Westell CSI-CPBRW-AWS THE CO-PILOT IS DESIGNED TO IMPROVE LOCATION ACCURACY OF CELL PHONES AND WIRESS DEVICES OUTDOORS WITHIN BUILDINGS User Manual D960 1046 001 rD MANUAL ICEbreaker indd

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CSI-CPBRW-C, CSI-CPBRW-P,
CSI-CPBRW-AW, CSI-CPBRW-C/P
Table of Contents
Product Registration Information:
Document Purpose / Intended Users:
Important Safety Information:
Safety Guidelines:
Application:
Radio and Television Interference:
Acronyms and Definitions:
Product Introduction:
Functional Overview:
Environmental Requirements:
Electrical Characteristics:
Mechanical Specifications:
AC Power Specifications:
Mechanical Drawing:
System Set-Up Considerations:
Mounting the Pilot Beacon:
Wall Mounting
Rack Mounting
Optional Accessories:
Important Installation Notes:
Powering Up the Unit:
Local Communication Interface Ports:
EIA232 Pin Specifications:
USB Interface:
Ethernet:
Monitoring & Alarms:
Web based GUI Session:
Local Network:
System Status:
Beacon Control:
Location Information:
Remote Network:
SNMP Configuration:
System Health:
Install & Upload:
Reboot:
User Maskable Alarms:
Alarm Configuration:
Email Configuration:
Log Configuration:
Change Password:
Text Menu Interface (Local Access):
Main Menu:
User Interface:
Login:
Set Parameters Menu:
Pilot Beacon Configuration Menu:
Networking Configuration Menu:
Telnet Session (Remote Access):
Additional Tips:
Industry Certifications/Registration Numbers:
One Year Limited Warranty
Index
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31
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32
Product Registration Information
The serial number may be found on the label on the bottom panel near the power
connectors. Note this number below. Retain this manual, along with proof of purchase, to serve as a permanent record of your purchase.
MODEL NUMBER
SERIAL NUMBER
PURCHASE DATE
POINT OF SALE COMPANY
DISCLAIMER: All information and statements contained herein are accurate to the best of the knowledge of Cellular Specialties, Inc. (CSI), but Cellular
Specialties makes no warranty with respect thereto, including without limitation any results that may be obtained from the products described herein or
the infringement by such products of any proprietary rights of any persons. Use or application of such information or statements is at the users sole risk,
without any liability on the part of Cellular Specialties, Inc. Nothing herein shall be construed as licence or recommendation for use, which infringes upon
any proprietary rights of any person. Product material and specifications are subject to change without notice. Cellular Specialties’ standard terms of sale
and the specific terms of any particular sale apply.
Document Purpose / Intended Users
The purpose of this document is to provide a step-by-step procedure to help the experienced technician/engineer install
and commission an in-building wireless enhancement pilot beacon system. Following the procedures outlined will minimize
risks associated with modifying a live system and prevent service interruptions. This document assumes the technician/
engineer understands the basic principles and functionality involved with the system. It is geared to the practical concerns
of the installer.
Radio and Television Interference
Changes and Modifications not expressly approved by Cellular Specialties Inc. can void your
authority to operate this equipment under Federal Communications Commission’s rules.
Application
This guide should be applied whenever a need exists to add pilot beacon capability to an existing system or when this
capability is being included with a new installation.
Safety Guidelines
The general safety information in this guideline applies to both operating and service personnel. Specific warnings and
cautions will be found in other parts of this manual where they apply, but may not appear in this summary. Failure to comply
with these precautions or specific warnings elsewhere in the manual violates safety standards of design, manufacture, and
intended use of equipment. Cellular Specialties, Inc. assumes no liability for the customer’s failure to comply with these
requirements:
Grounding
This pilot beacon system is designed to operate from 100-240 VAC and should always
be operated with the ground wire properly connected. Do not remove or otherwise alter the
grounding lug on the power cord.
Explosive Atmospheres
To avoid explosion or fire, do not operate this product in the presence of flammable
gases or fumes.
Lightning Danger
Do not install or make adjustments to this unit during an electrical storm. Use of a suitable lightning arrester, such as
CSI’s model number CSI-CAP, is very strongly recommended.
No User Serviceable Parts Inside
HAZARDOUS VOLTAGES ARE PRESENT WHEN THE COVER IS REMOVED. Opening the chassis will void your
warranty. If you suspect a malfunction with this product, call your dealer or the Cellular Specialties Support Line at: (603)
626-6677, Toll Free (USA) 1-877-844-4274.
Important Safety Information
Antennas used for the purpose of radiating signals indoors are limited to a maximum gain of 3 dBi. Each antenna must be
positioned to observe minimum separation requirements from all users and bystanders. The following guidelines should be
used when considering separation distances.
INDOOR antennas must be placed such that, under normal conditions, personnel cannot come within 20 cm (~8.0 in.)
from any inside antenna. Adhering to this minimum separation will ensure that the employee or bystander cannot exceed
RF exposures beyond the maximum permissible limit as defined by section 1.1310 i.e. limits for General Population/Uncontrolled Exposure.
-4-
Acronyms and Definitions
3GPP2
The standards body comprised of representatives of interested companies that is responsible for the
development and maintenance of the operational standards for the CDMA2000 system. Http://www.3gpp2.
org
AGC
Automatic Gain Control
CDMA
Code Division (or, Domain) Multiple Access: The general term for the technology used in the CDMA2000
system as well as others. Also a shorthand reference to the CDMA2000 system and its derivatives such as
1xEV-DO
Chip
A single element, a ‘1’ or a ‘0’, of the PN Sequence in a CDMA system. The chip rate for the CDMA2000
system is 1.2288 Mchips/second.
CSI
Cellular Specialties Incorporated
DAS
Distributed Antenna System
ERP
Effective Radiated Power
EST
Even Second Tick: In the CDMA2000 cellular system all time values are referenced to the start of the even
seconds of time as indicated by GPS.
FCC
Federal Communications Commission
FPGA
Field Programmable Gate Array
GPS
Global Positioning System
IF
Intermediate Frequency
LED
Light Emitting Diode
NEMA
National Electrical Manufacturers Association
PA
Power Amplifier
PN
Pseudo random Number: A number chosen by some algorithm that approximates a random process. Can
be short for “PN Sequence”, “PN Number”, or “PN Offset” when discussing the CDMA2000 system.
PN Number
In the CDMA2000 system only a subset of the possible PN Offsets are used for base station identification.
Each of these allowed offsets is given a unique number from 0 to 511.
PN Offset
In the CDMA2000 System each base station is identified by the offset in time from the EST at which the
start of the Pilot PN Sequence occurs. The offset is specified in terms of number of chips.
PN Sequence
A sequence of pseudo random numbers. In the CDMA2000 system several such sequences are used. The
one relevant to ICEBreaker is the Pilot, or Short, sequence which is a 215 element long sequence of ones
and zeros.
PPS
Pulse per Second: Refers the pulse repetition rate of the timing signal used as a time reference.
RF
Radio Frequency
SBC
Single Board Computer
Tau
Timing Offset or Delay Adjustment: In the CDMA2000 system the timing of the downlink signal is required
to be aligned with the EST as it is transmitted from the antenna. Tau allows the timing of the internal PN
Sequence to be adjusted to compensate for the delays of the base station hardware such that the timing
will be correct at the antenna
USB
Universal Serial Bus
Product Introduction
The pilot beacon generator facilitates E911 and other location based services (LBS) for in building and/or DAS based installations
of CDMA2000/1xEV-DO cellular networks. In these situations the normal methods based for location determination, direct
reception of GPS by the mobile station or triangulation using the signals from multiple base stations, do not work. Signals from
the GPS system are sufficiently weak that even if the mobile station’s GPS receiver might ultimately be able to lock on to the
satellites, the acquisition time will be too long. And since indoor service is typically provided either by a single strong local cell
or by using a repeater, there aren’t multiple signals on which to triangulate while DAS based deployments result in too many
signals with indeterminate timing. By placing a pilot signal at a known PN offset the LBS algorithm can quickly and reliably be
made aware that it is within a specific building or other location where normal location determining solutions are ineffective. This
information can be used to aid the GPS receiver in acquiring signals if they are present or be used as a position report directly
until more accurate information becomes available.
-5-
Functional Overview
Electrical Characteristics
Mechanical Specifications
Parameter
Specification
Notes
Pilot Beacon Size
Height
1.73 in.
Width
19.00 in.
Depth
18.02 in.
8.4lbs / 3.8kg
Weight
Thermal Management
Fan Cooled
Powder Coat
Surface Coating
Satin Black
Color
AC Power Specifications
Parameter
Specification
100 - 240 VAC
AC Voltage
AC Current
1.7 Amps
0.9 Amps
AC Power Frequency
47 - 63 Hz
Heat Output
500 BTU/Hr
Notes
External Power Supply
@ 120 VAC
@ 230 VAC
Environmental Requirements
Parameter
Temperature Range
Relative Humidity
Industrial Dust
Specification
Notes
-30° to +48°C
(-22° to +118°F)
5% to 95%
<15mg/m3
-6-
Non-condensing
Telcordia GR-63-CORE
Mechanical Drawing
-7-
System Set-Up Considerations
All cables should be checked for shorts and opens. Also verify that there are no cables with loose or poor connections. It is critical
that the installer contact the service provider before the system is turned on.
Mounting the Pilot Beacon
The following diagram illustrates the best method for mounting the pilot beacon to a wall in an typical installation.
Wall Mounting
Rack Mounting
-8-
Warning: Power supply cable connector is keyed for proper orientation
and is designed to lock into place.
Keyed for proper
alignment, do not
force connector
into place.
Optional Accessories
A complete line of accessories is available from Cellular Specialties, Inc. Check with your CSI distributor for any additional items
needed. Below are just a few examples suitable for most in-building needs.
•Inside Omnidirectional Antenna
Quad-band - model number: CSI-AO/700/2.7K/3
Battery backup, 4 hr Single band
2 hour dual band - model number: CS48-985-601
•Power Dividers
2:1 - model number: CSI-SPD2/700-2.7K/N
3:1 - model number: CSI-SPD3/700-2.7K/N
4:1 - model number: CSI-SPD4/700-2.7K/N
•Directional Couplers
6dB - model number: CSI-DC6/700-2.7K/N
10dB - model number: CSI-DC10/700-2.7K/N
15dB - model number: CSI-DC15/700-2.7K/N
20dB - model number: CSI-DC20/700-2.7K/N
30dB - model number: CSI-DC30/700-2.7K/N
•Grounding Kit - model number: CSI-GKIT
•Lightning Arrestor - model number: CSI-CAP
-9-
Important Installation Notes
•
The installer should refer to the Safety Guidelines section and the Important Safety Information section for proper
antenna selection and installation. To avoid serious injury or death and damage to the pilot beacon, do not install server
antennas near overhead power lines or high power components. Allow enough distance so that if antennas should fall
they will not come in contact with those components.
•
Close proximity to the server antennas with the pilot beacon in operation may expose the user or installer to RF
fields that exceed FCC limits for human exposure.
WARNING!
PILOT BEACON AND/OR HANDSET DAMAGE MAY OCCUR IF A HANDSET IS CONNECTED DIRECTLY TO THE PILOT BEACON OR THE COAX THAT LEADS TO THE PILOT BEACON.
Powering Up the Unit
During Power up, the pilot beacon will require approximately three minutes for the internal computer to boot up.
During this time the LED on the front panel may light and go out several times. When boot is complete and no alarm
conditions exist, the LED indicators will be illuminated green.
Do not unplug the unit while it is in the boot up process!
Local Communication Interface Ports
To allow monitoring and control, the pilot beacon is equipped with four ports that provide external communication access (1
Ethernet CAT-5, 2 DB-9 serial, and 1 USB). The Ethernet, CAT-5 port is provided as a primary communications port to the
PC. One serial interface, COM 1, provides communications to local PC. The USB interface provides a means to download
files from a memory device. The DB-9 pin assignments of COM 1 conform to the standard Electronic Industries Association (EIA232) specification. A diagram of the pin descriptions is provided on this page for reference.
Connecting a null modem cable to the COM 1 port and using a terminal emulation program with a PC will allow communication to the control processor’s Text Menu Interface (TMI). See Text Menu Interface section for further detail.
The proprietary external GPS receiver connection is made at the port labeled “GPS”. Do not connect other devices or
non-straight-through serial extension cables to this port. Place the GPS receiver in a location with the best view of the
unobstructed sky that is possible, although a 100% open view of the sky is not necessary to achieve a stable time lock.
-10-
EIA232 Pin Specifications
The diagram above is for reference only, it’s intended to provide a quick source for pinout information in the event it should be
necessary to adapt your serial cable because of an unusual connector configuration. In the vast majority of cases this information will not be needed.
USB Interface
The Universal Serial Bus (USB) interface conforms to Intel’s Universal Host Controller Interface (UHCI) version 1.1 dated
March 21, 1996. This interface will support data transfer rates up to 12 Mbps and can be used for software updates.
Ethernet
The Ethernet AUI conforms to IEEE 802.3 and is capable of supporting 10/100 Mbps communications speeds. This port is
used to provide access to the UI.
Monitoring & Alarms
There are no physical connections provided to specifically communicate system or alarm status. This information is embedded
in the information accessible via the communication ports described earlier.
-11-
Web based GUI Session
Primary access to the unit is gained using a LAN connection and a web browser program such as Firefox by Mozilla, or Internet Explorer from Microsoft. The beacon ships with the default IP address of 192.168.1.100, but it can be changed later if required.
If connecting directly to the unit from a laptop or PC with a crossover CAT-5E cable or over a LAN the user types the IP address of
the unit into the browser address line to connect. (Note: Most users will need to update the TCP/IP settings on their computer to enable
connection to a host that has a static IP. Select “Use the following IP Address” and enter the IP Address as follows: 192.168.1.x, where
“x” = any number from 2 to 254 inclusive other than 100. The subnet mask is 255.255.255.0. Questions pertaining to these settings
should be referred to the user’s IT department or you may refer to the Additional Tips section at the end of this manual.) When connection is made the user will be prompted for a user name and password. For the purpose of the GUI session, the default user name is
webuser and the password is csi1234. This can also be changed as required. Internet access is not required to use the GUI. (Note: If
you are connecting using a laptop, verify that your Ethernet port is powered. Some laptops will not allow Ethernet connection when on
battery power. If this is the case with the laptop you are using you will need to plug it in or update the power settings.)
-12-
System Status
When login is complete the user is brought to the system status page. The links shown in the
navagation box on the left are activated by clicking on them.
Local Network
If the user selects Local Network from the System Status page, the following screen is displayed and
from here network configuration can be modified as required. The default is set to Static. Check with
your IT department for explanation and approval of the DHCP and DHCP Server options you plan to
use before you select them.
-13-
Beacon Control
The Pilot Beacon can transmit up to eight simultaneous CDMA2000 signals for a Cell band unit and eleven for a PCS band unit. The
carrier frequency for each signal is set by entering the desired CDMA channel number for that signal.
Thus, there are eight or eleven Channel Number fields, one for each of the possible signals.
The CDMA channel number is a unitless integer value with a split range of 1 to 799 and then 991 to 1023 for cell band, 1 to 1199 for PCS
band and 1-899 for AWS band. Duplicate channel numbers are not allowed.
The default values for the Cell Band are:
Signal 1:
Signal 2:
Signal 3:
Signal 4:
Signal 5:
Signal 6:
Signal 7:
Signal 8:
CDMA Channel 384
CDMA Channel 425
CDMA Channel 466
CDMA Channel 507
CDMA Channel 548
CDMA Channel 589
CDMA Channel 770
CDMA Channel 729
Signal Transmit Enables
The default values for the PCS Band are:
Signal 1: CDMA Channel 1
Signal 2: CDMA Channel 2
Signal 3: CDMA Channel 3
Signal 4: CDMA Channel 4
Signal 5: CDMA Channel 5
Signal 6: CDMA Channel 6
Signal 7: CDMA Channel 7
Signal 8: CDMA Channel 8
Signal 9: CDMA Channel 9
Signal 10: CDMA Channel 10
Signal 11: CDMA Channel 11
The default values for the AWS Band are:
Signal 1: CDMA Channel 1
Signal 2: CDMA Channel 2
Signal 3: CDMA Channel 3
Signal 4: CDMA Channel 4
Signal 5: CDMA Channel 5
Signal 6: CDMA Channel 6
Signal 7: CDMA Channel 7
Signal 8: CDMA Channel 8
Signal 9: CDMA Channel 9
Signal 10: CDMA Channel 10
Signal 11: CDMA Channel 11
Each of the eight or eleven signals can be individually turned on or off. There is one transmit enable field for each signal.
PN Offset
The PN Offset is a unitless integer value with a range of 0 to 511. The default value is zero.
Tau (Delay Correction)
Tau is a real value in units of microseconds with a range of 0 to 5.2 µsec and two decimal places of precision. Internally the value will be
rounded to the nearest 1/40th of a CDMA chip. The test equipment reads “Tau” as follows: Positive tau means the signal is llate. Negative is opposite. The tau “setting” on the unit works as follows: Positive tau is “back to the future” which means it creates the RF signal at
a sooner time than zero tau. Negative tau is opposite. When one sees a positive tau on the test equipment, and wishes to “zero” it, the
value of tau in the UI must be reduced to “zero it”.
Pilot Beacon Per Channel Transmit Power
This setting controls the CDMA Channel Power output by the Pilot Beacon for each carrier. All enabled carriers are transmitted at the
same power level. The total transmit power will be the sum of the power of all enable carriers. The user must set this power level such
that the total transmit power does not exceed the specified maximum transmit power for the Pilot Beacon.
The Output Power is specified in dBm with a range of 0.5 to 19.0 and a resolution of 0.5.
Composite Transmit Power
Composite output power is a display only field. The value is calculated from the Per Channel Tx Power and the number of channels that
are enabled.
Timing Reference Selection
There are three alternatives for the timing reference source.
GPS 1 Pulse Per second (default)
GPS Even Second Sync1
External Even Second Sync
-14-
Location Information
This page will allow the user to enter address information for the beacon and will display GPS coordinates.
Remote Network
If the beacon includes a modem kit, click on Remote Network in the navigation box and the screen above is displayed.
Highlight the carrier on whose network the repeater and modem will be configured and click the Change Settings button. Refer to the
documentation included with the modem kit for additional information on configuring the modem.
-15-
SNMP Configuration
To change SNMP settings click SNMP Configuration in the navigation box, the screen above will be displayed. If the user is not well
versed in Simple Network Management Protocol he or she should check with their IT professional for proper setting requirements.
-16-
System Health
By clicking System Health the current state of the repeater can be reviewed.
****
***
***The user may clear LED indicators, alarms and the Event Log by clicking the Clear Log button.
**** If required, the user may visit the “System Health” screen and click on “Trigger Test Alarm” and wait for confirmation that the Service
Provider representative that is responsible for monitoring the unit has been notified of the alarm. Be sure to “Clear All Logs” prior to logging out of the Web Interface.
-17-
Install & Upload
Should a software install or upgrade be needed it can be done from the Install & Upload screen shown above. As with the other
screens it can be reached by clicking the words in the navigation box. Contact CSI for updates and instructions.
-18-
Reboot
Alarm Configuration
If a reboot of the repeater becomes necessary click on the
Reboot option in the navigation box and the Reboot page is
displayed.
The Alarm Configuration page allows the user to specify what
events will trigger an alarm.
*NOTE: Letters, numbers & hyphens are the only acceptable
nomenclature for the Location field and hyphens may not be
used as the first or last character.
User Maskable Alarms
Time Synch Alarm
The Time Synch Alarm is issued when the specified timing synchronization signal is lost. The alarm is disabled during the power up sequence of the pilot beacon, which includes a wait time for the signal to become available, to prevent extraneous alarms.
GPS Alarm
The GPS Alarm is issued when the Pilot Beacon is not receiving the expected GPS NMEA sentences. This alarm is automatically disabled when the selected Time Synch Source is any choice other than “GPS 1PPS”.
Software Abort Alarm
The Software Abort is generated when there is a error with the software resources like the shared memory, message queues, semaphores, file mounting and un-mounting, menu interface configuration.
Software Error Alarm
The Software Error is generated when there is an error in getting or setting parameters like getting PA status, temperature or setting
filters.
Property Failure Alarm
The Property Failure Alarm is generated when there is an error in checking the file properties or opening a file.
Phase Lock Alarm
The Phase Lock Alarm is generated whenever any of the phase locked loops that generate the local oscillator for the upconverter, the
clocks for the DACs, or the FPGA clock are unable to lock.
FPGA Programming Alarm
The FPGA Programming Error is issued when the software is unable to correctly program the FPGA that performs the real time signal
processing. This error could result from either a hardware fault or a corrupted programming file.
Hardware Control Alarm
The Hardware Control Error is issued whenever the software is unable to set the hardware to the correct configuration.
-19-
Email Configuration
Email Configuration page allows the user to enter up to five Email addresses to which the repeater can send specified alarm messages
when Email Alarm Notification and Remote Networking are enabled, and the repeater is equipped with an active wireless modem.
*NOTE: In all fields the software will not allow the user to enter invalid characters.
-20-
Log Configuration
The Log Configuration page provides the user with the means to modify three aspects of how log
files are created and stored as shown below.
Change Password
By clicking on the Change Password link the user is brought to the Change Password page. From here he or she can quickly
and easily reset the password for the unit. A word of warning here be careful when setting the new password. If you forget
what you set your password to you’ll need to contact CSI at 1-877-844-4274 for assistance.
To end the session exit the browser, the user will be automatically logged out.
-21-
Text Menu Interface (Local Access)
Local access to the pilot beacon TMI, also known as the console interface, is made by connecting a serial cable (optional), as shown
in figure 1, from the serial connector of the laptop the serial port on the bottom end panel of the pilot beacon. This connector is labeled
COM In some cases, if the gender of the connector is not the same as shown in figure 1, a null modem adapter (optional) as shown in
figure 2 may also be required.
Figure 1
Figure 2
-22-
Many terminal emulation programs will work if properly configured. In the following description, “TeraTerm” is used to establish the TMI
session. This program is readily available via the Internet and is free from Ayera Technologies at:
http://www.ayera.com/teraterm/
TeraTerm Pro Web works on Windows 95/98, 2000, XP. Here is the latest TeraTerm Pro Web release:
Version 3.1.3, October 8, 2002. ttpro313.zip
When the program is started, the following screen is displayed.
Select the Serial radio button and press OK as shown below.
Note: It may be necessary, in the System Properties section of the control panel; using Device
Manager to determine what COM port your computer uses for the communications port. In this case it is COM 1. This is not to be confused with the serial port on the bottom panel of the repeater labeled COM 1.
-23-
Pressing “OK” will open up a blank dialog screen. Go to the setup dropdown menu and select Serial port to make changes to the serial
port setup.
Configure the terminal program for the correct COM port, in this case COM 1 and 115200 baud rate as shown below.
-24-
User Interface
Login
Once the unit has completed its boot up and link initialization phases it will display the login prompt. The username is “user” and the
password is “csi1234”.
Main Menu
Upon successful login the unit displays the main menu.
When “Set Parameters” is first selected the unit will ask for the maintenance mode login. (The default username for
the maintenance mode is “csi” and the password is “csi1234”.)
Once the maintenance mode login is performed successfully the main menu will be displayed again but without the “(Disabled)”
qualifier on the “Set Parameters” choice.
Set Parameters Menu
-25-
Pilot Beacon Configuration Menu
Pilot Beacon Configuration is entered by pressing
the number 1 from the Set Parameters menu and
the above screen is displayed. The same level
of control is available as with that described for
the GUI. Examples of each selection screen is
shown to the left.
-26-
Networking Configuration Menu
The Networking configuration menu is entered by
pressing the number 2 from the Set Parameters
menu and the above screen is displayed. The
same level of control is available as with that
described for the GUI. Examples of each
selection screen is shown to the left.
-27-
Telnet Session (Remote Access)
Remote access to the pilot beacon may be gained through a LAN connection and a terminal emulation program for TCP/IP. As with the
serial connection, many terminal emulation programs will work, if properly configured. In the following description, “TeraTerm” is used to
establish the Telnet session. Also, it will be required that the network configuration of the computer and the pilot beacon being controlled
be set up with the same Sub Net and Sub Net Mask in order to establish a link. In other words, the IP addresses of both the computer
used and the pilot beacon must use the same group of IP address number sets. For example, the pilot beacon ships with the default IP
address of 192.168.1.100 and a Sub Net Mask of 255.255.255.0. In order to connect, the computer to be used for the link would normally
need an IP address of something like 192.168.1.12 with a Sub Net Mask of 255.255.255.0, the same Sub Net Mask as the pilot beacon.
In this example note: the last digit of the IP address may be any number except 1,100 and 255. Configuring your PC is normally fairly
straight forward but it does vary somewhat with the operating system involved. If you require assistance, contact your IT department and
they will be able to set up your PC for you or you may review the Additional Tips Section at the end of the manual.
When the TeraTerm program is started, the following screen is displayed. Change the default host IP address to the IP address of the pilot beacon to be controlled. In the case of a new install, the default address is 192.168.1.100 and has been assigned at the factory. Select
the service Telnet. The TCP Port must be 23.
Pressing the “OK” button will bring the user to the following screen, which will require the user to log in. The default user name is
“user”. The default password is “csi1234”.
In the field after the prompt “DSP85-cell-X login;” type the user name and password. After typing the password press the enter key and
the main menu will be displayed as shown in the text menu section.
Telnet and serial sessions both provide access to the same Text Menu Interface. We have already shown many of the options available
and all are self explanatory, so they will not be repeated.
-28-
Additional Tips
Instructions to change TCP/IP settings on your Windows computer.
Click in the Network Connections Icon in the Control Panel. See below.
Right click on Local Area Connection - and select “Properties”.
Scroll down to “Internet Protocol (TCP/IP) and click on the “Properties” button.
-29-
If you are set up to use DHCP, the window shown below will be displayed.
Select “Use the following IP address:” and enter “192.168.1.2.” The subnet mask should automatically populate to “255.255.255.0”.
Nothing else will need to be chosen or entered. Click “OK”, then “OK again and retry connection.
A crossover Ethernet cable (supplied) must be used for Web Interface access. As a reminder, you must verify the Ethernet port on your
laptop is powered. If your laptop is on battery power, the Ethernet port may be inactive by default. If this is the case simply plug in the
laptop to a 110vac source or change the power settings to enable the Ethernet port when the laptop is using battery power.
-30-
One Year Limited Warranty
Seller warrants that its products are transferred rightfully and with good
title; that its products are free from any lawful security interest or other lien
or encumbrance unknown to Buyer; and that for a period of one year from
the date of installation or fifteen months from the date of original shipment,
whichever period expires first, such products will be free from defects in
material and workmanship which arise under proper and normal use and
service. Buyer’s exclusive remedy hereunder is limited to Seller’s correction (either at its plant or at such other place as may be agreed upon between Seller and Buyer) of such defects by repair or replacement at no cost
to Buyer. Transportation costs in connection with the return of products
to Seller’s plant or designated facility shall be paid by Buyer. The provisions of this warranty shall be applicable with respect to any product which
Seller replaces pursuant to it. SELLER MAKES NO WARRANTY, EXPRESS
OR IMPLIED, OTHER THAN AS SPECIFICALLY STATED ABOVE. EXPRESSLY EXCLUDED ARE THE IMPLIED WARRANTIES OF MERCHANTABILITY
AND FITNESS FOR PURPOSE. THE FOREGOING SHALL CONSTITUTE ALL
OF SELLER’S LIABILITY (EXCEPT AS TO PATENT INFRINGEMENT) WITH
RESPECT TO THE PRODUCTS. IN NO EVENT SHALL SELLER BE LIABLE
FOR SPECIAL, CONSEQUENTIAL OR INCIDENTAL DAMAGES, INSTALLATION COSTS, LOST REVENUE OR PROFITS, OR ANY OTHER COSTS OF
ANY NATURE AS A RESULT OF THE USE OF PRODUCTS MANUFACTURED
BY THE SELLER, WHETHER USED IN ACCORDANCE WITH INSTRUCTIONS
OR NOT. UNDER NO CIRCUMSTANCES SHALL SELLER’S LIABILITY TO
BUYER EXCEED THE ACTUAL SALES PRICE OF THE PRODUCTS PROVIDED HEREUNDER. No representative is authorized to assume for Seller any
other liability in connection with the products.
Industry Certifications/Registration Numbers:
-31-
Index
Networking Configuration Menu 27
null modem adapter 22
AC Current 6
AC Power Frequency 6
AC Power Specifications 6
AC Voltage 6
Acronyms and Definitions 5
Additional Tips 29
Alarm Configuration 19
Application 4
Optional Accessories 9
Phase Lock Alarm 19
Pilot Beacon Configuration Menu 26
Pilot Beacon Per Channel Transmit Power 14
PN Offset 14
Power supply cable connectors 9
Powering Up the Unit 10
Product Introduction 5
Product Registration Information 4
Property Failure Alarm 19
Beacon Control 14
Box Weight 6
Circuit Operational Description 13, 14, 15, 16, 17, 19
Composite Transmit Power 14
Reboot 19
Relative Humidity 6
Remote Network 15
Depth 6
FPGA Programming Alarm 19
Functional Overview: 6
serial cable 22
Set Parameters Menu 25
Signal Transmit Enables 14
SNMP Configuration 16
Software Abort Alarm 19
Software Error Alarm 19
Surface Coating 6
System Health 17
System Set-Up Considerations 8
System Status 13
GPS Alarm 19
Grounding 4
Tau (Delay Correction): 14
TCP/IP settings 29
Telnet Session 28
Temperature Range 6
terminal emulation programs 23
Text Menu Interface 22
Thermal Management 6
Time Synch Alarm 19
EIA232 Pin Specifications 11
Email Configuration: 20
Environmental Requirements 6
Event Log 17
Explosive Atmospheres 4
Height 6
Important Installation Notes 10
Industrial Dust 6
Industry Certifications/Registration Numbers 31
Install & Upload 18
Install Software 18
USB Interface 11
User Interface 25
User Maskable Alarms 19
Lightning Danger 4
Limited Warranty 31
Local Communication Interface Ports 10
Local Network 13
Location Information 15
Log Configuration 21
Login 25
Wall Mounting the Pilot Beacon 8
Warranty 31
Web based GUI Session 12
Width 6
Main Menu 25
Mechanical Drawing 7
Mechanical Specifications 6
Monitoring & Alarms 11
-32-
Notes
Notes
Notes
960-1046-001 rev D ECOxxxx

---

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