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Chapter 2 

 

Chapter  2 

 

Hardware  Information 

 
 

Summary of Contents for AAEON BOXER-6645-ADS

Page 1: ...Last Updated October 24 2022 BOXER 6645 ADS Fanless Embedded Box PC User s Manual 1st Ed ...

Page 2: ...vided 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 document to...

Page 3: ...a registered trademark of Intel Corporation Intel Core is a trademark of Intel Corporation Linux is a registered trademark of Linus Torvalds in the U S and other countries Ubuntu and Canonical are registered trademarks of Canonical Ltd All other product names or trademarks are properties of their respective owners The publisher of this document does not assume nor imply ownership of any trademarke...

Page 4: ...ct please make sure the following items have been shipped Item Quantity BOXER 6645 ADS 1 Wallmount bracket 2 3 Pin DC In Power Connector 1 Remote ON OFF Connector 1 Screw Package 1 If any of these items are missing or damaged please contact your distributor or sales representative immediately ...

Page 5: ...ailed 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: ...by transient over voltage 7 Always disconnect this device from any power 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 the ...

Page 7: ... uncontrolled environment with temperatures beyond the device s permitted storage temperatures see chapter 1 to prevent damage 19 Do NOT disassemble the motherboard so as not to damage the system or void your warranty 20 If the thermal pad had been damaged please contact AAEON s salesperson to purchase a new one Do NOT use those of other brands 21 The Hex Cylinder Coppers on the front panel are no...

Page 8: ...f 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 équivalen...

Page 9: ...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 外壳 中央处理器 与内存 硬盘 液晶模块 光驱 触控模块 电源 电池 本表格依据 SJ T 11364 的规定编制 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 GB T 26572标准规定的限量要求以下 表示该有害物质的某一均质材料超出了GB T 26572的限量要求 然而该 部件 仍符合欧盟指令2011 65 EU 的规范 备注 一 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 二 上述部件物质中央处理器 内存 硬盘 光驱 电源为选购品 三 上述部件物质液晶模块 触控模块仅一体机产品适用 ...

Page 10: ...O O O PSU X O O O O O Battery X O O O O O This form is prepared in compliance with the provisions of SJ T 11364 O The level of toxic or hazardous materials present in this component and its parts is below the limit specified by GB T 26572 X The level of toxic of hazardous materials present in the component exceed the limits specified by GB T 26572 but is still in compliance with EU Directive 2011 ...

Page 11: ...x4 Slot CN1 13 2 4 2 HDMI Port CN3 16 2 4 3 DP Dual Port CN4 18 2 4 4 LAN RJ 45 DUAL USB 3 2 CN5 20 2 4 5 LAN RJ 45 DUAL USB 3 2 CN6 22 2 4 6 LAN RJ 45 DUAL USB 3 2 CN7 24 2 4 7 LAN RJ 45 DUAL USB 3 2 CN8 26 2 4 8 M 2 3052 B Key Slot CN9 28 2 4 9 SIM Slot CN10 30 2 4 10 M 2 2230 E Key Slot CN11 30 2 4 11 Remote Button Connector CN13 31 2 4 12 SPI Flash Port CN14 31 2 4 13 Debug Card Connector CN15...

Page 12: ...tallation 46 2 7 2 5 SATA Drive Installation 48 Chapter 3 AMI BIOS Setup 51 3 1 System Test and Initialization 52 3 2 AMI BIOS Setup 53 3 3 Setup Submenu Main 54 3 4 Setup Submenu Advanced 55 3 4 1 CPU Configuration 56 3 4 2 Memory Configuration 57 3 4 3 PCH FW Configuration 58 3 4 3 1 Firmware Update Configuration 59 3 4 4 Hardware Monitor 60 3 4 5 Smart Fan Mode Configuration 61 3 4 5 1 Fan 1 Sm...

Page 13: ... Serial Port 6 85 3 5 5 Serial Port Console Redirection 86 3 5 5 1 Console Redirection Settings COM0 87 3 5 5 2 Console Redirection Settings Out of Band Mgmt Port 89 3 6 Setup Submenu Security 91 3 6 1 Trusted Computing 92 3 6 2 Secure Boot 93 3 6 2 1 Key Management 94 3 7 Setup Submenu Boot 96 3 7 1 UEFI BBS Priorities 97 3 8 Setup Submenu Save Exit 98 3 9 Setup Submenu MEBx 99 Chapter 4 Drivers ...

Page 14: ...Fanless Embedded Box PC BOXER 6645 ADS Chapter 1 Chapter 1 Product Specifications ...

Page 15: ...o 64GB Display Interface HDMI 1 4b x 2 DP1 4a x 2 Storage SATA III x 2 A2 SKU supports RAID 0 1 M 2 2280 M Key for NVMe SSD x 1 A2 SKU only Ethernet Intel I210AT 10 100 1000 Base TX x 2 Intel I219LM 10 100 1000 Base TX x 1 Intel I225LM 10 100 1000 Base TX x 1 I O USB 3 2 Gen 2 x 4 A1 SKU 5Gbps USB 3 2 Gen 2 x 8 A2 SKU 10Gbps USB 2 0 x 4 A1 SKU Audio x 1 Mic in Line out DB 9 x 6 for RS 232 422 485 ...

Page 16: ...DD LED x 1 OS Support Windows 10 IoT Ent LTSC 64 bit Windows 11 Pro Linux Ubuntu 20 04 Kernel 15 5 or above Power Supply Power Requirement 3 pin DC Input 12 24V Mechanical Mounting Wallmount Dimensions W x H x D 10 39 x 3 8 x 7 33 264mm x 80 92mm x 186 2mm Gross Weight 11 6 lb 5 3 kg Net Weight 9 4 lb 4 3 kg ...

Page 17: ... 20 C 50 C IEC68 2 with 0 5 m s AirFlow with Wide Temperature Memory Storage Storage Temperature 40 F 176 F 40 C 80 C Storage Humidity 5 95 40 C non condensing Anti Vibration 3 Grms 5 500Hz operation SSD 1 Grms 5 500Hz operation HDD Anti Shock 50G IEC68 2 27 half sine 11ms duration with SSD Certification CE FCC Class A ...

Page 18: ...Fanless Embedded Box PC BOXER 6645 ADS Chapter 2 Chapter 2 Hardware Information ...

Page 19: ...Chapter 2 Hardware Information 6 Fanless Embedded Box PC BOXER 6645 ADS 2 1 Dimensions ...

Page 20: ...Chapter 2 Hardware Information 7 Fanless Embedded Box PC BOXER 6645 ADS 2 2 Jumpers and Connectors Note Board dimensions are 8 85 x 7 14 x 0 07 225mm x 181 5mm x 1 8mm Top ...

Page 21: ...Chapter 2 Hardware Information 8 Fanless Embedded Box PC BOXER 6645 ADS Bottom M 2 Key location ...

Page 22: ...o open or closed or by selecting certain pins A closed jumper has two pins connected with a jumper clip while an open jumper has no pins connected For jumpers with multiple pins this guide uses pins A B to notate which pins should be connected by a jumper clip For example pins 1 2 means you should connect pins 1 and 2 while pins 2 3 means you should connect pins 2 and 3 A pair of needle nose plier...

Page 23: ...ed Box PC BOXER 6645 ADS 2 3 2 Clear CMOS Jumper JP1 Normal Default Clear CMOS 2 3 3 Auto Power Button Selection JP3 ATX default AT Note Disable Auto Power Button JP1 1 2 Need to use power button JP1 1 2 to power on the system 1 2 3 1 2 3 1 2 3 1 2 3 ...

Page 24: ... 2 x 2 Connector CN6 LAN USB 3 2 x 2 Connector CN7 LAN USB 3 2 x 2 Connector CN8 LAN USB 3 2 x 2 Connector CN9 M 2 3052 B Key Slot CN10 SIM Slot CN11 M 2 2230 E Key Slot CN13 Remove Button CN14 SPI Flash Port CN15 eSPI Port CN16 SATA1 CN17 SATA2 CN18 SATA PWR Connector CN19 SATA PWR Connector CN20 DIO Wafer Box CN22 COM 1 COM 2 Connector RS232 RS422 RS485 CN23 COM 3 COM 4 Connector RS232 RS422 RS4...

Page 25: ...ction CN27 USB 2 0 Header Optional CN28 Audio Connector CN29 Audio Wafer Optional CN30 Phoenix Connector Power Input CN31 M 2 2280 M Key Slot CN32 Fan Connector CN33 COM 5 Header RS232 RS422 RS485 CN34 COM 6 Header RS232 RS422 RS485 BAT1 RTC Battery SW1 Reset Switch SW2 Power Button ...

Page 26: ...e Signal level A1 PRSNT1 I O A2 12V PWR V12S A3 12V PWR V12S A4 GND GND A5 PCIE_TXN5 DIFF A6 PCIE_TXP5 DIFF A7 PCIE_RXN5 DIFF A8 PCIE_RXP5 DIFF A9 3 3V PWR V3 3S A10 3 3V PWR V3 3S A11 PERST I O A12 GND GND A13 PCIE_x4SLOT_CLK DIFF A14 PCIE_x4SLOT_CLK DIFF A15 GND GND A16 PCIE_RXP24 DIFF A17 PCIE_RXN24 DIFF A18 GND GND ...

Page 27: ...P23 DIFF A22 PCIE_RXN23 DIFF A23 GND GND A24 GND GND A25 PCIE_RXP22 DIFF A26 PCIE_RXP22 DIFF A27 GND GND A28 GND GND A29 PCIE_RXP21 DIFF A30 PCIE_RXN21 DIFF A31 GND GND A32 NC B1 12V PWR V12S B2 12V PWR V12S B3 12V PWR V12S B4 GND GND B5 SMB_CLK I O B6 SMB_DATA I O B7 GND GND B8 V3 3S PWR V3 3S B9 NC B10 3 3Vaux PWR V3 3A B11 WAKE I O B12 NC ...

Page 28: ...evel B13 GND GND B14 PCIE_TXP24 DIFF B15 PCIE_TXN24 DIFF B16 GND GND B17 PRSNT I O B18 GND GND B19 PCIE_TXP23 DIFF B20 PCIE_TXN23 DIFF B21 GND GND B22 GND GND B23 PCIE_TXP22 DIFF B24 PCIE_TXN22 DIFF B25 GND GND B26 GND GND B27 PCIE_TXP21 DIFF B28 PCIE_TXN21 DIFF B29 GND GND B30 NC B31 PRSNT I O B32 GND GND ...

Page 29: ...ndard specification Pin Signal Signal Type Signal Level P1 HDMI1_DATA2_P DIFF P2 GND GND P3 HDMI1_DATA2_N DIFF P4 HDMI1_DATA1_P DIFF P5 GND GND P6 HDMI1_DATA1_N DIFF P7 HDMI1_DATA0_P P8 GND GND P9 HDMI1_DATA0_n P10 HDMI1_CLK_P DIFF P11 GND GND P12 HDMI1_CLK_N DIFF P13 CEC 3 3V P14 NC P15 HDMI1_SCL ...

Page 30: ...D GND P18 V5S_HDMI_CON PWR 5V P19 HDMI1_HPD 5V P20 HDMI2_DATA2_P P21 GND GND P22 HDMI2_DATA2_N P23 HDMI2_DATA1_P P24 GND GND P25 HDMI2_DATA1_N P26 HDMI2_DATA0_P P27 GND GND P28 HDMI2_DATA0_N P29 HDMI2_CLK_P P30 GND GND P31 HDMI2_CLK_N P32 CEC 3 3V P33 NC P34 HDMI2_SCL P35 HDMI2_SDA P36 GND GND P37 V5S_HDMI_CON 5V P38 HDMI2_HPD 5V ...

Page 31: ...n Signal Signal Type Signal Level P1 DP1_DATA0 _P DIFF P2 GND GND P3 DP1_DATA0_N DIFF P4 DP1_DATA1 _P DIFF P5 GND GND P6 DP1_DATA1 _N DIFF P7 DP1_DATA2 _P DIFF P8 GND GND P9 DP1_DATA1 _N DIFF P10 DP1_DATA3 _P DIFF P11 GND GND P12 DP1_DATA3 _N DIFF P13 CONFIG1 P14 CONFIG2 P15 DP1_AUX _P DIFF P16 GND GND P17 DP1_AUX _N DIFF ...

Page 32: ... 3 3V P21 DP2_DATA0 _P DIFF P22 GND GND P23 DP2_DATA0_N DIFF P24 DP2_DATA1 _P DIFF P25 GND GND P26 DP2_DATA1 _N DIFF P27 DP2_DATA2 _P DIFF P28 GND GND P29 DP2_DATA1 _N DIFF P30 DP2_DATA3 _P DIFF P31 GND GND P32 DP2_DATA3 _N DIFF P33 CONFIG1 P34 CONFIG2 P35 DP2_AUX _P DIFF P36 GND GND P37 DP2_AUX _N DIFF P38 DP2_HPD P39 RETURN P40 DP2_PWR PWR 3 3V ...

Page 33: ...ardware Information 20 Fanless Embedded Box PC BOXER 6645 ADS 2 4 4 LAN RJ 45 DUAL USB 3 2 CN5 Pin Signal Signal Type 1 MDI0 DIFF 2 MDI0 DIFF 3 MDI1 DIFF 4 MDI2 DIFF 5 MDI2 DIFF 6 MDI1 DIFF 7 MDI3 DIFF 8 MDI3 DIFF ...

Page 34: ...WR 5V 2 USB1_D DIFF 3 USB1_D DIFF 4 GND GND 5 USB1_SSRX DIFF 6 USB1_SSRX DIFF 7 GND GND 8 USB1_SSTX DIFF 9 USB1_SSTX DIFF 10 5VSB PWR 5V 11 USB2_D DIFF 12 USB2_D DIFF 13 GND GND 14 USB2_SSRX DIFF 15 USB2_SSRX DIFF 16 GND GND 17 USB2_SSTX DIFF 18 USB2_SSTX DIFF 10 Port 1 Port 0 11 12 13 1 2 3 4 14 15 16 17 18 5 6 7 8 9 ...

Page 35: ...ardware Information 22 Fanless Embedded Box PC BOXER 6645 ADS 2 4 5 LAN RJ 45 DUAL USB 3 2 CN6 Pin Signal Signal Type 1 MDI0 DIFF 2 MDI0 DIFF 3 MDI1 DIFF 4 MDI2 DIFF 5 MDI2 DIFF 6 MDI1 DIFF 7 MDI3 DIFF 8 MDI3 DIFF ...

Page 36: ...WR 5V 2 USB3_D DIFF 3 USB3_D DIFF 4 GND GND 5 USB3_SSRX DIFF 6 USB3_SSRX DIFF 7 GND GND 8 USB3_SSTX DIFF 9 USB3_SSTX DIFF 10 5VSB PWR 5V 11 USB4_D DIFF 12 USB4_D DIFF 13 GND GND 14 USB4_SSRX DIFF 15 USB4_SSRX DIFF 16 GND GND 17 USB4_SSTX DIFF 18 USB4_SSTX DIFF 10 Port 1 Port 0 11 12 13 1 2 3 4 14 15 16 17 18 5 6 7 8 9 ...

Page 37: ...ardware Information 24 Fanless Embedded Box PC BOXER 6645 ADS 2 4 6 LAN RJ 45 DUAL USB 3 2 CN7 Pin Signal Signal Type 1 MDI0 DIFF 2 MDI0 DIFF 3 MDI1 DIFF 4 MDI2 DIFF 5 MDI2 DIFF 6 MDI1 DIFF 7 MDI3 DIFF 8 MDI3 DIFF ...

Page 38: ...WR 5V 2 USB5_D DIFF 3 USB5_D DIFF 4 GND GND 5 USB5_SSRX DIFF 6 USB5_SSRX DIFF 7 GND GND 8 USB5_SSTX DIFF 9 USB5_SSTX DIFF 10 5VSB PWR 5V 11 USB6_D DIFF 12 USB6_D DIFF 13 GND GND 14 USB6_SSRX DIFF 15 USB6_SSRX DIFF 16 GND GND 17 USB6_SSTX DIFF 18 USB6_SSTX DIFF 10 Port 1 Port 0 11 12 13 1 2 3 4 14 15 16 17 18 5 6 7 8 9 ...

Page 39: ...ardware Information 26 Fanless Embedded Box PC BOXER 6645 ADS 2 4 7 LAN RJ 45 DUAL USB 3 2 CN8 Pin Signal Signal Type 1 MDI0 DIFF 2 MDI0 DIFF 3 MDI1 DIFF 4 MDI2 DIFF 5 MDI2 DIFF 6 MDI1 DIFF 7 MDI3 DIFF 8 MDI3 DIFF ...

Page 40: ...WR 5V 2 USB7_D DIFF 3 USB7_D DIFF 4 GND GND 5 USB7_SSRX DIFF 6 USB7_SSRX DIFF 7 GND GND 8 USB7_SSTX DIFF 9 USB7_SSTX DIFF 10 5VSB PWR 5V 11 USB8_D DIFF 12 USB8_D DIFF 13 GND GND 14 USB8_SSRX DIFF 15 USB8_SSRX DIFF 16 GND GND 17 USB8_SSTX DIFF 18 USB8_SSTX DIFF 10 Port 1 Port 0 11 12 13 1 2 3 4 14 15 16 17 18 5 6 7 8 9 ...

Page 41: ...in Name Signal Type Pin Pin Name Signal Type Signal level 1 NC 2 3 3V PWR 3 3V 3 GND GND 4 3 3V PWR 3 3V 5 GND GND 6 CARD_PWR_OFF_N OUT 3 3V 7 USB_2 0_P 8 W_DISABLE IN 3 3V 9 USB_2 0_N 10 NC 11 GND GND 12 20 NC 21 NC 22 NC 23 NC 24 NC 25 NC 26 NC 27 GND GND 28 NC 29 USB3_RXN 30 UIM_RST 31 USB3_RXP 32 UIM_CLK ...

Page 42: ...XP 38 NC 39 GND GND 40 NC 41 PCIE_RXN 42 NC 43 PCIE_RXP 44 NC 45 GND GND 46 NC 47 PCIE_TXN 48 NC 49 PCIE_TXP 50 RESET IN 3 3V 51 GND PWR 52 CLKREQ OUT 3 3V 53 PCIE_M 2_CLK OUT 54 WAKE OUT 3 3V 55 PCIE_M 2_CLK OUT 56 NC 57 GND GND 58 NC 59 NC 60 NC 61 NC 62 NC 63 NC 64 NC 65 NC 66 NC 67 RESET 68 SUSCLK 69 NC 70 3 3V PWR 3 3V 71 GND GND 72 3 3V PWR 3 3V 73 GND GND 74 3 3V PWR 3 3V 75 GND GND ...

Page 43: ...mation 30 Fanless Embedded Box PC BOXER 6645 ADS 2 4 9 SIM Slot CN10 Pin Signal Signal Type 1 UIM_PWR PWR 2 UIM_RST IN 3 UIM_CLK IN 4 GND GND 5 UIM_VPP PWR 6 UIM_DATA I O 2 4 10 M 2 2230 E Key Slot CN11 Standard specification ...

Page 44: ...PC BOXER 6645 ADS 2 4 11 Remote Button Connector CN13 Pin Signal Signal Type 1 PWR_BUTTON IN 2 GND GND 2 4 12 SPI Flash Port CN14 Pin Signal 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 8 NC ...

Page 45: ... 2 4 13 Debug Card Connector CN15 Pin Signal Signal Type Signal Level 1 ESPI_IO_0 I O 1 8V 2 ESPI_IO_1 I O 1 8V 3 ESPI_IO_2 I O 1 8V 4 ESPI_IO_3 I O 1 8V 5 3 3V PWR 3 3VS 6 ESPI_IO_CS IN 7 ESPI_IO_RST IN 8 GND GND 9 EPSI_IO_LCLK IN 10 3 3V PWR 3 3VA 11 SMDAT I O 12 SMCLK IN ...

Page 46: ...TA Port CN16 CN17 Pin Signal Signal Type 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 15 SATA PWR Connector CN18 CN19 Pin Signal Signal Type Signal Level 1 12V PWR 12V 2 GND GND 3 GND GND 4 5V PWR 5V Pin 1 Pin 7 12V 1 2 3 4 GND GND 5V ...

Page 47: ... 6645 ADS 2 4 16 Digital IO Port CN20 Pin Signal Signal Type Signal Level 1 DIO0 I O 5V 2 DIO1 I O 5V 3 DIO2 I O 5V 4 DIO3 I O 5V 5 DIO4 I O 5V 6 DIO5 I O 5V 7 DIO6 I O 5V 8 DIO7 I O 5V 9 5V PWR 5V 10 GND GND DIO1 DIO3 DIO5 DIO7 GND DIO0 1 2 9 10 DIO2 DIO4 DIO6 5V ...

Page 48: ... 2 4 18 USB 2 0 Wafer Box 5P Pitch 1 25mm CN24 CN25 CN26 CN27 Pin Signal Signal Type Signal Level 1 5V GND 5V 2 USBD DIFF 3 USBD DIFF 4 GND GND 5 GND GND Pin Pin Name Signal Type RS 422 RS 485 1 DCD IN RS422_TX RS485_D 2 RX IN RS422_TX RS485_D 3 TX OUT RS422_RX 4 DTR OUT RS422_RX 5 GND GND 6 DSR IN 7 RTS OUT 8 CTS IN 9 RI1 IN ...

Page 49: ...rmation 36 Fanless Embedded Box PC BOXER 6645 ADS 2 4 19 Audio Connector CN28 Pin Signal Signal Type 5 AUD_GND GND 24 LOUT_L OUT 21 LOUT_R OUT 2P HP_DET_3 IN 2Q HP_DET_4 IN 14 MIC_L IN 11 MIC_R IN 1P HP_DET_1 IN 1Q HP_DET2 IN ...

Page 50: ... Box PC BOXER 6645 ADS 2 4 20 Audio I O Port 10P pitch 1 25mm CN29 Pin Signal Signal Type Signal Level 1 MIC_L IN 2 MIC_R IN 3 GND_AUDIO GND 4 LINE_L_IN IN 5 LINE_R_IN IN 6 GND_AUDIO GND 7 LEFT_OUT OUT 8 GND_AUDIO GND 9 RIGHT_OUT OUT 10 5V_AUDIO PWR 5V ...

Page 51: ...Chapter 2 Hardware Information 38 Fanless Embedded Box PC BOXER 6645 ADS 2 4 21 DC IN Connector CN30 Pin Signal Signal Type Signal Level 1 VIN PWR 12V 24V 2 GND GND 3 GND_EARTH ...

Page 52: ...GND 2 3 3V PWR 3 3V 3 GND GND 4 3 3V PWR 3 3V 5 PCIE_RXN0 IN 6 CARD_PWR_OFF_N OUT 3 3V 7 PCIE_RXP0 IN 8 NC 9 GND GND 10 NC 11 PCIE_TXN0 OUT 12 3 3V PWR 3 3V 13 PCIE_TXP0 OUT 14 3 3V PWR 3 3V 15 GND PWR 16 3 3V PWR 3 3V 17 PCIE_RXN1 IN 18 3 3V PWR 3 3V 19 PCIE_RXP1 IN 20 NC 21 GND PWR 22 NC 23 PCIE_TXN1 OUT 24 NC 25 PCIE_TXP1 OUT 26 NC 27 GND PWR 28 NC 29 PCIE_RXN2 IN 30 NC ...

Page 53: ...CIE_TXP2 OUT 38 DEVSLP IN 3 3V 39 GND GND 40 SMB_CLK_M2 1 8V 41 PCIE_RXP3 IN 42 SMB_DATA_M2 1 8V 43 PCIE_RXN3 IN 44 NC 45 GND GND 46 NC 47 PCIE_TXN3 OUT 48 NC 49 PCIE_TXP3 OUT 50 RESET IN 3 3V 51 GND PWR 52 CLKREQ OUT 3 3V 53 PCIE_M 2_CLK OUT 54 WAKE OUT 3 3V 55 PCIE_M 2_CLK OUT 56 NC 57 GND GND 58 NC 67 NC 68 NC 69 NC 70 3 3V PWR 3 3V 71 GND GND 72 3 3V PWR 3 3V 73 GND GND 74 3 3V PWR 3 3V 75 GND...

Page 54: ...Chapter 2 Hardware Information 41 Fanless Embedded Box PC BOXER 6645 ADS 2 4 23 Fan Connector CN32 Pin Signal Signal Type Signal Level 1 GND GND 2 V12S PWR 12V 3 FAN_PWM OUT 4 FAN_CTL OUT ...

Page 55: ...mbedded Box PC BOXER 6645 ADS 2 4 24 COM Port 5 Wafer Box Optional CN33 Pin Pin Name Signal Type RS 422 RS 485 1 DCD IN RS422_TX RS485_D 2 DSR IN 3 RX IN RS422_TX RS485_D 4 RTS OUT 5 TX OUT RS422_RX 6 CTS IN 7 DTR OUT RS422_RX 8 RI IN 9 GND GND ...

Page 56: ...mbedded Box PC BOXER 6645 ADS 2 4 25 COM Port 6 Wafer Box Optional CN34 Pin Pin Name Signal Type RS 422 RS 485 1 DCD IN RS422_TX RS485_D 2 DSR IN 3 RX IN RS422_TX RS485_D 4 RTS OUT 5 TX OUT RS422_RX 6 CTS IN 7 DTR OUT RS422_RX 8 RI IN 9 GND GND ...

Page 57: ...the system is powered down and disconnect the power cord from the system Make sure you have the processor ready to install See Chapter 1 Specifications for list of compatible CPU processors Step 1 Remove the screws on the front and back of the BOXER 6645 ADS as shown in the figure below six in total and remove the top heatsink ...

Page 58: ...Chapter 2 Hardware Information 45 Fanless Embedded Box PC BOXER 6645 ADS Step 2 Install the CPU into the socket and place the thermal pad on top of the processor ...

Page 59: ...e RAM ensure the system is powered down and disconnect the power cord from the system Make sure you have the RAM module ready to install See Chapter 1 for RAM requirements and specifications Step 1 Remove the eight 8 screws from the bottom of the BOXER 6645 ADS as shown in the figure below Remove the bottom panel from the system ...

Page 60: ...insert them into the RAM slots Note the figure below for placement of thermal pads When inserting the modules into the RAM slots first insert at an angle 30 then gently push down until secure Step 3 Install the RAM bracket Ensure it is oriented as shown in the figure below Attach the bracket to the chassis using two screws ...

Page 61: ...moved in Step 1 of this section 2 7 2 5 SATA Drive Installation Before installing the SATA Drives ensure the system is powered down and disconnect the power cord from the system Make sure you have the SATA Drive ready to install See Chapter 1 for SATA drive specifications for compatibility Step 1 If you have not already done so remove the eight 8 screws from the bottom of the BOXER 6645 ADS as sho...

Page 62: ...ackets using the screws provided Step 3 Attach the HDD Brackets for each drive to the bottom panel using four 4 screws per drive as shown in the figure below Attach the SATA and SATA Power cables to the board and the SATA drives Step 4 Replace the bottom panel and secure with the eight 8 screws you removed in Step 1 ...

Page 63: ...Chapter 2 Hardware Information 50 Fanless Embedded Box PC BOXER 6645 ADS ...

Page 64: ...Fanless Embedded Box PC BOXER 6645 ADS Chapter 3 Chapter 3 AMI BIOS Setup ...

Page 65: ...ines check the current system configuration against the values stored in the CMOS memory If they do not match an error message will be outputted in which case you will need to run the BIOS setup program to set the configuration information in memory There are three situations in which you will need to change the CMOS settings You are starting your system for the first time You have changed your sy...

Page 66: ...ned off To enter BIOS Setup press Del or F2 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 Enable Disable boot option for legacy network devices System I O Enable Disable system I O device Security The setup administrator password can be set here Boot Enable Disa...

Page 67: ...Chapter 3 AMI BIOS Setup 54 Fanless Embedded Box PC BOXER 6645 ADS 3 3 Setup Submenu Main ...

Page 68: ...Chapter 3 AMI BIOS Setup 55 Fanless Embedded Box PC BOXER 6645 ADS 3 4 Setup Submenu Advanced ...

Page 69: ...ional hardware capabilities provided by Vanderpool Technology Hyper Threading Disabled Enabled Optimal Default Failsafe Default Enable or Disable Hyper Threading Technology Intel SpeedStep Disabled Enabled Optimal Default Failsafe Default Allows more than two frequency ranges to be supported Turbo Mode Disabled Enabled Optimal Default Failsafe Default Enable Disable processor Turbo Mode requires E...

Page 70: ...anless Embedded Box PC BOXER 6645 ADS Options Summary C states Disabled Enabled Optimal Default Failsafe Default Enable Disable CPU Power Management Allows CPU to go to C states when it s not 100 utilized 3 4 2 Memory Configuration ...

Page 71: ...3 PCH FW Configuration Options Summary AMT BIOS Features Enabled Optimal Default Failsafe Default Disabled When disabled AMT BIOS Features are no longer supported and user is no longer able to access MEBx Setup Note This option does not disable Manageability Features in FW ...

Page 72: ...3 4 3 1 Firmware Update Configuration Options Summary Me FW Image Re Flash Enabled Disabled Optimal Default Failsafe Default Enabled Disable Me FW Image Re Flash function FW Update Enabled Disabled Optimal Default Failsafe Default Enabled Disable Me FW Update function ...

Page 73: ...Chapter 3 AMI BIOS Setup 60 Fanless Embedded Box PC BOXER 6645 ADS 3 4 4 Hardware Monitor Options Summary Smart Fan Enabled Optimal Default Failsafe Default Disabled Enable or Disable Smart Fan ...

Page 74: ... to control 4 wire fans Linear fan application circuit to control 3 wire fan speed by fan s power terminal Output PWM mode open drain to control Intel 4 wire fans Fan 1 Smart Fan Control Manual RPM Mode Manual Duty Mode Auto RPM Mode Auto Duty Cycle Mode Optimal Default Failsafe Default Smart Fan Mode Select Temperature Source CPU Temperature Optimal Default Failsafe Default System Temperature Sys...

Page 75: ...perature 4 30 Optimal Default Failsafe Default Temperature 5 20 Optimal Default Failsafe Default Duty Cycle 1 85 Optimal Default Failsafe Default Duty Cycle 2 70 Optimal Default Failsafe Default Duty Cycle 3 60 Optimal Default Failsafe Default Duty Cycle 4 50 Optimal Default Failsafe Default Duty Cycle 5 40 Optimal Default Failsafe Default Auto fan speed control Fan speed will follow different tem...

Page 76: ...he monitored temperature source for this fan Temperature 1 60 Optimal Default Failsafe Default Temperature 2 50 Optimal Default Failsafe Default Temperature 3 40 Optimal Default Failsafe Default Temperature 4 30 Optimal Default Failsafe Default Temperature 5 20 Optimal Default Failsafe Default RPM Percentage 1 85 Optimal Default Failsafe Default RPM Percentage 2 70 Optimal Default Failsafe Default...

Page 77: ...100 3 4 5 2 Fan 1 Smart Fan Control Manual Duty Mode Options Summary Fan 1 Smart Fan Control Manual Duty Mode Smart Fan Mode Select Temperature Source CPU Temperature Optimal Default Failsafe Default System Temperature System Temperature 2 Select the monitored temperature source for this fan Manual Duty Mode 60 Optimal Default Failsafe Default Manual mode fan control user can write expected duty c...

Page 78: ...Smart Fan Control Manual RPM Mode Smart Fan Mode Select Temperature Source CPU Temperature Optimal Default Failsafe Default System Temperature System Temperature 2 Select the monitored temperature source for this fan Manual RPM Mode 3000 Optimal Default Failsafe Default Manual mode fan control user can write expected RPM count 500 10000 ...

Page 79: ...estore AC Power Loss Last State Optimal Default Failsafe Default Always On Always Off Set GPI 3 0 Output as Hi or Low System Wake On RTC Disabled Optimal Default Failsafe Default By Date By Weekday Bypass By Date System will wake on the day with hr min sec specified n By Weekday System will wake on the enabled weekday with hr min sec specified n Bypass BIOS will not control RTC wake function ...

Page 80: ... on completion of POST WDT WDT will reset system automatically if it is not cleared before its timer counts down to zero Sends watch dog before booting OS Disabled Optimal Default Failsafe Default Enabled Enabled Robot set Watch Dog Timer WDT after POST completion before BIOS transfer control to OS WARNING Before enabling this function a program in OS must be in responsible for clearing WDT Also t...

Page 81: ...abled 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 3 4 7 1 Device Detecting Configuration Options Summary Action Reset System Optimal Default Failsafe Default Hold System Select action that robot shoul...

Page 82: ...POST At time After shoe 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 logo but some devices may not be ready 3 4 7 1 1 Device 1 Detecting Configuration Options Summary Interface Disabled Optimal Default Failsafe Default ...

Page 83: ...ary MMIO Select interface robot should use to communicate with device 3 4 7 1 2 Device 2 Detecting Configuration 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 84: ...bedded Box PC BOXER 6645 ADS 3 4 7 1 3 Device 3 Detecting Configuration 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 85: ...bedded Box PC BOXER 6645 ADS 3 4 7 1 4 Device 4 Detecting Configuration 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 86: ...bedded Box PC BOXER 6645 ADS 3 4 7 1 5 Device 5 Detecting Configuration 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 87: ...Chapter 3 AMI BIOS Setup 74 Fanless Embedded Box PC BOXER 6645 ADS 3 5 Setup Submenu System I O ...

Page 88: ... Optimal Default Failsafe Default Enabled Enable Disable to VMD controller SATA Controller s Enabled Optimal Default Failsafe Default Disabled Enable Disable to SATA Device Port 1 Enabled Optimal Default Failsafe Default Disabled Enable or Disable SATA Port Port 2 Enabled Optimal Default Failsafe Default Disabled Enable or Disable SATA Port ...

Page 89: ...C BOXER 6645 ADS 3 5 2 HD Audio Configuration 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 90: ...Set DIO as Input or Output Output Level Low High Optimal Default Failsafe Default Set output level when DIO pin is output DIO2 Input Output Optimal Default Failsafe Default Set DIO as Input or Output Output Level Low High Optimal Default Failsafe Default Set output level when DIO pin is output DIO3 Input Output Optimal Default Failsafe Default Set DIO as Input or Output ...

Page 91: ...et DIO as Input or Output Output Level Low High Optimal Default Failsafe Default Set output level when DIO pin is output DIO5 Input Optimal Default Failsafe Default Output Set DIO as Input or Output DIO6 Input Optimal Default Failsafe Default Output Set DIO as Input or Output DIO7 Input Optimal Default Failsafe Default Output Set DIO as Input or Output DIO8 Input Optimal Default Failsafe Default O...

Page 92: ...Chapter 3 AMI BIOS Setup 79 Fanless Embedded Box PC BOXER 6645 ADS 3 5 4 Legacy Logical Devices Configuration ...

Page 93: ...ailsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 3F8 IRQ 4 IO 2F8 IRQ 3 Allows the user to change the device 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 94: ...ailsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 2F8 IRQ 3 IO 3F8 IRQ 4 Allows the user to change the device 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 95: ...ilsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 3E8 IRQ 11 IO 2E8 IRQ 11 Allows the user to change the device 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 96: ...ilsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 2E8 IRQ 11 IO 3E8 IRQ 11 Allows the user to change the device 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 97: ...ilsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 2D0 IRQ 11 IO 2C0 IRQ 11 Allows the user to change the device 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 98: ...ilsafe Default Enable or Disable this Logical Device Possible Use Automatic Settings Optimal Default Failsafe Default IO 2C0 IRQ 11 IO 2D0 IRQ 11 Allows the user to change the device 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: ...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 100: ...nded ASCII char set VT100 ASCII char set VT100Plus 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 De...

Page 101: ... 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 VT ...

Page 102: ...ency Management Services EMS allows for remote management of a Windows Server OS through a serial port Terminal Type EMS VT100 VT100Plus VT UTF8 Optimal Default Failsafe Default ANSI VT UTF8 is the preferred terminal type for out of band management The next best choice is VT100 and then VT100 See above in Console Redirection Settings page for more Help with Terminal Type Emulation Bits per second ...

Page 103: ... lower speeds Flow Control EMS None Optimal Default Failsafe Default Hardware RTS CTS Software Xon Xoff 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 104: ...ot provide access to many of the features in the Setup utility Select the password you wish to set press Enter to open a dialog box to enter your password you can enter no more than six letters or numbers Press Enter to confirm your entry after which you will be prompted to retype your password for a final confirmation Press Enter again after you have retyped it correctly Removing the Password Hig...

Page 105: ...ice TCG EFI protocol and INT1A interface will not be available SHA256 PCR Bank Disabled Enabled Optimal Default Failsafe Default Enable or Disable SHA256 PCR Bank SHA384 PCR Bank Disabled Optimal Default Failsafe Default Enabled Enable or Disable SHA384 PCR Bank Pending operation None Optimal Default Failsafe Default TPM Clear Schedule an Operation for the Security Device NOTE Your Computer will r...

Page 106: ...orm Key PK is enrolled and the System is in User mode The mode change requires platform reset Secure Boot Mode Standard Custom Optimal Default Failsafe Default 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 Yes No Force System to User Mode Install factory default...

Page 107: ...ter the platform reset and while the System is in Setup mode Restore Factory Keys Yes No Force System to User Mode Install factory default Secure Boot key databases Enroll Efi Image Allow Efi image to run in Secure Boot mode Enroll SHA256 Hash certificate of a PE image into Authorized Signature Database db Platform Key PK Update Key Exchange Keys KEK Update Append Authorized Signatures db Update A...

Page 108: ...eStamps dbt Update Append OsRecovery Signatures dbr Update Append Enroll Factory Defaults or load certificates from a file 1 Public Key Certificate a EFI_SIGNATURE_LIST b EFI_CERT_X509 DER c EFI_CERT_RSA2048 bin d EFI_CERT_SHAXXX 2 Authenticated UEFI Variable 3 EFI PE COFF Image SHA256 Key Source Factory External Mixed ...

Page 109: ...nu Boot Options Summary Quiet Boot Disabled Enabled Default Enables disables Quiet Boot option Network Stack Disabled Default Enabled Enable Disable UEFI Network Stack Boot Option 1 Hard Disk Boot Option 2 NVME Boot Option 3 USB Device Boot Option 4 Network Sets the system boot order ...

Page 110: ...iorities Options Summary Quiet Boot Disabled Enabled Default Enables disables Quiet Boot option Network Stack Disabled Default Enabled Enable Disable UEFI Network Stack Boot Option 1 Hard Disk Boot Option 2 NVME Boot Option 3 USB Device Boot Option 4 Network Sets the system boot order ...

Page 111: ...Chapter 3 AMI BIOS Setup 98 Fanless Embedded Box PC BOXER 6645 ADS 3 8 Setup Submenu Save Exit ...

Page 112: ...Chapter 3 AMI BIOS Setup 99 Fanless Embedded Box PC BOXER 6645 ADS 3 9 Setup Submenu MEBx ...

Page 113: ...Fanless Embedded Box PC BOXER 6645 ADS Chapter 4 Chapter 4 Drivers Installation ...

Page 114: ...nless Embedded Box PC BOXER 6645 ADS 4 1 Drivers Download and Installation Drivers for the BOXER 6645 ADS can be downloaded from the product page on the AAEON website https www aaeon com en p compact fanless box pc solutions boxer 6645 ads ...

Page 115: ...Fanless Embedded Box PC BOXER 6645 ADS Appendix A Appendix A I O Information ...

Page 116: ...Appendix A I O Information 103 Fanless Embedded Box PC BOXER 6645 ADS A 1 I O Address Map ...

Page 117: ...Appendix A I O Information 104 Fanless Embedded Box PC BOXER 6645 ADS ...

Page 118: ...Appendix A I O Information 105 Fanless Embedded Box PC BOXER 6645 ADS A 2 Memory Address Map ...

Page 119: ...Appendix A I O Information 106 Fanless Embedded Box PC BOXER 6645 ADS A 3 IRQ Mapping Chart ...

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