Lanner UP-2010 User Manual

Network
Communications

Hardware Platforms for Network Computing

UP-2010
V1.1

User's Manual

Release Date: 2016/03/04

Overview

Icon Descriptions

The icons are used in the manual to serve as an
indication of interest topics or important messages.
Below is a description of these icons:

NOTE: This check mark indicates

that there is a note of interest and is
something that you should pay special
attention to while using the product.

WARNING: This exclamation point

indicates that there is a caution or
warning and it is something that could
damage your property or product.

Online Resources

The listed websites are links to the on-line product
information and technical support.

Resource Website

Lanner http://www.lannerinc.com

Product
Resources

http://www.lannerinc.com/download­center/

RMA http://eRMA.lannerinc.com

Copyright and Trademarks

This document is copyrighted, © 2014 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. Information provided in this manual
is intended to be accurate and reliable. However, the
original manufacturer assumes no responsibility for its
use, nor for any infringements upon the rights of third
parties that may result from such use.

Acknowledgement

Intel, Pentium and Celeron are registered trademarks of
Intel Corp.

Microsoft Windows and MS-DOS are registered
trademarks of Microsoft Corp.

All other product names or trademarks are properties of
their respective owners.

Compliances

CE

This product has passed the CE test for environmental
specifications. Test conditions for passing included
the equipment being operated within an industrial
enclosure. In order to protect the product from being
damaged by ESD (Electrostatic Discharge) and EMI
leakage, we strongly recommend the use of CE­compliant industrial enclosure products.

FCC Class A

This equipment has been tested and found to comply
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 when the equipment is operated in a
commercial environment. This equipment generates,
uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction
manual, may cause harmful interference to radio
communications. Operation of this equipment in a
residential area is likely to cause harmful interference
in which case the user will be required to correct the
interference at his own expense.

Safety Guidelines

Follow these guidelines to ensure general safety:

Keep the chassis area clear and dust-free during and after •
installation.

Do not wear loose clothing or jewelry that could get •
caught in the chassis. Fasten your tie or scarf and roll up
your sleeves.

Wear safety glasses if you are working under any •
conditions that might be hazardous to your eyes.

Do not perform any action that creates a potential hazard •
to people or makes the equipment unsafe.

Disconnect all power by turning off the power and •
unplugging the power cord before installing or removing a
chassis or working near power supplies

Do not work alone if potentially hazardous conditions •
exist.

Never assume that power is disconnected from a circuit; •
always check the circuit.

LITHIUM BATTERY CAUTION:

Risk of Explosion if Battery is replaced by an incorrect type.
Dispose of used batteries according to the instructions

Operating Safety

Electrical equipment generates heat. Ambient air temperature
may not be adequate to cool equipment to acceptable
operating temperatures without adequate circulation. Be sure
that the room in which you choose to operate your system has
adequate air circulation.

Ensure that the chassis cover is secure. The chassis design
allows cooling air to circulate effectively. An open chassis
permits air leaks, which may interrupt and redirect the flow of
cooling air from internal components.

Electrostatic discharge (ESD) can damage equipment and
impair electrical circuitry. ESD damage occurs when electronic
components are improperly handled and can result in complete
or intermittent failures. Be sure to follow ESD-prevention
procedures when removing and replacing components to avoid
these problems.

Wear an ESD-preventive wrist strap, ensuring that it makes
good skin contact. If no wrist strap is available, ground yourself
by touching the metal part of the chassis.

Periodically check the resistance value of the antistatic strap,
which should be between 1 and 10 megohms (Mohms).

EMC Notice

This equipment has been tested and found to comply
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 when the equipment is operated in a
commercial environment. This equipment generates,
uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction
manual, may cause harmful interference to radio
communications. Operation of this equipment in a
residential area is likely to cause harmful interference
in which case users will be required to correct the
interference at their own expense.

Revision Date Description

1.0 2014/12/30 Ocial release

1.1 2016/03/04 R e m o v e d P o E r e l a t e d
information

Consignes de sécurité

Suivez ces consignes pour assurer la sécurité générale :

Laissez la zone du châssis propre et sans poussière •
pendant et après l’installation.

Ne portez pas de vêtements amples ou de bijoux qui •
pourraient être pris dans le châssis. Attachez votre
cravate ou écharpe et remontez vos manches.

Portez des lunettes de sécurité pour protéger vos •
yeux.

N’effectuez aucune action qui pourrait créer un •
danger pour d’autres ou rendre l’équipement
dangereux.

•

Coupez complètement l’alimentation en éteignant •
l’alimentation et en débranchant le cordon
d’alimentation avant d’installer ou de retirer un
châssis ou de travailler à proximité de sources
d’alimentation.

Ne travaillez pas seul si des conditions dangereuses •
sont présentes.

Ne considérez jamais que l’alimentation est coupée •
d’un circuit, vérifiez toujours le circuit. Cet appareil
génère, utilise et émet une énergie radiofréquence
et, s’il n’est pas installé et utilisé conformément aux
instructions des fournisseurs de composants sans
fil, il risque de provoquer des interférences dans les
communications radio.

Avertissement concernant la pile au
lithium

Risque d’explosion si la pile est remplacée par une •
autre d’un mauvais type.

Jetez les piles usagées conformément aux •
instructions.

L’installation doit être effectuée par un électricien •
formé ou une personne formée à l’électricité
connaissant toutes les spécifications d’installation et
d’appareil du produit.

Ne transportez pas l’unité en la tenant par le câble •
d’alimentation lorsque vous déplacez l’appareil.

La machine ne peut être utilisée qu’à un lieu fixe •
comme en laboratoire, salle d’ordinateurs ou salle de
classe.

Table of Contents

Overview 2

Chapter 1: Introduction 5

System Specification 5

Package Contents 6

Chapter 2: System Components 7

Mechanical Drawing 7

Block Diagram 8

Front Components 9

Rear Components 10

Chapter 3: Motherboard Information 11

Inside UP-2010 11

Jumpers & Connectors on the Intel Rangeley Main Board 12

Jumpers & Connectors on the PCIe I/O Board 13

Connectors and Jumpers List 14

Jumper Settings & Connector Pinouts on the Intel Rangeley Main Board 15

Jumper Settings & Connector Pinouts on the PCIe I/O Board 18

Chapter 4: Hardware Setup 21

Preparing the Hardware Installation 21

Installing System Memories 21

Installing a CompactFlash Card 22

Replacing the PSU (Power Supply Unit) 22

Replacing the Cooling Fans 23

Appendix A: Programming Watchdog Timer 24

Appendix B: Setting up Console Redirections 24

Appendix C: On Linux 25

Appendix D: Terms and Conditions 26

Chapter 1:
Introduction

Thank you for choosing Lanner UP-2010. Lanner
UP-2010 is an enterprise-class 1U rackmount network
security appliance with high-density Ethernet ports and
PoE capability. Built with Intel® Atom™ C2000 processor,
the appliance can offer efficient packet processing
abilities and Intel® security instructions at low power
consumption. In addition, UP-2010 also comes with
Marvell® Prestera® processor to provide high-port
density to act as a switch. The appliance is highly ideal
for enterprise gateway controller, UTM, Switch or next­generation firewall.

Features:

8 x PoE ports for wireless access points or IP •
cameras

High-port density with 24 x 1GbE RJ45 copper •
ports plus 2 x 10GbE SFP+

Intel® Atom™ C2758 8-core, 2.4 GHz•

Marvell® Prestera® 98DX3035 packet processor•

Built-in Intel® QuickAssist acceleration technology•

Supports DDR3 ECC memory•

1 console port, 1 management port, 2 x USB ports•

System Specification

Form Factor 1U Rackmount

Platform

Processor Options

Intel® Atom™ Processor
C2758 (4M Cache, 2.40 GHz)

Chipset N/A

BIOS

64Mb Flash Memory with
AMI® BIOS

System
Memory

Technology DDR3 ECC supported
Max. Capacity Up to 16GB

Socket 2 x 204 SO-DIMM

OS Support

Supports 32-bit/64-bit
operating systems

Storage

1 x SATA 2.5” HDD/SSD
(optional)
1 x CompactFlash card

Network
Interface

Management Port

1 x RJ-45 by Intel I210

LOM Port N/A
Bypass N/A

Ethernet

1 x MGT port
24 x RJ45 ports
2 x 10G SFP+ ports

NIC module space N/A

I/O Connectors

Reset

Software / Hardware reset
(Control by GPIO) default SW
reset

Console 1 x RJ45 console
USB 2 x USB 2.0 ports
LED Power/Status/HDD

FAN

3x FAN connectors 5pin (support
SMART FAN)

IPMI

1x RJ-45 connector for IPMI
management

SATA 1 x SATA connector

Power supply

500W
Input 100-240V, 50-60Hz,
7-3.5A

System Cooling

2 x cooling fans (supporting
smart fan)

Thermal 1 x heatsink

Environment

Operating
Temperature

0º to 40º C

Storage
Temperature

-40º C to 70º C

Operating
Humidity

5% to 90%

Dimensions (unit: mm) 431 X 44 X 355 (W x H x D)
Certication CE, FCC, RoHS

Package Contents

Your package contains the following items:

1 – WG-UP2010 POE Switch System•

2 – Power cable•

1 – Ear Rack mount kit with screws•

1 – Console cable•

1 – LAN Cable (Red)•

1 – Doc Kit for WG•

Note: If you should find any components missing or
damaged, please contact your dealer immediately for
assistance

Ordering Information

UP-2010

24 ports RJ45 (Marvell 98DX3035) w/o
bypass, Intel® Atom™ Processor
C2718 (4MB Cache, 2.00 GHz) FC-BGA13E,
Tray, MB-UP2010W + FCUPWG2010

Chapter 2:
System Components

Mechanical Drawing

Block Diagram

PSU

Intel

Rangeley

Platform

C2758

DDR3 1600

ECC SO-DIMM

CF Card

PSU

PCIe x8 *2

Front Components

Component Description Remarks

F1 LED Indicators

Power/Status/HDD

F2 Console

1 x RJ-45 port to be connected with a terminal PC for
diagnose and management purposes

F3 USB 2.0 Ports

2 x USB 2.0 type A connectors.

F4 Management 1 x RJ-45 management port
F5 LAN ports 24 x Ethernet LAN ports
F6 SPF ports 2 x 10GbE SPF network ports
F7 Power switch Power switch

F3

F1

F5

F2

F4

F6

F7

F10

Component Description Remarks

R1 Fan

2 x cooling fans

R2 PSU

500W power supply unit

Rear Components

R1

R2

Chapter 3:
Motherboard Information

Inside UP-2010

The internal of UP-2010 is a composition of the Intel
Rangeley main board and a PCIe module board for high­density network ports powered by Marvell engines and
Intel controllers.

The main Intel
Rangeley board

PCIe I/O board

Intel Rangeley

Intel i210

Intel 82599

Marvell 98DX3035

Marvell 88E1685

Jumpers & Connectors on the Intel Rangeley Main Board

J4

J3

J20

JBAT1

J21

DIMM1

DIMM2

CF1

FAN1

FAN2

FAN3

SATA 6G1

PS4S1

PS4S2

PKMB1

LPC1

USB2

SPIROM1

PCIE1

PCIE2

J6

J5

Jumpers & Connectors on the PCIe I/O Board

USB1

COM1

RJ1

RJ2

RJ4 RJ3

SPIROM1

PCIEC1

PCIEC2

CN1

PWR1

PWR2

Connectors and Jumpers List

Connectors/Jumpers on the Intel Rangeley board
Labels Function

DIMM 1,2 2x DDR SO-DIMM sockets
FAN1, 2, 3 3 x FAN connectors
CF1 1 x CompactFlash socket
SATA6G1 1 x SATA port at 6Gbps interface
PS4P1 1 x SATA 4-pin power connector
PS4P2 1 x SATA DOM power connector
PKMB1 1 x keyboard/mouse connector
PCIE1, 2 2 x PCIe x 8 lanes sockets
J4 Reset mode jumper setting
J3 RTEST clear mode jumper setting
J20 TPM physical presence Select
JBAT1 CMOS clear
J21 AT mode select
LPC1 Low Pin Count pin header
USB2 1 x USB pin header
SPIROM1 1 x SPIROM pin header

Connectors/Jumpers on the PCIe I/O board
Labels Function

PWR1, 2 2 x power supply unit connectors
CN1 2 x SFP connectors
PCIEC1,C2 2 x PCIe x 8 lanes connectors
SPIROM1 1 x SPIROM pin header
RJ4 8 x RJ45 Ports Connector w/o transformer (2X4)
RJ2, 3 8 x RJ45 Ports Connector w/transformer (2X4)
RJ1 8 x RJ45 Ports Connector w/transformer (2X4)
COM1 RJ45 console
USB1 2 x USB connectors
J5 Ethernet Switch debug port
J6

MDC/MDIO I/F Option

Jumper Settings & Connector Pinouts on
the Intel Rangeley Main Board

J4: Reset mode setting

J3: RTEST Clear

J20: TPM Physical Presence Select

J21 AT Mode Select

Pin No. Description

1 HW Reset
2 Switch input (default 1-2)
3 SW Reset

Pin No. Description

1 NC
2 AVN_RTEST_N
3 GND

CF1: CompactFlash socket

Pin No. Description Pin No. Description

1 GND 26 DET1
2 CF_DD3 27 CF_DD11
3 CF_DD4 28 CF_DD12
4 CF_DD5 29 CF_DD13
5 CF_DD6 30 CF_DD14
6 CF_DD7 31 CF_DD15
7 -CF_DCS0 32 -CF_DCS1
8 GND 33 CF_VS1

9 GND 34 CF_DIOR_N
10 GND 35 CF_DIOW_N
11 GND 36 WE#
12 GND 37 CF_IDEIRQ
13 VCC_CF 38 VCC_CF
14 GND 39 MST_SLV
15 GND 40 CF_VS2
16 GND 41 CF_IDERST_N
17 GND 42 CF_IORDY
18 CF_DA2 43 CF_DMARQ
19 CF_DA1 44 CF_DDACK_N
20 CF_DA0 45 CFACT_N
21 CF_DD0 46 CF_PDIAG
22 CF_DD1 47 CF_DD8
23 CF_DD2 48 CF_DD9
24 GND 49 CF_DD10
25 DET2 50 GND

FAN1, 2, 3: wafer fan connectors

Pin No. Description

1 P3V3
2 PP
3 GND

Pin No. Description

1 P3VSB
2 MR

Pin No. Description

1 PWM
2 NC
3 TACH
4 P12V
5 GND

SATA6G1: SATA port

PS4S1: SATA 4-pin power port

PS4S2: SATA DOM power connector

Pin No. Description

1 GND
2 TX+
3 TX­4 GND
5 RX­6 RX+
7 GND

Pin No. Description

1 12V
2 GND
3 GND
4 5V

PKMB1: keyboard/mouse pin header

Pin No. Description Pin No. Description

1 +P5V_KM 2 MS_L_CLK
3 MS_L_DAT 4 NC
5 KB_L_DAT 6 NC
7 GND 8 KB_L_CLK

LPC1: Low Pin Count pin header

Pin No. Description Pin No. Description

1 CLK_33M_P80 2 LPC_AD1
3 PLTRST_PORT80_N 4 LPC_AD0
5 LPC_FRAME_N 6 P3V3
7 LPC_AD3 8 key ping
9 LPC_AD2 10 GND

USB2: 2X10 Pin header

Pin No. Description Pin No. Description

1 +P5V_USB2_L 2 +P5V_USB2_L
3 USB2_SB_L_DN 4 USB3_SB_L_DN
5 USB2_SB_L_DP 6 USB3_SB_L_DP
7 GND 8 GND
9 GND 10 Key ping

SPIROM1: SPI ROM Pin header

Pin No. Description Pin No. Description

1 SPI_HOLD0_L 2 NC
3 PMU_AVN_SPI_R_CS0 4 V_3P3_SPI
5 PMU_AVN_SPI_MISO 6 NC
7 NC 8 PMU_AVN_SPI_R_CLK
9 GND 10 PMU_AVN_SPI_R_MOSI

Pin No. Description

1 12V
2 GND
3 GND
4 5V

PCIE1: PCIe x 8 lane socket

Pin No. Side B Side A

1 +12V NC
2 +12V +12V
3 +12V +12V
4 GND GND
5 SMB_CLK CLK_EN
6 SMB_DAT P3V3
7 GND P3V3
8 P3VSB P3V3

9 P3VSB P3VSB
10 P3VSB P3VSB
11 PMU_WAKE# PLTRST_PCIE_N
12 P3V3 GND
13 P3V3 SIO_GP44
14 GND SIO_GP45
15 GND GND
16 PCIE_AVN_C_TXP15 PCIE_AVN_RXP15
17 PCIE_AVN_C_TXN15 PCIE_AVN_RXN15
18 GND GND
19 PCIE_AVN_C_TXP14 NC
20 PCIE_AVN_C_TXN14 GND
21 GND PCIE_AVN_RXP14
22 GND PCIE_AVN_RXN14
23 PCIE_AVN_C_TXP13 GND
24 PCIE_AVN_C_TXN13 GND
25 GND PCIE_AVN_RXP13
26 GND PCIE_AVN_RXN13
27 PCIE_AVN_C_TXP12 GND
28 PCIE_AVN_C_TXN12 GND
29 GND PCIE_AVN_RXP12
30 NC PCIE_AVN_RXN12
31 NC GND
32 GND NC
33 PCIE_AVN_C_TXP11 NC
34 PCIE_AVN_C_TXN11 GND
35 GND PCIE_AVN_RXP11
36 GND PCIE_AVN_RXN11
37 PCIE_AVN_C_TXP10 GND
38 PCIE_AVN_C_TXN10 GND
39 GND PCIE_AVN_RXP10
40 GND PCIE_AVN_RXN10
41 PCIE_AVN_C_TXP9 GND
42 PCIE_AVN_C_TXN9 GND
43 GND PCIE_AVN_RXP9
44 GND PCIE_AVN_RXN9
45 PCIE_AVN_C_TXP8 GND
46 PCIE_AVN_C_TXN8 GND
47 GND PCIE_AVN_RXP8
48 NC PCIE_AVN_RXN8
49 GND GND

PCIE2: PCIe x 8 lane socket

Pin No. Side B Side A

1 +12V +12V
2 +12V +12V
3 +12V +12V
4 +12V +12V
5 +12V +12V
6 +12V +12V
7 +12V +12V
8 +12V +12V

9 +12V +12V
10 P5VSB P5VSB
11 P5VSB P5VSB
12 HDD_LED# GND
13 SP1_RTS_N USB_IO1_DP
14 SP1_CTS_N USB_IO1_DN
15 SP1_TXD GND
16 SP1_RXD USB_IO0_DP
17 SIO_GP46 USB_IO0_DN
18 GND GND
19 STATUS_GRN USB_OC0_N
20 STATUS_YEW GND
21 GND CLK_BUF_DP
22 GND CLK_BUF_DN
23 PCIE_AVN_C_TXP0 GND
24 PCIE_AVN_C_TXN0 GND
25 GND PCIE_AVN_RXP0
26 GND PCIE_AVN_RXN0
27 PCIE_AVN_C_TXP4 GND
28 PCIE_AVN_C_TXN4 GND
29 GND PCIE_AVN_RXP4
30 PHY_MDC_I2C_CLK PCIE_AVN_RXN4
31 PHY_MDC_I2C_DAT GND
32 GND RST_BTN_N
33 SGMII_C_TXP0 NC
34 SGMII_C_TXN0 GND
35 GND SGMII_RXP0
36 GND SGMII_RXN0
37 SGMII_C_TXP1 GND
38 SGMII_C_TXN1 GND
39 GND SGMII_RXP1
40 GND SGMII_RXN1
41 SGMII_C_TXP2 GND
42 SGMII_C_TXN2 GND
43 GND SGMII_RXP2
44 GND SGMII_RXN2
45 SGMII_C_TXP3 GND
46 SGMII_C_TXN3 GND
47 GND SGMII_RXP3
48 NC SGMII_RXN3
49 FP_PWRBTN_N GND

Jumper Settings & Connector Pinouts on the
PCIe I/O Board

J6: MDC/MDIO I/F Option

J5: Ethernet Switch debug port

USB1: Dual USB connectors

Pin No. Description Pin No. Description

1 +P5V_USB0_L 5 +P5V_USB0_L
2 USB0_SB_L_DN 6 USB1_SB_L_DN
3 USB0_SB_L_DP 7 USB1_SB_L_DP
4 GND 8 GND

Pin No. Description

1 SW_MDC0
2 SW_MDIO0
3 GND

Pin No. Description

1 NC
2 SP2_RXD
3 SP2_TXD
4 NC
5 GND

COM1: RJ45 Console port

Pin No. Description Pin No. Description

1 NRTS_N 5 GND
2 NC 6 LNSINA
3 LNSOUTA 7 NC
4 GND 8 NCTS_N

RJ1: RJ45 Connector w/transformer

Pin No. Description

1 LAN1_MDX0P_C
2 LAN1_MDX0N_C
3 LAN1_MDX1P_C
4 LAN1_MDX1N_C
5 GND
6 GND
7 LAN1_MDX2P_C
8 LAN1_MDX2N_C
9 LAN1_MDX3P_C

10 LAN1_MDX3N_C

RJ2/3: RJ45 8 Port Connector w/transformer (2X4)

Pin No. Description Pin No. Description
A/C/E/G 1 TDP0 B/D/F/H 1 TDP0
A/C/E/G 2 TDN0 B/D/F/H 2 TDN0
A/C/E/G 3 TDP1 B/D/F/H 3 TDP1
A/C/E/G 4 TDN1 B/D/F/H 4 TDN1
A/C/E/G 5 TDP2 B/D/F/H 5 TDP2
A/C/E/G 6 TDN2 B/D/F/H 6 TDN2
A/C/E/G 7 TDP3 B/D/F/H 7 TDP3
A/C/E/G 8 TDN3 B/D/F/H 8 TDN3
A/C/E/G 9 NC B/D/F/H 9 NC

A/C/E/G 10 GND B/D/F/H 10 GND

RJ4 :RJ45 8 Port Connector w/o transformer (2X4)

Pin No. Description Pin No. Description
A/C/E/G 1 DXP0 B/D/F/H 1 DXP0
A/C/E/G 2 DXN0 B/D/F/H 2 DXN0
A/C/E/G 3 DXP1 B/D/F/H 3 DXP1
A/C/E/G 4 DXP2 B/D/F/H 4 DXP2
A/C/E/G 5 DXN2 B/D/F/H 5 DXN2
A/C/E/G 6 DXN1 B/D/F/H 6 DXN1
A/C/E/G 7 DXP3 B/D/F/H 7 DXP3
A/C/E/G 8 DXN3 B/D/F/H 8 DXN3

SPIROM1: SPI ROM Pin header

Pin No. Description Pin No. Description

1 SW_SPI_HOLD_N 2 NC
3 SPI_CS_N 4 P3VSB
5 SW_SPI_MISO 6 NC
7 NC 8 SW_SPI_SCK
9 GND 10 SW_SPI_MOSI

CN1 :Dual SFP+ connectors

Pin No. Description Pin No. Description

T/L 1 GND T/L 2 TXFault
T/L 3 TXDis T/L 4 SDA
T/L 5 SCL T/L 6 MOD_ABS
T/L 7 RS0 T/L 8 RX_LOS

T/L 9 RS1 T/L 10 GND
T/L 11 GND T/L 12 RD­T/L 13 RD+ T/L 14 GND
T/L 15 P3V3 T/L 16 P3V3
T/L 17 GND T/L 18 TD+
T/L 19 TD- T/L 20 GND

PCIEC2: PCIe x 8 lane connector (gold ngers)

Pin No. Side B Side A

1 +12V NC
2 +12V +12V
3 +12V +12V
4 GND GND
5 SMB_CLK CLK_EN
6 SMB_DAT P3V3
7 GND P3V3
8 P3VSB P3V3

9 P3VSB P3VSB
10 P3VSB P3VSB
11 PMU_WAKE# PLTRST_PCIE_N
12 P3V3 GND
13 P3V3 SIO_GP44
14 GND SIO_GP45
15 GND GND
16 PCIE_AVN_C_TXP15 PCIE_AVN_RXP15
17 PCIE_AVN_C_TXN15 PCIE_AVN_RXN15
18 GND GND
19 PCIE_AVN_C_TXP14 NC
20 PCIE_AVN_C_TXN14 GND
21 GND PCIE_AVN_RXP14
22 GND PCIE_AVN_RXN14
23 PCIE_AVN_C_TXP13 GND
24 PCIE_AVN_C_TXN13 GND
25 GND PCIE_AVN_RXP13
26 GND PCIE_AVN_RXN13
27 PCIE_AVN_C_TXP12 GND
28 PCIE_AVN_C_TXN12 GND
29 GND PCIE_AVN_RXP12
30 NC PCIE_AVN_RXN12
31 NC GND
32 GND NC
33 PCIE_AVN_C_TXP11 NC
34 PCIE_AVN_C_TXN11 GND
35 GND PCIE_AVN_RXP11
36 GND PCIE_AVN_RXN11
37 PCIE_AVN_C_TXP10 GND
38 PCIE_AVN_C_TXN10 GND
39 GND PCIE_AVN_RXP10
40 GND PCIE_AVN_RXN10
41 PCIE_AVN_C_TXP9 GND
42 PCIE_AVN_C_TXN9 GND
43 GND PCIE_AVN_RXP9
44 GND PCIE_AVN_RXN9
45 PCIE_AVN_C_TXP8 GND
46 PCIE_AVN_C_TXN8 GND
47 GND PCIE_AVN_RXP8
48 NC PCIE_AVN_RXN8
49 GND GND

PCIEC1: PCIe x 8 lane connector (gold ngers)

Pin No. Side B Side A

1 +12V +12V
2 +12V +12V
3 +12V +12V
4 +12V +12V
5 +12V +12V
6 +12V +12V
7 +12V +12V
8 +12V +12V

9 +12V +12V
10 P5VSB P5VSB
11 P5VSB P5VSB
12 HDD_LED# GND
13 SP1_RTS_N USB_IO1_DP
14 SP1_CTS_N USB_IO1_DN
15 SP1_TXD GND
16 SP1_RXD USB_IO0_DP
17 SIO_GP46 USB_IO0_DN
18 GND GND
19 STATUS_GRN USB_OC0_N
20 STATUS_YEW GND
21 GND CLK_BUF_DP
22 GND CLK_BUF_DN
23 PCIE_AVN_C_TXP0 GND
24 PCIE_AVN_C_TXN0 GND
25 GND PCIE_AVN_RXP0
26 GND PCIE_AVN_RXN0
27 PCIE_AVN_C_TXP4 GND
28 PCIE_AVN_C_TXN4 GND
29 GND PCIE_AVN_RXP4
30 PHY_MDC_I2C_CLK PCIE_AVN_RXN4
31 PHY_MDC_I2C_DAT GND
32 GND RST_BTN_N
33 SGMII_C_TXP0 NC
34 SGMII_C_TXN0 GND
35 GND SGMII_RXP0
36 GND SGMII_RXN0
37 SGMII_C_TXP1 GND
38 SGMII_C_TXN1 GND
39 GND SGMII_RXP1
40 GND SGMII_RXN1
41 SGMII_C_TXP2 GND
42 SGMII_C_TXN2 GND
43 GND SGMII_RXP2
44 GND SGMII_RXN2
45 SGMII_C_TXP3 GND
46 SGMII_C_TXN3 GND
47 GND SGMII_RXP3
48 NC SGMII_RXN3
49 FP_PWRBTN_N GND

Chapter 4:
Hardware Setup

Preparing the Hardware Installation

WARNING: To reduce the risk of personal injury,
electric shock, or damage to the equipment,
please make sure the device is totally powered
off and without any power source connected.

Shut off the system and remove all power 1.
connections.

Loosen and and remove the screws on the left, right 2.
and rear sides of the system, as shown below.

Gently lift the top compartment.3.

Installing System Memories

The system comes with 2 x 204-pin DDR3 SO-DIMM
sockets up to 16GB each on the Intel Rangeley main
board. Please follow the steps below for installations.

1. Locate the DIMM sockets near the CPU

2. Insert DIMM modules into the sockets until they are
rmly seated.

Installing a CompactFlash Card

The system comes with a CF card slot on the Intel
Rangeley main board. Please follow the steps below for

installation.

1. Locate the CF card slot nearby the CPU.

2. Insert the CF card until firmly seated.

Note: The device has an error proof design so that
the card will not be inserted if it is in the wrong
orientation. You should insert the CF card with the
arrow on the CompactFlash facing up and pointing
toward the connector.

Replacing the PSU (Power Supply Unit)

Please follow the instructions below to replace the power
supply unit in case it is worn out.

1. Loosen the security screw circled in the image below.

2. Once you have loosened the security screw, simply pull
the handle towards your side.

3. Once the old PSU is removed, locate the internal PSU
connector and install a new PSU.

Replacing the Cooling Fans

Please follow the instructions below to replace the cool­ing fans in case they are worn out.

1. Loosen and remove the 4 screws on the fan.

2. Remove the FAN connector(s) and take out the used
fan.

3. Install a new one by connecting the FAN connectors
and x it with 4 screws as shown in the rst step.

Appendix A:
Programming Watchdog
Timer

A watchdog timer is a piece of hardware that can be
used to automatically detect system anomalies and reset
the processor in case there are any problems. Generally
speaking, a watchdog timer is based on a counter that
counts down from an initial value to zero. The software
selects the counter’s initial value and periodically restarts
it. Should the counter reach zero before the software
restarts it, the software is presumed to be malfunctioning
and the processor’s reset signal is asserted. Thus, the
processor will be restarted as if a human operator had
cycled the power.

For sample watchdog code, see watchdog folder on the

Driver and Manual CD

To execute the sample code: enter the number of
seconds to start count down before the system can be
reset. Press start to start the counter and stop to stop the
counter..

Dwd_tst --swt xxx (Set Watchdog Timer 1-255 seconds)

wd_tst[*] --start (Start Watchdog Timer)

wd_tst --stop (Stop Watchdog Timer)

For sample watchdog code, see watchdog folder on the

Driver and Manual CD

Appendix B:
Setting up Console
Redirections

Console redirection lets you monitor and configure a
system from a remote terminal computer by re-directing
keyboard input and text output through the serial port.
This following steps illustrate how to use this feature. The
BIOS of the system allows the redirection of console I/O
to a serial port. With this configured, you can remotely
access the entire boot sequence through a console port.

Connect one end of the console cable to console 1.
port of the system and the other end to serial port of
the Remote Client System.

Configure the following settings in the BIOS Setup 2.
menu:

BIOS > Advanced > Remote Access Configuration >
Serial Port Mode > [115200, 8 , n ,1 ]

Configure Console Redirection on the client system. 3.
The following illustration is an example on Windows
platform:

A. Click the start button, point to Programs > a.
Accessories > Communications and select Hyper
Terminal.

B. Enter any name for the new connection and b.
select any icon.

Click OK.c.

From the “Connect to”. Pull-down menu, select the d.
appropriate Com port on the client system and
click OK.

Select 115200 for the Baud Rate, None. for Flow e.
contorl, 8 for the Data Bit, None for Parity Check,
and 1 for the Stop Bit.

Appendix C:
On Linux

Follow these instructions when installing the Intel®
LAN controller base driver for the in Red Hat® and Linux
operating system.

Insert the motherboard/system support CD to the 1.
optical drive and mount the optional drive in the
Linux platform.

Copy the base driver tar file from the motherboard/2.
system support CD to the directory of your local hard
disk. The Intel® LAN driver for Linux OS is located in
the following directory:

\Driver\LAN_Driver\PRO1000\LINUX. The name format
of driver file is “e1000-<Version>.tar.gz”. For example:
the file name of driver version 7.0.38 is “e1000-7.0.38.
tar.gz”.

Untar/unzip the archive, where <x.x.x> is the version 3.
number for the driver tar file:

tar zxf e1000-<x.x.x>.tar.gz

Change to the driver src directory on your system, 4.
where <x.x.x> is the version number for the driver tar:

cd e1000-<x.x.x>/src/

Compile the driver module by typing the following 5.
command:

make install

The binary will be installed as:6.

/lib/modules/<kernel_version>/kernel/drivers/
net/e1000.o

The install locations listed above are the default
locations. They might not be correct for certain Linux
distributions.

Load the module using either the insmod or 7.
modprobe command:

modprobe igb

insmod igb

Note that for 2.6 kernels the insmod command
can be used if the full path to the driver module is
specified. For example:

insmod /lib/modules/<KERNEL VERSION>/kernel/
drivers/net/igb/igb.ko

With 2.6 based kernels also make sure that older
igb drivers are removed from the kernel, before loading
the new module:

rmmod igb; modprobe igb

Assign an IP address to the interface by entering the 8.
following, where <x> is the interface number:

ifconfig eth<x> <IP_address>

Verify that the interface works. Enter the following, 9.
where <IP_address> is the IP address for another
machine on the same subnet as the interface that is
being tested:

ping <IP_address>

Appendix D:
Terms and Conditions

Warranty Policy

All products are under warranty against defects in 1.
materials and workmanship for a period of one year
from the date of purchase.

The buyer will bear the return freight charges for 2.
goods returned for repair within the warranty period;
whereas the manufacturer will bear the after service
freight charges for goods returned to the user.

The buyer will pay for repair (for replaced 3.
components plus service time) and transportation
charges (both ways) for items after the expiration of
the warranty period.

If the RMA Service Request Form does not meet the 4.
stated requirement as listed on “RMA Service,” RMA
goods will be returned at customer’s expense.

The following conditions are excluded from this 5.
warranty:

Improper or inadequate maintenance by the customer
Unauthorized modification, misuse, or reversed
engineering of the product Operation outside of the
environmental specifications for the product.

RMA Service

Requesting a RMA#

To obtain a RMA number, simply fill out and fax the 6.
“RMA Request Form” to your supplier.

The customer is required to fill out the problem code 7.
as listed. If your problem is not among the codes
listed, please write the symptom description in the
remarks box.

Ship the defective unit(s) on freight prepaid terms. 8.
Use the original packing materials when possible.

Mark the RMA# clearly on the box. 9.

Note: Customer is responsible for shipping

damage(s) resulting from inadequate/loose
packing of the defective unit(s). All RMA# are
valid for 30 days only; RMA goods received after
the effective RMA# period will be rejected.