SystemBase EDDY-WIFI Embedded WiFi Module User Manual

SystemBase Co., Ltd. Embedded WiFi Module

User Manual

Download: SystemBase EDDY-WIFI Embedded WiFi Module User Manual
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Document ID1334732
Application IDIIIuLYTsvknbNd0C5r174A==
Document DescriptionUser Manual
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize218.92kB (2736486 bits)
Date Submitted2010-08-30 00:00:00
Date Available2010-12-01 00:00:00
Creation Date2010-08-29 10:27:17
Producing SoftwareHaansoft PDF 1.3.0.310
Document Lastmod2010-08-29 10:27:17
Document TitleMicrosoft Word - Eddy_User_Guide_Eng_V2.1.1.1_10813.doc
Document CreatorHaansoft PDF 1.3.0.310
Document Author: 류의현님

Eddy Serial
User Guide
Ver 2.1.1.1
2010. 06.25
Revision History
Revision Date
Document Version
Pages
Description
Feb-5-2009
2.1.0.1
All
Initial release by shlee
Sep-10-2009
2.1.0.2
4,5,6
Added WiFi
Nov-11-2009
2.1.0.3
2,3,5
Append Eddy-S4M
Jun-06-2010
2.1.1.1
All
Open Linux Version
Added Eddy-BT
Table of Contents
Chapter 1.
1.1
About this manual....................................................................................................................................................5
1.2
Who should read this manual.....................................................................................................................................5
1.3
Contents.................................................................................................................................................................5
1.4
Eddy Documents ..................................................................................................................................................... 6
1.5
Technical Support .....................................................................................................................................................7
Chapter 2.
Getting Started ...........................................................................................................................8
2.1
Overview............................................................................................................................................................... 8
2.2
Eddy-CPU v2.1 ........................................................................................................................................................ 8
2.3
Eddy-DK v2.1 (Development Kit)................................................................................................................................ 9
2.4
Eddy-S4M v2.1.......................................................................................................................................................11
2.5
Eddy-S4M-DK v2.1 (Development Kit) ........................................................................................................................13
2.6
Eddy-S4M-JiG v2.1 (Testing Board) ........................................................................................................................... 14
2.7
Eddy-WiFi v 2.1 ......................................................................................................................................................15
2.8
Eddy-BT v2.1..........................................................................................................................................................17
2.9
Eddy Software Architecture...................................................................................................................................... 18
2.10
Main Features....................................................................................................................................................... 18
2.11
Applications............................................................................................................................................................19
Chapter 3.
Hardware Description.................................................................................................................. 20
3.1
Eddy-CPU ............................................................................................................................................................. 20
3.2
Eddy-DK v2.1 .........................................................................................................................................................21
3.3
Eddy-S4M v2.1...................................................................................................................................................... 23
3.4
Eddy-S4M-DK v2.1 ................................................................................................................................................. 24
3.5
Eddy-S4M-JIG v2.1................................................................................................................................................. 25
3.6
Eddy WiFi v2.1....................................................................................................................................................... 26
3.7
Eddy BT v2.1 ......................................................................................................................................................... 28
Chapter 4.
Introduction ............................................................................................................................... 5
Integration............................................................................................................................... 30
4.1
Connection Guide....................................................................................................................................................30
4.2
First-time Bootup ..................................................................................................................................................30
4.3
Connecting to Eddy with IP address...........................................................................................................................30
4.4
Using MCI slot & USB Host Port ............................................................................................................................... 33
Chapter 5.
5.1
Connection............................................................................................................................................................ 36
5.2
Setup Menu.......................................................................................................................................................... 37
5.3
Network Settings ................................................................................................................................................... 39
5.4
Serial Settings....................................................................................................................................................... 41
5.5
Wireless Settings ...................................................................................................................................................44
5.6
Peripheral Settings ................................................................................................................................................. 47
5.7
DIO Settings.......................................................................................................................................................... 50
5.8
SNMP Settings........................................................................................................................................................51
5.9
Change Password ................................................................................................................................................... 52
5.10
Update Firmware ................................................................................................................................................... 53
5.11
Factory Default...................................................................................................................................................... 54
5.12
Save & Reboot ..................................................................................................................................................... 54
Chapter 6.
Configuration via Telnet................................................................................................................56
6.1
Connection............................................................................................................................................................ 56
6.2
View commands..................................................................................................................................................... 56
6.3
Network commands ................................................................................................................................................ 57
6.4
WiFi commands...................................................................................................................................................... 59
6.5
Serial Commands....................................................................................................................................................60
6.6
Username/Password Commands................................................................................................................................. 61
6.7
System Commands.................................................................................................................................................. 62
Chapter 7.
Configuration via Web..................................................................................................................36
apendix ...................................................................................................................................63
7.1
Firmware Updates via FTP........................................................................................................................................ 63
7.2
Ordering Information...............................................................................................................................................64
7.3
FCC Statement .......................................................................................................................................................64
Eddy User's Guide
Chapter 1. Introduction
Eddy, SystemBase Embedded Device Server Module, is an optimized minimal CPU module for developing an industrial embedded device. This manual introduces
general factions for the Eddy.
1.1
About this manual
This manual guides that users are able to develop Eddy for a device server including the function that transfers from serial data to LAN. Setting Eddy’s
configurations, status monitoring, firmware update, and other administration work are also included, H/W level integration and S/W setting information can also
be found.
1.2
Who should read this manual
This guide is designed for Eddy users and administrators. It is strongly recommended that anyone trying to apply, use, and maintain Eddy read this document.
It will be a great starting point for any administrator who wants to easily monitor and control Eddy and its connected devices.
1.3
Contents
Chapter 1. Introduction is a preface with general information and introductory notices.
Chapter 2. Getting Started gives a brief introduction to Eddy series, including features and applications.
Chapter 3. Hardware Descriptions explains the layout and pin specifications with block diagram and drawings.
Chapter 4. Integration assists you connecting Eddy to serial and network environment. It covers first time boot-up and status check procedures.
Chapter 5. Configuration via Web provides ways to configure and to connect Eddy via web browser.
Chapter 6. Configuration via Telnet provides commands and its explanation to configure and to connect Eddy via web Telnet.
Chapter 7. Appendix provides firmware update guides and detailed technical specifications.
Eddy User's Guide
1.4
Eddy Documents
The following table summarizes documents included in the Eddy document set.
Document
Description
Eddy Serial User Guide
Eddy’s Configuration, and Management Information
Eddy DK Guide
Programmer’s application development guide, including in-depth approach to compiling,
linking, creating and uploading firmware
API reference is included with a list of available functions
for customized application programming
LemonIDE User Guide
User manual about Eddy integrated development environment of Window/Linux based on Eclipse
Portview User Manual
Guide for SystemBase device server management application Portview
COM Port Redirector
User Manual
Guide for SystemBase COM Port Redirector
TestView
User Manual
Guide for SystemBase test program TestView
General information on Eddy or embedded device servers can be obtained at our website at http://www.sysbas.com/. Latest documents, software and
firmware downloads are available.
Other relevant documents are as follows:
Document
Description
Eddy-CPU Spec Sheet
Eddy-CPU spec description
Eddy-S4M Spec Sheet
Eddy-S4M spec description
Eddy-WiFi Spec Sheet
Eddy-WiFi spec description
Eddy-BT Spec Sheet
Eddy-BT spec description
LemonIDE Spec Sheet
integrated development environment description
Eddy White Paper
An introductory reading for anyone new to embedded device server, which focuses on
background, history, market environment, and technology
All documents are updated promptly, so check for the recent document updates. The contents in these documents are subject to change without a prior
notice.
Eddy User's Guide
1.5
Technical Support
You can reach our tech support by following 3 ways;
1. Visit the Eddy official community site at http://www.embeddedmodule.com and go to ‘Technical Support’ menu. FAQ and questions can be reviewed
and submitted.
2. E-mail our technical support team to tech@sysbas.com. Any kind of inquiries, requests, and comments are welcomed.
3. Call us at our customer center at 82-2-855-0501 for immediate support.
Our technical support team will kindly help you get over with the problem.
Eddy User's Guide
Chapter 2. Getting Started
Welcome to Eddy! This chapter includes Eddy series overview, main and distinctive features, package contents for each product, and application fields.
2.1
Overview
There are two categories in Eddy; Eddy-CPU module, Eddy Development Kit (DK).
Eddy-CPU modules include category of socket type Eddy-CPU and Mini PCI type Eddy-S4M.
Eddy-DK includes DK board for Eddy-CPU exclusive, JIG and DK board for Eddy-S4M exclusive.
The Eddy-CPU module includes default applications for serial and LAN communication, and supports plug-and-play features. By switching to the custom mode,
users can program any application and upload it on to the module. This application then is executed on the module. In order to write and compile
programmer’s source code, Software Development Kit (SDK) LemonIDETM is required.
SDK is included in the DK package. Please refer to Programming Guide and LemonIDETM user’s manual included in the Development Kit for detailed
information on the SDK.
SDK is not necessary for users using Eddy in default presettings.
2.2
Eddy-CPU v2.1
Eddy-CPU is an embedded module based on ATMEL AT91SAM9260-CJ processor with 32MB SDRAM, 4MB or 8MB Flash Memory, 1 Ethernet port with
10/100Mbps, 16 bit address / 8 bit data bus interface supporting external device connection, and maximum 17 programmable IO pins. Programmers can easily
implement any device drivers with referring to library type example codes and evaluation kit circuit diagrams.
User can design their own customized device using example sources and Evaluation Kit circuit.
Eddy-CPU is implemented on a small form factor (42 * 25mm) with on-board memory and integrated 10/100Mbps network interface. Developers can minimize
time and cost spent on developing application products.
Hardware
Feature
CPU
Type
ARM926EJ-S (210 MHz)
Memory
8MB Data Flash, 32 MB SDRAM
External I/F
19 Bit / 16 Bit Data Bus
Eddy User's Guide
Feature
Type
Ethernet I/F
10/100 Base-T Auto MDI/MDIX
USB 2.0 FS
ADC
4 Port, Support up to 921.6 Kbps
(1 : Full Signal, 2,3,4, : RxD, TxD, RTS, CTS only)
2 Host /1 Device Port, 2.0 FS (12Mbps)
4-Channel 10 Bit ADC
TWI(I2C)
Master, Multi-Master and Slave Mode
SPI
8- to 16-bit Programmable Data Length
Four External Peripheral Chip Selects
GPIO
Max. 56 Programmable I/O Pins
Power Input
3.3 V (200 mA Max)
Dimensions
25 x 48.5 x 6.2 mm
Weight
8.3 g
Protocol
TCP, UDP, Telnet, ICMP, DHCP, TFTP, HTTP, SNMP 1&2, SSH, SSL
Ethernet
Network Connection
O/S
Mgt Tools
Uploads
Dev Tools
Operating Temp
Storage Temp
Humidity
10/100Mbps MAC / PHY
Static IP, DHCP
Linux Kernel 2.6.21
SNMP, Web, PortView
TFTP, FTP, Web
LemonIDE & SDK
-40 ~ 85 ℃
-60 ~ 150 ℃
5 ~ 95% Non-Condensing
UARTs
Network
Software
Environmental
Approvals
2.3
CE Class A,
FCC Class A,
RoHS compliant
Eddy-DK v2.1 (Development Kit)
Eddy Development Kit (Eddy DK) helps programmers to test and customize their own Eddy applications easily. The kit includes evaluation board, all necessary
connectors, and programming environment with documentations and guidelines. Please refer to Eddy DK Manual included in the Development Kit for detailed
information on the DK.
Eddy User's Guide
10
Eddy User's Guide
Feature
Type
NAND Flash
256MB, 8bit I/F
SD Card
Connector
Push Type, Up to 16 GB
MMC / SD Card / MC supported
1 x Device
2 x HOST, Dual-Port
USB Connector
LCD Module
128 x 64 Dots Matrix Structure
KEY
Battery Holder
LED
4 x 4 Matrix
3V Lithium Battery, 235 mAh
Power, Ready, 20 Programmable IO, Console & Serial TxD, RxD
I2C Interface
16bit I2C BUS GPIO
SPI Interface
2Kbit EEPROM
MCI Interface
SD Card, MMC Socket
ADC Interface
Temp / Light Sensor
Digital I/O
8 Port Input, 8 Port Output
Switch
Serial or GPIO Select
RS422/485 Select
DIO : Common VCC or GND Select
Programming
Jumper Switch
Boot Mode Select, JTAG Select
Serial Port
Console Port
LAN Port
ICE Port
Reset Button
Input Power
Dimensions
2.4
2 x RS232 DB9 Male
2 x RS422/485 Terminal Block
(RS422 & RS485 Selected by S/W)
DB9 Male
2 x RJ45
Used for Flash Programming
Factory Default & Warm Boot
9-48VDC
240 x 180 mm
Eddy-S4M v2.1
Eddy-S4M is a high-performance mini PCI type embedded module which include ATMEL AT91SAM9260-CJ processor 32MB SDRAM, 8MB DataFlash, 10/100Base-T
Ethernet port, Serial 4 Channel, RTC with Battery, microSD, 4ch ADC, temperature sensor, max 34 programmable GPIO pins.
Eddy-S4M is 59.75 x 61.8mm size. If using Eddy-S4M-JIG board, user could develop their customized device without other H/W development, which
minimizing time and cost to develop.
Referring Example code and Evaluation Kit circuit allow developer to design device they want.
11
Eddy User's Guide
Classification
Battery Holder
ADC
Specification
ARM9260B-CJ (210 MHz)
AT45DB642D, 8MB Data Flash
IS42S16160B, 32 MB SDRAM
10/100 Base-T MAC
KSZ8041NLi PHYceiver Auto MDI/MDIX
Port 0,1 : RS232 (DB9 male)
Port 0 : Full Signal
Port 1 : TxD, RxD, RTS, CTS only
Port 2,3 : COMBO (Terminal Block 5pin)
* COMBO : RS422/RS485 is S/W selectable
3 Host /1 Device Port, 2.0 FS (12Mbps)
Use to GL850A USB Hub chip
Real Time Clock, RTC DS1340U-33+
Connect to I2C I/F
CR1220(38mAh) 3V Lithium Battery
4-Channel 10 Bit ADC
TWI(I2C)
Master, Multi-Master and Slave Mode
CPU
Memory
Ethernet MC/PHY
Serials
USB 2.0 FS
Hardware
RTC
SPI
MCI
GPIO
Max. 34 Programmable I/O Pins
LED
Ready LED
Network Connection
O/S
Mgt Tools
Uploads
Dev Tools
TCP, UDP, Telnet, ICMP, DHCP, TFTP, HTTP,
SNMP1&2, SSH, SSL
Static IP, DHCP
Linux Kernel 2.6.21
SNMP, Web, PortView
TFTP, FTP, Web
LemonIDE & SDK
Power Input
3.3 V (200mA Max)
Dimensions
59.75 x 61.80 x 4 mm
Protocol
Software
Physical
characteristics
12
8 to 16-bit Programmable Data Length
Four External Peripheral Chip Selects
SD Spec V2.0 [SDHC], MMC Spec V4.2 support
USB to SD Controller, 16GB, 12Mbits/s
Eddy User's Guide
Classification
Environment
Weight
Operating Temp
Storage Temp
Humidity
Specification
15 g
-40 ~ 85°C
-66 ~ 150°C
5 ~ 95% Non-Condensing
CE Class A,
FCC Class A,
RoHS compliant
2.5
Eddy-S4M-DK v2.1 (Development Kit)
Eddy-S4M DK is Development Kit supporting programmer can easily materialize and test their application.
DK includes Test Board, various connectors, programming environment and document. Please refer to Eddy-DK manual for more specific explanation of EddyS4M
Classification
MCI Interface
2 x RS232 DB9 Male
2 x RS422/485 5pin Terminal Block (S/W Selectable & with Auto toggle)
Push Type, Up to 16 GB
MMC / SD Card / MC supported
SD Card, MMC Socket
ADC Interface
Light Sensor
USB Connector
LAN Port
1 x Device, 2 x HOST, Dual-Port
RJ45 with transformer
Serial Port
SD Card Connector
13
Specification
Eddy User's Guide
Classification
Console Port
Switch
LED
JTAG Port
Reset Button
JIG Connection Socket
Expansion Header
Input Power
Dimensions
2.6
Specification
DB9 Male
Power ON/Off switch
Serial RS422/485 Termination resistor configuration switch
GPIO input test switch(Off : Low, ON : High)
RDY, Power, 34 Programmable IO, Console & Serial TxD, RxD LED
Used for downloading code and single-stepping through programs
Factory Default & Warm Boot
(If pushing over 5sec, operate in Factory default)
2 2x23pin socket, which connect JIG board to confirm problems
2x22pin Header, used to test GPIO of Eddy-S4M
5 VDC
160 x 120 mm
Eddy-S4M-JiG v2.1 (Testing Board)
Eddy-S4M JIG board is test board which enable of user to integrate and test their application with Eddy-S4M. JIG board include mini connector for joining
Eddy-S4M, Ethernet RJ45, USB Host, Power, Reset Switch, and providing connectors to all Eddy-S4M functions.
For more information, please refer to Eddy-DK manual in DK product.
Classification
14
Specification
USB Connector
USB HOST
LAN Port
Reset Button
Expansion Header
Input Power
Dimensions
RJ45 with Transformer
Factory Default & Warm Boot
Used to connect most functions of S4M to externalS4M
5 VDC
70 x 105 mm
Eddy User's Guide
2.7
Eddy-WiFi v 2.1
Eddy WiFi joined with Eddy-CPU, Eddy-S4M enables various serial devices (secure device, communication device, modem, print data device, industrial
measuring instrument) to connect wireless LAN.
Eddy-WiFi module supports IEEE 802.11 b/g wireless specification.
You can set the wireless network parameters. After changing values, you need to click [Submit] button. Then you will see the same page with modified
values. Please note that you have to [Save & Reboot] in order to see these changes in effect. Changes will be discarded if you do not save current
settings.
Classification
Standard
Modulation
Frequency Band
RX sensitivity
Security
Working distance
Data Rate
Power consumption
15
Specification
802.11b, 802.11g
802.11g: OFDM
802.11b: CCK,DQPSK, DBPSK
802.11b/g:
ISM band 2.4GHz ~ 2.483.5GHz
802.11a/g: -68m @54Mbps 8% PER
802.11b: -85dBm @11Mbps 8% PER
WEP 64/128, WPA, WPA2
60 - 120m, depending on surrounding
environment
802.11b : 11, 5.5, 2, 1 Mbps
802.11g : 54, 48, 36, 24,18,12,11, 9, 6, 5.5, 2 , 1 Mbps
TX : 450mA
RX : 300mA
Host interface
USB2.0
Antenna
ANT 2.4Ghz, RP-SMA Female
Antenna Cable
RF 100mm SMA B/H
Dimension
54 x 25 x 6mm
Operating Temp
-20 ~ 50°C
Eddy User's Guide
Classification
Specification
Humidity
5 ~ 90% Non-Condensing
Operating Voltages
3.3V±5%
Weight
Approvals
10g
CE Class B, FCC Class B, RoHS Compliant
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
Caution : Any changes or modifications in construction of this device which are not
expressly approved by the party responsible for compliance could void the user's
authority to operate the equipment.
* If the Eddy-WiFi is installed inside of another device, then the exterior label of the
device must use such as the following:
“Contains Transmitter Module FCC ID: PROEddy-WiFi” or “Contains FCC ID: PROEddy-WiFi”
FCC RF RADIATION EXPOSURE STATEMENT
This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled
environment. This equipment should be installed and operated with a minimum distance of 20
centimeters between the radiator and your body. This transmitter must not be co-located or
operated in conjunction with any other antenna or transmitter.
CE warning
!Changes and modifications not expressly approved by the party responsible for
compliance could void the user's authority to operate the equipment.
EN Test Regulations
ETSI EN 300 328 V1.7.1
ETSI EN 301 489-1 V1.6.1
ETSI EN 301 489-17 V1.3.2
EN 60950-1:2006+A11:2009
16
Eddy User's Guide
2.8
Eddy-BT v2.1
Linking to Eddy-CPU and Eddy-S4M, Eddy-BT module enables communication with various types of Bluetooth device in Bluetooth method. Eddy-BT is based on
Bluetooth 2.0 and supports communication distance of up to 1,000m.
For the details of Eddy-BT, please refer to “Eddy DK Programming Guide”.
Classification
Interface
Bluetooth v2.0+ EDR Class 1
Profile
SPP (Serial Port Profile)
+18dBm
-88dBm
Max, TX Power
RX sensitivity
Operating Temp
Supply voltage: 3.3V DC
Supply current::10mA – 60mA
Operating temperature: -30 ~ 80 oC
Storage Temp
Storage temperature: -40 ~ 85 oC
Humidity
Humidity : 90% (Non-condensing)
Power
Working distance
Approvals
17
Specification
Stub Antenna (+1dBi)
Dipole Antenna (+3dBi)
Dipole Antenna (+3dBi)
Dipole Antenna (+5dBi)
Patch Antenna (+9dBi)
Dipole Antenna (+5dBi)
Patch Antenna (+9dBi)
Patch Antenna (+9dBi)
100 meters
150 meters
200 meters
300 meters
500 meters
400 meters
600 meters
1,000 meters
CE Class A, FCC Class A, RoHS Compliant
Eddy User's Guide
2.9
Eddy Software Architecture
2.10
Main Features
Various features of Eddy make it a universal yet distinctive embedded solution.
Below lists main features of Eddy.
l Premium-level hardware with ARM9 210MHz CPU, 8MB Flash, and 32MB SDRAM
l Selectable RS232 only or RS422/485 combo interfaces
l USB host port (Max 12Mbps USB Full speed)
l SD Card Interface
l Max 921.6Kbps serial speed
l Program and run your own application
l SystemBase SDK and API support for application programming (included in Development Kit)
l Small size to fit in to any hardware
l 10/100Mbps Ethernet port (auto MDIX)
l SystemBase COM Port Redirector for better adaptability
l Extensive configuration and monitoring with Portview
l Firmware upload with Web, FTP, and TFTP
l Configuration with Web, Telnet, SNMP, and Portview
l Various customizing options
l Standard Linux environment for openness in executable applications
l Multiple Programmable IO pins for customized applications
l Watchdog timer support for monitoring the system and reset when system error is occurred.
18
Eddy User's Guide
2.11
Applications
Eddy can be applied to many practical applications in various fields. Some are presented below.
◆ Factory / Industrial Automation
PLC, Robot arms, Human-Machine Interface, Warehouse rails
Medical instruments, Inspection equipment controllers
Alarming units
◆ Home Appliances / Electronic Devices
Power controller, Gaming machines
Scales, Gas detection units, Water & pollution metering devices
Data collection and distribution units
◆ Financial / Building Automation
Card readers, Barcode scanners, Kiosks, Point-Of-Sale related devices
Serial printers, Cash registers, Credit card authorization terminals
Biometric detection units, Security devices
◆ OEM Device Server Distributors
OEM device server with distributor’s own case & brand
Ready-to-go device or customized application / setup mode can be inserted
19
Eddy User's Guide
Chapter 3. Hardware Description
This chapter provides Eddy’s hardware information, including block diagram, layout, pin specifications, dimensions and other hardware-related issues.
3.1
Eddy-CPU
Ethernet port is provided as pin headers, and the transformer and RJ-45 connector should be manually implemented by users. (RJ-45 connector with
embedded transformer, normally called LAN-Mate or MAG Jack, can be used as a simpler approach.
Eddy CPU V2.1 Device Discription
Eddy CPU V2.1 Connector Discription
20
Eddy User's Guide
3.2
Eddy-DK v2.1
It is Development Kit Providing environment to test and developing. Bellow is simple Instruction on Device, Switch, Pin, LED and so on.
Switch Feature
LED Feature
21
Eddy User's Guide
External Device Feature A
External Device Feature B
22
Eddy User's Guide
Internal Device Feature
3.3
Eddy-S4M v2.1
Mini PCI Type Slot..
When developing main board, user must materialize transformer and RJ-45 connector (or RJ45 in which transformer is included (LAN-Mate or MAC Jack)).
23
Eddy User's Guide
Since Driver IC is in Eddy-S4M, Serial port can be integrated easily only by attach connector.
3.4
Eddy-S4M-DK v2.1
Development Kit provides testing and configuration in environment of Eddy-S4M v2.1
24
Eddy User's Guide
3.5
Eddy-S4M-JIG v2.1
It is test board which used when you test with Eddy-S4M v2.1
25
Eddy User's Guide
3.6
Eddy WiFi v2.1
Linking to Eddy-CPU and Eddy-S4M, Eddy-WiFi module enables to use various types of serial device (Security equipment, telecommunications
device, modem, data output devices, industrial instruments etc.) through wireless LAN. Eddy-WiFi module supports IEEE 802.11b/g.
For application development, please refer to WiFi.c, the source code for Eddy-WiFi module.
26
Eddy User's Guide
LEFT
27
Description
RIGHT
Description
NA
NA
NA
NA
NA
NA
VCC(3.3V)
VCC(3.3V)
USB Host Data(-)
USB Host Data(+)
NA
10
NA
11
H/W Reset
12
Ground
13
Ground
14
NA
15
NA
NA
16
NA
NA
17
NA
18
NA
Eddy User's Guide
3.7
Eddy BT v2.1
Bluetooth module is composed to connect 4th serial port of Eddy-CPU or Eddy-S4M in TTL method. It is possible to use Eddy-BT as 4th serial port, but it can lose
data in case of using HW Flow Control. If you want to use HW Flow Control, please refer to Test_Bluetooth.c in SDK and revitalize HW Flow control of 4th serial
port.
For the details of Eddy-BT, please refer to “Eddy DK Programming Guide”.
28
Eddy User's Guide
29
LEFT
Description
RIGHT
Description
NA
NA
NA
NA
NA
NA
VCC(3.3V)
Factory Reset
UART TXD
NA
VCC(3.3V)
VCC(3.3V)
UART RXD
NA
UART RTS
NA
UART CTS
NA
10
Pairing Signal
10
NA
11
H/W Reset
11
H/W Reset
12
NA
12
Ground
13
NA
13
Ground
14
Ground
14
NA
15
Ground
15
NA
16
Ground
16
NA
17
NA
18
NA
Eddy User's Guide
Chapter 4. Integration
This chapter explains how you can make Eddy to communicate. It deals with LAN and pin header connection guides for Eddy to operate together with the
target serial device.
Follow these steps to connect Eddy to the device and network.
4.1
Connection Guide
1) WAN/LAN
In order to connect Eddy to network, you need to use RJ45 Ethernet port. It supports both 10Mbps and 100Mbps Ethernet connection (auto-sensing). Since
Eddy’s LAN port supports MDIX function, you can either connect cross LAN cable or direct LAN cable. Plug one end of a LAN cable to Eddy and the other
end to a hub, switch, or any other network device that can provide you with network access.
2) DB9
For the model included a DB9 serial port, you can simply connect Eddy to the destination serial device with a DB9 cable. For pin specifications, please refer to
Chapter 3.
3) MCI slot
MMC and SDCards excepting T-Flash, Micro SD, and SDHC can be used through MCI slot. It provides Maximum 2 GBytes. Please note that MCI and SDCard must
be inserted before power is induced to Eddy module.
2) USB Host
An USB memory stick or USB hub can be attached to Eddy-S2M/PIN module’s USB host port. For an USB Hub it should have own power.
4.2
First-time Bootup
First of all, please make sure the power input you supply to the module is corresponding with the Eddy model that you have. If an appropriate power input
has been successfully supplied, Eddy will power on and start booting.
Although there is no power LED to check the status, you can check by LEDs on the RJ45 Ethernet port. LED status operation is described in Chapter 3.
Hardware Description.
An IP address is required to access Eddy’s web interface or telnet command-line configuration tool. By factory default, Eddy is assigned a static IP address.
After the initial connection, you can either manually assign a different IP address or set Eddy to automatically get an IP address from a DHCP server. While
this depends on your network environment and policy, it is strongly recommended that you assign Eddy with a unique static IP.
4.3
Connecting to Eddy with IP address
In order to view current Eddy’s settings or modify them, you need to make a Web or Telnet connection to Eddy. IP address is required information to
make a connection.
There are two ways you can know the current IP address of Eddy.
First is to use a built-in, alias IP address of “10.10.1.1”.
Second is to use “Detector” application provided in the Utility & Documents CD. This application allows searching for Eddy modules on the network.
◆ The factory default IP address:
192.168.0.223
Eddy’s default IP address is set to 192.168.0.223. In order to connect with this address, you need to change network configurations so that your PC can
connect to the IP 192.168.0.223. Please refer to an example below, and note that values don’t necessarily have to be identical to the example below.
30
Eddy User's Guide
31
Eddy User's Guide
◆ Factory default alias IP address: 10.10.1.1
In case you configure Eddy to use DHCP to obtain an IP address automatically, you might find it hard to know the IP address to connect to. To provide users
with an easier way to know the current IP address, Eddy has a fixed alias IP that is always accessible. Use the address below whenever you cannot find
out Eddy’s IP address.
In order to connect with this address, you need to change network configurations so that your PC can connect to the IP 10.10.1.1. Please refer to an example
below, and note that values do not necessarily have to be identical to the example below.
þ Since Eddy-S4M doesn’t support LAN port so that doesn’t include bellow.
◆ Connection via Detector
By running the Detector program in the Utility & Documents CD included in the Eddy package, you can dynamically search for all Eddy modules on the
network and connect to any module. (For more information on Detector, please refer to the Portview manual in the Utility & Documents CD included in the
Eddy package)
After running Detector, click Search button on the top-left to display all Eddy modules on the network. Select the module that you would make a connection
to, and click Telnet or Web to connect to the module via Telnet or Web, respectively.
32
Eddy User's Guide
If Eddy module is not on the same network as the PC you are working on, use “IP Configure” button to temporarily assign an IP address that you would
like to make a Web or Telnet connection to. If you assign a temporary IP address to Eddy, you need to to change the IP address and restart in Web or
Telnet.
Now you are ready to connect to Eddy! There are three options to configure Eddy.
1) Web
You can easily configure Eddy with web interface, accessible from any web browser. For more information, please refer to Chapter 5. Configuration via Web.
2) Telnet
You can configure Eddy with commands after accessing Eddy through Telnet. For more information, please refer to Chapter 6. Configuration via Telnet.
3) Portview
You can use a Windows-based utility Portview from SystemBase to monitor Eddy. For more information on using the utility for your administration purpose,
please refer to Portview User Guide.
4.4
Using MCI slot & USB Host Port
The following contents outline the usage of Eddy’s MCI & USB Host Port.
Using MCI slot
MMC and SDCards can be used through MCI slot.
Please note that MCI and SDCard must be inserted before power is induced to Eddy.
MMC or SDCards are automatically recognized as a new disk space in " /tmp/mmc " folder. If memory card is not inserted to the MCI slot, " /tmp/mmc "
folder will not be created.
To check memory card’s current disk space information, type in "du -sk /tmp/mmc" or "df /tmp/mmc" commands via telnet. Following example displays
status of a memory card with 1GB memory storage capacity.
33
Eddy User's Guide
Eddy login: eddy
Password:
# pwd
/tmp
# ls
ifstate
login.pw
login.id
mmc
# du -sk /tmp/mmc
9520
/tmp/mmc
# df /tmp/mmc
Filesystem
/dev/sda1
thttpd.log wtmp
thttpd.pid
Size
967.2M
Used Available Use% Mounted on
9.3M
957.9M 1% /tmp/mmc
Using USB host port
An USB memory stick or USB hub can be attached to Eddy module’s USB host port. If other USB devices are to be attached to this port, device drivers for
the devices must be first created and loaded to Eddy-S2M/PIN module using Eddy-DK.
Following example displays procedures for USB memory stick usage.
Insert the USB memory stick to USB host port and connect telnet.
Type in "fdisk -l " or "ls -al /dev/sd* " command to check USB memory stick is properly inserted.
Create a folder using “mkdir /tmp/usb” command.
Mount "/tmp/usb" folder using "mount -t vfat /dev/sda1 /tmp/usb" command.
Always unmount USB memory stick with "umount  " command, before removing USB memory stick from USB host port.
If more than one USB memory stick is connected using a USB hub, each memory stick would be recognized as /dev/sdb1, /dev/sdc1, /dev/sdd1…. Each
device must be mounted for proper use. Following displays an example of two USB memory stick connection with a hub.
34
Eddy User's Guide
Eddy login: eddy
Password:
# fdisk -l
Disk /dev/sda: 1014 MB, 1014497280 bytes
44 heads, 32 sectors/track, 1407 cylinders
Units = cylinders of 1408 * 512 = 720896 bytes
Device Boot
Start
End
Blocks Id System
/dev/sda1
1408
990704 6 FAT16
Disk /dev/sdb: 4068 MB, 4068474880 bytes
51 heads, 50 sectors/track, 3116 cylinders
Units = cylinders of 2550 * 512 = 1305600 bytes
Device Boot
Start
End
Blocks Id System
/dev/sdb1
3117
3973116 b Win95 FAT32
# ls -al /dev/sd*
brw-rw---- 1 root
root
8, 0 Jan 1 00:04 /dev/sda
brw-rw---- 1 root
root
8, 1 Jan 1 00:04 /dev/sda1
brw-rw---- 1 root
root
8, 2 Jan 1 00:04 /dev/sdb
brw-rw---- 1 root
root
8, 3 Jan 1 00:04 /dev/sdb1
# ls -l
-rw-r--r-1 root root
16 Jan 1 00:00 ifstate
-rw-rw-rw- 1 root root
4 Jan 1 00:00 login.id
-rw-rw-rw- 1 root root
8 Jan 1 00:00 login.pw
drwxr-xr-x 2 root root
16384 Jan 1 00:00 mmc
-rw-r--r-1 root root
0 Jan 1 00:00 thttpd.log
-rw-r--r-- 1 root
root
4 Jan 1 00:00 thttpd.pid
-rw-r--r-- 1 root
root
768 Jan 1 00:05 wtmp
# pwd
/tmp
# mkdir usb1
# mount -t vfat /dev/sdb1 usb1
# df /tmp/usb1
Filesystem
Size
Used Available Use% Mounted on
/dev/sdb1
3.8G
3.0G 768.3M 80% /tmp/usb1
35
Eddy User's Guide
Chapter 5. Configuration via Web
5.1
Connection
Open your favorite web browser and enter the IP address of Eddy to access Eddy’s web manager. Once you are successfully connected, the following
front page will show up. You need to enter appropriate username and password to login. Please note that this username and password is used as
authentication method for Telnet as well.
◆ Factory default username:
◆ Factory default password: 99999999
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eddy
Eddy User's Guide
5.2
Setup Menu
If login process is successful, you will see a web manager’s main page, showing summary of your device. On the left, you will see a setup menu, and
you can navigate through these options.
WiFi Disable View
þ Since S4M doesn’t support DIO and LCD, “DIO settings” doesn’t appear on the left menu.
WiFi Enable View
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Eddy User's Guide
Main features of Setup Menu are as follows.
38
Menu
Descriptions
Summary
View a summary of Eddy.
Network Settings
Configure network connection settings.
Wireless Settings
Configure Wireless settings.
Peripheral Settings
Select GPIO or Device mode.
Serial Settings
Configure detailed operation environment for serial
communication.
GPIO Settings
Configure programmable I/O pins.
DIO Settings
Configure DIO port. (Doesn’t supported in Eddy-S4M)
SNMP Settings
Configure detailed operation environment for SNMP.
Change Password
Change ID and password for both Web and Telnet interface.
Eddy User's Guide
5.3
Update Firmware
Update Eddy’s firmware.
Factory Default
Restore all the factory default settings.
Save & Reboot
Save the configurations and reboot Eddy.
Network Settings
Configure general network environment and network management. After changing values, you need to click ‘Submit’ button. Then you will see the
same page with modified values. Please note that you have to ‘Save & Reboot’ in order to see these changes in effect. Changes will be discarded if
you do not save current settings.
þ Since S4M doesn’t support LCD, “LAN Configuration” doesn’t appear.
Main features for WAN Configuration is as follows.
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Eddy User's Guide
Menu
Default
Descriptions
Device Name
Eddy
Name of the current device
Line Type
Static IP
IP obtaining method for Eddy’s network connection.
192.168.0.223
Current IP address Eddy is assigned to.
(When line type is Static IP, manually enter an appropriate IP address. When line type
is DHCP, current IP is displayed, but it is not editable.)
Subnet Mask
255.255.255.0
Current subnet mask Eddy is assigned to.
(When line type is Static IP, manually enter an appropriate subnet mask. When line
type is DHCP, current subnet mask is displayed, but it is not editable.)
Gateway
192.168.0.254
Current default gateway Eddy is assigned to
(When line type is Static IP, manually enter an appropriate default gateway. When
line type is DHCP, current default gateway is displayed, but it is not editable.)..
DNS
168.126.63.1
Domain Name Service IP address
IP Address
Main features for LAN Configuration is as follows.
þ Since S4M doesn’t have LAN port, doesn’t include bellows
Menu
Default
Descriptions
DHCP Server
Enable
Enable or disable DHCP server.
IP Address
10.10.1.1
Current IP address for LAN is assigned to.
Subnet Mask
255.255.255.0
Current subnet mask for LAN is assigned to.
Lease Start
Address
10.10.1.2
If DHCP server is enabled, start address of the DHCP scope for leasing.
Lease End
Address
10.10.1.30
If DHCP server is enabled, end address of the DHCP scope for leasing.
Lease Time
180
DHCP lease time.
Main features for Network Service Configuration are as follows.
Menu
40
Default
Portview
IP / Port
0.0.0.0 / 4000
DDNS
(Username/
Password)
203.32.117.1
Telnet Service
Enable
Descriptions
Set the IP address and the port number of the PC where Portview is installed. For
more information on Portview, please refer to the Portview User Manual.
If IP is set to 0.0.0.0, this feature is disabled
Register DDNS server’s IP address for DDNS service.
DDNS service used in Eddy is supported by http://ddns.nu
default ID is eddy and default password is 99999999
if you want to used this ,you should register your own in http://ddns.nu
Enable or disable Telnet service.
If disabled, you cannot connect to Eddy via Telnet.
Eddy User's Guide
FTP Service
Enable
Enable or disable FTP service.
If disabled, you cannot connect to Eddy via FTP.
Web Service
Enable
Enable or disable Web service.
If disabled, you cannot connect to Eddy via Web.
SSH Service
Disable
Enable or disable Secure Shell service.
Disable
Enable or disable remote debugging function used by Eddy development environment,
LemonIDE.
For more information, please refer to LemonIDE user manual in the SDK CD included in
Eddy-DK package.
LemonIDE Target
Agent
5.4
Serial Settings
You can set the communication and operation environment for the serial port. After changing values, you need to click ‘Submit’ button. Then you will
see the same page with modified values. Please note that you have to ‘Save & Reboot’ in order to see these changes in effect. Changes will be
discarded if you do not save current settings.
Menu
41
Default
Descriptions
Eddy User's Guide
Menu
Default
Descriptions
Select the operation protocol, which the serial port would use.
Disable
Do not use this port.
COM
Use the serial port of Eddy as the COM ports of Windows 2000/XP/2003/Vista operated PC.
TCP Server
Eddy works as a socket server, waiting for the client connection on the network.
Socket number for awaiting connections can be set in ‘Local socket port’ field.
All data between the socket and the serial port is transferred untouched after the socket
connection is established.
TCP Client
Eddy acts as a socket client in this mode. It tries to connect to the server IP address and the
socket number assigned when a certain server waits for connection on the network.
All data between the socket and the serial port is transferred untouched after the socket
connection is established.
Operation Mode
COM
TCP Broadcast
Eddy works as a server, accepting up to 5 simultaneous connections from socket clients.
Data transmitted from Eddy is broadcast to each socket client.
TCP Multiplex
Eddy works as a server, accepting up to 5 simultaneous connections from socket clients. The
difference between TCP Broadcast and TCP Multiplex is that Multiplex allows each socket to
communicate exclusively. That is, serial data in response are only transferred to the sender
socket.
UDP Server
Eddy works as a UDP server, waiting for UDP connection from the client on the network.
Socket number for awaiting connections can be set in ‘Local socket port’ field.
Once a UDP packet is received to the socket that waits for the connection, the data is
transmitted to the serial port. The data input from the serial port is put into UDP packets, which
eventually are sent to the client.
42
Interface
RS422
Local Socket
Port
4001
Port Alias
Port1
UDP Client
When the data is input to the serial port, UDP packets are sent using the preset IP address and
the socket number of the server.
Serial Port 1,2 hardwired to RS232 so that this category cannot be selected.
Serial Port 3, 4 can be used RS422 or RS485 (Echo, No Echo) by selecting.
In Eddy-CPU, this can be selected by Dip Switch S8, S9 on Eddy-DK board so that this category
cannot be selected.
(option: RS422, RS485(Echo), RS485(No Echo))
Set the socket number for the port. TCP server and UDP server operation mode makes use of
this port for awaiting network socket connections.
Port alias name for convenience. 16 Characters at maximum.
Eddy User's Guide
Menu
Default
Descriptions
Baud Rate
9600 bps
Set communication speed.
(Options: 150, 300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 460800,
921600 bps)
Data Bits
Set the number of bits in each character size.
(Options: 5, 6, 7, 8)
Stop Bits
Parity
None
Flow Control
None
Set the flow control scheme.
(Options: None, Xon/Xoff, RTS/CTS)
Device Type
DataOnly
Set the signal line checking method for the device to be connected to the given serial port.
If the mode is set to Data Only, only TxD, RxD, and GND signal lines are used in inter-device
communication. If the mode is set to Modem Signals, all modem signals except RI(Ring
Indicator) are asserted, tested, and used in communication.
(Options: Data Only, Modem Signals)
Remote IP
Address / Port
0.0.0.0 /
4000
Keepalive
Check
Time
Set the number of stop bits..
(Options: 1, 2)
Set parity bit check scheme..
(Options: None, Odd, Even)
When the Operation Mode is either TCP Client or UDP Client, set the IP address and the socket
number to connect to..
After a certain amount of time passes without any communication after the socket connection
between the given serial port and the server is established, automatically disconnect the socket
connection. Valid from 0 to 32767 sec.
For example, if the operation mode is set to TCP Server and Alive Check Time is configured to
10, TCP Server will listen for the client’s connection and eventually establish a connection.
Since the check time is 10 seconds, the server will wait for 10 seconds until the client
connected to it sends any packet. If there is no data for 10 seconds, server will quit the
connection and return to the listening state. This option is helpful in preventing communication
obstacles that occur when either Eddy or the client quits unexpectedly (i.e. Sudden black out,
reboot, LAN cable cut, etc.). In these cases, the other part of communication might not
recognize the failure of its partner. Such misunderstanding can cause communication errors.
If the value is set to 0, this function is disabled. Once connected socket will be retained until
explicitly disconnected.
(Only applies to TCP Client, TCP Server, TCP Broadcast, and TCP Multiplex operation modes.)
Latency
Time
43
This needs to be set when consecutive data from the given serial port needs to be transmitted
to socket at once.
For example, if 100 bytes of character string are to be transmitted from the serial device to a
server through Eddy, bypass is set to 0 for the latency time. Although it provides immediate
sending through Eddy, the server could be received a lot parts of divided packets.
If the latency time is not 0, Eddy will wait for the time and check new data. If there is new
data, Eddy repeatedly wait for the time. Otherwise, Eddy will transfer the buffered data, but it
could not run in real time.
Eddy User's Guide
5.5
Menu
Default
Port Login
Disable
Passive
Username
eddy
Passive Password
99999999
Descriptions
When the Operation Mode is set to TCP Server, ask for the username and password when the
client tries to connect
(Options: Enable, Disable)
When the Operation Mode is set to TCP Server, set the username to ask for. 16 Characters at
maximum.
When the Operation Mode is set as TCP Server, set the password to ask for. 16 Characters at
maximum.
Wireless Settings
You can set the wireless network parameters. After changing values, you need to click [Submit] button. Then you will see the same page with modified
values. Please note that you have to [Save & Reboot] in order to see these changes in effect. Changes will be discarded if you do not save current
settings.
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Eddy User's Guide
Menu
Default
Description
Disable
When enabled, Eddy-WiFi is available.
•Disable: Eddy-WiFi is not available.
•Enable: Eddy-WiFi is available.
Infrastructure
Set the wireless LAN mode.
(Option: Infrastructure, Ad-Hoc)
•Infrastructure : Use Eddy-WiFi under the Infrastructure mode. This mode is used for connecting to the
wireless AP (Access Point) as a client to connect to other network.
•Ad-Hoc : Use Eddy-WiFi under the Ad-hoc mode. This mode is used for 1:1 communication with another
Ad-hoc client.
Wireless
Network Mode
802.11b/g Mixed
Sets the operation protocol of a wireless network.
(Option: 802.11b/g mixed, 802.11B only, 802.11G only)
•802.11b/g mixed: 802.11b and 802.11g are supported.
•802.11B only: Use only 802.11b.
•802.11G only: Use only 802.11g.
Wireless
Network
Name(SSID)
None
Sets the identification (SSID) of a wireless network to be connected.
(Up to 32 bytes)
Auto
Selects a frequency channel for wireless connection.
(Option: Auto, 1 ~ 13)
•Auto: Connect a channel specified in AP automatically. In most cases, this setting is used.
•Value Specification: Specify a channel to be connected manually.
Wireless
Network
Wireless Mode
Channel
Sets the speed for wireless connection.
(Option: Auto, 1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, 54Mbps)
Bitrate
RTS Threshold
45
Auto
2347
The setting as Auto adjusts the speed depending on signal sensitivity and noise. In most cases, this
setting is used.
If Wireless Network mode is set to 802.11b/g Mixed, all options can be selected.
The setting as 802.11a only allows setting as 6, 9, 12, 18, 24, 36, 48 and 54Mbps.
The setting as 802.11b only allows setting as 1, 2, 5.5 and 11Mbps.
The setting as 802.11g only allows setting as 6, 9, 12, 18, 24, 36, 48 and 54Mbps.
Sets the minimum packet size to send RTS in a communication node.
(Range: 1 ~ 2347 bytes)
This setting adds the RTS/CTS handshake procedure to verify that the transmission channel is empty
before transmitting a packet.
In most cases, this setting is not used.
The setting as 2347 disables this function.
Eddy User's Guide
46
Fragment
Threshold
2346
Sets the maximum packet size to send a packet after dividing into small pieces. (Range: 256 ~ 2346
bytes)
This setting transmits a packet after dividing into small pieces.
Communication overhead is increased but communication error can be reduced in serious interference or
noise environment.
In most cases, this setting is not used.
The setting as 2346 disables this function.
Wireless
Roaming
Disable
Set whether to use of the Roaming functions.
•Enable : Use Roaming function.
•Disable : Do not use Roaming function.
(Option: 61~89 dbm)
If you have different Access Points and have enabled roaming, you should also set carefully the roaming
threshold, which is the point (in signal strength) at which Eddy-WiFi search for a new Access Point. If
you set it too low, Eddy-WiFi will spend to much time with a non optimal AP (getting a poorer
throughput), and if you set it too high the card will waste time searching for a new AP too often.
The represented value is absolute. The real value should be the represented value * (-).
(Option: OPEN, SHARED, WPAPSK, WPA2PSK, WPANONE)
An authentication mode defines the procedure that the 802.11 device uses when it authenticates and
associates with an access point.
•OPEN : Specifies IEEE 802.11 Open System authentication.
•SHARED : Specifies IEEE 802.11 Shared Key authentication that uses a preshared WEP key.
•WPA-PSK : Specifies WPA security. Authentication is performed between the supplicant and authenticator
over IEEE 802.1X. Encryption keys are dynamic and are derived through the preshared key used by the
supplicant and authenticator.
•WPA2-PSK : Specifies WPA2 security. Authentication is performed between the supplicant and
authenticator over IEEE 802 1X. Encryption keys are dynamic and are derived through the preshared key
used by the supplicant and authenticator.
•WPA-NONE : Specifies WPA security. Specifies the use of a preshared key without IEEE 802.1X
authentication. Encryption keys are static and are derived through the preshared key. This mode is
applicable only to ad hoc network types.
(Option: NONE, WEP, TKIP, AES)
Encryption modes define the set of cipher suites that can be enabled on the 802.11 device.
•NONE : Not used.
•WEP : Wired Equivalent Privacy (WEP) is the RC4-based algorithm specified in the IEEE 802.11
specification.
•TKIP : Temporal Key Integrity Protocol (TKIP) is the RC4-based cipher suite based on the algorithms
defined in the WPA and IEEE 802.11i specifications.
•AES : The Advanced Encryption Standard (AES) defines an encryption algorithm in FIPS PUB 197.
Roaming
Threshold
75 (dbm)
Authentication
Mode
OPEN
Encryption Type
NONE
Key Index
Selects the index of the key to be used from the created keys.
(Option: 1, 2, 3 and 4)
Key
None
Selects WEP 64-bit (Enter a Hex Key value directly).
(Example: 3132333435)
Selects WEP 128-bit (Enter a Hex Key value directly)
(Example: 31323334353637383940414243)
Password
None
Password for the TKIP encryption type.
(Up to 64 bytes)
Eddy User's Guide
5.6
Connection Type
DHCP
Sets an IP address type in a wireless network.
(Option: DHCP, Static IP)
•DHCP : Assign a dynamic IP address through a DHCP server.
•Static IP : Specify an IP address manually.
IP Address
192.168.1.72
Sets an IP address of a wireless network.
If the line Type is Static IP, a user can enter an IP address directly. If line type is DHCP, the current IP
address is displayed. In DHCP type, the address cannot be changed.
Subnet Mask
255.255.255.0
Sets an IP address of a wireless network.
If the line Type is Static IP, a user can enter a subnet mask address directly. If line type is DHCP, the
current subnet mask address is displayed. In DHCP type, the address cannot be changed.
Gateway
192.168.1.1
Sets a gateway address of a wireless network.
If the line Type is Static IP, a user can enter a gateway address directly. If line type is DHCP, the
current gateway address is displayed. In DHCP type, the address cannot be changed.
DNS
168.126.63.1
Sets a DNS server address of a wireless network.
If the line Type is Static IP, a user can enter a DNS server address directly. If line type is DHCP, the
current DNS server address is displayed. In DHCP type, the address cannot be changed.
Peripheral Settings
Configure operation mode and output value for each Programmable I/O pins.
Eddy includes GPIO pins that output 3.3V or detect 3.3V signals.
Eddy-CPU provides 56 GPIO ports, if you only use WAN port.
You can detect either any 3.3V signals from external device, or output 3.3V signal to the external device. You can also program a customized GPIO application,
and you can implement it with the SDK included in the Eddy development kit.
Eddy-S4M provide 34ea GPIO port, different from Eddy-CPU, the sharing device is limited to ADC.
After changing values, you need to click ‘Submit’ button. Then you will see the same page with modified values. Please note that you have to ‘Save
& Reboot’ in order to see these changes in effect. Changes will be discarded if you do not save current settings.
Menu
Device
Select
Value
47
Default
Descriptions
Eddy
Set the GPIO port to current pin’s I/O mode.
Eddy: Set Eddy defined mode.
GPIO: Set only GPIO port mode.
User: Set only user mode.
Output(Low)
Select the GPIO port to the specified mode.
Input(Pull-up): Standby with setting the GPIO to Vcc.
Input(Pull-down): Standby with setting the GPIO to Gnd.
Output(Low): 3.3V is not flowed through the port.
Output(High): 3.3V is output through the port.
Eddy User's Guide
Configuration view of Eddy-CPU
48
Eddy User's Guide
Configuration view of Eddy-S4M
49
Eddy User's Guide
5.7
DI
O Settings
Eddy-DK supports 16 Channel Digital inputs and outputs (DIO) by connecting with I2C interface. It is possible to switch GLCD or Digital IO port via 16 Channel DIO.
After changing values, you need to click ‘Submit’ button. Then you will see the same page with modified values. Please note that you have to ‘Save
& Reboot’ in order to see these changes in effect. Changes will be discarded if you do not save current settings.
þ Since Eddy-S4M doesn’t support DIO and LCD, DIO Settings doesn’t be supported.
50
Eddy User's Guide
Menu
Device
Select
5.8
Default
Descriptions
LCD
Set the purpose of the I2C 16 Bit I/O channel.
LCD: Set the G-LCD mode.
If you set to the LCD, you cannot use it for the DIO port.
DIO: Set the DIO 16 channel mode.
You can set input or out 16 channel as like the GPIO.
If you set to the DIO, you cannot use it for the G-LCD.
SNMP Settings
You can set the communication and operation environment for the SNMP Agent. After changing values, you need to click ‘Submit’ button. Then you will
see the same page with modified values. Please note that you have to ‘Save & Reboot’ in order to see these changes in effect. Changes will be
discarded if you do not save current settings.
51
Eddy User's Guide
In order to use the SNMP Agent, SNMP v1/v2/v3 Agent become enabled and pushes the [Submit] button.
Feature
Default
Descriptions
SNMP v1/v2/v3
Enable or disable Simple Network Management Protocol (SNMP) support.
Disable
Agent
(Options : Disable/Enable)
SNMP V1/2 Attributes can read and write by SNMP Agent.
In order to read attributes only, change the feature to "ReadOnly".
V1/2 Attribution
ReadOnly
In order to read and write attributes, change the feature to "ReadWrite".
(Options : ReadOnly/ ReadWrite)
SNMP V3 Attributes can read and write by SNMP Agent.
In order to read attributes only, change the feature to "ReadOnly".
V3 Attribution
ReadOnly
In order to read and write attributes, change the feature to "ReadWrite".
(Options : ReadOnly/ ReadWrite)
V3 Username/
eddy/administ Configure the Username and the password when use SNMP V3.
Password
rator
The Password is at least 8 character string
TRAP IP/ Port
0.0.0.0/162
Configure the server IP address and Port which receive the TRAP information.
System reset
If Enable is selected, inform the “System reset info.”
Enable
notification
(Option : Enable, Disable)
Port connect
If Enable is selected, inform the “Serial Port opened info.”
Disable
notification
(Option : Enable, Disable)
Port disconnect
If Enable is selected, inform the “Serial Port Closed info.”
Disable
notification
(Option : Enable, Disable)
5.9
Change Password
Change Web/Telnet access username and password. After changing values, you need to click ‘Submit’ button. Then you will see the same page with
modified values. Please note that you have to ‘Save & Reboot’ in order to see these changes in effect. Changes will be discarded if you do not save
current settings.
◆ Default user id
52
: eddy
Eddy User's Guide
◆ Default password
5.10
: 99999999
Update Firmware
Firmware is an application embedded in Flash memory of Eddy. Set the location of the firmware file to update, using the ‘Browse…‘ button. The
selected firmware will be transferred to Eddy when you click ‘Start Update’. After the transmission is complete, Eddy will be automatically restarted to
operate with the new firmware.
53
Eddy User's Guide
5.11
Factory Default
Restore all the configuration parameters to the factory default values. Clicking on ‘Restore Factory Defaults’ button will delete all current settings and
restore settings to the initial status. Eddy will automatically reboot.
You cannot turn back the decision once you select this option.
◆ The factory default WAN IP Address: 192.168.0.223
◆ The factory default LAN IP Address: 10.10.1.1
5.12
Save & Reboot
This option saves changes to the Flash memory and restarts the system to let the changes to take place in the operation.
54
Eddy User's Guide
Main features for Save & Reboot are as follows
55
Menu
Descriptions
Save and Reboot
‘Save & Reboot’ reboots Eddy after saving changes to Flash memory.
Reboot Only
‘Reboot Only’ option just reboots Eddy without saving changes. This option can be used to
rollback the changes you have mistakenly made.
Eddy User's Guide
Chapter 6. Configuration via Telnet
6.1
Connection
Open your telnet client and enter Eddy’s IP address to connect. You need to enter appropriate username and password to login. Please note that this
username and password is used as authentication method for Web as well. This means if username or/and password has been modified from the telnet
interface, modified values have to be entered to connect to web, and vice versa.
◆ Factory default username : eddy
◆ Factory default password : 99999999
Connection via Telnet
[def] command - you can view or configure Eddy’s settings
[def help] command - you can see help for [def] command
After changing values, you can see modified values with [def view] commands. But be careful because these values are not in effect unless you issue a
[def save] command. Changes will be discarded if you do not save current settings.
6.2
View commands
Commands related to View are as follows.
56
Commands
Descriptions
def view
Show all information about Eddy.
def view wan
Show WAN network settings.
def view lan
Show LAN network settings.
def view wifi
Show WiFi network settings.
Eddy User's Guide
6.3
def view management
Show managing items settings.
def view port
Show serial port settings.
def view gpio
Show GPIO pin settings.
def view dio
Show DIO pin settings.
def help
Show command list and help.
Network commands
Configure general network environment and network management.
Commands
def mac

def line
[ip/dhcp]
57
Default
Descriptions
00:05:f4:00:20:57
Register Eddy’s MAC address.
Static IP
IP obtaining method for Eddy’s network connection.
def ip

192.168.0.223
def mask

255.255.255.0
Set the current IP address Eddy is assigned to.
When line type is Static IP, manually enter an appropriate IP address.
When line type is DHCP, it is not editable. Instead, current IP address is
shown.
Set the subnet mask Eddy is assigned to.
When line type is Static IP, manually enter an appropriate subnet mask.
When line type is DHCP, it is not editable. Instead, current subnet mask is
shown.
def gateway

192.168.0.1
Set the default gateway Eddy is assigned to.
When line type is DHCP, it is not editable. Instead, current gateway address is
shown.
def dns

168.126.63.1
Set the Domain Name Service IP address.
def portviewip

0.0.0.0
Configures IP of PC which Portview is installed
If IP is set to 0.0.0.0, NMS feature is disabled.
(Please refer to Portview User’s Manual for detailed information.)
def portviewport

4000
Set the socket number of the PC with Portview installed.
def telnet
[Enable / Disable]
Enable
Enable or disable Telnet service.
If disabled, you cannot connect to Eddy via Telnet.
Eddy User's Guide
def ftp
[Enable / Disable]
Enable
Enable or disable FTP service.
If disabled, you cannot connect to Eddy via FTP.
def ssh
[Enable / Disable]
Disable
Enable or disable SSH service.
If enabled, you can connect to Eddy via SSH.
203.32.117.1
If you set DDNS server IP , DDNS service will be enable. But you set
“0.0.0.0” ,this service will disable.
eddy
You can access DDNS server with this ID.
99999999
You can access DDNS server with this password.
Enable
Enable or disable Web service.
If disabled, you cannot connect to Eddy via Web.
def target_agent
[Enable / Disable]
Disable
Enable or disable remote debugging function used by Eddy development
environment, LemonIDE.
For more information, please refer to LemonIDE user manual in the SDK CD
included in Eddy DK package.
def name

Name of the module
Set the name of Eddy module. (Max 32 bytes)
Def ddns
[IP Address]
Def ddnsuser
[username]
Def ddnspass
[password]
def web
[Enable / Disable]
58
SNMP V1/2 Attributes can read and write by SNMP Agent. In order to read
attributes only, change the feature to "ReadOnly.”
In order to read and write attributes change the feature to "ReadWrite.”
(Options : ReadOnly/ ReadWrite)
SNMP V1/V2 Attributes can read and write by SNMP Agent.
In order to read attributes only change the feature to "ReadOnly.”
In order to read and write attributes change the feature to "ReadWrite.”
(Options : ReadOnly/ ReadWrite)
SNMP V3 Attributes can read and write by SNMP Agent.
In order to read attributes only change the feature to "ReadOnly.”
In order to read and write attributes change the feature to "ReadWrite.”
(Options : ReadOnly/ ReadWrite)
def snmp
[Enable / Disable]
Disable
def v1readwrite
[enable, disable]
Disable
def v3readwrite
[enable, disable]
Disable
def v3username
[string]
eddy
Configure the Username when use SNMP V3.
def v3password
[string]
none
Configure the password when use SNMP V3.
def trapip
[address]
0.0.0.0
Configure the server IP address which receives the TRAP information.
def trapoprt
[Socket No.]
162
Configure the server Port which receives the TRAP information.
def trap_reset
[enable, disable]
Enable
If Enable is selected, inform the "System reset info".
Eddy User's Guide
6.4
def trap_connect
[enable, disable]
Disable
If Enable is selected, inform the "Serial Port opened info".
def trap_disconnect
[enable, disable]
Disable
If Enable is selected, inform the "Serial Port Closed info".
def landhcp
[enable, disable]
Enable
If Enable is selected, DHCP server service will be enabled on the LAN port.
def lanip 
10.10.1.1
Set the IP address on the LAN port.
def lanmask

255.255.255.0
Set the subnet mask address on the LAN port.
def lanstart 
10.10.1.2
Set the start address for the DHCP range on the LAN port.
def lanend 
10.10.1.30
Set the end address for the DHCP range on the LAN port.
def leasetime 
180
Set lease time for DHCP.
WiFi commands
Bellow are instruction and function which enable WiFi Network.
명령어
def wifi wireless

None
Configure wireless network name (SSID) you want connect.
def wifi channel

def wifi rts
(1 ~ 2347)
59
디폴 트
Eddy User's Guide
def wifi fragment
<256 ~ 2346>
def wifi roamming
[Enable/ Disable]
def wiri authentication
[open, shared, wpa-psk,
wpa2-psk, wpa-none]
def wifi encryption
[none, wep, tkip, aes]
def wifi keyindex
[1 ~ 4]
def wifi key
[wep key string]
def wifi password
[wpa password]
def wifi line
[dhcp, static ip]
def wifi ip
[IP address]
def wifi gateway
[router Address]
def wifi mask
[Mask Address]
def wifi dns
[DNS Address]
6.5
2346
Configure Maximum packet when sending with small pieces of packet.
Disable
Configure whether to use roaming function of wireless network.
WPA2-PSK
Select certification way when testing access point.
TKIP
Configure the way of encryption
Select the index when Encryption is WEB
None
Register key to use when Encryption is WEB.
None
Register password to use when Encryption is TKIP.
DHCP
Select acquiring way of IP in wireless network
192.168.1.72
Register IP address when acquiring way of IP is Static IP.
192.168.1.1
Register GW address when acquiring way of IP is Static IP.
255.255.255.0
Register Mask address when acquiring way of IP is Static IP.
168.126.63.1
Register DNS server address.
Serial Commands
You can set the communication and operation environment for the serial port. Chapter 5 describes each option in detail. Only a summary of each option is
presented here.
60
Commands
Default
Descriptions
def port 1 protocol
[disable / com/
tcp_server/tcp_client/
tcp_broadcast /
tcp_multiplex/
udp_server/udp_client]
com
Select the operation protocol, which the serial port would use.
def port 1 socket

4001
def port 1 name 
Port 1
Set the socket number for the port. TCP Server, TCP Broadcase, TCP Multiplex, and
UDP server operation modes make use of this port for awaiting network socket
connections.
Port alias name for convenience. 16 Characters at maximum
Eddy User's Guide
Commands
Default
Descriptions
def port 1 speed
[150/300/600/1200/2400/4800/9600/1
9200/38400/57600/
115200/230400/460800
/921600]
9600bps
Set communication speed.
def port 1 data
[5 / 6 / 7 / 8]
Set the number of bits in each character size.
Def po 1 interface
[rs422, rs485e, rs485ne]
RS422
Configure interface of serial 3,4 port on Eddy-S4M
(In Eddy-DK, this can be selected by Dip Switch on Eddy-DK board so that this
category cannot be selected. )
def port 1 stop [1 / 2]
Set the number of stop bits.
def port 1 parity
[none/odd/even]
none
Set parity bit check scheme.
none
Set the flow control scheme.
def port 1 flow
[none/xon/rts]
def port 1 signal
[data/modem]
def port 1 remote

0.0.0.0
Set the signal line checking method for the device to be connected to the given
serial port.
When the Operation Mode is set to TCP Client or UDP Client, set the IP address to
connect to.
def port 1 remoteport

4000
def port 1 keepalive
<0 ~ 65535>
def port 1 latency

180
This needs to be set when consecutive data from the given serial port needs to
be transmitted to socket at once.
def port 1 login
[Enable / Disable]
Disable
When the Operation Mode is set to TCP Server, ask for the username and
password when the client tries to connect. Set to 1 to enable.
def port 1 loginname

def port 1 loginpass

6.6
data
None
None
When the Operation Mode is set to TCP Client or UDP Client, set the socket number
to connect to.
After a certain amount of time passes without any communication after the socket
connection between the given serial port and the server is established,
automatically disconnect the socket connection.
When the Operation Mode is set to TCP Server, set the username to ask for(Max
8 bytes)
When the Operation Mode is set as TCP Server, set the password to ask for( Max
8 bytes)
Username/Password Commands
Configure username and password for Web/Telnet/FTP.
61
Commands
Default
Descriptions
def username

eddy
Set username to use in Web, Telnet, or FTP.
16 Characters at maximum.
def password

99999999
Set password to use in Web, Telnet, or FTP.
16 Characters at maximum.
Eddy User's Guide
6.7
62
System Commands
Commands
Descriptions
def default
Restore all settings to factory default. Requires reboot for changes to take effect.
def save
Save current configuration settings. Requires reboot for changes to take effect.
reboot
Reboot Eddy.
Eddy User's Guide
Chapter 7. apendix
7.1
Firmware Updates via FTP
Eddy supports firmware update with Web or FTP. This section describes update method via FTP and Telnet. Web update is described in Chapter 5. Configuration
via Web.
1)
2)
3)
4)
Connect to Eddy with FTP, using correct username and password. (Default: eddy, 99999999)
Issue a command ‘bin’ for binary file transfer mode. Optionally use ‘hash’ to see the data transfer mark.
Issue ‘put’ command upload the firmware file.
After getting a ‘Transfer complete’ message, issue a command ‘quit’ or ‘bye’ to disconnect. Now we are ready to update the
firmware.
Firmware updates via FTP
5)
6)
7)
8)
9)
10)
63
Connect to Eddy with Telnet, using correct username and password. (Default: eddy, 99999999)
After the login, you are already at the default directory where the firmware resides. Update can start right away.
Issue a command ‘ls’ to make sure firmware files are both successfully uploaded.
Use ‘upgrade’ command to write this file into Eddy’s Flash memory. Upgrade application automatically detects whether the given
firmware is kernel or file system.
Usage: upgrade  (Filename is case-sensitive.)
Make sure ‘Flash Write OK’ and ‘Flash Verify OK’ messages are displayed.
Eddy User's Guide
11)
7.2
Enter ‘reboot’ to restart Eddy. Now Eddy will run with the new firmware.
Ordering Information
Product
7.3
Version
Descriptions
Eddy-CPU
2.1
Embedded CPU Module
Eddy-DK
2.1
Eddy V2.1 Development Kit
Eddy-S4M
2.1
Embedded CPU Module (Mini PCI Type)
Eddy-S4M-DK
2.1
Eddy-S4M v2.1 Development Kit
Eddy-S4M-JIG
2.1
Eddy-S4M v2.1 JIG Board
Eddy-WiFi
2.1
802.11 b/g WiFi Module
Eddy-BT
2.1
Bluetooth Module
FCC Statement
THIS DEVICE COMPLIES WITH PART 15 OF THE FCC FULES. OPERATION IS SUBJECT TO
THE FOLLOWING TWO CONDITIONS:
1) THIS DEVICE MAY NOT CAUSE HARMFUL INTERFERENCE.
2) THIS DEVICE MUST ACCEPT ANY INTERFERENCE RECEIVED.
3) INCLUDING INTERFERENCE THAT MAY CAUSE UNDESIRED OPERATION.
FCC RF
INTERFERENCE STATEMENT
64
Eddy User's Guide
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.
65
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