G9-U2-T3(Revision)

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.。

Dedicated Pin 144-Pin TQFP 256-Pin FBGA 256-Pin MBGA IO/GCLK018H5K1IO/GCLK120J5L1IO/GCLK289J12M20IO/GCLK391H12L20IO/DEV_OE60M8W12IO/DEV_CLRn61M9Y13TDI34L6U2TMS33N4T3TCK35P3W2TDO36M5V2GNDINT17, 54, 92, 128H7, H9, J8, J10J4, U12, M17, D12GNDIO 10, 26, 47, 65, 83, 99, 115, 135A1, A16, B2, B15, G7, G8, G9,G10, K7, K8, K9, K10, R2, R15,T1, T16H3, J3, M4, N3, U9, V8, V9, V13, H18, J17, N18, C8, D9, C12, C13, M18VCCINT (1)19, 56, 90, 126H8, H10, J7, J9K4, U11, L17, D11VCCIO1 (2)9, 25C1, H6, J6, P1K3, L3, L4, M3VCCIO2 (2)116, 136A3, A14, F8, F9C9, C10, D10, C11VCCIO3 (2) 82, 100 C16, H11, J11, P16J18, K17, K18, L18VCCIO4 (2) 46, 64 L8, L9, T3, T14U10, V10, V11, V12No Connect (N.C.)---Total User I/O Pins 116212212Notes:1. For EPM1270 devices, all VCCINT pins must be connected to either 3.3 V or2.5 V, but not a combination of both. For EPM1270G devices, all VCCINT pins must be connected to 1.8 V.2. Each set of VCCIO pins (VCCIO1, VCCIO2, etc.) can be connected to3.3 V, 2.5 V, 1.8 V, or 1.5 V.Dedicated Pin Information for the MAX ®IIEPM1270 / EPM1270G DevicesVersion 1.5Bank Number Pad Number Orientation Pin/Pad Function Optional Function(s)144-Pin TQFP 256-Pin FBGA 256-Pin MBGAB10VCCIO1B11GNDIOB12IO D3E3B13IO C2C2B14IO 1E3H2B15IO 2C3D3B16IO E4C3B17IO 3D2D2B18IO E5C4B19IO 4D1C1B110IO F3F3B111IO 5E2B1B112VCCIO1B113GNDIOB114IO 6F4D4B115IO E1D1B116IO F5H4B117IO F2F2B118IO 7F6G4B119IO 8F1E1B120IO G3J2B121IO G2G2B122IO G4E4B123IO G1E2B124VCCIO1B125GNDIOB126IO 11G5G3B127IO 12H2G1B128IO 13G6F4B129IO 14H1H1B130IO 15H3F1B131IO 16J1J132GNDINTB133IO GCLK018H5K134VCCINTB135IO GCLK120J5L1B136IO 21H4K2B137IO 22J2M1B138IO 23J4L2B139IO 24K1N1B140VCCIO1B141GNDIOB142IO J3M2B143IO 27K2P1B144IO K6N4B145IO L1R1B146IO 28K5P4B147IO 29L2P2B148IO K4R4B149IO M1T1B150IO K3N2B151IO 30M2U1B152IO L5P3B153IO M3R2B154VCCIO1B155GNDIOB156IO 31L4R3EPM1270 / EPM1270G DevicesVersion 1.5Bank Number Pad Number Orientation Pin/Pad Function Optional Function(s)144-Pin TQFP 256-Pin FBGA 256-Pin MBGAEPM1270 / EPM1270G DevicesVersion 1.5B157IO N1V1B158IO L3T4B159IO 32N2W1B160IO M4V3B161IO N3T2B162TMS 33N4T3B163TDI 34L6U2B164TCK 35P3W2B165TDO 36M5V2B166IO P2U3B167VCCIO1B168GNDIOB169N.C. (1)B470VCCIO4B471GNDIOB472IO P4V4B473IO 37R1W3B474IO 38P5V5B475IO T2Y1B476IO N5W5B477IO 39R3W4B478IO P6U4B479GNDIOB480VCCIO4B481IO 40R4Y2B482IO 41N6U5B483IO T4W6B484IO M6U6B485IO R5Y3B486IO 42P7V6B487IO 43T5Y4B488IO 44N7V7B489IO R6W7B490IO M7U7B491IO T6Y5B492IO L7U8B493IO 45R7Y6B494VCCIO4B495GNDIOB496IO 48P8W8B497IO 49T7Y7B498IO 50N8W9B499IO 51R8Y8B4100IO 52N9W10B4101IO 53T8Y9102GNDINTB4103IO 55T9Y10104VCCINTB4105IO 57R9Y11B4106IO 58P9W11B4107IO 59T10Y12B4108IO DEV_OE 60M8W12B4109IO DEV_CLRn 61M9Y13B4110IO 62L10U16B4111IO 63R10Y14B4112VCCIO4B4113GNDIOBank Number Pad Number Orientation Pin/Pad Function Optional Function(s)144-Pin TQFP 256-Pin FBGA 256-Pin MBGAEPM1270 / EPM1270G DevicesVersion 1.5B4114IO M10U13B4115IO T11Y15B4116IO 66N10V15B4117IO 67R11Y16B4118IO P10W14B4119IO T12W15B4120IO 68M11U14B4121IO R12W16B4122IO N11V14B4123IO 69T13Y17B4124IO P11W13B4125IO R13Y18B4126VCCIO4B4127GNDIOB4128IO 70M12U15B4129IO R14Y19B4130IO N12V16B4131IO 71T15W17B4132IO P12V17B4133IO R16W18B4134IO 72P13V18B4135VCCIO4B4136GNDIOB3137VCCIO3B3138GNDIOB3139IO P14W19B3140IO N13U18B3141IO P15V19B3142IO 73M14T18B3143IO 74N14U19B3144IO 75M13R18B3145IO N15Y20B3146IO 76L14W20B3147IO N16T19B3148VCCIO3B3149GNDIOB3150IO L13U17B3151IO 77M15V20B3152IO L12P17B3153IO M16R19B3154IO L11T17B3155IO 78L15U20B3156IO 79K14N19B3157IO 80L16T20B3158IO K13R17B3159IO K15P19B3160IO 81K12P18B3161IO K16R20B3162VCCIO3B3163GNDIOB3164IO 84K11N17B3165IO 85J15P20B3166IO 86J14M19B3167IO 87J16N20B3168IO 88J13L19B3169IO GCLK289J12M20170VCCINTBank Number Pad Number Orientation Pin/Pad Function Optional Function(s)144-Pin TQFP 256-Pin FBGA 256-Pin MBGAEPM1270 / EPM1270G DevicesVersion 1.5B3171IO GCLK391H12L20172GNDINTB3173IO 93H16K20B3174IO 94H13K19B3175IO 95H15J20B3176IO 96H14J19B3177IO 97G16H20B3178IO 98G12G18B3179GNDIOB3180VCCIO3B3181IO 101G15G20B3182IO G11H17B3183IO F16G19B3184IO G13F17B3185IO 102F15F20B3186IO 103G14E17B3187IO E16E20B3188IO F11G17B3189IO E15F19B3190IO 104F12D17B3191IO 105D16D20B3192IO F13C18B3193GNDIOB3194VCCIO3B3195IO 106D15C20B3196IO F14H19B3197IO 107D14B20B3198IO E12F18B3199IO 108C15E19B3200IO E13E18B3201IO C14D19B3202IO E14D18B3203IO D13C19B3204N.C. (1)B3205VCCIO3B3206GNDIOB2207VCCIO2B2208GNDIOB2209IO C13C16B2210IO 109B16A20B2211IO 110C12B16B2212IO 111A15B17B2213IO D12C15B2214GNDIOB2215VCCIO2B2216IO B14A19B2217IO C11B18B2218IO B13A18B2219IO 112D11B19B2220IO A13A17B2221IO E11D15B2222IO 113B12B15B2223IO C10C17B2224IO A12B14B2225IO 114D10C14B2226IO B11A16B2227IO E10D16Bank Number Pad Number Orientation Pin/Pad Function Optional Function(s)144-Pin TQFP 256-Pin FBGA 256-Pin MBGAEPM1270 / EPM1270G DevicesVersion 1.5B2228GNDIOB2229VCCIO2B2230IO 117A11B13B2231IO 118F10D13B2232IO 119B10A15B2233IO 120C9B12B2234IO 121A10A14B2235IO 122D9D14B2236IO 123B9A13B2237IO 124E9B11B2238IO 125A9A12239VCCINTB2240IO 127A8A11241GNDINTB2242IO 129B8A10B2243IO 130E8B10B2244IO 131A7A9B2245IO 132D8D8B2246IO 133B7A8B2247IO 134C8B9B2248GNDIOB2249VCCIO2B2250IO A6A7B2251IO F7D7B2252IO B6B7B2253IO 137E7C6B2254IO 138A5A6B2255IO 139D7C7B2256IO B5A5B2257IO C7B8B2258IO 140A4A4B2259IO 141E6D6B2260IO B4B6B2261IO D6D5B2262IO 142C4A3B2263IO C6B2B2264GNDIOB2265VCCIO2B2266IO B3A2B2267IO C5B3B2268IO 143A2B5B2269IO D5C5B2270IO B1A1B2271IO 144D4B4B2272VCCIO2B2273GNDIONote:1. No ConnectPin NamePin Type Pin DescriptionVCCIO[1..4]Power I/O supply voltage pins for banks 1 through 4. Each VCCIO bank supports a differentvoltage level with the VCCIO pins providing power for the input and output buffers withinthat particular I/O bank. Each VCCIO bank can be powered with either 3.3 V, 2.5 V, 1.8 V,or 1.5 V.GNDIO Ground Ground pins for all the I/O banks.VCCINT Power Voltage supply pins for the device.GNDINT Ground Ground pins for the internal supply.NC No Connect Do not drive signals into these pins.DEV_CLRn I/O Dual-purpose pin that can override all clears on all device registers. All registers arecleared when the pin is driven low and all registers behave as defined in the design whenthis pin is driven high. If not used for its dual-purpose function, this pin is a regular I/O.DEV_OE I/O Dual-purpose pin that can override all tri-states on the device. All output pins are tri-statedwhen the pin is driven low and all output pins behave as defined in the design when thispin is driven high. If not used for its dual-purpose function, this pin is a regular I/O.TCK Input Dedicated JTAG input pin.TDI Input Dedicated JTAG input pin.TMS Input Dedicated JTAG input pin.TDO Output Dedicated JTAG output pin.GCLK [0..3]I/ODual-purpose clock pins that connect to the global clock network. If not used forits dual-purpose function, this pin is a regular I/O.Programming and JTAG pinsClock PinsPin Definitions for the MAX ®IIEPM1270 / EPM1270G DevicesVersion 1.5Supply and Reference pinsFigure 1. MAX II EPM1270 / EPM1270G T144 Device Top View Package Diagram and Bank Information Package Diagram and Bank Information for the MAX ® IIEPM1270 / EPM1270G DevicesVersion 1.5Figure 2. MAX II EPM1270 / EPM1270G F256 Device Top View Package Diagram and Bank Information Package Diagram and Bank Information for the MAX ® IIEPM1270 / EPM1270G DevicesVersion 1.5Figure 3. MAX II EPM1270 / EPM1270G M256 Device Top View Package Diagram and Bank Information Package Diagram and Bank Information for the MAX ® II EPM1270 / EPM1270G DevicesVersion 1.5DateVersion Changes Made Sep-071.5Added support for M256 package in the EPM1270G device May-071.4Changed the VCCIO2 and VCCIO4 pins for EPM1270 (256-Pin MBGA package) to match Quartus II pin-out Apr-061.3Added M256 package Jan-051.2Added MAX IIG device naming to titles, notes, and figures Jul-041.1Added package diagram and bank information figures for each package May-04 1.0Initial release Revision History for the MAX ® II EPM1270 / EPM1270G DevicesVersion 1.5PT-EPM1270-1.5Copyright © 2007 Altera Corp.Revision History Page 11 of 11。

TRANSMITTER BATTERY REPLACEMENTReplacement battery - 9 volt NEDA 1604 (Eveready 216 or equivalent).The battery in the transmitter can be checked or changed by removing the front lower half of the transmitter. Refer to the directions under “accessing the code switch” for battery replacement.TO REPLACE OR ADD A SETA replacement or new transmitter or receiver may be purchased by specifying the Model Number and the RF frequency designated on the identification label. The RF frequency is set at the factory and must not be adjusted in the field. The digital code can be matched to the companion receiver or transmitter by following the above procedure.OPERATIONAL CHECKTo check operation, move back a reasonable distance (about 50 feet) and press the transmitter button. Operation should be reliable at this distance but environment and location of both the transmitter and receiver will affect the range. If the transmitter is stowed well out of sight, it may be necessary to remove it from its mounting and hold near the windshield. Try different locations and positions. If operation is still unsatisfactory, the problem maybe isolated by: 1 .Checking the door operator. If the door will not open when the wall button ispressed, the problem is likely to be the operator. If the door will open by pressing the wall button, but not when the radio control button is pressed, the problem is probably in the radios.2.Replacing the transmitter battery.If, after performing the above operational checks, the controls still do not function, they should be returned to your dealer for repair or replacement or they may be returned, postage prepaid.CAUTION: Any c hanges or m odifications in intentional or unintentional radiators which are not expressly approved by LINEAR CORPORATION could void the user’s authority to operate this equipment. This applies to intentional and unintentional radiators certified per part 15 of the F.C.C. rules and regulations.LINEAR CORPORATION2055 Corte del Nogal • Carlsbad, CA 92008(760) 438-7000Copyright © 1999 Linear Corporation214961 AInstallation Instructions GARAGE DOOR RADIO CONTROLSModel 3089 TransmitterModel 1090 ReceiverWARNING:•Disconnect power before any installation or repair•Wear safety glassesYour MULTI-CODE™ Radio Controls are designed specifically to remotely control a garage door from within an automobile and to give years of dependable service without adjustment. The transmitter/receiver combination utilizes the MULTI-CODE™ scheme which permits the selection of as many as 1024 code combinations of the owner’s personal choice. Because all radio controls are set with the even numbered switches in the “ON” position when they leave the factory, it is recommended that a different code be selected and set at the time of installation. Please refer to the “Accessing the Code Switch” section for instructions. The radio frequency (RF) portion of the controls, however, are tuned to standard frequencies and are thoroughly tested at the factory. This permits the addition or replacement of either the transmitter or the receiver by spec if ying the M odel N um ber and the R F frequency designated on the identification label. No RF adjustments are needed nor should any be attempted.RECEIVER INSTALLATIONThe receiver is designed to mount directly to the operator. It can be remotely installed if the operator terminal strip is not accessible, or if power for the receiver is not obtainable from the operator. To direct mount the receiver, simply loosen the terminal screws on the operator and insert the two-way lugs from the receiver under the screw heads along with the wall button wires), and tighten the screws (See Fig #1).Place the antenna (an 11 inch white wire) in a vertical position as far from any metal as possible.®For remote installation the receiver may be mounted near the operator head on a joist or the ceiling by using the mounting tab. Order Model 1092-06 adapter, which permits connection between the operator terminal and the two-way lugs on the receiver.Slip on connectors at one end of the adapter connect to the flat side of each spade lug on the receiver, and spade connectors at the other end connect to the operator terminal. Connect the wires as follows:(a)White wire to terminal “1” or “24v”(b)Black wire to terminal “2” or “Relay”(c)Red wire to terminal “3” or “Common” (“Radio Power”)(d) Connect push button wires to terminal “1” and “2” (See Figure #2). Where power for the radio receiver is not available from the operator order aM od el 1092-01 po w er t r an s f o r m e r ad ap t or f or c o nn e ction betw een the operator and the remote receiver.ACCESSING THE CODE SWITCHUsing a small screwdriver, pry the rectangular hatch from the receiver for access to the code switch. On the transmitter the entire front lower half of the case is removable. Grasp the front lower half of the case near the bottom on both sides and pull upward away from the transmitter, this will disengage the lower end. Then pull down ward to remove the lower cover, this will expose both the code switch and battery compartment. Set both switches to the code of your choice, being sure both are set the same since a different setting of just one switch will prevent operation. The digital code is determined by the position of 10 s m al l s w it c h es n um be r e d 1 t h rou gh 10 loc ated in the receiver and transmitter. Any combination of “on” or “off” positions can be selected by using a pencil or ball point pen. (Note: The switches are in the “on” position when the switch is depressed toward the number.) See Figure #3.Once the codes have been set, check operation and reinsert the hatches. TRANSMITTER INSTALLATIONThe transmitter is completely self contained, including battery, and can be operated while mounted in the car. It is supplied with a clip for attaching to the sun visor, if desired. If the clip is used attach to the case by sliding it into the recess provided on the back of the transmitter until the small dimples fit into the holes in the clip.CAUTION:Keep the clip flat when pushing it into position so that is doesn’t extend down into the case where it could touch the circuit board and cause damage.OPERA TOR TERMINA L24 VOLTRELA Y COMMON 1 2 3WA LL B UTTON 2 - WA Y LUGSCODE SWITCH MA TCHMOUNTING TA BA NTENNAFigure 1OPERATORTERMINALSTRIPTO WALLPUSH BUTTONSWITCHWhiteBlackRed WhiteBlackRedFigure 212345678910Figure 3OPEN。

关于阿朗CDMA的IPBH基站的整合步骤主要目的：因目前新局使用的基站使用IPBH和以前的frame relay方式不同，添加了阿朗的路由交换机7750设备代替了5E同基站连接。

根据新局现场（软件是R31版）的测试经验，总结基站部分的内容，方便SUB-C工程师查阅和尽快上手，也为客户准备技术文档。

步骤简介：根据IPBH基站的特点，主要三个部分步骤：一，基站硬件安装调测二，基站和7750确认传输路由的配合步骤三，基站的数据添加一，基站硬件安装调测1)基站硬件安装完毕2) 基站用RMT调测基站背板参数，把Frame 转为PPP模式，主要是在RMT/boot memory parameter窗口中/trunk group controller parameter简称TGCP和initial link configuration parameter简称ILCP/ recall成RMT自带的配置文件/自己电脑中的RMT目录/config/1bts/IEH/BMP/中根据URC功能配置分1X和EVDO两种：1X的URC是/Voice/URC-URCII/E1/IPBH-Voice/CDM has its owner E1s/TGCP-CDM(1-5-9-13)-IPBH-E1-v4和/Voice/URC-URCII/E1/IPBH-Voice/CDM has its owner E1s/ILCP-CDM(1-5-9-13)-IPBH-E1-v4EVDO的URCII是EVDO/URC-URCII/E1/PPP-EVDO/CDM has its owner E1s/TGCP-CDM(2-6-10-14)-PPP-E1-v4和EVDO/URC-URCII/E1/PPP-EVDO/CDM has its owner E1s/ILCP-CDM(2-6-10-14)-PPP-E1-v4二，基站和7750确认传输路由的配合步骤1,7750加数据需要的条件：1)基站RCS号2)基站传输编号，主要基站每条传输E1是第几个155M（7750连接40条155M）的第几个时隙（每条155M有63个时隙），需要电信客户传输部门提供3)基站现场的E1先自环并和7750工程师配合断开测试确认E1正常2,在基站现场确认得到IP地址，网线连接到基站，telnet 192.168.168.16(第一块URC)或192.168.168.32(第二块URC)，执行下面的命令：用户名：lucent 密码：password自动出现背板参数击入：mlpppShow检查是否有MY IP和Primary DNS IP及Secondary DNS IP，这三个IP是7750配置的数据，必须全部是有IP地址的，如为0.0.0.0则基站信令不会起来的，需要联系7750工程师确认或添加数据。

Setup your AVer Document Camera from home!Please first identify which AVer document camera you are using to know what software to install.A+ Suite (Sphere2 on Win10/Mac) or Sphere Lite (Chromebooks): AVer U70+, AVer U50, AVer M70HD, AVer 300AFHD, AVer F70W, AVer F50-8M, AVer F17-8M, M17-13MAVerTouch (Win10/Mac): AVer M15W, AVer M15-13M, AVer M70WA+ Interactive Software (Old Version on Win/Mac): V300AF ASIC, SPC300 ASIC, SPC300 +, CP130, CP150, CP300, SPB350, SPB370, CP135, CP155, CP355, V355AF, V310AF, SPB350+, V300AF+, F30, F50, U10, U15, AP20,M50, W30Sphere (Old Version on Win/Mac): PL50, SPB350, SPB370, SPB350+, M50, M70, V300AF+, F50, F30, F15 U15, W30A+ Suite (Sphere2):1.Download the A+ Suite software on your computer, go to:https:///education/support/aplus-suiteSelect the OS you are using to download the software (we will use Win10 in this tutorial)2.Open the downloaded .exe file to start the installationFollow the setup wizard to install the A+ Suite software3.After installation is completed, open the Sphere2 software4.Plug in the power adapter to your document camera and turn it on by pressing the power button (does notapply to U-series doc cams, your document camera may look different than the one pictured)5.Locate a USB port on your computer and connect your camera to it via USB cable that is included6.Select the visualizer icon on the top right of the Sphere2 software and select your camera7.You are now connected to your AVer document camera and can begin teaching!If you own an AVer F70W and wish to connect to your computer wirelessly, please follow this guide: https:///education/downloads/F70WV2-Quick-Guide-EN-v5-2020-02-24.pdfSphere Lite (Chromebook):1.Download the Sphere Lite software on your Chromebook, go to:https:///webstore/detail/sphere-lite/bhmibpbadaengbikmoglphhlhioajdjn?hl=enunch Sphere Lite app after installing3.Plug in the power adapter to your document camera and turn it on by pressing the power button (does notapply to U-series doc cams, your document camera may look different than the one pictured)4.Locate a USB port on your Chromebook and connect your camera to it via USB cable that is included5.Select your camera on the bottom left. You are now connected to your AVer document camera and can beginteaching!AVerTouch:1.Download the AVerTouch software on your computer, go to:https:///education/support/avertouchSelect the OS you are using to download the software (we will use Win10 in this tutorial)2.Unzip the downloaded .zip file3.Open the extracted folder and run the .exe to start the installation4.Follow the setup wizard to install the AVerTouch software5.After installation is completed, open the AVerTouch software6.Plug in the power adapter to your document camera and turn it on by pressing the power button (yourdocument camera may look different than the one pictured)7.Locate a USB port on your computer and connect your camera to it via USB cable that is includedNote: For M15W/M70W users, please make sure WiFi is turned off when trying to do a USB connection 8.The connected visualizer will appear within the AVerTouch software. Click the play icon to connect to thecameraIf you own an AVer M15W/M70W and wish to connect to your computer wirelessly, please follow this guide: M15W: https:///education/downloads/M15W-instruction-manual-EN-2019-12-20.pdfM70W: https:///education/downloads/M70W-instruction-manual-EN-v1-2019-12-20.pdfA+ Interactive Software:1.Download the A+ Interactive Software on your computer, go to:https:///education/support/averplusSelect the OS you are using to download the software2.Unzip the downloaded .zip file3.Open the extracted folder and run the .exe to start the installation4.Follow the setup wizard to install the A+ Interactive Software5.After installation is completed, open the A+ Interactive Software6.Power on and connect your doc cam to your computer via USB cable7.Select your visualizer within the software and you are now connected!Sphere:1.Download the Sphere on your computer, go to:https:///education/support/sphereSelect the OS you are using to download the software2.Run the downloaded .exe to start the installation3.Follow the setup wizard to install the Sphere software4.After installation is completed, open the Sphere Software5.Power on and connect your doc cam to your computer via USB cable6.Select your visualizer within the software and you are now connected!Using your AVer Document Camera with other platforms (Zoom, Skype, Google Hangout).Open up your software of choice and connect your AVer document camera to your computer via USB cable.Select your AVer document camera as your visualizer and you are successfully connected!(Please refer to Zoom, Skype, or Hangout user guides to navigate through their software)Zoom:https:///hc/en-us/articles/201362033-Getting-Started-on-Windows-and-MacSkype:https:///en/skype/windows-desktop/start/Hangout:https:///hangouts/?hl=en#topic=6386410Note: The following AVer doc cams are not UVC compliant and are not compatible with other platforms: F50, M70, PL50, W30, W30HD, Tabcam, 355AF, M50More HelpFor FAQs, technical support, software and instruction manual download, please visit:https:///education/support/Contact InformationAVer Information Inc.668 Mission Ct. Fremont, CA 94539, USAToll-free: 1(877)528-7824Local: 1(408)263-3828********************。

Series 6, Induction hob withintegrated ventilation system, 70 cm, surface mount without framePVQ731F15EIncluded accessories1 x Slider for unducted recirculation, 1 x Clean Air Plus odor filter Optional accessoriesHEZ9ES100 Espresso maker 4 cups, HEZ9FE280 Iron pan Ø 18 / 28 cm, HEZ9SE030 Set of 2 pots and 1 pan, HEZ9SE040 4 pieces Set, HEZ9SE060 6 pieces Set, HEZ9VDKE1 Exhaust kit, HEZ9VDKR0 Recirculation kit 2 L-bow (70cm), HEZ9VDKR1 Recirculation kit S and L-bow (60cm), HEZ9VDKR2 Recirculation kit 1x L-bow,HEZ9VDSB1 90° flat duct bend horizontal, HEZ9VDSB2 90° flat duct L vertical, HEZ9VDSB3 90° flat duct M vertical, HEZ9VDSB4 90° flat duct S vertical, HEZ9VDSI0 Adapter round-flat, HEZ9VDSI1 90°Adapter round-flat, HEZ9VDSM1 Straight tube 500mm, HEZ9VDSM2 Straight tube 1000mm, HEZ9VDSS1 Connector sleeve (female), HEZ9VDSS2 Flex sleeve (female), HEZ9VEDU0 Acoustics Filter,HEZ9VRCR0 cleanAir recirculation replenishment fil, HEZ9VRCR1 Clean Air Plus odor filter (replacement), HEZ9VRPD1 Plinth Diffusor The induction hob with integrated ventilation module: combines induction with ventilation technology for perfect results.• DirectSelect: Direct, simple selection of the desired cooking zone, power and additional functions.• CombiZone: combine two induction cooking zones to heat large cookware.• AutoOn function: automatically draws steam away when your hob heats up.• Front-Bevel: Elegant, appealing design with bevelled front.• MoveMode: the automatic setting of cooking levels allows you to boil water on the front and simmer sauce on the rear cooking zone.Technical DataAppliance type: .................................................Cooking zone ceramic Installation type: ......................................................................Built-in Heating type: ....................................................................Electric hob Min. required niche size for installation (HxWxD): ....223 x 560-560 x 490-490 mmWidth of the appliance: ..........................................................710 mm Dimensions: ........................................................223 x 710 x 522 mm Dimensions of the packed product (HxWxD): .....430 x 940 x 660 mm Net weight: ..............................................................................23.6 kg Gross weight: ..........................................................................30.0 kg Residual heat indicator: ........................................................Separate Location of control panel: ..........................................................Front Basic surface material: ..................................................Glass ceramic Color of surface: .........................................................................Black Length of electrical supply cord: ..........................................110.0 cm Sealed Burners: ..............................................................................No heating with booster: ......................................................................All Power of 2nd heating element (kW): ........................................3.6 kW Number of speed settings: ..................................9-stage + 2 intensive Maximum output air extraction: ...........................................500 m³/h Boost position output recirculating: ..................................595.0 m³/h Maximum output recirculating air: ........................................487 m³/h Boost position air extraction: ...............................................622 m³/h Noise level: ..............................................................69 dB(A) re 1 pW Odour filter: ...................................................................................No Air circulation: ..................................................................Convertible Voltage: .................................................................220-240/380-415 V Frequency: ............................................................................50-60 Hz Length of electrical supply cord: ..........................................110.0 cm Min. required niche size for installation (HxWxD): ....223 x 560-560 x 490-490 mmDimensions: ........................................................223 x 710 x 522 mm Dimensions of the packed product (HxWxD): .....430 x 940 x 660 mm Net weight: ..............................................................................23.6 kg Gross weight: ..........................................................................30.0 kg Included accessories: 1 x Slider for unducted recirculation, 1 x Clean Air Plus odor filterDelay Shut off modes: ....................................................30R_12E minSeries 6, Induction hob withintegrated ventilation system, 70 cm, surface mount without framePVQ731F15EThe induction hob with integrated ventilation module: combines induction with ventilation technology for perfect results.- 70 cm: space for 4 pots or pans.Flexibility of cooking zones- 2 Combi zones- : use bigger cookware by connecting two classic cooking zones into one large zone.- Cooking zone front left: 190 mm, 210 mm, 2.2 KW (max. power 3.7 KW)- Cooking zone rear left: 190 mm, 210 mm, 2.2 KW (max. power 3.7 KW)- Cooking zone rear right: 190 mm, 210 mm , 2.2 KW (max power 3.7 KW)- Cooking zone front right: 190 mm, 210 mm, 2.2 KW (max. power 3.7 KW)Usage convenience- DirectSelect: directly control the power with the imprinted touch bar.- Variable 17-stage power settings for each zone: precisely adapt the heat with 17 power levels (9 main levels and 8 intermediate levels).- Timer for all zones- : switches off the cooking zone at the end of the time set (e.g. for boiled eggs).- Timer - shows how long the cooktop is in use- : an alarm sounds at the end of the time set (e.g. for pasta).Time saving & efficiency- PowerBoost function for all zones- : boil water faster thanks to 50% more energy than at the highest standard level.- MoveMode (2 levels): increase or decrease the power level simply by moving the pot forwards or backwards.- QuickStart function: when switching on, the hob automatically selects the cooking zone with cookware (when placed on a zone whilst the hob is off).- ReStart function: in case of unintentional switch-off, this feature restores all previous settings by switching on the hob again within 4 seconds.Design- Front facette designSafety- 2 stage residual heat indicator for each zone: indicates which cooking zones are still hot or warm.- Control panel lock: prevent unintended activation of the hob.- Freeze function: wipe overboiled liquids without unintentionally changing settings (blocking all touch buttons for 30 seconds).- Main on/off switch: switch off all cooking zones at the touch of a button.- Automatic safety shut off: for safety reasons, heating stops after a preset time if not used (possible to customise).- Energy consumption display: shows the electricity consumption of the last cooking process.Installation- Dimensions of the product (HxWxD mm): 223 x 710 x 522- Required niche size for installation (HxWxD mm) : 223 x 560 x (490 - 490)- Min. worktop thickness: 16 mm- Connected load: 7.4 KW- Power management options for 16A, 13A or 10A connection: limit the maximum power if needed (depends on fuse protection of electric installation).- Power cord: 1.1 m, Cable included- Suitable for installation into a 60 cm base cabinet- Suitable for ducted or recirculated extraction installations in 4 different options (unducted, partly and fully ducted recirculation or ducted extraction). Installation accessories for unducted recirculation, among these four cleanAir odor filters and a telescopic slider element, are included in the cooktop. The included accessories allow easy and quick installations and can be planned in all worktop depths ≥60cm. For other types of installation, one of the following accessory kits is recommended:- HEZ9VDKR1 for partly-ducted recirculation in worktops of ≥60cm depth with max. worktop height of 960 mm. HEZ9VDKR0 forpartly-ducted recirculation in worktops of ≥70cm depth with max. worktop height of 960 mm.- HEZ9VDKE1 as starter kit for ducted extraction in worktops of≥60cm depth.- To complete the fully ducted extraction or to do any other individual recirculation planning different ducting accessories are available.Integrated ventilation downdraft system- Induction cooktop with fully integrated high-performance downdraft extractor.- Suitable for ducted or recirculated extraction configuration (incl. differentiated software modes). Installation accessories for unducted recirculation, among these four cleanAir odor filters and a telescopic slider element, are included in the cooktop. Accessories for other installation options are available, details in the planning notes.-- Aesthetically integrated fully flush air intake design with floating, heat resistant glass ceramics element for free movement and placement of cookware.- Ventilation system with 9 electronically controlled fan power levels and 2 Boost-/Intensive fan power levels (with automatic revert) via DirectSelectuser interface:- - Automatic switch-on of ventilation system when a cooking zone is used.- - Automatic delayed shut-off after cooking to erase residual odors after cooking (in specific ultra low-noise fan level, 12min in ducted extraction, 30min in recirculated extraction, can be shut-off manually).- - Fully manual control possible via DirectSelect.- High-performance, low-noise blower with energy-effcienctBLDC-technology. High extraction rates at very low noises with pleasant noise frequencies through psycho-acoustically and aerodynamically optimized interieur with enclosed, non-visible blower. Highly pressuredrop resistant even with longer and more complex ductings.- Easy-to-detach and easy-to-clean grease filter and liquid collectorunit:- - Convenient one-hand removal of unit via floating glass ceramics handle.- - Integrated, large-scale, high performance stainless-steel grease filters with 12 filtration layers and one black top layer for enhanced aesthetical integration. Grease filtration efficiency of 94 %.- - All parts of the unit are easy-to-clean, fully dishwasher safe and heat resistant.- - (Upper) Liquid collector unit with 200ml of capacity for standard accidental spillages or cooking condensate.- - Powerful drainage system for spillages that exceed 200ml of liquids.- - Liquid safety collector with additional capacity of 700ml for more severe accidental situations. Dishwasher safe. Easily accessible and detachable from below.- - Overall capturing capacity of 900ml (200ml + 700ml).- - Watertight blower system.- Ventilation system performance:- - Extraction performance in ducted extraction (according to EN 61591): min. normal setting 154 m3/h , max. normal setting 500m3/h , max. Boost-/Intensive setting 622 m3/h .- - Extraction performance in recirculated extraction (according to EN 61591): min. normal setting 117 m3/h , max. normal setting 487m3/h , max. Boost-/Intensive setting 595 m3/h.- - Noise level in ducted extraction (Sound power level according to EN 60704-3): min. normal setting 42 dB re 1 pW, max. normal setting 69 dB re 1 pW, max. Boost-/Intensive setting 74 dB re 1 pW.- - Noise level in recirculated extraction (Sound power level according to EN 60704-3. ): min. normal setting 41 dB re 1 pW, max. normal setting 68 dB re 1 pW, max. Boost-/Intensive setting 72 dB re 1 pW.- - Grease filter efficiency (according to EN 61591) 94 %.- Consumption data and energy efficiency (according to Regulation (EU) No 65/2014):- - Energy Efficiency Class: B (at a range of energy efficiency classes from A+++ to D).- - Fluid Dynamic Efficiency: A .- - Average energy consumption: 57 .- - Grease filtration effciency class: B .- - Noise min. normal setting & max. normal setting: 42 dB & 69 dB . - 2 x 2 sets of directly integrated, high-performance cleanAir odour filters (in recirculation configuration).- - Optimised odour reduction performance for cooking applications with complex odour molecules (e.g. fish). - Large scale filter surface with high odour reduction capabilities. - Lifetime of 360 hours of cooking (non-regenerative). - Low-noise filters with optimised psycho-acoustics. - Easy-to-access and easy-to-remove from above. - Replenishment cleanAir filter set HEZ9VRCR0. For ducted extraction configuration: 2 x 2 sets of directly integrated, high-performance low-noise acoustic filters for significantly lower noise and improved psycho-acoustics.- - Optimised odour reduction performance for cooking applications with complex odour molecules (e.g. fish).- - Large scale filter surface with high odour reduction capabilities.- - Lifetime of 360 hours of cooking (non-regenerative).- - Low-noise filters with optimised psycho-acoustics.- - Easy-to-access and easy-to-remove from above.- - Replenishment cleanAir filter set HEZ9VRCR0.- For ducted extraction configuration: 2 x 2 sets of directlyintegrated, high-performance low-noise acoustic filters for significantly lower noise and improved psycho-acoustics.Planning & installation notes- Planning suggestions:- - Installation is possible in island as well as wall oriented configurations.- The product and its accessories comply with the Needle Flame Test (according to IEC 60695-11-5) and the V2 flammability class (according to UL94).- - The max. immersion depth is 223 mm below worktop surface.- - The appliance must be freely accessible from below (i.e. for accessing the lower liquid safety collector).- - No false floor is necessary below the cooktop with integrated downdraft ventilation system. The drawers and/or shelves in the floor unit must be removable. The backpanel of the floor unit can be kept - only a cut-out for the air outlet is needed (position and size can be taken from the installation instructions).- An installation with unducted recirculation requires a vertical aperture of min. 25mm behind the backpanel of the furniture. Suggested for ideal performance are 50mm.- The minimum worktop thickness is 16 mm for top mounted and flush installed appliances with the standard installation system. Installation in even thinner worktops is also possible with the spare part: content 626792.- - The overall appliance weight is 26kg - the bearing capacity and stability, in the case of very thin worktops in particular, must be supported using suitable substructures. The overall appliance weight and the worktop manufacturer's structural integrity specifications are to be taken into account.- - For partly ducted and unducted recirculation extraction installations, a return-flow aperture of ≥400cm² is to be respected in the plinth area. The aperture can be realized via outlet grids, lamella grids or subtly shortened plinths depending on the assortment of the kitchen furniture manufacturer.- - The air outlet on the backside of the appliance can directly be accessed with a male flat duct element (DN 150).- - The pressuredrop resistant blower allows longer and more complex ductings up to 8m with three 90° bows while keeping sufficient performance.- - When installing a ventilation hood with ducted extraction and a chimney-vented fireplace, the power supply line of the appliance needs a suitable safety switch. This is not required for configurations in recirculated extraction.- - In ducted extraction configuration a one-way flap (or backflow trap) with a maximum opening pressure of 65Pa should be installed.Series 6, Induction hob with integrated ventilation system, 70 cm, surface mount without framePVQ731F15E。

Prism TM seriesdiffuse refl ective sensors, OEM versionModels covered in this manual:8-Inch diffuse reflective modelsDC power with Cable DC power with connectorViewing style:Light operate Dark operate Light operate Dark operateNPN output Forward13156ALN1713156ADN1713156ALN0713156ADN07 Right angle13156RLN1713156RDN1713156RLN0713156RDN07PNP output Forward13156ALP1713156ADP1713156ALP0713156ADP07 Right angle13156RLP1713156RDP1713156RLP0713156RDP07NPN/PNP output Forward13156AL1713156AD1713156AL0713156AD07 Right angle13156RL1713156RD1713156RL0713156RD07 24-Inch diffuse reflective modelsDC power with cable DC power with connectorViewing style:Light operate Dark operate Light operate Dark operateNPN output Forward13157ALN1713157ADN1713157ALN0713157ADN07 Right angle13157RLN1713157RDN1713157RLN0713157RDN07PNP output Forward13157ALP1713157ADP1713157ALP0713157ADP07 Right angle13157RLP1713157RDP1713157RLP0713157RDP07NPN/PNP output Forward13157AL1713157AD1713157AL0713157AD07 Right angle13157RL1713157RD1713157RL0713157RD07a Contact factory for availability on these models.aa a a aa a a aa a a aa a a aa a a aa a aCAUTIONTHESE PRODUCTS ARE NOT DESIGNED, TESTED,OR RECOMMENDED FOR USE IN HUMAN SAFETY APPLICATIONS.MAXIMUM INPUT VOLTAGE FOR DC OPERATION IS30 VDC. APPLYING VOLTAGE ABOVE THIS LIMIT WILL RESULT IN DAMAGE TO THE SENSOR.USE #4 MOUNTING HARDWARE ONLY! LARGER HARDWARE WILL DAMAGE THE SENSOR AND MAY CREATE AN ELECTRICAL SHOCK HAZARD. TIGHTEN THE HARDWARE JUST TO THE SENSOR BODY SO THAT NO DEFLECTION OF THE BODY OCCURS.DO NOT USE TOOLS TO APPLY TORQUE DIRECTLY TO SENSOR BODY. ALIGN SENSOR BY HAND BEFORE TIGHTENING MOUNTING HARDWARE.THE GAIN POT IS A 3/4 TURN POT. ANY RESISTANCE ENCOUNTERED WHILE ADJUSTING THIS POT INDICATES YOU HAVE REACHED THE ADJUSTMENT LIMIT STOP. TURNING PAST THIS STOP WILL DAMAGE THE SENSOR.SHORT CIRCUIT PROTECTION WILL AUTOMATICALLY RESET ONCE SHORT IS REMOVED.IntroductionA diffuse reflective sensor operates by shininga beam of light out through the lens. When an object comes within the sensor’s view, it reflects part of this beam of light back to the sensor causing the sensor to detect the object. The maximum range at which a given object can be detected depends on how well its surface reflects light—the less light it reflects back, the shorter the range. The ability of a surface to reflect light depends primarily upon its material of construc-tion, color, and texture.This manual covers both forward viewing and right angle viewing models. Although the units differ in the location of the lenses, the basic fundamentals of installation, set-up, and operation are nearlyidentical.ForwardviewingMountingMounting location and set-upThe Prism sensor features a threaded housing and includes jam nuts and washers. This allows mounting into any 0.75 inch hole, or optional bracket. Use caution to avoid cross-threading the jam nuts on the sensor body. Tighten nuts to less than 4 N•m (36 in.-lbs. or 3 ft.-lbs.) torque to avoid stripping threads.A second mounting method is to use #4 hardware in the 0.125 inch diameter mounting holes in the flat sides of the sensor. This is ideal for mounting the Prism against a wall, piece of equipment, rail, mounting bracket, etc.Select a mounting location with a clear view of the object to be detected. Avoid direct reflection from a highly reflective background (or darken the background). Mount the sensor so that it points at the most suitable part of the target object.Be sure your power supply is off, then connect the sensor to thecontrol circuit and power lines. Turn the power supply on and place a sample object in the beam. Slowly turn the gain adjustment clockwise (see Warning above concerning pot adjustment) until the LED lights (for light-operate model). Note the position and remove the sample object. Now continue turning the gain setting clockwise to find the position where the LED lights from the background reflec-tion. Reset the gain midway between the two positions. Tighten all mounting screws.ote: N If background reflections are low, it will be possible to achieve a maximum gain setting without the LED lighting; in that case, set the gainmidway between the first setting and maximum (this will prevent a hysteresislatch-up after sensing an object).2Installation Instructions 110210-305Effective January 2017EATON Prism TM seriesdiffuse refl ective sensors, OEM versionetected.SpecificationsDC modelsInput voltage 10 to 30 V DC, reverse polarity protected Power dissipation 1 W maximumOutput type NPN only, PNP only, or NPN and PNP by modelOutput operationDark operate models: ON when beam is blocked; OFF when beam is not blocked Light operate models: ON when beam is not blocked; OFF when beam is blocked Current switching capacity 100 mA maximum Off-state leakage 10 mA maximumOn-state voltage dropNPN: 2.0 V at 100 mA; PNP: 2.5 V at 100 mA Short circuit protection Protected against dead shorts only.Operation: Output is continuously retried at 3 mS intervals and will automatically reset when short is removed (no visual indication of a short circuit condition).CAUTION: will not protect against overloads between 100 mA and 1 A.Response time 1.2 mSLight/dark operation Specified by model numberTemperature range Operating: -25° to 55° C (-13° to 131° F), Storage: -25° to 70° C (-13° to 158° F)Sunlight immunity 1,000 foot-candlesMaterial of construction Lens: Polycarbonate; Cable jacket: PVC; Body: Structural polyurethane foam (do not expose to concentrated acids, alcohols, or ketones)Cable models 6-foot long; 3-wire NPN or PNP models; 4-wire NPN/PNP models Connector models Micro Connector, 4-pin maleVibration and shock Vibration: 30g over 10 Hz to 2 kHz; Shock: 50 g for 10 mS 1/2 sinewave pulse Indicator led Lights steady when output is ON; OFF when output is OFF;OFF when output is in short circuit modeAlarm indicator led ON in condition of low gain or noise interferance; OFF in normal condition Enclosure ratings NEMA 1, 2, 3, 4, 4X, 6, 12, and 13 (See note below)ApprovalsContact factory for latest list of agency approvalsote: N Our products conform to NEMA tests as indicated, however, some severe washdown applications can exceed these NEMA test specifications. If you have questions about a specific application, contact our Applications Department.3Installation Instructions 110210-305Effective January 2017EATON Prism TM series diffuse refl ective sensors, OEM version Wiring diagramsNPN modelsPNP modelsNPN/PNP modelsOptical performanceOptical performance(Shown in inches except where noted)All optical specifications are guaranteed to be the minimum perfor-mance under clean conditions of any product delivered from stock.Typical performance may be higher.Dirt in the environment will affect optical performance by reducingthe amount of light the control receives. For best results, sensorsshould be used at distances where excess gain is higher than 1.5(1.5 times the amount of sensing power required to detect an objectunder ideal conditions). Higher excess gain will allow the sensor toovercome higher levels of contamination on the lens. All ranges andexcess gain graphs are based on a 90% reflectance white card.1315613157Source Infrared, 880 nm Infrared, 880 nmMaximum range8 inches (203 mm)24 inches(609mm)Optimum range0.1-5 inches(3-127 mm)0.1-15 inches(3-381mm)Field of view2 inch (51 mm) diameterat 5 inches (127 mm)6 inches (152 mm) at15 inches (381 mm)Eaton1000 Eaton BoulevardCleveland, OH 44122United States© 1999 EatonAll Rights ReservedEaton is a registered trademark.All other trademarks are propertyof their respective owners. Installation Instructions 110210-305Effective January 2017Prism TM seriesdiffuse refl ective sensors, OEM version。

Dedicated Pin Information for the MAX IIEPM2210 / EPM2210G DevicesVersion 1.2Dedicated Pin 256-Pin FBGA 324-Pin FBGA IO/GCLK0H5J6IO/GCLK1J5K6IO/GCLK2J12K13IO/GCLK3H12J13IO/DEV_OE M8N9IO/DEV_CLRn M9N10TDI L6M7TMS N4P5TCK P3R4TDO M5N6GNDINT F7, G6, H7, H9, J8, J10, K11, L10G8, H7, J8, J10, K9, K11, L12, M11GNDIOA1, A16, B2, B15, G7, G8, G9, G10, K7, K8, K9, K10, R2, R15, T1, T16A1, A18, B2, B17, H8, H9, H10, H11, L8, L9, L10, L11, U2, U17, V1, V18VCCINT (1)F10, G11, H8, H10, J7, J9, K6, L7G11, H12, J9, J11, K8, K10, L7, M8VCCIO1 (2)C1, H6, J6, P1C1, J7, K7, T1VCCIO2 (2)A3, A14, F8, F9A3, A16, G9, G10 VCCIO3 (2) C16, H11, J11, P16C18, J12, K12, T18VCCIO4 (2)L8, L9, T3, T14M9, M10, V3, V16No Connect (N.C.)--Total User I/O Pins 204272Notes:1. For EPM2210 devices, all VCCINT pins must be connected to either 3.3V or2.5V (but not a combination of both). For EPM2210G devices, all VCCINT pins must be connected to 1.8V.2. Each set of VCCIO pins (VCCIO1, VCCIO2, etc.) can be connected to3.3V, 2.5V, 1.8V, or 1.5V.I/O Pin Information for the MAX IIEPM2210 / EPM2210G DevicesVersion 1.2Bank Number Pad Number Orientation Pin/Pad Function Optional Function(s)256-Pin FBGA 324-Pin FBGAB10VCCIO1B11GNDIO B12IO C2B13IO D3C3B14IOC2D25VCCINT B16IO D1B17IO D3B18IO C3E2B19IO E3D4B110IO D2E1B111IO E4E3B112IO D1F3B113IO E5E4B114IOE2F2B115VCCIO1B116GNDIO B117IO E5B118IO F1B119IO F4B120IO G3B121IO F5B122IO G2B123IO F3F6B124IO E1G1B125IO F4G4B126IO F2H3B127IO F5G5B128IO F1H2B129IO F6G6B130IO G2H1B131IO G3G7B132IOG1J3B133VCCIO1B134GNDIO B135IO G4H4B136IO H2J2B137IO G5H5B138IO H1J1B139IO H3H6B140IOJ1K141GNDINT B142IOGCLK0H5J643VCCINT B144IO GCLK1J5K6B145IOH4J4B146IO J2K2 B147IO J4J5 B148IO K1K3 B149IO K5 B150IO L1 B151VCCIO1B152GNDIOB153IO J3K4 B154IO K2L2 B155IO K5L6 B156IO L1L3 B157IO K4L5 B158IO M1 B159IO L4 B160IO L2M2 B161IO K3M6 B162IO M1M3 B163IO L5M5 B164IO M2N1 B165IO L4M4 B166IO N2 B167IO L3N5 B168IO N3 B169VCCIO1B170GNDIOB171IO N4 B172IO N1P1 B173IO M4P4 B174IO N2P2 B175IO M3P3 B176IO R1 77GNDINTB178IO N3R2 B179IO R3 B180TMS N4P5 B181TDI L6M7 B182TCK P3R4 B183TDO M5N6 B184IO P2T2 B185IO T3 B186VCCIO1B187GNDIOB188N.C. (1)B489VCCIO4B490GNDIOB491IO U1 92VCCINTB493IO R1V2 B494IO P4R5 B495IO T2U3 B496IO P5P6B497IO R3T4 B498IO N5R6 B499IO U4 B4100IO T6 B4101IO V4 B4102IO N7 B4103IO T5 B4104IO P7 B4105GNDIOB4106VCCIO4B4107IO R4U5 B4108IO P6R7 B4109IO T4V5 B4110IO N6T7 B4111IO R5U6 B4112IO M6N8 B4113IO T5V6 B4114IO P7P8 B4115IO R6U7 B4116IO N7R8 B4117IO T6V7 B4118IO M7T8 B4119IO R7U8 B4120VCCIO4B4121GNDIOB4122IO P8P9 B4123IO T7V8 B4124IO N8R9 B4125IO R8U9 B4126IO N9T9 B4127IO T8V9 128GNDINTB4129IO T9U10 130VCCINTB4131IO R9V10 B4132IO P9P10 B4133IO T10U11 B4134IO DEV_OE M8N9 B4135IO DEV_CLRn M9N10 B4136IO M10R10 B4137IO R10V11 B4138VCCIO4B4139GNDIOB4140IO N10T10 B4141IO T11U12 B4142IO P10N11 B4143IO R11V12 B4144IO M11P11 B4145IO T12U13 B4146IO N11R11 B4147IO R12V13B4148IO P11T11 B4149IO T13T14 B4150IO M12N12 B4151IO R13U14 B4152VCCIO4B4153GNDIOB4154IO N12P12 B4155IO R14V14 B4156IO P12R12 B4157IO T15T15 B4158IO T12 B4159IO U15 B4160IO P13 B4161IO V15 B4162IO R13 B4163IO U16 B4164IO T13 B4165IO V17 166GNDINTB4167IO R16U18 B4168IO P13R14 B4169VCCIO4B4170GNDIOB3171VCCIO3B3172GNDIOB3173IO T17 B3174IO R15 B3175IO P14T16 176VCCINTB3177IO R16 B3178IO P15 B3179IO P15R17 B3180IO N13P14 B3181IO R18 B3182IO N15 B3183IO P16 B3184IO N14 B3185IO N14P17 B3186IO M14N13 B3187IO N15P18 B3188IO M13M15 B3189IO N16N16 B3190VCCIO3B3191GNDIOB3192IO M14 B3193IO N17 B3194IO L14M13 B3195IO M15N18 B3196IO L13M12 B3197IO M16M16 B3198IO L12L16B3199IO L15M17 B3200IO L11L15 B3201IO L16M18 B3202IO K14L14 B3203IO K15L17 B3204IO K13L13 B3205IO K16L18 B3206VCCIO3B3207GNDIOB3208IO K12K16 B3209IO J15K17 B3210IO J14K15 B3211IO J16K18 B3212IO J13K14 B3213IO GCLK2J12K13 214VCCINTB3215IO GCLK3H12J13 216GNDINTB3217IO H16J18 B3218IO H13J14 B3219IO H15J17 B3220IO H14J15 B3221IO G16H18 B3222IO G12J16 B3223GNDIOB3224VCCIO3B3225IO G15H17 B3226IO G13H13 B3227IO F16G18 B3228IO G14H14 B3229IO F15G17 B3230IO F11H15 B3231IO E16G16 B3232IO F12H16 B3233IO E15F18 B3234IO F13G12 B3235IO D16F17 B3236IO F14G13 B3237GNDIOB3238VCCIO3B3239IO D15F16 B3240IO E12G14 B3241IO E18 B3242IO G15 B3243IO D14E17 B3244IO F13 B3245IO D18 B3246IO E13F14 B3247IO E16 B3248IO F15 B3249IO C15D17B3250IO E14 B3251IO D16 252GNDINTB3253IO C14C16 B3254IO E14E15 B3255IO C17 B3256IO D13D15 B3257N.C. (1)B3258VCCIO3B3259GNDIOB2260VCCIO2B2261GNDIO262VCCINTB2263IO B16B18 B2264IO C13D14 B2265IO A15A17 B2266IO C12E13 B2267IO B16 B2268IO D13 B2269IO C15 B2270IO F12 B2271IO B15 B2272IO E12 B2273IO A15 B2274IO D12 B2275GNDIOB2276VCCIO2B2277IO B14C14 B2278IO D12C12 B2279IO B13B14 B2280IO C11F11 B2281IO A13A14 B2282IO D11E11 B2283IO B12C13 B2284IO E11D11 B2285IO A12B13 B2286IO C10C11 B2287IO B11A13 B2288IO D10F10 B2289GNDIOB2290VCCIO2B2291IO A11B12 B2292IO E10E10 B2293IO B10A12 B2294IO C9D10 B2295IO A10B11 B2296IO D9C10 B2297IO B9A11 B2298IO E9C9 B2299IO A9B10 300VCCINTB2301IO A8A10 302GNDINTB2303IO B8A9 B2304IO E8D9 B2305IO A7B9 B2306IO D8E9 B2307IO B7A8 B2308IO C8F9 B2309GNDIOB2310VCCIO2B2311IO A6B8 B2312IO E7C8 B2313IO B6A7 B2314IO D7D8 B2315IO A5B7 B2316IO C7E8 B2317IO B5A6 B2318IO E6F8 B2319IO A4B6 B2320IO D6C7 B2321IO B4A5 B2322IO C6D7 B2323IO C4B5 B2324IO C5E7 B2325GNDIOB2326VCCIO2B2327IO B3C5 B2328IO D5F7 B2329IO A4 B2330IO C6 B2331IO B4 B2332IO D6 B2333IO C4 B2334IO E6 B2335IO A2B3 336GNDINTB2337IO B1A2 B2338IO D4D5 B2339IO B1 B2340VCCIO2B2341GNDIONotes: 1. No ConnectPin Description Information for the MAX® II and MAX® IIG DevicesVersion 1.2 Pin Name Pin Type Pin DescriptionSupply and Reference pinsVCCIO[1..4]Power I/O supply voltage pins for banks 1 through 4 respectively. EPM2210 and EPM1270 use VCCIO[1..4] while EPM240 and EPM570 use VCCIO[1..2]. Each VCCIO bank supports a different voltage level with the VCCIO pins providing power for the input and output buffers within that particular I/O bank. Each VCCIO bank can be powered with either 3.3 V, 2.5 V, 1.8 V or 1.5 V.GNDIO Ground Ground pins for all the I/O banks. VCCINT Power Voltage supply pins for the device. GNDINT Ground Ground pins for the internal supply.Programming and JTAG pinsDEV_CLRn I/O Dual-purpose pin that can override all clears on all device registers. All registers are cleared when the pin is driven low and all registers behave as defined in the design when this pin is driven high. If not used for its dual-purpose function this pin is a regular I/O.DEV_OE I/O Dual-purpose pin that can override all tri-states on the device. All output pins are tristated when the pin is driven low and all output pins behave as defined in the design when this pin is driven high. If not used for its dual-purpose function this pin is a regular I/O.TCK Input Dedicated JTAG input pin.TDI Input Dedicated JTAG input pin.TMS Input Dedicated JTAG input pin.TDO Output Dedicated JTAG output pin.Clock PinsGCLK [0..3]I/O Dual-purpose clock pins that connect to the global clock network. If not used forits dual-purpose function this pin is a regular I/O.Figure 1. MAX II EPM2210 / EPM2210G F256 Device Top View Package Diagram and Bank InformationPackage Diagram and Bank Information for the MAX ® IIEPM2210 / EPM2210G DevicesVersion 1.2Figure 2. MAX II EPM2210 / EPM2210G F324 Device Top View Package Diagram and Bank InformationPackage Diagram and Bank Information for the MAX ® IIEPM2210 / EPM2210G DevicesVersion 1.2The table below shows the revision historyDate/VersionChanges Made January 2005, v1.2Added MAX IIG Device Naming to Titles, Notes, and Figures July 2004, v1.1Added Package Diagram and Bank Information Figures for Each Package May 2004, v1.0Initial Release Pin Information for the MAX ® II EPM2210 and EPM2210G DevicesRevision HistoryVersion 1.2。

For more information, contact your Olympus sales representative, or call 800-848-9024. ©2018 Olympus America Inc. All rights reserved.Printed in USA OAIET0518QRG26489EZ Shot 3 Plus has been designed to be used with an Olympus ultrasound endoscope for ultrasonically guided fine needle aspiration (FNA) and fine needle biopsy (FNB) of submucosal and extramural lesions within the gastrointestinal tract (i.e. pancreatic masses, mediastinal masses, perirectal masses and lymph nodes).EZ Shot 3 Plus Single-Use Aspiration Needle (NA-U200H series)Quick Reference Guide: Piercing & AspirationOlympus is a registered trademark of Olympus Corporation, Olympus America Inc., and/or their affiliates. I Medical devices listed may not be available for sale in all countries.CAUTION: This guide is only a summary of the instructions for use of the NA-U200H EZ Shot 3 Plus. Be sure to follow the instruction manual included with your purchase.45■Push the needle slider to extend the needle tube from the distal end of the sheath and pierce the target area while observing ultrasound image.■Confirm that the needle distal end has pierced the target and withdraw the stylet fully from the aspiration port.■Attach the syringe to the aspiration port and open the stopcock by turning it until it is parallel to the syringe.■Close the stopcock by turning it 90 degrees and pull the needle slider as far out as possible to retract the needle tube into the sheath.SyringeDisclaimer: Any content or information (“Content”) presented herein is illustrative in nature and does not guarantee or represent specific information,outcomes, or results. Olympus Corporation, its subsidiaries, affiliates, directors, officers, employees, agents, and representatives (collectively “Olympus”) does not represent to or warrant the accuracy or applicability of the Content. Under no circumstances shall Olympus be liable for any costs, expenses, losses, claims, liabilities, or other damages (whether direct, indirect, special, incidental, consequential, or otherwise) that may arise from, or be incurred in connection with, the Content or any use thereof.。