m25p80:0x200000@0x0(u-boot),0x600000@0x200000(kernel),-(user) ignore_loglevel Then, we need to install NuWriter and related file The NuWriter is a programming tool provided by Nuvoton. The NuWriter application and firmware code are open-sourced, and users can add new features or develop new user interfaces per user’s application NuWriter: https://github.com/OpenNuvoton/MPU-Family Open “NUC970_NuWriter-master” Enter Driver folder and install “WinUSB4NuVCOM.exe” Enter /Nuwriter/Release and execute NuWriter Choose IC number based on the evaluation board We need to program Image to SPI Flash, so we choose SPI Here we need to turn the all Power-On Setting to ON Push Reset button Return to NuWriter to check the green light and the connection If it is not connecting, click Re-Connect to reconnect After confirm the connection, start to program Image Program the three files to particular address u-boot.bin program to 0xe00000 env.nor.txt program to 0x80000 uImage program to 0x200000 After programming, turn the Power-On Setting to off Push the Reset button Evaluation board can start to boot from SPI-NOR After booting, we need to find the rcS demo application under/etc/init.d Enter “chmod 777 rcS” to modify the application Now, you can see the application on the evaluation board panel Here, we finish compiling and programming The next topic is how to compile and program Non-OS code First, download MDK-Arm from the link below https://www.keil.com/download/product/ Download the Non-OS BSP provided by Nuvoton https://github.com/OpenNuvoton/MPU-Family The BSP includes Keil environment set up user manual Use Keil need to purchase the related license After downloading, Open Keil uVision Click the File on the upper left and choose Open Go to the BSP that we downloaded choose BSP, SampleCode, emWin_SimpleDemo, KEIL and emWin_SimpleDemo.uvproj Click Option for Target Click Device and choose NuMicro ARM9 Database and N9H_series After setting up, click Rebuild, and it will generate a sample code application which is a binary file Open the NuWriter and connect it to the evaluation board Choose SPI and search the application we built \N9H30_emWin_Non-OS_BSP_v1.04.000\N9H30_emWin_Non-OS_BSP_v1.04.000\BSP\SampleCode\emWin_SimpleDemo\KEIL\obj\emWin_SimpleDemo_FW070TFT_24BPP.bin Follow the setting and program the file to 0x0 After programming, turn the Power-On Setting to boot from SPI You can see the demo application on the evaluation #Basic #Product #Tool #Learning #en - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC buy now: https://direct.nuvoton.com/ contact us: SalesSupport@nuvoton.com

展示 Nu-Link2-Pro 如何在 PC 上搭配 ICP Programming Tool 將 ISP Bootloader 燒錄至 LDROM，再使用 Nu-Link2-Pro 的 Bridge I2C 介面搭配 ISP Programming Tool 來升級目標晶片的韌體。 #zh-Hant #Tool #Training #Intermediate #Learning - 更多產品資訊，請至新唐科技網站 https://bit.ly/3hVdcmC 購買管道：https://direct.nuvoton.com/tw/nu-link2-pro 聯絡我們：SalesSupport@nuvoton.com

Show how Nu-Link2-Pro uses ICP Programming Tool on PC to program ISP Bootloader to LDROM, and then use Nu-Link2-Pro Bridge I2C interface with ISP Programming Tool to upgrade the firmware of the target chip. #en #Tool #Training #Intermediate #Learning - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC Buy now: https://bit.ly/3bk0AD8 Contact us: SalesSupport@nuvoton.com

1. 介紹新唐 NuMicro M4 全系列產品組合，包含 M480 系列、M451 系與 NUC505 系列。依據不同的終端應用需求，客戶該如何挑選適合的產品系列。 2. 詳細介紹新唐 NuMicro M480 產品系列的產品特色，M480 子系列的規格比較，特色 IP 的功能說明，以及成功案例。 - 更多產品資訊，請至新唐科技網站 https://bit.ly/3hVdcmC 購買管道：https://direct.nuvoton.com/tw/m4-family/ 聯絡我們： SalesSupport@nuvoton.com

The ML51 is a Flash embedded 1T 8051-based microcontroller. The instruction set of the ML51 is fully compatible with the standard 80C51 with performance enhanced and low power consumption. The ML51 runs up to 24 MHz at a wide voltage range from 1.8V to 5.5V, and contains up to 64/32/16/8 Kbytes Flash called APROM for programming code. The ML51 Flash supports In-Application-Programming (IAP) function, which enables on-chip firmware updates. The ML51 includes an additional configurable up to 4/3/2/1 Kbytes Flash area called LDROM, in which the Boot Code normally resides for carrying out the In-System-Programming (ISP). - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC buy now: https://direct.nuvoton.com/tw/ml51-series/ contact us: SalesSupport@nuvoton.com #Product #Learning #Basic #en 0:00 簡介 0:20 Agenda 0:45 NuMicro Product Portfolio 1:28 2019 Brand New MCU Platform 2:06 ML51/ML54/ML56 Series Portfolio 3:29 ML51 Series Low 4:50 NuMicro Naming Rule 6:06 NuMicro® ML51 Features 8:19 4 Different Power Modes 10:44 Low Power Mode Features • Wake up resource: WKT, ACMP, GPIO 12:37 Low Power VS Battery Life 13:28 ADC 15:00 Comparison of 8-bit Products Feature 17:13 Fire Fighting System 21:30 Battery Management System (BMS) 22:30 Gaming Phone 23:36 Development Board 24:13 Development Environment

Secure Smart Metering Communication Reference Design Hi everybody, today we are going to introduce a reference design of Smart-Metering communication card based on NuMicro M2351 Series microcontroller. You can find useful security features based on the Arm Cortex-M23 CPU core with Nuvoton’s in-house technology integration. The auto-metering is an infrastructure for automatic, remotely, wire or wireless meter data reading. It’s highly possible to be intervened if there is no security mechanism. That is a very typical IoT security issue in the IoT era. In many countries, there are a lot of Auto-Metering Infrastructure (AMI) projects being undertaken by main electricity power companies worldwide. Most projects start from upgrading the communication modem cards as the first step rather than retiring the meters. The modem card can play as a gateway to monitor the incorrect device operation and data transmission security. Issues of modem card security are covering: First, a limited performance due to crypto computation efficiency Second, speed limitation due to interface choice The third, cost burden due to extra hardware modules for different communication protocols Nuvoton’s reference design of Secure Smart Meter Communication is an end-to-end security solution for AMI. With the collaboration with SPI-Korea, the solution incorporates a lot of advantages such as TrustZone security for firmware, a range of interfaces for device communication, secure over-the-air firmware update, and remote management. With the complete hardware specification of M2351, a security software company, SPI-Korea, can easily implement their secure AMI solution for modem card which connects meters and cloud servers. M2351 also contributes the crypto acceleration during the cryptographic computing in order to save CPU time for different communication protocol modules by its powerful hardware functionalities during message transmission outside of a microcontroller unit. SPI-Korea has developed a range of Armv8-M TrustZone based technologies. Her expertise covers Boot Manager, Key Manager, and Device Manager, which is very useful for microcontroller security and certainly shows the stability of a microcontroller device. Also, they are certified by Korea Electricity Company. We hope this successful experience can be further adopted in other areas worldwide because it’s a secure, accurate and environmentally safe solution for AMI. This slide is a picture for SPI-Korea AMI modem card design. NuMicro Family microcontrollers can be utilized for designs of auto-metering infrastructure devices. We start from AMI modem card and we are confident to support meters of any next-generation of AMI. We now integrate M23-based microcontroller with M4-based or Arm9-based microcontroller as a proposal for next-generation modem card of Korea AMI and we hope to provide high-performing cost-effective solution for all AMI devices in the future. - For more information, please visit Nuvoton Technology Website: https://bit.ly/3hVdcmC contact us: SalesSupport@nuvoton.com