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Asus AAEON GENESYSM-EHL5 User Manual
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Asus AAEON GENESYSM-EHL5 User Manual

Asus AAEON GENESYSM-EHL5 User Manual

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GENESYSM-EHL5
GENESYSM Compact Embedded System
User's Manual 2
Ed
nd
Last Updated: March 20, 2024

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Summary of Contents for Asus AAEON GENESYSM-EHL5

  • Page 1 GENESYSM-EHL5 GENESYSM Compact Embedded System User’s Manual 2 Last Updated: March 20, 2024...
  • Page 2 Copyright Notice This document is copyrighted, 2024. All rights are reserved. The original manufacturer reserves the right to make improvements to the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated, or transmitted in any form or by any means without the prior written permission of the original manufacturer.
  • Page 3 Acknowledgement All other products’ name or trademarks are properties of their respective owners. Microsoft Windows® is a registered trademark of Microsoft Corp. ⚫ Intel®, Atom® Pentium®, and Celeron® are registered trademarks of Intel ⚫ Corporation ITE is a trademark of Integrated Technology Express, Inc. ⚫...
  • Page 4 Packing List Before setting up your product, please make sure the following items have been shipped: Item Quantity GENESYSM-EHL5 • Heatsink (TH2EHL5010) • Thermal Pad (TH5EHL5010) • If any of these items are missing or damaged, please contact your distributor or sales representative immediately.
  • Page 5 About this Document This User’s Manual contains all the essential information, such as 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 Safety Precautions Please read the following safety instructions carefully. It is advised that you keep this manual for future references All cautions and warnings on the device should be noted. Make sure the power source matches the power rating of the device. Position the power cord so that people cannot step on it.
  • Page 7 If any of the following situations arises, please the contact our service personnel: Damaged power cord or plug Liquid intrusion to the device iii. Exposure to moisture Device is not working as expected or in a manner as described in this manual The device is dropped or damaged Any obvious signs of damage displayed on the device...
  • Page 8 FCC Statement This device complies with Part 15 FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received including interference that may cause undesired operation.
  • Page 9 China RoHS Requirements (CN) 产品中有毒有害物质或元素名称及含量 AAEON System QO4-381 Rev.A0 有毒有害物质或元素 部件名称 铅 汞 镉 六价铬 多溴联苯 多溴二苯醚 (Pb) (Hg) (Cd) (Cr(VI)) (PBB) (PBDE) 印刷电路板 × ○ ○ ○ ○ ○ 及其电子组件 外部信号 × ○ ○ ○ ○ ○ 连接器及线材 ○ ○...
  • Page 10 China RoHS Requirement (EN) Hazardous and Toxic Materials List AAEON System QO4-381 Rev.A0 Hazardous or Toxic Materials or Elements Component Name PCB and Components Wires & Connectors for Ext.Connections Chassis CPU & RAM HDD Drive LCD Module Optical Drive Touch Control Module Battery This form is prepared in compliance with the provisions of SJ/T 11364.
  • Page 11 Table of Contents Chapter 1 - Product Specifications..................1 Specifications ......................2 Block Diagram ......................5 Chapter 2 – Hardware Information ..................6 Dimensions ....................... 7 Jumpers and Connectors ..................10 List of Jumpers ......................12 2.3.1 Clear CMOS Jumper (JP1) ................12 2.3.2 Auto Power Button Enable/Disable Selection (JP6) .......
  • Page 12 2.4.15 USB 2.0 Port (CN21) ..................30 2.4.16 M.2 2280 B-Key (CN25) ................31 2.4.17 M.2 2230 E-Key (CN26) ................34 2.4.18 COM Port 1~2 (CN27) ................. 37 2.4.19 eSPI Debug Port (CN32) ................39 2.4.20 CPU FAN (CN33) ..................39 2.4.21 External Power Input (CN34) ..............
  • Page 13 3.4.3 Trusted Computing ..................69 3.4.4 SATA Configuration ..................71 3.4.5 Hardware Monitor ..................72 3.4.5.1 Smart Fan Mode Configuration ............. 73 3.4.6 SIO Configuration ..................74 3.4.6.1 Serial Port 1 Configuration .............. 75 3.4.6.2 Serial Port 2 Configuration ............. 76 3.4.7 Serial Port Console Redirection ..............
  • Page 14 IRQ Mapping Chart ....................113 DMA Channel Assignments ................115 Appendix B – Mating Connectors and Cables ..............116 Mating Connectors and Cables ................. 117 Preface...
  • Page 15 Chapter 1 Chapter 1 - Product Specifications...
  • Page 16 Specifications System Form Factor 3.5" SubCompact Board System Intel Atom® Processor X Series, Intel® Pentium® and Celeron® N and J Series Processors: Intel Atom® x6425E (4C/4T, 2.00 GHz, 12W) Intel® Celeron® Processor J6412 (4C/4T, 2.00 GHz, 10W) Intel® Celeron® Processor N6210 (2C/2T, 1.20 GHz, 6.5W) Chipset Integrated with Intel®...
  • Page 17 Power Power Consumption Intel Atom® x6425E, DDR4 32GB, 3.26A @+12V (Typical) Intel Atom® x6425E, DDR4 32GB, 3.42A @+12V (Max) Display Controller Intel® UHD Graphics for 10th Gen Intel® Processors LVDS/eDP ━ Display Interface HDMI 2.0 x 1, up to 4K @60Hz VGA x 1, up to 2560 x 1440 Multiple Display Up to 2 Simultaneous Displays...
  • Page 18 Internal I/O Video ━ SATA SATA 6Gb/s x 1 +5V SATA Power Connector x 1 Audio ━ DIO/GPIO GPIO 16-bit (Optional: with E-Base) SMBus/I2C SMBus/I2C x 1 (Default: SMBus) Touch ━ 4-pin Smart Fan x 1 Nano SIM x 1 Front Panel HDD LED, PWR LED, Power Button, Buzzer, Reset Others...
  • Page 19 Block Diagram Chapter 1 – Product Specifications...
  • Page 20 Chapter 2 Chapter 2 – Hardware Information...
  • Page 21 Dimensions System Chapter 2 – Hardware Information...
  • Page 22 Board – Component Side Chapter 2 – Hardware Information...
  • Page 23 Board – Solder Side Chapter 2 – Hardware Information...
  • Page 24 Jumpers and Connectors Component Side Chapter 2 – Hardware Information...
  • Page 25 Solder Side Chapter 2 – Hardware Information...
  • Page 26 List of Jumpers Please refer to the table below for all of the board’s jumpers that you can configure for your application Label Function Clear CMOS Jumper Auto Power Button Enable/Disable Selection COM 2 Pin 8 Function Selection JP11 SMBus/I2C Connector 2.3.1 Clear CMOS Jumper (JP1) 2.3.2...
  • Page 27 2.3.3 COM 2 Pin 8 Function Selection (JP8) 2.3.4 SMBus/I2C Connector (JP11) Signal Type Signal Type SMBUS DATA / I2C DATA +3.3V SMBUS CLK / I2C CLK +1.8V SMBUS INT / INT SERIRQ Default: SMBUS. BOM Change is required for I2C support. Chapter 2 –...
  • Page 28 List of Connectors Please refer to the table below for all of the board’s connectors that you can configure for your application Label Function Battery Amplifier R-Channel Output Amplifier L-Channel Output M.2 3052 B-Key (USB 3.2 Gen 2/USB 2.0) Nano SIM Card Socket M.2 2242 B-Key (PCIe [x2] or SATA 6Gb/s) CN11 HDMI Port...
  • Page 29 Label Function CN44 LAN 2 SDP Connector DIMM1 DDR4 SODIMM Chapter 2 – Hardware Information...
  • Page 30 2.4.1 Battery (CN1) Pin Name Signal Type Signal Level +3.3V 3.3V 2.4.2 Amplifier R-Channel Output (CN4) Pin Name Signal Type Signal level SKR_R+ SKR_R- Chapter 2 – Hardware Information...
  • Page 31 2.4.3 Amplifier L-Channel Output (CN5) Pin Name Signal Type Signal level SKR_L+ SKR_L- 2.4.4 M.2 3052 B-Key (CN6) Pin Name Signal Type Signal level +3.3V +3.3V +3.3V +3.3V Chapter 2 – Hardware Information...
  • Page 32 Pin Name Signal Type Signal level USB_D+ DIFF W_DISABLE USB_D- DIFF SSD_DAS# USB_RX- DIFF UIM_RST USB_RX+ DIFF UIM_CLK UIM_DAT IN / OUT USB_TX- DIFF UIM_PWR USB_TX+ DIFF DEVSLP GF_SM_CLK GF_SM_DAT IN / OUT Chapter 2 – Hardware Information...
  • Page 33 Pin Name Signal Type Signal level PERST# PEWAKE# +3.3V +3.3V Chapter 2 – Hardware Information...
  • Page 34 Pin Name Signal Type Signal level +3.3V +3.3V +3.3V +3.3V 2.4.5 Nano SIM Card Socket (CN7) Pin Name Signal Type Signal level UIM_PWR UIM_RST UIM_CLK UIM_VPP UIM_DATA Chapter 2 – Hardware Information...
  • Page 35 2.4.6 M.2 2242 B-Key (CN8) Pin Name Signal Type Signal level +3.3V +3.3V +3.3V +3.3V W_DISABLE SSD_DAS# Chapter 2 – Hardware Information...
  • Page 36 Pin Name Signal Type Signal level PCIE_RX- DIFF PCIE_RX+ DIFF PCIE_TX- DIFF PCIE_TX+ DIFF DEVSLP PCIE0_RX- / SATA1_RX+ DIFF PCIE0_RX+ / SATA1_RX- DIFF PCIE0_TX- / SATA1_TX- DIFF PCIE0_TX+ / DIFF SATA1_TX+ PERST# CLKREQ# PCIE_CLK- PEWAKE# PCIE_CLK+ Chapter 2 – Hardware Information...
  • Page 37 Pin Name Signal Type Signal level +3.3V +3.3V +3.3V +3.3V +3.3V +3.3V Note: The speed of PCIe for CN8 can be changed by BIOS and be changed to mSATA by BOM. Default: PCIe [x2]. Chapter 2 – Hardware Information...
  • Page 38 2.4.7 HDMI (CN11) Pin Name Signal Type Signal level HDMI_D2+ DIFF HDMI_D2- DIFF HDMI_D1+ DIFF HDMI_D1- DIFF HDMI_D0+ DIFF HDMI_D0- DIFF HDMI_CLK+ DIFF HDMI_CLK- DIFF HDMI_SLK HDMI_SDA IN/OUT Chapter 2 – Hardware Information...
  • Page 39 Pin Name Signal Type Signal level HPLG_DETECT 2.4.8 RJ-45 LAN Port 1 (CN14) Pin Name Signal Type Signal level MDI0+ DIFF MDI0- DIFF MDI1+ DIFF MDI2+ DIFF MDI2- DIFF MDI1- DIFF MDI3+ DIFF MDI3- DIFF Chapter 2 – Hardware Information...
  • Page 40 2.4.9 RJ-45 LAN Port 2 (CN15) Pin Name Signal Type Signal level MDI0+ DIFF MDI0- DIFF MDI1+ DIFF MDI2+ DIFF MDI2- DIFF MDI1- DIFF MDI3+ DIFF MDI3- DIFF 2.4.10 SATA Port (CN16) Pin Name Signal Type Signal level SATA_TX+ DIFF Chapter 2 –...
  • Page 41 Pin Name Signal Type Signal level SATA_TX- DIFF SATA_RX- DIFF SATA_RX+ DIFF 2.4.11 +5V Output for SATA HDD (CN17) Pin Name Signal Type Signal level 2.4.12 Digital IO Port (CN18) Pin Name Signal Type Signal level Chapter 2 – Hardware Information...
  • Page 42 Pin Name Signal Type Signal level DIO1 DIO0 DIO3 DIO2 DIO5 DIO4 DIO7 DIO6 2.4.13 Digital IO Port (CN19) Pin Name Signal Type Signal level DIO9 DIO8 DIO11 DIO10 DIO13 DIO12 Chapter 2 – Hardware Information...
  • Page 43 Pin Name Signal Type Signal level DIO15 DIO14 2.4.14 USB 3.1 Ports (CN20) Pin Name Signal Type Signal level +5VSB USB_D- DIFF USB_D+ DIFF USB_SSRX− DIFF USB_SSRX+ DIFF USB_SSTX− DIFF USB_SSTX+ DIFF +5VSB USB_D- DIFF USB_D+ DIFF Chapter 2 – Hardware Information...
  • Page 44 Pin Name Signal Type Signal level USB_SSRX− DIFF USB_SSRX+ DIFF USB_SSTX− DIFF USB_SSTX+ DIFF 2.4.15 USB 2.0 Port (CN21) Pin Name Signal Type Signal level +5VSB +5VSB USB_D0- DIFF USB_D1- DIFF USB_D0+ DIFF USB_D1+ DIFF Chapter 2 – Hardware Information...
  • Page 45 2.4.16 M.2 2280 B-Key (CN25) Pin Name Signal Type Signal level +3.3V +3.3V +3.3V +3.3V USB_D8+ DIFF W_DISABLE USB_D8- DIFF SSD_DAS# Chapter 2 – Hardware Information...
  • Page 46 Pin Name Signal Type Signal level PCIE7_RX- DIFF PCIE7_RX+ DIFF PCIE7_TX- DIFF PCIE7_TX+ DIFF PCIE6_RX- DIFF PCIE6_RX+ DIFF PCIE6_TX- DIFF PCIE6_TX+ DIFF PERST# CLKREQ# PCIE1_CLK- PEWAKE# PICE1_CLK+ Chapter 2 – Hardware Information...
  • Page 47 Pin Name Signal Type Signal level +3.3V +3.3V +3.3V +3.3V +3.3V +3.3V Note: The speed of PCIe for CN25 can be changed by BIOS. Default: PCIe [x1]. Chapter 2 – Hardware Information...
  • Page 48 2.4.17 M.2 2230 E-Key (CN26) Pin Name Signal Type Signal level +3.3V +3.3V USB_D+ DIFF +3.3V +3.3V USB_D- DIFF BT_PCM_CLK BT_PCM_FRM_CRF_RST BT_PCM_IN BT_PCM_OUT_CLKREQ Chapter 2 – Hardware Information...
  • Page 49 Pin Name Signal Type Signal level PCIE1_TX+ DIFF PCIE1_TX- DIFF PCIE1_RX+ DIFF PCIE1_RX- DIFF PCIE0_CLK+ DIFF PCIE0_CLK- DIFF RESET# 3.3V PCIE_CLKREQ# BT_EN 3.3V PCIE_WAKE# 3.3V WIFI_EN 3.3V Chapter 2 – Hardware Information...
  • Page 50 Pin Name Signal Type Signal level I2C_DATA IN / OUT 3.3V I2C_CLK 3.3V ALERT# 3.3V +3.3V +3.3V +3.3V +3.3V Chapter 2 – Hardware Information...
  • Page 51 2.4.18 COM Port 1~2 (CN27) RS-232/422/485 Pin Name Signal Type Signal level COM1: DCD/ RS422_TX-/ RS485_D- IN / OUT ±5V COM2: DCD / RS422_TX-/ RS485_D- IN / OUT ±5V COM1: RX / RS422_TX+ / RS485_D+ IN / OUT ±5V COM2: RX / RS422_TX+ / RS485_D+ IN / OUT ±5V COM1: TX / RS422_RX+...
  • Page 52 RS-232/422/485 Pin Name Signal Type Signal level COM3: DCD / RS422_TX-/ RS485_D- IN / OUT ±5V COM4: DCD / RS422_TX-/ RS485_D- IN / OUT ±5V COM3: RX / RS422_TX+ / RS485_D+ IN / OUT ±5V COM4: RX / RS422_TX+ / RS485_D+ IN / OUT ±5V COM3: TX / RS422_RX+...
  • Page 53 2.4.19 eSPI Debug Port (CN32) Pin Name Signal Type Signal level ESPI_IO0 +1.8V ESPI_IO1 +3.3V ESPI_IO2 +3.3V ESPI_IO3 +3.3V +3.3V +3.3V ESPI_CS# ESPI_RST# +3.3V ESPI_CLK +3.3V +3.3V 2.4.20 CPU FAN (CN33) Pin Name Signal Type Signal level FAN_POWER +12V Chapter 2 – Hardware Information...
  • Page 54 Pin Name Signal Type Signal level FAN_TAC FAN_CTL 2.4.21 External Power Input (CN34) Pin Name Signal Type Signal level +12V +9~+36V (or +12V) 2.4.22 Front Panel Connector (CN36) Function Function PWR_BTN- PWR_BTN+ HDD_LED- HDD_LED+ Chapter 2 – Hardware Information...
  • Page 55 Function Function SPEAKER- SPEAKER+ PWR_LED- PWR_LED+ H/W RESET- H/W RESET+ 2.4.23 VGA Port (CN39) Pin Name Signal Type Signal level GREEN BLUE RED_GND_RTN GREEN_GND_RTN BLUE_GND_RTN DDC_DATA HSYNC VSYNC DDC_CLK Chapter 2 – Hardware Information...
  • Page 56 2.4.24 LAN 1 SDP Connector (CN43) Pin Name Signal Type Signal level SDP0 IN / OUT SDP0 IN / OUT SDP0 IN / OUT SDP0 IN / OUT 2.4.25 LAN 2 SDP Connector (CN44) Pin Name Signal Type Signal level SDP0 IN / OUT SDP0...
  • Page 57 2.4.26 DDR4 SODIMM (DIMM1) Standard specifications. Chapter 2 – Hardware Information...
  • Page 58 Hardware Installation This section details the steps needed to install various hardware components for the GENESYSM-EHL5. It is recommended that you read through 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.
  • Page 59 Step 2: The bottom panel will lift up and swing toward the rear panel of the system, then can be removed. Chapter 2 – Hardware Information...
  • Page 60 2.5.2 RAM & M.2 Module Installation Before you begin, make sure you have the RAM and M.2 module(s) you wish to install, and make note of their slot locations. See sections 2.2 and 2.4 for more details. RAM Module Insert the RAM module with into the DDR SODIMM Slot (DIMM1) at approximately a 45°...
  • Page 61 RAM module installation is complete. M.2 Expansion Module(s) Follow standard expansion module installation process, inserting each card at approximately a 45° angle, then gently pressing down and securing the module with the corresponding screw. Note: Please only populate each M.2 slot with an expansion card with the correct form factor, as below: Connector M.2 Configuration...
  • Page 62 CN25 CN26 Chapter 2 – Hardware Information...
  • Page 63 2.5.3 Heatsink & Thermal Pad Installation Step 1: Secure the heatsink (P/N: TH2EHL5010) to the bottom panel removed in section 2.5.1 using the four (4) black mounting screws. Chapter 2 – Hardware Information...
  • Page 64 Chapter 2 – Hardware Information...
  • Page 65 Step 2: Remove the protective film from one side of each of the four (4) thermal pads. Step 3: Following the notches for guidance, affix the thermal pads to the heatsink. Chapter 2 – Hardware Information...
  • Page 66 Step 4: Remove the remaining protective film from the thermal pads. Step 5: Close the bottom cover and reaffix using the two screws removed when accessing the bottom panel interior. Chapter 2 – Hardware Information...
  • Page 67 2.5.4 2.5” SATA Drive Installation For this process you will need a Phillips head screwdriver. Step 1: Loosen, (but do not remove) the two black screws securing the top panel. Step 2: Access the system interior by lifting the top panel. Chapter 2 –...
  • Page 68 Step 3: Connect the SATA and SATA Power cables to the 2.5” drive. Please note the location of the SATA Port (CN16) and SATA Power Connector (CN17). Chapter 2 – Hardware Information...
  • Page 69 Step 4: Once connected, push the SSD upwards, and then to the left, as shown. Chapter 2 – Hardware Information...
  • Page 70 Step 5: Secure the drive with three (3) black mounting screws. Chapter 2 – Hardware Information...
  • Page 71 2.5.5 Wallmount Assembly Before beginning, 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 72 2.5.6 VESA Mount Installation Before 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) •...
  • Page 73 The system 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.
  • Page 74 Electrical Specifications for I/O Ports Referenc Signal Rate Output Name M.2 3052 B-Key +3.3VSB +3.3V/2.0A M.2 2242 B-Key +3.3VSB +3.3V/1.5A HDMI Port CN11 +5V/0.5A +5V Output for SATA CN17 +5V/1.5A Digital IO Port CN18 +5V/0.5A Digital IO Port CN19 +5V/0.5A USB 3.1 Ports CN20 +5VSB...
  • Page 75 Chapter 3 Chapter 3 - AMI BIOS Setup...
  • Page 76 System Test and Initialization These routines check the current system configuration stored in the CMOS memory and BIOS NVRAM. If system configuration is not found or system configuration data error is detected, system will load optimized default and re-boot with this default system configuration automatically.
  • Page 77 AMI BIOS Setup The AMI BIOS ROM has a pre-installed Setup program that allows users to modify basic system configurations, which is stored in the battery-backed CMOS RAM and BIOS NVRAM so that the information is retained when the power is turned off. To enter BIOS Setup, press <Del>...
  • Page 78 Setup Submenu: Main Chapter 3 – AMI BIOS Setup...
  • Page 79 Setup Submenu: Advanced Chapter 3 – AMI BIOS Setup...
  • Page 80 3.4.1 CPU Configuration Options Summary Active Processor Cores Optimal Default, Failsafe Default Number of cores to enable in each processor package. Intel (VMX) Virtualization Disabled Technology Enabled Optimal Default, Failsafe Default When enabled, a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology.
  • Page 81 3.4.2 PCH-FW Configuration Chapter 3 – AMI BIOS Setup...
  • Page 82 3.4.2.1 Firmware Update Configuration Options Summary Me FW Image Re-Flash Enabled Disabled Optimal Default, Failsafe Default Enable/Disable Me FW Image Re-Flash function. FW Update Disabled Enabled Optimal Default, Failsafe Default Enable/Disable ME FW Update function. Chapter 3 – AMI BIOS Setup...
  • Page 83 3.4.3 Trusted Computing Options Summary Security Device Support Enable Optimal Default, Failsafe Default Disable Enables or Disables BIOS support for security device. O.S. will not show Security Device. TCG EFI protocol and INT1A interface will not be available. SHA-1 PCR Bank Disabled Optimal Default, Failsafe Default Enabled...
  • Page 84 Options Summary Enable or Disable SM3_256 PCR Bank. Pending operation None Optimal Default, Failsafe Default TPM Clear Schedule an Operation for the Security Device. NOTE: Your Computer will reboot during restart in order to change State of Security Device. Platform Hierarchy Enabled Optimal Default, Failsafe Default Disabled...
  • Page 85 3.4.4 SATA Configuration Options Summary SATA Controller(s) Enabled Optimal Default, Failsafe Default Disabled Enable/Disable SATA Device. Port* Enabled Optimal Default, Failsafe Default Disabled Enable or Disable SATA Port. Chapter 3 – AMI BIOS Setup...
  • Page 86 3.4.5 Hardware Monitor Options Summary Smart Fan Disable Enable Optimal Default, Failsafe Default Enables or Disables Smart Fan. Chapter 3 – AMI BIOS Setup...
  • Page 87 3.4.5.1 Smart Fan Mode Configuration Options Summary FAN1 Output Mode Output PWM mode (open drain) Linear Fan Application Output PWM mode Optimal Default, Failsafe Default (push pull) Fan 1 Smart Fan Control Manual Duty Mode Auto Duty-Cycle Mode Optimal Default, Failsafe Default Smart Fan Mode Select.
  • Page 88 Options Summary Auto fan speed control. Fan speed will follow different temperature by different duty cycle 1-100 3.4.6 SIO Configuration Chapter 3 – AMI BIOS Setup...
  • Page 89 3.4.6.1 Serial Port 1 Configuration Options Summary Use This Device Disable Enable Optimal 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.
  • Page 90 3.4.6.2 Serial Port 2 Configuration Options Summary Use This Device Disable Enable Optimal 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.
  • Page 91 3.4.7 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. Chapter 3 – AMI BIOS Setup...
  • Page 92 3.4.8 SCS Configuration Options Summary eMMC 5.1 Controller Disabled Enabled Optimal Default, Failsafe Default Enable or Disable SCS eMMC 5.1 Controller. eMMC 5.1 HS400 Mode Disabled Enabled Optimal Default, Failsafe Default Enable or Disable SCS eMMC 5.1 HS400 Mode. Enable HS400 software Disabled tuning Enabled...
  • Page 93 3.4.9 Power Management Options Summary Power Mode ATX Type Optimal Default, Failsafe Default AT Type Select power supply mode. Restore AC Power Loss Last State Optimal Default, Failsafe Default Always On Always Off Select power state when power is re-applied after a power failure. RTC wake system from S5 Disable Optimal Default, Failsafe Default...
  • Page 94 3.4.10 GPIO Port Configuration Options Summary GPIO Port* Output Input Set GPIO as Input or Output. Output Level High Set output level when GPIO pin is output Chapter 3 – AMI BIOS Setup...
  • Page 95 3.4.11 AAEON BIOS Robot Options Summary Sends watch dog before Disabled Optimal Default, Failsafe Default BIOS POST Enabled Enabled - Robot set Watch Dog Timer (WDT) right after power on, before BIOS start POST process. And then Robot will clear WDT on completion of POST. WDT will reset system automatically if it is not cleared before its timer counts down to zero.
  • Page 96 Options Summary OS Timer (minute) Optimal Default, Failsafe Default Timer count set to Watch Dog Timer for OS loading. Delayed POST (PEI phase) Disabled Optimal Default, Failsafe Default Enabled Enabled - Robot holds BIOS from starting POST, right after power on. This allows BIOS POST to start with stable power or start after system is physically warmed-up.
  • Page 97 3.4.12 Device Detecting Configuration Options Summary Action Reset System Optimal Default, Failsafe Default Hold System Select action that robot should do. Soft or hard reset Soft Optimal Default, Failsafe Default Hard Select reset type robot should send on each boot. Retry-Count Optimal Default, Failsafe Default Fill retry counter here.
  • Page 98 Options Summary Action Reset System Optimal Default, Failsafe Default Hold System Select action that robot should do. Holding time out (second) 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.
  • Page 99 3.4.12.1 Device #* Detecting Configuration Options Summary Interface Disabled Optimal Default, Failsafe Default SMBUS Legacy I/O Super I/O MMIO Select interface robot should use to communicate with device. Chapter 3 – AMI BIOS Setup...
  • Page 100 3.4.12.1.1 PCI Interface Options Summary – PCI Interface Optimal Default, Failsafe Default Fill BUS number to a PCI device, in hexadecimal. Range: 0 – FF. Device Optimal Default, Failsafe Default Fill DEVICE number to a PCI device, in hexadecimal. Range: 0 – FF. Function Optimal Default, Failsafe Default Fill FUNCTION number to a PCI device, in hexadecimal.
  • Page 101 Options Summary – PCI Interface 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.
  • Page 102 3.4.12.1.2 DIO Interface Options Summary – DIO Interface Device Is not Optimal Default, Failsafe Default Select that robot should or should not do action if condition met. DIO pin number DIO1 Optimal Default, Failsafe Default DIO* Fill DIO pin number.\n0 - DIO0\n1 - DIO1\n... and so on. For COM express product:\0-3 - GPI0-3\4-7 - GPO0-3.
  • Page 103 3.4.12.1.3 SMBUS Interface Options Summary – SMBUS Interface SMBUS Slave Address Optimal Default, Failsafe Default Fill slave address to a SMBUS device, in hexadecimal. Range: 0 – FF. Device 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...
  • Page 104 Options Summary – SMBUS Interface Register offset Optimal Default, Failsafe Default Fill register offset (or index) for robot to read, in hexadecimal. Range: 0 – FF. Bit offset Optimal Default, Failsafe Default Fill bit offset for register, for robot to compare with bit value. Bit value Optimal Default, Failsafe Default High...
  • Page 105 3.4.12.1.4 Legacy I/O Interface Options Summary – Legacy I/O Interface I/O Address Optimal Default, Failsafe Default Fill I/O address device is responding to. Range: 0~FFFF. Device 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...
  • Page 106 Options Summary – Legacy I/O Interface Bit offset Optimal Default, Failsafe Default Fill bit offset for register, for robot to compare with bit value. Bit value Optimal Default, Failsafe Default High Fill bit value for robot to compare register-bit with specified offset. Byte value Optimal Default, Failsafe Default Fill a byte value for robot to compare register data with, in hexadecimal.
  • Page 107 Options Summary – Super I/O Interface 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.
  • Page 108 3.4.12.1.6 MMIO Interface Options Summary – MMIO Interface MMIO Address Optimal Default, Failsafe Default Fill Memory Mapped I/O address device is responding to. Range: 0~FFFFFFFF. Device 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...
  • Page 109 Options Summary – MMIO Interface Bit offset Optimal Default, Failsafe Default Fill bit offset for register, for robot to compare with bit value. Bit value Optimal Default, Failsafe Default High Fill bit value for robot to compare register-bit with specified offset. Byte value Optimal Default, Failsafe Default Fill a byte value for robot to compare register data with, in hexadecimal.
  • Page 110 Setup Submenu: Chipset Chapter 3 – AMI BIOS Setup...
  • Page 111 3.5.1 System Agent (SA) Configuration Options Summary VT-d Disabled Enabled Optimal Default, Failsafe Default VT-d capability. Chapter 3 – AMI BIOS Setup...
  • Page 112 3.5.1.1 Memory Configuration Options Summary In-Band ECC Disabled Optimal Default, Failsafe Default Enabled Enable/Disable In-Band ECC. Chapter 3 – AMI BIOS Setup...
  • Page 113 Setup Submenu: Security Change User/Administrator Password You can set an Administrator Password or User Password. An Administrator Password must be set before you can set a User Password. The password will be required during boot 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.
  • Page 114 3.6.1 Secure Boot Options Summary Secure Boot Disabled Optimal Default, Failsafe Default Enabled Secure Boot feature is Active if Secure Boot is Enabled, Platform Key (PK) is enrolled and the System is in User mode. The mode change requires platform reset. Secure Boot Mode Custom Optimal Default, Failsafe Default...
  • Page 115 3.6.1.1 Key Management Options Summary Factory Key Provision Disabled Optimal Default, Failsafe Default Enabled Secure Boot feature is Active if Secure Boot is Enabled, Platform Key (PK) is enrolled and the System is in User mode. The mode change requires platform reset. Restore Factory Keys Force System to User Mode.
  • Page 116 Options Summary Device Guard ready system must not list 'Microsoft UEFI CA' Certificate in Authorized Signature database (db). Restore DB defaults Restore DB variable to factory defaults. Platform Key (PK) Details Export Update Delete Key Exchange Keys Details Export Update Append Delete Authorized Signatures...
  • Page 117 Setup Submenu: Boot Options Summary Quiet Boot Disabled Enabled Optimal Default, Failsafe Default Enable or Disable Quiet Boot option. UEFI PXE Support Disabled Optimal Default, Failsafe Default Enabled Enable/Disable UEFI Network Stack. FIXED BOOT ORDER Priorities Sets the system boot order. Chapter 3 –...
  • Page 118 3.7.1 BBS Priorities Chapter 3 – AMI BIOS Setup...
  • Page 119 Setup Submenu: Save & Exit Options Summary Save Changes and Reset Reset the system after saving the changes. Discard Changes and Exit Exit system setup without saving any changes. Restore Defaults Restore/Load Default values for all the setup options. Chapter 3 – AMI BIOS Setup...
  • Page 120 Chapter 4 Chapter 4 – Driver Installation...
  • Page 121 Driver Download/Installation Drivers for the GENESYSM-EHL5 can be downloaded from the product page on the AAEON website by following this link: https://www.aaeon.com/en/p/sub-compact-board-system-genesysm-ehl5 Download the driver(s) you need and follow the steps below to install them. Install Chipset Drivers Open the Intel Chipset folder Run the SetupChipset.exe in the folder Follow the instructions Drivers will be installed automatically...
  • Page 122 Install Audio Driver Open the Audio Driver folder Run the Setup.exe file in the folder Follow the instructions Drivers will be installed automatically Install Serial IO Drivers Open the COM Port Driver folder Follow the instructions Drivers will be installed automatically Install ME &...
  • Page 123 Appendix A Appendix A - I/O Information...
  • Page 124 I/O Address Map Appendix A – I/O Information...
  • Page 125 Appendix A – I/O Information...
  • Page 126 A.2 Memory Address Map Appendix A – I/O Information...
  • Page 127 A.3 IRQ Mapping Chart Appendix A – I/O Information...
  • Page 128 Appendix A – I/O Information...
  • Page 129 A.4 DMA Channel Assignments Appendix A – I/O Information...
  • Page 130 Appendix B Appendix B – Mating Connectors and Cables...
  • Page 131 Mating Connectors and Cables Mating Connector Available Label Function Cable P/N Cable Vendor Model no RTC Battery Molex 51021-0200 Battery Cable 175011301C Amplifier Molex 51021-0200 R-channel output Amplifier Molex 51021-0200 L-channel output CN16 SATA port Molex 887505318 SATA Cable 1709070500 +5V Output for SATA Power CN17...