Samsung Printer Network Printer User Guide

 
This guide is provided for information purposes only. All information included herein is subject to change without notice. Samsung  
Electronics is not responsible for any damages, direct or indirect, arising from or related to use of this manual.  
© 2005 Samsung Electronics Co., Ltd. All rights reserved.  
TM  
• Samsung logo and SyncThru  
are trademarks of Samsung Electronics Co., Ltd.  
• Microsoft, Windows, Windows 98, Windows NT, Windows Me, Windows 2000, Windows XP, and Windows 2003 are registered trademarks  
of Microsoft Corporation.  
• Macintosh, AppleTalk, and EtherTalk are registered trademarks of Apple Computer, Inc.  
• Novell and Novell NetWare are registered trademark of Novell, Inc.  
• All other brand or product names are trademarks of their respective companies or organizations.  
1
 
CONTENTS  
2
 
Wireless devices that may be in your system are only qualified  
for use in the European Union or associated areas if a CE mark  
United States of America  
with  
a Notified Body Registration Number and the Alert  
Federal Communications Commission (FCC)  
Symbol is on the system label.  
Intentional emitter per FCC Part 15  
The power output of the wireless device or devices that may be  
embedded in you printer is well below the RF exposure limits as  
set by the European Commission through the R&TTE directive.  
Low power, Radio LAN type devices (radio frequency (RF)  
wireless communication devices), operating in the 2.4 GHz/5  
GHz Band, may be present (embedded) in your printer system.  
This section is only applicable if these devices are present.  
Refer to the system label to verify the presence of wireless  
devices.  
European States qualified under wireless approvals:  
EU  
Austria, Belgium, Denmark, Finland, France  
(with frequency restrictions), Germany,  
Greece, Ireland, Italy, Luxembourg, The  
Netherlands, Portugal, Spain, Sweden and the  
United  
Wireless devices that may be in your system are only qualified  
for use in the United States of America if an FCC ID number is  
on the system label.  
Accept EU  
Iceland, Liechtenstein, Norway and Switzerland  
The FCC has set a general guideline of 20 cm (8 inches)  
separation between the device and the body, for use of a  
wireless device near the body (this does not include  
extremities). This device should be used more than 20 cm (8  
inches) from the body when wireless devices are on. The power  
output of the wireless device (or devices), which may be  
embedded in your printer, is well below the RF exposure limits  
as set by the FCC.  
European States with restrictions on use:  
EU  
In France, the frequency range is restricted to  
2446.5-2483.5 MHz for devices above 10 mW  
transmitting power such as wireless  
Accept EU  
No limitations at this time.  
This transmitter must not be collocated or operation in  
conjunction with any other antenna or transmitter.  
Regulatory Compliance Statements  
Wireless Guidance  
Operation of this device 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 of  
the device.  
Low power, Radio LAN type devices (radio frequency (RF)  
wireless communication devices), operating in the 2.4 GHz/5  
GHz Band, may be present (embedded) in your printer system.  
The following section is a general overview of considerations  
while operating a wireless device.  
Wireless devices are not user serviceable. Do not  
modify them in any way. Modification to a  
wireless device will void the authorization to use  
it. Contact manufacturer for service.  
Additional limitations, cautions, and concerns for specific  
countries are listed in the specific country sections (or country  
group sections). The wireless devices in your system are only  
qualified for use in the countries identified by the Radio  
Approval Marks on the system rating label. If the country you  
will be using the wireless device in, is not listed, please contact  
your local Radio Approval agency for requirements. Wireless  
devices are closely regulated and use may not be allowed.  
FCC Statement for Wireless LAN use:  
“While installing and operating this transmitter  
and antenna combination the radio frequency  
exposure limit of 1mW/cm2 may be exceeded at  
distances close to the antenna installed.  
Therefore, the user must maintain a minimum  
distance of 20cm from the antenna at all times.  
This device can not be collocated with another  
transmitter and transmitting antenna.”  
The power output of the wireless device or devices that may be  
embedded in your printer is well below the RF exposure limits  
as known at this time. Because the wireless devices (which may  
be embedded into your printer) emit less energy than is allowed  
in radio frequency safety standards and recommendations,  
manufacturer believes these devices are safe for use.  
Regardless of the power levels, care should be taken to  
minimize human contact during normal operation.  
European Radio Approval  
Information  
As a general guideline, a separation of 20 cm (8 inches)  
between the wireless device and the body, for use of a wireless  
device near the body (this does not include extremities) is  
typical. This device should be used more than 20 cm (8 inches)  
from the body when wireless devices are on and transmitting.  
(for products fitted with EU-approved radio devices)  
This Product is a printer; low power, Radio LAN type devices  
(radio frequency (RF) wireless communication devices),  
operating in the 2.4 GHz/5 GHz band, may be present  
(embedded) in your printer system which is intended for home  
or office use. This section is only applicable if these devices are  
present. Refer to the system label to verify the presence of  
wireless devices.  
This transmitter must not be collocated or operation in  
conjunction with any other antenna or transmitter.  
4
 
Some circumstances require restrictions n wireless devices.  
Examples of common restrictions are listed below:  
Radio frequency wireless communication can  
interfere with equipment on commercial aircraft.  
Current aviation regulations require wireless  
devices to be turned off while traveling in an  
airplane. IEEE 802.11 (also known as wireless  
Ethernet) and Bluetooth communication devices  
are examples of devices that provide wireless  
communication.  
In environments where the risk of interference to  
other devices or services is harmful or perceived  
as harmful, the option to use a wireless device  
may be restricted or eliminated. Airports,  
Hospitals, and Oxygen or flammable gas laden  
atmospheres are limited examples where use of  
wireless devices may be restricted or eliminated.  
When in environments where you are uncertain  
of the sanction to use wireless devices, ask the  
applicable authority for authorization prior to use  
or turning on the wireless device.  
Every country has different restrictions on the  
use of wireless devices. Since your system is  
equipped with a wireless device, when traveling  
between countries with your system, check with  
the local Radio Approval authorities prior to any  
move or trip for any restrictions on the use of a  
wireless device in the destination country.  
If your system came equipped with an internal  
embedded wireless device, do not operate the  
wireless device unless all covers and shields are  
in place and the system is fully assembled.  
Wireless devices are not user serviceable. Do not  
modify them in any way. Modification to a  
wireless device will void the authorization to use  
it. Please contact manufacturer for service.  
Only use drivers approved for the country in  
which the device will be used. See the  
manufacturer System Restoration Kit, or contact  
manufacturer Technical Support for additional  
information.  
5
 
Operating  
system  
Network  
environment  
Printing  
protocol  
Action  
1
Getting started  
Unix  
AT&T system V  
(Rel 4.2),  
TCP/IP, LPD  
(LPR)  
BSD4.3, HP-UX  
(Rel 9.x & Rel  
10.x), SCO 5.x,  
SUNOS 5.5,  
Sparc or Solaris  
2.5.  
Introduction  
The Samsung Network Printer Card allows you to connect your  
printer directly to a network physically or wirelessly to share  
the printer among multiple users. Once the card has been  
installed, the printer is ready to function as a network print  
server supporting various network environments, such as  
Windows 98/Me/NT/2000/XP/2003, Novell NetWare, UNIX,  
Linux, and Macintosh 8.6 or higher.  
Novell  
NetWare  
NetWare  
versions 3.x,  
4.x, 5.x, 6.x  
IPX/SPX  
Macintosh  
Macintosh 8.6 ~  
9.2, 10.1 ~  
10.3, or higher  
TCP/IP,  
EtherTalk,  
Bonjour  
This guide explains how to install the Samsung Network Printer  
Card and set up your printer as a print sever over the network.  
This guide assumes that you have:  
NOTE: Your printer may not support all of the listed computing  
environments (operating systems). Therefore, check the  
network environment your printer supports in the user's guide  
that came with the printer.  
• A good working knowledge of your network utilities  
• A supported network operating system  
• A fully operational computer system  
• Access to the supervisor account as a network administrator,  
or access to an account that has supervisor and print server  
operator privileges  
Samsung Network Printer Card  
Your printer may or may not have built-in network capabilities,  
depending on the model. If not, a networking package must be  
purchased and installed to enable network printing. The printer  
card shape and content may vary, depending on the package  
purchased.  
Supported network  
environments  
Administrators and users can configure, and use printers on the  
following supported network operating systems:  
Package contents  
Operating  
system  
Network  
environment  
Printing  
protocol  
When unpacking your network printer card, you should find the  
following items. Depending on your particular card type (wired  
or wired/wireless), some items may be different.  
Action  
Windows  
Linux  
98, NT, ME,  
2000, XP, 2003  
TCP/IP, LPD  
(LPR), IPP,  
IPX/SPX,  
Bonjour  
• Wired Network Printer Card  
Red Hat 8.0 ~  
9.0, Fedora Core  
1 ~ 3, Mandrake  
9.0 ~ 10.2,  
TCP/IP, LPD  
(LPR)  
SuSE 8.2 ~ 9.2  
• Wired / Wireless Network Printer Card  
1.1  
Getting started  
 
               
System requirements  
The following hardware is required to configure a Samsung  
printer for network applications.  
Computer  
Requirements  
• 80486 CPU or higher  
IBM -  
compatible PC • Minimum of 16 MB of RAM  
• 2 MB of free disk space  
Macintosh  
• PowerPC 68020 or higher  
• Minimum of 8 MB of RAM  
• 2 MB of free disk space  
Installing your Network Printer Card  
Before installing the Samsung Network Printer Card, you must  
have administrator or root privileges on the local system.  
1
2
Install the network printer card in the printer. For details,  
refer to your printer user’s guide.  
Use a twisted pair cable with an RJ-45 connector to  
connect the printer to your network.  
Once a connection is established between the network  
printer card and your network, the LEDs on the card light  
green.  
Blinks when data  
packets are being  
transferred.  
Lights when the  
printer card is  
connected to the  
network.  
3
Set up your printer's IP address. See “IP address setup” on  
1.2  
Getting started  
 
     
Uninstalling software  
2
Programs supplied on  
the Network Utilities CD  
The CD-ROM supplied with your printer card provides you with:  
You should remove the Network utilities if you are upgrading  
the software or if the installation fails.  
NOTE: Close all programs before uninstalling software.  
1
Click Start  
Æ
Programs  
Æ
Samsung Network Utilities  
Uninstall  
Æ
SetIP or SyncThru Web Admin Service  
Æ
SyncThru Web Admin Service: A web-based printer  
management solution for network administrators. It  
provides you with an efficient way of managing network  
printers and lets you remotely monitor and troubleshoot  
network printers from any site with corporate intranet  
access.  
SetIP or Uninstall SyncThru Web Admin Service  
.
2
3
Click OK to confirm uninstallation.  
Click Finish when uninstallation is done.  
SetIP: A utility program allowing you to select a network  
printer card and manually configure the addresses for use  
with the TCP/IP protocol.  
Viewing the SyncThru Web Admin  
Service User’s Guide  
The user’s guide for SyncThru Web Admin Service in HTML  
format is installed on the Windows Start menu automatically  
with the program. It provides you with quick and easy access  
to the topic you want. Refer to the user’s guide any time you  
need help while using the program.  
System requirements  
To install SyncThru Web Admin Service and SetIP, the following  
are required:  
• Operating system: Windows 2000/XP/2003  
To open the SyncThru Web Admin Service User’s Guide, click  
Start  
Æ
Programs  
Æ
Samsung Network Printer Utilities  
• Computer/Processor: 133 MHz or faster Pentium-compatible  
processor  
Æ
SyncThru Web Admin Service  
Æ
User’s Guide  
.
• Memory: 256 MB (recommended)  
• Hard Disk space: 2 GB hard disk with 1.5 GB available hard-  
disk space  
• Internet Explorer 5.5 or later, or Mozilla 1.0  
Installing software  
1
Insert the supplied CD-ROM into your CD-ROM drive.  
The CD-ROM will automatically run. If it does not, click  
Start  
Æ
Run, enter x:/cdsetup.exe  
(x  
represents your  
CD-ROM drive), and click OK  
.
2
3
Select the language you want.  
Click Install SyncThru Web Admin Service or Install  
SetIP  
.
4
5
Follow the onscreen instructions to complete installation.  
Click Finish when installation is done.  
2.1  
Programs supplied on the Network Utilities CD  
 
                     
Using SetIP  
IP address setup  
1
From the Windows Start menu, select Programs  
Samsung Network Printer Utilities SetIP  
Æ
Æ
Æ
SetIP  
.
Before using your network print server in your network, you  
must set TCP/IP addresses for the print server. You will need  
your printer card’s MAC address, IP address, subnet mask, and  
gateway address. First, check with your network administrator  
for the TCP/IP addresses.  
The program automatically detects and displays new and  
configured print servers on your network.  
NOTE: The MAC address is the hardware serial number of the  
network printer card. You can check the address by printing  
the Network Printer Configuration Page. For printing the page,  
refer to your printer user’s guide.  
You can set your print server’s IP address via the following  
methods:  
• Printer control panel: If your printer has a control panel and  
the network configuration menu, you can set the IP address  
directly from the printer. Refer to your printer user’s guide.  
• SetIP program: Go to the Using SetIP  
.
2
3
Select the name of your printer and click  
cannot find your printer name, click  
Even with this step, if you cannot find your printer name,  
then contact Network Administrator.  
. If you  
to refresh the list.  
• SyncThru Web Admin Service: Go to the Using SyncThru  
.
• SyncThru Web Service: Once you have set an IP address for  
your network print server, you can use the embedded web  
server in the network printer card to change the address. Go  
to page 2.3.  
Enter your network printer card’s MAC address (hardware  
address), IP address, subnet mask, default gateway, and  
then click Apply  
.
• DHCP: You can use Dynamic Host Configuration Protocol  
(DHCP) to get an IP address automatically assigned by your  
network administrator, if your network system supports this  
protocol.  
4
5
Click OK to confirm the settings.  
Click Exit to close the SetIP program.  
Using SyncThru Web Admin Service  
1
• BOOTP: A network-based server using the BootStrap  
protocol (BOOTP) can notify the network printer card of its  
assigned IP address each time the printer turns on, if your  
network system supports this protocol.  
From the Windows Start menu, select Programs  
Samsung Network Printer Utilities SyncThru Web  
Admin Service SyncThru Web Admin Service  
Æ
Æ
Æ
.
NOTE: To get an IP address from the DHCP or BOOTP server,  
the IP assignment method must be set to DHCP or BOOTP.  
The homepage of SyncThru Web Admin Service opens in  
your default web browser.  
2
If necessary, change the display language.  
2.2  
Programs supplied on the Network Utilities CD  
 
                 
3
Click Devices  
Æ
Add device  
.
5
Enter your print server’s TCP/IP addresses and click  
Apply  
.
If you click Devices, SWAS would search out the printer  
connected to network. Thus you need to wait for a while.  
4
Enter the IP address or DNS name of the network printer  
card and click OK  
.
Your network print server is added to the device list.  
NOTE: You can set SyncThru Web Admin Service to  
automatically detect print servers on the network. From the  
Devices page, click Discover settings and set the discovery  
method and schedule. For details, see the SyncThru Web  
Admin Service User’s Guide.  
Using SyncThru Web Service  
1
2
Run your web browser.  
Enter your print server’s IP address in the URL field and  
click Go  
Click Network Settings  
Select Static from IP Address Assignment Method  
.
3
4
Æ
TCP/IP  
.
.
2.3  
Programs supplied on the Network Utilities CD  
 
   
HTTP  
3
TCP/IP environment  
A TCP/IP network provides you with various protocols for using  
printing devices and managing various types of networked  
devices.  
Hypertext Transfer Protocol (HTTP) is an application layer  
protocol for distributed, collaborative, hypermedia information  
systems. It is a generic, stateless protocol which can be used  
for many tasks beyond its use for hypertext, such as with name  
servers and distributed object management systems. You are  
using HTTP when you connect your network printer via a web  
browser.  
In this chapter, you will learn which management protocols are  
available in TCP/IP network environments, and how to print via  
your network print server using TCP/IP protocol.  
The Samsung Network Printer Card has a built-in web server,  
SyncThru Web Service. You can configure and manage your  
network print server through SyncThru Web Service using HTTP  
over TCP/IP.  
Management protocols  
SNMP  
Before beginning to print documents via your network printer,  
you need to check or configure some parameters using  
management protocols.  
Simple Network Management Protocol (SNMP), which is part of  
the TCP/IP protocol suite, is an application layer protocol that  
facilitates the exchange of management information between  
network devices. It enables network administrators to remotely  
monitor and configure network devices, find and solve network  
problems, and plan for network growth.  
DHCP/BOOTP  
Dynamic Host Configuration Protocol (DHCP) is a  
Network devices are monitored and controlled using four basic  
SNMP commands:  
communication protocol enabling network administrators to  
centrally manage and to automate the assignment of IP  
addresses in a network. In an IP network, each device needs a  
unique IP address. DHCP lets a network administrator  
supervise and distribute IP addresses from a central point and  
automatically sends a new IP address when a device is plugged  
into a different place in the network.  
read: is used by a Network Management server to monitor  
network devices. The server examines different variables  
that are maintained by the devices.  
write: is used by a Network Management server to control  
managed devices. The server changes the values of  
variables stored within the devices.  
Bootstrap Protocol (BOOTP) is UDP/IP-based protocol which  
allows a booting host to configure itself dynamically and  
without user supervision. BOOTP provides means to notify a  
host of its assigned IP address, the IP address of a boot server  
host, and other configuration information, such as the local  
subnet mask, the local time offset, and the addresses of default  
routers. Addresses of various Internet servers can also be  
transferred to a host using BOOTP.  
trap: is used by network devices to asynchronously report  
events to a Network Management server. When certain types  
of events occur, a device sends a trap to the specified server.  
Traversal operations: are used by a Network Management  
server to determine which variables a network device  
supports and to sequentially gather information in variable  
tables, such as a routing table.  
DHCP is active by factory default on your network print server.  
After boot up, the network print server will get an IP address  
automatically from the DHCP server, if one exists. To set an IP  
address manually, see page 2.2.  
Configuring SNMP  
To access your network print server using SNMP, Community  
Name/Access Permission pair must be properly specified. There  
are two access permission: read and write.  
Configuring DHCP/BOOTP  
To enable or disable DHCP/BOOTP, use one of the following  
methods:  
Assign the IP addresses of trap hosts and community names (IP  
addresses) of network devices in SyncThru Web Service; select  
Network Settings  
Æ
SNMP  
.
Printer’s control panel: Refer to Network Menu settings in  
your printer user’s guide.  
Using SNMP  
SyncThru Web Service: Select Network Settings  
Æ
SyncThru Web Service accesses, configures, and manages  
network devices using SNMP. You can use other MIB  
(Management Information Base) browser software, which  
allows you to access management information gathered from  
network devices.  
TCP/IP and select DHCP or BOOTP from the IP Address  
Assignment Method list.  
3.1  
TCP/IP environment  
 
                   
SLP  
Dynamic DNS (DDNS)  
Service Location Protocol (SLP) is an Internet standard network  
protocol that provides a framework to allow networking  
applications to discover the existence, location, and  
configuration of networked services in enterprise networks,  
such as printers, Web servers, fax machines, video cameras,  
file systems, backup devices (tape drives), databases,  
directories, mail servers, and calendars.  
DNS (Domain Name System) is used for registration of domain  
names and provides Host names to an IP address resolution  
service. For printer devices, DNS may be utilised for printer  
domain name registration, so that print server clients may refer  
to the printer by its host name rather than by its IP address.  
Even though a printer’s IP address is changed, all clients can  
operate this printer without reconfiguration. Addressing to a  
printer device by IP address is not convenient and may often go  
stale if an IP address to a device is assigned dynamically via a  
DHCP server. If the DHCP server can provide information about  
a printer’s changing IP address to the DNS server  
In order to locate services on the network, users of network  
applications are required to supply the host name or network  
address of the device that supplies a desired service. However,  
SLP eliminates the need for a user to know the name of a  
network host supporting a service. Rather, the user only needs  
to supply the desired type of service and set of attributes or  
keywords, which describe the service.  
automatically, user convenience is increased. The printer’s  
name will be used as its DNS name.  
Configuring DDNS  
Based on that description, SLP also resolves the network  
address of the service of the user. Administrators do not need  
to help clients find new services or to remove services when  
they are no longer available. SLP uses multicasting and can  
work over subnet boundaries.  
1
2
Let the DHCP server provide updated information to the  
DNS server.  
Configure the same DDNS domain through SyncThru Web  
Service as entered in the DNS server.  
Configuring SLP  
If you connect your network printer via a web browser, you  
can enable this by selecting Network Setting  
Æ
TCP/IP  
You can configure SLP protocol settings through SyncThru Web  
Æ
Dynamic DNS Registration  
.
Service. Select Network Settings  
Æ
SLP  
.
3
Set the IP assignment method of your network print server  
to DHCP and reboot the printer.  
SLP Protocol: You can enable or disable SLP.  
Port Number: The port number is fixed to 427.  
The DNS server will update its database and users can use  
the printer’s name instead of its IP address.  
Scope 1 ~ 3: A scope is a set of services and a string used  
to group resources by location, network, or administrative  
category. Each scope should not be more than 32  
characters.  
WINS  
Message Type: You can select the outgoing SLP message  
type sent to network devices. The default value is  
Before Dynamic DNS was defined, DNS could only be updated  
manually when DHCP servers automatically provided (or  
removed) IP addresses. As a result, DNS servers often  
contained obsolete listings. In response, Microsoft developed  
Windows Internet Name Service (WINS) to solve this problem  
for NetBIOS names.  
Multicast  
.
Multi Cast Radius: You can specify the maximum number  
of subnets that SLP multicasts can travel across. This value  
is also called the “hop count” or “time-to-live” (TTL). The  
default value is 255.  
Microsoft now recommends moving to Dynamic DNS and away  
from WINS. However, many customers including Microsoft  
maintain WINS systems and need devices to interoperate with  
WINS. So devices must, at least for now, support WINS  
interoperability to allow for dynamic NetBIOS name to IP  
address registration and resolution.  
Registration Lifetime: You can define the time in seconds  
before the Server Agents registration expires.  
Multicast Address: The Multicast Address value is fixed to  
239.255.255.253, 224.0.1.127.  
WINS provides a distributed database for registering and  
querying dynamic NetBIOS names to IP address mapping in a  
routed network environment. This is the best choice for  
NetBIOS name resolution in such a routed network because it  
is designed to solve the problems that occur with name  
resolution in complex Internet networks.  
Using SLP  
Once SLP enabled is checked, the network print server works  
as a Service Agent and the User Agent, for example, SyncThru  
Admin Service, searches for the network print server by SLP  
Protocol.  
3.2  
TCP/IP environment  
 
           
means a device can dynamically join a network, obtain an IP  
address, convey its capabilities, and learn about the presence  
and capabilities of other devices. DHCP and DNS servers are  
optional and are used only if available on the network, while a  
device can leave a network smoothly and automatically without  
leaving any unwanted state issues behind.  
Configuring WINS  
Access SyncThru Web Service and select Network Settings  
TCP/IP. You will configure two WINS server addresses, the  
Primary WINS Server or the Secondary WINS Server. The  
default value is 0.0.0.0.  
Æ
UPnP supports 6 protocol stacks for addressing, discovery,  
description, control, eventing, and presentation, but the  
Samsung Network Printer Card supports only Simple Service  
Discovery Protocol (SSDP) which allows addressing,  
description, and discovery.  
In a DHCP server  
A DHCP server can support the NBNS (NetBIOS Name Server)  
option. An administrator has to set the WINS server IP address  
in the NBNS option.  
1
2
Set the IP assignment method of your network print server  
to DHCP  
Configuring UPnP  
.
• Control panel: Refer to the Network Menu setting in your  
printer user’s guide.  
Reboot the print server.  
The WINS server will update the printer's NetBIOS name  
in its database. Users can use the printer name instead of  
its IP address.  
• SyncThru Web Service: Select Network Settings  
Æ
UPnP  
.
-
Auto IP Enabled: You can enable or disable Auto IP. When  
this option is selected, the network print server cannot find  
the control point and receive an IP address from the  
control point. The network print server will create an IP  
address of “169.254.XXX.XXX.”  
In the network print server  
1
2
Configure the WINS server address through SyncThru Web  
Service or SyncThru Web Admin Service.  
-
-
-
Multicast DNS Enabled: SSDP can use Multicast DNS.  
SSDP Enabled: You can enable or disable SSDP.  
Reboot the print server.  
SSDP TTL: You can specify the maximum number of  
subnets that SSPD multicasts can travel across.  
The WINS server will update the printer's NetBIOS name  
in its database. Users can use the printer name instead of  
its IP address.  
Using UPnP  
If SSDP (Simple Service Discovery Protocol) is enabled, your  
network print server is checked by a control point. This control  
point is an application which supports finding UPnP devices.  
Information on searching and control functions or your network  
print server’s device information is displayed in an XML page  
Bonjour  
Bonjour allows for a network system to be easily discovered  
and its capabilities to be revealed by any Bonjour-compliant  
client software, such as Print Center Utility built in to Mac OS X.  
For details, see page 5.2.  
UPnP  
UPnP is an architecture for pervasive peer-to-peer network  
connectivity of intelligent appliances, wireless devices, and PCs  
of all form factors. It is designed to bring easy-to-use, flexible,  
standards-based connectivity to ad-hoc or unmanaged  
networks whether in the home, in a small business, public  
spaces, or attached to the Internet.  
UPnP is a distributed, open networking architecture that  
leverages TCP/IP and Web technologies to enable seamless  
proximity networking in addition to control and data transfer  
among networked devices in the home, office, and public  
spaces.  
UPnP is more than just a simple extension of the plug and play  
peripheral model. It is designed to support zero-configuration,  
“invisible” networking, and automatic discovery for a wide  
breadth of device categories from a wide range of vendors. This  
3.3  
TCP/IP environment  
 
     
LPR port  
Printing protocols  
LPD, Line Printer Daemon, is the protocol associated with line-  
printer spooling services. Users can use the printing service  
from LPD running on a Samsung network print server through  
the LPR port. Most operating systems, such as Microsoft  
Windows NT/2000/XP/2003, Linux, and Unix, support LPR port  
printing.  
Before setting the network printing ports, you must install the  
printer driver with the local port (LPT) on the system. Refer to  
your printer user’s guide.  
Standard TCP/IP port  
Configuring an LPR port  
You can print your documents to your Samsung network printer  
by creating a Standard TCP/IP port.  
You can enable or disable the LPR Printing port through  
SyncThru Web Service. Select Network Settings  
Æ
RawTCP/IP, LPR, IPP. You can also change the port number  
Configuring Standard TCP/IP in Windows  
2000/XP/2003  
of LPR/LPD. The default port number is 515.  
In Windows NT  
You can enable or disable the Standard TCP/IP Printing port  
Before adding an LPR printing port, make sure that Microsoft  
TCP/IP printing service is installed on your Windows NT  
computer, or install the software, if necessary.  
through SyncThru Web Service. Select Network Settings  
Raw TCP/IP, LPR, IPP  
Æ
.
You can also change the port number of the Standard TCP/IP  
port. The default port number is 9100.  
Installing the TCP/IP printing service  
Creating a Standard TCP/IP port  
1
Make sure your computer supports Microsoft TCP/IP  
printing service.  
1
2
3
In Windows XP, click Start  
Windows 2000/2003, click Start  
Æ
Printers and Faxes. In  
Settings Printers.  
Æ
Æ
1) From the Windows Start menu, select Settings  
Control Panel  
Æ
.
Click Add a printer or double-click Add Printer, and then  
Next  
2) Double-click Network  
.
.
3) Make sure that TCP/IP protocol is listed in the  
Protocols tab and Microsoft TCP/IP printing is listed in  
the Services tab. If not, go to step 2.  
Click Local printer attached to this computer and then  
Next  
.
Make sure that Automatically detect and install my  
2
Install TCP/IP printing service:  
Plug and Play printer is not selected.  
Click Add and select TCP/IP Protocol  
TCP/IP Printing. Follow the onscreen instructions to  
complete installation.  
Æ
Microsoft  
4
Click Create a new port, select Standard TCP/IP port  
from the Type of port list, and click Next  
.
5
6
Click Next  
.
NOTES  
:
• During the installation process, you may need the Windows  
Installation CD-ROM.  
Enter the IP address or DNS name of your network printer  
and click Next  
.
• You can only install Microsoft TCP/IP Printing if you have  
administrator privileges.  
For the port name, a default name will be entered by  
Windows. You can change it to a more user-friendly name.  
After installing the service, restart your computer.  
7
Follow the instructions on the screen to complete  
installation.  
Adding an LPR port  
Now, you can select your printer from the Print Setup  
dialogue box.  
1
From the Windows Start menu, select Settings  
Printers  
Æ
.
2
3
4
Click Add Printer  
.
Click My Computer and then Next  
.
Click Add Port and select LPR Port from the port type  
list.  
3.4  
TCP/IP environment  
 
         
5
6
Click New Port  
.
6
When the port name displays in the Print to the following  
port list, click OK or Close  
.
Enter the IP address or DNS name of the printer and the  
name of a user-defined print queue.  
IPP port  
7
8
Click OK  
.
Internet Printing Protocol (IPP) allows printing across the  
Internet, meaning that you can send a print job to your printer  
from a remote place if you are an Internet user, no matter what  
operating system you use or where you are.  
Follow the onscreen instructions to complete installation.  
In Windows 2000/XP/2003  
To add an LPR port to Windows 2000/XP/2003, users must  
install a Standard TCP/IP port by default, then change the  
printing protocol in the printer properties. For installing the  
Standard TCP/IP port, see page 3.4.  
Configuring IPP in the print server  
The network administrator must specify information required  
for IPP, such as the URI (Uniform Resource Identifier).  
1
From the Windows Start menu, select Settings  
Printers, or Printers and Faxes  
Æ
1
2
3
Run your web browser and access SyncThru Web Service.  
Click Network Settings Raw TCP/IP LPR IPP  
Configure the IPP parameters:  
.
Æ
,
,
.
2
3
4
Right-click the printer you want and select Properties  
Click Ports  
.
.
Printer Name: Enter the network printer's name to be  
Make sure that the appropriate Standard TCP/IP port is  
selected and click Configure Port  
used with IPP printing.  
.
Printer URI: Enter the URL of the printer using the  
following format: ipp://the IP address of the printer or  
IPP port number.  
5
6
7
Select LPR from the Protocol section.  
Enter the print queue name and click OK  
Click OK to close the properties window.  
.
Printer Information: Enter additional information  
about the printer.  
In Unix  
More Printer Information: Enter more additional  
information about the printer.  
Depending on your particular Unix system, LPD configuration  
may vary. See your system documentation for the correct  
syntax for the system.  
Printer Location: Enter the name of the location  
where the printer is physically located.  
Multiple Operation Timeout: Enter the time to elapse  
before the printer ends a print job. When there is no  
incoming data after the specified number of seconds,  
the printer ends reception.  
Samsung Printer Port  
A Samsung Network Printer port is used to send print jobs from  
network computers running Windows OS that do not support  
the Standard TCP/IP port or LPR port. Adding a Samsung  
Network Printer port  
Time to Keep Jobs in History: Set the length of time  
the IPP printer keeps job information.  
1
From the Windows Start menu, select Settings  
Printers  
Æ
Operator Message: Enter printer information for  
.
printer users.  
Job Count: shows the number of print jobs.  
2
3
4
Right-click the printer you want and select Properties  
Open the Details tab and click Add Port  
.
Driver Installer: shows the URL where you can get the  
driver installer.  
.
Select Samsung Network Printer Port from the Other  
list and click OK  
Manufacturer: shows the URL where you can get  
manufacturer information.  
.
5
Select the print server you want to use and click OK.  
4
Click Apply.  
If you cannot find the print server, click Add New Print  
Server to list, specify information for the print server,  
such as print server name, IP address, IPX address, or  
MAC address, and click OK  
.
3.5  
TCP/IP environment  
 
       
Configuring a Windows client  
After the network administrator has configured the network  
print server, each printer user must install the printer driver and  
set the print port to Samsung IPP 1.1 Port Monitor.  
Additional functions  
The following are additional functions you can use through  
SyncThru Web Service or SyncThru Web Admin Service.  
NOTE: Before following the steps below, each printer user  
should install the printer driver. If the printer driver is not  
already installed on the computer, install the printer driver that  
came with the printer. Select the local port (LPT) when you  
install the driver.  
Printer properties settings  
You can check and modify printer and document properties for  
an installed printer. For properties that are not supported by the  
printer driver, an error message indicating that the property is  
not supported is displayed. These settings are used only for  
printing from this system to the printer. However, these settings  
do not affect the printer properties of the network printer.  
1
From the Windows Start menu, select Settings  
Printers, or select Printers and Faxes  
Æ
.
2
3
Right-click the printer you want and select Properties.  
Firmware upgrade (HTTP)  
In Windows 95/98/Me, click Details  
.
You can upgrade your printer’s firmware using the HTTP  
In Windows NT4.0/2000/XP/2003, click Ports  
.
4
5
Click Add Port.  
NOTE: Before upgrading the firmware, make sure that TCP/IP  
parameters are entered in the print server.  
Select Samsung IPP Port from the Other list and click  
OK  
.
1
2
3
Run your web browser and access SyncThru Web Service.  
Click Maintenance Firmware Upgrade  
6
7
Enter the printer URL and port name and click OK.  
Æ
.
When the port name displays on the print port list, click  
OK  
.
Select a firmware type, Printer Firmware or Network  
Firmware  
Now you can select the network print server from the Print  
Setup dialogue box to send a job.  
.
4
5
Click Browse, and then select the downloaded new  
firmware.  
Setting IPP security  
SyncThru Web Service allows administrators to choose an  
authentication method and to create or modify user accounts.  
Click Upgrade  
.
NOTE: It takes a few minutes to upgrading the firmware.  
After completely upgrade, the printer will be reset.  
1
2
Run your web browser and access SyncThru Web Service.  
Click Network Settings  
Æ
Raw TCP/IP, LPR, IPP  
.
Default setting (HTTP/SNMP)  
Authentication: You can set a user name and  
password encryption method (refer to http digest  
authentication in RFC).  
You can reset all of your network parameter settings to their  
default status.  
User DB: You can set a user name and password for  
IPP printing. You can set up the user database for up to  
10 items.  
NOTE: All default parameters will be applied after the print  
server restarts.  
3
Click Apply.  
IP filtering  
NOTE: A user name should be unique for all slots and should  
not include symbols. The length of the user name and the  
password should each be less than 7 characters.  
This security feature (IP Filtering) provides the ability to  
prevent unauthorised network access to the network print  
server based on IP addresses set by a network administrator  
using SyncThru Web Service.  
1
2
Run your web browser and access SyncThru Web Service.  
Select Network Settings IP filtering  
Æ
.
3.6  
TCP/IP environment  
 
     
3
4
Configure an IP filter.  
IP Filtering: You can enable or disable IP filtering.  
IP Address1 Address10: You can enter filtered IP  
~
addresses. Users having the IP addresses set here are  
able to access the network print server.  
Click Apply  
.
Only system administrators or authorised users can set, via  
SyncThru Web Service, IP addresses that can access the  
device. Up to 10 addresses or ranges of address choices can be  
made and set. Authorised users are able to change the action  
(Apply/ Undo) and to print to the network print server.  
NOTE: Ranges of addresses shouldn't contain “null” or  
“0.0.0.0” values.  
Reset  
1
2
Run your web browser and access SyncThru Web Service.  
Click Network Settings Reset  
Æ
.
You can reboot the network print server, if your network  
settings are not applied correctly or the network card is  
disconnected from your network.  
Ethernet speed  
You can set the communication speed for Ethernet connections.  
1
2
Run your web browser and access SyncThru Web Service.  
Click Network Settings  
Æ
General.  
Speed Rate: Automatic, 10 Mbps(Harf Duplex),  
10 Mbps(Full Duplex), 100 Mbps(Harf Duplex),  
100 Mbps(Full Duplex). select a Ethernet speed from  
the drop-down list.  
3
Click Apply.  
3.7  
TCP/IP environment  
 
4
NetWare environment  
Configuring NetWare  
NetWare Setup allows you to enter the names of the NetWare  
objects that are concerned with network print jobs. The  
NetWare print queues must be assigned to the NetWare print  
servers you have set up for printing to the network printer card.  
When you enable NetWare Setup, you can set up NDS (Novell  
Directory Services), Bindery Services, or both. NDS is used with  
NetWare 4.x/5.x/6.x; Bindery Services are used with NetWare  
3.x or with NetWare 4.x/5.x/6.x in bindery emulation mode.  
Samsung network printer card is compatible with Novell  
NetWare networks in versions 3.x, 4.x, 5.x, and 6.x. You can  
print to the network printer from any NetWare client that is  
attached to the network. This section describes how to continue  
printing with your network printer card in a NetWare  
environment.  
You can set up IPX/SPX in SyncThru Web Service. Select  
Network Settings  
Æ
NetWare  
.
NetWare printing  
Enable/Disable Bindery: Select this option if you have a  
NetWare network connected with the network print server.  
The NetWare architecture for printing is comprised of the  
following:  
Select Frames Types: EtherNet_802.2/EtherNet_802.3/  
EtherNet_II/EtherNet_SNAP. You must select at least one  
frame type.  
Printers  
These are the physical printers, which may be attached either  
to NetWare file servers, NetWare machines dedicated as print  
servers, NetWare workstations, or directly to the network. The  
Samsung network printer falls into the last category.  
IPX/SPX mode configuration: Configure IPX/SPX mode  
for your NetWare system.  
Bindery configuration: You can set up the bindery server.  
-
Bindery Setup: Use this option if you have already  
configured one or more bindery servers (file servers  
running NetWare 3.x, or 4.x, 5.x, or 6.x in bindery  
emulation) with a print server and a print queue for  
network printing. Before entering bindery settings, The  
network print server connected to the network and the  
NetWare file server must be running. If access to the file  
server or print server is restricted, you need to log in to a  
NetWare Client system.  
Print queues  
These queues are found on NetWare file servers where print  
jobs are stored before printing.  
Print servers  
These are programs that transfer print jobs from the print  
queues to the printers. Print servers may operate from various  
points in the NetWare network:  
-
-
Bindery Print Server: Enter the name of the print server  
that you have configured in the NetWare utility PCONSOLE.  
This is the print server that will route print jobs to the  
network print server from NetWare Client on IPX networks.  
• They may be present on the NetWare file server (RPRINTER  
mode). This puts an additional load on the file server.  
• They may be present on the printers themselves (PSERVER  
mode). This relieves the file server of a printing load and  
does not require any dedication of NetWare machines as  
print servers. Printing performance will be improved as the  
printer will have optimised software and hardware to  
accommodate network printing. Also, the print server and  
physical printer are in close proximity and print data need  
not travel over the network from print server to printer.  
File Server: Enter the name of the NetWare server on  
which you have configured a print server and a print queue  
to handle network printing.  
NDS configuration: You can set up the NDS server.  
-
Enable/Disable NDS: If NetWare servers you will use to  
print to the network print server are running NetWare 4.x/  
5.x/6.x in native mode.  
-
NDS Tree: Enter the name of the NDS tree that contains  
the printer, print server, and print queue objects you have  
previously defined on the NetWare server for the network  
print server. Your new NDS tree selection automatically  
overwrites any previous tree selection. If you change the  
NDS tree selection and there are also current Bindery  
settings, you are alerted that they will be deleted. If you  
continue with NDS Setup, you can replace Bindery settings  
afterwards.  
Additionally, printers connected to NetWare workstations may  
be shared with the rest of the network. This is done by running  
RPRINTER on the workstation and configuring the printers as  
Remote Printers. Print servers on the network may then  
interact with the RPRINTER program on the workstation for  
printing. Configuration for NetWare printing involves creation of  
printers, print queues, and print servers, and the associations  
between them on the NetWare file server.  
The file server configuration for printers, print queues, and  
print servers may be achieved using NetWare supplied utilities,  
such as PCONSOLE and NWADMIN.  
-
NDS Print Server: Enter the name of the print server  
object as “name.context.”  
4.1  
NetWare environment  
 
               
5
6
If the server does not provide the printer driver or there is  
no one available on the network, a dialogue box appears  
to allow users to select a printer driver. Select the driver  
NOTE: Use NDS Setup if your network uses NetWare 4.x/5.x/  
6.x in native mode. Use Bindery Setup if your network uses  
NetWare 3.X or uses NetWare 4.x/5.x/6.x in bindery emulation  
mode.  
and click Next  
.
Install the printer driver by following the onscreen  
instructions.  
Printing in NetWare  
To print to your network printer on a NetWare workstation, you  
need to add a print queue.  
NOTE: To use bindery emulation, you must log on to a Bindery  
server as an administrator. In the NDS mode, log on to target  
text of the NDS tree where you have administrator privileges.  
Adding a queue  
1
Open the NWADMIN dialogue box by double clicking on the  
NetWare Client.  
2
3
Right-click CONTEXT, then choose the create menu.  
You will need to create all of the following items:  
• Printer Server: represents a network print server.  
• Printer: represents a network printing device.  
• Printer Queue: represents a network print queue.  
NOTE: The New Object dialogue box lets you choose the class  
of object to create.  
4
5
Double-click each tree print object and select  
Assignments menu  
.
Click Add  
.
The print server object which was created in Step 3 has a  
link assigned to the printer object and the printer object a  
link to the print queue object.  
Adding a printer  
1
Select Add Printer from the Printer and fax menu in the  
control panel.  
2
3
Select Network Printer and click Next.  
Select Novell Directory Service, and then click the  
context tree and an existing printer object name.  
4
Click Next.  
4.2  
NetWare environment  
 
         
Last Error Occurred: shows the last error.  
RTMP: allows you to set the time in seconds after which  
the routing table entry maintained by the RTMP protocol  
times out.  
5
EtherTalk environment  
EtherTalk is AppleTalk used in an Ethernet network. This  
protocol is widely used in Macintosh network environments.  
Microsoft Windows system also supports this protocol. Like  
TCP/IP, EtherTalk also provides packet transmission and routing  
functionality.  
ZIP (current zone): shows the AppleTalk Zone name.  
If there is no configured zone, *(asterisk) should be  
displayed.  
PAP (wait time before transmitting a tickle  
packet): enables you to define the time interval in  
seconds after which the PAP protocol should resend a  
tickle packet to verify the status of the PAP connection  
between the printer and your Macintosh.  
The Samsung network printer card works on EtherTalk  
networks, if the host printer supports PostScript. The  
description in this chapter applies to network printing from a  
Macintosh computer.  
4
Click Apply.  
Configuring the printer  
EtherTalk printing  
Printing in an EtherTalk network is possible with several  
different hardware and software configurations. When you  
issue a command to print a document, the application begins a  
series of EtherTalk calls attempting to establish a connection to  
the printer. The calls first initiate the NBP (Name Binding  
Protocol) name-lookup process to find the currently selected  
printer and its EtherTalk address. Then the Printer Access  
Protocol (PAP) is used to open a connection with the printer.  
Note: The following instructions are for Mac OS 10.3, but  
similar for other versions.  
The following steps must be taken to configure the network  
printer for use on a Macintosh system. If the network printer  
you want to use is not listed in the printer pop-up menu when  
you try to print a document, you should add it to your list of  
available printers.  
Once the connection has been established, the workstation and  
printer interact over a PAP connection. PAP uses lower-level  
protocols, such as ATP and DDP, to provide a data-stream  
service for sending print data to the printer.  
1
2
3
Open System Preferences and click Print & Fax  
.
Click Printing Set Up Printers  
Æ
.
If the printer already appears in the printer list, select the  
In Menu check box to add it to your list of available  
printers. You will see the printer in the Printer pop-up  
menu the next time you print.  
Configuring EtherTalk  
You can configure EtherTalk using the following methods:  
4
5
6
Choose Printers  
Æ
Add Printer  
.
Control Panel  
Choose AppleTalk from the pop-up menu list on the top.  
Refer to the Network Menu setting in your printer user's guide.  
If necessary, choose an AppleTalk zone from the pop-up  
menu that appears directly below it. Any AppleTalk printers  
in the zone you have chosen appear in the Printer List.  
SyncThru Web Service  
1
2
3
Run your web browser.  
7
8
Select the printer in the Printer List.  
Enter the printer's IP address in the URL field and click Go  
.
To use printer-specific features, choose the item  
appropriate for your printer from the Printer Model pop-up  
Select Network Settings  
Æ
EtherTalk  
.
menu, then select your printer in the Model Name list.  
EtherTalk Protocol: allows you to enable or disable  
the EtherTalk protocol.  
9
Click Add.  
Printer Name: allows you to set the printer name for  
EtherTalk protocol. The default name is SEC+MAC  
address. This name is automatically displayed on  
Chooser.  
The printer appears in the Printer List as the default  
printer (in boldface). It also appears in the Printer pop-up  
menu when you print a document.  
Printer Type: shows the printer type.  
5.1  
EtherTalk environment  
 
             
TCP/IP printing  
Bonjour printer  
Apple added TCP/IP printing to all versions including and after  
OS 8.6.  
Usually used in Macintosh networks to search for network  
devices, Bonjour consists of IPv4 Link-Local Addressing,  
Multicast DNS, and DNS Service Discovery. Known as zero  
configuration networking, Bonjour uses industry standard IP  
protocols to allow devices to automatically find each other  
without the need to enter IP addresses or configure DNS  
servers.  
NOTE: Ensure that the Macintosh has version 8.6 or later.  
Earlier versions do not support TCP/IP printing as standard.  
An IP printer is a network printer that uses TCP/IP protocols  
(such as LPD/LPR, IPP, or Socket or Jet Direct) to make itself  
accessible to your computer. If the IP printer you want to use is  
not listed when you want to print, you can add it to your list of  
available printers. To add an IP printer, you need to know its IP  
address or DNS name.  
In order to provide a true zero configuration experience,  
meaning that you do not need to configure network  
parameters, the printer MUST have Bonjour enabled by default.  
It is NOT possible to disable any part of Bonjour.  
After boot up, check the Bonjour printer name of this printer  
network card in Mac OS X.  
1
2
3
Open System Preference  
s
and click Print & Fax.  
Click Printing Set Up Printers  
Æ
.
1
2
3
Open System Preferences and select Print & Fax  
.
If the printer already appears on the Printer List, select the  
In Menu check box to add it to your list of available  
printers. You will see the printer in the Printer pop-up  
menu the next time you print.  
Click Printing Set Up Printers  
Æ
.
If the printer already appears on the Printer List, select the  
In Menu check box to add it to your list of available  
printers. You will see the printer in the Printer pop-up  
menu the next time you print.  
4
5
6
Choose Printers  
Æ
Add Printer  
.
Choose IP Printing from the pop-up menu.  
4
5
Choose Printers  
Æ
Add Printer  
.
Select the appropriate printing protocol from the Printer  
Type pop-up menu.  
Choose Bonjour from the pop-up menu. Any Bonjour-  
enabled printers on your local network or subnetwork  
appear on the Printer List.  
7
8
9
Enter the IP address or DNS name for the printer in the  
Printer Address field.  
6
7
Select your printer from the Printer List.  
If your printer requires it, type the queue name for your  
printer in the Queue Name field.  
To use printer-specific features, choose the item  
appropriate for your printer from the Printer Model pop-up  
menu, then select your printer in the Model Name list.  
To use printer-specific features, choose the item  
appropriate for your printer from the Printer Model pop-up  
menu, then select your printer in the Model Name list.  
8
Click Add.  
The printer appears on the Printer List as the default  
printer (in boldface). It also appears in the Printer pop-up  
menu when you print a document.  
10 Click Add.  
The printer appears on the Printer List as the default  
printer (in boldface). It also appears in the Printer pop-up  
menu when you print a document.  
5.2  
EtherTalk environment  
 
       
Infrastructure mode: In Infrastructure mode, wireless  
devices or workstations communicate with each other  
through an access point (AP). The access point acts like a  
hub, providing connectivity for wireless computers. In  
Infrastructure mode, wireless devices can communicate with  
each other or can communicate with a wired network. On  
Apple networks, Infrastructure mode is called Airport  
Network mode. In this mode, the Samsung print server  
receives print jobs from wireless and wired network  
computers through an access point.  
6
Wireless network  
environment  
Overview  
The Samsung Wireless Network Printer Card supports the  
IEEE 802.11a/b/g standard for wireless LAN (WLAN)  
communications. Properly configuring your network's wireless  
settings on the print server will allow you to send print jobs to  
the print server over the WLAN. When a computer sends a file  
to the print server, a radio signal is transmitted. When the print  
server receives the incoming signal, either directly from the  
computer (Ad Hoc/Computer-to-Computer mode) or from an  
access point (Infrastructure/AirPort Network mode), it prints  
the file.  
NOTE: If you connect a network cable to the Samsung  
Network Printer Card, the print server will not use the wireless  
interface. All packets will be transferred via the wired LAN.  
Basic concept and terms  
This section provides you with information on the basic  
concepts and terms used for wireless networking.  
Access point  
An access point is a device that acts as a wireless  
communication hub so that users of a wireless device can  
connect to a wired network. An access point must be able to  
receive and forward network traffic between wireless and  
cabled network devices. Multiple access points can act as  
repeaters to extend the range of a wireless network. To use  
Infrastructure mode, you need to use an access point.  
Operation mode  
The Samsung Wireless Network Printer Card supports two  
standard wireless operation modes, Ad hoc and Infrastructure.  
Ad hoc (peer-to-peer) mode: Ad hoc mode is also  
referred to as Peer-to-peer mode. In Ad hoc mode, wireless  
devices or workstations communicate directly with each  
other, without using an access point (AP). They can share  
files and printers, but may not be able to access the  
Internet. A print server receives print jobs from wireless  
computers directly. On Apple networks, Ad hoc mode is  
called “computer-to-computer” mode.  
Service Set Identifier (SSID)  
The Service Set ldentifier is the ID used to form a wireless  
network. You can set up to 32 characters in the SSID field. An  
identifier attached to packets sent over the wireless LAN  
functions as a password for joining a particular wireless  
network (BSS). All wireless devices and access points within  
the same BSS must use the same SSID. The SSID is also  
referred to as the network name because it is an identifying  
label for a wireless network.  
Channels  
There are several channels specified in the 802.11a/b/g  
standard for wireless communications. The number of available  
channels authorised for use may be restricted based on your  
location (generally regulatory domain). See Appendix for  
available channels at your location. When shipped from the  
factory, the Samsung Wireless Network Printer Card is  
configured for Ad-hoc mode using the automatic channel  
selection. In most cases, manual configuration of the channel  
is not required. If the print server discovers a wireless network  
that has the same SSID and operation mode when powered up,  
it will automatically adjust the channel to match that network.  
6.1  
Wireless network environment  
 
                 
EAP-MSCHAPv2: EAP-MSCHAPv2 uses the MS-CHAPv2  
authentication protocol to create a strong encryption key  
initially for MMPE (Microsoft Point-to-Point Encryption) and  
to use a different encryption key during communication.  
IEEE 802.11 authentication  
IEEE 802.11 authentication is a process of identifying an  
individual who is attempting to access a wireless LAN or an  
access point. The IEEE 802.11 standard defines two types of  
authentication services:  
EAP-TLS (EAP using Transport Layer Security): EAP-TLS  
uses X.509-compliant digital certificates for both client and  
server authentication.  
Open System: Authentication is not used, and encryption  
may or may not be used, depending on the need for data  
security.  
EAP-TTLS: EAP-TTLS is known as a Tunneled TLS (Transport  
Layer Security) protocol. It is designed to provide  
Shared Key: Authentication is used. A device that has a  
authentication that is every bit as strong as EAP-TLS, but it  
does not require that each user be issued a certificate.  
Instead, only the RADIUS authentication servers are issued  
certificates. User authentication is performed by a password.  
The password credentials are transported in a securely  
encrypted tunnel that is established using the server  
certificate. As a result, the credentials are not vulnerable to  
dictionary attacks. Using TTLS forwarding, any inner  
authentication requests that are found inside the TTLS  
tunnel, such as EAP, PAP, CHAP, or MS-CHAP-V2, can be  
processed by downstream RADIUS servers. In this manner,  
you can perform authentication against any RADIUS  
infrastructure that is already deployed in your organisation.  
proper WEP key can access the network.  
The Samsung Network Printer Card supports both  
authentication methods.  
WEP encryption  
WEP (Wired Equivalent Privacy) is a security protocol  
preventing unauthorised access to your wireless network.  
Wireless LANs, which communicate over radio waves, do not  
have a physical structure that can be protected from  
unauthorised access and therefore are vulnerable to tampering.  
WEP is designed to provide a wireless LAN with a security level  
equal to that found on a wired network. WEP encrypts the data  
portion of each packet exchanged on a wireless network using  
a 64-bit or 128-bit WEP encryption key. Sometimes, 64-bit WEP  
is called 40-bit and 128-bit is called 104-bit. 40-bit and 64-bit  
encryption are really the same thing, as are 104-bit and 128-  
bit encryption, because an additional 24 initialisation vector  
(IV) bits are automatically added to make a total of 64 bits and  
128 bits. To encrypt data, the Samsung Wireless Network  
Printer Card uses four encryption keys. You must select a key  
and enter the key value. The key value must be the same as  
the other wireless devices or that of the access point of your  
wireless network. In 64-bit mode, each key value is 10  
hexadecimal digits (0-9 and A-F) or 5 alphanumeric characters.  
In 128-bit mode, each key value is 26 hexadecimal digits or 13  
alphanumeric characters. Contact your network administrator  
for this configuration.  
PEAP (Protected Extensible Authentication Protocol): PEAP  
uses digital certificates for network server authentication  
and a password for client authentication.  
WPA (Wi-Fi Protected Access)  
WPA, announced by Wi-Fi Alliance, authorises and identifies  
users based on a secret key that changes automatically at  
regular intervals. WPA uses 802.1x or WPA-PSK (WPA mode  
Pre-Shared Key) for authentication. WPA-PSK verifies users via  
a pre-shared key on both a client station and an access point.  
In WPA-PSK authentication, a client may only gain access to the  
network if the client's password matches the access point's  
password. WPA also uses TKIP (Temporal Key Integrity  
Protocol) and AES (Advanced Encryption Standard) for data  
encryption.  
IEEE 802.1x  
Certificates  
IEEE 802.1x uses EAP (Extensible Authentication Protocol) and  
an authentication server, such as RADIUS (Remote  
Authentication Dial In User Server, RFC2138) for client and  
network server authentication. In this authentication process,  
the authentication server verifies the identity of the party  
attempting to connect to the network. The Samsung Wireless  
Network Printer Card supports popular authentication methods  
based on EAP, including:  
Certificates are used to validate the identity of clients and  
network servers and allow encrypted data communications for  
EAP/802.1x authentication. Certificates may be issued and  
signed by a trusted third party, called Certificate Authority  
(CA). In EAP/802.1x authentications, such as EAP-TLS, EAP-  
TTLS, and PEAP, the Samsung network print server may require  
one or both of the following certificates:  
Root Certificate: A certificate from a trusted Certificate  
Authority (CA) is used to validate the identity of a network  
authentication server while EAP authentication methods,  
such as EAP-TLS, EAP-TTLS, and PEAP, are performed. The  
network authentication server's identity will be validated  
when the root certificate information installed on the  
Samsung network print server is identical to the information  
on a certificate received from the network authentication  
server, such as RADIUS. To be installed on the Samsung  
EAP-MD5 (EAP using Message Digest Algorithm 5): EAP-  
MD5 uses a password protected by the MD5 encryption  
algorithm, which is the same challenge handshake protocol  
as PPP-based CHAP. This authentication method provides  
one-way authentication based on a user name and  
password. This implementation is useful only in a small  
private network because it does not support automatic key  
distribution.  
6.2  
Wireless network environment  
 
                       
Network Printer Card, a root certificate must be in the form  
of Base64 Encoded X.509 with a .cer extension and be less  
than 3,072 bytes.  
You can check the current network settings with the Network  
Configuration page. For details, please refer to the printer  
user's guide.  
Client Certificate: A client certificate is used to validate the  
identity of the Samsung Network Printer Card from a  
network authentication server, such as RADIUS, while the  
EAP-TLS authentication method is performed. To be installed  
on the Samsung Network Printer Card, a client certificate  
must be in the form of PKCS #12 / Personal Information  
Exchange with a .pfx extension and be less than 3,072  
bytes.  
• Check for the currently selected operation mode: Ad hoc or  
Infrastructure  
• Check for the SSID. Make sure that the print server SSID  
matches the SSID of the network. The SSID is case-  
sensitive.  
• Check for the Line Quality item on the Network Printer Card  
Test page. If the quality is low or very low, improve the  
quality of network connections by removing obstacles,  
moving the wireless device closer to the printer, or adjusting  
the antenna direction.  
Before configuring the print  
server  
Wireless settings  
The Samsung Wireless Network Printer Card has two LEDs to  
show the network connection status. When you configure the  
wireless settings on your print server, please refer to these  
LEDs to make sure that a network connection is functioning.  
The Samsung network print server provides two solutions to  
configure wireless network settings:  
• SyncThru Web Service: This method is suitable for users who  
can use a wired network. In order to use this method, you  
must connect the Samsung print server to a local network  
using an Ethernet cable.  
Activity LED  
Link LED  
• Printer control panel: This method is suitable for users who  
can use the printer control panel menus. To use this method,  
refer to the printer user's guide.  
Configuration explained in this sections is based on SyncThru  
Web Service. Before configuring wireless network parameters,  
make sure of the following, depending on your situation:  
• The Wireless Printer Network Card and antenna are installed  
in the print server. If they are not, the Wireless menu will  
not be displayed on SyncThru Web Service.  
LED  
Status  
Description  
Power off or system error  
System error  
Activity LED  
Off  
On  
• Connect the Samsung print server to your wired network  
using an Ethernet cable.  
Blinking  
Off  
Normal  
• The print server's IP address is configured as an IP address  
available on your network.  
Link LED  
Not linked to a network  
Linked to a wired LAN  
Linked to a wireless LAN.  
To access SyncThru Web Service:  
Green on  
Red on  
Orange on  
1
2
Run your web browser.  
Enter the print server's IP address in the URL field and  
click Go  
.
Linked to both wired and  
wireless LANs.  
3
Select Network Settings  
Æ
Wireless.  
NOTE: If the operation mode is set to Ad hoc and the Link LED  
lights red, it means that the print server is or can be another  
Ad hoc station.  
6.3  
Wireless network environment  
 
       
Wireless basic settings  
Wireless security settings  
These are the basic parameters required to make wireless  
connections found on the Wireless page of SyncThru Web  
Service. Click Apply after changing parameters.  
This section describes how to configure wireless security for  
your wireless network. The Samsung Network Printer Card  
supports several security features, such as static WEP, IEEE  
802.1x, and WPA, to protect your network from unauthorised  
access, and provides three security modes:  
SSID: SSID (Service Set Identifier) is a name that identifies  
a wireless network. Access points and wireless devices  
attempting to connect to a specific wireless network must  
use the same SSID. The SSID is case-sensitive.  
None: This is used when the validation of a wireless device's  
identity and data encryption are not required for your  
network. Open system is used for IEEE 802.11  
authentication.  
Operation Mode: Operation Mode refers to the type of  
wireless connections. Choose one of the following options:  
Static WEP: This uses the WEP (Wired Equivalent Privacy)  
algorithm suggested by IEEE 802.11 standard for security.  
Static WEP security mode requires a proper WEP key for  
data encryption, decryption, and IEEE 802.11  
authentication.  
-
Ad hoc: allows wireless devices to communicate directly  
with each other in a peer-to-peer environment.  
-
Infrastructure: allows wireless devices to communicate  
with each other through an access point.  
Frequency Mode: Choose a frequency mode. The Samsung  
print server supports 802.11a, 802.11b, and 802.11g  
frequency modes.  
Enhanced Security: This provides more advanced security  
and better key management than Static WEP by using IEEE  
802.1x EAP authentication, WPA-PSK, and dynamic  
encryption, such as dynamic WEP, TKIP, and AES. In  
Enhanced Security mode, there are four authentications,  
depending on WPA authentication and 802.1x  
authentication:  
-
802.11a (5GHz) mode: Data is sent using IEEE802.11a  
standard communications in the 5 GHz band.  
-
802.11b/g (2.4GHz) mode: Data is sent using  
IEEE802.11g standard communications in the 2.4 GHz  
band. This mode is compatible with IEEE802.11b standard.  
-
WPA-PSK authentication: You can select WPA-PSK to  
authenticate the print server based on WPA Pre-Shared  
Key. This uses a shared secret key (generally called Pre-  
Shared Key passphrase) that is manually configured on the  
access point and each of its clients. This is suitable for  
users who want to use WPA but do not have a RADIUS  
server installed on their network.  
-
802.11a, b/g (5GHz, 2.4GHz) mode: Data is sent using  
the frequency range defined in both IEEE802.11a and  
IEEE802.11g standards.  
Ad hoc Channel: Change the channel selection setting. If  
you select Auto Setting, the Samsung print server will  
automatically adjust channels. To manually set a channel,  
select Channel Selection. In most cases, manually setting  
up channels is not required.  
-
-
EAP-TLS authentication: EAP-TLS uses X.509-compliant  
digital certificates for both client and network server  
authentications. Root certificates and client certificates  
must be installed on the print server.  
Connection Status: This section displays information on the  
current wireless connection.  
EAP-TTLS authentication: EAP-TTLS uses an X.509-  
compliant digital certificate for network server  
authentication. This also requires a 802.1x user name,  
user password, and a TTLS identity used by inner  
authentication protocols for client authentication over a  
secure connection.  
-
-
-
-
Link Status: indicates whether or not the WLAN interface  
is connected to other wireless devices.  
Associated Frequency: indicates the associated frequency  
mode, for example, 802.11a.  
BSSID: displays the associated BSSID, for example,  
00:02:78:E3:43:89.  
-
PEAP authentication: PEAP is similar to EAP-TTLS. This  
also uses an X.509-compliant digital certificate for network  
server authentication and requires an 802.1x user name  
and user password used by inner authentication protocols  
for client authentication over a secure connection.  
Link Quality: represents quality of the wireless link  
between the print server and an access point or other  
devices by percentage, for example, 100%  
-
-
Current Tx Rate: is automatically determined by radio  
transmission speed, for example, 54 Mbps.  
Additionally, you may configure the related parameters to use  
a special security mode. The following table summarises the  
security modes and authentication options available on the  
Samsung network print server and describes the features of  
each option:  
Current Channel: represents the associated channel, for  
example, [149] 5745 MHz.  
NOTE: Your wireless basic setting changes will be applied after  
the print server restarts. In order to restart the print server,  
Authentication  
from SyncThru Web Service, select Network Settings  
Æ
Security  
mode  
Encryption method  
employed  
method  
employed  
Reset and click Restart, or turn the print server off and then  
back on.  
None  
Open System  
No encryption  
6.4  
Wireless network environment  
 
                               
WEP Encryption: Choose either 64-bit WEP or 128-bit WEP.  
If your network uses WEP encryption keys, you must  
configure the encryption keys.  
Authentication  
method  
Security  
mode  
Encryption method  
employed  
employed  
Key 1/2/3/4: You need to specify a static WEP encryption  
Static  
WEP  
Open System,  
Shared key, or  
optionally 802.1x  
authentication  
(EAP-MD5 or EAP-  
MSCHAPv2) if  
needed.  
Static WEP encryption  
key if your network uses WEP encryption keys. You can  
configure up to four keys. The active key (called using key)  
must match the value and active key position (for example,  
Key 1) configured on other wireless devices. The appropriate  
key size must be configured according to the WEP key entry  
format and the WEP encryption key type. The following table  
shows how to configure encryption keys using HEX or ASCII  
values.  
Enhanced  
Security  
WPA-PSK  
Using dynamic key  
management  
TKIP, and AES  
Key  
Hexadecimal format  
ASCII format  
64-bit  
WEP  
10 digits (0~9, A~F)  
5 alphanumeric  
characters  
EAP-TLS  
Using dynamic key  
management  
TKIP, AES, 64-bit WEP, and  
128-bit WEP  
128-bit  
WEP  
26 digits (0~9, A~F)  
13 alphanumeric  
characters  
EAP-TTLS  
PEAP  
Using dynamic key  
management  
TKIP, AES, 64-bit WEP, and  
128-bit WEP  
802.1x Authentication: Choose one of the IEEE 802.1x  
authentications: None, EAP-MD5, or EAP-MSCHAPv2.  
User Name: 802.1x EAP authentication methods, such as  
EAP-MD5, EAP-MSCAHPv2, EAP-TTLS, and PEAP, require an  
EAP user name as an account name. A user name consisting  
of up to 31 characters is necessary, if 802.1x authentication  
is enabled. This is not saved as the default value.  
Using dynamic key  
management  
TKIP, AES, 64-bit WEP, and  
128-bit WEP  
User Password: 802.1x EAP authentication methods, such  
as EAP-MD5, EAP-MSCAHPv2, EAP-TTLS, and PEAP, require  
an EAP user password as an account password. A password  
consisting of up to 15 characters is necessary, if 802.1x  
authentication is enabled. This is not saved as the default  
value.  
NOTE: The Samsung network print server provides “None”  
and Static WEP without 802.1x authentication in Ad hoc mode  
while “None,Static WEP with 802.1x authentication, and  
Enhanced security are provided in Infrastructure mode.  
You may first choose one of the security modes and configure  
additional parameters for each security mode.  
Enhanced Security mode settings  
WPA authentication: WPA supports WPA-PSK and IEEE  
802.1x for authentication. Choose either authentication  
method.  
“None” security mode settings  
This uses Open System for IEEE 802.11 authentication and  
doesn't require additional parameter settings.  
Encryption: Choose one of the encryption key types: TKIP,  
AES, 64-bit WEP, or 128-bit WEP. WPA supports TKIP and  
AES for data encryption.  
Static WEP security mode settings  
WPA Shared Key: If you are using WPA-PSK, the print  
server WPA shared key must be the same as that of an  
access point. The WPA shared key is used to authenticate  
and to create a master session key.  
To use Static WEP, you need to configure the following  
parameters:  
IEEE 802.11 Authentication: Choose one of the following  
IEEE 802.11 authentications:  
802.1x Authentication: You must select an authentication  
method which is supported by a RADIUS server. The  
-
Open System: This is used if your wireless network does  
not require authentication for network access. However,  
your network may still use encryption keys for data  
security.  
authentication method is determined by negotiation between  
clients and the server. Therefore, it is not necessary for the  
selected authentication to be higher priority on a RADIUS  
server. Available authentications are NONE, EAP-MD5, EAP  
MSCHAPv2 in 802.1x Authentication on Static WEB security.  
-
Shared Key: Use Shared Key authentication if your  
network requires that each device be configured with the  
same secret WEP key for network access.  
6.5  
Wireless network environment  
 
 
Inner Authentication Protocol: EAP-TTLS and PEAP allow  
for standard RADIUS protocols within their inner tunnel.  
User authentication is performed by a password. The  
password credentials are transported in a securely encrypted  
tunnel that is established using the server certificate. EAP-  
TTLS supports EAP-MD5, CHAP, MS-CHAP, and MS-CHAPv2.  
PEAP supports EAP-MD5 and MSCHAPv2 as inner  
authentications.  
NOTE: You can make a certificate into a file using Windows  
Console:  
1. From the Windows Start menu, select Run  
.
2. Enter mmc in the Run dialogue box.  
3. Select File  
4. Click Add, select Certificate, and then click Add  
5. In the Certificate Snap-in dialogue box, select Computer  
Account and click Next Finish Close OK  
Æ
Add/Remove Snap-in.  
.
Æ
Æ
Æ
.
Identity Name: EAP-TTLS has a unique feature, TTLS  
Identity, that other EAP authentication protocols do not offer.  
It passes your user name through an encrypted tunnel  
(generally called tunneled TLS) as your credentials. It uses  
TTLS Identity as your credentials before the encrypted  
tunnel is created.  
6. Select the certificate you want to change to a file.  
• When making a root certificate, select one of the  
certificates in the trusted root certificate authority folder.  
• When making a client certificate, select one of the  
certificates in the personal folder.  
7. Right-click the certificate and select All task  
8. In the Certificate Export wizard, click Next  
9. Select DER encoded X.509 Binary (.cer) for a root  
certificate, or PKCS #12 (.PFX) for a client certificate, and  
click Next  
Æ
Export.  
User Name: 802.1x EAP authentication methods, such as  
EAP-MD5, EAP-MSCAHPv2, EAP-TTLS, and PEAP, require an  
EAP user name as an account name. A user name is  
necessary, if 802.1x authentication is enabled. This is not  
saved as the default value.  
.
.
10. Enter a file name and click Next  
.
11. Click Finish to close the wizard.  
User Password: 802.1x EAP authentication methods, such  
as EAP-MD5, EAP-MSCAHPv2, EAP-TTLS, and PEAP, require  
an EAP user password as an account password. A user  
password is necessary, if 802.1x authentication is enabled.  
This is not saved as the default value.  
Enable Server certificate Validation: This option  
determines whether or not the client authenticates the  
server. If Server Certificate Validation is disabled, EAP-TTLS  
and PEAP authentication do not require a root certificate.  
Root certificate: You can install a root certificate. To be  
installed on the Samsung Wireless Network Printer Card, a  
root certificate must be in the form of Base64 Encoded  
X.509 with a .cer extension and be less than 3,072 bytes.  
EAP-TLS, EAP-TTLS, and PEAP authentications need root  
certificates.  
In Enhanced Security mode, four authentications are provided  
according to WPA authentication and 802.1x authentication. To  
use each authentication in Enhanced Security mode, perform  
the following steps:  
Using WPA-PSK  
1. Click Configure  
.
If the root certificate has been configured, detailed  
information on the root certificate displays.  
1
2
3
Set Security Mode to Enhanced Security  
.
Set WPA Authentication to WPA-PSK  
.
2. Select the root certificate file.  
Choose TKIP or AES for encryption. The same encryption  
algorithm must be configured on the access point.  
3. Upload the file and click back to return to the front page.  
Client certificate: You can install a client certificate. To be  
installed on the Samsung Wireless Network Printer Card, a  
client certificate must be in the form of PKCS #12 / Personal  
Information Exchange with a .pfx extension and be less than  
3,072 bytes. EAP-TLS authentication needs a client  
certificate.  
4
Enter the WPA Shared Key as the secret key. The same  
WPA Shared Key must be configured on the access point.  
Using EAP-TLS  
1
2
3
4
Set Security Mode to Enhanced Security  
Set WPA Authentication to IEEE802.1x  
Set 802.1x Authentication to EAP-TLS  
Choose TKIP AES 64-bit WEP, or 128-bit WEP for  
.
1. Click Configure  
.
.
If the client certificate has been configured, detailed  
information on the client certificate displays.  
.
2. Select the client certificate file.  
,
,
3. Upload the file and click back to return to the front page.  
encryption. The same encryption algorithm must be  
configured on the access point.  
6.6  
Wireless network environment  
 
             
5
6
Install a root certificate. A root certificate must be issued  
by the Certificate Authority (CA) who signed the  
authentication server’s certificate and be in the form of  
Base64 Encoded X.509 with a .cer extension. It must also  
be less than 3,072 bytes.  
4
5
Choose TKIP AES, 64-bit WEP, or 128-bit WEP for  
encryption. The same encryption algorithm must be  
configured on the access point.  
,
Choose EAP-MD5 or MS-CHAPv2 for inner authentication  
protocol. The selected inner authentication protocol must  
be supported by the RADIUS server.  
Install a client certificate. A client certificate must be  
issued by the trusted Certificate Authority (CA) and is used  
for the RADIUS server to validate print server's identity. It  
must be in the form of PKCS #12 / Personal Information  
Exchange with a .pfx extension and be less than 3,072  
bytes. You also need to enter the same private key  
password used when a client certificate is issued by CA.  
6
7
8
Set a user name of up to 31 characters. This account name  
must also be set up on the RADIUS server.  
Set a user password of up to 15 characters. This account  
password must also be set up on the RADIUS server.  
Select or deselect Enable Server Certificate Validation  
.
Using EAP-TTLS  
If this option is deselected, the print server always regards  
the RADIUS server as a valid authentication server without  
a root certificate.  
1
2
3
4
Set Security Mode to Enhanced Security  
Set WPA Authentication to IEEE802.1x  
Set 802.1x Authentication to EAP-TLS  
Choose TKIP AES 64-bit WEP, or 128-bit WEP for  
.
.
9
Install a root certificate. A root certificate must be issued  
by the Certificate Authority (CA) who signed the  
authentication server’s certificate and be in the form of  
Base64 Encoded X.509 with a .cer extension. It must also  
be less than 3,072 bytes. If you deselect Enable Server  
Certificate Validation, you don't need to install a root  
certificate.  
.
,
,
encryption. The same encryption algorithm must be  
configured on the access point.  
5
Choose EAP-MD5  
,
CHAP MS-CHAP, or MS-CHAPv2 for  
,
NOTE: Your wireless basic setting changes will be applied after  
the print server restarts. In order to restart the print server,  
inner authentication protocol. The selected inner  
authentication protocol must be supported by the RADIUS  
server.  
from SyncThru Web Service, select Network Settings  
Æ
Reset and click Restart, or turn the print server off and then  
back on.  
6
7
8
9
Set an Identity name of up to 31 characters as another  
identity name.  
Set a user name of up to 31 characters. This account name  
must also be set up on the RADIUS server.  
Set a user password of up to 15 characters. This account  
password must also be set up on the RADIUS server.  
Select or deselect Enable Server Certificate Validation  
.
If this option is deselected, the print server always regards  
the RADIUS server as a valid authentication server without  
a root certificate.  
10Install a root certificate. A root certificate must be issued  
by the Certificate Authority (CA) who signed the  
authentication server’s certificate and be in the form of  
Base64 Encoded X.509 with a .cer extension. It must also  
be less than 3,072 bytes. If you deselect Enable Server  
Certificate Validation, you don't need to install a root  
certificate.  
Using PEAP  
1
2
3
Set Security Mode to Enhanced Security  
Set WPA Authentication to IEEE802.1x  
Set 802.1x Authentication to EAP-TLS  
.
.
.
6.7  
Wireless network environment  
 
     
7
Appendix  
Wireless specifications  
Items  
Specifications  
Frequency  
band*  
Americas  
2.412 ~2.462GHz  
5.180 ~ 5.320GHz  
5.745 ~ 5.825GHz  
Specifications  
Europe  
2.412 ~2.472GHz  
5.180 ~ 5.320GHz  
Items  
Specifications  
Supported  
networks  
• Windows: 98, NT, ME, 2000, XP, 2003  
• Linux: Red Hat 8.0 ~ 9.0, Fedora Core 1 ~  
3, Mandrake 9.0 ~ 10.2, SuSE 8.2 ~ 9.2  
• Unix: AT&T system V (Rel 4.2), BSD4.3, HP-  
UX (Rel 9.x & Rel 10.x), SCO 5.x, SUNOS  
5.5, Sparc or Solaris 2.5.  
• Novel NetWare: NetWare versions 3.x, 4.x,  
5.x, 6.x  
• Macintosh: Macintosh 8.6 ~ 9.2, 10.1 ~  
10.3, or higher  
Asia-Pacific  
2.412 ~2.472GHz  
5.745 ~ 5.805GHz  
Spread  
spectrum  
method  
802.11a  
mode  
OFDM  
DSSS  
OFDM  
802.11b  
mode  
802.11g  
mode  
Protocol  
TCP/IP, LPD (LPR), IPP, IPX/SPX, EtherTalk,  
Bonjour.  
Data transfer  
rate  
802.11a  
mode**  
54, 48, 36, 24, 18, 12, 9,  
6Mbps  
Configuration  
utilities  
SetIP, SyncThru Web Service, SyncThru Web  
Admin Service  
802.11b  
mode  
11, 5.5, 2, 1Mbps  
Hardware  
• PC:  
requirements  
- 80486 CPU or higher  
- Minimum of 16 MB of RAM  
- 2 MB of free disk space  
• Macintosh:  
- PowerPC 68020 or higher  
- Minimum of 8 MB of RAM  
- 2 MB of free disk space  
802.11g  
mode***  
54, 48, 36, 24, 18, 12, 9,  
6Mbps  
* Subject to local regulatory  
** 802.11a mode is supported only when connecting with  
IEEE 802.11a adapter  
***802.11g mode is supported only when connecting with  
IEEE 802.11g adapter  
Wireless  
interface  
IEEE 802.11a/b/g standard  
7.1  
Appendix  
 
         
ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF  
ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.  
OpenSSL Statements  
This product includes cryptographic software written by Eric  
Young ([email protected]).  
This product includes software written by Tim Hudson  
OpenSSL License  
Copyright © 1998-2000 The OpenSSL Project. All rights  
reserved.  
Redistribution and use in source and binary forms, with or  
without modification, are permitted provided that the following  
conditions are met:  
1
Redistributions of source code must retain the above  
copyright notice, this list of conditions and the following  
disclaimer.  
2
Redistributions in binary form must reproduce the above  
copyright notice, this list of conditions and the following  
disclaimer in the documentation and/or other materials  
provided with the distribution.  
3
4
All advertising materials mentioning features or use of this  
software must display the following acknowledgment:  
“This product includes software developed by the OpenSSL  
www.openssl.org/)”  
5
The names “OpenSSL Toolkit” and “OpenSSL Project” must  
not be used to endorse or promote products derived from  
this software without prior written permission.  
6
7
For written permission, please contact openssl-  
Products derived from this software may not be called  
“OpenSSL” nor may “OpenSSL” appear in their names  
without prior written permission of the OpenSSL Project.  
8
Redistributions of any form whatsoever must retain the  
following acknowledgment:  
“This product includes software developed by the OpenSSL  
www.openssl.org/)”  
THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT “AS  
IS” AND ANY EXPRESSED OR IMPLIED WARRANTIES,  
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES  
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR  
PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OpenSSL  
PROJECT OR ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT,  
INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR  
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED  
TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;  
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS  
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF  
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR  
TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN  
7.2  
Appendix  
 
   
INDEX  
N
NetWare  
A
B
C
Certificates  
P
R
D
S
E
EtherTalk  
T
TCP/IP  
management protocol  
F
H
I
IP address setup  
printing protocol  
U
W
L
Wireless network  
1
 
 
Rev.1.00  
 

Radio Shack Cordless Telephone 43 3824 User Guide
Radio Shack Musical Instrument Amplifier PPG850A User Guide
Radio Shack Scanner PRO 29 User Guide
Radio Shack Stereo System 13 1317 User Guide
RCA Flat Panel Television 16 3054 User Guide
RCA Handheld TV E13342 User Guide
Samsung Cell Phone Accessories AWEP490PPECSTA User Guide
Samsung Printer ML 2570 Series User Guide
Sanyo Security Camera VCC 6674 User Guide
Saunatec Hot Tub IG 570G User Guide