SyncroMax(韩秀)

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.。

The information in this document is subject to change without notice and does not represent a commitment on the part of Native Instruments GmbH. The software described by this docu-ment is subject to a License Agreement and may not be copied to other media. No part of this publication may be copied, reproduced or otherwise transmitted or recorded, for any purpose, without prior written permission by Native Instruments GmbH, hereinafter referred to as Native Instruments.“Native Instruments”, “NI” and associated logos are (registered) trademarks of Native Instru-ments GmbH.ASIO, VST, HALion and Cubase are registered trademarks of Steinberg Media Technologies GmbH.All other product and company names are trademarks™ or registered® trademarks of their re-spective holders. Use of them does not imply any affiliation with or endorsement by them.Document authored by: David Gover and Nico Sidi.Software version: 2.8 (02/2019)Hardware version: MASCHINE MK3Special thanks to the Beta Test Team, who were invaluable not just in tracking down bugs, but in making this a better product.NATIVE INSTRUMENTS GmbH Schlesische Str. 29-30D-10997 Berlin Germanywww.native-instruments.de NATIVE INSTRUMENTS North America, Inc. 6725 Sunset Boulevard5th FloorLos Angeles, CA 90028USANATIVE INSTRUMENTS K.K.YO Building 3FJingumae 6-7-15, Shibuya-ku, Tokyo 150-0001Japanwww.native-instruments.co.jp NATIVE INSTRUMENTS UK Limited 18 Phipp StreetLondon EC2A 4NUUKNATIVE INSTRUMENTS FRANCE SARL 113 Rue Saint-Maur75011 ParisFrance SHENZHEN NATIVE INSTRUMENTS COMPANY Limited 5F, Shenzhen Zimao Center111 Taizi Road, Nanshan District, Shenzhen, GuangdongChina© NATIVE INSTRUMENTS GmbH, 2019. All rights reserved.Table of Contents1Welcome to MASCHINE (25)1.1MASCHINE Documentation (26)1.2Document Conventions (27)1.3New Features in MASCHINE 2.8 (29)1.4New Features in MASCHINE 2.7.10 (31)1.5New Features in MASCHINE 2.7.8 (31)1.6New Features in MASCHINE 2.7.7 (32)1.7New Features in MASCHINE 2.7.4 (33)1.8New Features in MASCHINE 2.7.3 (36)2Quick Reference (38)2.1Using Your Controller (38)2.1.1Controller Modes and Mode Pinning (38)2.1.2Controlling the Software Views from Your Controller (40)2.2MASCHINE Project Overview (43)2.2.1Sound Content (44)2.2.2Arrangement (45)2.3MASCHINE Hardware Overview (48)2.3.1MASCHINE Hardware Overview (48)2.3.1.1Control Section (50)2.3.1.2Edit Section (53)2.3.1.3Performance Section (54)2.3.1.4Group Section (56)2.3.1.5Transport Section (56)2.3.1.6Pad Section (58)2.3.1.7Rear Panel (63)2.4MASCHINE Software Overview (65)2.4.1Header (66)2.4.2Browser (68)2.4.3Arranger (70)2.4.4Control Area (73)2.4.5Pattern Editor (74)3Basic Concepts (76)3.1Important Names and Concepts (76)3.2Adjusting the MASCHINE User Interface (79)3.2.1Adjusting the Size of the Interface (79)3.2.2Switching between Ideas View and Song View (80)3.2.3Showing/Hiding the Browser (81)3.2.4Showing/Hiding the Control Lane (81)3.3Common Operations (82)3.3.1Using the 4-Directional Push Encoder (82)3.3.2Pinning a Mode on the Controller (83)3.3.3Adjusting Volume, Swing, and Tempo (84)3.3.4Undo/Redo (87)3.3.5List Overlay for Selectors (89)3.3.6Zoom and Scroll Overlays (90)3.3.7Focusing on a Group or a Sound (91)3.3.8Switching Between the Master, Group, and Sound Level (96)3.3.9Navigating Channel Properties, Plug-ins, and Parameter Pages in the Control Area.973.3.9.1Extended Navigate Mode on Your Controller (102)3.3.10Navigating the Software Using the Controller (105)3.3.11Using Two or More Hardware Controllers (106)3.3.12Touch Auto-Write Option (108)3.4Native Kontrol Standard (110)3.5Stand-Alone and Plug-in Mode (111)3.5.1Differences between Stand-Alone and Plug-in Mode (112)3.5.2Switching Instances (113)3.5.3Controlling Various Instances with Different Controllers (114)3.6Host Integration (114)3.6.1Setting up Host Integration (115)3.6.1.1Setting up Ableton Live (macOS) (115)3.6.1.2Setting up Ableton Live (Windows) (116)3.6.1.3Setting up Apple Logic Pro X (116)3.6.2Integration with Ableton Live (117)3.6.3Integration with Apple Logic Pro X (119)3.7Preferences (120)3.7.1Preferences – General Page (121)3.7.2Preferences – Audio Page (126)3.7.3Preferences – MIDI Page (130)3.7.4Preferences – Default Page (133)3.7.5Preferences – Library Page (137)3.7.6Preferences – Plug-ins Page (145)3.7.7Preferences – Hardware Page (150)3.7.8Preferences – Colors Page (154)3.8Integrating MASCHINE into a MIDI Setup (156)3.8.1Connecting External MIDI Equipment (156)3.8.2Sync to External MIDI Clock (157)3.8.3Send MIDI Clock (158)3.9Syncing MASCHINE using Ableton Link (159)3.9.1Connecting to a Network (159)3.9.2Joining and Leaving a Link Session (159)3.10Using a Pedal with the MASCHINE Controller (160)3.11File Management on the MASCHINE Controller (161)4Browser (163)4.1Browser Basics (163)4.1.1The MASCHINE Library (163)4.1.2Browsing the Library vs. Browsing Your Hard Disks (164)4.2Searching and Loading Files from the Library (165)4.2.1Overview of the Library Pane (165)4.2.2Selecting or Loading a Product and Selecting a Bank from the Browser (170)4.2.2.1[MK3] Browsing by Product Category Using the Controller (174)4.2.2.2[MK3] Browsing by Product Vendor Using the Controller (174)4.2.3Selecting a Product Category, a Product, a Bank, and a Sub-Bank (175)4.2.3.1Selecting a Product Category, a Product, a Bank, and a Sub-Bank on theController (179)4.2.4Selecting a File Type (180)4.2.5Choosing Between Factory and User Content (181)4.2.6Selecting Type and Character Tags (182)4.2.7List and Tag Overlays in the Browser (186)4.2.8Performing a Text Search (188)4.2.9Loading a File from the Result List (188)4.3Additional Browsing Tools (193)4.3.1Loading the Selected Files Automatically (193)4.3.2Auditioning Instrument Presets (195)4.3.3Auditioning Samples (196)4.3.4Loading Groups with Patterns (197)4.3.5Loading Groups with Routing (198)4.3.6Displaying File Information (198)4.4Using Favorites in the Browser (199)4.5Editing the Files’ Tags and Properties (203)4.5.1Attribute Editor Basics (203)4.5.2The Bank Page (205)4.5.3The Types and Characters Pages (205)4.5.4The Properties Page (208)4.6Loading and Importing Files from Your File System (209)4.6.1Overview of the FILES Pane (209)4.6.2Using Favorites (211)4.6.3Using the Location Bar (212)4.6.4Navigating to Recent Locations (213)4.6.5Using the Result List (214)4.6.6Importing Files to the MASCHINE Library (217)4.7Locating Missing Samples (219)4.8Using Quick Browse (221)5Managing Sounds, Groups, and Your Project (225)5.1Overview of the Sounds, Groups, and Master (225)5.1.1The Sound, Group, and Master Channels (226)5.1.2Similarities and Differences in Handling Sounds and Groups (227)5.1.3Selecting Multiple Sounds or Groups (228)5.2Managing Sounds (233)5.2.1Loading Sounds (235)5.2.2Pre-listening to Sounds (236)5.2.3Renaming Sound Slots (237)5.2.4Changing the Sound’s Color (237)5.2.5Saving Sounds (239)5.2.6Copying and Pasting Sounds (241)5.2.7Moving Sounds (244)5.2.8Resetting Sound Slots (245)5.3Managing Groups (247)5.3.1Creating Groups (248)5.3.2Loading Groups (249)5.3.3Renaming Groups (251)5.3.4Changing the Group’s Color (251)5.3.5Saving Groups (253)5.3.6Copying and Pasting Groups (255)5.3.7Reordering Groups (258)5.3.8Deleting Groups (259)5.4Exporting MASCHINE Objects and Audio (260)5.4.1Saving a Group with its Samples (261)5.4.2Saving a Project with its Samples (262)5.4.3Exporting Audio (264)5.5Importing Third-Party File Formats (270)5.5.1Loading REX Files into Sound Slots (270)5.5.2Importing MPC Programs to Groups (271)6Playing on the Controller (275)6.1Adjusting the Pads (275)6.1.1The Pad View in the Software (275)6.1.2Choosing a Pad Input Mode (277)6.1.3Adjusting the Base Key (280)6.1.4Using Choke Groups (282)6.1.5Using Link Groups (284)6.2Adjusting the Key, Choke, and Link Parameters for Multiple Sounds (286)6.3Playing Tools (287)6.3.1Mute and Solo (288)6.3.2Choke All Notes (292)6.3.3Groove (293)6.3.4Level, Tempo, Tune, and Groove Shortcuts on Your Controller (295)6.3.5Tap Tempo (299)6.4Performance Features (300)6.4.1Overview of the Perform Features (300)6.4.2Selecting a Scale and Creating Chords (303)6.4.3Scale and Chord Parameters (303)6.4.4Creating Arpeggios and Repeated Notes (316)6.4.5Swing on Note Repeat / Arp Output (321)6.5Using Lock Snapshots (322)6.5.1Creating a Lock Snapshot (322)6.5.2Using Extended Lock (323)6.5.3Updating a Lock Snapshot (323)6.5.4Recalling a Lock Snapshot (324)6.5.5Morphing Between Lock Snapshots (324)6.5.6Deleting a Lock Snapshot (325)6.5.7Triggering Lock Snapshots via MIDI (326)6.6Using the Smart Strip (327)6.6.1Pitch Mode (328)6.6.2Modulation Mode (328)6.6.3Perform Mode (328)6.6.4Notes Mode (329)7Working with Plug-ins (330)7.1Plug-in Overview (330)7.1.1Plug-in Basics (330)7.1.2First Plug-in Slot of Sounds: Choosing the Sound’s Role (334)7.1.3Loading, Removing, and Replacing a Plug-in (335)7.1.3.1Browser Plug-in Slot Selection (341)7.1.4Adjusting the Plug-in Parameters (344)7.1.5Bypassing Plug-in Slots (344)7.1.6Using Side-Chain (346)7.1.7Moving Plug-ins (346)7.1.8Alternative: the Plug-in Strip (348)7.1.9Saving and Recalling Plug-in Presets (348)7.1.9.1Saving Plug-in Presets (349)7.1.9.2Recalling Plug-in Presets (350)7.1.9.3Removing a Default Plug-in Preset (351)7.2The Sampler Plug-in (352)7.2.1Page 1: Voice Settings / Engine (354)7.2.2Page 2: Pitch / Envelope (356)7.2.3Page 3: FX / Filter (359)7.2.4Page 4: Modulation (361)7.2.5Page 5: LFO (363)7.2.6Page 6: Velocity / Modwheel (365)7.3Using Native Instruments and External Plug-ins (367)7.3.1Opening/Closing Plug-in Windows (367)7.3.2Using the VST/AU Plug-in Parameters (370)7.3.3Setting Up Your Own Parameter Pages (371)7.3.4Using VST/AU Plug-in Presets (376)7.3.5Multiple-Output Plug-ins and Multitimbral Plug-ins (378)8Using the Audio Plug-in (380)8.1Loading a Loop into the Audio Plug-in (384)8.2Editing Audio in the Audio Plug-in (385)8.3Using Loop Mode (386)8.4Using Gate Mode (388)9Using the Drumsynths (390)9.1Drumsynths – General Handling (391)9.1.1Engines: Many Different Drums per Drumsynth (391)9.1.2Common Parameter Organization (391)9.1.3Shared Parameters (394)9.1.4Various Velocity Responses (394)9.1.5Pitch Range, Tuning, and MIDI Notes (394)9.2The Kicks (395)9.2.1Kick – Sub (397)9.2.2Kick – Tronic (399)9.2.3Kick – Dusty (402)9.2.4Kick – Grit (403)9.2.5Kick – Rasper (406)9.2.6Kick – Snappy (407)9.2.7Kick – Bold (409)9.2.8Kick – Maple (411)9.2.9Kick – Push (412)9.3The Snares (414)9.3.1Snare – Volt (416)9.3.2Snare – Bit (418)9.3.3Snare – Pow (420)9.3.4Snare – Sharp (421)9.3.5Snare – Airy (423)9.3.6Snare – Vintage (425)9.3.7Snare – Chrome (427)9.3.8Snare – Iron (429)9.3.9Snare – Clap (431)9.3.10Snare – Breaker (433)9.4The Hi-hats (435)9.4.1Hi-hat – Silver (436)9.4.2Hi-hat – Circuit (438)9.4.3Hi-hat – Memory (440)9.4.4Hi-hat – Hybrid (442)9.4.5Creating a Pattern with Closed and Open Hi-hats (444)9.5The Toms (445)9.5.1Tom – Tronic (447)9.5.2Tom – Fractal (449)9.5.3Tom – Floor (453)9.5.4Tom – High (455)9.6The Percussions (456)9.6.1Percussion – Fractal (458)9.6.2Percussion – Kettle (461)9.6.3Percussion – Shaker (463)9.7The Cymbals (467)9.7.1Cymbal – Crash (469)9.7.2Cymbal – Ride (471)10Using the Bass Synth (474)10.1Bass Synth – General Handling (475)10.1.1Parameter Organization (475)10.1.2Bass Synth Parameters (477)11Working with Patterns (479)11.1Pattern Basics (479)11.1.1Pattern Editor Overview (480)11.1.2Navigating the Event Area (486)11.1.3Following the Playback Position in the Pattern (488)11.1.4Jumping to Another Playback Position in the Pattern (489)11.1.5Group View and Keyboard View (491)11.1.6Adjusting the Arrange Grid and the Pattern Length (493)11.1.7Adjusting the Step Grid and the Nudge Grid (497)11.2Recording Patterns in Real Time (501)11.2.1Recording Your Patterns Live (501)11.2.2The Record Prepare Mode (504)11.2.3Using the Metronome (505)11.2.4Recording with Count-in (506)11.2.5Quantizing while Recording (508)11.3Recording Patterns with the Step Sequencer (508)11.3.1Step Mode Basics (508)11.3.2Editing Events in Step Mode (511)11.3.3Recording Modulation in Step Mode (513)11.4Editing Events (514)11.4.1Editing Events with the Mouse: an Overview (514)11.4.2Creating Events/Notes (517)11.4.3Selecting Events/Notes (518)11.4.4Editing Selected Events/Notes (526)11.4.5Deleting Events/Notes (532)11.4.6Cut, Copy, and Paste Events/Notes (535)11.4.7Quantizing Events/Notes (538)11.4.8Quantization While Playing (540)11.4.9Doubling a Pattern (541)11.4.10Adding Variation to Patterns (541)11.5Recording and Editing Modulation (546)11.5.1Which Parameters Are Modulatable? (547)11.5.2Recording Modulation (548)11.5.3Creating and Editing Modulation in the Control Lane (550)11.6Creating MIDI Tracks from Scratch in MASCHINE (555)11.7Managing Patterns (557)11.7.1The Pattern Manager and Pattern Mode (558)11.7.2Selecting Patterns and Pattern Banks (560)11.7.3Creating Patterns (563)11.7.4Deleting Patterns (565)11.7.5Creating and Deleting Pattern Banks (566)11.7.6Naming Patterns (568)11.7.7Changing the Pattern’s Color (570)11.7.8Duplicating, Copying, and Pasting Patterns (571)11.7.9Moving Patterns (574)11.7.10Adjusting Pattern Length in Fine Increments (575)11.8Importing/Exporting Audio and MIDI to/from Patterns (576)11.8.1Exporting Audio from Patterns (576)11.8.2Exporting MIDI from Patterns (577)11.8.3Importing MIDI to Patterns (580)12Audio Routing, Remote Control, and Macro Controls (589)12.1Audio Routing in MASCHINE (590)12.1.1Sending External Audio to Sounds (591)12.1.2Configuring the Main Output of Sounds and Groups (596)12.1.3Setting Up Auxiliary Outputs for Sounds and Groups (601)12.1.4Configuring the Master and Cue Outputs of MASCHINE (605)12.1.5Mono Audio Inputs (610)12.1.5.1Configuring External Inputs for Sounds in Mix View (611)12.2Using MIDI Control and Host Automation (614)12.2.1Triggering Sounds via MIDI Notes (615)12.2.2Triggering Scenes via MIDI (622)12.2.3Controlling Parameters via MIDI and Host Automation (623)12.2.4Selecting VST/AU Plug-in Presets via MIDI Program Change (631)12.2.5Sending MIDI from Sounds (632)12.3Creating Custom Sets of Parameters with the Macro Controls (636)12.3.1Macro Control Overview (637)12.3.2Assigning Macro Controls Using the Software (638)12.3.3Assigning Macro Controls Using the Controller (644)13Controlling Your Mix (646)13.1Mix View Basics (646)13.1.1Switching between Arrange View and Mix View (646)13.1.2Mix View Elements (647)13.2The Mixer (649)13.2.1Displaying Groups vs. Displaying Sounds (650)13.2.2Adjusting the Mixer Layout (652)13.2.3Selecting Channel Strips (653)13.2.4Managing Your Channels in the Mixer (654)13.2.5Adjusting Settings in the Channel Strips (656)13.2.6Using the Cue Bus (660)13.3The Plug-in Chain (662)13.4The Plug-in Strip (663)13.4.1The Plug-in Header (665)13.4.2Panels for Drumsynths and Internal Effects (667)13.4.3Panel for the Sampler (668)13.4.4Custom Panels for Native Instruments Plug-ins (671)13.4.5Undocking a Plug-in Panel (Native Instruments and External Plug-ins Only) (675)13.5Controlling Your Mix from the Controller (677)13.5.1Navigating Your Channels in Mix Mode (678)13.5.2Adjusting the Level and Pan in Mix Mode (679)13.5.3Mute and Solo in Mix Mode (680)13.5.4Plug-in Icons in Mix Mode (680)14Using Effects (681)14.1Applying Effects to a Sound, a Group or the Master (681)14.1.1Adding an Effect (681)14.1.2Other Operations on Effects (690)14.1.3Using the Side-Chain Input (692)14.2Applying Effects to External Audio (695)14.2.1Step 1: Configure MASCHINE Audio Inputs (695)14.2.2Step 2: Set up a Sound to Receive the External Input (698)14.2.3Step 3: Load an Effect to Process an Input (700)14.3Creating a Send Effect (701)14.3.1Step 1: Set Up a Sound or Group as Send Effect (702)14.3.2Step 2: Route Audio to the Send Effect (706)14.3.3 A Few Notes on Send Effects (708)14.4Creating Multi-Effects (709)15Effect Reference (712)15.1Dynamics (713)15.1.1Compressor (713)15.1.2Gate (717)15.1.3Transient Master (721)15.1.4Limiter (723)15.1.5Maximizer (727)15.2Filtering Effects (730)15.2.1EQ (730)15.2.2Filter (733)15.2.3Cabinet (737)15.3Modulation Effects (738)15.3.1Chorus (738)15.3.2Flanger (740)15.3.3FM (742)15.3.4Freq Shifter (743)15.3.5Phaser (745)15.4Spatial and Reverb Effects (747)15.4.1Ice (747)15.4.2Metaverb (749)15.4.3Reflex (750)15.4.4Reverb (Legacy) (752)15.4.5Reverb (754)15.4.5.1Reverb Room (754)15.4.5.2Reverb Hall (757)15.4.5.3Plate Reverb (760)15.5Delays (762)15.5.1Beat Delay (762)15.5.2Grain Delay (765)15.5.3Grain Stretch (767)15.5.4Resochord (769)15.6Distortion Effects (771)15.6.1Distortion (771)15.6.2Lofi (774)15.6.3Saturator (775)15.7Perform FX (779)15.7.1Filter (780)15.7.2Flanger (782)15.7.3Burst Echo (785)15.7.4Reso Echo (787)15.7.5Ring (790)15.7.6Stutter (792)15.7.7Tremolo (795)15.7.8Scratcher (798)16Working with the Arranger (801)16.1Arranger Basics (801)16.1.1Navigating Song View (804)16.1.2Following the Playback Position in Your Project (806)16.1.3Performing with Scenes and Sections using the Pads (807)16.2Using Ideas View (811)16.2.1Scene Overview (811)16.2.2Creating Scenes (813)16.2.3Assigning and Removing Patterns (813)16.2.4Selecting Scenes (817)16.2.5Deleting Scenes (818)16.2.6Creating and Deleting Scene Banks (820)16.2.7Clearing Scenes (820)16.2.8Duplicating Scenes (821)16.2.9Reordering Scenes (822)16.2.10Making Scenes Unique (824)16.2.11Appending Scenes to Arrangement (825)16.2.12Naming Scenes (826)16.2.13Changing the Color of a Scene (827)16.3Using Song View (828)16.3.1Section Management Overview (828)16.3.2Creating Sections (833)16.3.3Assigning a Scene to a Section (834)16.3.4Selecting Sections and Section Banks (835)16.3.5Reorganizing Sections (839)16.3.6Adjusting the Length of a Section (840)16.3.6.1Adjusting the Length of a Section Using the Software (841)16.3.6.2Adjusting the Length of a Section Using the Controller (843)16.3.7Clearing a Pattern in Song View (843)16.3.8Duplicating Sections (844)16.3.8.1Making Sections Unique (845)16.3.9Removing Sections (846)16.3.10Renaming Scenes (848)16.3.11Clearing Sections (849)16.3.12Creating and Deleting Section Banks (850)16.3.13Working with Patterns in Song view (850)16.3.13.1Creating a Pattern in Song View (850)16.3.13.2Selecting a Pattern in Song View (850)16.3.13.3Clearing a Pattern in Song View (851)16.3.13.4Renaming a Pattern in Song View (851)16.3.13.5Coloring a Pattern in Song View (851)16.3.13.6Removing a Pattern in Song View (852)16.3.13.7Duplicating a Pattern in Song View (852)16.3.14Enabling Auto Length (852)16.3.15Looping (853)16.3.15.1Setting the Loop Range in the Software (854)16.4Playing with Sections (855)16.4.1Jumping to another Playback Position in Your Project (855)16.5Triggering Sections or Scenes via MIDI (856)16.6The Arrange Grid (858)16.7Quick Grid (860)17Sampling and Sample Mapping (862)17.1Opening the Sample Editor (862)17.2Recording Audio (863)17.2.1Opening the Record Page (863)17.2.2Selecting the Source and the Recording Mode (865)17.2.3Arming, Starting, and Stopping the Recording (868)17.2.5Using the Footswitch for Recording Audio (871)17.2.6Checking Your Recordings (872)17.2.7Location and Name of Your Recorded Samples (876)17.3Editing a Sample (876)17.3.1Using the Edit Page (877)17.3.2Audio Editing Functions (882)17.4Slicing a Sample (890)17.4.1Opening the Slice Page (891)17.4.2Adjusting the Slicing Settings (893)17.4.3Live Slicing (898)17.4.3.1Live Slicing Using the Controller (898)17.4.3.2Delete All Slices (899)17.4.4Manually Adjusting Your Slices (899)17.4.5Applying the Slicing (906)17.5Mapping Samples to Zones (912)17.5.1Opening the Zone Page (912)17.5.2Zone Page Overview (913)17.5.3Selecting and Managing Zones in the Zone List (915)17.5.4Selecting and Editing Zones in the Map View (920)17.5.5Editing Zones in the Sample View (924)17.5.6Adjusting the Zone Settings (927)17.5.7Adding Samples to the Sample Map (934)18Appendix: Tips for Playing Live (937)18.1Preparations (937)18.1.1Focus on the Hardware (937)18.1.2Customize the Pads of the Hardware (937)18.1.3Check Your CPU Power Before Playing (937)18.1.4Name and Color Your Groups, Patterns, Sounds and Scenes (938)18.1.5Consider Using a Limiter on Your Master (938)18.1.6Hook Up Your Other Gear and Sync It with MIDI Clock (938)18.1.7Improvise (938)18.2Basic Techniques (938)18.2.1Use Mute and Solo (938)18.2.2Use Scene Mode and Tweak the Loop Range (939)18.2.3Create Variations of Your Drum Patterns in the Step Sequencer (939)18.2.4Use Note Repeat (939)18.2.5Set Up Your Own Multi-effect Groups and Automate Them (939)18.3Special Tricks (940)18.3.1Changing Pattern Length for Variation (940)18.3.2Using Loops to Cycle Through Samples (940)18.3.3Using Loops to Cycle Through Samples (940)18.3.4Load Long Audio Files and Play with the Start Point (940)19Troubleshooting (941)19.1Knowledge Base (941)19.2Technical Support (941)19.3Registration Support (942)19.4User Forum (942)20Glossary (943)Index (951)1Welcome to MASCHINEThank you for buying MASCHINE!MASCHINE is a groove production studio that implements the familiar working style of classi-cal groove boxes along with the advantages of a computer based system. MASCHINE is ideal for making music live, as well as in the studio. It’s the hands-on aspect of a dedicated instru-ment, the MASCHINE hardware controller, united with the advanced editing features of the MASCHINE software.Creating beats is often not very intuitive with a computer, but using the MASCHINE hardware controller to do it makes it easy and fun. You can tap in freely with the pads or use Note Re-peat to jam along. Alternatively, build your beats using the step sequencer just as in classic drum machines.Patterns can be intuitively combined and rearranged on the fly to form larger ideas. You can try out several different versions of a song without ever having to stop the music.Since you can integrate it into any sequencer that supports VST, AU, or AAX plug-ins, you can reap the benefits in almost any software setup, or use it as a stand-alone application. You can sample your own material, slice loops and rearrange them easily.However, MASCHINE is a lot more than an ordinary groovebox or sampler: it comes with an inspiring 7-gigabyte library, and a sophisticated, yet easy to use tag-based Browser to give you instant access to the sounds you are looking for.What’s more, MASCHINE provides lots of options for manipulating your sounds via internal ef-fects and other sound-shaping possibilities. You can also control external MIDI hardware and 3rd-party software with the MASCHINE hardware controller, while customizing the functions of the pads, knobs and buttons according to your needs utilizing the included Controller Editor application. We hope you enjoy this fantastic instrument as much as we do. Now let’s get go-ing!—The MASCHINE team at Native Instruments.MASCHINE Documentation1.1MASCHINE DocumentationNative Instruments provide many information sources regarding MASCHINE. The main docu-ments should be read in the following sequence:1.MASCHINE Getting Started: This document provides a practical approach to MASCHINE viaa set of tutorials covering easy and more advanced tasks in order to help you familiarizeyourself with MASCHINE.2.MASCHINE Manual (this document): The MASCHINE Manual provides you with a compre-hensive description of all MASCHINE software and hardware features.Additional documentation sources provide you with details on more specific topics:▪Controller Editor Manual: Besides using your MASCHINE hardware controller together withits dedicated MASCHINE software, you can also use it as a powerful and highly versatileMIDI controller to pilot any other MIDI-capable application or device. This is made possibleby the Controller Editor software, an application that allows you to precisely define all MIDIassignments for your MASCHINE controller. The Controller Editor was installed during theMASCHINE installation procedure. For more information on this, please refer to the Con-troller Editor Manual available as a PDF file via the Help menu of Controller Editor.▪Online Support Videos: You can find a number of support videos on The Official Native In-struments Support Channel under the following URL: https:///NIsupport-EN. We recommend that you follow along with these instructions while the respective ap-plication is running on your computer.Other Online Resources:If you are experiencing problems related to your Native Instruments product that the supplied documentation does not cover, there are several ways of getting help:▪Knowledge Base▪User Forum▪Technical Support▪Registration SupportYou will find more information on these subjects in the chapter Troubleshooting.1.2Document ConventionsThis section introduces you to the signage and text highlighting used in this manual. This man-ual uses particular formatting to point out special facts and to warn you of potential issues. The icons introducing these notes let you see what kind of information is to be expected:This document uses particular formatting to point out special facts and to warn you of poten-tial issues. The icons introducing the following notes let you see what kind of information can be expected:Furthermore, the following formatting is used:▪Text appearing in (drop-down) menus (such as Open…, Save as… etc.) in the software and paths to locations on your hard disk or other storage devices is printed in italics.▪Text appearing elsewhere (labels of buttons, controls, text next to checkboxes etc.) in the software is printed in blue. Whenever you see this formatting applied, you will find the same text appearing somewhere on the screen.▪Text appearing on the displays of the controller is printed in light grey. Whenever you see this formatting applied, you will find the same text on a controller display.▪Text appearing on labels of the hardware controller is printed in orange. Whenever you see this formatting applied, you will find the same text on the controller.▪Important names and concepts are printed in bold.▪References to keys on your computer’s keyboard you’ll find put in square brackets (e.g.,“Press [Shift] + [Enter]”).►Single instructions are introduced by this play button type arrow.→Results of actions are introduced by this smaller arrow.Naming ConventionThroughout the documentation we will refer to MASCHINE controller (or just controller) as the hardware controller and MASCHINE software as the software installed on your computer.The term “effect” will sometimes be abbreviated as “FX” when referring to elements in the MA-SCHINE software and hardware. These terms have the same meaning.Button Combinations and Shortcuts on Your ControllerMost instructions will use the “+” sign to indicate buttons (or buttons and pads) that must be pressed simultaneously, starting with the button indicated first. E.g., an instruction such as:“Press SHIFT + PLAY”means:1.Press and hold SHIFT.2.While holding SHIFT, press PLAY and release it.3.Release SHIFT.Unlabeled Buttons on the ControllerThe buttons and knobs above and below the displays on your MASCHINE controller do not have labels.。

摘要齿轮箱作为风电机组中最重要的传动部件,负责将风轮叶片的低转速转换为发电机所需要的高转速，实现能量与扭矩的高效传输；振动是风电机组齿轮箱故障失效的主要原因，随着机组容量的增加, 长期处于恶劣条件下的齿轮箱，由于结构体积的增大和弹性增加，更易引发振动问题。

本文主要研究齿轮箱在变速变载下的振动特性，基于Romax软件建立齿轮箱的振动模型，分析齿轮箱各级齿轮的啮合频率和固有频率。

本文研究内容可为风电机组齿轮箱的优化设计、故障、预防和处理提供技术基础。

关键词: 齿轮箱,固有频率,啮合频率,共振,RomaxABSTRACTGear box is the most transmission Parts in the Wind turbine,it is responsible for the low-speed wind turbine blade into the high-speed generator required to achieve the efficient transmission of energy and torque.Vibration is the main reason of wind turbine gear box failure , along with the increase of unit capacity, long-term adverse conditions in the gear box, due to the increase of the structure and flexibility to increase volume, caused more vibration problems.This paper mainly research gear box's vibration characteristics in the speed change, established gearbox vibration model based on Romax software,analysis of gearbox gear mesh frequency and levels of natural frequency.The contents of this paper provide wind turbine gearbox optimized design, failure for technical basis for the prevention and treatment.Key words : Gear Box , Natural frequency , Meshing frequency, Resonance, Romax目录摘要 (I)ABSTRACT (II)第1章绪论 (1)1.1选题背景和意义 (1)1.2国内外研究现状 (2)1.3本文工作 (3)1.4本章小结 (3)第2章风电机组齿轮箱力学特点 (4)2.1 前言 (4)2.2 风电机组齿轮箱机械结构 (4)2.3 风电机组齿轮箱外部载荷 (5)2.4 风电机组齿轮箱内部激励 (6)2.5 齿轮箱振动机理 (6)2.6 机械振动系统 (8)2.7本章小结 (10)第3章基于romax的风电齿轮箱建模 (11)3.1世界各地对romax的应用 (11)3.2 Romax软件介绍 (11)3.3 Romax建模 (12)3.4本章小结 (17)第4章固有频率和啮合频率分析 (18)4.1传动比及啮合频率计算 (18)4.2固有频率和啮合频率分析比较 (21)4.3本章小结 (22)第5章结论和展望 (23)5.1结论 (23)5.2展望 (23)参考文献 (24)致谢 (25)第1章绪论1.1 选题背景和意义在人类越来越渴望清洁能源和环保能源的大时代背景下，风电作为一种新兴的清洁能源，受到全世界人类的广泛关注。

【最新整理，下载后即可编辑】第一章用ROM对平行轴传送系统的建模与分析Page:1-1第一章用ROM对平行轴传送系统的建模与分析概述1．1对汽车的减速箱建模1．2对汽车减速箱的分析与优化1．3对超越传送的建模与分析1．4对串联传送的建模与分析1．5对轴及轴承安放的分析1．6对斜齿轮对的详细分析1．7设计与优化一对斜齿轮平行轴传送系统的进一步设计Page:1-2Page:1-3概述：用“Romax”对平行轴传送系统的建模与分析目标:本章的主要目标是通过学习掌握平行轴建模的知识第一章的内容可用下面的图示概述出来:齿轮箱建模加载荷静态分析静态设计优（基础）（基础）学习内容：在本章完后，学习者应具备应用Romax来做以下任务的能力学习目的创建一个轴给轴分区把轴承加到轴上去创建概念齿轮系把齿轮安放到轴上定义怎样安装齿轮把轴、轴承、齿轮、移进齿轮箱定义轴的位置施加载荷定义工况运行轴的静态分析查看轴的静态分析结果Page:1-4查看轴承分析结果替换超载的轴承运行齿轮箱的工况分析检查工况分析的结果修改轴来减少轴承间隙用油盘轴承来连接同心轴建一个含三个齿轮的概念齿轮系创建一个离合器踏板连接离合器到一个轴上运行同心轴承的静态分析分析油盘轴承的后？串联传送系统定义第4个工况分析一个2轴承的油盘轴承系统分析一个多轴承的油盘轴承系统分析一个4轴承的轴把概念齿轮转换为详细齿轮额定功率定义主齿轮的传动比参数运行一个齿轮的传动额定值计算运行齿轮工况分析在齿轮额定功率计算中引入间隙引入前导修正来缓解间隙用1SO6336标准来查看齿轮定值计算结果保留标准齿条优化齿轮微型几何尺寸扩大轮齿优化齿轮的微型几何尺寸Page:1-51．章节1包含七个教程涵盖了平行轴的建模与分析，更多专业和复杂的内含请看页2．毎个教程的开始部分都是其目的描述，有对各单个教程的列表，在教程的关键部分会有幻灯片做的内容来介绍，在单个教程中会告诉你具体步骤来完成教程的任务，在最后结构会给一些建议来指导你下一步干什么3．对每个具体的任务都会给出对应的输入数据，如果你对“Romax”软件有足够的信心就只用提供的输入数据，如果你想提升？？是有困难就从具体的说明中来完成，在每个任务后面都有对重要的学习的回顾。

SyncroMax(韩秀) 手册(3D模拟整形Soultion)SyncroMax(韩秀)手册SYNCROMAX是世界首创3D模拟整形Soultion，不使用高价的3D扫描，可只用两张相片(正面，侧面)复原3D影像，在性价比上是非常优秀的产品。

SYNCROMAX分为3个方式（MODE）-EZ图像MODE-Half 3D MODE-Full 3D MODEEZ图像方式是很容易使用的，不需要准备阶段而可直接使用的初级方式（MODE）。

Half 3D方式（MODE）是中级方式，有若干准备阶段，可实际模拟整形时可以使用得很方便。

Full 3D方式是高级方式，比中级方式需要更多的准备阶段，还有许多注意事项。

可是3D实现后模拟整形时通过一次操作就可达到正面，侧面图像的自动转换。

没时间，忙的时候，主要使用EZ图像方式（MODE）就好。

有充分的时间，使用Half 3D方式也可以。

Full 3D方式是因高级方式要熟知操作方式，要充分的时间。

患者第一次访问时只拍照，然后下次访问的时候给患者看Half 3D。

程序执行双击桌面上面的SyncroMax图符或者选择windows的开始按钮→程序（P）→韩秀3D整形系统→韩秀3D整形系统。

过一段时间就会显示如下的初始画面。

韩秀3D整形系统初始画面1. EZ图像MODE1）打开选择菜单“映像（image）”→”EZ MODE”选择“打开”窗→在‘查找范围（I）’移动目录→在文件表选择照片然后按击打开按钮，EZ映像方式（MODE）屏幕会显示。

参考：在EZ MODE上，使用鼠标的滚动按钮就可把相片扩大或缩小。

2）工作工具（Tool）改变及初始化把右下面的铅笔图符用鼠标按击的时候，鼠标光标就会改变。

手掌工具（），铅笔工具（），双眼皮工具（），痣/皱纹清除工具（）等有四个工具。

把作业转换以前的功能。

因不正确的鼠标操作会出来不愿意的变化时可以回以前的阶段。

初始化功能3）用手掌工具（Tool）改变照片按击铅笔工具，鼠标光标是手掌的时候，移动到愿意改变的照片上。

Romax详细功能1 RomaxDesigner产品模块带轴承的基本模块(轴和轴承建模和分析) 平行轴行星齿轮垂直轴部件设计高级部件分析接口模块动力学和NVH分析模块 1.1 RomaxDesigner建模模块 RomaxDesigner建模模块主要解决各种复杂齿轮传动系统的建模和系统变形分析功能，包括基础模块(S02-1)、平行轴建模器1(S03-1)、平行轴建模器2 (S03-2)、行星轴建模器1(S04-1)、行星轴建模器2(S04-2)、垂直轴建模器1 (S05-1)、垂直轴建模器2(S05-2)。

1.1.1 基础模块(S02-1) 主要功能描述: 该模块能够对带齿轮、滚子轴承的单轴建模，是Romax全部分析的基础。

采用参数化建模方法，在Romax环境中快速生成齿轮、轴、轴承等零件，通过参数化工具能够快速选择轴承预紧。

可能的用途: 对带滚子轴承的单轴组件在已有载荷作用下的设计和分析; 好处:创新的用户界面减少学习时间; 通过内建的轴承目录库和预紧设置工具，可以快速的完成轴承的选择; 快速的建立已有轴，以及设计新轴; 对轴承性能进行精确建模，减少开发时间; 使用轴承降额因子来轴承预紧值以及正确的选择轴承类型。

设计特性: 更新的轴承编辑工具，使用更方便; 更新的轴承查找功能，查找更方便; 以二维方式设计轴段; 支持各种滚动轴承类型:球轴承、角接触球轴承、圆柱滚子轴承、滚针轴承、圆锥滚子轴承、推力滚针轴承、推力圆锥轴承、球面轴承等; 轴承数据库包含FAG、SKF、Torrington轴承厂家数据，也支持用户自定义轴承数据; 内嵌轴的标准工程材料数据库; 快速建立齿轮载荷; 以ASCII、RTF或文本格式输出部件设计特征; 部件设计能够以RXF格式输入和输出; 分析特性: 系统分析结果能够保存为HTML格式文件 (如齿轮/轴承/轴的载荷谱计算结果，齿轮的啮合错位结果等); 轴承预紧工具允许按刚度或寿命选择最优的预紧; 可以加载力和动量等常用的载荷; 可以定义单个载荷谱;系统静态分析得到轴的变形和应力值; 支持带三个或更多滚动轴承的轴组件的精确建模; 对轴承变形、载荷、刚度、ISO寿命或寿命减额因子; 轴承寿命减额因子的计算考虑错位和滚子单元载荷; 以五个自由度表示非线性、随载荷变化的刚度来表示滚子单元轴承; 对轴模态振型和模态频率的动力学分析; 通过剪贴板输出图片，或以BMP或WMF形式输出报表; 部件分析结果(轴、轴承、齿轮)能够以ASCII, HTML格式保婊蛲?过剪贴板输出; 模块说明: 1.1.2 平行轴建模器1(S03-1) 主要功能描述: 支持建立简单的平行多轴传动系统，只允许单个功率或扭矩输入和输出。

SYNCHROBIM软件名称：Synchro版本号：Synchro Open Viewer v4.9使用说明：1. IntroductionSynchro Open Viewer is a ‘light’ version of Synchro Professional.You will be able to open a prepared sp file and review the contents, but not all features are available.If you try to use one of the restricted features you will be presented with this message-The following tutorial explains the features that are available in this version of Synchro. 22. The Synchro WorkspaceInitial SetupStart Synchro Viewer by double clicking on the icon on your desktop 1.You will be presented with the following opening Synchro screen layout-If you need to download the training material select Synchro Training and this will present 2.you with the link to the FTP site to download the latest material Select (left mouse click) the Gantt tab (at the bottom of the Welcome panel) to display the Gantt 3.ChartSelect Task Properties (this will open Properties data sets on the right of the screen) 4.Select View Ribbon>Gantt Mode and select WBS 5.This training uses a Microsoft Project XML file with WBS structure but schedules may also be structured via Activity codes or ListPlace the cursor at the top of the 3D window so the arrow icon appears. 6. Select it with a left mouse click hold down and drag the 3D window up. All windows in Synchro can be adjusted by this methodMove between the Titles of the columns and drag each column to the left so it looks like the picture 7.below.3Right click in the heading field of the task list and select Customise Columns as shown below 8.You will be presented with the Customise Columns window.Select 3D in Available Columns and move it into 9.the Selected Columns field by selecting the single arrow button highlighted in red, then select OK.This will create an extra column which will show you how many 3D resources have been assigned to each task.NoteYou can rename the column titles if requiredYour workspace should now look like this-Tip: You can always reset your Synchro workspace to its default settings by selecting View Ribbon>Layout> Reset Layout. This also resets other presentation settings at the same time. 43. Screen LayoutThis training course will refer to different windows that you need to be aware of as shown below-Quick Access Toolbar contains commonly used icons (can be customised) Ribbon replaces the old feature ‘Main Menu’ from which you can access the commandsToolbars contain shortcuts and useful commands found in Synchro (can be customised)Gantt Chart window displays the list of Tasks3D View displays the modelled resources at any defined point in time. Navigator tabThe Navigator Window will be docked against the left hand side of the screen and is enabled using the tab towards the bottom of the screenIt contains useable datasets logically grouped by the categories shown above; for example Project details, Task and 3D filters, Viewpoints etc.The tab can be set to Auto Hide so if you hover over the Resource tab you will see the Resource Window appear. If you are using a laptop with one screen it is recommended to set this tab to Auto Hide although you can undock and repostion if required. 5NoteTo Auto Hide any window left click on Auto Hide icon3D Objects tab will be docked against the left hand side of the screen and is enabled using the tab towards the bottom of the screen-when populated this will contain the list of 3D objectsResource tab is located just above the 3D View and will be displayed in ‘Gantt Chart Window’ location initially (Can be relocated)- when populated this will contain the list of Resources. 6Resource Tab RelocationThe Resource tab can remain in the default location in the Main tab area but it is possible to move this to a new location.You can undock it then dock within the Navigator/3D Objects location as shown below1. Left click and hold on the Resources tab2. Keep holding the left mouse button then move the mouse (Resources tab will be undocked) then follow the explanation below.7Task Properties can be displayed by a left click of the mouse on the Task Properties tabTask Properties data sets present the properties of an individual task logically grouped in the categories shown below-Resource Properties can be displayed by a left click of the mouse on the Resource Properties tabResource Properties data sets present the properties of resources logically grouped in the categories shown below-3D Properties can be displayed by a left click of the mouse on the 3D Properties tab3D Properties data sets present the properties of 3D objects logically grouped in the categories shown below-3D Path Editor can be displayed by a left click of the mouse on the 3D Path Editor tab3D Path Editor data sets present the properties of 3D Paths logically grouped in the categories shown below-NoteIf you lose one of these windows (you may accidently hit the ‘X’ by mistake) you can reopen via the Windows Ribbon then select the one you require 8 4. Opening an sp fileOpening a Private Project1. Select File>Open> Private Project, then locate, select Synchro Training Project.sp, then Open2. You will be presented with the Login Window below, Name will be Administrator and the password will remain blank- select OKNote- The purpose of this login is you can set up users with different permissions if required (see Help)If you want to disable this message appearing, check the box for Always use this login on opening Private Projects. You can always change the settings later in Home Ribbon>Options>General>Login to Private ProjectYou will be presented with the following screen-This sp file has a Microsoft Project XML schedule and DWF files imported, resourced and assigned to task activities in the schedule. 95. The Gantt Chart5.1 Gantt Chart Display and manipulationTo manoeuvre within the Gantt chart move the cursor within the Gantt Chart- To PanHold down the middle mouse button then move the mouse up, down, left and right.To ZoomRoll the middle mouse button wheel forward and back to zoom in and out respectively.The Focused Time is indicated by the red dashed line with a triangle symbol on top.Left click and hold in the date field where the red triangle is and move the focus time left and right. This will move the focus time to any point in time in the schedule and reveals the current time below.The Data Date is indicated by a blue vertical dashed line.This defines the project scheduling date for progress reportingWBS Layout colours the summary bars- to modify or disable select Home> WBS Layout-The WBS Layout will be displayed-Here you can:- Enable/disable the WBS Layout- Modify colours/order of LevelsNoteIn Home Ribbon>Options>General you can1. Set Time Display/Format to Short date format and disable Display Time of Day2. Set Duration Display Format to Concise and Days/Hours/Minutes105.2 Gantt View Options1. Select View Ribbon>Gantt Details to display the Gantt Chart as required.2. Disable Show Hidden Link Warnings by left clicking116. 3D View6.1 3D Window NavigationZoom AllWithin the 3D window, right click and select Zoom> Zoom AllOr select 3D Ribbon> Zoom> Zoom AllThis will show all the objects from the front as the models have been created- itcan be used if the view becomes discombobulated.RotateHold down the left mouse button at a point in the 3D View that you want to rotate about, then move the mouseZoomScroll the middle mouse button forward and back to zoom in and out respectivelyPanHold down the middle mouse button and move the mouse left, right, up and down6.2 View CubeThe Axis Indicator that shows the X, Y and Z axis is displayed in the bottom left hand corner of the 3D View(Ensure that axis indicator is enabled by right click in 3D View>Visual Indicators> Axis Indicator)An alternative to the Axis Indicator in the 3D View is the View Cube.This enables the user to manipulate the view via the cubeTo enable-Select 3D from the Ribbon then enable View Cube ManipulatorLeft click on points or faces on the cube and the view will rotate to that viewpoint or hold down the left mouse button on the circle to rotateYou can also change the colour of the background for the selected and other views. 126.3 3D Filters6.3.1 Pre-Set FiltersWith the 3D Sets data set, 3D filters allows you to show or hide elements of the 3D model to make it easier to visualise and work with.Select Navigator> 3D Sets 1.Tick the box next to 3D Object Filter as shown below- 2.In Open Viewer you can change between the pre-set filters. Click on the box next to the name of the 3.filter to enable/disable.6.3.2 Isolate/Hide FiltersIsolate Selected Toggle1. Move the Focus Time to the end of the project so you can see all of the building installed2. In the 3D View hold down the Shift key on your keyboard and select the roof with a left mouse click (selected items turn red)3. In the 3D View right click and select Filters> Isolate Selected ToggleYou will see only that item in the 3D View 134. You can also select the objects in the 3D Objects or Resources tab, or in Navigator>Filters>3D Filter, and the object will be displayed in the 3D window5. Right click in the 3D View and deselect Filters> Isolate Selected Toggle or select Filters>Show All to disableHide Selected Toggle1. Move the Focus Time to the end of the project so you can see all of the building installed2. In the 3D View right click and select Filters> Hide Selected Toggle3. In the 3D View hold down the Shift key on your keyboard and select the roofThat item will be hidden in the 3D ViewYou can also select the objects in the 3D Objects or Resources tab, or in Navigator>Filters>3D Filter, and the object will be hidden in the 3D window 4. Right click in the 3D View and deselect Filters> Hide Selected Toggle or select Filters>Show All to disable147. Reviewing the sp file7.1 Moving the Focus Time1. Move the cursor over the red triangle (in the date area of the Gantt Chart), left click and hold, then move the cursor to the left so the Focus Time moves to the start of the project.You will see that the project in the 3D View has moved to the start-2. Continue to hold the left click and move the cursor to the right and as the focus time moves over the tasks in the schedule you will see the relevant operations occur relative to each task that 3D Resources has been assigned to.When you reach the end of the project in the Gantt Chart you will see- 157.2 Use ProfilesYou will notice that as the Focus Time is moving over each task that the Resources assigned to them will change colour.When 3D Resources are assigned to a task they must use a Use Profile which designates the operation used.In Navigator> Use Profiles you will see 4 predefined options which are used when assigning to tasks. The functions of these are shown in the table below: With the profile highlighted, open the General tabYou will see the colours/transparency for Start Appearance, Active Appearance and End Appearance.If an appearance is not necessary (for example, Install has no Start Appearance), they will be greyed out.You will also see user defined Use Profiles such as Roof Trans etc. 16Tutorial L1 Formatted: Heading2,Article,H2,SubHeading2,b,TSBTWO,Apt2,h2,h,(Alt+2),(Alt+2)1,(Alt+2,Subh eadA,H21,H22,H23,H211,H221,L2,Heading 2-no#,Attribute Heading2,HD2,Heading 2Char1,Heading 2 Char Char,Heading 2 Char1Char,Heading 2 Char Char Char,Heading 2 CharCha7.3 Review and Investigate Assignments7.3.1 Review1. In the 3D View, right click and select Zoom> Zoom All2. Rotate in the 3D window so the road is facing you.3. Drag the Focus Time back to the start and drag along to the right at your own discretion though time.4. From the Ribbon Play select Move to Start5. Select Play6. The speed can be adjusted by selecting from the Play Ribbon>Play Speed then chose an option, for example 1 Week7. Select Stop7.3.2 Select Assigned Resources from a Task1. Move the Focus Time after the task Main Site Clearance [ST00130] as shown below so the initial main site excavation has been removed.2. Select task Excavation 3 [ST00110] from the task list, right click then select Select Assigned ResourceYou will see all the objects assigned to that task are highlighted.3. Left click in the 3D Window then press Escape to cancel all.7.3.3 Select ‘Assigned To’ Tasks from an ObjectSelect one of the excavation objects in the main 3D window, right click then 1.select Display ‘Assigned to’ Task(s)This will automatically find the task to which this object has been assigned 2. Open Task Properties>Resources (right of the screen) and you will see 3.the 3D model resource that is assigned to that task.177.4 Focus Time on TaskYou can move the Focus Time so it is located at the start, centre or end of a task barSelect & highlight a task then select Centre from Task Ribbon>Focus(The Focus time will move directly theof the selected task’s duration)7.5 Focused Time1. Select Windows Ribbon> Focused Time and the following window appears-2. You can then enter a specified time and date you want the Focus Time to move to.3. This window also includes buttons for Play, Stop, Move to Start, etc.7.6 Selecting 3D Items within the 3D WindowWhen you select a 3D item in the 3D window it will change colour to red (or custom defined selection colour in Tools>Options>3D View>Colours)Shift SelectHolding down the shift button on the keyboard and a single left click of the mouse will select an item in the main 3D window. Using shift will continue to pick items and not deselect.Ctrl SelectHolding down Ctrl on the keyboard will work similar to using the Shift selection except it will deselect any item that you pick twice.Navigator ListsYou can highlight the name of the 3D Object/Resource in the 3D Objects or Resources tabs or in Navigator> 3D Sets.Cancelling SelectionIf you left click anywhere within the 3D Window then press Escape on your keyboard the selection will be cancelled. 188. Information BalloonAs you move over the objects in the 3D Window, Synchro will present an Information Balloon in the bottom right hand corner of the 3D Window Move the Focus Time so you can see the excavation taking place (Orange Active colour in the 3D View) then move the cursor in the 3D View so you hover over the excavation object.The information window will appear for a few seconds as shown belowThe Information Balloon displays:- Name of the 3D object- Name of the 3D Resource- The tasks which it is assigned toTo modify the Information Balloon; select Home Ribbon>Options>3D View>Advanced>Information Balloon and you will presented with the following optionsYou can also modify the Output Information to control what is displayed in the Information Balloon.RecommendationsDelay before raising- 0.1 secondsShow duration- 15 secondsTransparency- 0%You can set these options to suit 199. Measure Distance9.1 Measurement settingsFirstly, ensure snapping is enabled. Right click in blue area near the tools and select Snapping 1.(also available in 3D Ribbon).Click the leftmost icon to turn on Snapping. 2.Select Home Ribbon>Options>3D View>Distance Measurement to modifyColour, 3.Projection and Size of Text and ArrowsTo modify the measurement settings select Home Ribbon>Options>3D4.View>Measurement Display allows you to modify the presentation and parameters.The settings below are recommended for this tutorial-Select OK 5.209.2 Measuring9.2.1 Point to PointTo measure the distance between 2 points-In the Snapping toolbar, disable all Snapping types except Snap to Vertex 1. Right click in the 3D View, and select Measure Distance 2.Move the cursor to the end point of an object until a red dot appears 3. Remain over this point a pop up bubble appears with the coordinates of this point from the origin 4.Left click at this point 5.Move the other end. Left click when the red dot appears 6.Zoom out and you will see the measurement 7.You can continue to make other measurements if required.To cancel the measurement-Right click in the 3D View then select Measure Distance again to deactivate 8.2110. Cutting PlanesTo view the predefined Cutting Planes, select 3D Properties>Cutting Planes. You cannot create 1.new Cutting Planes in Synchro ViewerSelect Cutting Plane Z 2.You will see that there are no cutting faces so the items appear hollow where it cuts through models 3.(Fig 1)To show the cutting face select Home Ribbon>Options>3D View>Cutting Plane and activate Show Cutting Faces. There are options to change thecolour/transparency of the face and edge here.To deactivate the cutting plane select 3D Properties>Cutting Planes> Cutting Plane Z 4.2211. Playing AnimationsYou can view animations that have been prepared within the Synchro file Select Animations in the Navigator to see the animations created. Select and highlight the one 1.you want to viewSelect Windows Ribbon, then Animation Editor 2.To use the Play, Stop, Move to Start etc items ensure that Play Animations is enabledYou can then either use the icons from the Play Ribbon or select the icons from the Focused 3.Time windowClose the animation editor by clicking on the ‘x’ in the top right hand corner 4.2312. PrintingBefore printing, set the required view and aspect ratio in the 3D Window, for example to suit a landscape print. Also you can move the focus time in order to take a snap shot at a particular date.Select File> Print Set Up and set the options as required (Portrait/Landscape etc) 1.Select File> Print 2.Select the required printer from the list and edit the preferences accordingly 3. Select the Layout tab 4.Here you can choose what to print in the View to Print drop down. When this is set to 3D the page options are not available since Fit to exactly is assumed. 24 Select the Legend tab 5.Here you have to option to put a legend at the bottom of the print by selecting the Show Legend box.You also have the option of which date to show as well as placing a logo in the legend.Select Print or Preview then Print 6.The PDF will look as belowDouble click on top bar of 3D View to re-dock 7.ScreenshotIf you need a quick screenshot you can always select the Print Screen key onyour keyboard then paste into software such as Paint, Photoshop etc 25 13. Reporting Review13.1 Baselining in SynchroA baseline (or snapshot) can be created to compare the planned against actual schedule in SynchroSelect the Navigator Baselines button and change Show to All 1.The predefined Baselines are listed- select and highlight the Baseline that you want to see in the 2.Gantt ChartIn the Gantt Chart you will see the Baseline tasks are shown in blue whereas the Planned are shown 3.in red as shown below-13.2 Compare Baseline (using 3D views)You can compare the current baseline with the proposed new schedule, by following these steps:Select Windows Ribbon>3D: to create another 3D View (which is typically positioned above 1.the first 3D View)Select (in the new 3D View yellow title bar shown) and drag the new 3D View over the first 3D View, 2.and release the left mouse button over the right side smart window placement icon.A preview of where the view will be placed will be shown before you drop the view in place. 26Modify the new 3D View to present a viewpoint similar to the first 3D View 3.Right-click in the first 3D View and select Dates To Use> Baseline from the context menu 4.Move the Focused Time through the project to review how the new schedule falls behind the baselineThe Focused Time for the Baseline is behind that of the new schedule as the excavation has yet to be completed compared with the updated schedule which is part way through construction13.3 Earned Value Analysis (EVA) GraphSelect Windows Ribbon > EVA Graph 1.The EVA will appear below the Gantt Chart although you may have to resize it. Select a task with cost assigned (in this case Task 14 Main Site Clearance) you will see the follow 2.result-27Tip- The EVA Graph manipulation is governed by pan and zoom in the Gantt Chart.To view a combination of cost resources/direct cost assigned to tasksYou can see the EVA results for combined tasks by selecting multiple tasks, summary tasks or the whole project.Right click in the task list then right click and choose Select All 3.Ensure Select All Tasks is select on the prompt window then select OK 4. You will see the following result-You will see the graph appear which contains-BCWS (The Budgeted Cost of Work Scheduled) in red which quantifies the value of tasks originally planned.BCWP (The Budgeted Cost of Work Performed) in grey which quantifies the value of tasks started but not yet finished.ACWP (The Actual Cost of Work Performed) in blue which quantifies the value of tasks that are finishedTip- You can show/hide BCWS, BCWP and/or ACWP using the tick boxes Move the Focus Time in the Gantt Chart to the left and right and you will see that the EVA graph 5.gives a forecast value at that moment in time (the red number).Select Task Properties >Cost Totals & Statistics to view further reports 6. Print your results for the EVA by File> Print and changing the Layout to EVA Graph + required 7.settingsSelect Windows Ribbon > EVA Graph to deactivate. 8.13.4 User Field GraphThe User Field Graph displays the assignment of user field values over time.For the purpose of this training we will show Space Allocation against time. The user fields were either populated from the imported schedule or created in SynchroSelect Windows> User Field Graph 1.28The User Field Graph manipulation is governed by pan and zoom in the Gantt Chart.The coloured bars are the result of values applied to tasks for element displayed in the legend-- 5m Work Margin- Structural Steel- Concrete CrewThe black line is a summary total of these elements on tasksThe red line is the set limit (This was applied in Synchro)Select Home Ribbon>Options>Gantt Chart>Colours>Gantt Graphs and ensure that 2.Incremental limit is selected. This will add/subtract the user field values of the limits rather than as a set figure. The settings should look as below:Moving the Focus Time in the Gantt Chart gives a reading for the summary and limits as you move it 3.When the Limit is exceeded the arrows may be used to navigate to the First, Next and Last over-allocationSingle arrow moves to next clash; double takes start or finishThe graph can be printed by the selecting File>Print and changing the Layout to User Field 4.GraphSelect Windows> User Field Graph to deactivate.。

XEVO 2.2 软件手册2023年四月公告版权©版权所有2023 QSAN广盛科技保留所有权利。

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目录公告 (i)注意 (viii)前言......................................................................................................................................... i x 关于本手册 (ix)相关文档 (ix)技术支持 (ix)信息、提示和注意事项 (x)约定 (xi)1.开始 (12)1.1. 寻找存储系统 (12)1.2. 初始设置 (13)2.XEVO 用户界面 (14)2.1. XEVO网页用户界面概述 (14)2.2. 访问管理USB LCM (16)3.仪表板选项 (18)3.1. 仪表板概述 (18)4.存储选项 (24)4.1. 存储信息 (24)4.2. 配置存储池 (27)4.3. 热备用硬盘 (38)4.4. 硬盘漫游 (38)4.5. SSD缓存 (39)4.6. 自动分层 (40)5.主机选项 (41)5.1. 配置主机组 (41)6.保护选项 (48)6.1. 保护功能 (48)6.2. 配置保护组 (50)7.分析选项 (63)7.1. 分析功能 (63)7.2. 阵列分析 (63)8.系统选项 (65)8.1. 阵列信息 (65)8.2. 配置系统设置 (67)8.3. 配置数据端口设置 (71)8.4. 维护 (74)8.5. 数据加密 (82)9.消息选项 (83)9.1. 日志中心 (83)9.2. 配置通知设置 (84)10.支持和其他资源 (88)10.1. 获得技术支持 (88)10.2. 文档反馈 (89)附录90最终用户许可协议 (EULA) (90)图表图表2-1 XEVO 仪表板 (14)图表 2-2 便携式USB LCM (16)图表2-3 USB LCM屏幕 (16)图表3-1 XEVO仪表板 (18)图表3-2 仪表板中的性能图表 (21)图表3-3 右上角图标 (22)图表4-1 精简资源调配存储池详细信息 (28)图表4-2 列出硬盘组 (31)图表4-3 列出存储卷 (34)图表5-1 iSCSI主机组详细信息 (42)图表5-2 光纤通道主机组详细信息 (42)图表5-3 列出主机配置文件 (44)图表5-4 列出连接的存储卷 (45)图表6-1 保护组 (50)图表6-2 具有快照计划的保护组 (52)图表6-3 列出快照任务 (52)图表6-4 快照中心 (54)图表6-5 本地复制计划保护组 (58)图表6-6 列出复制任务 (58)图表6-7 远程复制计划保护组 (60)图表6-8 列出复制任务 (61)图表7-1 性能图 (64)表格表格3-1 硬件警报窗格说明 (19)表格 4-1 一般存储参数 (24)表格4-2 厚配置存储池参数 (24)表格4-3 精简配置和自动分层存储池参数 (25)表格4-4 SSD缓存参数 (26)表格4-5 存储卷参数 (26)注意文档中包含的信息已经过审核以确保准确性。

目录版权与商标声明 ........................................................................................................................1-4修订 ...........................................................................................................................................1-4FCC-B 频道干扰声明...............................................................................................................1-5FCC 规定 ..................................................................................................................................1-5CE 规定.....................................................................................................................................1-5电池规范 ...................................................................................................................................1-6WEEE 声明...............................................................................................................................1-6化学物质法规............................................................................................................................1-6升级和保修 ...............................................................................................................................1-7购买备件 ...................................................................................................................................1-7安全指南....................................................................................................................................1-8产品中有害物质的名称及含量................................................................................................1-10MSI 特殊功能..........................................................................................................................1-11简介 ...............................................................................................2-1打开包装 ...................................................................................................................................2-2产品检视....................................................................................................................................2-3顶盖开启检视 ......................................................................................................................2-3前端检视图 ..........................................................................................................................2-5右端检视图 ..........................................................................................................................2-6左端检视图 ..........................................................................................................................2-7后端检视图 ..........................................................................................................................2-9底部检视图 ........................................................................................................................2-10如何使用键盘 .........................................................................................................................2-12 Windows 键.......................................................................................................................2-12开启快速 Fn 启动键 ..........................................................................................................2-13使用快速 Fn 启动键..........................................................................................................2-13 Snip and Sketch ...............................................................................................................2-14使用多个监视器 ................................................................................................................2-15应用程序：True Color (选择性配置)...............................................................................2-15产品规格..................................................................................................................................2-16使用者手册如何使用入门 .................................................................................3-1开始使用笔记本电脑 ................................................................................................................3-2如何舒适地使用笔记本电脑.....................................................................................................3-3如何使用电源供应器 ...............................................................................................................3-4电源适配器.........................................................................................................................3-4电池.....................................................................................................................................3-4如何在 Windows 10 下设置一个电源计划设定 .....................................................................3-6选择或自定义电源计划 ......................................................................................................3-6创建自己的电源计划 ..........................................................................................................3-8如何设置 Windows Hello 指纹登录 (选择性配置)................................................................3-10创建密码............................................................................................................................3-10设置 PIN ............................................................................................................................3-12设置指纹............................................................................................................................3-13如何设置 Windows Hello 人脸登录 (选择性配置) ...............................................................3-15创建密码............................................................................................................................3-15设置 PIN ............................................................................................................................3-17使用红外摄像头(IR)设置人脸登录 ................................................................................3-18如何使用触摸板 ....................................................................................................................3-20了解一般硬盘和固态硬盘.......................................................................................................3-21了解 M.2 固态硬盘插槽..........................................................................................................3-21如何连接 Internet ..................................................................................................................3-22无线网络 ...........................................................................................................................3-22有线网络 ...........................................................................................................................3-24如何设置蓝牙连接.................................................................................................................3-29开启蓝牙连接 ...................................................................................................................3-29如何连接外部装置.................................................................................................................3-32视频：如何使用 RAID 功能 (选择性配置) ............................................................................3-33如何在 BIOS 中选择 Boot Mode..........................................................................................3-34视频：如何在 MSI 笔记本电脑上恢复 Windows 10 操作系统............................................3-35视频：如何使用 MSI 一键安装 .............................................................................................3-36版权与商标声明Copyright© 微星科技股份有限公司所有。

Romax简介Romax是一家集软件工具开发和传动项目咨询为一体的公司，在传动领域有超过十二年以上的经验；总部设在英国，在欧洲、美国、日本、韩国、澳洲、印度等均开办有办事处。

由Romax公司积累多年经验开发的Romax Designer主要应用于齿轮传动系统虚拟样机的设计和分析，在传动系统设计领域享有盛誉，目前已成为齿轮传动领域事实的行业标准。

Romax用来建立齿轮传动系统虚拟样机模型，还包括详细部件强度和可靠性分析，及传动系统振动噪声分析，大大加速传动系统的设计和开发流程。

在Romax中，考虑结构柔性，同时考虑更多实际情况，如装配误差及轴承间隙、预载等。

Romax Designer应用很广，其中包括汽车、船舶、工程机械、风力发电、工业、轴承以及航空航天等领域的齿轮传动系统的设计。

Romax虚拟原型仿真工具组成：Romax Designer•完成齿轮传动系统的设计分析，包括平行轴传动系、相交轴传动系、行星齿轮传动系的完整解决方案以及轴承、系统振动噪声分析等高级分析功能。

Romax Dynamics•可作为RomaxDesigner的部分或作为单独模块，完成传动系统的动力学分析，计算临界速度谱、阻尼固有频率谱、非平衡响应分析等内容。

Synchronizer Simulation•预估同步器尺寸，计算轴的轴向振动，完成同步器瞬态过程的详细分析Gear Manufacture•齿轮剃、铣、修形等制造过程中动力学仿真和结构优化工作，以控制齿形加工质量和提高刀具寿命Romax Designer功能介绍：•可快速建立轴、齿轮全部传动系统的虚拟模型•详细的部件强度、可靠性分析•传动系统整体的振动噪声分析（NVH）•用于鲁棒性的结构优化分析Romax Designer覆盖了从概念设计，部件强度、可靠性等详细设计，到系统振动噪声（NVH）预估等全部传动系统设计内容，构成了齿轮传动系统的封闭求解环境。

提供了包括平行轴系、相交轴系、行星齿轮传动在内的多种齿轮传动模型的搭建、分析和设计功能。

Romax简明教程利用RomaxDesigner对平行轴传动系统进行建模和分析1． Romax Designer安装（license 安装） (5)2． Romax Designer培训内容简介 (7)2．1 培训内容介绍···················································································································78 2．2 教程约定...........................................................................................................................2．3教程文件夹使用说明. (9)2．4在软件中打开旧版本模型的说明 (9)3．汽车传动系齿轮箱建模 (15)15 3．1轴及其轴承建模..............................................................................................................3．1．1中间轴所需输入数据.. (15)3．1．2详细操作 (16)3．1．2．1创建新的设计 (16)3．1．2．2 创建轴 (17)3．1．2．3定义轴段 (18)3．1．2．4选择并定位轴承 (20)3．1．3输入轴及其轴承建模 (23)3．1．4输出轴及其轴承建模 (23)25复习............................................................................................................................................3．2对齿轮副进行概念性建模 (25)3．2．1一挡齿轮副所需输入数据 (25)3．2．2详细操作 (26)3．2．2．1创建概念性的齿轮组 (26)3．2．2．2定义齿轮的位置 (28)3．2．2．3定义齿轮与轴的安装方式 (30)3．2．3其他齿轮副输入参数 (32)35复习............................................................................................................................................3．3平行轴在三维环境中的布置.. (35)3．3．1详细操作 (36)3．3．1．1创建齿轮箱 (36)3．3．1．2定义轴的位置 (38)3．3．2检查齿轮箱装配 (39)40复习············································································································································40下一步的工作...........................................................................................................................4．汽车传动系齿轮箱分析及优化 (41)4．1定义载荷工况和齿轮箱载荷谱 (41)4．1．1 输入数据 (41)4．1．2 详细操作 (42)4．1．2．1定位齿轮箱动力负载 (42)4．1．2．2定义一档转速载荷工况 (43)4．1．2．3定义齿轮箱一挡动力流 (44)4．1．2．4观察齿轮箱动力流 (47)复习············································································································································4748 4．2运行轴静态分析..............................................................................................................4．2．1 输入数据.. (48)4．2．2 详细操作 (48)4．2．2．1对单个载荷工况进行轴的静态分析 (48)4．2．2．2查看轴静态分析结果 (49)4．2．2．3查看轴承分析结果 (50)4．2．2．4替换过载的轴承 (51)复习············································································································································5353 4．3运行载荷谱分析..............................................................................................................4．3．1 输入数据.. (53)4．3．2 详细操作 (53)4．3．2．1运行整个齿轮箱载荷谱分析 (53)4．3．2．2观察载荷谱分析结果 (54)4．3．2．3重复设计和结果再生 (55)复习············································································································································5657下一步的工作...........................................................................................................................5．工程车传动系统的建模与分析 (58)5．1利用分离轴承进行同心轴的连接 (60)5．1．1 输入数据 (60)5．1．2 详细操作 (60)5．1．2．1将轴承定位于输出轴上 (60)5．1．2．2将轴承外座圈与Output Gear Sub Shaft连接 (61)复习············································································································································6363 5．2 对齿轮系进行建模........................................................................................................5．2．1 输入数据.. (63)5．2．2 详细操作 (64)5．2．2．1创建概念性的齿轮系 (64)5．2．2．2将齿轮安装于轴上 (66)67复习............................................................................................................................................5．3 对概念性离合器盘进行建模. (67)5．3．1 输入数据 (67)5．3．2 详细操作 (67)5．3．2．1创建概念性的离合器盘 (67)5．3．2．2定义离合器几何尺寸 (68)5．3．2．3连接离合器与安装轴 (69)71复习············································································································································5．4 对同心轴进行轴的静态分析 (71)5．4．1 输入数据 (71)5．4．2 详细操作 (72)5．4．2．1定义载荷工况 (72)5．4．2．2观察轴静态分析结果 (72)74复习············································································································································75下一步的工作...........................................................................................................................6．直列式传动系模拟和分析.. (76)6．1定义和分析分离轴承的布置 (78)6．1．1 输入数据 (78)6．1．2 详细操作 (78)6．1．2．1定义分离轴承的安装 (78)6．1．2．2对分离轴承布置进行分析 (79)82复习............................................................................................................................................6．2定义和分析4档动力流. (82)6．2．1 输入数据 (82)6．2．2 详细操作 (82)6．2．2．1定义4档转速的离合器连接 (83)6．2．2．2定义4档动力流信息 (83)6．2．2．3进行载荷谱计算 (83)84复习············································································································································85下一步的工作···························································································································1． Romax Designer安装（license 安装）使用Romax安装光盘正常安装。