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Chapter 2 

 Hardware Information 

 

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2.4.5 

Ex5VSB Input (CN6) 

 

 

 

Pin 

Pin Name 

Signal Type 

Signal Level 

PS_ON# 

OUT 

+5V 

GND 

GND 

+5VSB 

PWR 

+5V at 2A 

 

2.4.6 

DDR SO-DIMM Slot (CN7) 

 

Standard Specifications. 

 
 

 

+5VSB

GND

PS_ON#

1

2

3

Summary of Contents for AAEON GENESYSM-TGU6

Page 1: ...Last Updated September 19 2022 GENESYSM TGU6 GENESYSM Compact Embedded System User s Manual 1st Ed ...

Page 2: ... provided in this manual is intended to be accurate and reliable However the original manufacturer assumes no responsibility for its use or for any infringements upon the rights of third parties that may result from its use The material in this document is for product information only and is subject to change without notice While reasonable efforts have been made in the preparation of this documen...

Page 3: ...is a registered trademark of Microsoft Corp Intel and Celeron are registered trademarks of Intel Corporation Intel Core are trademarks of Intel Corporation ITE is a trademark of Integrated Technology Express Inc IBM PC AT PS 2 and VGA are trademarks of International Business Machines Corporation All other product names or trademarks are properties of their respective owners ...

Page 4: ...YSM TGU6 Packing List Before setting up your product please make sure the following items have been shipped Item Quantity GENESYSM TGU6 1 If any of these items are missing or damaged please contact your distributor or sales representative immediately ...

Page 5: ... detailed descriptions and explanations on the product s hardware and software features if any its specifications dimensions jumper connector settings definitions and driver installation instructions if any to facilitate users in setting up their product Users may refer to the product page at AAEON com for the latest version of this document ...

Page 6: ...mage by transient over voltage 7 Always disconnect this device from any AC supply before cleaning 8 While cleaning use a damp cloth instead of liquid or spray detergents 9 Make sure the device is installed near a power outlet and is easily accessible 10 Keep this device away from humidity 11 Place the device on a solid surface during installation to prevent falls 12 Do not cover the openings on th...

Page 7: ...uid intrusion to the device iii Exposure to moisture iv Device is not working as expected or in a manner as described in this manual v The device is dropped or damaged vi Any obvious signs of damage displayed on the device 18 DO NOT LEAVE THIS DEVICE IN AN UNCONTROLLED ENVIRONMENT WITH TEMPERATURES BEYOND THE DEVICE S PERMITTED STORAGE TEMPERATURES SEE CHAPTER 1 TO PREVENT DAMAGE ...

Page 8: ...er of explosion if the battery is incorrectly replaced Replace only with the same or equivalent type recommended by the manufacturer Dispose of used batteries according to the manufacturer s instructions and your local government s recycling or disposal directives Attention Il y a un risque d explosion si la batterie est remplacée de façon incorrecte Ne la remplacer qu avec le même modèle ou équiv...

Page 9: ...产品中有毒有害物质或元素名称及含量 AAEON Main Board Daughter Board Backplane 部件名称 有毒有害物质或元素 铅 Pb 汞 Hg 镉 Cd 六价铬 Cr VI 多溴联苯 PBB 多溴二苯醚 PBDE 印刷电路板 及其电子组件 外部信号 连接器及线材 O 表示该有毒有害物质在该部件所有均质材料中的含量均在 SJ T 11363 2006 标准规定的限量要求以下 X 表示该有毒有害物质至少在该部件的某一均质材料中的含量超出 SJ T 11363 2006 标准规定的限量要求 备注 此产品所标示之环保使用期限 系指在一般正常使用状况下 ...

Page 10: ...ated Diphenyl Ethers PBDE PCB Other Components O O O O O Wires Connectors for External Connections O O O O O O O The quantity of poisonous or hazardous substances or elements found in each of the component s parts is below the SJ T 11363 2006 stipulated requirement X The quantity of poisonous or hazardous substances or elements found in at least one of the component s parts is beyond the SJ T 1136...

Page 11: ...2 Pin8 Function Selection JP4 13 2 3 4 Clear CMOS Jumper JP7 13 2 4 List of Connectors 14 2 4 1 5V Output for SATA HDD CN1 15 2 4 2 SATA Port CN2 16 2 4 3 External Power Input CN3 16 2 4 4 Audio I O Port CN5 17 2 4 5 External 5VSB Input CN6 18 2 4 6 DDR SO DIMM Slot CN7 18 2 4 7 Mini Card Slot Full Size CN10 19 2 4 8 DDR SO DIMM Slot CN11 21 2 4 9 M 2 E Key 2230 CN12 21 2 4 10 COM Port 1 Port 2 Du...

Page 12: ...CN35 34 2 4 24 i219 LED Connector CN36 35 2 4 25 i225 i226 LED Connector CN37 36 2 5 Hardware Installation 37 2 5 1 Accessing the Bottom Panel 37 2 5 2 RAM Module Installation 39 2 5 3 2 5 SATA Drive Installation 40 2 5 4 COM Port Installation 43 2 5 5 Wallmount Assembly 47 2 5 6 VESA Mount Installation 48 Chapter 3 AMI BIOS Setup 50 3 1 System Test and Initialization 51 3 2 AMI BIOS Setup 52 3 3 ...

Page 13: ...ation Settings 82 3 5 4 Legacy Logical Devices Configuration 83 3 5 4 1 Serial Port 1 Configuration 84 3 5 4 2 Serial Port 2 Configuration 85 3 5 5 Serial Port Console Redirection 86 3 5 5 1 Console Redirection Settings 87 3 5 6 PCH IO Configuration 89 3 6 Setup Submenu Security 90 3 6 1 Trusted Computing 91 3 6 2 Secure Boot 93 3 7 Setup Submenu Boot 94 3 7 1 BBS Priorities 95 3 8 Setup Submenu S...

Page 14: ...Preface XIV GENESYSM Compact Embedded System GENESYSM TGU6 Appendix B Mating Connectors and Cables 107 B 1 Mating Connectors and Cables 108 ...

Page 15: ...GENESYSM Compact Embedded System GENESYSM TGU6 Chapter 1 Chapter 1 Product Specifications ...

Page 16: ...up to 4 10GHz TDP up 28W i3 1115G4E 2C 4T 2 20GHz up to 3 90GHz TDP up 28W Celeron 6305E 2C 2T 1 80GHz TDP 15W Chipset Integrated with Intel SoC Memory Type DDR4 up to 3200MHz Dual Channel SODIMM x 2 up to 64GB supports IBECC selected SKUs BIOS UEFI Wake on LAN Yes Watchdog Timer 255 Levels Security TPM 2 0 RTC Battery Lithium Battery 3V 240mAh Dimension 7 00 x 5 28 x 1 97 178 0mm x 134 1mm x 50 0...

Page 17: ...wer Consumption Intel i7 1185G7E DDR4 3200MHz 32GB x 2 4 96A 12V typical Intel i7 1185G7E DDR4 3200MHz 32GB x 2 7 32A 12V max Display Controller Intel Iris Xe Graphics Intel UHD Graphics Display Interface HDMI 2 0b x 1 DP 1 4 x 2 Type C DP 1 4 x 1 Multiple Display Up to 4 Simultaneous Displays Audio Codec Realtek ALC897 892 Audio Interface Line in Line out MIC optional Speaker ...

Page 18: ...Gen 2 Type C x 1 PD 5V 3A USB 2 0 x 2 Serial Port COM1 RS232 422 485 COM2 RS232 422 485 supports 5V 12V RI Video HDMI 2 0b x 1 DP 1 4 x 2 Type C DP 1 4 x 1 Internal I O USB Serial Port Video SATA SATA III x 1 5V SATA Power Connector x 1 Audio Audio Header x 1 DIO GPIO SMBus I2C SMBus I2C x 1 Default SMBus Touch Fan 4 Pin Smart Fan x 1 SIM Nano SIM x 1 Front Panel HDD LED PWR LED Power Button Buzze...

Page 19: ... Full Sized mSATA mPCIe x 1 default mSATA select with BIOS M 2 M Key 2280 x 1 PCIex4 E Key 2230 x 1 PCIe USB 2 0 Others Environment Operating Temperature 32 F 122 F 0 C 50 C Storage Temperature 40 F 185 F 40 C 85 C Operating Humidity 0 90 relative humidity non condensing MTBF HOURS 329 884 EMC CE FCC Class A ...

Page 20: ...Chapter 1 Product Specifications 6 GENESYSM Compact Embedded System GENESYSM TGU6 1 2 Block Diagram ...

Page 21: ...GENESYSM Compact Embedded System GENESYSM TGU6 Chapter 2 Chapter 2 Hardware Information ...

Page 22: ...Chapter 2 Hardware Information 8 GENESYSM Compact Embedded System GENESYSM TGU6 2 1 Dimensions System ...

Page 23: ...Chapter 2 Hardware Information 9 GENESYSM Compact Embedded System GENESYSM TGU6 Board ...

Page 24: ...Chapter 2 Hardware Information 10 GENESYSM Compact Embedded System GENESYSM TGU6 2 2 Jumpers and Connectors Component Side Front I O ...

Page 25: ...Chapter 2 Hardware Information 11 GENESYSM Compact Embedded System GENESYSM TGU6 Solder Side ...

Page 26: ...for your application Label Function JP1 Front Panel Connector JP3 Auto Power Button Enable Disable Selection JP4 COM2 Pin 8 Function Selection JP7 Clear CMOS Jumper 2 3 1 Front Panel Connector JP1 Pin Function Pin Function Pin 1 PWR_BTN Pin 2 PWR_BTN Pin 3 HDD_LED Pin 4 HDD_LED Pin 5 SPEAKER Pin 6 SPEAKER Pin 7 PWR_LED Pin 8 PWR_LED Pin 9 H W RESET Pin 10 H W RESET 1 2 3 4 5 6 7 8 9 10 ...

Page 27: ... Jumper JP7 Normal Default Clear CMOS 1 2 3 1 2 3 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 3 5 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 3 5 1 ...

Page 28: ... Port CN6 External 5VSB Input CN7 DDR4 SO DIMM Slot CN10 Mini Card Slot Full Size CN11 DDR4 SO DIMM Slot CN12 M 2 E Key 2230 CN13 COM Port 1 Port 2 RS232 422 485 Dual Port Header CN16 eSPI Debug Port CN19 Nano SIM Card Socket CN21 USB2 0 Port 5 Port 6 Dual Port Header CN23 CPU Fan CN26 USB3 2 Gen 2 Port 1 Port 2 Dual Port Connector CN27 LAN RJ 45 Dual Port Connector i225 i226 left i219 right CN28 ...

Page 29: ... Label Function CN33 M 2 M Key 2280 CN35 USB3 2 Gen 2 Port 3 Port 4 Dual Port Connector CN36 i219 LED Connector CN37 i225 i226 LED Connector 2 4 1 5V Output for SATA HDD CN1 Pin Pin Name Signal Type Signal Level 1 5V PWR 5V at 1A 2 GND GND Note Max current for Pin 1 is 1 Amp 5V GND ...

Page 30: ...me Signal Type Signal Level 1 GND GND 2 SATA_TX DIFF 3 SATA_TX DIFF 4 GND GND 5 SATA_RX DIFF 6 SATA_RX DIFF 7 GND GND 2 4 3 External Power Input CN3 Pin Pin Name Signal Type Signal Level 1 12V PWR 9 36V or 12V at 8A 2 GND GND Note There are two types of power input 9 36V or 12V by BOM option Pin 1 Pin 7 12V GND ...

Page 31: ...SM Compact Embedded System GENESYSM TGU6 2 4 4 Audio I O Port CN5 Pin Pin Name Signal Type 1 LOUT_R OUT 2 MIC_R IN 3 LOUT_L OUT 4 MIC_L IN 5 JD_LOUT IN 6 JD_MIC IN 7 AUD_GND GND 8 AUD_GND GND 9 JD_LIN IN 10 LIN_R IN 11 VDD_AUD PWR 12 LIN_L IN ...

Page 32: ...8 GENESYSM Compact Embedded System GENESYSM TGU6 2 4 5 External 5VSB Input CN6 Pin Pin Name Signal Type Signal Level 1 PS_ON OUT 5V 2 GND GND 3 5VSB PWR 5V at 2A 2 4 6 DDR SO DIMM Slot CN7 Standard Specifications 5VSB GND PS_ON 1 2 3 ...

Page 33: ...gnal Level 1 PCIE_WAKE IN 2 3 3VSB PWR 3 3V 3 NC 4 GND GND 5 NC 6 1 5V PWR 1 5V 7 PCIE_CLK_REQ IN 8 UIM_PWR PWR 9 GND GND 10 UIM_DATA I O 11 PCIE_REF_CLK DIFF 12 UIM_CLK IN 13 PCIE_REF_CLK DIFF 14 UIM_RST IN 15 GND GND 16 UIM_VPP PWR 17 NC 18 GND GND 19 NC 20 W_DISABLE OUT 3 3V 21 GND GND 22 PCIE_RST OUT 3 3V 23 PCIE_RX DIFF 24 3 3VSB PWR 3 3V ...

Page 34: ...5 PCIE_RX DIFF 26 GND GND 27 GND GND 28 1 5V PWR 1 5V 29 GND GND 30 SMB_CLK I O 3 3V 31 PCIE_TX DIFF 32 SMB_DATA I O 3 3V 33 PCIE_TX DIFF 34 GND GND 35 GND GND 36 USB_D DIFF 37 GND GND 38 USB_D DIFF 39 3 3VSB PWR 3 3V 40 GND GND 41 3 3VSB PWR 3 3V 42 NC 43 GND GND 44 NC 45 NC 46 NC 47 NC 48 1 5V PWR 1 5V 49 NC 50 GND GND ...

Page 35: ... Signal Level 51 NC 52 3 3VSB PWR 3 3V 2 4 8 DDR SO DIMM Slot CN11 Standard Specifications 2 4 9 M 2 E Key 2230 CN12 Standard Specifications 2 4 10 COM Port 1 Port 2 Dual Header CN13 RS 232 Pin Pin Pin Name Signal Type Signal Level 1 2 DCD IN 3 4 RX IN 5 6 TX OUT 5V 7 8 DTR OUT 5V 9 10 GND GND 11 12 DSR IN ...

Page 36: ...6 CTS IN 17 18 RI 5V 12V IN 19 20 NC Note RI 5V 12V for COM2 only RS 485 Pin Pin Pin Name Signal Type Signal Level 1 2 RS485_D I O 5V 3 4 RS485_D I O 5V 5 6 NC 7 8 NC 9 10 GND GND 11 12 NC 13 14 NC 15 16 NC 17 18 NC 19 20 NC RS 422 Pin Pin Pin Name Signal Type Signal Level 1 2 RS422_TX OUT 5V 3 4 RS422_TX OUT 5V 5 6 RS422_RX IN 7 8 RS422_RX IN ...

Page 37: ...2 NC 13 14 NC 15 16 NC 17 18 NC 19 20 NC Note 1 COM2 RS 232 422 485 can be set by BIOS setting Default is RS 232 Note 2 Pin 8 function can be set by JP4 See Ch 2 3 4 2 4 11 eSPI Debug Port CN16 Pin Pin Name Signal Type Signal Level 1 LAD0 I O 3 3V 2 LAD1 I O 3 3V 3 LAD2 I O 3 3V 4 LAD3 I O 3 3V 5 3 3V PWR 3 3V 6 LFRAME IN 7 LRESET OUT 3 3V ...

Page 38: ...in Name Signal Type Signal Level 8 GND GND 9 LCLK OUT 10 SMB_DATA I2C_SDA I O 11 SMB_CLK I2C_CLK OUT 12 SMB_ALERT SERIRQ IN 3 3V 2 4 12 Nano SIM Card Socket CN19 Pin Pin Name Signal Type Signal Level 1 UIM_PWR PWR 2 UIM_RST IN 3 UIM_CLK IN 4 NC 5 GND GND 6 UIM_VPP PWR 7 UIM_DATA I O 8 NC ...

Page 39: ... USB 2 0 Port 5 Port 6 Dual Header CN21 USB Port 5 USB Port 6 Pin Pin Name Pin Pin Name 1 5VSB 0 5A 2 5VSB 0 5A 3 USB5_D 4 USB6_D 5 USB5_D 6 USB6_D 7 GND 8 GND 9 GND 10 GND 2 4 14 CPU Fan CN23 Pin Pin Name Signal Type Signal Level 1 GND GND 2 FAN_POWER PWR 12V at 1A 3 FAN_TAC IN 4 FAN_CTL ...

Page 40: ... CN26 Pin Pin Name Signal Type Signal Level 1 5VSB PWR 5V at 0 9A 2 USB0_D DIFF 3 USB0_D DIFF 4 GND GND 5 USB0_SSRX DIFF 6 USB0_SSRX DIFF 7 GND GND 8 USB0_SSTX DIFF 9 USB0_SSTX DIFF 10 5VSB PWR 5V at 0 9A 11 USB1_D DIFF 12 USB1_D DIFF 13 GND GND 14 USB1_SSRX DIFF 15 USB1_SSRX DIFF 16 GND GND 17 USB1_SSTX DIFF 18 USB1_SSTX DIFF ...

Page 41: ...Pin Pin Name 1P1 LAN2_MDI0_P 2P1 LAN1_MDI0_P 1P2 LAN2_MDI0_N 2P2 LAN1_MDI0_N 1P3 LAN2_MDI1_P 2P3 LAN1_MDI1_P 1P4 LAN2_MDI1_N 2P4 LAN1_MDI1_N 1P7 LAN2_MDI2_P 2P7 LAN1_MDI2_P 1P8 LAN2_MDI2_N 2P8 LAN1_MDI2_N 1P9 LAN2_MDI3_P 2P9 LAN1_MDI3_P 1P10 LAN2_MDI3_N 2P10 LAN1_MDI3_N 2 4 17 DP Connector CN28 Pin Pin Name Signal Type Signal Level 1 DP1_TX0_DP DIFF 2 GND GND ...

Page 42: ...Signal Type Signal Level 3 DP1_TX0_DN DIFF 4 DP1_TX1_DP DIFF 5 GND GND 6 DP1_TX1_DN DIFF 7 DP1_TX2_DP DIFF 8 GND GND 9 DP1_TX2_DN DIFF 10 DP1_TX3_DP DIFF 11 GND GND 12 DP1_TX3_DN DIFF 13 GND GND 14 GND GND 15 DP1_AUX_DP I O 16 GND GND 17 DP1_AUX_DN I O 18 DP1_HPD I O 19 GND GND 20 V3P3S PWR 3 3V ...

Page 43: ...Connector CN29 Pin Pin Name Signal Type Signal Level DP Port 1 DP2_TX0_DP DIFF 2 GND GND 3 DP2_TX0_DN DIFF 4 DP2_TX1_DP DIFF 5 GND GND 6 DP2_TX1_DN DIFF 7 DP2_TX2_DP DIFF 8 GND GND 9 DP2_TX2_DN DIFF 10 DP2_TX3_DP DIFF 11 GND GND 12 DP2_TX3_DN DIFF 13 GND GND 14 GND GND 15 DP2_AUX_DP I O 16 GND GND ...

Page 44: ...UX_DN I O 18 DP2_HPD I O 19 GND GND 20 V3P3S PWR 3 3V HDMI Port 21 HDMI_TX2 DIFF 22 GND GND 23 HDMI_TX2 DIFF 24 HDMI_TX1 DIFF 25 GND GND 26 HDMI_TX1 DIFF 27 HDMI_TX0 DIFF 28 GND GND 29 HDMI_TX0 DIFF 30 HDMI_CLK DIFF 31 GND GND 32 HDMI_CLK DIFF 33 NC 34 NC 35 DDC_CLK I O 5V 36 DDC_DATA I O 5V 37 GND GND 38 5V PWR 5V 39 HDMI_HPD ...

Page 45: ...e Signal Level A1 GND GND GND A2 TCP2_TX0_DP DIFF A3 TCP2_TX0_DN DIFF A4 5VSB PWR 5V A5 CON_CC1 IN A6 USB2_8_DP DIFF A7 USB2_8_DN DIFF A8 CONN_TYPEC1_SBU1 DIFF A9 5VSB PWR 5V A10 TCP2_TXRX1_DN DIFF A11 TCP2_TXRX1_DP DIFF A12 GND GND GND B1 GND GND GND B2 TCP2_TX1_DP DIFF B3 TCP2_TX1_DN DIFF B4 5VSB PWR 5V B5 CONN_TYPEC1_CC2 IN ...

Page 46: ...Signal Type Signal Level B6 USB2_8_DP DIFF B7 USB2_8_DN DIFF B8 CONN_TYPEC1_SBU2 DIFF B9 5VSB PWR 5V B10 TCP2_TXRX0_DN DIFF B11 TCP2_TXRX0_DP DIFF B12 GND GND GND Note Type C Power current support 5V 3A 2 4 20 Battery Connector CN31 Pin Pin Name Signal Type Signal Level 1 3 3V PWR 3 3V 2 GND GND ...

Page 47: ... Compact Embedded System GENESYSM TGU6 2 4 21 SPI BIOS Debug Port CN32 Pin Pin Name Signal Type Signal Level 1 SPI_MISO OUT 2 GND GND 3 SPI_CLK IN 4 3 3VSB PWR 3 3V 5 SPI_MOSI IN 6 SPI_CS IN 7 NC P IN 1 P IN 2 P IN 3 P IN 4 P IN 5 P IN 6 P IN 7 ...

Page 48: ...ations 2 4 23 USB3 2 Gen 2 Ports 3 4 Dual Connector CN35 Pin Pin Name Signal Type Signal Level 1 5VSB PWR 5V at 0 9A 2 USB2_D DIFF 3 USB2_D DIFF 4 GND GND 5 USB2_SSRX DIFF 6 USB2_SSRX DIFF 7 GND GND 8 USB2_SSTX DIFF 9 USB2_SSTX DIFF 10 5VSB PWR 5V at 0 9A 11 USB3_D DIFF 12 USB3_D DIFF 13 GND GND 14 USB3_SSRX DIFF 15 USB3_SSRX DIFF ...

Page 49: ... System GENESYSM TGU6 Pin Pin Name Signal Type Signal Level 16 GND GND 17 USB3_SSTX DIFF 18 USB3_SSTX DIFF 2 4 24 i219 LED Connector CN36 Pin Pin Name Signal Type Signal Level 1 LINK_ACT IO 2 V3P3A PWR 3 3V 3 LAN_1000 IO 4 LAN_100 IO 5 LAN_100 IO 6 LAN_1000 IO ...

Page 50: ...nformation 36 GENESYSM Compact Embedded System GENESYSM TGU6 2 4 25 i225 i226 LED Connector CN37 Pin Pin Name Signal Type Signal Level 1 LINK_ACT IO 2 V3P3A PWR 3 3V 3 LAN_2500 IO 4 LAN_1000 IO 5 LAN_1000 IO 6 LAN_2500 IO ...

Page 51: ...rough each step before beginning installation and to make sure you have all necessary tools and components 2 5 1 Accessing the Bottom Panel For this process you will need a Phillips head screwdriver Step 1 Remove the two black screws securing the bottom panel Step 2 The bottom panel will lift up and swing toward the rear panel of the system then can be removed Note Be careful when opening if you h...

Page 52: ...Chapter 2 Hardware Information 38 GENESYSM Compact Embedded System GENESYSM TGU6 ...

Page 53: ...allation Before you begin make sure you have the RAM module s you wish to install ready Step 1 Insert the RAM module in the DDR SO DIMM Slot CN7 at about 45 angle then gently press down until it is secured by the tabs Step 2 Repeat for the second DDR module in Slot CN11 Memory Slot CN7 Memory Slot CN11 ...

Page 54: ...nning make sure you have the following prepared SATA Drive x 1 Black Screws x 4 to mount 2 5 drive SATA Cable x 1 SATA Power Cable x 1 Phillips head screwdriver Please note the location of the SATA Port CN2 and SATA Power connector CN1 Step 1 Connect the SATA and SATA Power cables to the 2 5 drive SATA Port CN2 SATA Power CN1 ...

Page 55: ...NESYSM Compact Embedded System GENESYSM TGU6 Step 2 Line up the mounting holes on the SATA drive with the four mounting points on the bottom panel Note the orientation of the cables Step 3 Secure the drive with four black mounting screws ...

Page 56: ...ed System GENESYSM TGU6 Step 4 Insert the SATA Cable into CN2 and SATA Power Cable into CN1 If you are finished with hardware installation replace the back panel and secure with two black screws Otherwise continue to the next section for COM Port installation ...

Page 57: ...ort Connector with cables x 1 Jack standoffs x 4 two included with each COM Port Connector Phillips head screwdriver Note This procedure will require opening both the top and bottom panels Take care if you have already installed the 2 5 SATA drive Please note the location of the COM Port 1 Port 2 Dual Port Header CN13 connector and knockouts COM Port 1 Port 2 Dual Port Header CN13 ...

Page 58: ...edded System GENESYSM TGU6 Step 1 Hand loosen the spring mounted case screws securing the top panel to the rear panel of the system The top panel will swing open towards the front panel Step 2 Remove the COM Port knockouts by pushing with a finger or tool ...

Page 59: ...mation 45 GENESYSM Compact Embedded System GENESYSM TGU6 Step 3 Fasten the COM Port Connectors to the appropriate knockouts using the four jack standoffs Then feed the cables around the side of the heatsink and board as shown ...

Page 60: ...ully route the cables around the board and connect to the appropriate board connector It may help to do each cable one at a time to ensure the ports are connected correctly Step 5 Reattach the bottom panel and secure with two black screws Then close and secure the top panel with the spring attached thumb screws COM Port Connector ...

Page 61: ...ning ensure all panels on the system are secured Then make sure you have to following components ready Wallmount brackets x 2 Black screws x 4 two for each bracket Phillips head screwdriver Line up the brackets with the four open holes on the bottom panel of the system as shown then secure brackets with the four screws ...

Page 62: ...beginning ensure all panels on the system are secured Then make sure you have to following components ready Silver screws with washers x 4 rounded head VESA Mount screws x 2 head is flat VESA Mount x 1 Phillips head screwdriver Insert VESA mount screws into the two empty holes on the bottom panel of the system as shown ...

Page 63: ...em can now be attached to the VESA bracket Mount the bracket to a surface or the back of a display monitor with VESA attachment points Use the four silver screws with washers to secure the bracket to the back of the monitor with the arrow pointing up Then attach the system to the VESA mount ...

Page 64: ...GENESYSM Compact Embedded System GENESYSM TGU6 Chapter 3 Chapter 3 AMI BIOS Setup ...

Page 65: ...configuration against the values stored in the CMOS memory and BIOS NVRAM If a system configuration is not found or an error is detected the module will load the default configuration and reboot automatically There are four situations in which you will need to setup system configuration 1 You are starting your system for the first time 2 You have changed the hardware attached to your system 3 The ...

Page 66: ...To enter BIOS Setup press Del or ESC immediately while your computer is powering up The function for each interface can be found below Main Date and time can be set here Press Tab to switch between date elements Advanced Access advanced hardware settings and Hardware Monitor System I O Configure I O settings including PCI Express and storage options Security Set admin and user passwords access sec...

Page 67: ...Chapter 3 AMI BIOS Setup 53 GENESYSM Compact Embedded System GENESYSM TGU6 3 3 Setup Submenu Main ...

Page 68: ...Injection feature the user acknowledges the security risks Enabling Error Injection allows attackers who have access to the Host Operating System to inject IBECC errors that can cause unintended memory corruption and enable the leak of security data in the BIOS stolen memory regions In Band ECC Operation Mode 0 1 2 Optimal Default Failsafe Default 0 Functional Mode protects requests based on the a...

Page 69: ... 7 Note In Band ECC Support availability depends on CPU 3 4 1 CPU Configuration Options Summary Intel VMX Virtualization Technology Disabled Enabled Optimal Default Failsafe Default When enabled a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology Intel R SpeedStep tm Disabled Enabled Optimal Default Failsafe Default Allows more than two frequency ranges to be s...

Page 70: ...ENESYSM Compact Embedded System GENESYSM TGU6 Options Summary Turbo Mode Disabled Enabled Optimal Default Failsafe Default Enable Disable processor Turbo Mode requires EMTTM enabled too AUTO means enabled 3 4 2 Memory Configuration ...

Page 71: ...Chapter 3 AMI BIOS Setup 57 GENESYSM Compact Embedded System GENESYSM TGU6 3 4 3 Hardware Monitor Options Summary Smart Fan Disabled Enabled Optimal Default Failsafe Default Enable or Disable Smart Fan ...

Page 72: ...ut PWM mode push pull to control 4 wire fans nLinear fan application circuit to control 3 wire fan speed by fan s power terminal nOutput PWM mode open drain to control Intel 4 wire fans Fan 1 Smart Fan Control Manual Duty Mode Auto Duty Cycle Mode Optimal Default Failsafe Default Smart Fan Mode Select Temperature Source CPU Optimal Default Failsafe Default System Temperature 2 System Temperature S...

Page 73: ...mary Duty Cycle Auto fan speed control Fan speed will follow different temperature by different duty cycle 1 100 Temperature Manual Duty Mode Options Summary Manual Duty Mode 60 Optimal Default Failsafe Default Manual mode fan control user can write expected duty cycle PWM fan type 1 100 ...

Page 74: ...Chapter 3 AMI BIOS Setup 60 GENESYSM Compact Embedded System GENESYSM TGU6 3 4 4 PCH FW Configuration ...

Page 75: ...TGU6 3 4 4 1 Firmware Update Configuration Options Summary Me FW Image Re Flash Disabled Optimal Default Failsafe Default Enabled Enable Disable Me FW Image Re Flash function FW Update Disabled Enabled Optimal Default Failsafe Default Enable Disable ME FW Update function ...

Page 76: ...store AC Power Loss Last State Optimal Default Failsafe Default Always On Always Off IO Restore AC power Loss RTC wake system from S5 Disable Optimal Default Failsafe Default Fixed Time Dynamic Time Bypass Fixed Time System will wake on the hr min sec specified n Dynamic Time System will wake on the current time Increase minute s n Bypass BIOS will not control RTC wake function during system shutd...

Page 77: ...T Timer second 30 Optimal Default Failsafe Default Timer count set to Watch Dog Timer for POST WARNING Do not set to a value equal to or shorter than normal POST time otherwise system may never complete POST unless clearing BIOS settings More than twice the normal POST time is suggested Sends watch dog before booting OS Disabled Optimal Default Failsafe Default Enabled Enabled Robot set Watch Dog ...

Page 78: ...obot to hold BIOS from POST Delayed POST DXE phase Disabled Optimal Default Failsafe Default Enabled Enabled Robot holds BIOS before POST completion This allows BIOS POST to start with stable power or start after system is physically warmed up Note Robot does this after Sends watch dog before BIOS POST Delayed time second 10 Optimal Default Failsafe Default Period of time for Robot to hold BIOS fr...

Page 79: ...Default Hard Select reset type robot should send on each boot Retry Count 3 Optimal Default Failsafe Default Fill retry counter here Robot will reset system at most counter times and then let system continue its POST At time After show logo Optimal Default Failsafe Default Before show logo Select robot action time After show logo Robot will do action after logo is displayed System devices are almo...

Page 80: ... 10 Optimal Default Failsafe Default Fill hold time out here Robot will hold system no longer then time out value and then let system continue its POST At time After show logo Optimal Default Failsafe Default Before show logo Select robot action time After show logo Robot will do action after logo is displayed System devices are almost ready Before show logo Robot will do action earlier before log...

Page 81: ...ed System GENESYSM TGU6 3 4 6 1 1 Device Detecting Configuration Interface Disabled Options Summary Interface Disabled Optimal Default Failsafe Default PCI DIO SMBUS Legacy I O Super I O MMIO Select interface robot should use to communicate with device ...

Page 82: ...al Default Failsafe Default Fill FUNCTION number to a PCI device in hexadecimal Range 0 FF Device is Is not Optimal Default Failsafe Default Select that robot should or should not do action if condition met In condition Present Optimal Default Failsafe Default Specified register data Select the condition that robot should check for device Present device is detected According to register Robot read...

Page 83: ...d below Register offset 0 Optimal Default Failsafe Default Fill register offset or index for robot to read in hexadecimal Range 0 FF Bit offset 0 Optimal Default Failsafe Default Fill bit offset for register for robot to compare with bit value Bit value Low Optimal Default Failsafe Default High Fill bit value for robot to compare register bit with specified offset Byte value 0 Optimal Default Fail...

Page 84: ... if condition met DIO pin number DIO1 Optimal Default Failsafe Default DIO Fill DIO pin number 0 DIO0 1 DIO1 and so on For COM express product 0 3 GPI0 3 4 7 GPO0 3 Device is Is not Optimal Default Failsafe Default Select that robot should or should not do action if condition met In High Low level Low Optimal Default Failsafe Default High Select High Low level of the DIO pin that robot should do a...

Page 85: ...ion met In condition Present Optimal Default Failsafe Default Specified register data Select the condition that robot should check for device Present device is detected According to register Robot read register according to configuration Note Device will be considered Present by Robot when data read from device is not 0xFF Register data is bitwise equal to Optimal Default Failsafe Default bytewise...

Page 86: ... bit value Bit value Low Optimal Default Failsafe Default High Fill bit value for robot to compare register bit with specified offset Byte value 0 Optimal Default Failsafe Default Fill a byte value for robot to compare register data with in hexadecimal Range 0 FF Interface Legacy I O Options Summary I O Address 0 Optimal Default Failsafe Default Fill I O address device is responding to Range 0 FFF...

Page 87: ...evice is not 0xFF Register data is bitwise equal to Optimal Default Failsafe Default bytewise equal to bytewise lesser than bytewise larger than Select how robot should compare data read from register to a value configured below Bit offset 0 Optimal Default Failsafe Default Fill bit offset for register for robot to compare with bit value Bit value Low Optimal Default Failsafe Default High Fill bit...

Page 88: ...In condition Present Optimal Default Failsafe Default Specified register data Select the condition that robot should check for device Present device is detected According to register Robot read register according to configuration Note Device will be considered Present by Robot when data read from device is not 0xFF Register data is bitwise equal to Optimal Default Failsafe Default bytewise equal t...

Page 89: ...alue Bit value Low Optimal Default Failsafe Default High Fill bit value for robot to compare register bit with specified offset Byte value 0 Optimal Default Failsafe Default Fill a byte value for robot to compare register data with in hexadecimal Range 0 FF Interface MMIO Options Summary MMIO Address 0 Optimal Default Failsafe Default Fill Memory Mapped I O address device is responding to Range 0 ...

Page 90: ...evice is not 0xFF Register data is bitwise equal to Optimal Default Failsafe Default bytewise equal to bytewise lesser than bytewise larger than Select how robot should compare data read from register to a value configured below Bit offset 0 Optimal Default Failsafe Default Fill bit offset for register for robot to compare with bit value Bit value Low Optimal Default Failsafe Default High Fill bit...

Page 91: ... Timed TSN PCS Disabled Optimal Default Failsafe Default Enabled Enable Disable TSN PCS When enabled TSN PCS device will appear in ACPI table PCH TSN Multi Vc Disabled Optimal Default Failsafe Default Enabled Enable Disable PCH TSN Multi Virtual Channels PCH TSN Port 1 Link Speed RefClk 24Mhz 2 5Gbps RefClk 24Mhz 1Gbps Optimal Default Failsafe Default RefClk 38 4Mhz 2 5Gbps RefClk 38 4Mhz 1Gbps PC...

Page 92: ...Chapter 3 AMI BIOS Setup 78 GENESYSM Compact Embedded System GENESYSM TGU6 3 5 Setup Submenu System I O ...

Page 93: ...SM TGU6 3 5 1 PCI Express Configuration Options Summary PCI Express Root Port 5 CN12 Port11 Enabled Optimal Default Failsafe Default Disabled Control the PCI Express Root Port PCIe Speed Auto Optimal Default Failsafe Default Gen1 Gen2 Gen3 Control the PCI Express Speed ...

Page 94: ...tion Options Summary SATA Controller s Disabled Enabled Optimal Default Failsafe Default Enable Disable SATA Device Port 0 1 Disabled Enabled Optimal Default Failsafe Default Enable or Disable SATA Port Hot Plug Disabled Optimal Default Failsafe Default Enabled Designates this port as Hot Pluggable ...

Page 95: ...Chapter 3 AMI BIOS Setup 81 GENESYSM Compact Embedded System GENESYSM TGU6 3 5 2 1 NVMe Configuration ...

Page 96: ...NESYSM TGU6 3 5 3 HD Audio Subsystem Configuration Settings Options Summary HD Audio Disabled Enabled Optimal Default Failsafe Default Control Detection of the HD Audio device Disabled HDA will be unconditionally disabled Enabled HDA will be unconditionally enabled ...

Page 97: ...Chapter 3 AMI BIOS Setup 83 GENESYSM Compact Embedded System GENESYSM TGU6 3 5 4 Legacy Logical Devices Configuration ...

Page 98: ...al Default Failsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 3F8h IRQ 4 IO 2F8h IRQ 3 Allows user to change Device s Resource settings New settings will be reflected on This Setup Page after System restarts Mode RS232 Optimal Default Failsafe Default RS422 RS485 UART RS232 422 485 selection ...

Page 99: ...al Default Failsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 2F8h IRQ 3 IO 3F8h IRQ 4 Allows user to change Device s Resource settings New settings will be reflected on This Setup Page after System restarts Mode RS232 Optimal Default Failsafe Default RS422 RS485 UART RS232 422 485 selection ...

Page 100: ...6 3 5 5 Serial Port Console Redirection Options Summary Console Redirection Disabled Optimal Default Failsafe Default Enabled Console Redirection Enable or Disable Console Redirection EMS Disabled Optimal Default Failsafe Default Enabled Console Redirection Enable or Disable ...

Page 101: ...ended ASCII char set VT100 ASCII char set VT100 Extends VT100 to support color function keys etc VT UTF8 Uses UTF8 encoding to map Unicode chars onto 1 or more bytes Bits Per second 9600 19200 38400 57600 115200 Optimal Default Failsafe Default Selects serial port transmission speed The speed must be matched on the other side Long or noisy lines may require lower speeds Data Bits 7 8 Optimal Defau...

Page 102: ...ices may require more than 1 stop bit Flow Control None Optimal Default Failsafe Default Hardware RTS CTS Flow control can prevent data loss from buffer overflow When sending data if the receiving buffers are full a stop signal can be sent to stop the data flow Once the buffers are empty a start signal can be sent to re start the flow Hardware flow control uses two wires to send start stop signals...

Page 103: ...Setup 89 GENESYSM Compact Embedded System GENESYSM TGU6 3 5 6 PCH IO Configuration Options Summary MiniCard Slot Function SATA Optimal Default Failsafe Default PCIe Select function enabled for Full size MiniCard Slot CN10 ...

Page 104: ... up or when the user enters the Setup utility A User Password does not provide access to many of the features in the Setup utility Select the password you wish to set and press Enter In the dialog box enter your password must be between 3 and 20 letters or numbers Press Enter and retype your password to confirm Press Enter again to set the password Removing the Password Select the password you wan...

Page 105: ...ity Device TCG EFI protocol and INT1A interface will not be available SHA 1 PCR Bank Disable Enable Optimal Default Failsafe Default Enable or Disable SHA 1 PCR Bank SHA256 PCR Bank Disable Enable Optimal Default Failsafe Default Enable or Disable SHA256 PCR Bank Pending Operation None Optimal Default Failsafe Default TPM Clear Schedule an Operation for the Security Device NOTE Your Computer will ...

Page 106: ...Endorsement Hierarchy Disabled Enabled Optimal Default Failsafe Default Enable or Disable Endorsement Hierarchy TPM2 0 UEFI Spec Version TCG_1_2 TCG_2 Optimal Default Failsafe Default Select the TCG2 Spec Version Support TCG_1_2 The Compatible mode for Win8 Win10 TCG_2 Support new TCG2 protocol and event format for Win10 or later Physical Presence Spec Version 1 2 1 3 Optimal Default Failsafe Defa...

Page 107: ...the System is in User mode The mode change requires platform reset Secure Boot Mode Custom Optimal Default Failsafe Default Standard Secure Boot mode options Standard or Custom In Custom mode Secure Boot Policy variables can be configured by a physically present user without full authentication Restore Factory Keys Force System to User Mode Install factory default Secure Boot key databases Reset T...

Page 108: ...System GENESYSM TGU6 3 7 Setup Submenu Boot Options Summary Quiet Boot Disabled Enabled Optimal Default Failsafe Default Enables or disables showing boot logo Network Stack Disabled Optimal Default Failsafe Default Enabled Enable Disable UEFI Network Stack ...

Page 109: ...Chapter 3 AMI BIOS Setup 95 GENESYSM Compact Embedded System GENESYSM TGU6 3 7 1 BBS Priorities ...

Page 110: ...Chapter 3 AMI BIOS Setup 96 GENESYSM Compact Embedded System GENESYSM TGU6 3 8 Setup Submenu Save Exit ...

Page 111: ...GENESYSM Compact Embedded System GENESYSM TGU6 Chapter 4 Chapter 4 Driver Installation ...

Page 112: ...pen the folder where you unzipped the Audio Drivers 2 Run the Setup exe in the folder 3 Follow the instructions 4 Drivers will be installed automatically Chipset Driver Windows 10 1 Open the folder where you unzipped the Chipset Drivers 2 Run the SetupChipset exe file in the folder 3 Follow the instructions 4 Drivers will be installed automatically Graphics Driver Windows 10 1 Open the folder wher...

Page 113: ...omatically 6 After installing the LAN driver install Intel PROSet package optional 7 Open the Wired_PROSet_26 3_x64 folder 8 Run the Wired_PROSet_26 3_x64 exe file in the folder 9 Follow the instructions 10 Drivers will be installed automatically ME TXE Drivers Windows 10 1 Open the folder where you unzipped the ME TXE Drivers 2 Run the SetupME exe file in the folder 3 Follow the instructions 4 Dr...

Page 114: ... Run the Setup exe file in the folder 3 Follow the instructions 4 Drivers will be installed automatically Peripheral Driver Linux 1 Open the folder where you unzipped the Peripheral Drivers 2 Follow the instructions contained within the user guides Touch Drivers Linux 1 Touch Drivers can be installed via terminal or through the graphical UI if you have one installed ...

Page 115: ...GENESYSM Compact Embedded System GENESYSM TGU6 Appendix A Appendix A I O Information ...

Page 116: ...Appendix A I O Information 102 GENESYSM Compact Embedded System GENESYSM TGU6 A 1 I O Address Map ...

Page 117: ...Appendix A I O Information 103 GENESYSM Compact Embedded System GENESYSM TGU6 A 2 Memory Address Map ...

Page 118: ...Appendix A I O Information 104 GENESYSM Compact Embedded System GENESYSM TGU6 ...

Page 119: ...Appendix A I O Information 105 GENESYSM Compact Embedded System GENESYSM TGU6 A 3 IRQ Mapping Chart ...

Page 120: ...Appendix A I O Information 106 GENESYSM Compact Embedded System GENESYSM TGU6 ...

Page 121: ...GENESYSM Compact Embedded System GENESYSM TGU6 Appendix B Appendix B Mating Connectors and Cables ...

Page 122: ...505318 SATA Cable 1709070460 CN3 9 36V Vin Connector N A N A Power Cable 170204010R CN5 Audio Connector ACES 50247 012H0 H0 001 Audio Cable 170X000517 CN6 External 5VSB Power Input and PS_ON JST PHR 3 ATX Cable 170220020B CN13 COM Port 1 2 Connector ACES 50247 020H0 H0 001 Serial Port Cable 170X000508 CN16 I2C SM BUS Debug Connector Molex 51021 1200 I2C SM BUS Cable 1703120130 CN21 USB Port Connec...

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