OTC Wireless Network Card WiSER2400 User Manual

802.11b Wireless Serial Port Adapter  
WiSER2400.IP User Guide  
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TABLE OF CONTENT  
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Chapter 1 - INTRODUCTION  
WiSER2400.IP is an 802.11b compliant, or WiFi, radio with an RS232 serial  
interface.  
The WiSER2400.IP radio takes serial data from the equipment or computing  
device connected via its RS232 port, converts the serial data into 802.11-  
compliant data packets, and transmits these packets with the RF modulation that  
is compliant with the specifications of the 802.11b physical layer. On the  
receiving end, the radio demodulates the RF signal, removes the Ethernet  
(802.11) headers, unpacks the packet and delivers the data byte-by-byte to the  
destination equipment/device through the RS232 serial port.  
Each WiSER2400.IP radio acts as a “Station”  
and operates in either  
infrastructure or ad-hoc mode in accordance to the 802.11 standards. As such,  
this radios enables RS232-interfaced devices to participate in a wireless Ethernet  
network. In this capacity, the radio, in addition to eliminating the RS232 cables,  
functions as a media converter for RS232-interfaced equipment and computing-  
devices.  
The radio is fully self-contained in performing the conversion between serial data  
and wireless-Ethernet packets. That is, no device driver needs to be installed on  
the hosting equipment or computing device the radio is connected to. True Plug  
& Play feature therefore is achieved with any equipment or computing devices  
with an RS232 port. This also means the radio can be used on equipment and /or  
computing-devices with any Operating Systems. This is particularly useful for  
instruments/equipment where the use of RS232 interface is utilized. Examples  
include cash registers, electronic whiteboards and navigation instruments.  
WiSER2400 has a compact form-factor that blends easily into an office/  
classroom environment. It also lends particularly well to portable applications.  
The specifications are given on the next page.  
The utility program can be used to monitor the communication condition once the  
radio is in operation. The radio runs self-sufficiently without the aid of any driver  
program in the host equipment or computer connected to the radio. This utility  
program therefore is intended to be, in most cases, just a tool for the network  
operators. The utility is also needed to configure the WiSER2400.IP for both  
wireless and UDP/IP parameters. The utility program is simple to install and  
easy to use through its graphic user interface. The details are described in  
Chapter 3.  
Note: The terms WiSER2400 and WiSER2400.IP are used interchangeably  
through out this document  
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WiSER2400.IP WiFi Radio  
Key Features  
Plug & Play operation—  
oNo driver on the host device is required for radio operation  
oRadio operation is independent of the operating system on the host equipment or device  
(Windows 98/NT/2000/ME/XP, Linux, Unix, embedded, etc.), as long as an RS232 port is  
properly supported  
Supports 64-bit and 128-bit encryption for secured communication  
Industry standard IEEE 802.11b-compliant wireless interface  
11Mbps data rate and automatic selection of lower data rate (5.5, 2 and 1 Mbps) in degraded RF  
environment  
Integrated omni-directional-antenna to provide best tradeoff between link-quality and mobility  
Microsoft-Windows-based configuration utility  
Applications  
Standard-compliant wireless networking for computers and equipment with an RS232 interface  
Embedded devices, tools, instruments, equipment and appliances that can benefit from the re-  
configurability of wireless link yet are unfriendly to the installation of device-drivers  
oPOS equipment for stores where re-configuration is frequent  
oControl/monitor equipment where mobility is required  
Specifications  
WiSER2400.IP  
Model  
Standard  
802.11 and 802.11b  
Host Interface  
Frequency  
RF Channels  
RS232  
2.4GHz – 2.495GHz  
11 channels (US, Canada), 13 channels (Europe), 14 channels  
(Japan)  
Transmission power  
Receiver sensitivity  
Antenna  
14dBm at antenna input typical  
-80dBm @1e-5 BER typical  
Integrated dipole antenna with ~2dBi gain  
11, 5.5, 2 or 1 Mbps fixed rate, or configured to automatic rate  
selection  
Data Rate  
Modulation  
CCK, Direct Sequence Spread Spectrum  
~1200 ft in open space  
Link Distance  
Network Types  
Data Encryption  
Network Security  
AC adapter  
Current consumption  
LED Indicators  
Operating  
Support normal station to AP link in the infrastructure mode  
Support the standard 64-bit and the 128-bit WEP  
MAC-address-based access control  
Output: 5V, 1A; Input: 100-120V, 50-60Hz, ~0.3A  
<480mA (max. reached in transmit-mode)  
4: Power, Transmission, Receiving, Link  
-10°C – 50°C  
Temperature  
Regulation  
FCC part 15,Class B  
Compliance  
CE ( ETSI EN 300 328-1, ETSI EN 301 489-17)  
IC (for Ubicom-based model)  
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Chapter 2 - INSTALLATION OF WiSER2400.IP  
Installation of WiSER2400.IP Hardware  
Standard Hardware Items  
1 WiSER2400.IP radio  
1 3-foot RS232 –P cable  
1 ac-dc power adapter  
1 pair of Velcro mounting pads  
Power  
This radio connected to your equipment draws power from the provided AC-DC  
power adapter that plugs into a wall outlet.  
RS232 Connection  
The WiSER2400.IP radio is shipped with one RS232 cable. This 3-foot cable is  
intended for use with any RS232 equipment (whiteboard, instrument, etc.) and  
has the specification listed below:  
Option –P—terminates in a male DB-9 connector, no dc-power is available  
from this cable  
Connect the modular plug (which resembles an over-sized telephone plug) of the  
RS232 cable to the modular jack (which resembles an over-sized telephone jack)  
at the bottom panel of the WiSER2400 radio. Connect the DB-9 (9-pin, can be  
female or male depending on the equipment) connector of the RS232 cable to  
the RS232 port in the client equipment or computer.  
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Status LED’s  
Power on the WiSER2400 Radio, the LED’s on the front panel should exhibit the  
following patterns:  
LED Color  
Light Blinking Pattern Indication  
ON  
RX  
RED  
GREEN  
Steady on  
Steady on  
Steady blink  
Flickering  
Proper power is supplied  
Unit linked to any wireless station  
Unit not linked to any unit  
Unit transmitting RF signal  
Not in use  
TX  
RED  
LINK YELLOW Steady on  
The WiSER2400.IP radio is configured as a client Station and cannot be  
changed. As a station, one of the most useful diagnostic tools may be the green  
RX LED: a blinking green RX LED indicates the absence of a useful  
communication link.  
Once the hardware is checked out to work properly with the intended host device  
or equipment, the radio can be secured in the desire location by the pair of  
Velcro pads supplied.  
An installation example where the  
WiSER2400.IP is connected to an RS232  
equipment (whiteboard)  
3-foot –P  
RS232 Cable  
Radio Power  
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Installation of WiSER2400.IP Software  
System Requirements  
For using the WiSER2400.IP Wireless Ethernet Adapter’s utilities software, your  
computer must meet the following minimum requirements:  
Windows® 95 (OSR2)/ 98 (SE)/NT/ME/2000/XP  
One COM port (with a DB-9 male connector or an appropriate adapter to  
connect to a DB-9 female connector)  
Installation  
To install the utility program, simply insert the CD-ROM provided. Copy the  
“wue101.exe” file to the desired location on your PC.  
Note that to use the WiSER2400.IP properly as intended, you must configure the  
WiSER2400.IP radio to the appropriate IP [Internet Protocol] configurations as  
your network.  
Note: For the utility program to configure or monitor the WiSER2400 radio  
through a COM port, there must be no another serial (RS232) program  
that also accesses or control the same COM port.  
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Chapter 3 - Diagnostic and Configuration Utility  
Overview  
This chapter describes the functionalities and operations of WiSER2400.IP  
Diagnostic and Configuration Utility program. The utility program can be used to  
configure and monitor WiSER2400.IP radios. The WiSER2400.IP utility program  
is supported on Microsoft Windows® 95(OSR2), 98(SE), NT, Millennium, 2000,  
and XP. Figure 1 below is WiSER2400.IP utility main window.  
Warning: The utility program may not work simultaneously with another RS232  
application program since both programs would compete for the control to the  
same RS232 serial (COM) port connecting the WiSER2400 radio.  
Figure 1. Main Window of WiSER2400.IP Utility Program  
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In general, the main window consists of five panels: Connection and Overall  
Status, Radio Status, Configuration, Security, and RS232 and WLAN Statistics.  
Connection and Overall Status Panel  
The Connection and Overall Status panel, shown in figure 2, controls and  
maintains the serial connection, and displays up-to-date connection status. It has  
a pull down menu for choosing COM ports, a Connect button, and a text field  
displaying connection status.  
Figure 2. Connection and Overall Status Panel  
The pull-down menu allows users to select COM ports (RS232 serial port) so that  
the utility program knows where to connect to WiSER2400 radio unit. The pull-  
down menu becomes inactive and inaccessible when the connection between  
the WiSER2400 radio and the utility program is active.  
After appropriate COM port is selected from the pull-down menu, click Connect  
button to have the utility program claim the COM port. If a COM port is  
successfully claimed by the utility, the Disconnect will be displayed on the  
button instead of Connect. Click Disconnect button to release the control of the  
COM port from the utility program.  
Note: Other panels in the main window stay inactive unless a COM port is  
claimed by the utility program.  
The status text field displays connection status and the utility command  
information between WiSER2400 utility program and the radio unit.  
Radio Status Panel  
The Radio Status Panel has only one mode, STA mode, shown in figure 3.  
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Figure 3. Radio Status Panels (AP: left; Station: right)  
In general, the Radio Status Panel displays the firmware version, firmware  
release date, role, and communication channel used by the radio. The panel  
displays additional radio signal information such as the Port Status, Link Quality,  
and Signal strength.  
Configuration Panel  
This panel contains the following fields: SSID, Network Type, Baud rate,  
Channel, Max Bytes/Pkt, End Frame Byte of this unit. MAC addresses, IP  
addresses and UDP ports of this unit and the destination unit are also in this  
panel. To retrieve the settings, click on Refresh button on the main panel.  
Figure 4. Configuration Panel  
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In addition, there are two buttons on this panel. The “Default Setting…” button is  
to set the Max Bytes/Pkt and End Frame Byte to 6 bytes per packet and 0x0D  
(Carriage Return) respectively.  
The “Apply” button on this panel is for sending the ‘Config’ command to the radio  
unit that sets its configuration with above fields.  
Followings are the detail descriptions of the fields:  
SSID: The SSID that this radio would connect to. 32 characters maximum. An  
empty entry is acceptable but note that the radio would interpret it as ‘ANY’ which  
is a special SSID. A station with this special SSID would try to join a wireless  
network regardless of its SSID.  
Network Type: this is the 802.11b mode the radio unit is running on. It can be  
either”Ad hoc” or “Infrastructure”. For WiSER2400.IP to connect with a normal  
AP, always select “Infrastructure” mode Please refer to IEEE 801.11  
documentation for more information of the Network Type. Default value:  
Infrastructure.  
Baud rate: user-configurable. This is the baud rate the radio unit will use to  
transmit and receive RS232 data. Supported values: 2400, 4800, 9600, 14400,  
19200, 38400, 57600, and 115200 bps. Default value: 9600 bps.  
Channel: this field is applied only when the radio unit functions in ‘Ad hoc’ mode.  
Therefore, it is hid when the radio unit functions in ‘Infrastructure’ mode.  
Supported values: 1 – 14 channels.  
Max Bytes/Pkt: This value specifies the maximum number of bytes a UDP  
packet can contain. Range: 1 to 200. Default value: 6.  
End Frame Byte: This value specifies a special character that signals the end of  
a command (or portion of data) and the command (or portion of data) should be  
sent to the destination unit right after the radio receives this special character.  
Range 0x00 to 0x1F. Default value: 0x0D = Carriage Return. Note that user can  
choose ‘None’ value which means he would not use any special character in any  
case.  
MAC Addr (MAC address of this unit): the MAC address of this radio.  
MAC Addr (MAC address of destination unit): the MAC address of the  
destination device. The radio unit learns the MAC address of the destination unit  
from ARP response packets sent from the device with associated IP address.  
IP Addr (IP address of this unit): the IP address of this radio. Configurable.  
IP Addr (IP address of destination unit): the configurable IP address of the  
device which this radio would communicate with.  
UDP Port (of this unit): the port number that this radio uses to communicate.  
This port number is the source Port in UDP packets sent from this radio. Fixed  
value: 8002  
UDP Port (of destination unit): the port number the destination device listens on  
to get the UDP packet. This port number should be the destination Port on UDP  
packets destined to this radio.  
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RS232 and WLAN Statistics Panel  
The transmission statistics of the RS232 (COM port) and Wireless Local Area  
Network (WLAN) is shown in this panel. To retrieve the statistics, click Refresh  
button located at the bottom of the main window of the utility program. The  
following explains the statistics shown in the panel:  
1. RS232 Statistics:  
a. COM Sent: This number is the total bytes that the Unit sends  
through the connected COM port.  
b. COM Received: This number is the total bytes that the Unit  
received through connected COM port. This value is the sum of the  
following values:  
i. Without error: Total bytes received without error.  
ii. Break Detect error: Total bytes received as break detect  
error.  
iii. Frames error: Total bytes received with frame error.  
iv. Overrun error: Total bytes received with overrun error.  
c. Frames Discard: This number is the total number of frames that  
were discarded while the firmware tried to en-queue them to WLAN  
queue (send to MAC). Lacking of memory is the main reason for a  
frame to be discarded.  
2. WLAN Statistics:  
a. Transmitted Frames: This number is the total UniCastFrames and  
MultiCastFrames that the MAC successfully transmitted  
b. Transmitted Retried Frames: This number is the total  
SingleRetryFrames and MultiRetryFrames that the MAC  
transmitted.  
c. Transmitted Octets: This number is the total bytes that the MAC  
successfully transmitted (UnicastOctets and MulticastOctets)  
d. Received Frames: This number is the total UniCastFrames and  
MultiCastFrames that the MAC successfully received.  
e. Received Error Frames: This number is the total frames that the  
MAC received with the following errors: DiscardNoBuffer,  
DiscardsWrongSA, DiscardWepUndecryptable, and Frame-Check-  
Sequence Errors.  
f. Received Octets: This number is the total bytes that the MAC  
successfully received (UnicastOctets and MulticastOctets)  
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Security Panel  
This panel shown in Figure 5 enables users to configure security options for the  
WiSER2400 radios. WiSER2400 supports Wired Equivalent Privacy (WEP)  
encryption both 64bits and 128bits.The Security panel contains two sub-panels,  
Encryption sub-panel and WEP Keys Creation sub-panel.  
Figure 5 Security Panel  
Encryption sub-panel  
This sub-panel allows user to adjust the security level as needed. There are  
three radio buttons to select the encryption levels, and only one radio button can  
be selected at a time. The function of each radio button is described below:  
a. Disable: if checked, the WEP is turned off and WEP Keys Creation sub-  
panel becomes inactive.  
b. 64-bits: if checked, the WEP is turned on using 64-bit encryption and  
WEP Keys Creation sub-panel becomes active.  
c. 128-bits: if checked, the WEP is turned on using 128-bit encryption and  
WEP Keys Creation sub-panel becomes active.  
Before applying the WEP 64 or 128-bit encryption to the radios, the user must  
complete the key settings in WEP Keys Creation sub-panel first.  
WEP Keys Creation Sub-panel  
This sub-panel allows user to generate users’ own WEP encryption keys and can  
be made active only when either 64 bits or 128 bits radio button in the Encryption  
sub-panel is selected.  
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There are two methods to generate WEP encryption keys. One is to use auto key  
generation through the Passphrase field, and the other method is to manually  
input a set of keys in the Manual Entry fields.  
To auto-generate WEP encryption keys, select the radio button next to the  
Passphrase label and then the users can enter up to any 64 characters in the  
Passphrase field. Click the Apply button to apply the encryption key setting.  
Notice that when this method is selected the Manual Entry fields are “grayed out”  
to disallow manual entries of WEP keys.  
Figure 6 Create WEP Keys with Passphrase  
To manually input keys, select the radio button next to the Manual Entry and then  
enter hexadecimal numbers to the fields next to Key 1 to Key 4. Click the Apply  
button to apply the encryption key setting. Notice that when this method is  
selected the Passphrase field is “grayed out” to disallow any input to the  
passphrase field.  
FIGURE 7 CREATE WEP KEYS WITH MANUAL ENTRIES  
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The Manual Entry Key 1/2/3/4 fields accept hexadecimal inputs as the encryption  
keys. If 64 bits encryption is enabled, each key field allows the user to enter up to  
10 hexadecimal characters. If 128 bits encryption is enabled, each of the key  
field allows up to 26 hexadecimal characters.  
The remaining fields in the Security Panel are described below.  
a. Deny Unencrypted Data Frames: if checked, the firmware will block  
unencrypted data frames from being received.  
b. Transmission key: This allows user to choose from key 1 to key 4 for  
transmission. The default key is set to Key 1.  
c. WEP key factor: this list box allows user to choose how many frames the  
Initialize Vector (IV) is reused. It contains four options: every frame, every  
10 frames, every 50 frames, and every 100 frames. The default key factor  
is Every 100 frames.  
When the Apply button is pressed, the program validates all entered data and  
prompts the user to re-enter the data if any of the input data is invalid. If all data  
is valid, the entered data will be applied to the radio unit. When the Cancel  
button is clicked, all entered data under Security Panel is discarded.  
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Chapter 4 - UDP/IP Implementation  
This section describes how the radio firmware composes RS232 data into UDP  
packets and sends them out, as well as how it receives the UDP packets and  
performs necessary checks. If all checks are passed, it retrieves the RS232 data  
from the packets, and sends the data out to RS232 cable.  
When composing the UDP/IP packet header, the firmware only sets the  
important fields in the packet header, other less important fields are set with  
correct, fixed values and these values are unchanged during the operation time  
of the radio.  
Upon receiving UDP/IP packets, the firmware only checks for validity of some  
important fields in the packet header. Others may be ignored.  
Learning the destination MAC address from ARP packets.  
After powered-up or its configuration is reset by the utility, the radio needs to  
learn the MAC address associated with the IP address of the destination device.  
It does this by composing an ARP packet and sends it out every second until it  
receives an ARP response from the intended device. This radio unit will not send  
and receive any thing until it receives the correct ARP response.  
This part is very critical. So, if the radio seems not to communicate, please  
check the correctness of the “Dest unit’s IP address” using the utility.  
Outgoing UDP/IP packet:  
a. IP Header:  
i.  
ii. Header length: 5 (Fixed)  
iii. TOS: 8 (Fixed)  
iv. Total length = IP header length + UDP header length + serial data length  
Version: 4. (Fixed)  
v.  
ID = some timing value. Not important.  
vi.  
Flags and fragment offset = 0x4000. (Don’t fragment, Last fragment,  
fragment offset is 0)  
vii. TTL: 128 (Fixed)  
viii.  
ix.  
x.  
Protocol: UDP (Fixed)  
IP Header check sum = this IP header’s checksum.  
Source IP address = “IP Addr” in the “This Unit” portion in the  
configuration panel.  
xi.  
Destination IP address = “IP Addr” in the “Dest. Unit” portion in the  
configuration panel.  
xii. No option.  
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b. UDP header:  
i.  
Source Port number = “UDP Port” in the “This Unit” portion in the  
configuration panel.  
ii.  
Destination Port number = “UDP Port” in the “Dest. Unit” portion in the  
configuration panel.  
iii.  
iv.  
UDP Length = UDP header length + data length. This data length would  
be =< “Max Bytes/Pkt” value.  
The “Max Bytes/Pkt” field is in the “Configuration Panel.” (See section II  
for detail).  
v. UDP Check sum = calculated over UDP header and serial data.  
c. RS232 Data: this is the serial data received from serial port.  
Incoming UDP/IP packet:  
a. IP Header: checking on the following fields. Other fields that are not  
mentioned are not checked.  
i.  
Total length: must be greater than IP header length and UDP header  
length  
ii.  
iii.  
iv.  
v.  
Flags and Fragment offset: must be “Don’t fragment” and “Last fragment”  
Protocol: must be UDP.  
IP Header check sum: must be correct  
Source IP address: must be equal “IP Addr” in the “Dest. Unit” portion in  
the configuration panel.  
vi.  
Destination IP address: must be equal “IP Addr” in the “This Unit” portion  
in the configuration panel.  
b. UDP header: checking on the following fields. Other fields that are not  
mentioned are not checked.  
i.  
ii.  
Source Port number: must be equal “UDP Port” in the “Dest. Unit” portion  
in the configuration panel.  
Destination Port number: must be equal “UDP Port” in the “This Unit” in  
the configuration panel.  
iii.  
iv.  
UDP Length = UDP header length + data length. The data length has to  
be =< 200.  
UDP Check sum: ignored if 0. Otherwise, a checksum calculation is  
performed on UDP header and serial data.  
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Chapter 5 - Troubleshooting  
Blank Pages Appear When Open the Utility Program  
It is possibly due to the unavailability of the COM port. Please pay attention to the  
Connection and Overall Status field next to the Connect button. Press the  
Connect button again to see if the status indicates “Connected.” If not, check to  
see if you have another running program that access the same COM port.  
No Radio Link  
If the Link Quality indicator in the Radio Status panel shows 0%, check the  
following for possible causes:  
Make sure that the Signal Strength indicator under Radio Status panel is  
not zero. A minimum of 20% is recommended. If the “Signal Strength” is  
less than 20%, the distance between the WiSER2400 and the targeted AP  
may be too far. Decrease the distance between the radio pair to see if the  
radio link can be improved.  
Make sure that the encryption keys are entered correctly if WEP  
encryption is enabled.  
Make sure that there is no RF interference present in the radio network.  
No Data Transfer While the Radio Link is Good  
If the Link Quality indicator shows good link quality, but the host  
computer/equipment cannot properly exchange data:  
Make sure the RS232 cable are properly connected to the radio and  
computer/equipment.  
Make sure that the RS232 cable in use are not defective.  
Make sure that the COM port on the computer/equipment is available, not  
used by another active program/process.  
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Poor Link Quality  
If the Signal Strength indicator is reasonably high (>20%) and the Link Quality is  
not zero, but the “Link Quality” stays in the Poor range, it could be due to one of  
the following reasons:  
Make sure that radio interference is not present in the radio network.  
Make sure that the radio is not surrounded by many strongly reflecting  
(metallic) surfaces. With multiple reflecting surfaces between the radio in  
question and the target radio, a severe multi-path problem may introduce  
high bit error rate despite a strong Signal Strength.  
Make sure that there is no severe packet collision caused by a “hidden  
node” problem. A “hidden node” problem is the situation where the RF  
signal from two or more Station radios cannot reach each other (but can  
reach the AP). In such situation, multiple Stations may attempt to transmit  
data packet to the AP at the same time and therefore cause packet  
collision. To solve this problem, re-arrange the Stations in question such  
that the RF signals are mutually sensible by all Stations. There is no  
guarantee that the packet collision can be entirely eliminated, but the  
severity can be reduced enough to see visible improvement of the link  
quality.  
Radio Interference  
You may be able to minimize RF interference by doing the following:  
Although WiSER2400, when properly configured, seeks a clear channel to  
use, it cannot avoid interference if too many 2.4GHz interference sources  
are present. A “clear” channel should be at least 20MHz, but preferably  
30MHz, apart from any other channel in use. Find out other usages in this  
frequency band in the vicinity and try to coordinate the channel  
assignment with other users.  
Reseat the WiSER2400 radio to a location where the interference is  
minimized; in general, increasing the distance between the radio pair may  
cause radio interference.  
Avoid using 2.4GHz cordless phone in the vicinity of the radios  
Keep the computer with the WiSER2400 radio away from the microwave  
oven and large metal objects.  
Consult the dealer or an experienced radio technician for help and  
assistance.  
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Technical Support  
If problems are still not solved, please contact our Technical Support to obtain  
further assistance.  
Call: 1-800-770-6698 in USA  
Call: 011-510-490-8288 outside of USA  
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Appendix A: Limited Warranty  
WiSER2400 Hardware  
The seller warrants to the end user (“Customer”) that this hardware product will  
be free from defects in workmanship and materials, under normal use and  
service, for one (1) year from the date of purchase from the seller or its  
authorized reseller. The seller’s sole obligation under this express warranty shall  
be, at the seller’s option and expense, to repair the defective product or part,  
deliver to Customer an equivalent product or part to replace the defective item, or  
if neither of the two foregoing options is reasonably available, The seller may, in  
its sole discretion, refund to the Customer the purchase price paid for the  
defective product.  
All products that are replaced will become the property of the seller.  
Replacement products may be new or reconditioned.  
WiSER2400 Software  
The seller warrants to Customer that each software program licensed from it,  
except as noted below, will perform in substantial conformance to its program  
specifications, for a period of one (1) year from the date of purchase from the  
seller or its authorized reseller. The seller warrants the media containing  
software against failure during the warranty period. No updates are provided. The  
seller’s sole obligation under this express warranty shall be, at the seller’s option  
and expense, to refund the purchase price paid by Customer for any defective  
software product, or to replace any defective media with software which  
substantially conforms to applicable seller published specifications. Customer  
assumes responsibility for the selection of the appropriate application programs  
and associated reference materials. The seller makes no warranty or  
representation that its software products will meet Customer’s requirements or  
work in combination with any hardware or software applications products  
provided by third parties, that the operation of the software products will be  
uninterrupted or error free, or that all defects in the software products will be  
corrected. For any third party products listed in the seller software product  
documentation or specifications as being compatible, the seller will make  
reasonable efforts to provide compatibility, except where the non-compatibility is  
caused by a defect in the third party’s product or from use of the software product  
not in accordance with the seller’s published specifications or user manual.  
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Appendix B: Regulatory Compliance  
FCC Part 15 Declaration of Conformity (DoC)  
The equipment is confirmed to comply with the requirements of FCC Part 15  
rules. The 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.  
FCC ID: MKZ0207232XG  
FCC Rules and Regulations - Part 15  
Warning: This device has been tested and found to comply with the limits for a  
Class B digital device pursuant to Part 15 of the Federal Communications  
Commissions Rules and Regulations. 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.  
However, there is no guarantee that interference will not occur in a particular  
installation. If this equipment does cause harmful interference to radio or  
television reception, which can be determined by turning the equipment off and  
on, the user is encouraged to try and correct the interference by one or more of  
the following measures:  
.
.
Relocate your WLAN equipped laptop computer.  
Increase the separation between the WLAN equipped laptop computer and  
other electronics.  
.
.
Connect the WLAN equipped laptop computer into an outlet on a circuit  
different from that of other electronics.  
Consult the dealer or an experienced radio/TV technician for help.  
Caution: Changes or modifications not expressly approved by OTC Wireless  
could void the user’s authority to operate the equipment.  
FCC Radiation Exposure Statement  
This equipment complies with FCC radiation exposure limits set forth for an  
uncontrolled environment. This equipment should be installed and operated with  
minimum distance of 20cm between the radiator & your body. This transmitter  
must not be co-located or operating in conjunction with any other antenna or  
transmitter.  
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European Community (EC) Directives Conformity and Restrictions  
This product is in conformity with the protection requirements of EC Council  
directives 89/336/EEC, 73/23/EEC, and 1999/5/EC on the approximation and  
harmonization of the laws of the Member States relating to electromagnetic  
compatibility, safety of electrical equipment designed for use within certain  
voltage limits and on radio equipment and telecommunications terminal  
equipment.  
Compliance is indicated by the CE marking  
This product satisfies the radio spectrum requirements of EN 300 328-1, the  
EMC requirements of EN 301 489-17 and the safety requirements of EN 60950.  
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Glossary  
Access Point An internetworking device that seamlessly connects wired and wireless networks.  
Access Points combined with a distributed system support the creation of multiple radio cells that  
enable roaming throughout a facility.  
Ad Hoc Network A network composed solely of stations within mutual communication range of  
each other (no Access Point connected). The Ad Hoc network offers peer-to-peer connections  
between workstations, allowing communication between computers within range that have an  
802.11  
DSSS compatible PC card installed.  
Channel A medium used to pass data units that can be used simultaneously in the same volume  
of space by other channels of the same physical layer, with an acceptably low frame error ratio  
due to the absence of mutual interference.  
Encapsulated An Ethernet address mode that treats the entire Ethernet packet as a whole and  
places it inside an 802.11 frame along with a new header.  
Ethernet The most widely used medium access method, which is defined by the IEEE 802.3  
standard. Ethernet is normally a shared media LAN; i.e., all the devices on the network segment  
share the total bandwidth. Ethernet networks operate at 10Mbps/100Mbps using CSMA/CD to run  
over 10BaseT/100BaseT cables.  
IEEE 802.11 The IEEE 802.xx is a set of specifications for LANs from the Institute of Electrical  
and Electronic Engineers (IEEE). Most wired networks conform to 802.3, the specification for  
CSMA/CD-based Ethernet networks or 802.5, the specification for token ring networks. 802.11  
defines the standard for wireless LANs encompassing three incompatible (non-interoperable)  
technologies: Frequency Hopping Spread Spectrum (FHSS), Direct Sequence Spread Spectrum  
(DSSS), and Infrared. IEEE standards ensure interoperability between systems of the same type.  
Infrastructure Network A wireless network centered about an Access Point. In this environment,  
the Access Point not only provides communication with the wired network but also mediates  
wireless network traffic in the immediate neighborhood.  
IP Internet Protocol. The standard protocol within TCP/IP that defines the basic unit of information  
passed across an Internet connection by breaking down data messages into packets, routing and  
transporting the packets over network connections, then reassembling the packets at their  
destination. IP corresponds to the network layer in the ISO/OSI model.  
LAN Local Area Network. A communication network that serves users within a defined  
geographical area. The benefits include the sharing of Internet access, files, and equipment, such  
as printers and storage devices. Special network cabling (10BaseT) is often used to connect the  
PCs together.  
RS232 An EIA standard for serial data communication between equipment and computing  
devices.  
SSID Service Set ID. A group name shared by every member of a wireless network.  
Station The Station is the component that connects a host computer or device to the wireless  
medium. It may be referred to as the Wireless Network Adapter or the Wireless Network Interface  
Card.  
WEP Wired Equivalent Privacy. The optional cryptographic confidentiality algorithm specified by  
802.11 used to provide data confidentiality that is subjectively equivalent to the confidentiality of a  
wired LAN medium that does not employ cryptographic techniques to enhance privacy.  
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