ASLAN-W10XXC Fanless Industrial PC Panel

ASLAN-W10XXC Series

Specifications

• Version: 1.0
• P/N: 4018100001100P
• Release Date: 2023.06

Product Information

The ASLAN-W10XXC Series is a versatile product designed to
provide reliable performance. It is equipped with advanced features
to enhance user experience and functionality. The product is
compliant with the directives of the Union European (EU) and has
passed the CE test for environmental specifications. It is also in
compliance with the FCC Rules, ensuring proper operation and
minimal interference. All components in the product are RoHS
compliant, meeting the European Union’s Restriction of Use of
Hazardous Substances in Electrical and Electronic Equipment (RoHS)
Directive 2002/95/EC.

Product Usage Instructions

Mounting

To mount the ASLAN-W10XXC Series, follow these steps:

1. Ensure you have the necessary tools and equipment for
   mounting.

2. Locate a suitable mounting surface.

3. If using a VESA mount, align the mounting holes on the product
   with the VESA mount holes on the surface.

4. Securely attach the product to the mounting surface using
   appropriate screws or fasteners.

BIOS Settings

The ASLAN-W10XXC Series has BIOS settings that allow you to
customize and configure various aspects of the product. Follow
these steps to access the BIOS settings:

1. Power on the product.

2. During the boot process, press the designated key (usually
   displayed on the screen) to enter the BIOS settings.

3. Navigate through the BIOS settings using the arrow keys.

4. Make the desired changes to the settings.

5. Save and exit the BIOS settings.

FAQ

Q: What is the purpose of the CE symbol on the product?

The CE symbol indicates that the product is in compliance with
the directives of the Union European (EU). It ensures that the
product meets the necessary standards and regulations for use
within the European Union.

Q: What does RoHS compliance mean?

RoHS compliance means that all components in the product are
free from hazardous substances such as lead, mercury, cadmium,
hexavalent chromium, polybrominated biphenyls (PBB), and
polybrominated diphenyl ethers (PBDE). This compliance ensures the
safety and environmental friendliness of the product.

ASLAN-W10XXC Series
Fanless Industrial Panel PC with Intel® Core i5-1145G7E 1.5GHz Processor
User’s Manual
Version 1.0

P/N: 4018100001100P
I

2023.06

Revision History

Version Date

1.0

2023.6 Initial release

Description

– II –

Contents
Contents
Revision History ……………………………………………………………………..II Contents ………………………………………………………………………………….i Preface…………………………………………………………………………………..iii
Copyright Notice ………………………………………………………………………….iii Declaration of Conformity ……………………………………………………………..iii
CE ……………………………………………………………………………………….iii FCC Class A …………………………………………………………………………iii RoHS …………………………………………………………………………………. iv SVHC / REACH …………………………………………………………………… iv Important Safety Instructions ………………………………………………………… v Warning…………………………………………………………………………………….. vi Lithium Battery Replacement……………………………………………………….. vi Technical Support ………………………………………………………………………. vi Warranty…………………………………………………………………………………….vii Chapter 1 – Introduction…………………………………………………………..1 1.1. The Computer ………………………………………………………………………. 2 1.2. About this Manual ………………………………………………………………… 2 1.3. Specifications……………………………………………………………………….. 3 1.4. Inside the Package ……………………………………………………………….. 5 1.5. Ordering Information ……………………………………………………………… 5 Chapter 2 – Getting Started………………………………………………………7 2.1. Dimensions ………………………………………………………………………….. 8 2.2. Tour the Computer ………………………………………………………………. 10 2.2.1. Front View…………………………………………………………………. 10 2.2.2. Top/Bottom View ………………………………………………………… 10 2.2.3. I/O Definition ……………………………………………………………… 11 2.3. Driver Installation Note…………………………………………………………. 13 Chapter 3 – Engine of the Computer ……………………………………….15 3.1. Board Layout………………………………………………………………………. 16 3.2. Connectors & Jummpers ……………………………………………………… 18 Chapter 4 – Installation and Maintenance………………………………..27 4.1. Disassembling and Assembling the Computer ………………………… 28 4.1.1. Disassembling the Computer……………………………………….. 28 4.1.2. Assembling the Computer……………………………………………. 28 4.2 Install Wi-Fi Antenna …………………………………………………………….. 29 4.3 Install the Wi-Fi Module ………………………………………………………… 31 4.4 Install the M.2 SSD Module …………………………………………………… 33 4.5 Install 2.5″ SSD or HDD………………………………………………………… 34 4.6. Mount the Computer ……………………………………………………………. 36 4.6.1. Panel Mounting………………………………………………………….. 36
– i –

Contents
4.6.2. VESA Mounting………………………………………………………….. 37 Chapter 5 – BIOS ……………………………………………………………………39
5.1. Main ………………………………………………………………………………….. 42 5.2. Advanced …………………………………………………………………………… 43
5.2.1. CPU Configuration……………………………………………………… 44 5.2.2. Power & Performance…………………………………………………. 45 5.2.3. Trusted Computing ……………………………………………………. 48 5.2.4. ACPI Settings…………………………………………………………….. 50 5.2.5. F81966 Super IO Configuration……………………………………. 51 5.2.6. Hardware Monitor ………………………………………………………. 52 5.2.7 S5 RTC Wake Settings ………………………………………………… 53 5.2.8. Serial Port Console Redirection……………………………………. 54 5.2.9. USB Configuration ……………………………………………………… 55 5.2.10. Network Stack Configuration ……………………………………… 57 5.2.11. NVME Configuration …………………………………………………. 58 5.3. Chipset………………………………………………………………………………. 59 5.3.1. System Agent (SA) Configuration …………………………………. 60 5.3.2. PCH-IO Configuration…………………………………………………. 65 5.4 Security ………………………………………………………………………………. 68 5.4.1 Security Boot ……………………………………………………………… 69 5.5. Boot…………………………………………………………………………………… 70 5.6. Save & Exit ………………………………………………………………………… 71 Appendix A. 16-bit DIO Signal Connections …………………………… 72 A.1. Isolated Digital Input Connections ………………………………….. 74 A.2. Isolated Digital Output Connections ……………………………….. 75
– ii –

Preface
Copyright Notice All Rights Reserved.
The information in this document is subject to change without prior notice in order to improve the reliability, design and function. It does not represent a commitment on the part of the manufacturer.
Under no circumstances will the manufacturer be liable for any direct, indirect, special, incidental, or consequential damages arising from the use or inability to use the product or documentation, even if advised of the possibility of such damages.
This document contains proprietary information protected by copyright. All rights are reserved. No part of this document may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
Declaration of Conformity
CE The CE symbol on your product indicates that it is in compliance with the directives of the Union European (EU). A Certificate of Compliance is available by contacting Technical Support. This product has passed the CE test for environmental specifications when shielded cables are used for external wiring. We recommend the use of shielded cables. This kind of cable is available from ARBOR. Please contact your local supplier for ordering information.
Warning This is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.
FCC Class A This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may cause undesired operation.
– iii –

Preface
NOTE:
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.
RoHS
ARBOR Technology Corp. certifies that all components in its products are in compliance and conform to the European Union’s Restriction of Use of Hazardous Substances in Electrical and Electronic Equipment (RoHS) Directive 2002/95/EC.
The above mentioned directive was published on 2/13/2003. The main purpose of the directive is to prohibit the use of lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBB), and polybrominated diphenyl ethers (PBDE) in electrical and electronic products. Member states of the EU are to enforce by 7/1/2006.
ARBOR Technology Corp. hereby states that the listed products do not contain unintentional additions of lead, mercury, hex chrome, PBB or PBDB that exceed a maximum concentration value of 0.1% by weight or for cadmium exceed 0.01% by weight, per homogenous material. Homogenous material is defined as a substance or mixture of substances with uniform composition (such as solders, resins, plating, etc.). Lead-free solder is used for all terminations (Sn(96-96.5%), Ag(3.0-3.5%) and Cu(0.5%)).
SVHC / REACH To minimize the environmental impact and take more responsibility to the earth we live, Arbor hereby confirms all products comply with the restriction of SVHC (Substances of Very High Concern) in (EC) 1907/2006 (REACH –Registration, Evaluation, Authorization, and Restriction of Chemicals) regulated by the European Union.
All substances listed in SVHC < 0.1 % by weight (1000 ppm)
– iv –

Preface
Important Safety Instructions Read these safety instructions carefully 1. Read all cautions and warnings on the equipment. 2. Place this equipment on a reliable surface when installing. Dropping it or
letting it fall may cause damage 3. Make sure the correct voltage is connected to the equipment. 4. For pluggable equipment, the socket outlet should be near the equipment
and should be easily accessible. 5. Keep this equipment away from humidity. 6. The openings on the enclosure are for air convection and protect the
equipment from overheating. DO NOT COVER THE OPENINGS. 7. Position the power cord so that people cannot step on it. Do not place
anything over the power cord. 8. Never pour any liquid into opening. This may cause fire or electrical shock. 9. Never open the equipment. For safety reasons, the equipment should be
opened only by qualified service personnel. 10. If one of the following situations arises, get the equipment checked by
service personnel: a. The power cord or plug is damaged. b. Liquid has penetrated into the equipment. c. The equipment has been exposed to moisture. d. The equipment does not work well, or you cannot get it to work according
to the user’s manual. e. The equipment has been dropped or damaged. f. The equipment has obvious signs of breakage. 11. Keep this User’s Manual for later reference.
– v –

Preface
Warning The Box PC and its components contain very delicately Integrated Circuits (IC). To protect the Box PC and its components against damage caused by static electricity, you should always follow the precautions below when handling it: 1. Disconnect your Box PC from the power source when you want to work on
the inside. 2. Use a grounded wrist strap when handling computer components. 3. Place components on a grounded antistatic pad or on the bag that came
with the Box PC, whenever components are separated from the system. Lithium Battery Replacement Incorrect replacement of the lithium battery may lead to a risk of explosion. The lithium battery must be replaced with an identical battery or a battery type recommended by the manufacturer. Do not throw lithium batteries into the trash can. It must be disposed of in accordance with local regulations concerning special waste. Technical Support If you have any technical difficulties, please consult the user’s manual first at: http://www.arbor.com.tw Please do not hesitate to call or e-mail our customer service when you still cannot find out the answer.
https://www.arbor-technology.com
– vi –

Preface
Warranty This product is warranted to be in good working order for a period of one year from the date of purchase. Should this product fail to be in good working order at any time during this period, we will, at our option, replace or repair it at no additional charge except as set forth in the following terms. This warranty does not apply to products damaged by misuse, modifications, accident or disaster. Vendor assumes no liability for any damages, lost profits, lost savings or any other incidental or consequential damage resulting from the use, misuse of, or inability to use this product. Vendor will not be liable for any claim made by any other related party. Vendors disclaim all other warranties, either expressed or implied, including but not limited to implied warranties of merchantability and fitness for a particular purpose, with respect to the hardware, the accompanying product’s manual(s) and written materials, and any accompanying hardware. This limited warranty gives you specific legal rights. Return authorization must be obtained from the vendor before returned merchandise will be accepted. Authorization can be obtained by calling or faxing the vendor and requesting a Return Merchandise Authorization (RMA) number. Returned goods should always be accompanied by a clear problem description.
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1 Chapter 1
Introduction
Chapter 1 – Introduction
– 1 –

Introduction 1.1. The Computer Product Highlights · 15.6~21.5″ LCD Display w/ LED Backlight · Flat panel with PCAP touch screen · IP65 compliant front panel · Anti-scratch surface: 7H hardness · Serial Ports (RS-232/422/485), RS-485 w/ auto-flow control · Mini PCIe expansion slot support · 4 x SMA antenna holes for optional wireless function · Wide power input range(9~36 VDC) & wide operating temperature(0ºC ~
50ºC) · Fanless cooling system 1.2. About this Manual This manual is meant for the experienced users and integrators with hardware knowledge of personal computers. If you are not sure about the description in this manual, consult your vendor before further handling. We recommend that you keep one copy of this manual for the quick reference for any necessary maintenance in the future. Thank you for choosing ARBOR products.
– 2 –

Introduction

1.3. Specifications

System CPU Memory
LAN Chipset Watchdog Timer TPM Storage Device Audio Device LCD Display Size/Type
Max. Resolution Max. Colors Luminance Touch Screen View Angle (U/D/R/L) Power System Power Input Power Consumption Qualification Certification

Soldered onboard Intel® 11th Gen CoreTM i5-1145G7E Processor 1.50 GHz 2 x 260-pin DDR4 SO-DIMM sockets, supporting 3200MHz SDRAM up to 64GB (1 x 4GB DDR4 SO-DIMM pre-installed) 1 x Intel® i225/i226LM PCIe controller w/ iAMT 2 x Intel® i210/i211AT PCIe controller
1~255 levels reset
Support TPM 2.0

1 x 2.5″ drive bay (SATA III) 1 x M.2 M-Key 2242/2280 slot (PCIe Gen III x4 + SATA III)

1 x Mic-in / 1 x Line out 2 x 1.5W speakers (optional)

ASLAN-W1015C ASLAN-W1019C ASLAN-W1022C
ASLAN-W1015C ASLAN-W1019C ASLAN-W1022C

15.6″ TFT LCD panel 18.5″ TFT LCD Panel 21.5″ TFT LCD panel
1366 x 768, WXGA 1366 x 768, WXGA 1920 x 1080, Full HD

W1015C/W1019C/W1022C: 16.7M

ASLAN-W1015C ASLAN-W1019C ASLAN-W1022C

400 cd/m² 450 cd/m² 250 cd/m²

ASLAN-W1015C/W1019C/W1022C: Projected capacitive touch panel

ASLAN-W1015C/W1019C 80°/80°/85°/85°

ASLAN-W1022C

89°/89°/89°/89°

ASLAN-W1015C/W1019C/W1022C: 9~36 VDC (3-pin terminal block:

V+, V-, GND)

ASLAN-W1019C/W1022C Max. 120W (w/o I/O cards)

ASLAN-W1015C

Max. 120W (w/o I/O cards)

CE, FCC Class A

– 3 –

Introduction

Expansion Expansion Bus External I/O

1 x mPCIE (PCIe x1 + USB2.0, Full Size) w/ 1 x nano SIM card slot
1 x M.2 B-Key 2242/3042/3052 (PCIe x2 + USB3.0) w/ 2 x nano SIM card slots for 5G module
1 x M.2 E-Key 2230 (CNVi + USB 2.0) slot for WiFi /BT Support CNVi modules only

Serial Ports

2 x DB-9 connectors for RS-232 1 x DB-9 connectors for RS-232/422/485

USB Ports

4 x USB-A 3.2 Gen2 ports

1 x RJ-45 2.5 GbE LAN ports LAN
2 x RJ-45 GbE ports

Video

1 x HDMI 2.0b, up to 3840×2160@60Hz 1 x DisplayPort 1.4, up to 3840×2160@60Hz

DIO

8 x DI & 8 x DO w/ 1.5KV isolation

Others

4 x Antenna holes

Mechanical

Mounting Type

Panel mount & VESA-100 mounting

Material Dimension (W x H x D)
Weight (Net)

Aluminum front bezel and SGCC chassis

ASLAN-W1015C ASLAN-W1019C ASLAN-W1022C

404 x 255 x 65.8 mm 470 x 295 x 65.8 mm 536 x 332 x 65 mm

ASLAN-W1015C ASLAN-W1019C ASLAN-W1022C

5.5 kg 6.7 kg 8 kg

Environmental Operating Temp. Storage Temp. Operating Humidity Vibration

ASLAN-W1015C/W1019C -20ºC ~ 55ºC

ASLAN-W1022C

0ºC ~ 55ºC

ASLAN-W1015C/W1019C -30ºC ~ 70ºC

ASLAN-W1022C

-10ºC ~ 70°C

ASLAN-W1015C/W1019C/W1022C 10 ~ 95% RH @ 55°C (non-condensing)

5 ~ 500Hz, 1Grms random (w/ SSD)

Shock

Operating 10G, 11ms non-operating 30G, 11ms (w/ SSD)

OS Support

Windows 10 / Windows 11 / Linux: Ubuntu 20.04

– 4 –

Introduction
1.4. Inside the Package
Upon opening the package, carefully inspect the contents. If any of the items is missing or appears damaged, contact your local dealer or distributor. The package should contain the following items:

1 x ASLAN-W10XXC
*Product appearance varies by model.

1 x Accessory Box that contains the following items:
· 4 x M34L screws (for 2.5″ SSD/ HDD tray) · Panel-mount Clamps w/ screws (clamps
and M418L screws) · 2 x 10-pin plug (for D I/O) · 1 x Rubber O-ring · 3-pin plug x 2 (one for DC input block;
one for Remote Control block)

1.5. Ordering Information

ASLAN -W1015C ASLAN -W1019C ASLAN -W1022C

15.6″ Soldered onboard Intel® 11th Gen CoreTM i5-1145G7E Processor 1.50 GHz processor,wide-screen industrial panel PC w/ 4GB Memory
18.5″ Soldered onboard Intel® 11th Gen CoreTM i5-1145G7E Processor 1.50 GHz processor,wide-screen industrial panel PC w/ 4GB Memory
21.5″ Soldered onboard Intel® 11th Gen CoreTM i5-1145G7E Processor 1.50 GHz processor,wide-screen industrial panel PC w/ 4GB Memory

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2 Chapter 2
Getting Started
Chapter 2 – Getting Started
– 7 –

217.20

Getting Started 2.1. Dimensions ASLAN-W1015C
404.00

388.00(CUT OUT DIMENSION)

255.00 239.10(CUT OUT DIMENSION)

ASLAN-W1019C
470.00

6.00 24.60 65.80

(14.31)

375.38

454.10(CUT OUT DIMENSION)

295.00 279.10(CUT OUT DIMENSION)

6.00 24.60 65.80

(47.31)

375.38

25.50

217.20

(40.50)

– 8 –

ASLAN-W1022C
536.00

Getting Started
520.10(CUT OUT DIMENSION)

332.00 316.10(CUT OUT DIMENSION)

6.00 23.80 65.00

(80.31)

375.38

217.20

(59.00)

– 9 –

Getting Started
2.2. Tour the Computer Take a look around the computer and find the external controls and connectors. 2.2.1. Front View

*Product appearance varies by model.
2.2.2. Top/Bottom View

– 10 –

Getting Started

ASLAN-W10XXC

No.

Description

Power Button

Remote On/Off Control

2 x RJ-45 GbE ports

1 x RJ-45 2.5 GbE port

HDMI 2.0b port

Displayport 1.4

COM Port, RS-232/422/485 selectable

4 x Type-A USB 3.2 Gen2 ports

COM Ports, RS-232

3-pin DC-in Power Connector

8 bit Digital Input Connector

8 bit Digital Output Connector

2.2.3. I/O Definition

Remote On/Off Control
3-pin terminal block

Function:

3-pin terminal block for remote control and PWR LED

Connector Type: 1×3-pin Terminal block

Pin Assignment: Pin

Desc.

SW+ GND LED+

1

Power button+

2

GND

3

LED+

– 11 –

Getting Started

COM1

Function:

RS-232/422/485 Selectable Serial Port

Connector Type: External double-stacked 9-pin D-sub male connector

Pin Assignment: Pin Desc.

Pin Desc.

1 DCD / (RS422 TX-) / (RS485-) 6 DSR

2 RXD / (RS422 TX+) / (RS485+) 7 RTS

3

TXD / (RS422 RX+)

8 CTS

1

5

6

9

4

DTR / (RS422 RX-)

9 RI

5

GND

COM2, COM3

Function:

RS-232 Serial Port

Connector Type: External double-stacked 9-pin D-sub male connector

Pin Assignment: Pin Description Pin Description

1

DCD

2

3

TXD

4

RXD DTR

1

5

6

9

5

GND

6

7

RTS

8

DSR CTS

1

5

6

9

9

RI

10

N.C

PWRIN1

Function:

Power input terminal block

Connector Type: 1×3-pin Terminal block

Pin Assignment: Pin Desc.

1 Power Input +

2 Power Input –

3 Earth Ground

1 23

8 bit Digital Input Connector

Function:

Digital Input Connector

Connector Type:

Pin Assignment: Pin Desc.

Pin

+ DIO_POWER 5

1 DI_1

6

2 DI_2

7

3 DI_3

8

4 DI_4

Desc. DI_5 DI_6 DI_7 DI_8 DIO_POWER

– 12 –

8 bit Digital Output Connector

Function:

Digital Output Connector

Connector Type:

Pin Assignment: Pin Desc.

Pin Desc.

– GND

5 DO_5

1 DO_1

6 DO_6

2 DO_2

7 DO_7

3 DO_3

8 DO_8

4 DO_4

–

GND

Getting Started

2.3. Driver Installation Note
Windows 10 64-Bit To install the drivers, please visit our website at www .arbor-technology.com and download the driver pack from the product page. If you need login access, please contact your local ARBOR sales representative.

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3 Chapter 3
Engine of the Computer
Chapter 3 – Engine of the Computer
– 15 –

Engine of the Computer 3.1. Board Layout Main Board (ASLAN-1015C/1019C/1022C)

(20) JLS_PWR1

(21) LVDS1 (22) INV1 (23) IO1

(24) JVINV1 (25) JBLON1

(26) PWRIN1

(19) MMkey1

(1) PWF1

(18) DGP1 (17) SIM3 (16) USB5
(15) JACCON

(13) JBAT2 (14) SIM1

(11) SIM2

(10) MEKey1

(12) MBKey1

(9) MC1

(2) COM3 (3) COM2 (4) JCP1 (6) JV2 (5) JV1
(7) CN2 (8) CN1

– 16 –

Label (1) PWF1 (2) COM3 (3) COM2 (4) JCP1 (5) JV1 (6) JV2 (7) CN2 (8) CN1 (9) MC1 (10) MEKEY1 (11) SIM2 (12) MBKEY1 (13) JBAT2 (14) SIM1 (15) JACCON2 (16) USB5 (17) SIM3 (18) DGP1 (19) MMKEY (20) JLS_PWR1 (21) LVDS1 (22) INV1 (23) IO1 (24) JVINV1 (25) JBLON1 (26) PWRIN1

Engine of the Computer
Description Power button and Power LED Connector COM port for 9pin D-SUB COM port for 9pin D-SUB Power selection for COM port COM1 function COM2 function USB2.0 wafer connector USB2.0 wafer connector PCI Express Mini-card socket M.2 E-Key socket Nano SIM card socket M.2 B-Key socket Reset CMOS settings Nano SIM card socket Acc mode selection for vehicles USB connector Nano SIM card socket External debug port M.2 M-Key socket Multi Serial Bus power connector LVDS Connector LVDS Back light Connector Onboard Type 16pin header LCD backlight Backlight PWM Power Input Terminal Block

– 17 –

Engine of the Computer

3.2. Connectors & Jummpers

(1) PWF1

Function:

Power button and Power LED Connector

Connector Type: 2.00 mm pitch 1×4-pin one-wall connector

Pin Assignment: Pin

Desc.

1

PWR_IN_SW#

2

GND

41

3

LED+

4

NC

(2)(3) COM2/3
Function: Connector Type: Pin Assignment:

RS232 DB9 connector 2.00 mm pitch 2×5 pin box header

Pin Desc.

Pin

1 DCD

2

RS232 3 TXD

4

5 GND

6

7 RTS

8

9 RI

10

Desc. RXD DTR DSR CTS NC

9

1

2

– 18 –

(4)JCP1

Function: Jumper Type: Setting:

Power selection for COM port Onboard 2.00mm-pitch 1×3-pin header

Pin

Description

Short 1-2 COM_5V

Short 2-3 COM_12V

Engine of the Computer
3. 1. 3. 1.

(5)(6)JV1/JV2

Function: Jumper Type: Setting:

RI/5V/12V (Pin 9) Selection for COM Port

Onboard 2.00mm-pitch 1×3-pin header

Pin

Description

Short 1-2 RI (default)

1. 3.

Short 2-3 5V or 12V (depends on JCP1)

(7)(8) CN1/CN2

Function:

USB2.0 Wafer

Connector Type: onboard Type 4pin wafer

Pin Assignment:

Pin Desc.

1 VCC5
1
2 DATA-

3 DATA+

4 GND

– 19 –

Engine of the Computer

(9) MC2
Function: Connector Type: Pin Assignment:

PCI Express Mini-card Full socked Onboard 0.8mm pitch 52-pin edge card connector.

2 16

1

15

18

17

52

51

(10) MEKEY1
Function:
Connector Type: Pin Assignment:

M.2 E-Key socket (w/ CNVi+USB2.0) for optional Wi-Fi/BT M.2 E-Key 2230 Socket The pin assignments conform to the industry standard.

(11) SIM2

Function:

SIM Card Socket

Connector Type: 6-pin SIM card socket

Pin Assignment: Pin Desc. Pin Desc

C1 VCC C3 CLK C6 VPP

C2 RST C5 GND C7 I/O

(12) MBKEY1

Function:
Connector Type: Pin Assignment:

M.2 B-Key socket (w/ PCIe + USB 3.0 or PCIe x2)(either one) M.2 B-Key The pin assignments conform to the industry standard.

– 20 –

Engine of the Computer

(13) JBAT2
Function: Jumper Type: Setting:

Clears/keeps CMOS 2.00 mm pitch 1×2-pin header

Pin

Description

12 Short Clears CMOS

12
Open Keeps CMOS (default)

(14) SIM1

Function:

SIM Card Socket

Connector Type: 6-pin SIM card socket

Pin Assignment: Pin Desc. Pin Desc

C1 VCC C3 CLK C6 VPP

C2 RST C5 GND C7 I/O

(15) JACCON2

Function Connector Type: Pin Assignment:

Ignition Power Connector Onboard 2×1-pin box connector
Pin Description

1 Acc_ON

1

2 GND

– 21 –

Engine of the Computer

(16) USB5

Function:

Internal USB 2.0 connector

Connector Type: USB2.0 Type-A connector

1 23 4

Pin Assignment: The Pin assignment conform to the industry standard.

(17) SIM3

Function:

SIM Card Socket

Connector Type: 6-pin SIM card socket

Pin Assignment: Pin Desc. Pin Desc

C1 VCC C3 CLK C6 VPP

C2 RST C5 GND C7 I/O

(18) DGP1

Function:

Debug port

Connector Type: 2.00mm-pitch 2×5-pin header

Pin Assignment: Pin Description

Pin

1 24MHz Clock

2

3 LPC_FRAME#

4

5 PLTRST#

6

7 LPC_LAD3

8

9 VCC3

10

Description GND LPC_LAD0 N.C LPC_LAD2 LPC_LAD1

(19) MMKEY1

Function: Connector Type:
Pin Assignment:

M.2 M-Key Connector M.2 75-pin M-Key connector for PCIe x4/SATA-III SSD storage, supporting 22×42 / 22×80 modules
The pin assignments conform to the industry standard.

10

1

2

2 58 68 74

57 67 75

1

– 22 –

Engine of the Computer

(20) JLS_PWR1

Function: Jumper Type: Setting:

Multi Serial Bus power connector Onboard 2.00mm-pitch 1×3-pin header

Pin

Description

Short 1-2 5V(default)

3. 1.

Short 2-3 3.3V

10

(21) LVDS1

Function:

Debug port

Connector Type: 2.00mm-pitch 2×5-pin header

Pin Assignment: Pin Description

Pin

1 24MHz Clock

2

3 LPC_FRAME#

4

5 PLTRST#

6

7 LPC_LAD3

8

9 VCC3

10

Description GND LPC_LAD0 N.C LPC_LAD2 LPC_LAD1

1

2

10

(22) INV1

Function:

Debug port

Connector Type: 2.00mm-pitch 2×5-pin header

Pin Assignment: Pin Description

Pin

1 24MHz Clock

2

3 LPC_FRAME#

4

5 PLTRST#

6

7 LPC_LAD3

8

9 VCC3

10

Description GND LPC_LAD0 N.C LPC_LAD2 LPC_LAD1

1

2

– 23 –

Engine of the Computer

(23) IO1

Function:

Multi Serial Bus connector

Connector Type: 2.00mm-pitch 2×8-pin header

Pin Assignment: Pin Description

Pin

1 I2C0_SCL

2

3 SPI_MISO

4

5 SPI_CLK

6

LS_PWR

7

8

5V(default)/3.3V

9 I2C1_SCL

10

11 UART_TXD

12

13 UART_RTS#

14

15 NC

16

Description I2C0_SDA SPI_MOSI SPI_CS#
GND
I2C1_SDA UART_RXD UART_CTS# GND

16 2 1

(24) JVINV1

Function: Jumper Type: Setting:

LCD backlight Onboard 2.00mm-pitch 1×3-pin header

Pin

Description

Short 1-2 5.0V: 1-2

1. 3.

Short 2-3 12V: 2-3 (default)

(25) JBLON1

Function: Jumper Type: Setting:

Backlight PWM

Onboard 2.00mm-pitch 1×3-pin header

Pin

Description

Short 1-2 Inverted: 1-2

1. 3.

Short 2-3 Normal: 2-3 (default)

– 24 –

(26) PWRIN1

Function:

Power input terminal block

Connector Type: 1×3-pin Terminal block

Pin Assignment: Pin Desc.

1 VCC

2 GND

3 D_GND

1 23

Engine of the Computer

– 25 –

This page is intentionally left blank. – 26 –

4 Chapter 4
Installation & Maintenance
Chapter 4 – Installation and Maintenance
– 27 –

Installation & Maintenance 4.1. Disassembling and Assembling the Computer This section will guide you to install the Wi-Fi module and SSD. If you don’t need to install the Wi-Fi module, skip the Wi-Fi related sections. The installation procedures for ASLAN-W1015C, ASLAN-W1019C and ASLANW1022C are similar. This section will use the ASLAN-W1019C to illustrate the procedures. 4.1.1. Disassembling the Computer To use onboard jumpers/connectors or to install/remove internal components, you will need to open the computer to access the inside of the computer. Follow through the guide below to disassembly the computer. 1. Position the computer with the rear side facing up and remove 8 screws
securing the chassis as shown below .
2. Then lift the chassis away from the assembly.
3. You are ready to access the components on the main board and make required configurations and connections.
4.1.2. Assembling the Computer After completing the required hardware installation and jumpers settings, assemble the computer by performing the proceeding steps in reverse order.
– 28 –

Installation & Maintenance 4.2 Install Wi-Fi Antenna To install the antenna, you have to remove the rear cover to access the antenna holes first. Please refer to to 4.1.1. Disassembling the Computer on page 28.After installing the antenna, restore the rear cover and proceed to next section to install the Wi- FI module. 1. Remove the plastic plug from the antenna hole. Keep the plastic plug for
any possible restoration in the future.
Remove the plug to access the antenna hole
2. Prepare the RF antenna. The antenna has an SMA connector on one end and an MHF connector on the other.
SMA connector
MHF connector
From the SMA end of the RF antenna, remove the washer and the nut. Save the washer and nut for later use. Note that the SMA connector is in the form of a threaded bolt, with one flat side.
– 29 –

Installation & Maintenance
Remove the nut and washer.

Among the screw thread, there is a flat side.

3. Pass the SMA connector through the above mentioned antenna hole. Make sure that you align the connector’s flat side with the antenna hole’s flat side.
Arrange the flat side of the SMA connector to meet the flat side of the antenna hole.

4. Mount the washer first and then the nut to the SMA connector. Make sure the nut is tightened.
Mount the washer and the nut to the SMA connector. Tighten the nut.
5. If you are using two antennas, repeat steps 2~5 for another antenna. 6. Restore the computer’s rear cover and fasten the 8 screws.

– 30 –

Installation & Maintenance
4.3 Install the Wi-Fi Module
To install the Wi-Fi Module, you have to remove the rear cover to access the Mini PCIe socket first. Please refer to to 4.1.1. Disassembling the Computer on page 28.
1. Locate the Mini PCIe socket for wireless module. Note that the socket has a notch among the connector.
Mini PCIe socket for Wi-Fi module

2. Connect the antenna to your wireless module. The wireless module comes with two U.FL connectors – one is “1” and the other is “0”. Always follow the connections below for best signal reception.
If you are using only one antenna, connect the antenna’s MHF end to the connector labeled “1”.

U.FL connector labeled “1” for main W-Fi antenna

U.FL connector labeled “0 ” for auxiliary Wi-Fi antenna

– 31 –

Installation & Maintenance 3. Then plug the Wi-Fi module to the socket’s connector by a slanted angle.
Fully insert the module, and note that the notch on the wireless module should meet the break of the connector.
4. Press the module down and fix the module in place using the screw.
– 32 –

Installation & Maintenance 4.4 Install the M.2 SSD Module The computer has a M.2 M-Key socket for NvME SSD storage. This section will use a 22 x 80 form factor as the installation example. 1. Remove the rear cover to access the M.2 on-board socket first. Please refer
to to 4.1.1. Disassembling the Computer on page 28.
2. Insert the M.2 module into the socket by aligning the notch on the module with the small slot on the M.2 socket.
3. Press the module down and fix the module in place using a screw. – 33 –

Installation & Maintenance 4.5 Install 2.5″ SSD or HDD To install 2.5″ HDD or SSD to the computer, 1. Remove the hard drive bay from the rear cover chassis by loosening the 4
screws.
2. Slide the 2.5″ HDD or SSD storage device into the drive bracket and use 4 screws coming with the storage device kit, fix the storage device in place.
– 34 –

Installation & Maintenance 3. Connect the SATA interface and power cables to the SATA & power
connectors on the main board.
4. Secure the drive bay back to the rear side cover by fastening the 4 screws you removed in Step 1.
– 35 –

Installation & Maintenance 4.6. Mount the Computer Integrate the computer to where it works by mounting it to a wall in the surroundings or to the rear of a display panel. 4.6.1. Panel Mounting For ASLAN-W1015C/W1019C/W1022C 1. Put the panel PC into correct-sized opening on a panel or other fixture. 2. Put the provided panel-mounting clamps into holes around edges of the
panel PC. 3. Tightly fasten the panel-mounting clamps around edges.
– 36 –

Installation & Maintenance 4.6.2. VESA Mounting To integrate the computer to a VESA arm: 1. Find the VESA mounting holes on the Panel PC. The VESA specifications
varies according to your model.
2. Attach the VESA arm to the rear of the computer by meeting the mounting holes on the VESA arm and VESA bracket.
3. Fix the assemblage with four screws.
– 37 –

Installation & Maintenance This page is intentionally left blank.
– 38 –

5 Chapter 5
BIOS
Chapter 5 – BIOS
– 39 –

BIOS
The BIOS Setup utility for the ASLAN-W10XXC is featured by American Megatrends Inc to configure the system settings stored in the system’s BIOS ROM. The BIOS is activated once the computer powers on. When the computer is off, the battery on the main board supplies power to BIOS RAM.
To enter the BIOS Setup utility, keep hitting the “Delete” key upon powering on the computer.

Menu Main Advanced Chipset Boot Security Save & Exit

Description See 5.1. Main on page 42 See 5.2. Advanced on page 43 See 5.3. Chipset on page 59 See 5.4 Security on page 68 See 5.5. Boot on page 70 See 5.6. Save & Exit on page 71

– 40 –

BIOS

Key Commands
The BIOS Setup utility relies on a keyboard to receive user’s instructions. Hit the following keys to navigate within the utility and use the utility.

Keystroke Enter
Esc
Page Up / + Page Down / F1 F10

Function Moves left/right between the top menus. Moves up/down between highlight items. Selects an highlighted item/field. On the top menus:
Use Esc to quit the utility without saving changes to CMOS. (The screen will prompt a message asking you to select OK or Cancel to exit discarding changes. On the submenus: Use Esc to quit current screen and return to the top menu. Increases current value to the next higher value or switches between available options. Decreases current value to the next lower value or switches between available options. Opens the Help of the BIOS Setup utility.
Exits the utility saving the changes that have been made. (The screen then prompts a message asking you to select OK or Cancel to exit saving changes.)

Note: Pay attention to the “WARNING” that shows at the left pane onscreen when making any change to the BIOS settings.
This BIOS Setup utility is updated from time to time to improve system performance and hence the screenshots hereinafter may not fully comply with what you actually have onscreen.

– 41 –

BIOS
5.1. Main The Main menu features the settings of System Date and System Time and displays some BIOS info.

Setting Project Name BIOS Version Build Date and Time
Access Level System Date System Time

Description Delivers the model name of the computer. Delivers the computer’s BIOS version. Delivers the date and time when the BIOS Setup utility was made/ updated. Delivers the level that the BIOS is being accessed at the moment. Sets system date. Sets system time.

– 42 –

5.2. Advanced

BIOS

Setting

Description

CPU Configuration

See 5.2.1. CPU Configuration on page 44

Power & Performance

See 5.2.2. Power & Performance on page 45

Trusted Computing

See 5.2.3. Trusted Computing on page 48

ACPI Settings

See 5.2.4. ACPI Settings on page 50

F81966A Super IO Configuration See 5.2.5. F81966 Super IO Configuration on page 51

Hardware Monitor

See 5.2.6. Hardware Monitor on page 50

S5 RTC Wake Settings

See 5.2.7 S5 RTC Wake Settings on page 53

Serial Port Console Redirection See 5.2.8. Serial Port Console Redirection on page 54

USB Configuration

See 5.2.9. USB Configuration on page 55

Network Stack Configuration See 5.2.10. Network Stack Configuration on page 57

NVME Configuration

See 5.2.11. NVME Configuration on page 58

– 43 –

BIOS 5.2.1. CPU Configuration

Setting Intel (VMX) Virtualization Technology Active Processor Cores
Hyper-threading

Description
When enabled, a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology
Options: Enabled (default) or Disabled Number of cores to enable in each processor package.
Options: All (default) and 1 Enabled (default) for Windows XP and Linux (OS optimized for Hyper-Threading Technology) and Disabled for other OS (OS not optimized or Hyper-Threading Technology). When disabled only one thread per enabled core is enabled.

– 44 –

5.2.2. Power & Performance

BIOS

Setting
CPU – Power Management Control
GT – Power Management Control

Description Configure CPU Power Management See 5.2.2.1 CPU Power & Performance on page 46 Configure graphics processors Power Management See 5.2.2.2 GT – Power Management Control on page 47

– 45 –

BIOS 5.2.2.1 CPU Power & Performance

Setting Enable ACPI Auto Configuration Enable Hibernation
ACPI Sleep State

Description
Enables or Disables (default) BIOS ACPI Auto Configuration
Enables (default) or Disables System ability to Hibernate (OS/ S4 Sleep State). This option may be not effective with some OS. Select ACPI sleep state the system will enter when the SUSPEND button is pressed. Options: Suspend Disabled and S3 (Suspend to RAM)
(default)

– 46 –

5.2.2.2 GT – Power Management Control

BIOS

Setting RC6 (Render Standby)
Maximum GT frequency Disable Turbo GT frequency

Description
Function of activation and deactivation the energy-saving mechanism integrated into the Intel graphics core processors when the computer enters sleep mode.
Enable (default) / Disable
This item maximum GT frequency limited by te user. Value beyond the range will be clipped to min/max supported by SKU.
Default Max Frequency (default)
This item Disable Turbo GT frequency. Enabled: Disables Turbo GT frequency. Disabled: GT frequency is no limited.
Disabled (Default) / Enabled

– 47 –

BIOS 5.2.3. Trusted Computing

Setting Security Device Support SHA-1 PCR Bank SHA256 PCR Bank Pending operation Platform Hierarchy Storage Hierarchy

Description This item enables or disables BIOS support for security device. O.S will not show Security Device. Enabled (Default) / Disabled This item enables or disables SHA-1 PCR Bank. Enabled/Disabled(Default) Enables or disables SHA-1 PCR Bank. Enabled (Default) / Disabled This item schedule an operation for the security device. None (Default) / TPM Clear Enables or disables Platform Hierarchy Enabled (Default) / Disabled Enables or disables Storage Hierarchy Enabled (Default) / Disabled

– 48 –

BIOS

Endorsement Hierarchy
TPM2.0 UEFI Spec Version
Physical Presence Spec Version Device Select

Enables or disables Endorsement Hierarchy.
Enabled (Default) / Disabled
Allows user to select the TCG2 Spec Version Support.
TCG_1_2: Compatible mode for Win8/ Win10 TCG_2: Support new TCG2 protocol and event for Win10 or later.
TCG_1_2/TCG_2 (Default)
This item select to tell O.S. to support PPI Spec Version 1.2 or 1.3.
1.3 (Default) / 1.2
TPM 1.2 will restruct support to TPM 1.2 devices, TPM 2.0 will restrict support to TPM 2.0 devices, Auto will support both TPM 2.0 devices and TPM 1.2 deviced.
Auto(Default)/TPM 1.2/TPM 2.0

– 49 –

BIOS 5.2.4. ACPI Settings

Setting Enable ACPI Auto Configuration
ACPI Sleep State

Description
Enable (default) or Disable BIOS ACPI Auto Configuration
Only available when BIOS ACPI Auto Configuration is enabled. Select ACPI sleep state the system will enter when the SUSPEND button is pressed. Options: Suspend Disabled and S3 (Suspend to RAM)
(default)

– 50 –

5.2.5. F81966 Super IO Configuration

BIOS

Note: The quantity of serial ports varies according to your model.

Setting Serial Port 1/2/3 Configuration Serial Port COM1 Mode Select

Description
To configure each COM port settings. Note: The quantity of serial ports varies according to your model.
Enable (default) or Disable the Serial Port (COM).
For Serial Port 1: Select RS-232 (default), RS-422, RS-485 or RS-485 with termination resistor.

– 51 –

BIOS 5.2.6. Hardware Monitor
Access this submenu to monitor the hardware status. – 52 –

5.2.7 S5 RTC Wake Settings

BIOS

Setting
Wake System from S5

Description
Enable or Disable (default) system wake on alarm event.
Options available are: Disabled (default): Fixed Time: System will wake on the hr::min::sec specified. DynamicTime: If selected, you need to set Wake up minute increase from 1 – 5. System will wake on the current time + increase minute(s).

– 53 –

BIOS 5.2.8. Serial Port Console Redirection

Setting
Serial Port Console Redirection
Legacy Console Redirection Settings

Description
Allow you to enable or disable the console redirection feature. Enabled / Disabled (Default) Allow you to select a COM part to display redirection of Legacy OS and Legacy OPRom Messages.

– 54 –

5.2.9. USB Configuration

BIOS

Setting

Description

Enables/disables legacy USB support.

Options available are Enabled (default), Disabled and Auto.

Legacy USB Support Select Auto to disable legacy support if no USB device are connected.

Select Disabled to keep USB devices available only for EFI applications.

XHCI Hand-off

This is a workaround for OSes without XHCI hand-off support. The XHCI ownership change should be claimed by XHCI driver.
The optional settings are: Enabled (default) / Disabled.

USB Mass Storage Driver Support

Enables/disables USB Mass Storage Driver Support. The optional settings are: Enabled (default) / Disabled.

– 55 –

BIOS

USB hardware delay and time-out

USB transfer timeout

Use this item to set the time-out value for control, bulk, and interrupt transfers.
Options: 1 sec, 5 sec, 10 sec, 20 sec (default)

Device reset timeout

Use this item to set USB mass storage device start unit command timeout.
Options available are: 10 sec, 20 sec (default)., 30 sec, 40 sec

Device power-up delay

Use this item to set maximum time the device will take before it properly reports itself to the host controller. Auto’ uses default value: for a root port it is 100 ms, for a hub port the delay is taken from hub descriptor. Options available are: Auto: Default Manual: Select Manual you can set value for the following sub-item:Device Power-up delay in seconds’, the delay range in from 1 to 40 seconds, in one second increments.

– 56 –

5.2.10. Network Stack Configuration

BIOS

Setting Network Stack

Description Enable or Disable (default) UEFI network stack.

– 57 –

BIOS 5.2.11. NVME Configuration
Access this submenu to view the NVMe controller and driver information. – 58 –

5.3. Chipset

BIOS

Submenu

Description

System Agent (SA) Configuration See 5.3.1. System Agent (SA) Configuration on page 60

PCH-IO Configuration

See 5.3.2. PCH-IO Configuration on page 65

– 59 –

BIOS 5.3.1. System Agent (SA) Configuration

Submenu

Description

System Agent (SA) Configuration

Memory Configuration

See 5.3.1.1 Memory Configuration on page 61

Graphics Configuration

See 5.3.1.2. Graphics Configuration on page 62

PEG Port Feature Configuration See 5.3.1.3. PEG Port Feature Configuration on page 63

VMD Setup Menu

See 5.3.1.4. VMD Configuration on page 64

VT-d

Enable (default) or Disable VT-d function

– 60 –

5.3.1.1 Memory Configuration

BIOS

Access this submenu to view the memory configuration. – 61 –

BIOS 5.3.1.2. Graphics Configuration

Setting Aperture Size DVMT Pre-Allocated DVMT Total Gfx Mem

Description Select the Aperture Size Options: 128MB, 256MB (default), 512MB and 1024MB.
Select the DVMT 5.0 Pre-allocated (Fixed) Graphic Memory size used by the Internal Graphic Device. 60M is the default. Select the DVMT 5.0 Total Graphic Memory size used by the Internal Graphic Device. Options: 128MB, 256MB (default) and Max.

– 62 –

5.3.1.3. PEG Port Feature Configuration

BIOS

Submenu Detect Non-Compliance Device

Description Detect Non-Compliance PCI Express Device in PEG. Enabled / Disabled (Default)

– 63 –

BIOS 5.3.1.4. VMD Configuration

Submenu Enable VMD controller

Description Enabled / Disabled (Default) VMD controller

– 64 –

5.3.2. PCH-IO Configuration

BIOS

Setting PCI Express Configuration SATA And RST Configuration
Power on after power fail

Description
See 5.3.2.1 PCI Express Configuration on page 66
See 5.3.2.2. SATA And RST Configuration on page 67 Specify what state to go to when power is re-applied after a power failure (G3 state). Options available are Enable (default), Disable.

– 65 –

BIOS 5.3.2.1 PCI Express Configuration

Setting M.2 B-key Intel LAN I225LM Intel LAN I211 Mini Card

Description PCI Express root port setings. Control the M.2 B-key root port. PCI Express root port setings. Control the LAN I225LM root port. PCI Express root port setings. Control the LAN I211 root port. PCI Express root port setings. Control the Mini Card root port.

– 66 –

5.3.2.2. SATA And RST Configuration

BIOS

Setting SATA Controller(s) Aggressive LPM Support
SATA Mode Selection
Serial ATA Port 0/1 Port 0/1 SATA Port 0/1 DevSlp

Description
Enables (default) / disables SATA device(s).
Enables (default) / disables PCH to aggressively enter link power state. Configures how SATA controller(s) operate. Options: AHCI (default) and Intel RST premium With Intel
Optane System Acceleration. SATA device information. *Available SATA ports depend on your model. Enables (default) / disables the SATA port.
Enables / disables (default) the SATA port DevSlp. Board rework for LP needed before enable.

– 67 –

BIOS 5.4 Security

Setting
Administrator Password

Description
To set up an administrator password: 1. Select Administrator Password. 2. An Create New Password dialog then pops up onscreen. 3. Enter your desired password that is no less than 3 characters and no
more than 20 characters. 4. Hit [Enter] key to submit.

– 68 –

5.4.1 Security Boot

BIOS

Setting

Description

Secure Boot

Enable/Disable (default) secure boot.

Allow users to set the secure boot selector. Secure Boot Mode
Standard/Custome (default) mode.

Restore Factory Keys

Force system to restore default secure boot key database.

Reset to Setup Mode

Delete all secure boot key databases.

Key Management Allow users to modify secure variables and set key management page.

– 69 –

BIOS 5.5. Boot

Setting Setup Prompt Timeout Bootup NumLock State Quiet Boot Boot Option Priority

Description
Set how long to wait for the prompt to show for entering BIOS Setup.
The default setting is 2 (sec). Set it to 65535 to wait indefinitely. Sets whether to enable or disable the keyboard’s NumLock state when the system starts up.
Options available are On (default) and Off. Sets whether to display the POST (Power-on Self Tests) messages or the system manufacturer’s full screen logo during booting.
Select Disabled to display the normal POST message, which is the default.
Set the system boot priorities.

– 70 –

5.6. Save & Exit

BIOS

Setting Save Changes and Exit Restore Defaults
Boot Override

Description
Saves the changes and quits the BIOS Setup utility.
Restores all settings to defaults. This is a command to launch an action from the BIOS Setup utility. Boot Override presents a list in context with the boot devices in the system. P0: Select the device to boot up the system regardless of the currently
configured boot priority. Launch EFI Shell from filesystem device: Attempts to launch EFI
Shell Application (Shell.efi) from one of the available filesystem devices.

– 71 –

This page is intentionally left blank.
Chapter 4 – Installation and Maintenance
– 72 –

BIOS
Appendix
Appendix
– 73 –

BIOS
Appendix A. 16-bit DIO Signal Connections
A.1. Isolated Digital Input Connections
The input (IN-C) will accept supply voltages. Make sure the Von (IN-C to IN) is more than 12V and Voff (IN-C to IN) is less than 5V. The following diagram shows the connection between outside signal and the system.

OUT

IN

COM(-)

IN-C

PLC (NPN Output)

System Isolated Digital Input

Note that the input’s (IN-C) first and last pins are for VCC.

– 74 –

BIOS A.2. Isolated Digital Output Connections When an isolated output channel is being used as an output channel, if an external voltage is applied, the current will flow from the external voltage source to the system. Make sure that the current through each out pin does not exceed 100 mA.
Note that the output’s (OUT-C) first and last pins are for GND.
– 75 –

References

• ARBOR Technology | Embedded Computing, Rugged Mobile Computing, Medical Computing, Industrial Automation
• ARBOR Technology | Embedded Computing, Rugged Mobile Computing, Medical Computing, Industrial Automation

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