Cybernet IPC-R1ix User Manual

USER
Manual

USER
Manual

IPC-R1ix

Fanless Robust Computing System With 4 PCI/PCIe Slots,

3

rd

Gen. Intel® Core™ i7/ i5/ i3 Mobile Processor

This manual is released by Cybernet for reference purpose only. All

does not represent commitment of Cybernet. Cybernet shall not be liable for
direct, indirect, special, incidental, or consequential damages arising out of the
use of the product or documentation, nor for any infringements upon the rights
of third parties, which may result from such use.

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.

FCC

The product (s) described in this manual complies with all applicable European
Union (CE) directives if it has a CE marking. For computer systems to
remain CE compliant, only CE-compliant parts may be used. Maintaining CE
compliance also requires proper cable and cabling techniques.

CE

This document contains proprietary information protected by copyright. No part
of this publication may be reproduced in any form or by any means, electric,
photocopying, recording or otherwise, without prior written authorization
by Cybernet. The rights of all the brand names, product names and
trademarks belong to their respective owners.

Declaimer

Declaration of Conformity

Copyright and Trademarks

Part Number Description Expansion Slots

IPC-R1ix Fan-less Robust Computing System, 2 Slots

1 PCIe x4 +
1 PCIe x16

Order Information

v

Part Number Description

i7-3610QE Ivy Bridge 3rd Gen Intel® Mobile Quad-Core™ i7 Processor

i5-3610ME Ivy Bridge 3

rd

Gen Intel® Mobile Core™ i5 Processor

i3-3120ME Ivy Bridge 3

rd

Gen Intel® Mobile Core™ i3 Processor

M340S-W28M1

DDR3 4GB 1333 | 1066MHz RAM, Micron

®

Chip,

Wide Temperature -40°C ~ +85°C

4GB RAM

8GB RAM

PWA-160W-WT

160W, 24V, 85VAC to 264VAC Power Adaptor with 3-pin
Terminal Block, Wide Temperature -30°C to +70°C

PWA-120W

120W, 24V, 90VAC to 264VAC Power Adapter with 3-pin
Terminal Block

SCSI-20P-100 20-pin SCSI Cable, 1M

TMB-SCSI-20P

Terminal Board with One 20-pin SCSI Connector and
DIN-Rail Mounting

Optional Accessories

vi

Table of Contents

CHAPTER 1 GENERAL INTRODUCTION 1

1.1 Overview 1

2

2

1.3 Supported CPU List 4

1.4 Mechanical Dimension 5

CHAPTER 2 GETTING TO KNOW YOUR IPC-R1ix 06

2.1 Packing List 06

2.2 Front Panel I/O Functions 06

2.2.1 Power Button 07

2.2.2 Rest Tact Switch 08

2.2.3 Power, HDD LED Indicator 08

2.2.4 Dual Isolated 8 DI/ 8 DO 09

2.2.5 Serial Port, COM 1, COM 3, COM 4 12

2.2.6 USB 2.0 Port 13

2.2.7 Serial Port, COM 2 14

2.2.8 USB 3.0 Port 15

2.2.9 10/100/1000 Mbps Ethernet Port 15

2.2.10 DisplayPort 17

2.2.11 DVI-D Connector/ HDMI Connector 17

2.2.12 VGA Connector 18

2.2.13 Audio Connector 19

2.2.14 DC-in Power Terminal Block 19

20

2.3 Main Board Expansion Connectors 21

2.3.1 J2 Miscellaneous Pin Header 23

2.3.2 CFast Card 24

2.3.3 CN9, CN11, J3 LVDS 26

2.3.4 CN16, CN17 SATA-III Connector 29

IPC-R1ix

vii

2.3.5 CN18, CN19 SATA-II Connector 30

2.3.6 CN14, CN20 SATA Power Connector 31

2.3.7 SATA DOM Power Connector 32

2.3.8 J1 Internal USB Port 33

2.3.9 CN12 Mini PCIe Connector, mSATA Connector 34

2.3.10 CN5 Mini PCIe Connector, CN4 SIM Card 36

2.3.11 CN3 GPIO 39

2.3.12 Fan 1 41

2.3.13 Battery 42

2.3.14 CN23 PCIe x16 Slot 43

2.3.15 CN24 PCIe x4 Slot 45

2.3.16 Dual SO-DIMM 47

2.3.17 CN25 Multiple I / O 48

2.4 Main Board Jumper Setting 49

2.4.1 JP1 AT/ ATX Power Mode Jumper Setting 51

2.4.2 JP2 LVDS Backlight Power Selection 52

53

2.4.4 JP4(A) CMOS Clear Jumper Setting 54

2.4.5 JP4(B) CMOS Clear Jumper Setting 55

CHAPTER 3 HARDWARE INSTALLATION 56

CHAPTER 4 BIOS AND DRIVER SETTING 65

4.1 BIOS Settings 65

4.2 Main Menu 66

4.3 Advanced Function 67

4.4 Chipset Function 76

4.5 Boot Function 78

APPENDIX A : ISOLATED DIO GUIDE 79

APPENDIX B : GPIO & WDT FUNCTION 81

APPENDIX C : RAID INSTALLATION GUIDE 83

1

GENERAL INTRODUCTION

1

GENERAL INTRODUCTION

Designed to operate within various applications, IPC-R1ix series is an

sockets. High performance fanless embedded computer, IPC-R1ix series
comes with the expansion capabilities to provide specific applications, and is
based on cutting-edge 3rd generation Intel Core i7, i5, or i3 processors. Working
expended temperature from -25 to 70 Celsius degrees, fan-less and cable-less
structure of IPC-R1ix enables durability and reliability to robust computing
systems for applications required standard PCI and PCI express cards.

Enabling speedy data access with RAID 0, 5, and 10 and hard drive failure
protection with RAID 1, 5, and 10, IPC-R1ix series is equipped with two extend
SATA III (6 Gbp/s) SSD | HDD trays for better responsiveness and storage
capability. Rapid storage technology combines with RAID and two SATA III
practical interfaces enhancing performance and data computing of multi-core
platforms.

IPC-R1ix series is equipped with rich I/O, included 2 GbE LAN with
independent LAN controllers, isolated DIO: 16DI, 16 DO, 4 COM, 4 USB 3.0,
2 USB2.0, CFast , 2 mini-PCIe (1 with SIM card socket for WiFi, 3G/GPRS),

3 RS-232 and 1 RS-232/485/422, 16 in/out GPIO for multi-camera industrial
inspection, machine vision, video analytics, AOI, industrial intelligent automation,
surveillance, and environment monitoring applications.

1.1 Overview

2

GENERAL INTRODUCTION

Cybernet IPC-R1ix

System

Processor 3rd Generation Intel® Core™ i7/ i5/ i3 Ivy Bridge Processor

(6M Cache, up to 3.30 GHz)

Chipset Intel

®

QM77

BIOS AMI

SIO IT8783F

Memory DDR3 1066/ 1333/ 1600 MHz, DDR3L 1066/ 1333 MHz,

Max. 16GB
2 204-pin SO-DIMM sockets

I/O

Serial 3 COM RS-232, 1 COM RS-232/ 485/ 422

USB 6 External USB (4 USB 3.0, 2 USB 2.0)+ 1 Internal USB 2.0

Isolated DIO 16 DI, 16 DO

LED Power, SDD and WDT LEDs

GPIO 16 GPIO

Expansion

PCI Express 1 PCIe x4, 1 PCIe x16

Mini PCIe 1 Mini PCIe Socket (PCIe + USB + SIM Card Socket)

1 Mini PCIe Socket (PCIe + USB), compatible with mSATA

Graphics

Chipset Intel® GMA HD 4000

Display Memory Shared Memory, up to 1.7GB
Interface • DB-15 VGA: 1920 x 1200 Max.

• DVI-D: 1920 x 1200 Max.

• DisplayPort 1: 2560 x 1600 Max.

• DisplayPort 2: 1920 x 1200 Max.

• LVDS: Dual Channel 24-bit, 1920 x 1200 Max.

Storage

SATA 2 SATA III 6Gbps

mSATA 2 SATA II 3Gbps

Storage Expansion CFast Slot, External Hot-Swap, Push-in/ Push-out Ejector

Audio

Audio Codec Realtek® ALC892, 5.1 Channel HD Audio

Audio Interface Line-out, Mic-in, Front Audio Header

3

GENERAL INTRODUCTION

Ethernet

LAN 1 Intel® 82579LM Gigabit LAN, Wake on LAN, PXE Support,

iAMT 8.0

LAN 2 Intel

®

82574L Gigabit LAN, Wake on LAN, PXE Support

Power

Power Input

3-pin terminal block for DC-in: V+, V-, Frame Ground
ATX: 2-pin Remote Power On/Off Switch

Power Input Voltage DC-in 6V to 36V

Power Adapter AC to DC +24V/ 5A, 120W Max. (Optional)

Protection OnBoard LT4356 for Power Input High Voltage Surge

Protection

Others

Trusted Platform
Module (TPM)

Watchdog Timer Reset: 1 to 255 sec/ min Per Step

HW Monitor Temperature, voltages auto throttling control when CPU

overheats

Mechanical

Chasis Construction Aluminum Housing

Size (W x D x H) 137mm x 252mm x 210mm (5.4” x 9.9” x 8.3”)

Weight 3 kg (6.6 lb)

Mounting Wall-mount by Mounting Bracket

Environmental

Operating Temperature -25°C to 70°C (-13°F to 157°F)

Storage Temperature -40°C to 85°C (-40°F to 185°F)

Humidity 10% to 95% Humidity, Non-condensing

Relative Humidity 95% at 70°C

Vibration Random: 5Grms @5 to 500 Hz according to IEC68-2-64

Sinusoidal: 5Grms @5 to 500 Hz according to IEC68-2-64

Shock Operating, 50 Grms, Half-sine 11 ms Duration (w/ SSD,

According to IEC60068-2-27)

EMC CE, FCC

4

GETTING TO KNOW YOUR IPC-R1ix

1.3 Supported CPU List

Cybernet IPC-R1ix accepts 3rd generation Intel® i7 | i5 | i3 processors via a
rPGA988B CPU socket. The following processors have been tested by Cybernet
for the compatibility with Cybernet IPC-R1ix. Instead of i7-3610QE, i5-

3610ME and i3-3120ME, You may also select other processor according to your
consideration of application and performance.

Series Max. TDP iAMT Embedded

i7 3840QM 45W √

3820QM 45W √
3740QM 45W √
3720QM 45W √

3632QM 35W

3630QM 45W

3612QM 35W

3610QE 45W √ O

3540M 35W √
3520M 35W √

i5 3610ME 35W √ O

3380M 35W √
3360M 35W √
3340M 35W √
3320M 35W √

3230M 35W

3210M 35W

i3 3130M* 35W

3120ME 35W O

3120M* 35W

3110M* 35W

The processors with

"O"

are listed in Intel® Embedded Roadmap and with a 7-year life cycle support (from

2011 to 2017). The processors with "

*

" the maximum opera temperature is 55OC.

05

GENERAL INTRODUCTION

1.4 Mechanical Dimension

Figure 1.1 IPC-R1ix

252 (9.9”)

137 (5.4")

210

(8.3”)

SCREW：

KHS-#6-32

137

(5.4”)

SCREW：KHS-#6-32

SCREW：KHS-#6-32

06

GETTING TO KNOW YOUR IPC-R1ix

2

GETTING TO KNOW YOUR IPC-R1ix

2.1 Packing List

Item Description Qty

1 IPC-R1ix Fanless Robust Computing System

contain HDD and DDR3 SO-DIMM. Please verify these items
if necessary.)

1

2 Accessory box, which contains

● Cybernet Drivers & Utilities DVD

● Wall-mounting bracket

● M4 screws for wall-mounting bracket

● 3-pin pluggable terminal block

1
2
4
2

2.2 Front Panel I/O Functions

All Input / Output connectors are located on front panel of IPC-R1ix series.
Most connectors like audio, USB, DVI-D, VGA are all designed on front panel.

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

IPC-R1ix

07

GETTING TO KNOW YOUR IPC-R1ix

2.2.1 Power Button

The power button is a non-latched switch with dual color LED (Blue/Orange) for
indication S0, S3 and S5 status. Power button dual-color LED indicator:

Status LED Display System Situation

S0 Solid Blue System working

S3, S5 Solid Orange Suspend to RAM, System off with standby

power

To turn on the IPC-R1ix , press the power button and the blue LED is
lighted up.

To turn off the IPC-R1ix , you can either issue a shutdown command in
OS, or just simply press the power button.

In case of system halts, you can press and hold the power button for 4 seconds
to compulsorily shut down the system.

Please note that a 4 seconds interval is kept by the system between two on/
off operations (i.e. once turning off the system, you shall wait for 4 seconds to
initiate another power-on operation).

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

08

GETTING TO KNOW YOUR IPC-R1ix

2.2.2 Rest Tact Switch

It is a hardware reset switch. Use this switch to reset the system without turning
off the power. Momentarily pressing the switch will activate a reset.

2.2.3 Power, HDD LED Indicator

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

09

GETTING TO KNOW YOUR IPC-R1ix

2.2.4 Dual Isolated 8 DI/ 8 DO

The IPC-R1ix offers dual 16-bit DIO ( 8-DI / 8-DO) connector. Each bit
of DI and DO equipped with a photo-coupler for isolated protection. A power
buffer device TPD2007F integrated in 8-DO circuit for motors, solenoids, and
lamp drivers applications.

Yellow-HDD LED: A hard disk/ CFast LED. If the LED is on, it indicates that the
system’s storage is functional. If it is off, it indicates that the system’s storage is

Green-Power LED: If the LED is solid green, it indicates that the system is
powered on.

Pin No. Mapping to SIO GPIO Function

1 INPUT0 SIO_GPI50

2 INPUT 1 SIO_GPI51

3 INPUT 2 SIO_GPI52

4 INPUT 3 SIO_GPI53

5 INPUT 4 SIO_GPI54

6 INPUT 5 SIO_GPI55

7 INPUT 6 SIO_GPI56

8 INPUT 7 SIO_GPI57

9 DI_COM

10 GND

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

10

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Mapping to SIO GPIO Function

11

OUTPUT0 SIO_GPO20

12

OUTPUT 1 SIO_GPO21

13

OUTPUT 2 SIO_GPO22

14

OUTPUT 3 SIO_GPO23

15

OUTPUT 4 SIO_GPO24

16

OUTPUT 5 SIO_GPO25

17

OUTPUT 6 SIO_GPO26

18

OUTPUT 7 SIO_GPO27

19

N.C.

20

External 24VDC Input

DIO 2 Pin Assignment

Pin No. Mapping to SIO GPIO Function

1

INPUT0 SIO_GPI60

2

INPUT 1 SIO_GPI61

3

INPUT 2 SIO_GPI62

4

INPUT 3 SIO_GPI63

5

INPUT 4 SIO_GPI64

6

INPUT 5 SIO_GPI65

7

INPUT 6 SIO_GPI66

8

INPUT 7 SIO_GPI67

9

DI_COM

10

GND

11

OUTPUT0 SIO_GPO10

12

OUTPUT 1 SIO_GPO11

13

OUTPUT 2 SIO_GPO12

14

OUTPUT 3 SIO_GPO13

15

OUTPUT 4 SIO_GPO14

16

OUTPUT 5 SIO_GPO15

17

OUTPUT 6 SIO_GPO16

18

OUTPUT 7 SIO_GPO17

19

N.C.

20

External 24VDC Input

11

GETTING TO KNOW YOUR IPC-R1ix

GPI SINK Mode

Isolated GPI input circuit in SINK mode (NPN) is illustrated as follows.

GPI SOURCE Mode

Digital GPI input signal circuit in SOURCE mode (PNP) is illustrated as
follow:

GPO SINK Mode

Digital GPO output circuit in SINK mode (NPN) is illustrated below.

12

GETTING TO KNOW YOUR IPC-R1ix

2.2.5 Serial Port, COM 1, COM 3, COM 4

COM1, COM3 and COM4 are RS-232 only and provide up to 115200 bps baud
rates. The pin assignments are shown in the following table:

Serial Port Pin No. RS-232

COM1, 3, 4

1 DCD

2 RXD

3 TXD

4 DTR

5 GND

6 DSR

7 RTS

8 CTS

9 RI

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

13

GETTING TO KNOW YOUR IPC-R1ix

2.2.6 USB 2.0 Port

The IPC-R1ix comes with 2 USB 2.0 hosts on the front panel. The USB
interface supports Plug and Play, which enables you to connect or disconnect a
device whenever you want, without turning off the system.

amounts of data. You can also use these USB hosts to connect to a keyboard
or a mouse. The following diagram shows the pinouts for USB1 and USB2 port.

Pin No. 1 2 3 4

USB1 +5V USB1- USB1+ GND

USB2 +5V USB2- USB2+ GND

1 2 3 4

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

14

GETTING TO KNOW YOUR IPC-R1ix

2.2.7 Serial Port, COM 2

control communication. Serial Port 2 default setting is RS-232, if you want to

BIOS Setting Function

COM2

RS-232

RS-422 (5-wire)

RS-422 (9-wire)

RS-485

Serial

Port

Pin No. RS-232 RS-422

(5-Wire)

RS-422

(9-Wire)

RS-485

(3-Wire)

2

1 DCD TXD- TXD- DATA-

2 RXD TXD+ TXD+ DATA+

3 TXD RXD+ RXD+ -----------

4 DTR RXD- RXD- -----------

5 GND GND GND GND

6 DSR ----------- RTS- -----------

7 RTS ----------- RTS+ -----------

8 CTS ----------- CTS+ -----------

9 RI ----------- CTS- -----------

The pin assignments are shown in the following table:

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

15

GETTING TO KNOW YOUR IPC-R1ix

2.2.9 10/100/1000 Mbps Ethernet Port

2.2.8 USB 3.0 Port

The IPC-R1ix comes with 4 USB 3.0 hosts on the front panel. These USB 3.0
ports allow data transfers up to 5 Gb/s. The controller supports SuperSpeed (SS),

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

16

GETTING TO KNOW YOUR IPC-R1ix

.rotcennoc 54-JR nip-8 esu 2 dna 1 strop NAL tenrehtE spbM 0001/001/01 ehT
LAN1 is equipped with Intel 82579LM for AMT function. LAN2 is equipped with
Intel 82574L.

Using suitable RJ-45 cable, you can connect IPC-R1ix system to a
computer, or to any other piece of equipment that has an Ethernet connection,
for example, a hub or a switch.

Moreover, both of them have Wa ke-on -LAN a n d P re-b o ot E xecuti o n
Environment capabilities. The following diagram shows the pinouts for LAN1
and LAN2 port.

Pin No. 10 / 100 Mbps 1000 Mbps

1 E_TX+ MDI0_P

2 E_TX- MDI0_N

3 E_RX+ MDI1_P

4 ---- MDI2_P

5 ----- MDI2_N

6 E_RX- MDI1_N

7 ----- MDI3_P

8 ------ MDI3_N

The Ethernet ports use standard RJ-45 jack connectors with LED indicators on
the front side to show Active/Link status and Speed status. The LED indicators
on the right bottom corners glow a solid green color when the cable is properly
connected to a 100 Mbps Ethernet network. The LED indicator on the left

or received.

The LED indicators on the right bottom corners glow a solid orange color when
the cable is properly connected to a 1000 Mbps Ethernet network. The LED

are being transmitted or received.

Location 10 Mbps 100 Mbps 1000 Mbps

Right Bottom LED off Solid Green Solid Orange

Left Bottom LED Flash Yellow Flash Yellow Flash Yellow

1 8

17

GETTING TO KNOW YOUR IPC-R1ix

2.2.10 DisplayPort

Each digital port is capable of driving resolutions up to 2560x1600 at 60 Hz
through Display Port.

2.2.11 DVI-D Connector/ HDMI Connector

The DVI-D connector on the front panel supports both DVI and HDMI operation
mode. This connector can either output DVI signals or HDMI signal.

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

18

GETTING TO KNOW YOUR IPC-R1ix

The DVI output mode supports up to 1920x1200 resolutions and HDMI output
mode supports up to 1920x1200 resolutions. The DVI or HDMI mode is
automatically selected according to the display device connected. You shall
need a DVI-D to HDMI cable when connecting to a HDMI display device.

2.2.12 VGA Connector

The IPC-R1ix comes with a DB15 female connector on the front panel
to connect a VGA monitor. To ensure that the monitor image remains clear, be
sure to tighten the monitor cable after connecting it to the IPC-R1ix. The
VGA output mode supports up to 1920x1200 resolutions. The pin assignments
of the VGA connector are shown below.

5
10
15

1
6

11

Pin No. Description

1 Red Color Signal

2 Green Color Signal

3 Blue Color Signal

4 NC

5 Ground

6 VGA Detect

7 Ground

8 Ground

Pin No. Description

9 VCC

10 Ground

11 NC

12 DDC-DATA

13 H-Sync.

14 V-Sync.

15 DDC-CLK

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

19

GETTING TO KNOW YOUR IPC-R1ix

2.2.13 Audio Connector

The IPC-R1ix offers stereo audio connector of MIC , Line_Out.
The audio chip controller is by ALC892 which is compliant with the Intel®
Azalia standard. To utilize the audio function in Windows, you need to install
corresponding drivers for both Intel® QM77 chipset and Realtek® ALC892
codec.

2.2.14 DC-in Power Terminal Block

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

20

GETTING TO KNOW YOUR IPC-R1ix

The IPC-R1ix offers 6 to 36 VDC power input with the terminal block. If
the power is supplied properly, the Power LED will light up a solid green.

80V power surge protection is design in in LTC4356.Grounding and write
routing help limit the effects of noise due to EMI. Run the ground connection
from the ground screw to the grounding surface prior to connecting the power.

block power connector. Connect the earth ground wire to an appropriate
grounded metal surface.

It is a 3-pin power-on or power-off switch through Phoenix Contact terminal
block. You could turn on or off the system power by using this contact. This
terminal block support dual function of soft power-on / power-off (instant off or
delay 4 second), and suspend mode.

DC 6 - 36V

V+ V

-

Isolated DIO 2

Reset

COM 1

COM 2

| LAN 2

VGA

DVI-D

V+

1

2

| LAN 1

V

-

COM 4 COM 3

Isolated DIO 1

On | Off

21

GETTING TO KNOW YOUR IPC-R1ix

2.3 Main Board Expansion Connectors

The graphic below is the top view of the IPC-R1ix main board which is
the main board used in the IPC-R1ix system. It shows the location of
the connectors.

Figure 2.3.1 Internal Connectors and Jumpers

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN3

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

SODIMM1

SODIMM2

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

BAT1

CN24

CN20

CN14

J4

CN2

CN4

CN5

CN16

CN17

CN18

CN19

CN23

CN12

CN11

CN9

J3

FAN1

J1

BZ1

BIOS

J2

22

GETTING TO KNOW YOUR IPC-R1ix

IPC-R1ix

23

GETTING TO KNOW YOUR IPC-R1ix

2.3.1 J2 Miscellaneous Pin Header

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

J2

Group Pin No. Description

HDD

LED

1 HDLED

3 HD_LED_N

Reset

Button

5 FP_RST_BTN_N

7 GND

Group Pin No. Description

Power 2 PWRLED

LED 4 PWROK_100MS_N

Power

Button

6 FP_RST_BTN_N

8 GND

J2 Miscellaneous Pin Header

24

GETTING TO KNOW YOUR IPC-R1ix

These pin headers can be used as a backup for the following functions: hard
drive LED indicator, reset button, power LED indicator, and power-on/off
button. The front and top panel already provides access to these functions. The
following table shows the pinouts for Miscellaneous port.

2.3.2 CFast Card

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN2

25

GETTING TO KNOW YOUR IPC-R1ix

The IPC-R1ix system comes with a CFast socket on the front panel for
Type-I / Type-II Compact Flash card. It is implemented by a SATA II Port from
QM77 PCH.

Be sure to disconnect the power source and unscrew the CFast socket cover
before installing a CFast card. The IPC-R1ix does not support the
CFast hot swap and PnP (Plug and Play) functions.

It is necessary to remove power source first before inserting or removing the
CFast card. The following table shows the pinouts for CFast port:

CN2 CFast

Pin No. Pin No.

S1 GND PC6 NC

S2 SATA_TX_P2 PC7 GND

S3 SATA_TX_N2 PC8 NC

S4 GND PC9 CFAST_LED_N

S5 SATA_RX_N2 PC10 NC

S6 SATA_RX_P2 PC11 NC

S7 GND PC12 NC

PC1 NC PC13 +3.3V

PC2 GND PC14 +3.3V

PC3 NC PC15 GND

PC4 NC PC16 GND

PC5 NC PC17 NC

26

GETTING TO KNOW YOUR IPC-R1ix

2.3.3 CN9, CN11, J3 LVDS

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN9

CN11

The IPC-R1ix supports Dual-channel 24-bit LVDS Panel up to 1366x768
pixels panel resolution.

27

GETTING TO KNOW YOUR IPC-R1ix

Pin No.

CN11 Channel A CN9 Channel

1

LDDC_CLK LDDC_CLK

2

LDDC_DATA LDDC_DATA

3

PANEL_VDD (+3.3V or +5V by

jumper)

PANEL_VDD(+3.3V or +5V by

jumper)

4

LA_ DATA0_P LB_ DATA0_P

5

LA_ DATA3_P LB_ DATA3_P

6

LA_ DATA0_N LB_ DATA0_N

7

LA_ DATA3_N LB_ DATA3_N

8

PANEL_VDD (+3.3V or +5V by

jumper)

PANEL_VDD (+3.3V or +5V by

jumper)

9

GND GND

10

LA_ DATA1_P LB_ DATA1_P

11

LA_ CLKP LB_ CLKP

12

LA_ DATA1_N LB_ DATA1_N

13

LA_ CLKN LB_ CLKN

14

GND GND

15

GND GND

16

PANEL_BACKLIGHT (+12V) PANEL_BACKLIGHT (+12V)

17

LA_ DATA2_P LB_ DATA2_P

18

PANEL_BACKLIGHT (+12V) PANEL_BACKLIGHT (+12V)

19

LA_ DATA2_N LB_ DATA2_N

20

GND GND

28

GETTING TO KNOW YOUR IPC-R1ix

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

J3

Pin No. Pin No.

1 +5V 5 GND

2 +12V 6 GND

3 +12V 7 LBKLT_EN

4 LBKLT_CTL

The LCD inverter is connected to J3 via a JST 7-pin, 2.5mm connector to
provide +5V/+12V power to the LCD display.

29

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 GND 5 RXN

2 TXP 6 RXP

3 TXN 7 GND

4 GND

The IPC-R1ix features two high performance Serial ATA III interfaces
that eases cabling to hard drives or SSD with thin and short cables while
application need larger storage capacity.

2.3.4 CN16, CN17 SATA-III Connector

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BA

T1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN16

CN17

CN16, CN17_SATA III Connectors

30

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 GND 5 RXN

2 TXP 6 RXP

3 TXN 7 GND

4 GND

The IPC-R1ix features two high performance Serial ATA II interfaces
that ease cabling to hard drives or SSD with thin and short cables while
application need larger storage capacity.

2.3.5 CN18, CN19 SATA-II Connector

CN18, CN19_SATA II Connectors

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN18

CN19

31

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 +12V 3 GND

2 GND 4 +5V

The IPC-R1ix also equips two SATA power connector. It supply 5V (2A
max.) and 12V (1A max) current to the hard drive or SSD.

2.3.6 CN14, CN20 SATA Power Connector

CN14, CN20 SATA HDD Power Connectors

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN20CN14

32

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 +5V 2 GND

The IPC-R1ix also equips two SATA power connector. It supply 5V (2A
max.) and 12V (1A max) current to the hard drive or SSD.

2.3.7 SATA DOM Power Connector

J4 SATA DOM Power Connector

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

J4

33

GETTING TO KNOW YOUR IPC-R1ix

The IPC-R1ix main board provides up to two expansion USB ports using
Plug and Play for Dongle Key or LCD touch Panel. The USB interface supports

ation Rev. 2.0,

and are fuse protected.

The USB interface is accessed through one 1x6-pin JST 2.0mm connector. You
will need an adapter cable if you use a standard USB connector. The adapter
cable has a 1x6-pin connector on one end and a USB connector on the other.

2.3.8 J1 Internal USB Port

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

J1

34

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 USB_VCC 4 USBD2-

2 USBD2+ 5 USBD3-

3 USBD3+ 6 GND

J1 Internal USB Dual Ports

2.3.9 CN12 Mini PCIe Connector, mSATA Connector

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN12

35

GETTING TO KNOW YOUR IPC-R1ix

Both mSATA and Mini PCIe share the same form-factor and similar electrical
pin-out assignments on their connectors. There was no clear mechanism to
distinguish if a mSATA drive or a Mini PCIe device is plugged into the socket

43 on mSATA connector as “no connect” instead of “return current path” ( or
GND).

When an mSATA drive is inserted, its pin 43 is “no connect”, and the respective
pin on the socket is being pulled-up to logic 1. When a Mini PCIe device is
inserted, its pin 43 forces the respective pin on the socket to ground, or logic 0.

IPC-R1ix using Pin 43 status designed for switching between mSATA
drive and Mini PCIe device.

Status Mini PCIe card mSATA drive

Pin 43 Logic 0 Logic 1

CN12 Mini PCIe Connector Pin-Out

Pin
No.

Signal

Name

Pin

No.

Signal

Name

Pin

No.

Signal

Name

Pin
No.

Signal

Name

51 Reserved 52 +3.3Vaux 33 PETp0 34 GND

49 Reserved 50 GND 31 PETn0 32 SMB_DATA

47 Reserved 48 +1.5V 29 GND 30 SMB_CLK

45 Reserved 46 Reserved 27 GND 28 +1.5V

43 Status 44 Reserved 25 PERp0 26 GND

41 +3.3Vaux 42 Reserved 23 PERn0 24 +3.3Vaux

39 +3.3Vaux 40 GND 21 GND 22 PERST#

37 GND 38 USB_D+ 19 Reserved 20 reserved

35 GND 36 USB_D- 17 Reserved 18 GND

Mechanical Key

15 GND 16 Reserved 7 CLKREQ# 8 Reserved

13 REFCLK+ 14 Reserved 5 Reserved 6 1.5V

11 REFCLK- 12 Reserved 3 Reserved 4 GND

9 GND 10 Reserved 1 WAKE# 2 3.3Vaux

36

GETTING TO KNOW YOUR IPC-R1ix

2.3.10 CN5 Mini PCIe Connector, CN4 SIM Card

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN5

37

GETTING TO KNOW YOUR IPC-R1ix

CN5 Mini PCIe Connector Pin-Out

Pin
No.

Signal

Name

Pin

No.

Signal

Name

Pin

No.

Signal

Name

Pin
No.

Signal

Name

51 Reserved 52 +3.3Vaux 33 PETp0 34 GND

49 Reserved 50 GND 31 PETn0 32 SMB_DATA

47 Reserved 48 +1.5V 29 GND 30 SMB_CLK

45 Reserved 46 Reserved 27 GND 28 +1.5V

43 Status 44 Reserved 25 PERp0 26 GND

41 +3.3Vaux 42 Reserved 23 PERn0 24 +3.3Vaux

39 +3.3Vaux 40 GND 21 GND 22 PERST#

37 GND 38 USB_D+ 19 Reserved 20 reserved

35 GND 36 USB_D- 17 Reserved 18 GND

Mechanical Key

15 GND 16 Reserved 7 CLKREQ# 8 Reserved

13 REFCLK+ 14 Reserved 5 Reserved 6 1.5V

11 REFCLK- 12 Reserved 3 Reserved 4 GND

9 GND 10 Reserved 1 WAKE# 2 3.3Vaux

38

GETTING TO KNOW YOUR IPC-R1ix

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN4

Pin No. Pin No.

C1

UIM_PWR

C5

GND

C2

UIM_RESET

C6

UIM_VPP

C3

UIM_CLK

C7

UIM_DATA

C4

GND

CN4 SIM Card

39

GETTING TO KNOW YOUR IPC-R1ix

2.3.11 CN3 GPIO

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN1

0

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN3

The IPC-R1ix offers 16 programmable I/O within TTL 5V tolerance.
Using SM-bus GPIO Controller PCA9555 at address 40

40

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 GND 14 GND

2 DO_GP0_7 15 DI_GP1_7

3 DO_GP0_6 16 DI_GP1_6

4 DO_GP0_5 17 DI_GP1_5

5 DO_GP0_4 18 DI_GP1_4

6 GND 19 GND

7 DO_GP0_3 20 DI_GP1_3

8 DO_GP0_2 21 DI_GP1_2

9 DO_GP0_1 22 DI_GP1_1

10 DO_GP0_0 23 DI_GP1_0

11 GND 24 GND

12 SMB_DAT_MAIN 25 +5V

13 SMB_CLK_MAIN 26 +5V

41

GETTING TO KNOW YOUR IPC-R1ix

Pin No. Pin No.

1 GND 3 Fan-speed sense

2 +12V (1.5A max)

AN power connector supported for better thermal required.

2.3.12 Fan 1

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

FAN1

42

GETTING TO KNOW YOUR IPC-R1ix

The IPC-R1ix’ real-time clock is powered by a lithium battery. It is
Equipped with Panasonic BR2032 190mAh lithium battery. It is recommended
that you not replace the lithium battery on your own. If the battery needs to be
changed, please contact the Cybernet RMA service team.

2.3.13 Battery

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN2

4

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

BAT1

43

GETTING TO KNOW YOUR IPC-R1ix

2.3.14 CN23 PCIe x16 Slot

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN23

Pin
No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

A1 N.C. A42 GND B1 +12V B42 PEG_TX6N

A2 +12V A43 PEG_RX6P B2 +12V B43 GND
A3 +12V A44 PEG_RX6N B3 +12V B44 GND
A4 GND A45 GND B4 GND B45 PEG_TX7P

44

GETTING TO KNOW YOUR IPC-R1ix

Pin
No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

A5

CLK_PEGC_

P

A46 GND B5

SMB_CLK_

MAIN

B46 PEG_TX7N

A6

CLK_PEGC_

N

A47 PEG_RX7P B6

SMB_DAT_

MAIN

B47 GND

A7 N.C. A48 PEG_RX7N B7 GND B48 N.C.

A8

CLKREQ_

PEGA#

A49 GND B8 +3.3V B49 GND

A9 +3.3V A50 N.C. B9 N.C. B50 PEG_TX8P
A10 +3.3V A51 GND B10 +3.3V AUX B51 PEG_TX8N
A11 PLT_RST # A52 PEG_RX8P B11 WAKE# B52 GND
A12 GND A53 PEG_RX8N B12 N.C. B53 GND

A13

CLK_PEGA_

P

A54 GND B13 GND B54 PEG_TX9P

A14

CLK_PEGA_

N

A55 GND B14 PEG_TX0P B55 PEG_TX9N

A15 GND A56 PEG_RX9P B15 PEG_TX0N B56 GND
A16 PEG_RX0P A57 PEG_RX9N B16 GND B57 GND
A17 PEG_RX0N A58 GND B17 N.C. B58 PEG_TX10P
A18 GND A59 GND B18 GND B59 PEGTX10N

A19

CLKREQ_

PEGB#

A60 PEG_RX10P B19 PEG_TX1P B60 GND

A20 GND A61 PEG_RX10N B20 PEG_TX1N B61 GND
A21 PEG_RX1P A62 GND B21 GND B62 PEG_TX11P
A22 PEG_RX1N A63 GND B22 GND B63 PEG_TX11N
A23 GND A64 PEG_RX11P B23 PEG_TX2P B64 GND
A24 GND A65 PEG_RX11N B24 PEG_TX2N B65 GND
A25 PEG_RX2P A66 GND B25 GND B66 PEG_TX12P
A26 PEG_RX2N A67 GND B26 GND B67 PEG_TX12N
A27 GND A68 PEG_RX12P B27 PEG_TX3P B68 GND
A28 GND A69 PEG_RX12N B28 PEG_TX3N B69 GND
A29 PEG_RX3P A70 GND B29 GND B70 PEG_TX13P
A30 PEG_RX3N A71 GND B30 N.C. B71 PEG_TX13N
A31 GND A72 PEG_RX13P B31 N.C. B72 GND

A32

CLK_PEGB_

P

A73 PEG_RX13N B32 GND B73 GND

A33

CLK_PEGB_

N

A74 GND B33 PEG_TX4P B74 PEG_TX14P

A34 GND A75 GND B34 PEG_TX4N B75 PEG_TX14N
A35 PEG_RX4P A76 PEG_RX14P B35 GND B76 GND
A36 PEG_RX4N A77 PEG_RX14N B36 GND B77 GND
A37 GND A78 GND B37 PEG_TX5P B78 PEG_TX15P
A38 GND A79 GND B38 PEG_TX5N B79 PEG_TX15N
A39 PEG_RX5P A80 PEG_RX15P B39 GND B80 GND
A40 PEG_RX5N A81 PEG_RX15N B40 GND B81 N.C.
A41 GND A82 GND B41 PEG_TX6P B82 N.C.

45

GETTING TO KNOW YOUR IPC-R1ix

2.3.15 CN24 PCIe x4 Slot

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

CN24

46

GETTING TO KNOW YOUR IPC-R1ix

Pin
No.

Signal

Name

Pin

No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

A1 N.C. A17 PCIE_RXN5 B1 +12V B17 N.C.

A2 +12V A18 GND B2 +12V B18 GND

A3 +12V A19 N.C. B3 +12V B19 PCIE_TXP6

A4 GND A20 GND B4 GND B20 PCIE_TXN6

A5

CLK_

PCIE5_

LAN6_P

A21 PCIE_RXP6 B5

SMB_CLK_

MAIN

B21 GND

A6

CLK_

PCIE5_

LAN6_N

A22 PCIE_RXN6 B6

SMB_DAT_

MAIN

B22 GND

A7

CLK_

PCIE5_

LAN7_P

A23 GND B7 GND B23 PCIE_TXP7

A8

CLK_

PCIE5_

LAN7_N

A24 GND B8 +3.3V B24 PCIE_TXN7

A9 +3.3V A25 PCIE_RXP7 B9 N.C. B25 GND

A10 +3.3V A26 PCIE_RXN7 B10 +3.3V AUX B26 GND

A11 PLT_RST # A27 GND B11 WAKE# B27 PCIE_TXP8

A12 GND A28 GND B12 N.C. B28 PCIE_TXN8

A13

CLK_

PCIE5_

LAN5_P

A29 PCIE_RXP8 B13 GND B29 GND

A14

CLK_

PCIE5_

LAN5_N

A30 PCIE_RXN8 B14 PCIE_TXP5 B30

CLK_

PCIE5_

LAN8_P

A15 GND A31 GND B15 PCIE_TXN5 B31

CLK_

PCIE5_

LAN8_N

A16 PCIE_RXP5 A32 N.C. B16 GND B32 GND

47

GETTING TO KNOW YOUR IPC-R1ix

2.3.16 Dual SO-DIMM

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

SODIMM1

SODIMM2

Automatically detect SO-DIMM DDR3 (1.5V) or DDR3L (1.35V). It could be
manual select DDR3 voltage in BIOS setup menu.

48

GETTING TO KNOW YOUR IPC-R1ix

2.3.17 CN25 Multiple I / O

Pin
No.

Signal

Name

Pin

No.

Signal

Name

Pin

No.

Signal

Name

Pin
No.

Signal

Name

1

PWRBT_

LED_P

2

FP_RST_

BTN_N

51 DIO1_OUT6 52 DIO2_OUT6

3

PWRBT_

LED_N

4 GND 53 DIO1_OUT7 54 DIO2_OUT7

5

FP_PWR_

BTN_P

6

PWR_LED_

P

55

GND(

Isolated DIO

Ground)

56

GND(

Isolated DIO

Ground)

49

GETTING TO KNOW YOUR IPC-R1ix

2.4 Main Board Jumper Setting

the main board used in the IPC-R1ix system. It shows the location of
the jumpers.

Pin
No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

Pin
No.

Signal

Name

7 GND 8

PWR_LED_

N

57

+VDI_COM_

DIO1

58

+VDI_COM_

DIO 2

9 N.C. 10 HDD_LED_P 59

+VDI_COM_

DIO 1

60

+VDI_COM_

DIO 2

11 N.C. 12

HDD_LED_

N

61

+V24_EXT_

DIO 1

62

+V24_EXT_

DIO 2

13 N.C. 14 N.C. 63

+V24_EXT_

DIO 1

64

+V24_EXT_

DIO 2

15

GND(

Isolated DIO

Ground)

16

GND(

Isolated DIO

Ground)

65 N.C. 66 N.C.

17 DIO1_IN0 18 DIO2_IN0 67 GND 68 GND

19 DIO1_IN1 20 DIO2_IN1 69

COM3_

DCD_Z

70

COM4_
DCD_Z

21 DIO1_IN2 22 DIO2_IN2 71

COM3_

DSR_Z

72

COM4_

DSR_Z

23 DIO1_IN3 24 DIO2_IN3 73

COM3_

RXD_Z

74

COM4_

RXD_Z

25

GND(

Isolated DIO

Ground)

26

GND(

Isolated DIO

Ground)

75 GND 76 GND

27 DIO1_IN4 28 DIO2_IN4 77

COM3_

RTS_Z

78

COM4_

RTS_Z

29 DIO1_IN5 30 DIO2_IN5 79

COM3_

TXD_Z

80

COM4_

TXD_Z

31 DIO1_IN6 32 DIO2_IN6 81

COM3_

CTS_Z

82

COM4_

CTS_Z

33 DIO1_IN7 34 DIO2_IN7 83 GND 84 GND

35

GND(

Isolated DIO

Ground)

36

GND(

Isolated DIO

Ground)

85

COM3_

DTR_Z

86

COM4_

DTR_Z

37 DIO1_OUT0 38 DIO2_OUT0 87 COM3_RI_Z 88 COM4_RI_Z
39 DIO1_OUT1 40 DIO2_OUT1 89 GND 90 GND
41 DIO1_OUT2 42 DIO2_OUT2 91 N.C. 92 N.C.
43 DIO1_OUT3 44 DIO2_OUT3 93 +5V AUX 94 +5V AUX

45

GND(

Isolated DIO

Ground)

46

GND(

Isolated DIO

Ground)

95 USB_D_4N 96 USB_D_5N

47 DIO1_OUT4 48 DIO2_OUT4 97 USB_D_4P 98 USB_D_5P
49 DIO1_OUT5 50 DIO2_OUT5 99 GND 100 GND

IPC-R1ix

50

GETTING TO KNOW YOUR IPC-R1ix

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

JP4

JP3

JP2

JP1

jumpers. A jumper is a metal bridge used to close an electric circuit. It consists
of two metal pins and a small metal clip (often protected by a plastic cover) that
slides over the pins to connect them. To “close” a jumper, you connect the pins
with the clip. To “open” a jumper, you remove the clip. Sometimes a jumper will
have three pins, labeled 1, 2 and 3. In this case you would connect either pins 1
and 2, or 2 and 3.

51

GETTING TO KNOW YOUR IPC-R1ix

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

JP1

2.4.1 JP1 AT/ ATX Power Mode Jumper Setting

The IPC-R1ix main board contains a jumper that can switch the AT/ATX
Power Setting. Normally this jumper should be set with Pin 4 and Pin 6 in ATX
power mode. And power on the system by the 2-pin terminal block at the top
panel. If you set it with Pin 2 and Pin 4 in AT power mode. It will send the power
button signal to power on the system automatically.

Setting Description Setting Description

1-2 AT Mode 2-3 ATX Mode (Default)

52

GETTING TO KNOW YOUR IPC-R1ix

2.4.2 JP2 LVDS Backlight Power Selection

U18U 14

U13

U10
U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

JP2

JP2 provides LVDS voltage selection function, closing Pin 1, 2 is for 3.3V LVDS
power input; closing Pin 2, 3 is for 5V LVDS power input.

Setting Description Setting Description

1-2 +3.3V (Default) 2-3 +5V

53

GETTING TO KNOW YOUR IPC-R1ix

Model PCI & PCIe Slot Setting Description

IPC-R1ix

1 PCIe x4 + 1 PCIe x16 (2-4), (1-3) X16 (Default)

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

JP3

54

GETTING TO KNOW YOUR IPC-R1ix

2.4.4 JP4(A) CMOS Clear Jumper Setting

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

JP4

Setting Description Setting Description

1-3 Normal (Default) 3-5 Clear CMOS

55

GETTING TO KNOW YOUR IPC-R1ix

2.4.5 JP4(B) CMOS Clear Jumper Setting

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

U18U 14

U13

U10

U9 U5

U4U1

R10

R9

R2

R1

L4

L3

L2 L1

C1

C3

C5

C7

3

1

4

6

1

3

2

1

5

6

2

1

5

6

1

6

1

7

8

7

1

2

8

5

4

1

1

45

8

1

2

3

4

1

7

17

1

7

1

7

25

22

54321

15

5

12

10

20

19

19

20

10

2

1

5

15

26

25

2

1

PC17

PC1S7

S1

15

11

10

6

51

24

16

8

17

9

1

1

19

2

20

21

39

22

40

B32

B31

A31

A32

B1

A1

B2

A2

B1

A1

A2

B2

A82

A81

B82

B81

1

2

71

72

73

74

203

204

1

2

717273

74

203

204

MH1

CN2

MH9

MH21

BAT1

JP4

CN24

CN20

CN14

MH15

J4

MH22

JP3

MH16

CN16

CN17

CN18

CN19

CN12

51 1

MH10

MH8

U33

CN5

51

52

2

1

MH5

MH2

BZ1

MH7

FAN1

J1

JP1

JP2

J3

MH13

MH14

MH12

MH17

MH19

MH18

MH20

MH3

MH4

CN6

CN1

U10

CN8

CN10

CN13

CN15

CN22 CN21

MH24

MH23

CN7

JP4

Setting Description Setting Description

2

-4 Normal (Default) 4-6 Clear ME

56

HARDWARE INSTALLATION

HARDWARE INSTALLATION

Step 1. How To Open Your IPC-R1ix

3

Remove the top cover of the chassis, loosen the thumbscrews on the front
panel by hand screwdriver.

Push out the top cover as the image 1.
Push up the top cover as the image 2.

1 2

3 4

57

HARDWARE INSTALLATION

Step 2. Installing DDR3 SO-DIMM Modules

Repeat Step 1.

Tile the SODIMM module and insert it to the SODIMM socket. As it’s firmly
contacted with socket connectors, press it down until the clamps of the socket
snap into the latching position of SODIMM module.

58

HARDWARE INSTALLATION

Step 3. Installing PCI/PCIe Card

Repeat Step 1.
Loosen M3 PCI/PCIe bracket screw.

Remove PCI/PCIe bracket, then install PCI/PCIe module, then inser the PCI/
PCIe card.

Fasten M3 PCI/PCIe bracket screw.

59

HARDWARE INSTALLATION

Step 4. Installing HDD/SSD

Repeat Step 1.

Loosen 2 pcs F #6x6 screws from the top of the SSD/HDD cover by screwcriver.

Lift the HDD/SSD cover as the image 1.
Make sure the screw hold of HDD/SSD cover to match HDD/SSD. (Image 2)

1 2

60

HARDWARE INSTALLATION

Install SATA cable to HDD/SSD. (Image4)

Replace the HDD/SSD cover, then fasten 2 pcs F #6x6 screws.

Install SATA cable to mainboard.

3 4

61

HARDWARE INSTALLATION

Step 5. Installing Mini PCIe Module

Repeat Step 1.
Loosen 2 pcs F #6x6 screws.

Loosen 2 pcs KSH #6-32 screws as yellow circle and 3 pcs F #6x6 screws as
red circle.

Check Mini PCIe socket as red circle.

Put your Mini PCIe card in the socket of mainboard, then fasten 2 pcs BH M 2.5x6

62

HARDWARE INSTALLATION

Step 6. Installing CPU

Repeat Step 1.
Loosen 2 pcs F #6x6 screws.

Loosen 2 pcs KSH #6-32 screws as yellow circle and 3 pcs F #6x6 screws as
red circle.

Loosen 9 pcs PH M3x6 screws for Riser Card.

Remove Riser Card

63

HARDWARE INSTALLATION

Loosen 5 pcs F #6x6 screws.

Push chassis as the image 1 and image 2.

Loosen 6 pcs M3x11 Spring screws and 8 pcs PH M3x6 screws.

1 2

64

HARDWARE INSTALLATION

Turn back the mainboard, then check CPU socket.
Note CPU and CPU socket triangle arrow to be the same direction.

Put the CPU to CPU socket and lock CPU socket.

Step 7. Installing Wall-mounting Bracket

Turn to the bottom and install Wall-mounting Bracket.
Fix two Wall-mounting brackets to the chassis with 4 pcs KH #6-32 screws.

65

BIOS AND DRIVER SETTING

BIOS AND DRIVER SETTING

4

4.1 BIOS Settings

4.1.1 BIOS Setup

The board uses UEFI BIOS that is use Serial Peripheral Interface (SPI)
Flash. The SPI Flash contains the BIOS Setup program, POST, the PCI auto-
configuration utility, LAN, EEPROM information, and Serial port support. The
BIOS setup program is accessed by pressing the <Del> key after the Power-
On Self-Test (POST) memory test begins and before the operating system boot
begins. The menu bar is shown below.

Aptio Setup Utility – Copyright (C) 2012 American Megatrends, Inc.

Main Advanced Chipset Boot Security Save & Exit

Figure 4-1-1: BIOS Menu Bar

66

BIOS AND DRIVER SETTING

4.2 Main Menu

4.2.1 BIOS Main Menu

System Time/ Date :
Press “TAB” key to switch sub-items of value .Then press “ +” key or “-“ key
number key for modify value.
In this page, you could make sure you CPU type and DRAM type that you are
install into this system.

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

BIOS Information

Item Specific Help

BIOS Vendor American Megatrends

BIOS Version Cybernet IPC-R1ix 070-003b

Release time 11/29/2013 13:32:22

Processor information

Brand String Intel (R) Core (TM) i7-3610

DIMM#0 8192MB (DDR3)

DIMM#0 Not Present

DIMM#0 Not Present

DIMM#0 Not Present

System Language [English]

System Date [Thu 02/21/2013]

System Time [12:00:00]

Figure 4-2-1: BIOS Main screen

67

BIOS AND DRIVER SETTING

4.3 Advanced Function

4.3.1 ACPI Setting

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

ACPI Settings

Enable ACPI Auto Configuration [Disabled]

Enable Hibernation [Enabled]

This system support ACPI function as auto process. You should Enable /
Disable that depend as your O.S.

Enable Hibernation:
It is able to use Hibernate function if O.S support. But some O.S maybe not
effective with this function.

Figure 4-3-1: ACPI Setting setup screen

68

BIOS AND DRIVER SETTING

4.3.2 Trusted Computing

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Configuration

Security Device Support [Disabled]

Current Status Information

SUPPORT TURNED OFF

Serial Port :

Enable or Disable Serial port.

Security Device Support :

Enables or Disables BIOS support for security device. O.S. will now show
Security Device. TCG EFT protocol and INT1A interface will not be available.

Current Status Information :
Show as below option
SUPPORT TURNED OFF
SUPPORT TURNED ON

Figure 4-3-2 : Serial Port 1 Setup screen

69

BIOS AND DRIVER SETTING

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

CPU Configuration

Intel (R) Core (TM) i7-3610QE CPU @ 2.30GHz

Inter Virtualization Technology [Disable]

Intel Virtualization Technology :

This for for Virtualization Application or platform usage, when enabled, a
VMM can utilize the additional hardware capabilities provided by Vanderpool
Technology,

70

BIOS AND DRIVER SETTING

4.3.4

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

SATA Controller(s)

[Enabled]

SATA Model Selection [IDE]

Serial ATA Port 0 Empty

Serial ATA Port 1 WDC WD320

Serial ATA Port 2 Empty

Serial ATA Port 3 Empty

Serial ATA Port 4 Empty

Serial ATA Port 5 Empty

SATA Controller(s) :

0988261051
Enables or Disables integrate SATA controller for Storage device use.

SATA Mode Selection :

Determines how the SATA transfer mode for operate. Here have three option
for choice [IDE] / [AHCI] / [RAID]. For the RAID mode operate, please see
appendix E. for detail information.

Serial Port 0~5 :

This system offers six SATA port for connection SATA device.

71

BIOS AND DRIVER SETTING

4.3.5

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Intel AMT [Enabled]

BIOS Hotkey Pressed [Disabled]

MEBx Selection Screen [Disabled]

Intel AMT :

Enables or Disables Intel(R) Active Management Technology BIOS extension.

This option just controls the BIOS extension executes.

Figure 4-3-5 : AMT Setup screen

72

BIOS AND DRIVER SETTING

4.3.6

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Serial Port 1 Configuration

Serial Port [Enabled]

Device Settings IO=3F8h; IRQ=4;

Change Settings [IO=3F8h; IRQ=4;]

Serial Port :

Enable or Disable Serial Port.

Device Setting:

Current IO address and interrupt resource of Serial Port.

Change Settings :

Select another device setting.
Here have 4 option :
IO=3F8h; IRQ=4;
IO=2F8h; IRQ=3;
IO=3E8h; IRQ=10;
IO=2E8h; IRQ=11;

Figure 4-3-6 : Serial Port 1 Setup screen

1

73

BIOS AND DRIVER SETTING

4.3.7

Serial Port :

Enable or Disable Serial Port.

Device Setting :

Current IO addresses and interrupts resource of Serial Port.

Change Settings :

Select another device setting .
Here have 4 option :
IO=3F8h; IRQ=4;
IO=2F8h; IRQ=3;
IO=3E8h; IRQ=10;
IO=2E8h; IRQ=11;

Interface Mode:

Here have 4 option :
RS-232 Mode
RS-422 Mode
RS-485 Mode

Figure 4-3-7 : Serial Port 2 Setup screen

2

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Serial Port 1 Configuration

Serial Port [Enabled]

Device Settings IO=2F8h; IRQ=3;

Change Settings [IO=2F8h; IRQ=3;]

Interface Mode [RS-232 Mode]

74

BIOS AND DRIVER SETTING

4.3.8

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Serial Port 3 Configuration

Serial Port [Enabled]

Device Settings IO=3E8h; IRQ=10;

Change Settings [IO=3E8h; IRQ=10;]

Serial Port :

Enable or Disable Serial Port.

Device Setting:

Current IO address and interrupt resource of Serial Port.

Change Settings :

Select another device setting .
Here have 4 option :
IO=3F8h; IRQ=4;
IO=2F8h; IRQ=3;
IO=3E8h; IRQ=10;
IO=2E8h; IRQ=11;
IO=2F0h; IRQ=6;
IO=2E0h; IRQ=7;

Figure 4-3-8 : Serial Port 3 Setup screen

3

75

BIOS AND DRIVER SETTING

4.3.9

Serial Port :

Enable or Disable Serial Port.

Device Setting:

Current IO address and interrupt resource of Serial Port.

Change Settings :
Select another device setting.
Here have 4 option :
IO=3F8h; IRQ=4;
IO=2F8h; IRQ=3;
IO=3E8h; IRQ=10;
IO=2E8h; IRQ=11;
IO=2F0h; IRQ=6;
IO=2E0h; IRQ=7;

Figure 4-3-9 : Serial Port 4 Setup screen

4

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Serial Port 4 Configuration

Serial Port [Enabled]

Device Settings IO=3F8h; IRQ=4;

Change Settings [IO=3F8h; IRQ=4;]

76

BIOS AND DRIVER SETTING

4.4 Chipset Function

4.4.1

PCH LAN Controller :

Enable or Disable on board network device.

Wake on LAN :

Enable or Disable integrated LAN to wake the system.
This function also can active by O.S.

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

PCH LAN Controller [ Enabled ]

Wake on LAN [Enabled]

Figure 4-4-1 : Network Setup screen

77

BIOS AND DRIVER SETTING

Restore AC Power Loss :

[Power Off] : When plug-in the power source, system will keep on SB mode.
[Power On] : When plug-in the power source, system will auto booting .
Last State] : When plug-in the power source, system will keep on last power
status.

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Restore AC Power Loss [Last State ]

Figure 4-4-2 : Power Loss Setup screen

78

BIOS AND DRIVER SETTING

4.5 Boot Function

4.5.1 Boot Option

Boot option:

When you press “Enter”, you can select which device you would like to boot.

Phoenix SecureCore(tm) Setup Utility

Main Advanced Chipset Boot Security Save & Exit

Item Specific Help

Boot Configuration

Boot option #1 [SATA PS:Device Name ]

Boot option #2 [SATA PS:Device Name ]

Figure 4-5-1 : Boot Setup screen

79

Appendix A

A

APPENDIX A : ISOLATED DIO GUIDE

Description:

Initialize hardware and resources, and get number of functional borads.

Syntax:

I16 _mnet104_open ()

Argument:

Name Type Description

N / C

Return:

Return Value Description

ERR_NoError

Other Please reference to the Appendix error table.

Description:

Get the local DI value.

Syntax:

I16 _mnet104_read_port( U16 Offset, U8 *Val )

Argument:

Name Type Description

Offset U16 Pointer the access DI port address

Val [output] U8 * Return the value of local input interface.

Return:

Return Value Description

ERR_NoError

Other Please reference to the Appendix error table.

80

Appendix A

Description:

Get the local DI value.

Syntax:

I16 _mnet104_write_port( U16 Offset, U8 Val )

Argument:

Name Type Description

Offset U16 Pointer the access DI port address

Val U8 Write the value of local input interface.

Return:

Return Value Description

ERR_NoError

Other Please reference to the Appendix error table.

81

Appendix B

B

APPENDIX B : GPIO & WDT FUNCTION

//write twice 0x87 value.

outportb(Super I/O special address port, 0x87);
outportb(Super I/O special address port, 0x01);
outportb(Super I/O special address port, 0x55);
outportb(Super I/O special address port, 0x55);

The GPIO& WDT are using internal Super IO function. However, you must entry

The output port is set as GPIO 1 on CN13, reg. index = 0x60
The input port is set as GPIO 4 on CN12, reg. index = 0x62.

Super I/O special address port = 0x2E

Super I/O special data port = 0x2F

GPIO Logical device is 0x07

B. Located on Logical Device 7

//write 0x07 on Reg [0x07] , this setup must follow Step A. that can be workable.

outportb(Super I/O special address port, 0x07);
outportb(Super I/O special data port, 0x07);

C. Access the Super I/O Register

Base control for write Super I/O register.

outportb(special address port, Register Index.);
outportb(special data port, update_value);

Base control for read Super I/O register

outportb(special address port, Register Index.);
inportb(special data port); //It will return a BYTE value.

82

Appendix B

D. Start to Access the ECS-7800-PoE GPIO Port

Please refer to source code for set_data() and get_data() function.

Write data to GPO(output) port

set_data( Register Index , update_value);

example :
unsigned char data = 0x82;
set_data( 0xE5 , data);
//Set bit 7 & bit 1 of GPO output port as High level ,another bit is Low
Please refer to source code for set_data() and get_data() function.

Read data to GPI(input) port

get_data( Register Index ) //It will return a BYTE value.
example :
unsigned char data
get_data( 0xF1 , data);
//Get GPI(input) port status on input_data variable.

E. WDT ON/OFF and Timer-Counter setting

Refer to GPIO setting of Step A and B. , located Logical 0x08 for WDT function.

Reg [0x30] is WatchDog ON/OFF control.
WatchDog On : set_data( 0x30 , 0x01);
WatchDog Off : set_data( 0x30 , 0x00);

Reg [0xF0] is WatchDog timer - counterON/OFF control.

WatchDog counter start : set_data( 0xF0 , 0x02);
WatchDog counter start : set_data( 0xF0 , 0x00);

Reg [0xF1] is WatchDog time-out value, "Reading" this register returns the
current value in the Watch Dog Counter, not the Watch Dog Timer Time-out
value..

WatchDog time-out value : set_data( 0xF1 , );

83

Appendix C

C

APPENDIX C : RAID INSTALLATION GUIDE

Valuable digital memories are protected against a hard drive failure when the
system is configured for any one of three fault-tolerant RAID levels: RAID 0,
RAID 1, RAID 5 or RAID 10. By seamlessly storing copies of data on one or
more additional hard drives, any hard drive can fail without data loss or system
downtime. When the failed drive is removed and a replacement hard drive is
installed, data fault tolerance is easily restored.

A. SATA Mode for RAID

Please select SATA Device to RAID mode on BIOS menu.

84

Appendix C

B. Install O.S.

IPC-R1ix is equipped with 6 SATA ports, include 3 internal SATA ports,
2 mSATA ports and 1 CFAST port. You can select one of SATA port for OS
installation. We use CFAST card for Windows 7 OS installation as an example.

For WinXP installation, you should press “F6” while the installation
program starting for ‘RAID’ driver installation. And the best solution that
show as item 3. ACHI operate.

C. Install All Device Drivers

Please follow installation sequences:

1.To install chipset driver

2.To install network driver

3.To install ME driver ( if available)

4.To install audio driver

5.To install VGA driver

D. Install Intel Rapid Storage Tech. Software

You can get the software on IPC-R1ix driver CD.

http://www.intel.com/p/en_US/support/highlights/chpsts/imsm

The RAID environment has been done if you completed the steps above.

E. Insert SATA HDD for RAID 1

Please notice, you can use 5 SATA ports for SATA HDD, except the CFAST port.

F. Enable Hot Plug Function

Please enable ‘Hot Plug’ for HardDisk or RAID volume

85

Appendix C

G. Create RAID Volume on Rapid Storage Tech.
Software

Because we only have 2 SATA HDDs for RAID volume, there are three options
on this page we can choose. We take RAID 1 as our example, please select
‘RAID 1’.

H. Partition on Disk Management

86

Appendix C

You can see “Volume_000 in SATA device of BIOS menu. To start Disk
Management tool and select ‘Initialize Disk’ Then add “Logical device” for
Windows access.

I. HDD Caution Sign on RAID Volume

87

Appendix C

J. Recovery & Auto Re-Build When Use the SAME
RAID HDD

*

If more help is needed, please contact Cybernet Technical Support

K. Recovery & Auto Re-Build When Use the
DIFFERENT RAID HDD

There is a warning will pop-up to ask you if the disk is not a member of original
RAID volume. If you press ‘Rebuild’, it will replace the broken SATA HDD to the
last one SATA HDD of RAID volume.

For further support information, please visit www.cybernet.us

This document is released for reference purpose only.

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The rights of all the brand names, product names and trademarks belong to their respective owners.
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