Embedded &

Industrial Computing

Hardware Platforms for Embedded and Industrial Computing

LEC-2260

V1.0

>>

User's Manual

Publication date:2013-06-11

About

Overview

Icon Descriptions

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

NOTE: This check mark indicates that there is a note of interest and is something that you should pay special attention to while using the product.

WARNING: This exclamation point indicates that there is a caution or warning and it is something that could damage your property or product.

Online Resources

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

Resource Website

Lanner http://www.lannerinc.com

Product Resources http://assist.lannerinc.com

RMA http://eRMA.lannerinc.com

Copyright and Trademarks

This document is copyrighted, © 2013. All rights are reserved. The original manufacturer reserves the right to make improvements to the products described in this manual at any time without notice.

No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of the original manufacturer. Information provided in this manual is intended to be accurate and reliable. However, the original manufacturer assumes no responsibility for its use, nor for any infringements upon the rights of third parties that may result from such use.

Embedded and Industrial Computing

About

Acknowledgement

Intel, Pentium and Celeron are registered trademarks of

Intel Corp.

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

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

Compliances

CE

This product has passed the CE test for environmental specifications. Test conditions for passing included the equipment being operated within an industrial enclosure.

In order to protect the product from being damaged by

ESD (Electrostatic Discharge) and EMI leakage, we strongly recommend the use of CE-compliant industrial enclosure products.

FCC Class A

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part

15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.

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

i

TTaT

Table of Contents

beable of Contents

Chapter 1: Introduction 3

System Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

Package Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Optional Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Chapter 2: System Components 5

System Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Front Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Rear Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

Chapter 3: Board Layout 9

External Connectors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Internal Connectors and Jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

Connectors and Jumpers List. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11

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

Chapter 4: Hardware Setup 17

Preparing the Hardware Installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

Installing the System Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

Installing the Hard Disk . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

Installing the CompactFlash Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

Installing the Wireless 3G Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19

Installing the Wi-Fi Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19

Wall Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

Appendix A: Programming Watchdog Timer 21

Appendix B: Digital Input/Output Control on the GPIO port 26

Appendix C: Terms and Conditions 28

Warranty Policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28

RMA Service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28

ii

Chapter 1

Chapter 1:

Introduction

Thank you for choosing the LEC-2260. The LEC-2260 is a compact embedded system featuring Intel i3 or Celeron processors. The system equips with three video output interfaces: DVI-D, HDMI and VGA. In addition, it also supports dual RCA ports for both line-in and line-out left and right connection.

The LEC-2260 answers the demand for versatile I/O interfaces by offering the following functions :

• Supporting the latest memory technology with 2 DDR3

SO-DIMM sockets for a maximum capacity of 16GB

• Audio and video displays powered by Realtek ALC886-

GR and Intel HD Graphics Engine respectively

• Two 10/100/1000 Mbps LAN

• USB x 6 (2 by internal pin header) and COM x 2

• 1 hard disk bay for 2.5" SATA/SSD installation

• Totally 4 serial ports: Two of them are DB9 connector type and support hardware auto flow control with jumper settings to switch among RS232/422/485; the other two are provided via pin headers and support only RS-232

• Dual Mini-PCIe Socket (One of them comes with a SIM card reader for 3G wireless Internet connection.) to extend the capability for Wi-Fi or Bluetooth

• Supporting distant power-on switch through terminal block type

Introduction

System Specification

Dimensions (WxHxD)

Processor

Chipset

System

Memory

Technology

Max. Capacity

Storage

IDE

SATA

Ethernet Controller

Graphic Controller

LAN

Display

Dual Display

IO

Power Input

AC Adapter

Serial I/O

Digital I/O

USB 2.0

Power Input

Expansion

Others

Hardware Monitor

OS Support

Certifications

Operating

Temperature

Range

With Industrial

Components

With Commercial

Components

Ordering Information

277.65x59x175mm (10.93” x 2.32” x 6.89”)

Intel Celeron 807UE

Intel HM65

DDR3 1066/1333/1600MHz SODIMM x2

Up to 16GB

1 x CF socket

2.5” HDD/SSD drive bay x1

Intel 82583Vx2

Intel® integrated HD Graphics Engine

GbE RJ45 x2

VGA(2048x1536)/HDMI/DVI-D

(1920x1200)

DB9 x4 for RS232 x2 and

RS232/422/485 x2

1 x female DB9 for DI x4 and DO x4

(5V TTL)

Type A x4; Internal x2

2-pin Phoenix contact

Half-size Mini-PCIe x1

Mini-PCIe x1(with a SIM card reader)

External: Power-on button, Power-on switch, reset.

Internal: PS/2 keyboard and mouse

+18~36Vdc, ATX mode

60W [email protected]

Fintek F81865

To monitor voltages & temperature for

CPU & System

Linux kernel 2.6 or later, Windows

7/XP/XP Embedded/7 embedded

CE, FCC Class A

LEC-2260A:-20~55°C, LEC-2260B:-

20~45°C

LEC-2260A:-5~45°C, LEC-2260B:-5-

~40°C

LEC-2260A

Intel® Celeron® 847E 1.1GHz CPU support, DDR3

SODIMM x2, w/ 4 COM, DVI-D/VGA/HDMI, LAN x2, DIDO

(4 in, 4 out), Audio, +24V DC input

LEC-2260B

Intel® CoreTM i3-2310E 2.1GHz CPU support, DDR3

SODIMM x2, w/ 4 COM, DVI-D/VGA/HDMI, LAN x2, DIDO

(4 in, 4 out), Audio, +24V DC input

3

Embedded and Industrial Computing

Chapter 1

Package Contents

Your package contains the following items:

• LEC-2260 Fanless Embedded System

• Serial-ATA/Power Cable (P/N: 080W1N0002001)

• Drivers and User’s Manual CD (P/N: S09OADA23H010)

• Power Adapter (P/N: 0P0W060240A01)

Optional Accessories

The system has a variety of optional accessories including the power cords and Wi-Fi or 3G modules for extended capabilities. For details of these modules, visit: http://www.lannerinc.com/products/all-purpose-boxcomputers/lec-2260

Introduction

Embedded and Industrial Computing

4

Chapter 2

Chapter 2:

System Components

System Drawing

Mechanical dimensions of the LEC-2260

Unit: mm

System Components

Embedded and Industrial Computing

5

Chapter 2

Block Diagram

The block diagram depicts the relationships among the interfaces and modules on the motherboard..

System Components

Embedded and Industrial Computing

6

Chapter 2

Front Components

F1 F2 F4 F3

System Components

F5 F6

COM1

COM3

COM2

COM4

Component Description

F1 Power Button with dual LED ATX Power-on button with LEDs: Standby mode in

Red; Power-on mode in Green

F2 Power-on Switch

F3 Serial Port COM1 and COM2,

COM3 and COM4

A power-on switch through the terminal block for distant power-on/off control

Serial ports through the DB-9 connector; both

COM1 and COM2 support RS-232/422/485 with

F4 Dual USB 2.0 Ports

F5 Two 10/100/1000Mbps LAN ports jumper and BIOS menu selection among RS-

232/422/485. They also support hardware auto flow control. COM3 and COM4 support only

RS-232.

An USB type A connector.

Two RJ-45 (network) jacks with LED indicators as described below. Both LAN ports are provided by

Intel 82583V. The 82583V supports PXE remote boot

Pin Definition

Reference

PBT1 on page 15

J1 on page 16

CN3/CN4 on page 12

J7/J8 on page 13

USB1 on page 17

LAN1/LAN2 on page

15

LINK/ACT (Yellow) sPEEd LINK/ACT • On/Flashing: The port is linking and active in data transmission.

• Off: The port is not linking.

SPEED (Green/Amber)

F6 Power LED (Green)

Status (Green)

HDD (Yellow)

•

•

Amber: The connection speed is 1000Mbps.

Green: The connection speed is 100Mbps

•

HDD

Off: The connection speed is 10Mbps.

•

•

•

•

Blinking: data access activities

Off: no data access activities

Status

A programmable dual green/orange LED which can be used for indicating system status.

Power

On: The computer is on.

Off: The computer is off .

Embedded and Industrial Computing

7

Chapter 2

Rear Components

R1 R2 R3 R4 R5 R6

System Components

Component

F1 DC-In (power) 1x2 Pin Phoenix

Contact Connector

F2 DIO Port

F3 Reset Switch

F4 Antenna Hole

F5 DVI-D

F6 VGA Port

Power-in Connector. The LEC-2260 supports power input of +24V DC-in.

Description

The general-purpose input/output1 (GPIO) peripheral provides dedicated general-purpose pins. The digital input helps triggering between open and closed circuit such as PIRs, door/window contact, glass break detector. And the output can connect to devices such as relays and LEDs.

A hardware reset switch. Use a pointed object to press it 5 seconds then release it to reset the system without turning off the power.

Reserved for antenna

A DVI-D port (single link) which is provided by

Intel HD Graphic Engine. This port can support up to 1920x1200 @ 60 Hz resolution.

The displays can support VGA up to 2048x1536 resolution.

Pin Definition

Reference

CN1 on page 15

CN2 on page 15

RST1 on page 15

DVID1 on page 15

VGA1 on page 15

8

Embedded and Industrial Computing

Chapter 3

Chapter 3:

Board Layout

External Connectors

The following picture highlights the location of system input/output connectors. Refer to the table 3.2 Connector

List for more details.

VGA1 dVId1

Board Layout

RsT1

CN2 CN1

PBT1 J1

CN3

UsB1/UsB2

Embedded and Industrial Computing

CN4

LAN1/LAN2

LEd1

9

Chapter 3

Internal Connectors and Jumpers

The following picture highlights the location of internal connectors and jumpers. Refer to the table 3.2 Connector

List for more details.

J6

Board Layout

CMOs1

UsB3

J7 J8

LPC1

KBM1

FRONT1

MPCIE2

MPCIE1

J9

J14 sC2T2

J13 sPI1

CF1 sIM1

Embedded and Industrial Computing dIMM1 dIMM2

J12 sC2T1

J11 sATA1 sATA_PW1

J10

LEB-2260

10

Chapter 3

Connectors and Jumpers List

The tables below list the function of each of the board jumpers and connectors by labels shown in the above section. The next section in this chapter gives pin definitions and instructions on setting jumpers.

Table 3.2 Connector List for LEB-2260 Board

Labels

CMOS1

CN1

CN2

CN3

CN4

DVID1

FRONT1

J1

J7

J8

J6

KBM1

LAN1/LAN2

LPC1

MPCIE1

MPCIE2

PBT1

RST1

SATA_PW1

SATA1

SIM1

SPI1

USB1/USB2/USB3

USB4

VGA1

Function

Cleaning CMOS data including RTC

DC-in Connector

DIO Connector

COM1

COM2

DVI-D Connector

Front Panel Function Pin Header

External Power Button

COM3

COM4

Audio Connector

Keyboard and Mouse

P14

P16

P12

P12

P16

P14

Ethernet Connector 1/Ethernet Connector 2 P15

Low Pin Count Interface

Pin Definition Reference

Page

P14

P15

P15

P12

P12

P15

Mini-PCIe Connector (with SIM Card Reader) P16

Half-size Mini-PCIe Connector

Power Button Connector

Reset Button

SATA Power Connector

Serial-ATA Connector

SIM Card Reader

Serial Peripheral Interface Bus

USB Type A Connector #0,1; #2,3; #4,5

USB Pin Header

VGA Port

Reserved for factory use

P16

P15

P15

P14

P14

P14

Reserved for factory use

P14

P14

P15

Board Layout

11

Embedded and Industrial Computing

Chapter 3

Jumper Settings

COM1 RS-232/422/485 Serial Port (CN3) : It is a RS-

232/422/485 port through the D-SUB9 connector.

1 2 3 4 5

6 7 8 9

Pin No.

1

2

Rs-232 data Carrier detect

(dCdA # )

Receive data

3

(RXdA )

Transmit data

(TXdA )

4 data Terminal Ready

5

6

7

8

9

(dTRA # )

Ground

(GNd ) data set Ready

(dsRA # )

Request To send

(RTsA # )

Clear To send

(CTsA # )

Ring Indicator

(RIA # )

Pin Name

Rs-422

TXd-

TXd+

RXd+

RXd-

Rs-485 dATAdATA+

COM2 RS-232/422/485 Serial Port(CN4) : It is a RS-

232/422/485 port through the D-SUB9 connector.

1 2 3 4 5

6 7 8 9

Pin No.

1

2

3

4

5

6

7

8

9

Rs-232 data Carrier detect

(dCdA # )

Receive data

(RXdA )

Transmit data

(TXdA ) data Terminal Ready

(dTRA # )

Ground

(GNd ) data set Ready

(dsRA # )

Request To send

(RTsA # )

Clear To send

(CTsA # )

Ring Indicator

(RIA # )

Pin Name

Rs-422

TXd-

TXd+

RXd+

RXd-

Embedded and Industrial Computing

Rs-485 dATAdATA+

Board Layout

J10, SC2T1: Select COM1 Protocol Setting

J10

SC2T1

7

8

1

2

4

8

12

1

5

9

RS-232

RS-422

RS-485

Switch

Protocol

RS-232 (default)

RS-422

RS-485

J10

1-2,

3-4, 5-6

3-4, 7-8

SC2T1

1-5, 2-6, 3-7, 4-8

5-9, 6-10, 7-11, 8-12

5-9, 6-10

J14, SC2T2: Select COM2 Protocol Setting

J14 SC2T2

7

8

1

2

4

8

12

RS-232

1

5

9

12

Chapter 3

RS-422

RS-485

Board Layout

Switch

Protocol

RS-232 (default)

RS-422

RS-485

SCT3

1-2

3-4, 5-6

3-4, 7-8

SCT4

1-5, 2-6, 3-7, 4-8

5-9, 6-10, 7-11, 8-12

5-9, 6-10

J11, J9 : Select Termination in RS-485 for COM1 and COM2 respectively. We strongly recommend that you disable termination when the port is configured as RS-232 and enable it when the port is configured as RS-485/RS-422.

J9 (COM2), J11(COM1)

7

8

1

2

Pin No.

Function

1-2, 3-4, 5-6, 7-8 Termination TX, RX on

Termination off

J12, J13 : Select COM1 and COM2 Pin No9 (Ring Indicator) function respectively

Pin

1-2

3-4

5-6

JP1

Signal

RI

5V

12V

Note: Besides jumper settings, you should also select the communication protocol in the BIOS as shown in the following picture, select Advanced

->F81865 SuperIO Configuration->Serial Port 0/1

Driver->RS232 or RS485

Embedded and Industrial Computing

COM3 RS-232 Serial Port (J8)

1 2 3 4 5

9

10

1

2

6 7 8 9

Pin No.

1

2

3

4

5

Pin Name

Rs-232 data Carrier detect

(dCdA # ) data set Ready

(dsRA # )

Receive data

(RXd)

Request to send

(RTs )

Transmit data

(TXd)

Pin No.

6

7

8

9

Pin Name

Clear to send

(CTs) data Terminal Ready

(dTR )

Ring Indicator

(RI)

GNd

COM4 RS-232 Serial Port (J7)

1 2 3 4 5

9

10

6 7 8 9

1

2

Pin No.

1

2

3

4

5

Pin Name

Rs-232 data Carrier detect

(dCdA # ) data set Ready

(dsRA # )

Receive data

(RXd)

Request to send

(RTs )

Transmit data

(TXd)

Pin No.

Pin Name

6

9

Clear to send

(CTs)

7 data Terminal Ready

(dTR )

8 Ring Indicator

(RI)

GNd

13

Chapter 3

Serial-ATA Connector (SATA1) : It is for connecting a 2.5’’ hard disk to be served as your system’s storage. It can support SATA III which features Data transfer rates up to

6.0 Gb/s (600 MB/s).

5

6

7

3

4

1

2

Pin No.

Function

1

4

5

2

3

6

7

GNd

TX_P

TX_N

GNd

RX_N

RX_P

GNd

The controller contains two modes of operation—a legacy mode using I/O space, and an AHCI mode using memory space. software that uses legacy mode will not have AHCI capabilities.

The AHCI ( Advanced Host Controller Interface) is a programming interface which defines transactions between the SATA controller and software and enables advanced performance and usability with SATA. Platforms supporting AHCI may take advantage of performance features such as no master/slave designation for SATA devices—each device is treated as a master—and hardware assisted native command queuing. AHCI also provides usability enhancements such as Hot-Plug.

Use the BIOS menu to configure your hard disk to be AHCI compatible.

4-pin Serial-ATA Power Connector (SATA_PW1) : It is for connecting the SATA power cord.

2

1

4

3

Pin No.

Function

1

2

3

4

+12V

GNd

GNd

+5V

Dual USB 2.0 Port Connector #0 and #1 (USB1)

Dual USB 2.0 Port Connector #2 and #3 (USB2)

5 6 7 8

1 2 3 4

Pin No.

Pin Name

1

6

7

8

4

5

2

3

UsB_VCC

UsBd0-

UsBd0+

GNd

UsB_VCC

UsBd1-

UsBd1+

GNd

Dual USB 2.0 Pin Header #4 and #5 (USB3)

2

1

10

9

Pin No.

1

3

5

7

Pin Name

UsB_VCC

UsBd4-

UsBd4+

GNd

Pin No.

2

4

6

8

10

Embedded and Industrial Computing

Pin Name

GNd

UsBd5+

UsBd5-

UsB_VCC

Board Layout

Front Panel Function Pin Header (FRONT1) : It provides

LED signal and button function on the front panel.

1

3

5

7

6

8

2

4

Pin No. Pin Name

1

3

5

Hd_LEd+

Hdd_ACT#

FP_RsT_

7

BTN_N

GNd

Function Pin No.

Pin Name

Hdd LEd system Reset

2

4

6

PWR_LEd+

PWR_LEd-

FP_PWR_

Button

8

BTN_N

GNd

Function

Power LEd

Power On/Off

Push Button

Clear CMOS jumper (CMOS1) : It is for clearing the CMOS data.

To erase the CMOS data:

Turn off the computer and unplug the power cord.

1. Move the jumper cap from pins 1-2(default) to pins

2-3. Keep the cap on pins 2-3 for about 5-10 seconds, then move the cap back to pins 1-2.

2.

3.

Plug the power cord and turn on the computer.

Enter BIOS setup to re-enter data.

3 2 1

Pin No.

1-2

2-3

Pin Name

Normal (default)

Clear CMOs

SIM Card Socket (SIM1) :

C1 C3

Pin No.

description

C1

C2

C3

C5

C6

C7

UIM_PWR

UsIM_RsT

UsIM_CLK

GNd

UsIM_VPP

UsIM_dAT

C5 C7

Keyboard and Mouse Connector (KBM1)

7

8

1

2

Pin No.

Function Pin No.

Function

1

3

5

7

+5V

MsdATA

KBdATA

GNd

2

4

6

8

MsCLK

KEY

KEY

KBCLKs

14

Chapter 3

DVI-D Connector (DVID1) : A single link DVI-D Connector

Pin No.

9

11

13

15

5

7

1

3

17

19

21

23

Description dATA_2N

GNd

NC ddC_dAT dATA_1N

GNd

NC

GNd dATA_0N

GNd

NC

CLK_P

Pin No.

10

12

14

16

6

8

2

4

18

20

22

24

Description dATA_2P

NC ddC_CLK

NC dATA_1P

NC

+5V

HPd dATA_0P

NC

GNd

CLK_N

VGA (VGA1)

5 4 3 2 1

15 14 13 12 11

Pin

1

2

3

4

5 signal

REd

GREEN

BLUE

N/A

GNd

Pin

6

7

8

9

10 signal

CRT dET

GNd

GNd

VCC5

GNd

Pin

11

12

13

14

15 signal

N/A ddC dAT

HsYNC

VsYNC ddC CLK

Note: The driver for the VGA and Audio ports should be installed with the following order:

Chipset INF->Graphic->Audio

Embedded and Industrial Computing

Board Layout

Reset Button (RST1)

2

4

1

3

Pin NO.

1

2

3

4 description

RsT_BTN

GNd

GNd

N/A

DC_IN CONNECTOR (CN1) : A Phoenix connector for external power supply.

1 2

Pin No.

Pin Name

1

2 dC_GNd dC_IN

Power Button (PBT1) : Power button with dual LEDs

Pin No.

1

4

L1

L2

2

3

Pin Name

PWR_BTN_N

PWR_BTN_N

GNd

GNd

PWR_sW_P

PWR_sW_N

Digital Input/Output Connector (CN2) : The 8 pins of

General Purpose Input/Output (GPIO) support input and output operations through the DB-9 female connector.

5 4 3 2 1

9 8 7 6

TTL Level is +5V; Maximum input current for each port is 10mA; Maximum output current for each port is 100uA

Input/Output Voltage Logic Register

0~2V

2~5V

Low

High

0

1

Pin No.

Pin Name Pin No.

Pin Name

1

2

3

4

5

IN0

IN1

IN2

IN3

GNd

6

7

8

9

OUT0

OUT1

OUT2

OUT3

LAN1/LAN2 Ports (LAN1/LAN2) : The LAN ports are provided by Intel 82574L Ethernet controller whose interface complies with PCI-e 1.1 (2.5 Ghz). It has advanced management features including IPMI pass-through via

SMBus or NC-SI, WOL, PXE remote boot, ISCSI boot and

VLAN filtering.

Pin No.

7

8

5

6

3

4

1

2

--

--

RX+

--

--

RX-

Description

Fast Ethernet Gigabit Ethernet

TX+

TX-

BI_DA+

BI_DA-

BI_DB+

BI_DC+

BI_DC-

BI_DB-

BI_DD+

BI_DD-

15

Chapter 3

MPCIE1: Mini-PCIe Connector with SIM Card Reader

37

39

41

43

29

31

33

35

45

47

49

51

21

23

25

27

13

15

17

19

Pin

1

3

5

7

9

11 signal

WAKE#

Reserved

Reserved

CLKREQ#

GNd

REFCLK-

REFCLK+

GNd

Reserved (UIM_C8)

Reserved (UIM_C4)

GNd

PERn0

PERp0

GNd

GNd

PETn0

PETp0

GNd

Reserved

Reserved

Reserved

Reserved

Reserved

Reserved

Reserved

Reserved

38

40

42

44

30

32

34

36

46

48

50

52

22

24

26

28

14

16

18

20

Pin

2

4

6

8

10

12 signal

VCC3.3

GNd

1.5V

UIM_PWR

UIM_dATA

UIM_CLK

UIM_REsET

UIM_VPP

GNd

ENABLE

PERsT#

+3.3Vaux

GNd

+1.5V sMB_CLK sMB_dATA

GNd

UsB_d-

UsB_d+

GNd

Reserved

Reserved

Reserved

+1.5V

GNd

+3.3V

MPCIE2: Half-size Mini-PCIe Connector

41

43

45

47

33

35

37

39

49

51

25

27

29

31

17

19

21

23

7

9

11

13

15

Pin

1

3

5 signal

WAKE#

Reserved

Reserved

CLKREQ#

GNd

REFCLK-

REFCLK+

GNd

Reserved (UIM_C8)

Reserved (UIM_C4)

GNd

PERn0

PERp0

GNd

GNd

PETn0

PETp0

GNd

Reserved

Reserved

Reserved

Reserved

Reserved

Reserved

Reserved

Reserved

42

44

46

48

34

36

38

40

50

52

26

28

30

32

18

20

22

24

Pin

2

4

6

8

10

12

14

16 signal

VCC3.3

GNd

1.5V

Reserved

Reserved

Reserved

Reserved

Reserved

GNd

ENABLE

PERsT#

+3.3Vaux

GNd

+1.5V sMB_CLK sMB_dATA

GNd

UsB_d-

UsB_d+

GNd

Reserved

Reserved

Reserved

+1.5V

GNd

+3.3V

Power-on Switch through a terminal block (J1) : A

Phoenix connector for distant power switch.

1 2

Pin No.

Pin Name

1

2

BUTTON-

Ground

Embedded and Industrial Computing

Board Layout

J6: Audio Connector

2

1

10

9

Pin No.

1

3

5

7

9

Pin Name

LINE_OUT_R2

GNd_AUd

MIC_IN_R

LINE_IN_R

FRONT_OUT_R

Pin No.

2

4

6

8

10

Pin Name

LINE_OUT_L2

GNd_AUd

MIC_IN_L

LINE_IN_L

FRONT_OUT_L

16

Chapter 4

Chapter 4:

Hardware Setup

Preparing the Hardware Installation

To access some components and perform certain service procedures, you must perform the following procedures first.

WARNING: To reduce the risk of personal injury, electric shock, or damage to the equipment, remove the power cord to remove power from the server. The front panel Power On/Standby button does not completely shut off system power.

Portions of the power supply and some internal circuitry remain active until AC power is removed.

1. Unpower the LEC-2260 and remove the power cord.

2. Unscrew the 4 rubber feet from the bottom cover of the LEC-2260 System.

3. Open the cover.

Hardware Setup

Note:

1.

2.

The motherboards can support up to 16 GB memory capacity in maximum.

The system supports DDR3

1066/1333/1600MHz SO-DIMM. Do not install memory module with different specifications.

1

2

Note: In order to take off the bottom cover, you will also need to take off the SIM card protection cover first.

Installing the System Memory

The motherboard supports DDR3 memory to meet the higher bandwidth requirement of the latest operating system and Internet applications. It comes with two double data rate type three (DDR3) small outline dual inline memory module (SO-DIMM) sockets.

Embedded and Industrial Computing

17

Chapter 4

Installing the Hard Disk

The system can accommodate one Serial-ATA disks. Follow these steps to install a hard disk into the LEC-2260:

1. Take off the HDD tray from the chassis cover.

2. Secure the hard disk with 4 mounting screws on the

HDD tray.

3. Place hard disk back on the system and align the holes of the hard disk with the mounting holes of the chassis cover.

4. Connect the Serial-ATA power and data cables to the hard disk’s connectors.

5. Plug the Serial-ATA cables (power and data) to the

Serial-ATA Connectors on the main board.

1

Hardware Setup

Installing the CompactFlash Card

LEC-2260 provides one CompactFlash slot. Follow the procedures bellow for installing a CompactFlash card.

1. Take off the front panel first by unscrewing the case screws and the connector’s hex cap screws as illustrated below.

2. Align CompactFlash card and the card slot with the arrow pointing toward the connector.

3. Push the card to insert into the connector.

2

Embedded and Industrial Computing

18

Chapter 4

Installing the Wireless 3G Module

1. Align the wireless module’s cutout with the Mini-PCIe slot notch.

2. Insert the wireless module into the connector diagonally.

3. Fasten the wireless module to the board with the screws (Use the Mini-PCIe module screws contained within the package).

Installing 3G and Wi-Fi module on the PCIe socket

Hardware Setup

Installing the Wi-Fi Module

1. Follow the same steps as the Wireless 3G Module

Installation.

2. Install the heat sink as illustrated below.

Embedded and Industrial Computing

19

Chapter 4

Wall Mounting

The product ships with wall mounting kit. To mount your product on the wall, follow the instructions below:

1. First make a hole for the anchor in the surface on the wall.

2. Then press the anchor into the hole until it is flush with the surface. You may need a hammer to tap the wall anchor.

3. Use a screwdriver to screw the threaded screw into the plastic anchor.

4. Attach the wall mounting bracket to the back of the device, securing it in place with four of the flat-head screws provided.

5. Hang the device on the wall.

Unit: mm

Hardware Setup

Embedded and Industrial Computing

20

Appendix A

Appendix A:

Programming Watchdog

Timer

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

For sample watchdog code, see Watch dog and DIO folde r in the Driver and Manual CD

Programming Watchdog Timer

1. Click the Setup program.

2. The welcome screen appears. Click Next to proceed.

Driver Installation

Before you could access or control the operation of the watchdog and Digital I/O functions, install the the L_IO driver which is the library and driver needed for Lanner

General Purpose Input/Output interface or functions.

To install the L_IO driver:

1. Restart the computer, and then log on with

Administrator privilege.

2. Insert the Drivers and User’s Manual CD to the USBoptical drive.

3. Browse the contents of the support CD to locate the file LannerIO v101.rar under the \WD_DIO\ folder and unzip the file.

4. Click the Setup program in the unzipped folder.

3. The installation process proceeds. Click Close when the process completes.

21

Embedded and Industrial Computing

Appendix A

1.

To verify the GPIO driver installation, do the following steps:

Right-click on the My Computer icon, and then select

Properties form the menu.

2. Click the Hardware tab, then click the Device Manager button.

3. Select devices .

View from the menu and select show hidden

4. The Lanner common GPIO driver should be listed under the Non-Plug and Play Drivers. If not, click the

San for hardware changes button from the tool bar.

Programming Watchdog Timer

Sample Program

You can write your own program by modifying the source code F81865_Test.cpp.. The index address is 2EH.

/////////////////////////////////////////////////////////////////////

////

// F81865_Test.cpp : F81865_test.exe utility for F81865.lib

APIs demonstration.

//

// History:

// program.

7/15/2011 Brand new F81865_test

#include <winsock2.h>

#include “Windows.h”

#include “stdio.h”

#include “F81865.h”

#define PARAMETER_HELP “\n”\

“The F81865 GPIO utility of Lanner\n”\

“-------------------------------------\n”\

“Usage:\n”\

“ F81865_test DIO_IN port_ number\n”\

“ F81865_test DIO_OUT port_number value\n”\

“ F81865_test PIO port_number value\n”\

“ F81865_test RunLED port_number value\n”\

“ F81865_test AlarmLED port_number value\n”\

“ F81865_test GPS_LED port_number value\n”\

“ F81865_test WirelessLED port_number value\n”\

“ F81865_test WatchDog seconds\n”\

“ F81865_test CaseOpen\n”\

“ F81865_test CaseOpen_Clear\n”\

22

Embedded and Industrial Computing

Appendix A

“ F81865_test Sleep milliseconds\n”\

“\n”\

“Argement:\n”\

“ DIO_IN Read state from DIO

In.\n”\

“ DIO_OUT Set DIO Out state.\n”\

“ PIO Set PIO LED state.\n”\

“ RunLED Set RUN LED state.\n”\

“ AlarmLED Set Alarm LED state.\n”\

“ GPS_LED Set GPS LED state.\n”\

“ WirelessLED Set Wireless LED state.\n”\

“ Watchdog

Watchdog timer.\n”\

“ CaseOpen Check case opened state.\n”\

Set

“ CaseOpen_Clear Clear case open state.\n”\

“ port_number The port number.\n”\

“ value 1 for on and 0 for off.\n”\

“ seconds watchdog count down seconds. 0 for disable.\n”\

The

“ milliseconds Milliseconds to delay\n”

#define RETMSG(a,b) {printf (b) ; return a;}

#define

!= a)

CHECK_ARGC(a) throw

{if

PARAMETER_HELP

(argc

;}

}

{

// Translate Hex string to a long value

LONG Hex2Long (char *str)

LONG if (scanf return nLong

(str, “%x”, &nLong) != 1) throw “Error parsing parameter\n” ; nLong

;

;

Embedded and Industrial Computing

Programming Watchdog Timer

\

// Make sure the argument is numeric void

{ int

CheckNumeric nLen =

(char strlen

*szBuf)

(szBuf) ;

\ for (int i = 0 ; i < nLen ; i++)

if (!strchr (“01234567890ABCDEFabcdef”, szBuf[i]) )

throw “Wrong argument\n” ;

}

// Common GPIO output function definition

#define GPIO_OUT(a,b,c) \ int a (int argc, char *argv[])

{

CHECK_ARGC (4) ;

\

\

CheckNumeric (argv[2]) ;

CheckNumeric (argv[3]) ;

\

\

\ int nPort = atoi (argv[2]) ; \ int nValue = atoi (argv[3]) ;

\ c (nPort, nValue) ;

\

\ printf (b “ #%d = %d\n”, nPort, nValue) ; \

\

}

; return

// Function generate by common function definition

GPIO_OUT

OUT

G P

(mPIO

G P

(mRunLED

I

G P I

(mAlarmLED

GPIO_OUT

LED

I

, “DIO_OUT”

O

O

O

_

, “DIO_OUT”

_

, “RunLED”

_

, “AlarmLED”

, “GPS_LED”

O

O

O

\

0

(mDIO_

, Write_DIO)

U

U

T

, PIO)

T

, RunLED)

U T

, AlarmLED)

(mGPS_

, GPS_LED)

23

Appendix A

G P I O _

(mWirelessLED , “WirelessLED” ,

O U T

WirelessLED)

}

// Check case open

{ int mCaseOpen (int argc, char* argv[])

CHECK_ARGC (2) ;

BOOL bOpen = CaseOpen () ; printf (“Case is %s\n”, bOpen ? “Open” : “Close”) ; return bOpen ;

{

// Clear case open state int mCaseOpen_Clear (int argc, char* argv[])

CHECK_ARGC (2) ;

CaseOpen_Clear () ;

BOOL bOpen = CaseOpen () ;

} printf (“CaseOpen state %s”, bOpen ? “not cleared”

: “cleared”) ; return bOpen ;

// Get DIO_IN state int

{ mDIO_IN (int

CHECK_ARGC (3) ; argc,

CheckNumeric (argv[2]) ; char* argv[]) int nPort = atoi (argv[2]) ;

BOOL ret = Read_DIO (nPort) ;

Embedded and Industrial Computing

Programming Watchdog Timer

} printf (“DIO_IN #%d = %d\n”, nPort, ret) ; return ret ;

// Milli-second delay

{ int mSleep (int argc, char *argv[])

CHECK_ARGC (3) ;

CheckNumeric (argv[2]) ;

}

Sleep (atoi (argv[2]) ) ; return 0 ;

;

// Watchdog

{ int mWatchDog (int argc, char *argv[]) if (argc != 3 && argc != 2)

RETMSG (-1, PARAMETER_HELP) ;

}

{ if (argc == 3)

CheckNumeric (argv[2]) ; int nValue = atoi (argv[2]) ;

WatchDog_Enable (nValue) ; int nLeft = WatchDog_GetLeft () ; printf (“Watchdog timer left %d seconds\n”, nLeft)

24

Appendix A

} return nLeft ;

// Argument - function mapping

{ typedef struct char *szCmd ; int (*function) (int argc, char *argv[]) ;

} CMD2FUN ;

},

},

},

},

},

} ;

},

},

{

CMD2FUN c2f[] =

{“DIO_IN”

{“DIO_OUT”

{“PIO”

{“RunLED”

{“AlarmLED”

{“GPS_LED”

, mDIO_IN

, mDIO_OUT

, mPIO

, mRunLED

, mAlarmLED

, mGPS_LED

{“WirelessLED” , mWirelessLED },

{“CaseOpen” , mCaseOpen },

{“CaseOpen_Clear”,mCaseOpen_Clear},

{“Watchdog”

{“Sleep” , mSleep

, mWatchDog

}

{

// Program start here int main(int argc, char *argv[]) try

Embedded and Industrial Computing

Programming Watchdog Timer

{

// The total argument allowed int num = sizeof (c2f) / sizeof (c2f[0]) ;

;

// Too few argument if (argc < 2)

RETMSG (-1, PARAMETER_HELP)

// Find the match argument and execute the mapping function for (int i = 0 ; i < num ; i++) if (stricmp (argv[1], c2f[i].szCmd)

== 0)

(argc, argv) ; return c2f[i].function

}

return -1 ;

{

// No match argument

}

RETMSG (-1, “Wrong Argument\n”) ; catch (char *str)

// Output the error message

{

}

} catch (...) printf (“\n%s\n”, str) ;

// Unknown exception printf (“\nUnknown Exception\n”) ;

25

Appendix B

Appendix B:

Digital Input/Output

Control on the GPIO port

The Digitanl I/O on the panel is designed to provide the input and output operations for the system. For sample

DIO code, see Watch dog and DIO in the Driver and Manual

CD .

Driver Installation

Before you could access or control the operation of the watchdog and Digital I/O functions, install the the L_IO driver which is the library and driver needed for Lanner

General Purpose Input/Output interface or functions.

To install the L_IO driver:

1. Restart the computer, and then log on with

Administrator privilege.

2. Insert the Drivers and User’s Manual CD to the USBoptical drive.

3. Browse the contents of the support CD to locate the file LIO.rar under the \Watch dog and DIO\LIO folder and unzip the file.

4. From the control panel, click the ADD Hardware program

Digital Input/Output Control

1. Click the Setup program.

2. The welcome screen appears. Click Next to proceed.

3. The installation process proceeds. Click Close when the process completes.

26

Embedded and Industrial Computing

Appendix B

1.

To verify the GPIO driver installation, do the following steps:

Right-click on the My Computer icon, and then select

Properties form the menu.

2. Click the Hardware tab, then click the Device Manager button.

3. Select devices .

View from the menu and select show hidden

4. The Lanner common GPIO driver should be listed under the Non-Plug and Play Drivers. If not, click the

San for hardware changes button from the tool bar.

Digital Input/Output Control

Executing the Sample Program:

To test the sample program, execute the F81865_test with the appropriate parameters.

DIO:

Usage:

F81865_test DIO_In port_number (reads Digital input port 0, 1, 2 or 3)

F81865_test DIO_Out port_number value (writes

Digital output port 0, 1, 2 or 3; For port description, refer to Jumper Settings on Chapter3 Board Layout )

You can also write your own program by modifying the source code F81865_Test.cpp.. The index address is 2EH.

27

Embedded and Industrial Computing

Appendix C

Appendix C:

Terms and Conditions

Warranty Policy

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

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

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

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

5. The following conditions are excluded from this warranty:

Improper or inadequate maintenance by the customer

Unauthorized modification, misuse, or reversed engineering of the product Operation outside of the environmental specifications for the product.

Terms and Conditions

RMA Service

Requesting a RMA#

6. To obtain a RMA number, simply fill out and fax the

“RMA Request Form” to your supplier.

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

8. Ship the defective unit(s) on freight prepaid terms.

Use the original packing materials when possible.

9. Mark the RMA# clearly on the box.

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

28

Embedded and Industrial Computing

Appendix C

Terms and Conditions

RMA Service Request Form

When requesting RMA service, please fill out the following form. Without this form enclosed, your RMA cannot be processed.

RMA No:

Company:

Phone No.

Fax No.:

Reasons to Return: Ŀ Repair(Please include failure details)

Ŀ Testing Purpose

Contact Person:

Purchased Date:

Applied Date:

Return Shipping Address:

Shipping by: Ŀ Air Freight Ŀ Sea Ŀ Express

Ŀ Others:________________

Item Model Name Serial Number

Item Problem Code Failure Status

*Problem Code:

01:D.O.A.

02: Second Time

R.M.A.

03: CMOS Data Lost

04: FDC Fail

05: HDC Fail

06: Bad Slot

07: BIOS Problem

08: Keyboard Controller Fail

09: Cache RMA Problem

10: Memory Socket Bad

11: Hang Up Software

12: Out Look Damage

___

Configuration

13: SCSI

14: LPT Port

15: PS2

16: LAN

17: COM Port

18: Watchdog Timer

19: DIO

20: Buzzer

21: Shut Down

22: Panel Fail

23: CRT Fail

24: Others (Pls specify)

Request Party

Authorized Signature / Date

Embedded and Industrial Computing

Confirmed By Supplier

Authorized Signature / Date

29