Moxa UC-8416-T-CE Manual

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UC 8410/8416/8418/8430 WinCE -

User’s Manual

F ifth Edition, January 2012

www.moxa.com/product

Reproduction without permission is prohibited.

UC 8410/8416/8418/8430 WinCE -

User’s Manual

The software described in this manual is furnished under a license agreement and may be used only in accordance with

the terms of that agreement.

Reproduction without permission is prohibited.

Trademarks

The MOXA logo is a registered trademark of Moxa Inc.

All other trademarks or registered marks in this manual belong to their respective manufacturers.

Disclaimer

Information in this document is subject to change without notice and does not represent a commitment on the part of

Moxa.

Moxa provides this document as is, without warranty of any kind, either expressed or implied, including, but not limited

to, its particular purpose. Moxa reserves the right to make improvements and/or changes to this manual, or to the

products and/or the programs described in this manual, at any time.

Information provided in this manual is intended to be accurate and reliable. However, Moxa assumes no responsibility for

its use, or for any infringements on the rights of third parties that may result from its use.

This product might include unintentional technical or typographical errors. Changes are periodically made to the

information herein to correct such errors, and these changes are incorporated into new editions of the publication.

Technical Support Contact Information

www.moxa.com/support

Moxa Americas

Toll

- 1- - - free: 888 669 2872

Tel:

- - -+1 714 528 6777

Fax:

- - -+1 714 528 6778

Moxa China (Shanghai office)

Toll

- - - free: 800 820 5036

Tel:

- - - +86 21 5258 9955

Fax:

- - -+86 10 6872 3958

Moxa Europe

Tel:

- - -0 +49 89 3 70 03 99

Fax:

- - -+49 89 3 70 03 99 99

Moxa Asia

-Pacific

Tel:

-2- - +886 8919 1230

Fax:

-2- -+886 8919 1231

Table of Contents

1. Introduction ...................................................................................................................................... 1-1

Overview ........................................................................................................................................... 1-2

Model Descriptions and Package Checklist .............................................................................................. 1-2

Software Specifications........................................................................................................................ 1-3

Application Development Environment ........................................................................................... 1-3

Networking and Communications Capabilities .................................................................................. 1-3

Supported Servers and Daemons .................................................................................................. 1-4

Graphics and Multimedia Tools(UC- -8430 CE only) ........................................................................... 1-4

Firmware Build Versions ...................................................................................................................... 1-5

Memory and File Systems .................................................................................................................... 1-5

Dual Display (UC- -8430 CE only) ........................................................................................................... 1-5

Audio (UC CE only)- -8430 ..................................................................................................................... 1-5

Hive-based Registry (not RAM-based) ................................................................................................... 1-5

Inserting a CompactFlash Card ............................................................................................................. 1-6

Inserting a USB Mass Storage Device .................................................................................................... 1-6

RS-232/422/485 Serial Ports................................................................................................................ 1-6

2. Getting Started.................................................................................................................................. 2-1

Powering on the UC- 8410/8416/8418/8430 ........................................................................................... 2-2

Resetting the UC-8410/8416/8418/8430- 2-2CE Computer ...........................................................................

Boot Loader ....................................................................................................................................... 2-2

Operating the UC-8410/8416/8418/8430- 2-2CE Computer via the Serial Console ...........................................

Changing the Network Settings ............................................................................................................ 2-3

Virtual Private Network (VPN) (UC- -8430 CE only) ................................................................................... 2-4

Operating the UC-8410/8416/8418/8430- CE Computers via Telnet........................................................... 2-5

User/Group Management ..................................................................................................................... 2-5

Adjusting the Time Zone ...................................................................................................................... 2-6

Adjusting the System Time .................................................................................................................. 2-6

Starting and Stopping Services ............................................................................................................. 2-6

Troubleshooting Network Connectivity ................................................................................................... 2-7

Simple Network Management Protocol (SNMP) ....................................................................................... 2-8

SNMP Agent................................................................................................................................ 2-8

SNMP Manager ............................................................................................................................ 2-8

Accessing Files through File Sharing ...................................................................................................... 2-9

3. Management Tools ............................................................................................................................ 3-1

System Information ............................................................................................................................ 3-2

Serial Port Configuration ...................................................................................................................... 3-2

Process (Thread) Monitoring/Control ..................................................................................................... 3-3

Services Monitoring/Control ................................................................................................................. 3-3

Display .............................................................................................................................................. 3-4

User/Group Management ..................................................................................................................... 3-4

Auto Launch Configuration ................................................................................................................... 3-5

Web Server Configuration .................................................................................................................... 3-6

DHCP Allocator Configuration ............................................................................................................... 3-7

4. Web-based Management System 4-1......................................................................................................

System Information ............................................................................................................................ 4-2

Networking/Server Configuration .......................................................................................................... 4-2

Serial Port Configuration ...................................................................................................................... 4-3

Process (Thread) Monitoring/Control ..................................................................................................... 4-3

Launching Processes Automatically ....................................................................................................... 4-3

Services Monitoring/Control ................................................................................................................. 4-4

Binary/Text File Management ............................................................................................................... 4-4

A. Firmware Upgrade Procedure............................................................................................................ A-1

B. Application Development with the SDK and Software Libraries ......................................................... B-1

Installing the SDK ............................................................................................................................... B-2

Developing an Application with VS2005 ................................................................................................. B-2

Visual C++ Library .............................................................................................................................. B-2

UART ......................................................................................................................................... B-2

DIO ........................................................................................................................................... B-3

Watchdog ................................................................................................................................... B-4

Buzzer ....................................................................................................................................... B-4

CANbus (UC- 8418 only) ............................................................................................................... B-5

Visual C++ Examples .......................................................................................................................... B-8

Net Compact Framework Library ........................................................................................................... B-8

UART ......................................................................................................................................... B-8

DIO ........................................................................................................................................... B-9

Watchdog ................................................................................................................................. B-10

Buzzer ..................................................................................................................................... B-10

Visual C# Examples .......................................................................................................................... B-11

UC- 8400 WinCE Introduction

1-2

Overview

The UC-8410/8416/8418/8430 embedded computers feature 8 RS-232/422/485 serial ports, 3 10/100 Mbps

Ethernet ports, 4 digital input channels and 4 digital output channels (12 digital input channels and 12 digital

output channels for the UC h slot for flash -8418), 8 10/100 Mbps switch ports (UC 8416 only), a CompactFlas-

disk expansion, and 2 USB ports (6 USB ports for 8430) for adding additional memory (such as a USB the -UC

flash drive).

The UC 8410/8416/8418/8430 use an Intel XScale IXP435 533 MHz RISC CPU. Unlike the X86 CPU, which uses -

a CISC design, the IXP435’s RISC design architecture and modern semiconductor technology provide the

UC-8410/8416/8418/8430 with a powerful computing engine and communication functions, but without

generating a lot of heat. The built , 16 MB NAND flash, and- - in 16 MB (32 MB for UC 8430) NOR Flash ROM 256

MB SDRAM give you enough memory to run your application software directly on the

UC-8410/8416/8418/8430. Since the dual LAN ports are built into the IXP435 CPU, the

UC- 8410/8416/8418/8430 computers are ideal for network security applications.

The UC-8410/8416/8418/8430 come with the Linux 2.6 or Windows CE 6.0 platform pre installed to provide an-

open software operating system for software program development. Software written for a desktop PC can be

easily ported to the UC-8410/8416/8418/8430 platform with a common compiler, without needing to modify

the code. This makes the UC-8410/8416/8418/8430 optimal for industrial applications, but with minimal cost

and effort.

W s ide temperature model designed to operate reliably in temperatures ranging from - 40 to 75°C eare also

available.

Model Descriptions and Package Checklist

UC-8410- CE

RISC-based industrial embedded computer with 8 serial ports, 4 DIs, 4 DOs, 3 LANs, CompactFlash, USB,

Windows CE 6.0 OS, -10 to 60°C operating temperature

UC-8416- CE

RISC-based industrial embedded computer with 8 serial ports, 4 DIs, 4 DOs, 3 LANs, 8 switch ports,

CompactFlash, USB, Windows CE 6.0 OS, 10 to 60°C operating temperature-

UC-8418- CE

RISC-based industrial embedded computer with 8 serial ports, 12 DIs, 12 DOs, 3 LANs, 2 CAN ports,

CompactFlash, USB, Windows CE 6.0 OS, 10 to 60°C operating temperature-

UC-8430- CE

RISC- based industrial embedded computer with 8 serial ports, 4 DIs, 4 DOs, 3 LANs, CompactFlash, Dual VGA,

Audio, 6 USB, Windows CE 6.0 OS, -10 to 60°C operating temperature

UC-8410-T- CE

RISC-based industrial embedded computer with 8 serial ports, 4 DIs, 4 DOs, 3 LANs, CompactFlash, USB,

Windows CE 6.0 OS, 40 to 75°C operating - temperature

UC-8416-T- CE

RISC-based industrial embedded computer with 8 serial ports, 4 DIs, 4 DOs, 3 LANs, 8 switch ports,

CompactFlash, USB, Windows CE 6.0 OS, 40 to 75°C operating temperature-

UC-8418-T- CE

RISC-based industrial embedded computer with 8 serial ports, 12 DIs, 12 DOs, 3 LANs, 2 CAN ports,

CompactFlash, USB, Windows CE 6.0 OS, 40 to 75°C operating temperature-

UC-8430-T- CE

RISC-based industrial embedded computer with 8 serial ports, 4 DIs, 4 DOs, 3 LANs, CompactFlash, Dual VGA,

Audio, 6 USB, Windows CE 6.0 OS, -40 to 75°C operating temperature

UC- 8400 WinCE Introduction

1-3

All models are shipped with the following items:

• 1 UC- - -8410 or UC 8416 or UC 8418 8430 -or UC embedded c omputer

• Wall-m k ounting it

• DIN- m k to ’s ) Rail ounting it (attached the product housing

• Ethernet Cable: RJ45 to RJ45 cross-over cable, 100 cm

• CBL- - - 4PINDB9F 100: 4 pin header to DB9 female console port cable, 100 cm

• Universal p aower daptor (including power jack converter)

• Quick i g nstallation uide

• Document and s oftware CD

• W arranty card

NOTE: Notify your sales representative if any of the above items are missing or damaged.

Software Specifications

UC-8410/8416/8418/8430 WinCE ready- -to run embedded computers are -network centric computers that can

be programmed for embedded communication applications. The software features of the

UC-8410/8416/8418/8430-CE computers are listed below:

A pplication Development Environment

T -he UC 8410/8416/8418/8430- CE computers are easy to program. The Windows® CE environment provides

the following common, popular application development features convenient and that make programming as

easy as in a PC environment.

• C Libraries and Run- —times Compared to the C libraries and run- times used on a desktop PC running

Windows®, the C libraries and run-times on a UC-8410/8416/8418/8430-CE are a subset of the WIN32

APIs. They support full ANSI C run time, standard input/output library, standard input/output ASCII library,

and they and standard ASCII string functions. In addition, support C++ compiler exception handling

Run-Time Type Information (RTTI) equivalent to desktop C++ compilers.

• Component Services (COM and DCOM)— n The Common Object Model (COM) is a operating

system- -independent, object oriented system for creating binary software components that can interact

with other COM-based components in the same process space, in other processes, or on remote machines.

• Microsoft® Foundation Classes (MFC)—MFC is a comprehensive class library and complete

object- oriented application framework designed to help build applications, COM components, and controls.

• SOAP Toolkit— -SOAP is an XML based protocol for object exchange and remote procedure calls.

Microsoft® Windows® CE 6.0 provides functionality similar to the SOAP Toolkit version 2 on a desktop

computer. The SOAP Toolkit provides a layer that allows COM objects to use SOAP as the transport protocol

for remote procedure calls and to interact with Web services.

• Microsoft® .NET Compact Framework 3.5—Offers a choice of languages, Microsoft® Visual Basic® and

Microsoft® Visual C#, and eliminates the common problems faced with language interoperability.

• XML— - s Provides the Document Object Model (DOM) for XML based functionality, support XML Query

Language (XQL) and XPATH, Extensible Style Sheet Language tions (XSLT) that enable Transforma you to

transform one class of XML document into another, SAX2 support for event-based parsing of XML

documents including, MSXML Writer, and parsing based on Simple API for XML (SAX) for

resource- constrained target devices.

• Winsock 2.2—Provides enhanced capabilities over Winsock 1.1, including installable service providers for

additional third party protocols, as well as Media sense.-

Networking and Communications Capabilities

For network-centric embedded application usage, the UC- -8410/8416/8418/8430 CE not only provide powerful

communication hardware interfaces serial ports, but also support the , including dual Ethernet and 3-in-1

UC- 8400 WinCE Introduction

1-4

n c etworking and communications apabilities that are built into following features Windows® CE 6.0. The are

supported:

• Simple Network Management Protocol (SNMP)—Monitors remote connections to the network.

• Simple Network Time Protocol (SNTP) Client—Provides support for synchronizing the device’s system

time with a SNTP server, and supports Daylight Savingn s Time.

• Serial Communications—In addition to the 16550 UART driver bound to a debug port and the console

port, a special for 8 additional Moxa serial ports is also includeddriver .

• Network Utilities (IpConfig, Ping, Route)—Utilities for troubleshooting various network problems.

• TCP/IP— Includes IP, Address Resolution Protocol Protocol (ARP), Internet Control Message (ICMP),

Internet Group Membership Protocol (IGMP), Transmission Control Protocol (TCP), User Datagram Protocol

(UDP), name resolution and registration, and DHCP.

Support and Daemonsed Servers

In addition to development and communication capabilities, the UC-8410/8416/8418/8430-CE are also

embedded with the following services and daemons. These common and easy- -to use application servers help

users - migrate the UC 8410/8416/8418/8430 embedded computers s to industrial communication application

easily and conveniently.

• Telnet Server—A sample server that allows remote administration through a standard Telnet client.

• FTP Server—A sample server used for transferring files to and from remote computer systems over a

network using TCP/IP.

• File Server— f sThe ile erver functionality in Microsoft® Windows® CE enables clients to access files and

other resources over the network.

• Web Server (HTTPD)—Includes ASP, ISAPI Secure Socket Layer support, SSL 2, SSL 3, and Transport

Layer Security (TLS/SSL 3.1) public key-based protocols, and Web Administration ISAPI Extensions.

• Dial-up Networking—Consists of RAS client API and the Point to Point Protocol (PPP). RAS and PPP

support Extensible Authentication Protocol (EAP) and RAS scripting.

• Watchdog Service—A CPU Hardware function for resetting the CPU in a user specified time interval. You

must call Moxa library function to trigger a the reset action.

Graphics and Multimedia Tools(UC- - 8430 CE only)

• Graphics Device Interface (GDI)—Provides information about the fundamental graphics architecture for

Windows CE.

• DirectDraw Display Drivers—Provides information about creating a display driver that supports

DirectDraw.

• Audio Codecs and Renderers

 G.711 Audio Codec

 GSM 6.10 Audio Codec

 IMA ADPCM Audio Codec

 MP3 Codec

 MPEG- I Layer 1 and 2 Audio Codec

 MS ADPCM Audio Codec

 Wave/AIFF/au/snd File Parser

 Waveform Audio Renderer

 WMA Codec

 WMA Voice Codec

 WMAPro over s/PDIF Packetizer

• Video Codecs and Renderers

 DirectShow Video Codec

 MPEG-I Video Codec

UC- 8400 WinCE Introduction

1-5

 MS RLE Video Codec

 Overlay Mixer

 Video/Image Compression Manager

 EMA/MEPG-4 Video Codec

Firmware Build Versions

There are two ways to determine the version of your UC- -8410/8416/8418/8430 CE computer’s firmware. You

will need to know the firmware version to identify which features your UC-8410/8416/8418/8430-CE supports.

• Examine the welcome message after you log on to the computer.

• Log w -on the to eb based management system (described in a late chapter) to r view the system

information.

Memory and File Systems

The SDRAM has 256 MB of memory space, of which 192 MB is allocated for the main memory in which the

operating system and user applications run. The kernel image occupies the rest of the space.

The UC-8410/8416/8418/8430-CE’s internal file system controls access to the ROM, and also file provides

storage in the object store, which is in the RAM. The ROM file system provides persistent storage for

applications and the data used by the applications, even when the main power supply is lost. It integrates the

read-only files that are stored in Flash ROM with the read/write files of both an application and a user. In the

UC-8410/8416/8418/8430- s “ ” CE computer , a child directory named NANDFlash under the root indicates the

ROM storage of the flash memory is MB. 32

The root directory is a RAM file system. It can be used for storing temporary files for your applications. 44 MB

However, do not place persistent files or applications in the root directory, because they will be wiped out when

the system is shut down. Instead, place them in the directory. “NANDFlash”

The file systems for storage devices connected through the USB port and CompactFlash are placed in the root

of the internal file system. If you intend to use these devices your PC and the to port data between

UC-8410/8416/8418/8430- sCE computer , format them using the FAT file system on your PC.

Dual Display (UC-8430-CE only)

The UC- -8430 CE comes with 2 VGA outputs and support s the clone-mode feature.

Audio (UC- -8430 CE only)

The UC- -8430 CE has a line in for audio recording and an audio output for playing sound. Note, however, that -

you can either record audio or play audio. You cannot both record audio and play audio at the same time.

NOTE

The audio recording and audio playing functions cannot be used at the same time.

Hive-b -b ) ased Registry (not RAM ased

The registry for the UC-8410/8416/8418/8430-CE computers is a hive-based registry instead of a RAM-based

registry. The hive-based registry stores registry data in files, or hives, which can be kept on any file system.

This removes the need for performing backup and restore on power off.

UC- 8400 WinCE Introduction

1-6

Inserting a CompactFlash Card

The UC- -8410/8416/8418/8430 CE are equipped with a CompactFlash slot of type II th at supports cards of both

types I and II. A mass storage card is considered to be a standard attachment to the computer. When an empty

mass storage card is inserted into the slot, the computer automatically formats it to the FAT system. This

process takes a few minutes to complete. When a mass storage card is inserted, the

UC-8410/8416/8418/8430-CE create a directory “named HardDisk” under the root directory and the newly

created directory serves as a link to the storage. The UC-8410/8416/8418/8430-CE does not support PNP (plug

and play) and hot swap for Flash storageCompact devices. Users must switch off the power and then insert the

CompactFlash storage device in the slot tch on the . When the power is swi ed again,

UC-8410/8416/8418/8430-CE will detect the CompactFlash storage Be sure to shut off the power device.

before removing the CompactFlash storage device.

The following table describes the compatible CompactFlash storage devices that have been tested and found to

be compatible with the UC-8410/8416/8418/8430- . CE computers

Vendor Device Name Size

ScanDisk

UltraⅡ

1 GB

Transcend Compact Flash 80X 512 MB

Apacer Photo CIENO 2 GB

Unigen Compact Flash card 128 MB

Inserting a USB Mass Storage Device

When an empty USB storage device is plugged into the USB slot on the UC- -8410/8416/8418/8430 CE’s rear

panel, the computer automatically format to the FAT system.s device

When the Ufirst SB mass storage device is plugged , a directory named is created in the in “StorageDisk”

internal file system under the root directory as a link to the storage device. The directory created for the second

USB device is “StorageDisk .”2

RS- 232/422/485 Serial Ports

The UC-8410/8416/8418/8430- CE computers come with 8 high performance serial ports named from “COM3”

to “COM10”. All of them are designed to provide reliability, high-speed and 3- - - -in 1 (i.e., RS 232, RS 422, and

RS-485) operation mode switch for your diverse applications. Each of these ports supports baudrate settings

up to 921600 bps.

You can use the interface utility setinterface.exe to change or display your port interface. Ex.: Type

“setinterface COM3: 1” to change the port interface to RS- 485 2W.

\>setinterface

ModelName:UC-8410/8416/8418/8430-CE

COM3: = RS-232

COM4: = RS-232

COM5: = RS-232

COM6: = RS-232

COM7: = RS-232

COM8: = RS-232

COM9: = RS-232

COM10: = RS-232

\> setinterface –h

SetInterface [COMx:] [mode]

mode: 0 (RS232)

mode: 1 (RS485 2 Wire)

UC- 8400 WinCE Introduction

1-7

mode: 2 (RS422)

mode: 3 (RS485 4 Wire)

e.g.

SetInterface COM5: 2 Change the COM5: mode to RS422

SetInterface $device\COM10 3 Change the COM10: mode to RS485 4wire

You can either enable or disable the FIFO by the utility , “setfifo”. Ex.: Type “setfifo

COM3: 0” to disable FIFO of COM3. or type “setfifo COM3: 1” to enable FIFO of COM3

After that, you can check the FIFO status by type “setfifo”

\> setfifo COM3: 0

Set FIFO success

\> setfifo

COM3 FIFO = Disabled

COM4 FIFO = Enabled

COM5 FIFO = Enabled

COM6 FIFO = Enabled

COM7 FIFO = Enabled

COM8 FIFO = Enabled

COM9 FIFO = Enabled

COM10 FIFO = Enabled

2. Getting Started

In this chapter, we explain how to operate a UC-8410/8416/8418/8430-CE computer from a PC. The PC will be

referred to as a development workstation and the UC-8410/8416/8418/8430-CE computer will be called the

target computer.

We describe the steps needed for some operations, such as setting the system time, troubleshooting network

connectivity, etc. Some of these operations can be done using system commands after gaining access to the

computer, and others can be done with a web based management system, as described in a later chapter.-

The following topics are covered in this chapter:





-Powering on the UC 8410/8416/8418/8430





-Resetting the UC 8410/8416/8418/8430- CE Computer





Boot Loader





Operating the UC- - 8410/8416/8418/8430 CE Computer via the Serial Console





Changing the Network Settings





- -Virtual Private Network (VPN) (UC 8430 CE only)





Operating the UC- - 8410/8416/8418/8430 CE Computers via Telnet





User/Group Management





Adjusting the Time Zone





Adjusting the System Time





s Start Stopping and ing Service





Troubleshooting Network Connectivity





Simple Network Management Protocol (SNMP)

 A SNMP gent

 SNMP Manager





FAccessing iles through F Sile haring

UC- 8400 WinCE Getting Started

2-2

Powering on the UC-8410/8416/8418/8430

T o boot up the system, connect the to the power input located on the computer’s power source rear panel. It

takes about seconds for the system to boot up. You will hear a clear 5 “ ” BEEP sound when the boot up

procedure is finished. Once the system s ready, the “Ready” LED will light upi and stay on until you shut down

the computer.

Resetting the UC-8410/8416/8418/8430-CE

Computer

Warm-Start: When ing will power on, push the button briefly (for “ ” Reset less than . The computer 1 )second

reboot aut . omatically

Cold-Start: Switch the power off and then on again. The computer will automaticallyreboot .

Reset to Factory Defaults (Configuration only): If the computer is not work ould likeing properly and you w

to reset it to factory default settings, press and hold the “ ” Reset button for 5 seconds as the operating system

is starting t up. The buzzer sounds while the factory default settings are being loaded. After the factory defaul

settings ha finished ing will automatically action with ve load , the computer reboot . Do not confuse this

“ - Warm Start.”

Reset to Factory Defaults (Configuration and file system): If the computer will not start up, you must go

to the Boot Loader and format the flash storage has been reformatted, restart flash storage. Once the the

computer.

Boot Loader

Three functions are provided to enhance the of the operating system stability .

• Reset to default—This function allows users to load the factory default into the

UC-8410/8416/8418/8430.

• Format storage flash—CE 6.0 is a FAT-based system. The system cannot work well when the FAT table is

crashed. This function allows users to format the file system and reboot the UC-8410/8416/8418/8430.

• Firmware upgrade— The latest firmware can be downloaded from Moxa’s website. See Appendix A for

instructions on how to upgrade the firmware.

Use the following procedure to access the boot loader menu from serial console:the

1. Power off the UC-8410/8416/8418/8430- CE.

2. Connect the serial console cable to your PC.

3. Go to [Start]  [Programs]  [Accessories] [Communication]   [Terminal] to create a new

terminal. Use these Hardware Flow Control = N Data bits =setting Baudrate s: = 115200, one, 8, Parity =

N one, Stop bits = 1, Terminal = VT100.

4. Activate this terminal window on your PC.

5. Hold down the “DEL” key.

6. 8410/8416/8418/8430 Power on the UC- - CE.

Operating the UC-8410/8416/8418/8430-CE

Computer via Serial Consolethe

The serial console port gives users a convenient way of connecting the development workstation to the console

utility the target computer of the target computer. This method is particularly useful when using for the first

time.

UC- 8400 WinCE Getting Started

2-3

After connecting the to the development workstation and start a terminal program ( serial cable, return e.g.,

HyperTerminal) the . Use following console port settings.

Baud rate 115200 bps

Parity None

Data bits 8

Stop bits

Flow Control None

Terminal VT100

Next l . enter the ogin name and password. The default values are both admin

Password: admin

Changing the Network Settings

The UC-8410/8416/8418/8430- s CE computer come with three network interfaces. The default IP addresses

and netmasks of the network interfaces are as follows:

Default IP Address

Netmask

LAN 1 DHCP DHCP

LAN 2 192.168.4.127 255.255.255.0

LAN 3 192.168.5 .127 255.255.255.0

Two methods can be used to change the network settings of the UC-8410/8416/8418/8430: Use the network

settings function of the OS, or use the Serial Console connection.

For - -the UC 8430 CE model, you may use the following procedure to change your network settings.

1. G o to [Start] [Settings]  [Network and Dial-Up Connections].

UC- 8400 WinCE Getting Started

2-5

security infrastructure for the transfer of data from a remote client to a private enterprise server, which creates

a VPN by using TCP/IP-based data networks.

Currently, this function is supported only by the CE. For VPN questions concerning the UC- -8430 UC- -8430 CE,

please contact M ’s Technical Support team.oxa

Operating the UC-8410/8416/8418/8430-CE

Computers via Telnet

Before operating your UC- - c8410/8416/8418/8430 CE computer using a Telnet lient, we suggest that you

change section) the the network settings of the computer (see an earlier so that at least one of two network

ports is on the same LAN as your development workstation.

Use a cross- , over Ethernet cable to connect your development workstation directly to the target computer or

a s - h. traight through Ethernet cable to connect the computer to a LAN hub or switc Next, use the Telnet client

o T n your development workstation to connect to the elnet console utility of the target computer. Once a

connection , on is established type the ogin name and password as requestedl to log to the computer.

After logging in via the console port or a Telnet client, several busybox commands are available to operate the

computer. Use to display all HELP of the commands, or to display extended type HELP [command name]

help for the selected command. S , ome of the commands such as DATE and TIME are very useful for managing

the computer’s the system time. Other commands , such as DIR and MKDIR are good utilities for file

management. For example, to inspect the file structure of the root directory, simply type DIR.

\> dir /b

NANDFlash

My Documents

Program Files

Temp

Windows

User/Group Management

User Group—You should assign specific services, such as ftp and Telnet, to defined user groups so that these

services are accessible only by the users within the permissible user group. Three user groups, namely ftpd,

telnetd, and httpd, are created by default for your convenience.

Adding a Group— uUse the command seradd –g <groupName> to create a user group.

\> useradd –g yyyy

group yyyy has been added.

Deleting a Group—To remove a group, use the command u –serdel g <groupName>.

\> userdel –g yyyy

group yyyy has been removed.

UC- 8400 WinCE Getting Started

2-6

Adding a User—Use the command useradd <newUserID> to add a user for accessing the system. The

user’s password, by default, is the same as the user name.

\> useradd xxxx

user xxxx has been added.

In addition, you can permit this user to access a particular service by typing -g followed by the user group name

of the service, i.e., useradd –g <groupName> <newUserID>. For example,

\> useradd –g telnetd xxxx

user xxxx is existent

group telnetd is existent

user xxxx has been added to group yyyy

Deleting a User—Use the command userdel <userID> to delete a user from “ ” the system. User admin

CANNOT be deleted.

\> userdel xxxx

user xxxx has been deleted

You can also just remove a user from a user group by ing the us command userdel –g

<groupName> <newUserID> . For example,

\> userdel –g yyyy xxxx

user xxxx has been removed from group yyyy

Changing the Password—Please use System Manager“ ” to change the Password.

Adjusting the Time Zone

Windows CE 6.0 supports Time Zone. You can use [Control Panel]



[Date/Time] to adjunct your current

Time Zone. It also supports Daylight Time Date and Daylight .

Adjusting the System Time

Setting the System Time Manually—Use the date and time commands to query the current system date

and time or to set a new system date and time.

\> date

The current date is: Tuesday, November 22, 2005

Enter the new date (mm-dd-[yy]yy): 12-23-05

\> date /T

Wednesday, November 23, 2005

\> time

The current time is: 5:27:17 PM

Enter the new time (hh:mm:ss): 16:02:00

\> time /T

4:02:04 PM

The Date/Time setting is saved to the UC-8410/8416/8418/8430-CE’s ; RTC the date and time will not change

when the system reboots.

Starting and Stopping Services

After booting up, the UC-8410/8416/8418/8430- s CE computer run several services continuously to serve

requests from users or other programs. Notable services include elnet (“TEL0:”), console (“CON0:”), t world

wide web use these serviHTTP (“HTP0:”), seldom need to file transfer FTP (“FTP0:”), and others. You will ces.

UC- 8400 WinCE Getting Started

2-7

However, note that you can start or stop a service with its associated name by using the “services” command.

F or example,

Start the FTP service by typing:

\> services start FTP0:

Stop the FTP service by typing

\> services stop FTP0:

The default services for the CE are listed as below: - -UC 8410/8416/8418/8430

TEL0: Telnet Service

FTP0: FTP Service

CON0: Console Service

Troubleshooting Network Connectivity

The ipconfig tool prints the TCP/IP related configuration data of a host, includin- g the IP addresses, gateway,

and DNS servers.

\> ipconfig /all

Windows IP configuration

Ethernet adapter Local Area Connection:

IP Address: 192.168.4.127

Subnet Mask: 255.255.255.0

Adapter Name: IXP425ETHNPE2

Description: IXP425ETHNPE2

Adapter Index: 2

Address: 80 86 33 33 34 12

DHCP Enabled: NO

Ethernet adapter Local Area Connection:

IP Address: 192.168.14.202

Subnet Mask: 255.255.248.0

Default Gateway: 192.168.15.254

Adapter Name: IXP425ETHNPE1

Description: IXP425ETHNPE1

Adapter Index: 3

Address: 78 56 34 91 cc dd

DHCP Enabled: NO

Host name: UC-8410/8416/8418/8430-CE

Domain Name:

DNS Servers: 192.168.1.6

NODETYPE: 8

Routing Enabled: NO

Proxy Enabled: NO

Use the ping command to troubleshoot network connectivity, reachability, and name resolution. The command

verifies IP-level connectivity to another TCP/IP computer by sending Internet Control Message Protocol (ICMP)

Echo Request messages. The corresponding return Echo Reply messages are displayed, along with round-trip

times. For more information, type ping without parameters.

\> ping www.moxa.com

Pinging Host www.moxa.com [192.168.1.16]

Reply from 192.168.1.16: Echo size=32 time<1ms TTL=126

UC- 8400 WinCE Getting Started

2-8

The route utility allows you to view or modify network routing tables. Type this command without parameters

to view a list of functions.

\> route

T o view current routing items in the tables, type

\> route PRINT

T o add a routing item on network interface 1, type

\> route ADD 192.168.0.0 MASK 255.255.0.0 192.168.15.254 IF 2

T o delete a routing item, type

\> route DELETE 192.168.0.0

Simple Network Management Protocol (SNMP)

SNMP is the Internet Standard protocol for network management, and is part of the TCP/IP protocol suite.

SNMP was developed to monitor and manage networks. uses a distributed architecture that consists of It

agents and managers:

SNMP A gent

The SNMP agent is an SNMP application that monitors network traffic and responds to queries from SNMP

manager applications. The agent also notifies the manager by sending a trap when significant events occur.

SNMP Manager

An SNMP manager is an SNMP application that generates queries to SNMP agent applications and receives -

traps from SNMP- agent applications.

T -he UC 8410/8416/8418/8430-CE computer install an SNMP agent to serve as a SNMP device. You should s n

install the SNMP manager on the workstation (for example, a Linux system) that monitor computer s the

network. After installing the nodes, you need to configure the SNMP manager and agent.

To check SNMP agent capabilities o -n a target UC 8410/8416/8418/8430-CE (e.g, network IP at 192.168.3.127)

computer, log computer that the SNMP manager resides on the workstationto on then typeand :

\> snmpwalk -v 2c -c public 192.168.3.127 system

SNMPv2-MIB::sysDescr.0 = STRING: Microsoft Windows CE Version 6.0 (Build 0)

SNMPv2-MIB::sysObjectID.0 = OID: SNMPv2-SMI::enterprises.8691.13.8430

DISMAN-EVENT-MIB::sysUpTimeInstance = Timeticks: (586211) 1:37:42.11

SNMPv2-MIB::sysContact.0 = STRING: Your System Contact Here

SNMPv2-MIB::sysName.0 = STRING: UC-8410/8416/8418/8430-CE

SNMPv2-MIB::sysLocation.0 = STRING: Your Location Here

SNMPv2-MIB::sysServices.0 = INTEGER: 72

SNMPv2-MIB::sysORLastChange.0 = Timeticks: (0) 0:00:00.00

SNMPv2-MIB::sysORID.1 = OID: SNMPv2-MIB::snmp

SNMPv2-MIB::sysORID.2 = OID: UDP-MIB::udp

SNMPv2-MIB::sysORID.3 = OID: TCP-MIB::tcp

SNMPv2-MIB::sysORID.4 = OID: IP-MIB::icmp

SNMPv2-MIB::sysORID.5 = OID: IP-MIB::ip

SNMPv2-MIB::sysORID.6 = OID: RFC1213-MIB::at

SNMPv2-MIB::sysORID.7 = OID: IF-MIB::interfaces

SNMPv2-MIB::sysORID.8 = OID: SNMPv2-MIB::system

SNMPv2-MIB::sysORID.9 = OID: HOST-RESOURCES-MIB::host

SNMPv2-MIB::sysORDescr.1 = STRING: Sample SysOR Description ...

UC- 8400 WinCE Getting Started

2-9

SNMPv2-MIB::sysORDescr.2 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.3 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.4 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.5 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.6 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.7 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.8 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORDescr.9 = STRING: Sample SysOR Description ...

SNMPv2-MIB::sysORUpTime.1 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.2 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.3 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.4 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.5 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.6 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.7 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.8 = Timeticks: (20936) 0:03:29.36

SNMPv2-MIB::sysORUpTime.9 = Timeticks: (20940) 0:03:29.40

You will see a series of messages from the SNMP agent n the o UC- -8410/8416/8418/8430 CE computer. From

t here, you can monitor and manage the computer.

Accessing ile F Files through S haring

The UC-8410/8416/8418/8430- s CE computers support a file sharing function so that remote computer can

access the UC-8410/8416/8418/8430-CE to read files. ollowingTake the f steps to enable file sharing.

1. To enable file sharing function, rename the hostname of the CE to avoid the UC- -8410/8416/8418/8430

hostname collision on the network.

In the Serial Console screen, enter the following command:

\>hostname Embedded_1

Now you have successfully changed the hostname to Embedded_1. You may use other hostname as you

wish.

UC- 8400 WinCE Getting Started

2-10

2. Configure the files you would like to share in the UC- - \8410/8416/8418/8430 CE. Use >netshare h – to

configure the parameters. See the following figure.

3. 8410/8416/8418/8430 When finished, you may access the UC- -CE from the remote computer.

To use the function, click Start → Run and then input the device IP (e.g., \\192.168.30.199). The following

Enter Username and Password to access the UC- - 8410/8416/8418/8430 CE.

4. 8410/8416/8418/8430 When you have successfully logged in to the UC- -CE, you can view the files in the

sharing folders of the UC- - 8410/8416/8418/8430 CE.

UC- 8400 WinCE Getting Started

2-11

5. 8410/8416/8418/8430 A f s s -ile erver function is available for transferring file efficiently to the UC -CE. To

use the function, click the device IP (e.g., Start  Run and then input \\ . . .1). T192 168 100 he following

6. After logging in, you can view the sharing files on the remote computer.

7. From any command window (telnet or console), type the “netshare h” command to display the following -

command syntax:

3. Management Tools

Moxa’s - - - -ready to run embedded computers are network centric platforms designed to serve as front ends for

data acquisition and industrial control applications. Due to the distributed characteristics of the devices that

these computers control, they are often located in remote locations separate from the system administrator.

Managing this kind of remote computer requires handling configuration, file management, and process (thread)

monitoring/control over the network.

As the UC CE model comes with a VGA output, this chapter describes how to configure and manage the - -8430

UC- - - -8430 CE computer via a display. For the UC 8410/8416/8418 computers, refer to Chapter 4 Web based

Management System for the detailed configuration. However, the DHCP Allocator Configuration applies to all

UC-8410/8416/8418/8430-CE models. Please also note that the UC CE model can be managed via the - -8430

Web-based Management System.

The UC- -8430 CE computer come with a pre installed management system to assist administrators. Before s -

using the system, make sure that a CRT or LCD monitor is connected to your UC- -8430 CE embedded computer,

and then double click the desktop icon [System Manager].-

The following topics are covered in this chapter:





System Information





Serial Port Configuration





Process (Thread) Monitoring/Control





Services Monitoring/Control





Display





User/Group Management





Auto Launch Configuration





Web Server Configuration





DHCP Allocator Configuration

UC- 8400 WinCE Management Tools

3-2

System Information

The first page displays the system information of the UC- -8430 CE computer, including the firmware version of

the computer, .Net CF version, the system time, and system resources, including main memory and file system

usage.

Serial Port Configuration

The UC- -8430 CE h 8 - , as high performance serial ports. When the system starts specify the default operation

mode (RS- - , -232, RS 422 or RS 485). The factory default mode is - RS 232.

Click the tab to see the status of the COM Ports serial ports.

UC- 8400 WinCE Management Tools

3-3

Process (Thread) Monitoring/Control

Whe run ngn ni , the CE computerUC- -8430 s can manage up to 32,000 applications. To view processes that are

currently running, click the Processes tab. click the To kill a process, kill button next to the process name.

Services Monitoring/Control

Some services, such as FTP, Telnet and HTTP, run in the background to provide service for user requests.

C lick the appropriate check box to enable or disable operation of a particular service.

You can also adjust the time automatically To do this, check mark the check box under use SNTP to . Enable

SNTP, and then click Save Settings.

T , so maintain normal operation of the computer ome listed services cannot be stopped. Such services do not

have a check box next to them.

UC- 8400 WinCE Management Tools

3-5

Use the Change Password utility to change the password.

Auto Launch Configuration

Use the Auto Launch tab to execute automatically specify which programs will on boot up. Click the Add

button to add programs to the list, and then restart -the UC 8430- CE.

UC- 8400 WinCE Management Tools

3-6

Web Server Configuration

You machine nternet will need to use a or Windows XP Windows 2000 for web administration. Open I E xplorer

and http://192.168.3.127/WebAdminthen type the URL (replace the IP with your

UC-8410/8416/8418/8430-CE’s network IP address) to link to the Web Server Configuration page.

You can create a new web site or create a virtual web path for your web application.now

UC- 8400 WinCE Management Tools

3-7

You can also change the authentication for each web virtual directory.

DHCP Allocator Configuration

The UC-8410/8416/8418/8430-CE computers’ DHCP Allocator configuration tool, called ICSCFG, can be used

to enable Take the following steps to configure this tool:the Internet router function.

1. Connect LAN1 to the Internet, and PCLAN3 to your .

2. Execute the ICSCFG command from the command line .

• Enable the DHCP Allocator? (Y/N): Y

• Which net interface will be private interface? (1the : 3 to 3)

• IP address allocattion start range? (0 to 255): 130

• IP address allocation end range? (0 to 255): 250

• Set the timeDHCP lease ; 1 unit = 1 minute? (1 to 4294967295) 10:

• Which net interface will be public interface? (0the : 1 to 3, 0 to disable)

• Enable DNS Proxy? (Y/N): Y

• Enable NAT for Public Interface? (Y/N): Y

• Will take effect after rebooting. Reboot now? (Y/N): Y

When fini To disable the Internet router shed, reboot the computer, so that the function will be enabled.

function, run the ICSCFG in the command line, and select “n” in the configuration.

• Enable DHCP Allocator? (Y/N): N

You may also use the following command to configure all parameters together. See the following descriptions:

To disable DHCP Allocator:

\Windows\ICSCFG.exe -d

To enable DHCP Allocator:

\Windows\ICSCFG.exe -e [p1] [p2] [p3] [p4] [p5] [p6] [p7]

p1: Assign the Private Interface (1-3)

p2: Assign the IP address allocation start range (0-255)

p3: Assign the IP address allocate end range (0-255)

UC- 8400 WinCE Management Tools

3-8

p4: Set the DHCP lease time, 1 unit = 1 minute (1- 4294967295)

p5: Assign the Public Interface (0 3), 0 to disable-

p6: Enable DNS Proxy, 0 to disable, 1 to enable

p7: Enable NAT for Public Interface, 0 to disable, 1 to enable

NOTE

evices connecting to the UC- -8400 CE computer with a

public IP address cannot use the web manager service,

FTP service,

or - - Telnet service provided by the UC 8400 CE computer.

UC- -8400 WinCE Web based Management System

4-2

System Information

After you logon successfully, the main page displays the system information of the target

UC-8410/8416/8418/8430-CE computer, including the firmware version of the computer, the RTC time, the

CPU system time, and system resources including main memory and file system usage (RAM and Flash).

Networking/Server Configuration

The UC-8410/8416/8418/8430-CE computer 3 embedded network interfaces. To view or change their s have

settings, click the Networking item on the menu bar. After the page loads, enter the relevant details on the

corresponding text fields and then click “Update” to make the changes effective for the interfaces.

Produkt Specifikationer

Mærke:	Moxa
Kategori:	Server
Model:	UC-8416-T-CE
Vægt:	1000 g
Brugervejledning:	Ja
Produktfarve:	Sort
Opbevaringstemperatur (T-T):	-40 - 85 °C
Relativ luftfugtighed ved drift (H-H):	5 - 95 %
Ethernet LAN-porte (RJ-45):	3
Antal USB 2.0-porte:	2
Driftstemperatur (T-T):	-40 - 75 °C
Ethernet LAN-datahastigheder:	10, 100 Mbit/s
Sikkerhedsalgoritmer:	EAP, SSL/TLS
Husmateriale:	Metal
Dimensioner (BxDxH):	200 x 120 x 57 mm
Certificering:	EN 55022 Class B, EN 55024-4-2, EN 55024-4-3, EN 55024-4-4, FCC Part 15 Subpart B Class B
Kabelteknologi:	10/100Base-T(X)
Understøttede netværksprotokoller:	TCP, UDP, IPv4, IPv6, SNMPv2, ICMP, IGMP, ARP, HTTP, CHAP, PAP, SSL, DHCP, SNTP, SMTP, Telnet, FTP, PPP
LED-indikatorer:	Power, Ready
Indgangsspænding:	12 - 48 V
Processorfrekvens:	533 MHz
Understøttede Windows-operativsystemer:	Ja
Strømforbrug:	1350 mA
Flashhukommelse:	32 MB
Gennemsnitstid mellem fejl (MTBF):	156942 t
Indbygget processer:	Ja
Understøttede operativsystemer til servere:	Windows Embedded CE 6.0
Isolering:	3 kV
Seriel grænsefladetype:	RS-232/422/485
Antal serielle porte:	8
Baud hastighed:	921.6 Kbit/s
Data-bits:	5, 6,7, 8
RS-232 signaler:	CTS, DCD, DSR, DTR, GND, RTS, Rx, Tx
RS-422 signaler:	GND, RxD+, RxD-, TxD+, TxD-
RS-485 signaler:	Data+, Data-, GND, RxD+, RxD-, TxD+, TxD-
Stop bits:	1, 1.5, 2
Sikkerhed:	UL 60950-1, EN 60950-1, CCC (GB9254, GB17625.1)
Link/Act LED:	Ja
Flow Control type:	ADDC, RTS/CTS, XON/XOFF