Axiomtek NA591 Rackmount Network Appliance User Manual

NA591 Series

SMB Network Appliance

User’s Manual

Disclaimers

This manual has been carefully checked and believed to contain accurate information.

Axiomtek Co., Ltd. assumes no responsibility for any infringements of patents or any third party ’s rights, and any liability arising from such use.

Axiomtek does not warrant or assume any legal liability or responsibility for the accuracy, completeness or usefulness of any information in this document. Axiomtek does not make any commitment to update the information in this manual.

Axiomtek reserves the right to change or revise this document and/or product at any time without notice.

No part of this document may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of Axiomtek Co., Ltd.

CAUTION

If you replace wrong batteries, it causes the danger of explosion. It is recommended by the manufacturer that you follow the manufacturer ’s instructions to only replace the same or equivalent type of battery, and dispose of used ones.



Copyright 2019 Axiomtek Co., Ltd.

All Rights Reserved

November 2019, Version A1

Printed in Taiwan ii

Safety Approvals

 CE Marking

 FCC Class A

 FCC Compliance

This equipment has been tested and complies with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. If not installed and used in accordance with proper instructions, this equipment might generate or radiate radio frequency energy and cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measurers:

 Reorient or relocate the receiving antenna.

 Increase the separation between the equipment and receiver.

 Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

 Consult the dealer or an experienced radio/TV technician for help.

 Shielded interface cables must be used in order to comply with emission limits. iii

Safety Precautions

Before getting started, read the following important cautions.

1. Be sure to ground yourself to prevent static charge when installing the internal components. Use a grounding wrist strap and place all electronic components in any static-shielded devices. Most electronic components are sensitive to static electrical charge.

2. Disconnect the power cords from the NA591 Series before making any installation. Be sure both the system and the external devices are turned OFF. Sudden surge of power could ruin sensitive components. Make sure the NA591 Series is properly grounded.

3. Do not open the system’s top cover. If opening the cover for maintenance is a must, only a trained technician is allowed to do so. Integrated circuits on computer boards are sensitive to static electricity. To avoid damaging chips from electrostatic discharge, observe the following precautions:

 Before handling a board or integrated circuit, touch an unpainted portion of the system unit chassis for a few seconds. This will help to discharge any static electricity on your body.

 When handling boards and components, wear a wrist-grounding strap, available from most electronic component stores.

Trademarks Acknowledgments

Axiomtek is a trademark of Axiomtek Co., Ltd.

Windows

®

is a trademark of Microsoft Corporation.

IBM, PC/AT, PS/2, VGA are trademarks of International Business Machines Corporation.

Intel

®

and Pentium

®

are trademarks of Intel Corporation.

AMI is trademark of American Megatrend Inc.

Other brand names and trademarks are the properties and registered brands of their respective owners. iv

Table of Contents

Disclaimers ..................................................................................................... ii

Safety Approvals ........................................................................................... iii

Safety Precautions ........................................................................................ iv

Chapter 1 Introduction .......................................... 1

1.1

General Description ............................................................................ 1

1.2

Features ............................................................................................... 1

1.3

Specifications ...................................................................................... 2

1.4

Block Diagram ..................................................................................... 5

1.5

Dimensions and Outlines ................................................................... 5

1.6

I/O Outlets ............................................................................................ 6

1.6.1

Front Panel .................................................................................................. 6

1.6.2

Rear Panel .................................................................................................. 8

Chapter 2 Hardware and Installation .................... 9

2.1

Check List ............................................................................................ 9

2.2

Board Layout ..................................................................................... 10

2.3

Jumper Settings ................................................................................ 12

2.3.1

CMOS Clear Jumper (JP2) ....................................................................... 12

2.3.2

Auto Power Button Model Jumper (JP3) ................................................... 13

2.4

Connectors ........................................................................................ 13

2.4.1

Mini Card Connector for mSATA (CN1) ................................................... 14

2.4.2

M.2 2280 Connector for PCIeX4(CN2) ................................................... 15

2.4.3

ATX Power Connector (CN3) .................................................................... 16

2.4.4

LCM Connector (CN5) .............................................................................. 16

2.4.5

Internal USB 3.1 Gen1 Connector (CN8) .................................................. 17

2.4.6

ATX +12V CPU Power Connector (ATX1) ................................................ 17

2.4.7

PMBUS Connector (PMBUS1) .................................................................. 17

2.4.8

USB Port Connectors (USB1~2) ............................................................... 18

2.4.9

FAN Connectors (FAN1~3) ....................................................................... 18

2.4.10

Serial Port 2 Connector (COM2) ............................................................... 18

2.4.11

Serial ATA Connectors (SATA1~4) ............................................................ 19

2.4.12

Front Panel Bezel Connector (JP11) ......................................................... 19

2.4.13 VGA Connector (VGA1) ............................................................................ 20

2.4.14

Digital I/O Port Connector (DIO1) ............................................................. 20

2.5

Hardware Installation ........................................................................ 21

2.5.1

Installing the CPU ...................................................................................... 21

v

2.5.2

Installing the Memory ................................................................................ 24

2.5.3

Installing the Hard Disks............................................................................ 25

Chapter 3 AMI BIOS Setup Utility ........................ 27

3.1

Starting ............................................................................................... 27

3.2

Navigation Keys ................................................................................ 27

3.3

Main Menu .......................................................................................... 28

3.4

Advanced Menu ................................................................................. 29

3.5

Chipset Menu ..................................................................................... 50

3.6

Security Menu .................................................................................... 54

3.7

Boot Menu .......................................................................................... 55

3.8

Save & Exit Menu .............................................................................. 56

3.9

Server Management .......................................................................... 61

Appendix A LAN Bypass Configuration .................. 63

About LAN Bypass....................................................................................... 63

LAN Bypass Register Configuration .......................................................... 64

Appendix B WDT Timer for System Reset .............. 67

Appendix C LAN Module Expansion ....................... 69

LAN Bypass Control Jumper (JP2/JP3) ..................................................... 70

Appendix D Warning ............................................... 77

vi

NA591 Series User ’s Manual

Chapter 1

Introduction









This chapter contains general information and detailed specifications of the NA591 Series

Network Appliance Server. It contains the following sections:

 General Description

Features

Specifications

Dimensions and Outlines

I/O Outlets

1.1 General Description

The NA591 is a 1U rackmount network appliance based on Intel® Xeon E/ the 8 th

/9 th

Generation Core i Processors with Intel® C246 Chipset (code name is Coffee lake), The appliance sets the target at greatly improved CPU performance and reduced power consumption based on Intel ’s new architecture. It provides greater performance and power efficiency to equipment providers.

For greater flexibility, the NA591 has four front-accessible expansion slots that allow developers to expand four different LAN modules based on their solution requirements. This expansions need to be requested before production. The four expandable LAN modules via the PCIe 3.0 interface support max up to 32 LAN ports. To avoid the influences of shutdown by the environment, the NA591 ’s supports data protection of LAN bypass for fail-over option by

LAN module.

For storing event log data, the NA591 utilizes two 2.5” SATA HDDs. And NA591 supports four dual channel up to 128GB DDR4-2666 non-ECC/ECC memory and one standard PCIe x8 expansion slot (PCIe x4 signal) for optional network security card.

The NA591 is designed for network enterprise business. NA591 not only provides high performance processor, memory, storage interface and LAN connection, but also includes outstanding management capability.













1.2 Features

 LGA 1151 Intel® Coffee Lake-S Xeon® Processor E Family and 8 th

/9 th

Core i series processors

Four DIMM sockets for C246 chipset, up to 128GB none-buffer none-ECC / ECC memory

(DDR4 2666MHz)

Supports four LAN modules & one expansion PCIe x8 slot (PCIex4 signal) is option

Supports BIOS redirected to COM port

Supports two internal 2.5” SATA HDDs/SSDs

Supports one M.2 2280 PCIex4 signal (M-key)

Support one mSATA

Suitable for VPN, network bandwidth controller, firewall applications

Introduction 1


1.3 Specifications

System

 System CPU

 LGA1151 Intel® Coffee Lake-S Xeon® Processor E Family and 8 th

/9 th

Core i Series processors

 System Chipset

 Intel® C246





System Memory

 NA591 (PCH: C246): 4 x DDR4 2666 DIMM sockets, up to 128GB none-buffer none-ECC / ECC memory by CPU SKU

BIOS

 AMI 256Mbit PnP Flash BIOS with function of BIOS redirected to COM port

 Storage

 Two 2.5

” SATA HDDs





One mSATA

One M.2 2280 , PCIe x4 signal (M-key)

 LAN

 The default is 2 x 10/100/1000Mbps LAN ports (one port support IPMI optional)

NA591: Expandable up to 32 LAN ports via LAN modules.

Note: Slot3 & Slot4 is only PCIe x4 signal via PCH. Suggestion above total 30G throughput of LAN module is using on Slot1 or Slot2

2 Introduction


 LAN Modules

Slim Module

GbE Copper Modules

AX93316-8GI

AX93316-8GIL

AX93326-8GIL

AX93336-4GI

AX93336-4GIL

GbE Fiber Modules

AX93322-8FI

AX93322-8MIL

AX93336-4FI

10GbE Copper Modules

AX93317-2GIL

10GbE Fiber Modules

AX93307-2FI

AX93307-2FIL

AX93327-4FI


AX93332-25FI


AX93331-2QFI

Ports

8

8

8

4

4

8

4+4

4

2

2

2

4

2

Chipset

Intel 82580EB

Intel 82580EB

Intel 210AT

Intel i211AT

Intel i350

Intel 82580EB

Intel 82580EB

Intel i350

Intel X540

Intel 82599ES

Intel 82599ES

Intel XL710

Intel XXV710

Bypass

0

1

0

0

2

0

0

4

4

0

2

1

0

NA591 v v v v v v v v v v v

V

Slot1/Slot2

V

Slot1/Slot2

2 Intel XL710 0

V

Slot1/Slot2

 Super I/O





Controller: Winbond NCT6102D

Serial Ports: Total 2 asynchronous ports (2 x RS-232; one is 10-pin header onboard but RX/TX signal is co-lay used for LCM module connector, the other one is RJ-type connector with Cisco define)

 I/O Interface

 One console RJ-type connector, 2 x USB 2.0 connectors and 2 x RJ-45 connectors







(default) or up to 34 LAN ports (expandable).

LED: 1x2 LED for Power and HDD

1x2 LED for GPO 1~2

4 x LAN modules (optional)

Tact switch x1 (hardware system reset button)

 Watchdog Timer





One for System Reset: 255 levels, 1-255 sec

One for LAN bypass: 7 levels, 1-64 sec

 USB

 Two USB 2.0 ports one front side, two USB 2.0/3.0 are internal pin headers

 Hardware Monitoring

 Controller Winbond NCT6102D

 CPU temperature, system temperature, power and fan speed detection

 Expansion Slot

 NA591 (C246) support four LAN modules & one PCIex8 slot through AX96708 Riser card ( via PCH only PCIe x4 signal) optional.

Introduction 3


 Power Supply





400W single power supply

400W redundant power supply (1+1) (optional)

Note:

Indicates to unplug all AC power cord(s) to disconnect AC Power





OS Compatibility

 Linux kernel 4.14 above

Mechanical/Environmental

 Form Factor

 1U rackmount

Operation Temperature

 0°C ~ 40°C

 Storage Temperature

 -20°C ~ 70°C

 Humidity

 10% - 95% RH, non-condensing

 Chassis Material

 Steel

 Dimensions

 44mm (1.73”) (H) x 430mm (16.92”) (W) x 500mm (19.68”) (D)

 Certificate

 FCC class A / CE class A

Note: All specifications and images are subject to change without notice.

4 Introduction

1.4 Block Diagram


1.5 Dimensions and Outlines

The following diagram shows you dimensions and outlines of the NA591 Series.

Introduction

Default: 2 LAN ports max up to 34 LAN ports

5


1.6 I/O Outlets

Locate front and rear panel I/O outlets on the NA591 Series server to connect serial and

Ethernet interface devices.

1.6.1 Front Panel

6















Power LED (Green)

LED light up when the server is powered on to perform diagnostic tests and proper operation checking.

HDD LED (Green)

LED flashes when HDD is transmitting or receiving data.

Programmable LED GPIO1, GPIO2 (Green)

The GPIO1 and GPIO2 LEDs are controlled by programmable GPIO.

A sample code will be provided that allow users to define their own function.

“Reset” Tact Switch

It is for reset the system to reboot your computer instead of turning OFF the power switch. It is a better way to reboot your system for a longer life of the system’s power supply.

Console Port

This is a Cisco RJ-type connector console port for command line interface and diagnostic support by P.O.S.T (Power On Self Test).

USB2.0 Ports

Two USB 2.0 ports supported.

LAN Bypass LED(By LAN modules)

While running the LAN Bypass function, the LED always lights up.

Introduction






Transfer Rate for LAN port

The double-color LED light indicates 10/100/1000Mbps transfer rate.

LED Light Color Transfer Rate

Dark

Green

10Mbps

100Mbps



Orange







1000Mbps

If the LED is dark and Active/Link LED is lighting on flashing, the transfer rate should be 10Mbps.

When the green-color LED light is radiating, the transfer rate should be

100Mbps.

When the orange-color LED light is radiating, the transfer rate should be

1000Mbps.

When this LED and Link/Active LED both are dark, no networking devices are attached.

Active/Link LED for LAN Port

 The orange LED is on when the LAN port connection is working.





The LED flashes when transmitting or receiving any signals to or from the appliance.

The LED is dark when the appliance is off.

Note: Optional LAN module LED definition in Appendix C.

Introduction 7


1.6.2 Rear Panel





Power Supply

System power use power cord to connect the power supply to electrical outlet (AC).

System Fans

These are fans for cooling down system temperature.

8 Introduction


Chapter 2

Hardware and Installation

The NA591 Series are convenient for your various hardware configurations. This chapter will help you get familiar with the hardware.

2.1 Check List

The package bundled with your NA591 Series should contain the following items:









The NA591 Series network appliance hardware platform

Power cord x 1 (Redundant ,power cord x2)

Mounting brackets for rack installation (left/right) x 2

Plastic stand for stack –up x 4





CPU Heatsink x 1

Mounting screws for disk drive and additional screws for this appliance’s spare parts

If you cannot find this package or any items are missing, please contact Axiomtek distributors immediately. If you order any optional components, the package might contain those additional hardware or documents accordingly.

Hardware and Installation 9


2.2 Board Layout

TOP

10 Hardware and Installation

BOTTOM




2.3 Jumper Settings

Jumper is a small component consists of jumper clip and jumper pins. Install jumper clip on 2 jumper pins to close. And remove jumper clip from 2 jumper pins to open. Below illustration shows how to set up jumper.

This section provides the information about jumpers and connectors of NA580 Series. Properly configure jumper settings on the main board in this appliance to meet your application purpose.

Below we list a summary table of all jumpers and default settings for onboard devices.

Jumper Definition

1-2

：

Disable (Default)

Jumper Setting

JP1 CRT always on

Open

：

CRT Always On

JP2

JP3

JP9

Clear CMOS Setting

Auto Power Button Mode

Selection

Case Open Setting

1-2

：

Normal (Default)

2-3

：

Clear CMOS

1-2

：

Always Power Off

No Jumper

：

Always Power On (Default)

1-2

：

case open

No Jumper

：

Normal (default)

2.3.1 CMOS Clear Jumper (JP2)

Use this jumper to erase and restore CMOS memory and BIOS setting. Put jumper clip to pin 2-3 for a few seconds then move it back to pin 1-2. By doing this procedure CMOS data resets to its safe default settings.

Description Function Jumper Setting

JP2

Normal (Default)

COMS Clear

JP2

Clear CMOS



2.3.2 Auto Power Button Model Jumper (JP3)

Description Function Jumper Setting

JP3

Always Power Off

ATX Mode

Auto Power Button

Mode Selection

JP3

Always Power On

(Default)

2.4 Connectors

Signals go to other parts of the system through connectors. Loose or improper connection might cause problems, please make sure all connectors are properly and firmly connected.

Here is a summary table which shows all connectors on the hardware.

Connectors Label

Mini Card Connector for mSATA CN1

M.2 2280 Connector for PCIeX4

ATX Power Connector

CN2

CN3

LCM Connector

Internal USB 3.1 Gen1 Connector

ATX +12V CPU Power Connector

PMBUS connector

USB2.0 Port Connectors

FAN Connector

Serial Port2 Connector

Serial ATA Connector

Front Panel Bezel Connector

VGA Connector

GPIO Connector (reserved)

Battery Connector

DDR4 DIMM Socket(Channel A DIMM0 )

DDR4 DIMM Socket(Channel A DIMM1 )

DDR4 DIMM Socket(Channel B DIMM0 )

DDR4 DIMM Socket (Channel B DIMM1 )

PCIeX8 connector for PCIeX4

JP11

VGA1

DIO1

BAT2

DIMM1

DIMM2

DIMM3

CN5

CN8

ATX1

PMBUS1

USB1~2

FAN1~3

COM2

SATA1~4

DIMM4

PCIE1


No use

Ground (GND)

+3.3VSB

PERST#

+3.3VSB

Ground (GND)

+1.5V

SMB_CLK

SMB_DATA

Ground (GND)

USB_D-

USB_D+

Ground (GND)

No use

No use

No use

+1.5V

Ground (GND)

+3.3VSB

42

44

46

36

38

40

48

50

52

26

28

30

32

34

16

18

20

22

24

Ground (GND)

No use

No use

Ground (GND)

SATA0_RXP

SATA0_RXN

Ground (GND)

Ground (GND)

SATA0_TXN

SATA0_TXP

Ground (GND)

Ground (GND)

+3.3VSB

+3.3VSB

Ground (GND)

No use

No use

No use

No use

41

43

45

35

37

39

47

49

51

25

27

29

31

33

15

17

19

21

23


2.4.1 Mini Card Connector for mSATA (CN1)

This is a 52-pin connector which is commonly used for SATA device.

Pin Signal Pin Signal

CN1

1 No use 2 +3.3VSB

51 17

3 No use 4 Ground (GND)

5

7

No use

No use

6

8

+1.5V

No use

52 18

9

11

13

Ground (GND)

No use

No use

10

12

14

No use

No use

No use

2

1



53

55

57

59

61

63

41

43

45

47

49

51

65

67

69

71

73

75

25

27

29

31

33

35

37

39

13

15

17

19

21

23

2.4.2 M.2 2280 Connector for PCIeX4(CN2)

This is a 75-pin connector which is commonly used for PCIe device.

Pins Signals Pins Signals

7

9

11

1

3

5

NC

NC

GND

GND

GND

GND

CLK_N

CLK_P

GND

NC

NC

NC

GND

GND

PCIE_RXN_3

_

PCIE_RXP_3

GND

PCIE_TXN_3

_

2

4

6

8

+3.3V

+3.3V

NC

NC

10 LED1#

12

+3.3V

PCIE_TXP_3

GND

14

16

+3.3V

+3.3V

PCIE_RXN_2 _ 18 +3.3V

PCIE_RXP_2

GND

PCIE_TXN_2 _

20

22

24

NC

NC

NC

PCIE_TXP_2

GND

26

28

NC

NC

PCIE_RXN_1 _ 30 NC

PCIE_RXP_1

GND

PCIE_TXN_1

PCIE_TXP_1

GND

32

34

36

38

40

NC

NC

NC

DEVSLP

NC

PCIE_RXN_0

PCIE_RXP_0

GND

PCIE_TXN_0

PCIE_TXP_0

GND

42

44

46

NC

NC

NC

48 NC

50 PERST#

52 NC

54 PEWARK#

56 NC

58 NC

60 NC

62 NC

64 NC

66 NC

68 NC

70 +3.3V

72 +3.3V

74 +3.3V

-

CN2



2.4.3 ATX Power Connector (CN3)

Steady and sufficient power can be supplied to all components on the board by connecting the power connector. Please make sure all components and devices are properly installed before connecting the power connector.


CN3

1 +3.3V 2 +3.3V

3 Ground (GND) 4 +5V

13 1

5 Ground (GND) 6 +5V

7

9

11

Ground (GND)

5VSB

+12V

8

10

12

PWR_OK

+12V

+3.3V

19

21

23

13

15

17

+3.3V

Ground (GND)

Ground (GND)

Ground (GND)

+5V

+5V

20

22

24

14

16

18

-12V

PS_ON

Ground (GND)

-12V

+5V

Ground (GND)

24 12

2.4.4

Pin

3

4

1

2

5

LCM Connector (CN5)

Signal

CN5 VCC (+5V Level)

RXD of COM2

No Connection

TXD of COM2

Ground (GND)

1 5



2.4.5 Internal USB 3.1 Gen1 Connector (CN8)

The CN8 is a 19-pin internal connector for installing versatile USB 3.1 compliant peripherals.


CN8

4

5

6

7

1

2

3

VBUS0

SSRX0-

SSRX0+

GND

SSTX0-

SSTX0+

GND

19

18

17

16

15

14

VBUS1

SSRX1-

SSRX1+

GND

SSTX1-

SSTX1+

8

9

USB0-

USB0+

10 ID

Note

13

12

GND

USB1-

11 USB1+

CN8 supports USB3.1 GEN 1 when the chipset is customized into Intel

®

C246.

2.4.6

Pin

1

6

7

8

4

5

2

3

ATX +12V CPU Power Connector (ATX1)

Signal

GND

GND

GND

GND

+12V

+12V

+12V

+12V

5

ATX1

8

1 4

2.4.7

Pin

1

4

5

2

3

PMBUS Connector (PMBUS1)

PMBUS1

Signal

SMB_CLK

SMB_DATA

SMB_ALERT

Ground (GND)

NC



2.4.8 USB Port Connectors (USB1~2)

The 10-pin standard Universal Serial Bus (USB) connector on this board is for installing versatile USB interface peripherals.


USB1~2

1 USB_POWER 2 USB_POWER

3 USB_PN1 4 USB_PN2

5

7

9

USB_PP1

GND

GND

6

8

10

USB_PP2

GND

GND

2.4.9 FAN Connectors (FAN1~3)

System fans are always needed to cool down CPU and system temperature. FAN1 ~

FAN3 connectors provide power to these system fans.(default use FAN1 and FAN2)

Pin Signal

FAN1~3

1 Ground (GND)

2 +12V

3 Rotation Detection In

4 Rotation Detection Out

2.4.10 Serial Port 2 Connector (COM2)

The COM port pin assignments are listed on the following table.

Pin Signal

1 Data Carrier Detect (DCD)

2

COM2

10

2 Data Set Ready(DSR)

3

4

5

Receive Date(RXD)

Request to Send(RTS)

Transmit Data(TXD)

1 9

8

9

6

7

Clear to Send(CTS)

Data Terminal Ready(DTR)

Ring Indicator(RI)

Ground (GND)

10 NC



2.4.11 Serial ATA Connectors (SATA1~4)

These Serial Advanced Technology Attachment (SATA) connectors are for high-speed

SATA interface ports. They are computer bus interfaces for connecting to devices such as serial ATA hard disk drives. Each SATA connector supports a single SATA device.


SATA1~4

1 GND 2 TX+

3 TX- 4 GND

5

7

RX-

GND

6 RX+

2.4.12 Front Panel Bezel Connector (JP11)

Power LED

：

This 3-pin connector (Pin 1, 3, 5) connects a LED indicator to the system power switch on the case. Pin 1 is assigned as +, and Pin 3, Pin 5 as -. The Power LED lights up when the system is powered ON.

External Speaker and Internal Buzzer Connector

：

This 4-pin connector (Pin 2, 4, 6, 8) can be connected to the case-mounted speaker unit or internal buzzer. While connecting the CPU card to an internal buzzer, please short pins

2-4; while connecting to an external speaker, you need to set pins 2-4 to Open and connect the speaker cable to pin 8 (+) and pin 2 (-).

ATX Power On/Off Button

：

This 2pin connector (Pin 9, 10) connects the front panel’s ATX power button to the CPU card, which allows users to control ATX power supply to be power on/off.

System Reset Switch

：

This 2-pin connector (Pin 11, 12) can be connected to the case-mounted reset switch that reboots your computer instead of turning OFF the power switch. It is a better way to reboot your system for a longer life of the system’s power supply.

HDD Activity LED

：

This connection is linked to hard drive activity LED on the control panel. LED flashes when HDD is being accessed. The 2-pin connector (Pin 13, 14) connects the hard disk drive to the front panel HDD LED, Pin 13 assigned as -, and Pin 14 as +.



2.4.13 VGA Connector (VGA1)

This is a 16-pin connector which is commonly used for CRT VGA monitor.

Pin Signal

1

VGA1

10

11

12

13

14

15

16

4

5

6

7

1

2

3

8

9

VGA_R

CRT_DETECT

VGA_G

NC

VGA_B

GND

VCC +5V

VGADDCDATA

GND

GND

GND

DAC_L_HSYNC

GND

DAC_L_VSYNC

VGADDCCLK

NC

2.4.14 Digital I/O Port Connector (DIO1)

2

The board is equipped with an 8-channel (4 inputs and 4 outputs) digital I/O connector that meets requirements for a system customary automation control. The digital I/O can be configured to control cash drawers and sense warning signals from an Uninterrupted

Power System (UPS), or perform store security control. You may use software programming to control these digital signals.

Pin Signal

1

2

3

4

Ground (GND)

Ground (GND)

Digital Output 3

Digital Input 3

5

6

7

Digital Output 2

Digital Input 2

Digital Output 1

8

9

Digital Input 1

Digital Output 0

10 Digital Input 0

2

DIO1

10

1 9



2.5 Hardware Installation

This section provides information of how to install the NA591 Series.

2.5.1 Installing the CPU

Before installing the processor, please access Intel

® of Processor Integration Video (LGA1151) :

website for more detail information http://www.intel.com/support/tw/processors/sb/CS-030860.htm

.

The LGA1151 processor socket comes with a cover to protect the processor. Please install the processor into the CPU socket step by step as below:

Step 1 Opening the socket:







Disengage load lever by releasing down and out on the hook. This will clear retention tab.

Rotate load lever to open position at approximately 135°.

Rotate load plate to open position at approximately 150°.

Note: Apply pressure to corner with right-hand thumb when opening or closing load lever - otherwise lever will bounce back (as a mouse trap) causing bent contacts.

Step 2 Removing the socket protective cover:

 Place thumb against the front edge of the protective cover and rest index finger on the rear grip to maintain control of the cover.

 Lift the front edge of the protective cover to disengage from the socket. Keep control of the cover by holding the rear grip with index finger.

 Lift protective cover away from the socket, being careful not to touch the electrical contacts.



Note: Vertical removal is NOT recommended, as it requires higher force and can lead to socket contact damage.

Caution: Never touch fragile socket contacts to avoid damage and do not touch processor sensitive contacts at any time during installation.

Step 3 Processor installation:

 Lift processor package from shipping media by grasping the substrate edges.





Scan the processor package gold pads for any presence of foreign material. If necessary, the gold pads can be wiped clean with a soft lint-free cloth and isopropyl alcohol.

Locate connection 1 indicator on the processor which aligns with connection 1 indicator chamfer on the socket, and notice processor keying features that line up with posts along socket walls.







Grasp the processor with thumb and index finger along the top and bottom edges.

(Do not touch the orientation notches.) The socket will have cutouts for your fingers to fit into (see image below).

Carefully place the processor into the socket body vertically (see image below).

Note: Tilting or roughly shifting it into place can damage socket contacts.

Caution: Do not use a vacuum pen for installation.

 Verify that package is within the socket body and properly connected to orientation keys.

 Close the socket (see image below):

1. Gently lower the load plate.

2. Make sure load plate's front edge slides under the shoulder screw cap as the lever is lowered.

3. Latch the lever under the top plate's corner tab, being cautious not to damage the motherboard with the tip of the lever.



2.5.2 Installing the Memory

The board supports four 240-pin DDR4 UDIMM memory sockets with maximum memory capacity up to 32GB.

Please follow steps below to install the memory modules:

1. Push down latches on each side of the DIMM socket.

2. Align the memory module with the socket that notches of memory module must match the socket keys for a correct installation.

3. Install the memory module into the socket and push it firmly down until it is fully seated. The socket latches are levered upwards and clipped on to the edges of the

DIMM.

4. Install any remaining DIMM modules.


2.5.3 Installing the Hard Disks

The system supports two 2.5” HDDs

 Two 2.5” HDD




This page is intentionally left blank .



Chapter 3

AMI BIOS Setup Utility

The AMI BIOS provides users with a built-in setup program to modify basic system configuration. All configured parameters are stored in a battery-backed-up RAM (CMOS RAM) to save the setup information whenever the power is turned off. This chapter provides users with detailed description about how to set up basic system configuration through the AMI BIOS setup utility.

3.1 Starting

To enter the setup screens, follow the steps below:

1. Turn on the computer and press the <DEL>or<ESC> key immediately.

2. After you press the <DEL>or<ESC> key, the main BIOS setup menu displays. You can access the other setup screens from the main BIOS setup menu, such as the Advanced and Chipset menus.

It is strongly recommended that you should avoid changing the chipset ’s defaults. Both AMI and your system manufacturer have carefully set up these defaults that provide the best performance and reliability.

3.2 Navigation Keys

The BIOS setup/utility uses a key-based navigation system called hot keys. Most of the BIOS setup utility hot keys can be used at any time during the setup navigation process. These keys include <F1>, <F2>, <Enter>, <ESC>, <Arrow> keys, and so on.

Note: Some of the navigation keys differ from one screen to another.

Hot Keys

 Left/Right

 Up/Down

+



Plus/Minus

Tab

F1

F2

F3

F4

Esc

Enter

Description

The Left and Right <Arrow> keys allow you to select a setup screen.

The Up and Down <Arrow> keys allow you to select a setup screen or sub-screen.

The Plus and Minus <Arrow> keys allow you to change the field value of a particular setup item.

The <Tab> key allows you to select setup fields.

The <F1> key allows you to display the general help screen.

The <F2> key allows you to load previous values.

The <F3> key allows you to load optimized defaults.

The <F4> key allows you to save any changes you have made and exit setup. Press the <F4> key to save your changes.

The <Esc> key allows you to discard any changes you have made and exit the setup. Press the <Esc> key to exit the setup without saving your changes.

The <Enter> key allows you to display or change the setup option listed for a particular setup item. The <Enter> key can also allow you to display the setup sub- screens.

AMI BIOS Setup Utility 27


3.3 Main Menu

When you first enter the setup utility, you will enter the Main setup screen. You can always return to the Main setup screen by selecting the Main tab. System Time/Date can be set up as described below. The Main BIOS setup screen is shown below.

System Date/Time

Use this option to change the system time and date. Highlight System Time or System Date using the <Arrow> keys. Enter new values through the keyboard. Press the <Tab> key or the

<Arrow> keys to move between fields. The date must be entered in MM/DD/YY format. The time is entered in HH:MM:SS format.

28 AMI BIOS Setup Utility


3.4 Advanced Menu

The Advanced menu also allows users to set configuration of the CPU and other system devices. You can select any of the items in the left frame of the screen to go to the sub menus:

►

►

►

►

►

►

►

►

►

CPU Configuration

PCH-FW Configuration

Trusted Computing

NCT6102D Super IO Configuration

NCT6102D HW Monitor

►

AST2500 Super IO Configuration

Serial Port Console Redirection

USB Configuration

CSM Configuration

Network Stack Configuration

For items marked with “  ”, please press <Enter> for more options.



 CPU Configuration

This screen shows the CPU Configuration, and you can change the value of the selected option.



 PCH-FW Configuration

You can use this screen to select options for the PCH-FW Configuration, and change the value of the selected option. A description of the selected item appears on the right side of the screen. For items marked with “  ”, please press <Enter> for more options.



 Trusted Computing

This item supports security devices. “Enable” or “Disable” BIOS support for security devices.

If you installed the Security device, such as TPM, you could see the following information for the TPM device and status.



 NCT6102D Super IO Configuration

You can use this screen to select options for the NCT6102D Super IO Configuration, and change the value of the selected option. A description of the selected item appears on the right side of the screen. For items marked with “  ”, please press <Enter> for more options.

 Serial Port 1 Configuration

This option specifies the base I/O port address and Interrupt Request address of serial port 1.

The Optimal setting is 3F8h/IRQ4.



 Serial Port 2 Configuration


The Optimal setting is 2E8h/IRQ3.



 Chassis Opened Warning

Select to enable or disable chassis intrusion detection. Chassis intrusion detection is a utility that can tell whether someone has opened the case and trigger the buzzer on board.

Remark: Pin harder design has reserved for customized chassis.



 NCT6102D H/W Monitor

This screen monitors is hardware health.

This screen displays the temperature of system and CPU, cooling fan speed in RPM and system voltages (VCORE and +12V).



 AST2500SEC Super IO Configuration

You can use this screen to select options for the Super IO Configuration, and change the value of the selected option. A description of the selected item appears on the right side of the screen.

 Serial Port 1 Configuration


The Optimal setting is 240h/IRQ3.



 Serial Port 2 Configuration


The Optimal setting is 248h/IRQ4



 Serial Port Console Redirection

 Console Redirection

Use this item to enable or disable console redirection. The settings specify how the host computer and remote computer (which the user is using) will exchange data. Both computers should have the same or compatible setting.

 Console Redirection Settings



Terminal Type

This item allows you to select the target terminal type. Configuration options: ANSI, VT100,

VT100+ and VT-UTF8.

Bits per second

This item allows you to setup the data transfer rate for the console port. The default value is

115200. Available options are “ 9600 ”, “ 19200 ”, “ 38400 ”, “ 57600 ” and “ 115200 ”.

Data Bits

This item allows you to select the data bits. The configuration options: 7 and 8.



Parity

This item allows you to select flow control for console redirection. The configuration options:

None, Even, Odd, Mark and Space.



Stop Bits

This item allows you to select the data bits. The configuration options: 1 and 2.

Flow Control

This item allows you to select flow control for console redirection. The configuration options:

None and Hardware RTS/CTS.



VT-UTF8 Combo Key Support

Use this item to Enabled and Disabled VT-UTF8 combination key supports for ANSI / VT100 terminals.

Recorder Mode

This item allows you to select the recorder mode. The configuration options: Enabled and

Disabled.



Resolution 100x31

This item allows you to select the extended terminal. The configuration options: Enabled and

Disabled.

Putty Keypad

This item allows you to select the putty keypad. The configuration options: VT100,

LINUX,XTERMR6, SCO, ESCN and VT400.


 USB Configuration

Use this item for further setting USB port configuration.


Legacy USB Support

Enable this field when using operating systems without the XHCI hand-off support.

USB Mass Storage Driver Support

Enable this field USB can be storage. This should be enabled this field.

USB transfer time-out

Setting 20seconds (time-out interval), the host controller starts a timer when it receives the transfer request.



 CSM Configuration

This screen shows the CSM Configuration, and you can enable/disable option ROM execution settings.

 LBP @PowerOn (All SEG)

For Power On LAN Bypass setting, use LBP @PowerOn item to “Disabled” ,“Enabled” or “Last

State” for LAN Bypass all segments.



 LBP @Power Off (All SEG)

For Power off LAN Bypass setting, use LBP @PowerOff item to “Disabled” ,“Enabled” or “Last

State” for LAN Bypass all segments .

 LBP @PowerOn (All SEG)

For Power On LAN Bypass setting, use LBP @PowerOn item to “Disabled” ,“Enabled” or “Last

State” for LAN Bypass all segments.



 LBP @Power Off (All SEG)

For Power off LAN Bypass setting, use LBP @PowerOff item to “Disabled” ,“Enabled” or “Last

State” for LAN Bypass all segments .

 Network

For Network setting, use Network item to “Do not launch” or “UEFI” or ”Legacy” mode .



 Storage/Video/AST2500 VBIOS

For Storage/Video/AST2500 VBIOS setting, use item to controls the execution of “UEFI” or

“Legacy” mode.

 Network Stack Configuration

For Network stack, use Network item to “Disabled” or “Enabled” mode .



3.5 Chipset Menu

The Chipset menu allows users to change the advanced chipset settings. You can select any of the items in the left frame of the screen to go to the sub menus:

►

►

System Agent (SA) Configuration

PCH-IO Configuration

For items marked with “  ”, please press <Enter> for more options.



 System Agent (SA) Configuration

 Memory Configuration

This screen allows users to configure parameters of North Bridge Chipset.







PCH-IO Configuration

You can select any of the items in the screen:

► PCH SATA Configuration

 SATA Controller

This item allows you to select the SATA controller. Configurat ion options: “Enabled” or

“Disabled”.



 SATA Mode Selection

The item allows you to select the configure SATA. Configuration options: AHCI. & RAID mode.

AHCI mode allows the onboard storage driver to enable advanced SATA features that increases storage performance or workloads where multiple simultaneous read/ write requests are outstanding, most often occurring in server-type applications.\



3.6 Security Menu

The Security menu allows users to change the security settings for the system.

 Administrator Password

This item indicates whether an administrator password has been set. If the password has been installed, Installed displays. If not, Not Installed displays.

 User Password

This item indicates whether the user password has been set. If the password has been installed, Installed displays. If not, Not Installed displays.



3.7 Boot Menu

The Boot menu allows users to change boot options of the system.

 Setup Prompt Timeout



3.8 Save & Exit Menu

The Save & Exit menu allows users to load your system configuration with optimal or fail-safe default values.

 Save Changes and Exit

When you have completed the system configuration changes, select this option to leave Setup and return to Main Menu. Select Save Changes and Exit from the Save & Exit menu and press

<Enter>. Select Yes to save changes and exit.



 Discard Changes and Exit

Select this option to quit Setup without making any permanent changes to the system configuration and return to Main Menu. Select Discard Changes and Exit from the Save & Exit menu and press <Enter>. Select Yes to discard changes and exit.

 Save Changes and Reset

When you have completed the system configuration changes, select this option to leave Setup and reboot the computer so the new system configuration parameters can take effect. Select

Save Changes and Reset from the Save & Exit menu and press <Enter>. Select Yes to save changes and reset.



 Discard Changes and Reset

Select this option to quit Setup without making any permanent changes to the system configuration and reboot the computer. Select Discard Changes and Reset from the Save &

Exit menu and press <Enter>. Select Yes to discard changes and reset.

 Save Changes

When you have completed the system configuration changes, select this option to save changes. Select Save Changes from the Save & Exit menu and press <Enter>. Select Yes to save changes.



 Discard Changes

Select this option to quit Setup without making any permanent changes to the system configuration. Select Discard Changes from the Save & Exit menu and press <Enter>. Select

Yes to discard changes.

 Restore Defaults

It automatically sets all Setup options to a complete set of default settings when you select this option. The Optimal settings are designed for maximum system performance, but may not work best for all computer applications. In particular, do not use the Optimal Setup options if your computer is experiencing system configuration problems. Select Restore Defaults from the Save & Exit menu and press <Enter>.



 Save as User Defaults

Select this option to save system configuration changes done so far as User Defaults. Select

Save as User Defaults from the Save & Exit menu and press <Enter>.

 Restore User Defaults

It automatically sets all Setup options to a complete set of User Defaults when you select this option. Select Restore User Defaults from the Save & Exit menu and press <Enter>.


3.9 Server Management


 BMC Network Configuration

 Configuration Address Source

S elect the configure LAN channel 1 parameters statically or dynamically (by BIOS or BMC).

Unspecified option will not modify any BMC network parameters during BIOS phase.

Unspecified / Static.






Appendix A

LAN Bypass Configuration

About LAN Bypass

In network security application, it is very important to ensure that network traffic to continue passing through the device even if hardware failure occurs or operating system crashes. LAN bypass gives us a solution for this problem.

The NA591 series LAN bypass function is very flexible. It can be selected at any time and any stage. You can enable LAN bypass for power on state by BIOS, or by software program when entering into the OS.

Moreover, for power off state, you can set up LAN Bypass through BIOS, or use software program when entering into the OS. If you don’t do any change, the state will keep the previous power off state.

The NA591 ’s LAN bypass capability with the special designed latch relay circuitry. When LAN bypass function is enabled, a relay closes to act as a bridge to route network data flow between LAN module ’s LAN port 0 and LAN port 1 (or LAN port 2 and LAN port 3 etc.). The bypass feature can be activated immediately or according to timer which is configurable from 1 up to 64 seconds. You can write a software program to control bypass operation behavior to fit your requirement. A LAN bypass sample program is provided on website or contact our FAE directly.

LAN Bypass Configuration 63


LAN Bypass Register Configuration

 Power ON Bypass Control Register

Address:

LAN module /Slot1 LAN module/Slot2 LAN module/Slot3 LAN module/Slot4

0x8E0 0x8E4 0x8E8 0x8EC

7

BYM1

6

BYM0

5

X

4

X

3

SEGN4

2

SEGN3

1

SEGN2

0

SEGN1

W W -- -- W W W W

Default value: 00000000

Bit 7~6 BYM1~0

These bits are used to set bypass mode.

00

01

Not used.

Force bypass enable

Relay closes immediately to form LAN bypass on selected segment when power on.

10 Force bypass disable

LAN bypass is disabled immediately on selected segment when power on.

64 LAN Bypass Configuration


11 Timer enable

When power on, the selected segments are controlled by the setting of

LAN bypass Timer Control register.

Bit 5~4 Not used.

Bits 3~0 SEGN4~1

Select each segment by setting the corresponding bit to 1. When the bit is set to 0, no action happens upon the segment.

Data read back from this register is not defined and therefore must be ignored. Reading from this register makes no effect on LAN bypass function. All data in this register will be cleared when system is turned off. If you still want to use power on LAN bypass function, turn on the system and make sure to rewrite the register. Otherwise, if you don’t rewrite the register, the status will be kept on power off bypass state.

 Power OFF Bypass Control Register

Address:

LAN module/Slot1 LAN module/Slot2 LAN module/Slot3 LAN module/Slot4

0x8E1 0x8E5 0x8E9 0x8ED

7

X

6

X

5

X

4

X

3

SEGF4

2

SEGF3

1

SEGF2

0

SEGF1

-- -- -- -- W W W W


Bit 7~4 Not used.

Bits3~0 SEGF4~1

Use the corresponding bit to configure each segment. Setting the bit to 1 enables

LAN bypass on the segment when power off. Clearing the bit to 0 disables LAN bypass on the segment when power off.

Data read back from this register is not defined and therefore must be ignored. Reading from this register makes no effect on LAN bypass function. When system is turned off, last data written onto this register will be kept. If you want to make any change, turn on the system and make sure to reconfigure the register.

 LAN Bypass Timer Control Register

Address:

LAN module/Slot1 LAN module/Slot2 LAN module/Slot3

0x8E2

7

TEXP

6

X

R --


5

X

--

0x8E6

4

X

--

3

X

--

0x8EA

2

TVAL2

W

LAN module/Slot4

1

TVAL1

W

0x8EE

0

TVAL0

W

LAN Bypass Configuration 65


Bit 7 TEXP (Read Only)

This bit indicates status of hardware timer.

0 Timer has not expired

1 Timer has expired

Bits 6~3 Not used.

Bits 2~0 TVAL2~0

These bits determine the amount of count value in second(s).

001

010

011

100

101

110

111

000

1 (sec)

2 (sec)

4 (sec)

8 (sec)

16 (sec)

32 (sec)

64 (sec)

Timer is not activated.

Writing a value to these bits will reset the hardware timer. The counting process begins again according to the new written value. Software must write count value periodically to ensure that timer will never expire. If timer timeout occurs, relay(s) automatically close to form LAN bypass on selected segment(s) based on the setting of Power On Bypass Control register (SEGN4~SEGN1).

Data (bits 6~0) read back from this register is not defined and therefore must be ignored. A read operation upon this register should not refresh the hardware timer.

 LAN Bypass Status / Firmware Version Register

Address:

LAN module/Slot4

0x8EF

LAN module/Slot1 LAN module/Slot2 LAN module/Slot3

0x8E3 0x8E7 0x8EB

7 6 5 4 3 2

VER3 VER2 VER1 VER0 BY4

R R R R R

Bit3~0 Lan Bypass Seg.1 status  Disable=0; Enable=1

Bit 7~4 Firmware version

Without LAN bypass function=1111

BY3

R

1

BY2

R

0

BY1

R

66 LAN Bypass Configuration


Appendix B

WDT Timer for System Reset

WDT (Watchdog Timer)

The hardware supports the WDT (Watchdog Timer) function. While time-out happens after a defaulted period, the WDT will reset the system.

Note: The sample codes for the above features can be found in the CD, and they are only for customers’ reference as remarked.

WDT Timer for System Reset 67



68 WDT Timer for System Rese


Appendix C

LAN Module Expansion

You can install LAN module(s) into NA591 ’s front-accessible expansion slots to meet your application requirement. Here are some LAN module configurations for your selection:

 LAN Modules

Slim Module Ports Chipset Bypass NA591

GbE Copper Modules

AX93316-8GI

AX93316-8GIL

AX93326-8GIL

AX93336-4GI

AX93336-4GIL

GbE Fiber Modules

AX93322-8FI

AX93322-8MIL

AX93336-4FI

10GbE Copper Modules

AX93317-2GIL


AX93307-2FI

AX93307-2FIL

AX93327-4FI

8

8

8

4

4

8

4+4

4

2

2

2

4

Intel 82580EB

Intel 82580EB

Intel 210AT

Intel i211AT

Intel i350

Intel 82580EB

Intel 82580EB

Intel i350

Intel X540

Intel 82599ES

Intel 82599ES

Intel XL710

0

4

4

0

2

0

2

0

1

0

1

0 v v v v v v v v v v v

V

Slot1/Slot2


AX93332-25FI 2 Intel XXV710 0

V

Slot1/Slot2


AX93331-2QFI 2 Intel XL710 0

V

Slot1/Slot2

LAN Module Expansion 69


LAN Bypass Control Jumper (JP2/JP3)

Use this jumper to select the LAN Bypass Function.

Description Function Jumper

LAN Bypass Trigger when

Power On

All SEG. Bypass as same as Power Off status

All SEG Bypass Disable(Default)

All SEG Bypass Enable

JP2

JP3

JP2

JP3

JP2

Note: When the system is turned on, you can select LAN bypass function by Jumper and

Bios when power on state, when enter the OS, you can select LAN bypass function at power on/ off state by software ,the detail information please refer to the appendix

A.

LED Definition

AX93316

LAN bypass LED

 LAN bypass LED

While running the LAN By-Pass function, the LED always lights up.

 Active LED (Single color)for LAN port #1, port#2, port#3, port#4, port #5, port#6, port#7, port#8

 The orange LED is on when the LAN port connection is working.

 The LED flashes when transmitting or receiving any signals to or from the appliance.

 The LED is dark when the appliance is off.

70 LAN Module Expansion


 Link LED for LAN port #1, port#2, port#3, port#4, port#5 and port#6, port#7, port#8

 The double-color LED light indicates 10/100/1000Mbps transfer rate.

 When the orange-color LED light is radiating, it should be 1000Mbps transfer rate.

 When the green-color LED light is radiating, it should be 100Mbps transfer rate.

 If the Link LED is dark and Active LED is light on or flashing, it should be 10Mbps transfer rate.

When this LED and Link / Active LED both are dark. No networking devices are attached

Transfer Rate LED Light Color

10Mbps

AX93336-4GIL

100Mbps

1000Mbps

Dark

Green

Orange

LAN bypass LED



 Active LED (Single color)for LAN port #1, port#2, port#3, port#4




 Link LED for LAN port #1, port#2, port#3, port#4





When this LED and Link/Active LED both are dark. No networking devices are attached


10Mbps

100Mbps

1000Mbps

Dark

Green

Orange



AX93336-4FI


Fiber port

Active: Orange

Fiber port

Link: Orange



AX93322-8FI


Down Fiber port

Active: Orange

Up Fiber port

Active: Orange

Down Fiber port

Link: Orange

Up Fiber port

Link: Orange



AX93322-8MIL

LAN bypass LED

FIBER:


Down Fiber port

Active: Orange

Up Fiber port

Active: Orange

Down Fiber port

Link: Orange

Up Fiber port

Link: Orange

Copper:



 Active LED (Single color)for LAN port #1, port#2, port#3, port#4




 Link LED for LAN port #1, port#2, port#3, port#4







When this LED and Link / Active LED both are dark. No networking devices are attached


10Mbps

100Mbps

1000Mbps

Dark

Green

Orange

AX93317

LAN bypass LED



 Active LED (Single color)for LAN port #1, port#2




 Link LED for LAN port #1, port#2

 The double-color LED light indicates 1000/10000Mbps transfer rate.



When this LED and Link/Active LED both are dark. No networking devices are attached


1000Mbps

10000Mbps

Green

Orange



AX93307

LAN bypass LED







LAN bypass LED


Active LED (Single color)for LAN port #1, port#2




Link LED for LAN port #1, port#2

 The double-color LED light indicates 1000/10000Mbps transfer rate.



Transfer Rate

1000Mbps

10000Mbps

LED Light Color

Green

Orange



Appendix D

Warning

 This is a class A Product. In a domestic Environment this Product may cause radio interference in which case the user may be required to take adequate measures.

 It will be danger if battery is incorrectly replaced. Replacing only with the same or equivalent type is highly recommended by the manufacturer. Dispose of used batteries a ccording to the manufacturer’s instructions.

 Warning for Hard Disk Drive Selection:

TUV approved Hard Disk Drive is preferred for TUV compliance Hard Disk drive-Optional, (NWGQ2), generic, Input Voltage rated 5V DC/1.0A, 12V DC/1.8A maximum. Minimum clearance from uninsulated live parts 4.0 mm.

 The equipment is to be installed in an environment with maximum ambient temperature must not exceed 40



C







The openings on the enclosure are for air convection hence protected the equipment from overheating. DO NOT COVER THE OPENINGS.





Lay this equipment on a reliable surface when install. A drop or fall could cause injury.

The equipment shall be installed according to specification as nameplate. Make sure the voltage of the power source when connect the equipment to the power outlet.

The current of load and output power of loads shall be not over the specification.

This equipment must be connected to the reliable earthling before using.

Electric shock hazard inside the redundant power supply.

The exchange of modules shall be done by service person.

Warning 77



78 Warning

Axiomtek NA591 Rackmount Network Appliance User Manual

SMB Network Appliance

User’s Manual

Disclaimers

CAUTION

Safety Approvals

Safety Precautions

Trademarks Acknowledgments

Table of Contents

Chapter 1

Introduction

1.1 General Description

1.2 Features

1.3 Specifications

1.4 Block Diagram

1.5 Dimensions and Outlines

1.6 I/O Outlets

Chapter 2

Hardware and Installation

2.1 Check List

2.2 Board Layout

TOP

BOTTOM

2.3 Jumper Settings

2.4 Connectors

2.5 Hardware Installation

Chapter 3

AMI BIOS Setup Utility

3.1 Starting

3.2 Navigation Keys

3.3 Main Menu

3.4 Advanced Menu

3.5 Chipset Menu

3.6 Security Menu

3.7 Boot Menu

3.8 Save & Exit Menu

3.9 Server Management

Appendix A

LAN Bypass Configuration

About LAN Bypass

LAN Bypass Register Configuration

Appendix B

WDT Timer for System Reset

Appendix C

LAN Module Expansion

LAN Bypass Control Jumper (JP2/JP3)

Appendix D

Warning

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Table of contents