00_NuMicro Workshop

一、Nuendo工作站的编辑操作--同步及其他设置 (1)（一）、Sync Setup同步设置 (1)（二）、Project Setup窗口 (2)（三）、Transport窗口中的设置 (2)（四）、Device Setup窗口中的设置 (3)（五）、Preferences窗口中的设置 (3)二、Nuendo工作站编辑操作 (4)（一）、Project窗口与Sample Editor窗口的关系和区别。

(4)（二）、Project窗口的编辑操作 (5)（三）、Sample Editor窗口的编辑操作 (6)三、NUENDO工作站操作——声音处理 (7)（一）、VST Mixer窗口 (7)（二）、VST Mixer窗口操作 (7)（三）、Channel Setting窗口 (8)Channel Setting窗口的操作(从左到右从上到下的顺序介绍窗口内的功能) (9)四、Nuendo工作站操作声音处理（二） (9)（一）、效果器的分类： (9)（二）、在Vst Mixer窗口和Channel setting窗口中添加效果和对单段素材加入效果的区别： (9)（三）、典型效果器参数的调整方法： (10)五、Nuendo快捷键 (12)一、Nuendo工作站的编辑操作--同步及其他设置（一）、Sync Setup同步设置1、同步的含义和重要性。

为了让两台或者更多台的数字设备能够同时工作，而不产生偏差，需要让所有设备都在同步信息的控制下工作。

在与录像机等设备配合工作的过程中，如果Nuendo工作站与录像机没有同步锁定，我们编辑的成果就无法真正做到与画面同步。

2、同步时间码(1)SMPTE Time Codea. LTC: Longitudinal Time Code纵向时间码(音频信号)b. VITC: Vertical Interval Time Code垂直间隔时间码(视频信号)c. 两者的区别：LTC被音频制作领域广泛使用，VITC价格昂贵应用较少；VITC在低速编辑或者前后倒带的时候依然能够实现同步，因为它是视频信号的一部分，对音轨没有任何影响，能够被录像机的磁头连续的扫描到，而LTC是音频信号的一部分，在低速和停止的状态下无法正常读取。

NuMicro®FamilyArm® ARM926EJ-S BasedNuMaker-HMI-N9H30User ManualEvaluation Board for NuMicro® N9H30 SeriesNUMAKER-HMI-N9H30 USER MANUALThe information described in this document is the exclusive intellectual property ofNuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton.Nuvoton is providing this document only for reference purposes of NuMicro microcontroller andmicroprocessor based system design. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation.Table of Contents1OVERVIEW (5)1.1Features (7)1.1.1NuMaker-N9H30 Main Board Features (7)1.1.2NuDesign-TFT-LCD7 Extension Board Features (7)1.2Supporting Resources (8)2NUMAKER-HMI-N9H30 HARDWARE CONFIGURATION (9)2.1NuMaker-N9H30 Board － Front View (9)2.2NuMaker-N9H30 Board － Rear View (14)2.3NuDesign-TFT-LCD7 － Front View (20)2.4NuDesign-TFT-LCD7 － Rear View (21)2.5NuMaker-N9H30 and NuDesign-TFT-LCD7 PCB Placement (22)3NUMAKER-N9H30 AND NUDESIGN-TFT-LCD7 SCHEMATICS (24)3.1NuMaker-N9H30 － GPIO List Circuit (24)3.2NuMaker-N9H30 － System Block Circuit (25)3.3NuMaker-N9H30 － Power Circuit (26)3.4NuMaker-N9H30 － N9H30F61IEC Circuit (27)3.5NuMaker-N9H30 － Setting, ICE, RS-232_0, Key Circuit (28)NUMAKER-HMI-N9H30 USER MANUAL3.6NuMaker-N9H30 － Memory Circuit (29)3.7NuMaker-N9H30 － I2S, I2C_0, RS-485_6 Circuit (30)3.8NuMaker-N9H30 － RS-232_2 Circuit (31)3.9NuMaker-N9H30 － LCD Circuit (32)3.10NuMaker-N9H30 － CMOS Sensor, I2C_1, CAN_0 Circuit (33)3.11NuMaker-N9H30 － RMII_0_PF Circuit (34)3.12NuMaker-N9H30 － RMII_1_PE Circuit (35)3.13NuMaker-N9H30 － USB Circuit (36)3.14NuDesign-TFT-LCD7 － TFT-LCD7 Circuit (37)4REVISION HISTORY (38)List of FiguresFigure 1-1 Front View of NuMaker-HMI-N9H30 Evaluation Board (5)Figure 1-2 Rear View of NuMaker-HMI-N9H30 Evaluation Board (6)Figure 2-1 Front View of NuMaker-N9H30 Board (9)Figure 2-2 Rear View of NuMaker-N9H30 Board (14)Figure 2-3 Front View of NuDesign-TFT-LCD7 Board (20)Figure 2-4 Rear View of NuDesign-TFT-LCD7 Board (21)Figure 2-5 Front View of NuMaker-N9H30 PCB Placement (22)Figure 2-6 Rear View of NuMaker-N9H30 PCB Placement (22)Figure 2-7 Front View of NuDesign-TFT-LCD7 PCB Placement (23)Figure 2-8 Rear View of NuDesign-TFT-LCD7 PCB Placement (23)Figure 3-1 GPIO List Circuit (24)Figure 3-2 System Block Circuit (25)Figure 3-3 Power Circuit (26)Figure 3-4 N9H30F61IEC Circuit (27)Figure 3-5 Setting, ICE, RS-232_0, Key Circuit (28)Figure 3-6 Memory Circuit (29)Figure 3-7 I2S, I2C_0, RS-486_6 Circuit (30)Figure 3-8 RS-232_2 Circuit (31)Figure 3-9 LCD Circuit (32)NUMAKER-HMI-N9H30 USER MANUAL Figure 3-10 CMOS Sensor, I2C_1, CAN_0 Circuit (33)Figure 3-11 RMII_0_PF Circuit (34)Figure 3-12 RMII_1_PE Circuit (35)Figure 3-13 USB Circuit (36)Figure 3-14 TFT-LCD7 Circuit (37)List of TablesTable 2-1 LCD Panel Combination Connector (CON8) Pin Function (11)Table 2-2 Three Sets of Indication LED Functions (12)Table 2-3 Six Sets of User SW, Key Matrix Functions (12)Table 2-4 CMOS Sensor Connector (CON10) Function (13)Table 2-5 JTAG ICE Interface (J2) Function (14)Table 2-6 Expand Port (CON7) Function (16)Table 2-7 UART0 (J3) Function (16)Table 2-8 UART2 (J6) Function (16)Table 2-9 RS-485_6 (SW6~8) Function (17)Table 2-10 Power on Setting (SW4) Function (17)Table 2-11 Power on Setting (S2) Function (17)Table 2-12 Power on Setting (S3) Function (17)Table 2-13 Power on Setting (S4) Function (17)Table 2-14 Power on Setting (S5) Function (17)Table 2-15 Power on Setting (S7/S6) Function (18)Table 2-16 Power on Setting (S9/S8) Function (18)Table 2-17 CMOS Sensor Connector (CON9) Function (19)Table 2-18 CAN_0 (SW9~10) Function (19)NUMAKER-HMI-N9H30 USER MANUAL1 OVERVIEWThe NuMaker-HMI-N9H30 is an evaluation board for GUI application development. The NuMaker-HMI-N9H30 consists of two parts: a NuMaker-N9H30 main board and a NuDesign-TFT-LCD7 extensionboard. The NuMaker-HMI-N9H30 is designed for project evaluation, prototype development andvalidation with HMI (Human Machine Interface) function.The NuMaker-HMI-N9H30 integrates touchscreen display, voice input/output, rich serial port serviceand I/O interface, providing multiple external storage methods.The NuDesign-TFT-LCD7 can be plugged into the main board via the DIN_32x2 extension connector.The NuDesign-TFT-LCD7 includes one 7” LCD which the resolution is 800x480 with RGB-24bits andembedded the 4-wires resistive type touch panel.Figure 1-1 Front View of NuMaker-HMI-N9H30 Evaluation BoardNUMAKER-HMI-N9H30 USER MANUAL Figure 1-2 Rear View of NuMaker-HMI-N9H30 Evaluation Board1.1 Features1.1.1 NuMaker-N9H30 Main Board Features●N9H30F61IEC chip: LQFP216 pin MCP package with DDR (64 MB)●SPI Flash using W25Q256JVEQ (32 MB) booting with quad mode or storage memory●NAND Flash using W29N01HVSINA (128 MB) booting or storage memory●One Micro-SD/TF card slot served either as a SD memory card for data storage or SDIO(Wi-Fi) device●Two sets of COM ports:–One DB9 RS-232 port with UART_0 used 75C3232E transceiver chip can be servedfor function debug and system development.–One DB9 RS-232 port with UART_2 used 75C3232E transceiver chip for userapplication●22 GPIO expansion ports, including seven sets of UART functions●JTAG interface provided for software development●Microphone input and Earphone/Speaker output with 24-bit stereo audio codec(NAU88C22) for I2S interfaces●Six sets of user-configurable push button keys●Three sets of LEDs for status indication●Provides SN65HVD230 transceiver chip for CAN bus communication●Provides MAX3485 transceiver chip for RS-485 device connection●One buzzer device for program applicationNUMAKER-HMI-N9H30 USER MANUAL●Two sets of RJ45 ports with Ethernet 10/100 Mbps MAC used IP101GR PHY chip●USB_0 that can be used as Device/HOST and USB_1 that can be used as HOSTsupports pen drives, keyboards, mouse and printers●Provides over-voltage and over current protection used APL3211A chip●Retain RTC battery socket for CR2032 type and ADC0 detect battery voltage●System power could be supplied by DC-5V adaptor or USB VBUS1.1.2 NuDesign-TFT-LCD7 Extension Board Features●7” resolution 800x480 4-wire resistive touch panel for 24-bits RGB888 interface●DIN_32x2 extension connector1.2 Supporting ResourcesFor sample codes and introduction about NuMaker-N9H30, please refer to N9H30 BSP:https:///products/gui-solution/gui-platform/numaker-hmi-n9h30/?group=Software&tab=2Visit NuForum for further discussion about the NuMaker-HMI-N9H30:/viewforum.php?f=31 NUMAKER-HMI-N9H30 USER MANUALNUMAKER-HMI-N9H30 USER MANUAL2 NUMAKER-HMI-N9H30 HARDWARE CONFIGURATION2.1 NuMaker-N9H30 Board － Front View Combination Connector (CON8)6 set User SWs (K1~6)3set Indication LEDs (LED1~3)Power Supply Switch (SW_POWER1)Audio Codec(U10)Microphone(M1)NAND Flash(U9)RS-232 Transceiver(U6, U12)RS-485 Transceiver(U11)CAN Transceiver (U13)Figure 2-1 Front View of NuMaker-N9H30 BoardFigure 2-1 shows the main components and connectors from the front side of NuMaker-N9H30 board. The following lists components and connectors from the front view:NuMaker-N9H30 board and NuDesign-TFT-LCD7 board combination connector (CON8). This panel connector supports 4-/5-wire resistive touch or capacitance touch panel for 24-bits RGB888 interface.Connector GPIO pin of N9H30 FunctionCON8.1 - Power 3.3VCON8.2 - Power 3.3VCON8.3 GPD7 LCD_CSCON8.4 GPH3 LCD_BLENCON8.5 GPG9 LCD_DENCON8.7 GPG7 LCD_HSYNCCON8.8 GPG6 LCD_CLKCON8.9 GPD15 LCD_D23(R7)CON8.10 GPD14 LCD_D22(R6)CON8.11 GPD13 LCD_D21(R5)CON8.12 GPD12 LCD_D20(R4)CON8.13 GPD11 LCD_D19(R3)CON8.14 GPD10 LCD_D18(R2)CON8.15 GPD9 LCD_D17(R1)CON8.16 GPD8 LCD_D16(R0)CON8.17 GPA15 LCD_D15(G7)CON8.18 GPA14 LCD_D14(G6)CON8.19 GPA13 LCD_D13(G5)CON8.20 GPA12 LCD_D12(G4)CON8.21 GPA11 LCD_D11(G3)CON8.22 GPA10 LCD_D10(G2)CON8.23 GPA9 LCD_D9(G1) NUMAKER-HMI-N9H30 USER MANUALCON8.24 GPA8 LCD_D8(G0)CON8.25 GPA7 LCD_D7(B7)CON8.26 GPA6 LCD_D6(B6)CON8.27 GPA5 LCD_D5(B5)CON8.28 GPA4 LCD_D4(B4)CON8.29 GPA3 LCD_D3(B3)CON8.30 GPA2 LCD_D2(B2)CON8.31 GPA1 LCD_D1(B1)CON8.32 GPA0 LCD_D0(B0)CON8.33 - -CON8.34 - -CON8.35 - -CON8.36 - -CON8.37 GPB2 LCD_PWMCON8.39 - VSSCON8.40 - VSSCON8.41 ADC7 XPCON8.42 ADC3 VsenCON8.43 ADC6 XMCON8.44 ADC4 YMCON8.45 - -CON8.46 ADC5 YPCON8.47 - VSSCON8.48 - VSSCON8.49 GPG0 I2C0_CCON8.50 GPG1 I2C0_DCON8.51 GPG5 TOUCH_INTCON8.52 - -CON8.53 - -CON8.54 - -CON8.55 - -NUMAKER-HMI-N9H30 USER MANUAL CON8.56 - -CON8.57 - -CON8.58 - -CON8.59 - VSSCON8.60 - VSSCON8.61 - -CON8.62 - -CON8.63 - Power 5VCON8.64 - Power 5VTable 2-1 LCD Panel Combination Connector (CON8) Pin Function●Power supply switch (SW_POWER1): System will be powered on if the SW_POWER1button is pressed●Three sets of indication LEDs:LED Color DescriptionsLED1 Red The system power will beterminated and LED1 lightingwhen the input voltage exceeds5.7V or the current exceeds 2A.LED2 Green Power normal state.LED3 Green Controlled by GPH2 pin Table 2-2 Three Sets of Indication LED Functions●Six sets of user SW, Key Matrix for user definitionKey GPIO pin of N9H30 FunctionK1 GPF10 Row0 GPB4 Col0K2 GPF10 Row0 GPB5 Col1K3 GPE15 Row1 GPB4 Col0K4 GPE15 Row1 GPB5 Col1K5 GPE14 Row2 GPB4 Col0K6GPE14 Row2GPB5 Col1 Table 2-3 Six Sets of User SW, Key Matrix Functions●NAND Flash (128 MB) with Winbond W29N01HVS1NA (U9)●Microphone (M1): Through Nuvoton NAU88C22 chip sound input●Audio CODEC chip (U10): Nuvoton NAU88C22 chip connected to N9H30 using I2Sinterface–SW6/SW7/SW8: 1-2 short for RS-485_6 function and connected to 2P terminal (CON5and J5)–SW6/SW7/SW8: 2-3 short for I2S function and connected to NAU88C22 (U10).●CMOS Sensor connector (CON10, SW9~10)–SW9~10: 1-2 short for CAN_0 function and connected to 2P terminal (CON11)–SW9~10: 2-3 short for CMOS sensor function and connected to CMOS sensorconnector (CON10)Connector GPIO pin of N9H30 FunctionCON10.1 - VSSCON10.2 - VSSNUMAKER-HMI-N9H30 USER MANUALCON10.3 - Power 3.3VCON10.4 - Power 3.3VCON10.5 - -CON10.6 - -CON10.7 GPI4 S_PCLKCON10.8 GPI3 S_CLKCON10.9 GPI8 S_D0CON10.10 GPI9 S_D1CON10.11 GPI10 S_D2CON10.12 GPI11 S_D3CON10.13 GPI12 S_D4CON10.14 GPI13 S_D5CON10.15 GPI14 S_D6CON10.16 GPI15 S_D7CON10.17 GPI6 S_VSYNCCON10.18 GPI5 S_HSYNCCON10.19 GPI0 S_PWDNNUMAKER-HMI-N9H30 USER MANUAL CON10.20 GPI7 S_nRSTCON10.21 GPG2 I2C1_CCON10.22 GPG3 I2C1_DCON10.23 - VSSCON10.24 - VSSTable 2-4 CMOS Sensor Connector (CON10) FunctionNUMAKER-HMI-N9H30 USER MANUAL2.2NuMaker-N9H30 Board － Rear View5V In (CON1)RS-232 DB9 (CON2,CON6)Expand Port (CON7)Speaker Output (J4)Earphone Output (CON4)Buzzer (BZ1)System ResetSW (SW5)SPI Flash (U7,U8)JTAG ICE (J2)Power ProtectionIC (U1)N9H30F61IEC (U5)Micro SD Slot (CON3)RJ45 (CON12, CON13)USB1 HOST (CON15)USB0 Device/Host (CON14)CAN_0 Terminal (CON11)CMOS Sensor Connector (CON9)Power On Setting(SW4, S2~S9)RS-485_6 Terminal (CON5)RTC Battery(BT1)RMII PHY (U14,U16)Figure 2-2 Rear View of NuMaker-N9H30 BoardFigure 2-2 shows the main components and connectors from the rear side of NuMaker-N9H30 board. The following lists components and connectors from the rear view:● +5V In (CON1): Power adaptor 5V input ●JTAG ICE interface (J2) ConnectorGPIO pin of N9H30Function J2.1 - Power 3.3V J2.2 GPJ4 nTRST J2.3 GPJ2 TDI J2.4 GPJ1 TMS J2.5 GPJ0 TCK J2.6 - VSS J2.7 GPJ3 TD0 J2.8-RESETTable 2-5 JTAG ICE Interface (J2) Function●SPI Flash (32 MB) with Winbond W25Q256JVEQ (U7); only one (U7 or U8) SPI Flashcan be used●System Reset (SW5): System will be reset if the SW5 button is pressed●Buzzer (BZ1): Control by GPB3 pin of N9H30●Speaker output (J4): Through the NAU88C22 chip sound output●Earphone output (CON4): Through the NAU88C22 chip sound output●Expand port for user use (CON7):Connector GPIO pin of N9H30 FunctionCON7.1 - Power 3.3VCON7.2 - Power 3.3VCON7.3 GPE12 UART3_TXDCON7.4 GPH4 UART1_TXDCON7.5 GPE13 UART3_RXDCON7.6 GPH5 UART1_RXDCON7.7 GPB0 UART5_TXDCON7.8 GPH6 UART1_RTSCON7.9 GPB1 UART5_RXDCON7.10 GPH7 UART1_CTSCON7.11 GPI1 UART7_TXDNUMAKER-HMI-N9H30 USER MANUAL CON7.12 GPH8 UART4_TXDCON7.13 GPI2 UART7_RXDCON7.14 GPH9 UART4_RXDCON7.15 - -CON7.16 GPH10 UART4_RTSCON7.17 - -CON7.18 GPH11 UART4_CTSCON7.19 - VSSCON7.20 - VSSCON7.21 GPB12 UART10_TXDCON7.22 GPH12 UART8_TXDCON7.23 GPB13 UART10_RXDCON7.24 GPH13 UART8_RXDCON7.25 GPB14 UART10_RTSCON7.26 GPH14 UART8_RTSCON7.27 GPB15 UART10_CTSCON7.28 GPH15 UART8_CTSCON7.29 - Power 5VCON7.30 - Power 5VTable 2-6 Expand Port (CON7) Function●UART0 selection (CON2, J3):–RS-232_0 function and connected to DB9 female (CON2) for debug message output.–GPE0/GPE1 connected to 2P terminal (J3).Connector GPIO pin of N9H30 Function J3.1 GPE1 UART0_RXDJ3.2 GPE0 UART0_TXDTable 2-7 UART0 (J3) Function●UART2 selection (CON6, J6):–RS-232_2 function and connected to DB9 female (CON6) for debug message output –GPF11~14 connected to 4P terminal (J6)Connector GPIO pin of N9H30 Function J6.1 GPF11 UART2_TXDJ6.2 GPF12 UART2_RXDJ6.3 GPF13 UART2_RTSJ6.4 GPF14 UART2_CTSTable 2-8 UART2 (J6) Function●RS-485_6 selection (CON5, J5, SW6~8):–SW6~8: 1-2 short for RS-485_6 function and connected to 2P terminal (CON5 and J5) –SW6~8: 2-3 short for I2S function and connected to NAU88C22 (U10)Connector GPIO pin of N9H30 FunctionSW6:1-2 shortGPG11 RS-485_6_DISW6:2-3 short I2S_DOSW7:1-2 shortGPG12 RS-485_6_ROSW7:2-3 short I2S_DISW8:1-2 shortGPG13 RS-485_6_ENBSW8:2-3 short I2S_BCLKNUMAKER-HMI-N9H30 USER MANUALTable 2-9 RS-485_6 (SW6~8) FunctionPower on setting (SW4, S2~9).SW State FunctionSW4.2/SW4.1 ON/ON Boot from USB SW4.2/SW4.1 ON/OFF Boot from eMMC SW4.2/SW4.1 OFF/ON Boot from NAND Flash SW4.2/SW4.1 OFF/OFF Boot from SPI Flash Table 2-10 Power on Setting (SW4) FunctionSW State FunctionS2 Short System clock from 12MHzcrystalS2 Open System clock from UPLL output Table 2-11 Power on Setting (S2) FunctionSW State FunctionS3 Short Watchdog Timer OFFS3 Open Watchdog Timer ON Table 2-12 Power on Setting (S3) FunctionSW State FunctionS4 Short GPJ[4:0] used as GPIO pinS4Open GPJ[4:0] used as JTAG ICEinterfaceTable 2-13 Power on Setting (S4) FunctionSW State FunctionS5 Short UART0 debug message ONS5 Open UART0 debug message OFFTable 2-14 Power on Setting (S5) FunctionSW State FunctionS7/S6 Short/Short NAND Flash page size 2KBS7/S6 Short/Open NAND Flash page size 4KBS7/S6 Open/Short NAND Flash page size 8KBNUMAKER-HMI-N9H30 USER MANUALS7/S6 Open/Open IgnoreTable 2-15 Power on Setting (S7/S6) FunctionSW State FunctionS9/S8 Short/Short NAND Flash ECC type BCH T12S9/S8 Short/Open NAND Flash ECC type BCH T15S9/S8 Open/Short NAND Flash ECC type BCH T24S9/S8 Open/Open IgnoreTable 2-16 Power on Setting (S9/S8) FunctionCMOS Sensor connector (CON9, SW9~10)–SW9~10: 1-2 short for CAN_0 function and connected to 2P terminal (CON11).–SW9~10: 2-3 short for CMOS sensor function and connected to CMOS sensorconnector (CON9).Connector GPIO pin of N9H30 FunctionCON9.1 - VSSCON9.2 - VSSCON9.3 - Power 3.3VCON9.4 - Power 3.3V NUMAKER-HMI-N9H30 USER MANUALCON9.5 - -CON9.6 - -CON9.7 GPI4 S_PCLKCON9.8 GPI3 S_CLKCON9.9 GPI8 S_D0CON9.10 GPI9 S_D1CON9.11 GPI10 S_D2CON9.12 GPI11 S_D3CON9.13 GPI12 S_D4CON9.14 GPI13 S_D5CON9.15 GPI14 S_D6CON9.16 GPI15 S_D7CON9.17 GPI6 S_VSYNCCON9.18 GPI5 S_HSYNCCON9.19 GPI0 S_PWDNCON9.20 GPI7 S_nRSTCON9.21 GPG2 I2C1_CCON9.22 GPG3 I2C1_DCON9.23 - VSSCON9.24 - VSSTable 2-17 CMOS Sensor Connector (CON9) Function●CAN_0 Selection (CON11, SW9~10):–SW9~10: 1-2 short for CAN_0 function and connected to 2P terminal (CON11) –SW9~10: 2-3 short for CMOS sensor function and connected to CMOS sensor connector (CON9, CON10)SW GPIO pin of N9H30 FunctionSW9:1-2 shortGPI3 CAN_0_RXDSW9:2-3 short S_CLKSW10:1-2 shortGPI4 CAN_0_TXDSW10:2-3 short S_PCLKTable 2-18 CAN_0 (SW9~10) Function●USB0 Device/HOST Micro-AB connector (CON14), where CON14 pin4 ID=1 is Device,ID=0 is HOST●USB1 for USB HOST with Type-A connector (CON15)●RJ45_0 connector with LED indicator (CON12), RMII PHY with IP101GR (U14)●RJ45_1 connector with LED indicator (CON13), RMII PHY with IP101GR (U16)●Micro-SD/TF card slot (CON3)●SOC CPU: Nuvoton N9H30F61IEC (U5)●Battery power for RTC 3.3V powered (BT1, J1), can detect voltage by ADC0●RTC power has 3 sources:–Share with 3.3V I/O power–Battery socket for CR2032 (BT1)–External connector (J1)●Board version 2.1NUMAKER-HMI-N9H30 USER MANUAL2.3 NuDesign-TFT-LCD7 －Front ViewFigure 2-3 Front View of NuDesign-TFT-LCD7 BoardFigure 2-3 shows the main components and connectors from the Front side of NuDesign-TFT-LCD7board.7” resolution 800x480 4-W resistive touch panel for 24-bits RGB888 interface2.4 NuDesign-TFT-LCD7 －Rear ViewFigure 2-4 Rear View of NuDesign-TFT-LCD7 BoardFigure 2-4 shows the main components and connectors from the rear side of NuDesign-TFT-LCD7board.NuMaker-N9H30 and NuDesign-TFT-LCD7 combination connector (CON1).NUMAKER-HMI-N9H30 USER MANUAL 2.5 NuMaker-N9H30 and NuDesign-TFT-LCD7 PCB PlacementFigure 2-5 Front View of NuMaker-N9H30 PCB PlacementFigure 2-6 Rear View of NuMaker-N9H30 PCB PlacementNUMAKER-HMI-N9H30 USER MANUALFigure 2-7 Front View of NuDesign-TFT-LCD7 PCB PlacementFigure 2-8 Rear View of NuDesign-TFT-LCD7 PCB Placement3 NUMAKER-N9H30 AND NUDESIGN-TFT-LCD7 SCHEMATICS3.1 NuMaker-N9H30 － GPIO List CircuitFigure 3-1 shows the N9H30F61IEC GPIO list circuit.Figure 3-1 GPIO List Circuit NUMAKER-HMI-N9H30 USER MANUAL3.2 NuMaker-N9H30 － System Block CircuitFigure 3-2 shows the System Block Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-2 System Block Circuit3.3 NuMaker-N9H30 － Power CircuitFigure 3-3 shows the Power Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-3 Power Circuit3.4 NuMaker-N9H30 － N9H30F61IEC CircuitFigure 3-4 shows the N9H30F61IEC Circuit.Figure 3-4 N9H30F61IEC CircuitNUMAKER-HMI-N9H30 USER MANUAL3.5 NuMaker-N9H30 － Setting, ICE, RS-232_0, Key CircuitFigure 3-5 shows the Setting, ICE, RS-232_0, Key Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-5 Setting, ICE, RS-232_0, Key Circuit3.6 NuMaker-N9H30 － Memory CircuitFigure 3-6 shows the Memory Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-6 Memory Circuit3.7 NuMaker-N9H30 － I2S, I2C_0, RS-485_6 CircuitFigure 3-7 shows the I2S, I2C_0, RS-486_6 Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-7 I2S, I2C_0, RS-486_6 Circuit3.8 NuMaker-N9H30 － RS-232_2 CircuitFigure 3-8 shows the RS-232_2 Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-8 RS-232_2 Circuit3.9 NuMaker-N9H30 － LCD CircuitFigure 3-9 shows the LCD Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-9 LCD Circuit3.10 NuMaker-N9H30 － CMOS Sensor, I2C_1, CAN_0 CircuitFigure 3-10 shows the CMOS Sensor,I2C_1, CAN_0 Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-10 CMOS Sensor, I2C_1, CAN_0 Circuit3.11 NuMaker-N9H30 － RMII_0_PF CircuitFigure 3-11 shows the RMII_0_RF Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-11 RMII_0_PF Circuit3.12 NuMaker-N9H30 － RMII_1_PE CircuitFigure 3-12 shows the RMII_1_PE Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-12 RMII_1_PE Circuit3.13 NuMaker-N9H30 － USB CircuitFigure 3-13 shows the USB Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-13 USB Circuit3.14 NuDesign-TFT-LCD7 － TFT-LCD7 CircuitFigure 3-14 shows the TFT-LCD7 Circuit.Figure 3-14 TFT-LCD7 CircuitNUMAKER-HMI-N9H30 USER MANUAL4 REVISION HISTORYDate Revision Description2022.03.24 1.00 Initial version NUMAKER-HMI-N9H30 USER MANUALNUMAKER-HMI-N9H30 USER MANUALImportant NoticeNuvoton Products are neither intended nor warranted for usage in systems or equipment, anymalfunction or failure of which may cause loss of human life, bodily injury or severe propertydamage. Such applications are deemed, “Insecure Usage”.Insecure usage includes, but is not limited to: equipment for surgical implementation, atomicenergy control instruments, airplane or spaceship instruments, the control or operation ofdynamic, brake or safety systems designed for vehicular use, traffic signal instruments, all typesof safety devices, and other applications intended to support or sustain life.All Insecure Usage shall be made at customer’s risk, and in the event that third parties lay claimsto Nuvoton as a result of customer’s Insecure Usage, custome r shall indemnify the damagesand liabilities thus incurred by Nuvoton.。

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2021 1st Online Workshop Practice for Very Beginner –Get Started by Quick StartSuyuMarch, 2021Agenda•NuMicro® Ecosystem•Nuvoton Golden 3 Steps•NuMaker Board Unboxing & Introduction •Practice for Very Beginner –Get Started by Quick Start •SummaryNuMicro® EcosystemDevelopment Platform Digital PlatformNuMicro ®Ecosystem –Detailed ViewNuMicro Microcontroller PlatformIoT PlatformAndroid APP iOS APPReference Design PlatformDALIBMSHMIIIoT GatewayThermostat…GUI Platform8051 / M0 / M23 / M4 / Arm9 based MicrocontrollerAlibaba CloudProduct Information / Documents / SelectionEvaluation Board NuMaker Series / NuTiny SeriesDebugger & ProgrammerNu-Link / Nu-Link-Pro / Nu-Link2-ProNu-Link-GangPinView / PinConfig / ClockConfig ICP Programming ISP ProgrammingSoftware Tool BSPMCU BSP / Linux BSPSample Code NuCodeGenGithub / Gitlab / GiteeIDENuEclipse•Sample & Buy:Nuvoton Direct / TechDesign / DigiKey / Tmall •Online Support : NuForum / Sales Support Mailbox / Online Chat•Social Media & Knowledge Base : LinkedIn / Facebook / Twitter / WeChat •Video Platform : YouTube Channel / Tencent Video Channel / bilibiliNuvoton Golden 3 StepsGolden 3 Steps2 Mass Production3 Upgrade1DevelopmentGolden 3 Steps -DevelopmentGolden 3 Steps Nu-LinkUSBDebugger &ProgrammerIDEBSPNuTool+PinViewPinConfig.NuMaker1DevelopmentGolden 3 Steps -DevelopmentSoftware Tools -PinConfigure/ PinView‐PinConfigure: GraphicalI/O setting‐PinView:Real-time I/OmonitoringIntegrated Development Environment (IDEs)‐Arm Keil MDK ‐IAR EWARM ‐NuEclipseNu-LinkDebugger & Programmer‐Nu-Link2-Pro/Nu-Link-Pro ‐Nu-Link2-Me/Nu-Link-Me ‐Nu-Link-GangBoard Supporting Package (BSPs)‐Comprehensive drivers ‐Plentiful peripheral examplesEvaluation Boards‐IC Target Board ‐On-board Nu-LinkDebugger & Programmer(Nu-Link2-Me/Nu-Link-Me)‐On-board USB Connector‐QuickStart LinkTools for Development StepBSPNuMaker Board UnboxingNuMaker Board UnboxingBuy OnlineNuMaker-M032SE (NK-M032SE)NuMaker Board IntroductionNuMaker-M032SE (NK-M032SE)M032SE3AENu-Link2-MeRESETAMMETERLEDHXTLXTUSBNuMaker Board IntroductionNuMaker-M032SE (NK-M032SE)Extension ConnectorCompatible with Arduino UNO1122NuMaker Board IntroductionNuMaker-M032SE (NK-M032SE)Power Supply1123344SWITCHICEJPR1Nu-Link2-Me (Rear)2User ManualPractice for Very Beginner –Get Started by Quick StartBased on M032Get Started by Quick StartNuMaker BoardQuick Start StepsTerminal EmulatorDownloadIDE InstallationNu-Link Driver InstallationBSP PreparationHardware Setup Sample Code in BSPProject ExecutionResultQuick Start –Step 0Terminal Emulator DownloadPuTTYAn open source SSH and telnet Client for the Windows platform.Download –“putty.exe”.https:///KEIL MDK Nuvoton edition M0 / M23Works with Nuvoton devices based on the Arm Cortex-M0 /M23 with a free-to-use professional tool. Download and Install.https:///nuvoton/M0-M23Video Instruction (CN)(EN)–Download and Install KEILQuick Start –Step 1IDE Installation1)Enter Contact Information 2)Download and Install 3)Get and Add LicenseQuick Start –Step 2Nu-Link Driver InstallationNu-Link DriverNuMaker Board has an on-board Nu-Link Debugger & Programmer.Download and Install.Nu-Link_Keil_DriverVideo Instruction (CN)(EN)–Download and Install Nu-Link KEIL DriverQuick Start –Step 3BSP PreparationBSPContains comprehensive drivers and plentiful peripheral examples.Download and Unzip.Software and Tool -> BSP; Quick Start Step3Nuvoton GitHubVideo Instruction (CN)(EN)–Board Support PackageHardware Setup1)Switch VCOM No.1 and No.2 ON.2)Connect the ICE USB connector tothe PC USB port.3)Check “Nu -Link2 Virtual COM Port”at Device Manager.Quick Start –Step 4Hardware Setup12Quick Start –Step 5Sample Code in BSPSample Code in BSPFile Path‒M031_Series_BSP_CMSIS_Vx.xxxxx‒SampleCode‒Template‒KeilProject ”Template”Open and Execute.1)Rebuild2)Successfully Compiled 3)DownloadUser Manual –Chapter 3.6Quick Start –Step 6Project Execution123Result in Terminal WindowTerminal Emulator Setup & Check the Result 1)Connection Type: Serial2)Serial Line: COM# in Device Manager 3)Speed: 1152004)Open Terminal Window.5)ResultQuick Start –Step 7Result1234SummarySummaryNuTool+PinViewPinConfig.Nu-LinkUSBDebugger & ProgrammerIDEBSPNuMaker1DevelopmentIDE InstallationNu-Link Driver InstallationBSP PreparationHardware SetupSample Code inBSPProject ExecutionResultQ&ATips填問卷抽Nu-Link2-Pro ($149USD)回卷者可抽Nu-Link2-Pro *1網路研討會限定NuMaker-M032SE一折開發板折扣碼：NEWJoeJoe HowardSUYULV.99LV.800LV.1Quick Start PinConfig(5min)PinView(5min)Q&AQuick Start PinConfig(5min)PinView(5min)Q&A軟體開發工具介紹PinConfigureSHEEPLV.999Quick Start PinConfig(5min)PinView(5min)Q&A軟體開發工具介紹PinViewDereCkLV.999JoeHowardLV.99LV.800LV.1Q&AJoeSUYUhttps://mcu.pse.is/M032SE一折NuMaker-M032SE (NK-M032SE)填問卷抽Nu-Link2-Pro ($149USD)DebuggerSWD/ETM interface ETM trace speed up to 96 MHzUnlimited breakpointStep(s) executionSupport CMSIS-DAP ProgrammerIn-circuit Programming (ICP)In-system Programming (ISP)PC control and stand-alone ICP/ISP Automated Programmer header External storage for stand alone ICP/ISP: SD Card, SPI Flash, USB DiskBridgeISP via multi-path bridge (USB, I2C, SPI, CAN, UART, RS-485) PC control and stand-alone ISP Virtual COM portAnalyzer I2C, SPI, UART, RS-485, CANPulse CaptureADC Conversion Webinar結束後系統會自動跳轉至問卷頁面，回卷者可抽Nu-Link2-Pro*1。

ARM® Cortex®-M032-bit MicrocontrollerNuMicro® FamilyNuTiny-SDK-NANO130User ManualThe information described in this document is the exclusive intellectual property of Nuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton. Nuvoton is providing this document only for reference purposes of NuMicro microcontroller based system design. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation.Table of Contents1OVERVIEW (3)2NUTINY-SDK-NANO130 INTRODUCTION (4)2.1NuTiny -SDK-NANO130 Jumper Description (5)2.1.1Power Setting (5)2.1.2Debug Connector (5)2.1.3USB Connector (5)2.1.4Extended Connector (5)2.1.5Button (5)2.1.6Power Connector (5)2.2Pin Assignment for Extended Connector (6)2.3NuTiny-SDK-NANO130 PCB Placement (9)3How to Start NuTiny-SDK-NANO130 on the Keil μVision® IDE (10)3.1Keil uVision® IDE Software Download and Install (10)3.2Nuvoton Nu-Link Driver Download and Install (10)3.3Hardware Setup (10)3.4Example Program (11)4How to Start NuTiny-SDK-NANO130 on the IAR Embedded Workbench (12)4.1IAR Embedded Workbench Software Download and Install (12)4.2Nuvoton Nu-Link Driver Download and Install (12)4.3Hardware Setup (12)4.4Example Program (13)5NuTiny-SDK-NANO130 Schematic (14)5.1NuTiny-EVB-NANO130 Schematic (14)GPIO for 128 pin Schematic (15)5.2Nu-Link-Me Schematic (16)5.35.44x42 TN LCD Schematic (17)6REVISION HISTORY (18)1 OVERVIEWNuTiny-SDK-NANO130 is the specific development tool for NuMicro®NANO130 series. Userscan use NuTiny-SDK-NANO130 to develop and verify the application program easily.NuTiny-SDK-NANO130 includes two portions. One is NuTiny-EVB-NANO130 and the other is Nu-Link-Me. NuTiny-EVB-NANO130 is the evaluation board and Nu-Link-Me is its Debug Adaptor.Thus, users do not need other additional ICE or debug equipments.NuTiny-SDK-NANO130_TNLCD includes one 4x42 LCD panel for NuTiny-EVB-NANO130. Userscan connect NuTiny-SDK-NANO130_TNLCD to NuTiny-EVB-NANO130 to develop and verify theapplication.Figure 1-1 NuTiny-SDK-NANO130 with NuTiny-SDK-NANO130_TNLCDNUTINY-SDK-NANO130 USER MANUAL2 NUTINY-SDK-NANO130 INTRODUCTIONNuTiny-SDK-NANO130 uses the NANO130KE3BN as the target microcontroller. Figure 2-1 is NuTiny-SDK-NANO130 for NANO130 series, the left portion is called NuTiny-EVB-NANO130 and the right portion is Debug Adaptor called Nu-Link-Me. Figure 2-2 is NuTiny-SDK-NANO130_TNLCD for NuTiny-SDK-NANO130 LCD display applications.NuTiny-EVB-NANO130 is similar to other development boards. Users can use it to develop and verify applications to emulate the real behavior. The on board chip covers NANO130 series features. The NuTiny-EVB-NANO130 can be a real system controller to design users’ target systems.The Nu-Link-Me is a Debug Adaptor. The Nu-Link-Me Debug Adaptor connects your PC's USB port to your target system (via Serial Wired Debug Port) and allows you to program and debug embedded programs on the target hardware. To use Nu-Link-Me Debug adaptor with IAR or Keil,please refer to “Nuvoton NuMicro ® IAR ICE driver user manual “or Nuvoton NuMicro ®Keil ICE driver user manual” in detail. These two documents will be stored in the local hard disk when the user installs each driver.VDD33 (JP2)Reset Button (SW1)I/O LEDTarget Chip ICE Controller USB Connector (ICE J2)ICE ControllerExtended Connector (JP16, JP17)GND (JP3)Extended Connector (JP15, JP11)USB Connector (J1)Button (SW2)Extended Connector (JP5, JP1)Extended Connector (JP7, JP6)Figure 2-1 NuTiny-SDK-NANO130 (PCB Board)Extended Connector (JP5, JP1)Extended Connector (JP7, JP6)4x42 TNLCD PanelFigure 2-2 NuTiny-SDK-NANO130_TNLCD (PCB Board)2.1NuTiny -SDK-NANO130 Jumper Description2.1.1 Power Setting●JP2: V DD33 Voltage connecter in NuTiny-EVB-NANO130●ICE J2: USB port in Nu-Link-Me●J1: USB port in NuTiny-EVB-NANO130X: Unused.2.1.2 Debug Connector●JP4: Connector in target board (NuTiny-EVB-NANO130) for connecting with Nuvoton ICEadaptor (Nu-Link-Me)●ICE JP8: Connector in ICE adaptor (Nu-Link-Me) for connecting with a target board(NuTiny-EVB-NANO130)2.1.3 USB Connector●J1: Micro USB Connector in NuTiny-EVB-NANO130 connected to a PC USB port●ICE J2: Micro USB Connector in Nu-Link-Me connected to a PC USB port2.1.4 Extended Connector●JP11, JP15, JP16, and JP17: Show all chip pins in NuTiny-EVB-NANO130●JP1, JP5, JP6, JP7: Show all chip pins in NuTiny-EVB-NANO130, and connected toNuTiny-SDK-NANO130_TNLCD2.1.5 Button●SW1: Reset button in NuTiny-EVB-NANO130●SW2: PC.12 button in NuTiny-EVB-NANO1302.1.6 Power Connector●JP2: V DD connector in NuTiny-EVB-NANO130●JP3: GND connector in NuTiny-EVB-NANO1302.2Pin Assignment for Extended ConnectorNuTiny-EVB-NANO130 provides NANO130KE3BN on board and the extended connector for LQFP128-pin. Table 2-1 is the pin assignment for NANO130KE3BN.NUTINY-SDK-NANO130 USER MANUALTable 2-1 Pin Assignment for NANO130NUTINY-SDK-NANO130 USER MANUALNuTiny-SDK-NANO130 PCB Placement2.3Users can refer to Figure 2-2 for the NuTiny-SDK-NANO130 PCB placement and Figure 2-4 for the NuTiny-SDK-NANO130_TNLCD PCB placement.Figure 2-3 NuTiny-SDK-NANO130 PCB PlacementFigure 2-4 NuTiny-SDK-NANO130_TNLCD PCB Placement3 HOW TO START NUTINY-SDK-NANO130 ON THE KEIL ΜVISION® IDE3.1Keil uVision® IDE Software Download and InstallPlease visit the Keil company website () to download the Keil μVision®IDE and install the RVMDK.3.2Nuvoton Nu-Link Driver Download and InstallPlease visit the Nuvoton company NuMicro®website (/NuMicro) to download “NuMicro®Keil μVision®IDE driver” file. When the Nu-Link driver has been well downloaded, please unzip the file and execute the “Nu-Link_Keil_Driver.exe” to install the dri ver.Hardware Setup3.3The hardware setup is shown as Figure 3-1.Figure 3-1 Hardware SetupExample Program3.4This example demonstrates the ease of downloading and debugging an application on a NuTiny-SDK-NANO130 board. It can be found on Figure 3-2 list directory and downloaded from Nuvoton NuMicro® website.ProjectFigure 3-2 Example DirectoryTo use this example:Connects the NuTuny-SDK-NANO130_TNLCD to NuTiny-SDK-NANO130. The LCD panel willdisplay a NUVOTON logo.⏹Start μVision®⏹Project-OpenOpen the SYS.uvproj project file⏹ Project - BuildCompile and link the SYS application⏹ Flash – DownloadProgram the application code into on-chip Flash ROM⏹Start debug modeUsing the debugger commands, youmay:◆ Review variables in the watchwindow◆ Single step through code◆ Reset the device◆ Run the applicationNUTINY-SDK-NANO130 USER MANUAL4 HOW TO START NUTINY-SDK-NANO130 ON THE IAR EMBEDDEDWORKBENCH4.1IAR Embedded Workbench Software Download and InstallPlease connect to IAR company website () to download the IAR Embedded Workbench and install the EWARM.4.2Nuvoton Nu-Link Driver Download and InstallPlease visit the Nuvoton company NuMicro®website (/NuMicro ) to download the “NuMicro®IAR EWARM Driver” file. When the Nu-Link driver has been well downloaded, please unzip the file and execute the “Nu-Link_Keil_Driver.exe” to install the driver.4.3Hardware SetupThe hardware setup is shown as Figure 4-1.Figure 4-1 Hardware SetupNUTINY-SDK-NANO130 USER MANUALExample Program4.4This example demonstrates the ease of downloading and debugging an application on a NuTiny-SDK-NANO130 board. It can be found on Figure 4-2 list directory and downloaded fromNuvoton NuMicro ®website.ProjectFigure 4-2 Example DirectoryTo use this example:Connects the NuTuny-SDK-NANO130_TNLCD to NuTiny-SDK-NANO130. The LCD panel will display a NUVOTON logo.⏹ Start IAR Embedded Workbench ⏹Project – Download and DebugProgram the application code into on-chip Flash ROM ⏹ File-Open-WorkspaceOpen the SYS.eww workspace file⏹Single step through code ⏹Project - MakeCompile and link the SYS application⏹ Reset the device⏹Run the application5 NUTINY-SDK-NANO130 SCHEMATIC5.1NuTiny-EVB-NANO130 SchematicNuTiny-EVB-Nano130-LQFP128 V1.2GPIO for 128 pin Schematic5.2NuTiny-EVB-Nano130-LQFP128 V1.2NUTINY-SDK-NANO130 USER MANUALNu-Link-Me Schematic5.3Nu-Link-Me V1.5NuTiny-SDK-NANO130_TNLCD Schematic5.4NuTiny-EVB-TNLCD-Nano130-LQFP128 V1.0NUTINY-SDK-NANO130 USER MANUAL6 REVISION HISTORY2012.10.16 1.00 1. Initially issued.2013.01.08 1.01 1. Change the value of C7 and C8 in the schematicsfrom 10 pF to 6 pF.2018.02.26 1.02 1. Updated the figure of NuTiny-SDK-NANO130 PCBBoard in chapter 1.2. Updated th descriptions in chapter 2.3. Updated the example program descriptions inchapter 3 and 4.4. Updated NuTiny-SDK-NANO130 schematics inchapter 5.Important NoticeNuvoton Products are neither intended nor warranted for usage in systems or equipment, any malfunction or failure of which may cause loss of human life, bodily injury or severe property damage. Such applications are deemed, “Insecure Usage”.Insecure usage includes, but is not limited to: equipment for surgical implementation, atomic energy control instruments, airplane or spaceship instruments, the control or operation of dynamic, brake or safety systems designed for vehicular use, traffic signal instruments, all types of safety devices, and other applications intended to support or sustain life.All Insecure Usage shall be made at customer’s risk, and in the event that third parties lay claims to Nuvoton as a result of customer’s Insecu re Usage, customer shall indemnify the damages and liabilities thus incurred by Nuvoton.。

NuTool – PinConfigure Revision HistoryNuTool – PinConfigureRevision HistoryThe information described in this document is the exclusive intellectual property ofNuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton.Nuvoton is providing this document only for reference purposes of NuMicro ® micro controller based systemdesign. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation .NuTool – PinConfigure Revision History TABLE OF CONTENTS1REVISION HISTORY (3)2SUPPORTED MIRCO CONTROLLER (6)3RESOURCES (10)NuTool – PinConfigure Revision History1 REVISION HISTORY Version Release Date Description1.24 2022/3/30 • Added supported micro controller:– NuMicro M7 Family: KM1M7BF Series.– NuMicro M4 Family: M460 Series.• Added supported micro processor:– NuMicro A35 Family: MA35D1 Series.1.23 2021/6/30 • Added supported micro controller:– NuMicro M7 Family: KM1M7AF Series.– NuMicro M23 Family: M256D and M258G Series.1.22 2021/3/19 • Added supported micro controller:– NuMicro M0 Family: M031G Series.– NuMicro M23 Family: NUC1262 Series.1.21 2020/11/20 • Added supported micro controller:– NuMicro M0 Family: M071 Series.– NuMicro M4 Family: M471 Series.– NuMicro M23 Family: M253, M258 and M2354 Series.1.20 2020/4/30 • Added supported micro controller:– NuMicro M0 Family: M0A21 and M030G Series.1.19 2020/3/6 • Added supported micro controller:– NuMicro M0 Family: NUC029MDE.– NuMicro M4 Family: M487KMCAN.– NuMicro 8051 1T Family: ML56 Series.1.18 2020/1/31 • Added supported micro controller:– NuMicro M0 Family: M031BT series.– NuMicro M4 Family: M479 series.1.17 2019/11/1 • Added supported micro controller:– NuMicro M0 Family: NUC029ZAN.• Updated supported micro controller:– NuMicro M0 Family: M031 Series.– NuMicro M4 Family: M480 Series– NuMicro 8051 1T Family: MS51 Series1.16 2019/9/6 • Added supported micro controller:– NuMicro M0 Family: M031(G/I/Keyboard/Mouse) and NUC1311 Series.– NuMicro M23 Family: M2353SIAAE Series.NuTool – PinConfigure Revision History–NuMicro 8051 1T Family: MS51(8K/32K) Series.•Updated supported micro controller:–NuMicro M0 Family: NANO100BN Series.–NuMicro M4 Family: M480LD Series1.15 2019/4/29•Added supported micro controller:–NuMicro M0 Family: NUC1261, M05641, NUC029xDE,NUC029xEE, NUC029xGE and M031 Series.–NuMicro M23 Family: M261 Series.–NuMicro M4 Family: M4521 Series.–NuMicro 8051 1T Family: MS51 Series.1.14 2018/12/28•Added supported micro controller:–NuMicro M0 Family: NUC2201 Series.–NuMicro M23 Family: M251 Series.–NuMicro 8051 1T Family: ML51 Series.•Updated supported micro controller:–NuMicro M0 Family: NANO103 Series.1.13 2018/7/29•Added supported micro controller:–NuMicro M0 Family: Mini57, NDA102 and NM1120 Series.1.12 2018/6/29•Updated supported micro controller:–NuMicro M23 Family: M2351 Series.–NuMicro M4 Family: M480 Series.1.11 2017/10/20•Added supported micro controller:–NuMicro M23 Family: M2351 Series.•Supported the adjustment of conflicts.1.10 2017/8/1•Added supported micro controller:–NuMicro M0 Family: NUC121, NUC125, NUC126 and M0564Series.–NuMicro M4 Family: M480 Series.1.09 2016/7/22 •Supported NuCAD for Protel library.1.08 2016/2/29•Added supported micro controller:–NuMicro M0 Family: NANO103 Series.1.07 2015/12/1 •Supported the Generate Report of Pin Description feature.1.06 2015/11/1 •Supported the NuCAD feature.1.05 2015/7/1•Added supported micro controller:–NuMicro M0 Family: Mini58 and M0519 Series.•Supported the Tooltip feature.NuTool – PinConfigure Revision History 1.04 2014/11/28 • Supported IE11.• Added supported micro controller:– NuMicro M0 Family: NUC100, NUC200, NUC029, M051, M0518, Mini51, Nano100 and NM1500 Series.– NuMicro M4 Family: NUC505 Series.1.03 2014/1/24 • Added supported micro controller:– NuMicro M4 Family: M451 Series.• Enhanced stability.1.02 2014/1/3 • Supported IE10.• Improved performance and GUI.• Supported the Search feature.• Supported the Print Report feature.1.01 2013/11/8 • Supported IE9.• Supported Simplified Chinese and Traditional Chinese. 1.00 2013/10/18 • Release primary version.NuTool – PinConfigure Revision History 2SUPPORTED MIRCO CONTROLLERProduct Line Series Part NumberNuMicro®8051 FamilyMS51MS51BA9AE, MS51DA9AE, MS51EB0AE, MS51EC0AE, MS51FB9AE, MS51FC0AE,MS51PC0AE, MS51TC0AE, MS51XB9AE, MS51XB9BE, MS51XC0BEML51ML51BB9AE, ML51DB9AE, ML51EB9AE, ML51EC0AE, ML51FB9AE, ML51LD1AE,ML51OB9AE, ML51PB9AE, ML51PC0AE, ML51SD1AE, ML51TB9AE, ML51TC0AE,ML51TD1AE, ML51UB9AE, ML51UC0AE, ML51XB9AEML56ML54LD1AE, ML54MD1AE, ML54SD1AE, ML56LD1AE, ML56MD1AE,ML56SD1AENuMicro®M0 FamilyM0A21M0A21EB1AC, M0A21EC1AC, M0A21OB1AC, M0A21OC1AC, M0A23EC1AC,M0A23OC1ACM030GM030GGC0AE, M030GGC1AE, M030GGD1AE, M030GTC0AE, M030GTC1AE,M030GTD1AE, M031GGC1AE, M031GGC2AE, M031GGD2AE, M031GTC1AE,M031GTC2AE, M031GTD2AEM031M030FD2AE, M030LD2AE, M030TD2AE, M031BTYD2AN, M031BTYE3AN,M031EB0AE, M031EC1AE, M031FB0AE, M031FC1AE, M031KG6AE,M031KG8AE, M031KIAAE, M031LC2AE, M031LD2AE, M031LE3AE, M031LG6AE,M031LG8AE, M031SC2AE, M031SD2AE, M031SE3AE, M031SG6AE, M031SG8AE,M031SIAAE, M031TB0AE, M031TC1AE, M031TD2AE, M031TE3AE,M032BTAG8AN, M032BTAIAAN, M032EC1AE, M032FC1AE, M032KG6AE,M032KG8AE, M032KIAAE, M032LC2AE, M032LD2AE, M032LE3AE, M032LG6AE,M032LG8AE, M032SE3AE, M032SG6AE, M032SG8AE, M032SIAAE, M032TC1AE,M032TD2AEM071M071MC2AE, M071MD2AE, M071QE4AE, M071QG4AE, M071R1D3AE,M071R1E3AE, M071SD3AE, M071SE3AE, M071VG4AEM051DNM0516LDN, M0516ZDN, M052LDN, M052ZDN, M054LDN, M054ZDN,M058LDN, M058ZDNM051DEM0515LDE, M0516LDE, M0516ZDE, M052LDE, M052ZDE, M054LDE, M054ZDE,M058LDE, M058ZDEM0518AE M0518LC2AE, M0518LD2AE, M0518SC2AE, M0518SD2AEM0519AE M0519LD3AE, M0519LE3AE, M0519SD3AE, M0519SE3AE, M0519VE3AEM0564M0564LE4AE, M0564LG4AE, M0564SE4AE, M0564SG4AE, M0564VG4AEM05641M05641LG4AE, M05641LE4AE, M05641SG4AE, M05641SE4AEM058SAN M058SFAN, M058SLAN, M058SSAN, M058SZANMINI51DEMINI51FDE, MINI51LDE, MINI51TDE, MINI51ZDE, MINI52FDE, MINI52LDE,MINI52TDE, MINI52ZDE, MINI54FDE, MINI54LDE, MINI54TDE, MINI54ZDE MINI55MINI55LDE, MINI55ZDEMINI57MINI57TDE, MINI57EDE, MINI57FDENuTool – PinConfigure Revision History MINI58 MINI58FDE, MINI58LDE, MINI58TDE, MINI58ZDENANO100AN NANO100LC2AN, NANO100LD2AN, NANO100LD3AN, NANO100SC2AN,NANO100SD2AN, NANO100SD3AN, NANO100VD2AN, NANO100VD3AN,NANO100ZC2AN, NANO100ZD2AN, NANO100ZD3AN, NANO120LC2AN,NANO120LD2AN, NANO120LD3AN, NANO120SC2AN, NANO120SD2AN,NANO120SD3AN, NANO120VD2AN, NANO120VD3AN, NANO120ZC2AN,NANO120ZD2AN, NANO120ZD3ANNANO100BN NANO100KD3BN, NANO100KE3BN, NANO100LC2BN, NANO100LD2BN,NANO100LD3BN, NANO100LE3BN, NANO100NC2BN, NANO100ND2BN,NANO100ND3BN, NANO100NE3BN, NANO100SC2BN, NANO100SD2BN,NANO100SD3BN, NANO100SE3BN, NANO110KC2BN, NANO110KD2BN,NANO110KD3BN, NANO110KE3BN, NANO110RC2BN, NANO110RD2BN,NANO110RD3BN, NANO110RE3BN, NANO110SC2BN, NANO110SD2BN,NANO110SD3BN, NANO110SE3BN, NANO120KD3BN, NANO120KE3BN,NANO120LC2BN, NANO120LD2BN, NANO120LD3BN, NANO120LE3BN,NANO120SC2BN, NANO120SD2BN, NANO120SD3BN, NANO120SE3BN,NANO130KC2BN, NANO130KD2BN, NANO130KD3BN, NANO130KE3BN,NANO130SC2BN, NANO130SD2BN, NANO130SD3BN, NANO130SE3BNNANO103 NANO103SD3AE, NANO103LD3AE, NANO103ZD3AENANO102/112AN NANO102LB1AN, NANO102LC2AN, NANO102SC2AN, NANO102ZB1AN,NANO102ZC2AN, NANO112LB1AN, NANO112LC2AN, NANO112RB1AN,NANO112RC2AN, NANO112SB1AN, NANO112SC2AN, NANO112VC2ANNUC029AN NUC029LAN, NUC029NAN, NUC029TANNUC029AE NUC029FAE, NUC029TAENUC029xDE NUC029LDE, NUC029SDENUC029xEE NUC029LEE, NUC029SEENUC029xGE NUC029KGE, NUC029LGE, NUC029SGENUC029MDE NUC029MDENUC029ZAN NUC029ZANNUC130/140CN NUC130LC1CN, NUC130LD2CN, NUC130LE3CN, NUC130RC1CN, NUC130RD2CN,NUC130RE3CN, NUC130VE3CN, NUC140LC1CN, NUC140LD2CN, NUC140LE3CN,NUC140RC1CN, NUC140RD2CN, NUC140RE3CN, NUC140VE3CNNUC100/120DN NUC100LC1DN, NUC100LD2DN, NUC100LE3DN, NUC100RC1DN,NUC100RD1DN, NUC100RD2DN, NUC100RE3DN, NUC100VE3DN,NUC120LC1DN, NUC120LD2DN, NUC120LE3DN, NUC120RC1DN,NUC120RD2DN, NUC120RE3DN, NUC120VE3DNNUC121 NUC121SC2AE, NUC121LC2AE, NUC121ZC2AE, NUC125SC2AE, NUC125LC2AE,NUC125ZC2AENUC123AN NUC123LC2AN1, NUC123LD4AN0, NUC123SC2AN1, NUC123SD4AN0,NUC123ZC2AN1, NUC123ZD4AN0NUC123AE NUC123LC2AE1, NUC123LD4AE0, NUC123SC2AE1, NUC123SD4AE0,NuTool – PinConfigure Revision HistoryNUC123ZC2AE1, NUC123ZD4AE0NUC126NUC126LE4AE, NUC126LG4AE, NUC126NE4AE, NUC126SE4AE, NUC126SG4AE,NUC126VG4AENUC1261NUC1261LG4AE, NUC1261LE4AE, NUC1261NE4AE, NUC1261SG4AE,NUC1261SE4AENUC131AENUC131LC2AE, NUC131LC2AEU, NUC131LD2AE, NUC131LD2AEU,NUC131SC2AE, NUC131SC2AEU, NUC131SD2AE, NUC131SD2AEUNUC1311NUC1311LD2AENUC200/220ANNUC200LC2AN, NUC200LD2AN, NUC200LE3AN, NUC200SC2AN, NUC200SD2AN,NUC200SE3AN, NUC200VE3AN, NUC220LC2AN, NUC220LD2AN, NUC220LE3AN,NUC220SC2AN, NUC220SD2AN, NUC220SE3AN, NUC220VE3ANNUC230/240AENUC230LC2AE, NUC230LD2AE, NUC230LE3AE, NUC230SC2AE, NUC230SD2AE,NUC230SE3AE, NUC230VE3AE, NUC240LC2AE, NUC240LD2AE, NUC240LE3AE,NUC240SC2AE, NUC240SD2AE, NUC240SE3AE, NUC240VE3AENUC2201NUC2201LE3AE, NUC2201SE3AENDA102NDA102EC1, NDA102FC1, NDA102SD2NuMicro®M23 FamilyM251M251EB2AE, M251EC2AE, M251FB2AE, M251FC2AE, M251KE3AE, M251KG6AE,M251LC2AE, M251LD2AE, M251LE3AE, M251LG6AE, M251SC2AE, M251SD2AE,M251SE3AE, M251SG6AE, M251ZB2AE, M251ZC2AE, M251ZD2AE, M252EC2AE,M252FC2AE, M252KE3AE, M252KG6AE, M252LC2AE, M252LD2AE, M252LE3AE,M252LG6AE, M252SC2AE, M252SD2AE, M252SE3AE, M252SG6AE, M252ZC2AE,M252ZD2AEM253 M253LD3AE, M253LE3AE, M253ZE3AEM258M254KE3AE, M254KG6AE, M254MD2AE, M254QE3AE, M254SD2AE,M254SE3AE, M254SG6AE, M256KE3AE, M256MD2AE, M256QE3AE,M256QG6AE, M256SD2AE, M256SE3AE, M258KE3AE, M258KG6AE,M258QE3AE, M258QG6AE, M258SE3AE, M258SG6AEM261M261ZIAAE, M261SIAAE, M261KIAAE, M262ZIAAE, M262SIAAE, M262KIAAE,M263ZIAAE, M263SIAAE, M263KIAAEM2351M2351ZIAAE, M2351SIAAE, M2351KIAAEM2354M2354KJFAE, M2354LJFAE, M2354SJFAENUC1262 NUC1262LE4AE, NUC1262NE4AE, NUC1262SE4AENuMicro®M4 FamilyM451M451LC3AE, M451LD3AE, M451LE6AE, M451LG6AE, M451MLC3AE,M451MLD3AE, M451MLE6AE, M451MLG6AE, M451MSC3AE, M451MSD3AEM451RC3AE, M451RD3AE, M451RE6AE, M451RG6AE, M451VE6AE,M451VG6AE, M452LC3AE, M452LD3AE, M452LE6AE, M452LG6AE,M452RD3AE, M452RE6AE, M452RG6AE, M453LC3AE, M453LD3AE, M453LE6AE,M453LG6AE, M453RD3AE, M453RE6AE, M453RG6AE, M453VD3AE,M453VE6AE, M453VG6AEM4521M4521LE6AE, M4521SE6AE, M4521RE6AENuTool – PinConfigure Revision History M460 M463H3SJHAN, M463H3SIHAN, M467SJHAE, M463SJHAE, M464SJHAE,M467SIHAE, M463SIHAE, M464SIHAE, M467VJHAE, M467VIHAE,M463H3KJHAN, M463H3KIHAN, M467KJHAE, M463KJHAE, M464KJHAE,M467KIHAE, M463KIHAE, M464KIHAE, M467JJHAE, M467JIHAE, M467H3JJHAN,M467HJHAE, M467HIHAE, M467H3HJHAN, M464YGCAE, M464LGCAE,M464AGCAE, M464SGCAE, M463VGCAE, M464KGCAE, M463YGCAE,M463LGCAE, M463AGCAE, M463SGCAE, M463KGCAE, M46AYGCAE,M46ALGCAE, M46AAGCAE, M46ASGCAE, M46AKGCAEM471 M471KI8AE, M471LG7AE, M471QG7AE, M471QI8AE, M471SG7AE, M471SI8AE,M471VG7AE, M471VI8AEM479 M479LG8AE, M479NG8AE, M479SG8AEM480 M481LIDAE, M481SIDAE, M481ZIDAE, M482KIDAE, M482LIDAE, M482SIDAE,M482ZIDAE, M483KIDAE, M483SIDAE, M484KIDAE, M484SIDAE, M484SIDAE2U,M485KIDAE, M485LIDAE, M485SIDAE, M487JIDAE, M487KIDAE, M487KMCAN,M487SIDAEM480LD M481LE8AE, M481LGCAE, M481SE8AE, M481SGCAE, M481SGCAE2A,M481ZE8AE, M481ZGCAE, M482KGCAE, M482LE8AE, M482LGCAE, M482SE8AE,M482SGCAE, M482ZE8AE, M482ZGCAE, M483KGCAE, M483KGCAE2A,M483SE8AE, M483SGCAE, M483SGCAE2ANUC442/472AE NUC442JG8AE, NUC442JI8AE, NUC442KG8AE, NUC442KI8AE, NUC442RG8AE,NUC442RI8AE, NUC442VG8AE, NUC442VI8AE, NUC472HG8AE, NUC472HI8AE,NUC472JG8AE, NUC472JI8AE, NUC472KG8AE, NUC472KI8AE, NUC472VG8AE,NUC472VI8AENUC505 NUC505YO13Y, NUC505DS13Y, NUC505DSA, NUC505DL13Y, NUC505DLA,NUC505YLA2Y, NUC505YLANuMicro® M7 FamilyKM1M7AF KM1M7AF00K, KM1M7AF00M, KM1M7AF00N, KM1M7AF02K, KM1M7AF02M,KM1M7AF02N, KM1M7AF50K, KM1M7AF50M, KM1M7AF50N, KM1M7AF52K, KM1M7AF52M, KM1M7AF52N KM1M7BF KM1M7BF00K, KM1M7BF00M, KM1M7BF00N, KM1M7BF02K, KM1M7BF02M,KM1M7BF02NNuMicro®A35 Family MA35D1 MA35D16F787C, MA35D16A8A7C, MA35D16A0A7CMotorControl NM1120AE NM1120FC1AE, NM1120EC1AE, NM1120XC1AE, NM1120TC1AE,NM1120ZC1AE, NM1120FB0AE, NM1120EB0AE, NM1120XB0AE,NM1120TB0AE, NM1120ZB0AENM1200AE NM1100FAAE, NM1100FBAE, NM1100XAAE, NM1100XBAE, NM1200LAAE,NM1200LBAE, NM1200TAAE, NM1200TBAENM1500AE NM1510LB1AE, NM1510LC1AE, NM1520LC2AE, NM1520LD2AE,NM1520RC2AE, NM1520RD2AE, NM1530VD3AE, NM1530VE3AEAudio ChipCorder ISD9100 I9160FI, I9160VFIISD9300 I9361RI, I9361VRINuTool – PinConfigure Revision History 3RESOURCESWebsite DetailsNuTool on https:///tool-and-software/software-development-tool/nutool/•Download the latest NuTool installation file.•View the NuTool revision history.NuTool on GitHubhttps:///OpenNuvoton/Nuvoton_Tools•Check the open source example code of NuTool for easier development.Important NoticeUsing this software indicates your acceptance of the disclaimer hereunder: THIS SOFTWARE IS FOR YOUR REFERENCE ONLY AND PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 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M460 KWS with Nuvoton Machine Learning Developer IDEApplication Note for 32-bit NuMicro® FamilyDocument InformationAbstract 本文介紹如何使用Jupyter Notebook進行KWS工具開發基於機器學習的語音識別系統，並協助使用者於NuMicro®M460系列開發板實現關鍵詞識別(KWS)功能。

Apply to NuMaker-M467HJ V1.0The information described in this document is the exclusive intellectual property of Nuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton.Nuvoton is providing this document only for reference purposes of NuMicro microcontroller and microprocessor based system design. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation.Table of Contents1概述 (3)1.1系統架構 (3)1.2深度學習介紹 (4)1.2.1深度神經網路(Deep Neural Networks, DNN) (5)1.2.2深度可分離卷積神經網路(Depthwise Separable Convolution Neural Network, DSCNN) (6)1.3TensorFlow簡介 (8)1.3.1T ensorFlow Lite for Microcontrollers (TFlite for MCU) (9)1.4關鍵詞辨識介紹 (9)2如何以JUPYTER於開發板使用KWS工具 (11)2.1範例程式下載 (11)2.1.1J upyter Notebook (11)2.1.2K eil Project (12)2.2KWS環境設置 (14)2.2.1A naconda套件安裝 (14)2.2.2K eil安裝 (18)2.2.3J upyter環境設置 (19)2.3透過Jupyter使用KWS (24)2.3.1音訊資料收集 (25)2.3.2音訊資料處理 (28)2.3.3模型訓練與測試 (34)2.3.4模型轉換 (43)2.4將Kws模型部署到M460 (47)2.4.1離線版Kws專案 (48)2.4.2線上版Kws專案 (50)3結論 (54)1 概述語音識別技術是透過收集多種音訊資料建立訓練模型，如此一來在新語音訊息輸入後，系統可依據模型資料對語音辨識並即時輸出結果，而關鍵詞辨識(Key-word spotting, KWS)為目前主流的語音喚醒技術。