EMS Technologies 004SEKO8 800 MHz ESMR Band EkoCell Repeater User Manual MANUAL

EMS Technologies Inc 800 MHz ESMR Band EkoCell Repeater MANUAL

Users Manual

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Document ID23956
Application IDedtmhQkrlnFdOlJUx0AIEA==
Document DescriptionUsers Manual
Short Term ConfidentialNo
Permanent ConfidentialNo
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Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize104.83kB (1310318 bits)
Date Submitted1999-02-18 00:00:00
Date Available1999-04-26 00:00:00
Creation Date0000-00-00 00:00:00
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Document Lastmod0000-00-00 00:00:00
Document TitleMANUAL.PDF
Document CreatorMicrosoft Word
Document Author: John O'Brien

TABLE OF CONTENTS
1.0
2.0
3.0
4.0
5.0
Product Description
EkoCel, System Block Diagram
2.1
EkoCel, Hub Block Diagram
2.2
EkoCel, Microcell Block Diagram
Description of EkoCel Fiber Optic Microcell System
3.1
Hub
3.2
Microcell
Description of the Hub Unit Modules
4.1
Fiber Optic Transceiver
4.2
Modem
4.3
RF Detector
4.4
4-Way Splitter/Combiner
4.5
DC/DC Converter
4.6
Hub Interconnect Module
4.7
Controller Module
4.8
AC Power Supply
4.9
Telco Modem
4.10 Duplex, Base Station Interface
4.11 Combiner Option
4.12 Cross Band Operation Option
4.13 Wave Division Multiplexer (WDM)
4.14 Optical Expansion Module
Description of the Microcell Unit Modules
5.1
Fiber Optic Transceiver
5.2
RF Modem
5.3
LNA/Driver Module
5.4
Duplexer
5.5
Lightning Arrestor
5.6
Power Amplifier Module
5.7
Heater/Thermostat Option
5.8
Microcell (Remote) Control Interface Module
5.9
Power supply for 1.9 GHz and 800 MHz
5.10 Main/Battery Back Up (BBU) Assembly Option
5.11 Fan Control/Alarm Module
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
6.0
7.0
8.0
9.0
Identification of Hub
6.1
Front Panel Layout
6.2
Rear Panel Layout
6.3
Hub Components Layout
6.4
Optical Transceiver
6.5
Wave Division Multiplexer
6.6
System Interconnect
700-1005 Interconnect Module Board
Input Connectors
Controls
Terminal Strip
Attenuators
Output to Up Link Combiner RF Inputs
Input to Optical Transceiver RF Out
Other
700-1001 Board
Identification of Microcell
7.1
Left Panel, A Single Band
7.2
Left Panel, Dual Band
7.3
Door Panel Microcell
7.4
Back (Heat Sink) Microcell (EKO-8) (EKO 1.9R)
7.4b Back (Heat Sink) Microcell (EKO-1.9M)
7.5
Base Bottom
7.6
Triplexer
7.7
System Interconnect
Software Control Module
8.1
Microcell (Remote) Unit Controller
8.1.1 Basic Interface
8.1.2 System Setup
8.1.3 User Settings
8.1.4 Alarms
8.2
Hub Unit Controller
8.2.1 Basic Interface
8.2.2 System Setup
8.2.3 User Settings
8.2.4 Alarms
8.3
RS 232 Port Communications
8.3.1 Terminal Interface Displays
Installation
9.1
Introduction
9.2
Getting Started
9.3
Mounting Hub Hardware
9.4
Mounting the Microcell Unit
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10.0
9.5
EkoCel 1.9 System Set Up Instructions
9.5.1 CDMA Down Link Set Up
9.5.2 CDMA Up Link System Set Up
9.5.3 GSM Down Link Set Up
9.5.4 GSM Up Link System Set Up
9.5.5 TDMA Down Link Set Up
9.5.6 TDMA Up Link System Set Up
9.5.7 Down Link Set Up for EKO-8 System
9.5.8 Up Link System Set Up for the System
9.6
Calibration Table – U2
9.6.1 Calibration Table – U3
9.6.2 Calibration Table - U5
Trouble Shooting and Maintenance
10.1 Trouble Shooting Guide
10.2 Understanding Maintenance Inputs/Alarms
10.3 Module Replacement Procedures
Appendix
A.
Specifications
A1.
2 Watt CDMA 1.9 GHz
A2.
2 Watt GSM 1.9 GHz
A3.
2 Watt IS-136 1.9 GHz
A4.
4-5 Watt 800 ESMR & Cellular
A5.
8 Watt CDMA 1.9 GHz
A6.
8 Watt GSM 1.9 GHz
A7.
8 Watt IS-136 1.9 GHz
B.
C.
D.
E.
Model Number Identification (1.9M) 2 watt
Model Number Identification (800M)
Model Number Identification (1.9R) 8watt
Frequency Bands
Channel Plans
E1.
CDMA 1.9 GHz
E2.
CDMA 900 MHz
E3.
GSM 1.9 GHz
E4.
IS-136 1.9 GHz
F.
H.
Glossary of Terms
Product Warranty
CI Wireless Inc.
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CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
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EkoCel
 FIBER OPTIC MICROCELL SYSTEM
1.0
PRODUCT DESCRIPTION
The EkoCel™ Fiber Optic Microcell System will support CDMA, PCS 1900, IS-136 or
AMPS system formats. EkoCel provides system coverage enhancement by remoting
the base station RF receive and transmit via a fiber optic connection to a location
requiring coverage. EkoCel is designed to meet or exceed applicable base station and
FCC emission standards. The EkoCel enhanced specifications provide minimal impact to
the overall system performance. EkoCel is comprised of two major components the
Microcell (Remote) Unit, which is remotely located in the area being provided service
and the Hub Unit, which is located at the base station. EkoCel will support multiple RF
channels on all PCS system formats and up to 24 channels for AMPS Cellular. Several
options are available including, Wave Division Multiplexing (WDM), diversity receive,
battery back up and duplex interface at the base station. EkoCel is supplied in all of the
PCS bands A to F and is also available in a dual band operation configuration. The dual
band unit will support both 1.9 GHz PCS and 800 MHz Cellular system over the same
fiber optic cable.
EkoCel is designed to meet the service provider requirements for Operations,
Administration, Maintenance and Performance (OAM&P). Alarm and control of the
system is accessible at the Microcell hub, remote unit or via a telephone (wire or
wireless) modem connection. Relay contacts also allow the user to remote the alarms
with the base station alarm system with user defined contacts. This allows the service
provider to have instant alarm notification at the Network Operation Control Center
(NOCC) without additional specialized hardware and software, commonly referred to as
an Element Management System. This provides simplicity and cost savings to the user.
Both the hub and the microcell remote are equipped with a display and function keypad
allowing the user easy access to alarms and system controls without additional
equipment. Three levels of security are provided to prevent unauthorized access to the
system.
EkoCel has a patent pending self-set up and system control feature that will allow the
system to automatically set up for the user defined system requirements. EkoCel
automatically adjusts gain and power based on the number of RF channels, system
format, system input power and optical loss. The system continues to monitor system
performance and alert the user of any system changes that requires additional real time
compensation.
EkoCel was developed specifically for use as a fiber optic microcell. It specifically
addresses the problem of system set up which has always been an issue with fiber optic
systems. The patented closed loop control system provides for long term changes in the
fiber optic system that occurs without continued maintenance monitoring. Since the
microcell is a remote antenna interface the design is specifically tailored for this
application. The up link amplifier has a low noise figure and a high 3rd order intercept
point. The downlink signals are coupled from the base station and do not require
CI Wireless Inc.
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channelization to prevent the amplification and re-radiation of unwanted signals. Alarm
reporting is accomplished at the hub not at the remote unit, which would require a
subscriber phone or telephone modem to be mounted in a harsh environment that they are
not typically designed for.
2.0
EkoCel
 FIBER OPTIC MICROCELL SYSTEM BLOCK DIAGRAM
CI Wireless Inc.
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2.1
EkoCel
, HUB UNIT BLOCK DIAGRAM (Single Band)
2.2
EkoCel
, HUB UNIT BLOCK DIAGRAM (Dual Band)
CI Wireless Inc.
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2.3
EkoCel
, MICROCELL UNIT BLOCK DIAGRAM (Single Band)
2.4
EkoCel
, MICROCELL UNIT BLOCK DIAGRAM (Dual Band HOST)
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2.5
EkoCel
, MICROCELL UNIT BLOCK DIAGRAM (Dual Band Slave)
3.0
DESCRIPTION OF EkoCel
 FIBER OPTIC MICROCELL SYSTEM
3.1
Hub Unit
The Hub unit provides the hardware interface to the base station and the fiber
optic systems that will transport the RF signals to the Microcell Units.
The Hub unit with Expandable option will support up to 4 Microcell Units by
installing additional Fiber Optic Transceivers. Each of these Microcell Units will
be individually alarmed and controlled. The optical path to each of the Microcell
Units may be up to 20 kilometers in length.
Reference: 2.1 and 2.2
3.2
RF Microcell (Remote) Unit
The Microcell Unit provides all of the electronic hardware to interface to the
fiber optic interconnect and the required amplifiers to process the up link and
down link RF signals. The up link and down link signals are duplexed to a single
radiating antenna via a coaxial cable. Access to alarms and controls for the hub
and other Microcell Units are available via the control module.
Reference: 2.3 , 2.4 and 2.5
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4.0
DESCRIPTION OF THE HUB UNIT MODULES
4.1
Fiber Optic Transceiver
The Fiber Optic Transceiver provides the RF signal transmission and reception
via the fiber optic cable between the hub and microcell units. Alarm monitor
outputs are provided to the control module to provide real time monitoring of the
operational performance. The down link transmitted optical signal is 1550 nm
wavelength and the up link received optical signal is 1310 nm wavelength. The
different optical wavelengths allow the addition of wave division multiplexing
(WDM) to any unit. This also reduces the requirement for maintenance spares in
mixed system.
4.2
RF Modem
The RF Modem module provides several functions in the RF signal path. The
modem provides the data receive and data transmit path between the hub and the
microcell units with communication links being RS485. The data is transmitted
on a RF carrier on the down link path in the 460 to 512 MHz band and received
on the up link path on the same selected RF channel. These signals are coupled
with the carrier signals with a directional coupler or triplexer. The RF modem
receiver reports the RSSI level to the controller to calculate the RF and up link
optical path loss. The controller also uses this reading to adjust the up link
attennuator to the proper setting for desired carrier signal level.
4.3
RF Detector
The down link RF carrier level is monitored by the controller as part of the
closed loop gain control and auto set up system. This level is reported as Base
Station input RF power level and laser input level. The operator can view the RF
detected level as desired for maintenance, installation and system set up.
4.4
Splitter/Combiner
The Splitter/Combiner allows the input and output RF signals to the base station
to be split to 4 paths to serve the optional system capability to support up to four
remote microcell units. The hub will support the expansion of four fiber optic
transceivers. A splitter output on the down link is used to couple signal to the RF
detector and one up link combiner output is used to couple signal to the RF
modem.
4.5
DC/DC Converter
The DC to DC converter provides the required conversion of DC levels required
internal from the 18-36 VDC supply voltage provided by the user from the base
station power source. Since the base station is automatically backed up by
battery power no additional back up power source is required by the hub unit.
4.6
Hub Interconnect Module
The Hub interconnect module provides the interface between the controller
module, the RF modem, fiber optic modules and the up link RF path signal
attenuators to the control circuits. It also provides user alarm interface and DC
distribution to all modules.
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4.7
Controller Module
The Controller module provides the monitoring and control of the alarm and
control functions of the hub and microcell units. These alarms and controls can
be addressed and displayed by the function keys and display on the front of the
control unit. The controller also supports either a hyper terminal connection or a
optional modem. Alarms are instantly reported either via an optional modem
connection or by the base station alarm function using the relay alarm contacts on
the Hub interconnect module. Normally the two alarm relays are set up to alarm
Hub on relay 1 and Microcells on relay 2. The technician can access the control
and alarm system via the hyper terminal or optional telephone modem and
determine the actual alarm and system status.
OPTIONAL MODULES;
4.8
AC Power Supply
The optional AC power supply allows the hub unit to operate from the AC
primary power source. This option deletes the DC/DC converters.
4.9
Telco Modem
The telco modem provides the optional ability to remotely connect to the hub
control module and access system alarms and controls. This option uses the
Local Hyperterminal output and it is not available for use when this option is
selected.
4.10
Duplex, Base Station Interface
The duplex base station interface option provides the required duplexer and
cabling changes required for a single TX/RX input connection from the base
station.
4.11
Combiner Option
The combiner option provides multicarrier interface (see Figure 2.1).
4.12
Cross Band Operation Option
The cross band operation option provides the triplexing, cabling and hardware
changes for the combining of PCS 1.9 MHz signals with the Cellular 800 MHz
signals and the RF modem signal to a common input/output to/from the fiber
optic module. (Reference Figures 2.2 and 2.4).
4.13
Wave Division Multiplexer (WDM) Option
The WDM module allows the 1550 nm down link and the 1310 nm up link
optical signals to be duplexed onto a single fiber optic cable. The WDM mounts
externally at the Hub location, on a 19-inch rack mountable tray assembly. One
WDM module is required for each optical transceiver the Hub is equipped with.
Each Microcell will also require a WDM option which mounts internally in the
unit.
4.14
Optical Expansion Module
The fiber optical expansion module is required at the Hub for each Microcell unit
added to the EkoCel Fiber Optic Microcell System and may be expanded up to
a total of four per hub.
CI Wireless Inc.
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11
5.0
DESCRIPTION OF THE MICROCELL UNIT MODULES
5.1
Fiber Optic Transceiver
The Fiber Optic Transceiver provides the RF signal transmission and reception
via the fiber optic cable between the hub and microcell units. Alarm monitor
outputs are provided to the control module to provide real time monitoring of the
operational performance. The down link received optical signal is 1550 nm
wavelength and the up link transmitted optical signal is 1310 nm wavelength.
5.2
RF Modem
The RF Modem module provides several functions in the RF signal path. The
modem provides the data receive and data transmit path, via RS485, between the
hub and the microcell units. The data is received on a RF carrier on the down
link path on a channel between 460 to 512 MHz and transmitted on the up link
path on the same channel carrier. The down link modem carrier is decoupled
from the PCS carrier signals with a directional coupler or triplexer and a low pass
filter. The PCS up link carrier signals from the LNA/Driver module are coupled
to the fiber optic module input combined with the RF modem carrier with a
directional coupler or triplexer
5.3
LNA/Driver Module
The LNA/Driver module is divided into two sections. The LNA section which
has moderate gain and a very high third order intercept point of 32 dBm and a
low noise figure of <1.5 dB. The LNA is coupled outside of the module through
a SMA/F connector to a band selective band pass filter. Future options, which
may require higher selective filtering, utilizing active filtering can also be
accommodated. Optional filtering could allow channel selective or tighter band
selective filtering. The high performance LNA achieves a superior system
dynamic range. This prevents overdrive from undesired out of band signals
which are could be received at higher than desired signal levels.
The driver input is coupled into the module through a SMA/F connector. The
driver has limit peaking of high level injected signals which will prevent
overdriving and damaging the laser. Overall gain of the LNA and driver is 49
dB. This provides for maximum sensitivity of the system at the maximum
allowable optical loss of 10 dB. (10 dB of optical loss is equal to 20 dB RF loss.
This insures an overall system noise figure of <6 dB.
Versions of LNA/Driver Modules:
1.850 - 1.910 GHz
806 - 849
MHz
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5.4
Duplexer
The duplexer couples the down link transmitted signals and the up link received
signals to a common antenna output which allow band selective or full band
system operation.
5.5
Lightning Arrestor
The lightning arrestor is to provide maximum protection from the environment.
Throughput energy ≤0.5 µJ (8/20µs at 3kA). DC blocked for maximum
equipment protection. N/female connection to the RF input/output.
5.6
Power Amplifier Module
The power amplifier module provides amplification for the down link signals
which are coupled through a directional coupler from the fiber optic receiver. It
also provides for gain level setting with a FET attenuator on the input which is
voltage controlled by the controller. The system gain can be adjusted in <1 dB
steps by the controller. The output power is monitored via a directional
coupler/detector circuit on the output of the PA. The detected power reading is
sent to the control module and is used for auto system set up and monitoring of
power by the user for maintenace and manual adjustments.
The power amplifier module also contains a circuit, which monitors the base
plate temperature. Should the base plate temperature rise above a safe level
(75° C.) an alarm will be generated which is monitored and reported by the
control module. The power amplifier will also shut down until the base plate
temperature is reduced to 60° C. at which time the PA will turn back on.
Although the alarm will clear it will retain the status that a PA temperature alarm
was activated for maintenance personnel to review the cause.
Versions of Power Amplifiers:
1.9M 3 watt Linear, 1.930 - 1.990 GHz
1.9R 12 watt Linear, 1.930 - 1.990 GHz
800M 8 watt Linear, 851 - 866 MHz or 869 - 894 MHz
5.7
Heater/Thermostat (Optional)
The heater provides a means to heat the enclosure to improve the performance at
lower temperatures and to extend the operating temperature range to –40° C.
5.8
Microcell (Remote) Control Interface Module
The Microcell (Remote) Control interface module provides circuits to set units’
address and calibration controls for RF power and down link RF and optical loss.
The controller also monitors the enclosure ambient temperature and provides
electronic compensation for low temperature operation if required. The DC to
DC converter provides +5 VDC and –5 VDC for operation of the laser modules.
DC distribution to the controller, optical receiver, optical transmitter, and RF
modem is provided via this interface module.
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13
5.9
Power Supplies for 1.9 GHz and 800 MHz
The power supply for the 1.9M (2 watt) units provide 12VDC @ 12.5 amps to
the internal electronics from a primary input power of 100 VAC to 240 VAC at
50 to 60 Hz.
The power supply for the 800M (4-5 watt) units provide 28 VDC @ 10 amps
max and 12 VDC @ 4 amps. It also contains circuitry for DC transfer from main
power to standby DC power plus circuitry for distribution of DC and alarming
control interconnect to other modules. Transfer from main power to standby DC
is included.
The power supply for the 1.9R (8 watt) units provide 12 VDC @ 29 amps max.
It also contains circuitry for DC transfer from main power to standby DC power
plus circuitry for distribution of DC and alarming control interconnect to other
modules. Transfer from main power to standby DC is included.
5.10
Main/Battery Back Up (BBU) Assembly Option
The Main/BBU Assembly provides the transfer of primary power from the AC
power supply output of 12 VDC to the battery back up 13.6 VDC supply should
primary AC power fail. 1.9M (2 watt) units only.
5.11
Fan Control/Alarm Module
The fan control and alarm module provides the control and alarm interface to the
heat exchanger fans and the power amplifier thermal alarm. The module senses
the temperature of the heat sink and activates the heat exchanger fans when the
level rises to a preset level, typically 45 C. The heat exchanger has 3 muffin
fans that are individually controlled and alarmed by the module. Each fans
rotation is monitored, if a fan fails an alarm is sent to the controller for reporting
from the module. A single fan failure will not affect the operation and
performance of the unit. The failed fan will however be shutdown to reduce
current draw. The power amplifier thermal alarm is summed with the fan alarm
on the same analog input to the controller as different voltage levels.
5.12
DC Interface Module
The DC Interface module is used in the 1.9M (2 watt) Remote only. This module
provides DC supply filtering and interconnection to the power supply, BBU DC
input, and DC distribution connection to all other modules in the unit.
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14
6.1 Front Panel
6.2 Back Panel Hub
Base Station
Receive
Base Station
Transmit
Primary Power AC input
115VAC/60Hz
(optional)
Primary Power Input
24 VDC (18-36 VDC)
Local Alarm
Input
(D5 & D6)
TO Base Station
Alarm Inputs
(Hub Relay outputs)
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6.3 Hub Component Layout(Front Down)
6.3 Hub Component Layout(Back Down)
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6.4 Optical Tranceiver
Fiber Optic Tranceiver Interconnect:
RF Input RF Output D-sub
Transmit Splitter output, RF cable
AT 1 through AT 4 of appropriate attenuator on 700-1005, RF cable
J3 through J6, 10 conductor ribbon cable
6.5 Wave Division Multiplexer (Optional)
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6.6 Hub Interconnect Module
700-1005 Board Located on the Base Plate (Hub Interconnect Module)
Input Connectors
J1 - Ribbon Cable Connecting to the Controller Top Board Ass’y, (nearest LCD display &
Power Lead)
J2 - Ribbon Cable Connecting to the Controller Bottom Board Assembly (nearest keypad)
J3 - Fiber Optical Transceiver 1, RF OUT
J4 - Fiber Optical Transceiver 2, RF OUT
J5 - Fiber Optical Transceiver 3, RF OUT
J6 - Fiber Optical Transceiver 4, RF OUT
J7 - 1.9 GHz TX Power In Detector
J8 - 800 MHz TX Power In Detector
J9 - Power Input 12 VDC from AC Power Supply *Jumper Pin 1 to 3 for 24 VDC Operation
J10 - RF Modem
J11 - RS 485
Controls
VR 1 - Calibration 1.9 Detect TX Power In
VR 2 - Calibration 800 MHz TX Power In
VR 3 - Calibration RF Up Link Gain
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Terminal Strip
TS - 485
UNUSED
12 VDC/Out
U6
D5
Relay 1 NC
Relay 1 COM
Hub Alarm*
Relay 1 NO
Relay 2 NC
Relay 2 COM
Microcell (Remote) Alarm*
Relay 2 NO
24 VDC/IN
Ground
*Normally energized, de-energized in alarm state. Indicated states are alarmed condition.
Attenuators
Outputs Connects to Up Link Combiner RF Inputs
AT 1 Out
Remote Address 1 +/or 5
AT 2 Out
2 +/or 6
AT 3 Out
3 +/or 7
AT 4 Out
4 +/or 8
CAUTION* These inputs must be connected to the proper laser modules serving
microcells (remotes) of the indicated address.
Inputs Connects to Optical Transceiver RF Out
AT 1
AT 2
AT 3
AT 4
IN from Fiber Transceiver 1
IN from Fiber Transceiver 2
IN from Fiber Transceiver 3
IN from Fiber Transceiver 4
Other
Fuse
24 VDC Input Fuse, 3 Amp
12 VDC System Circuit Fuse, 5 Amp
CI Wireless Inc.
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19
700-1001 Board (2 required) Located on the Control Module
700-1001 Board Assembly is the Ribbon Cable adapter interface to the controller
module. Caution: if replacing the 700-1001 interface, it has 24 interconnecting pins to
the terminal strip and the terminal strip actually has 25 pins on both sides.
When installing:
Pin 1 connects to 12VCC on the side nearest the display/power LED
Pin 1 connects to C2B on the side nearest the keypad
Refer to 700-1005 board assembly for proper interconnect to each assembly.
Ribbon Cable Assembly 700-1001 Connected
To Controller Display Side
Ribbon Cable Assembly 700-1001
Connected to Controller Key Pad Side
Pin
Pin
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
12 VDC
Ground
Digital Output 1
Digital Output 2
Digital Output 3
Digital Output 4
Digital Output 5
Digital Output 6
Digital Output 7
Digital Output 8
Digital Output 9
Digital Output 10
Unused
Unused
NO
COM
Relay 2
NC
NO
COM
Relay 1
NC
U EXP
DAC
A/D +
A/D Ground
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10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
C2B C2B +
RX +
RX TX +
TX Ground
Ground
D7
D6
D5
D4
D3
Unused
Unused
+5
Ground
U1
U2
U3
U4
U5
U6
Ground
D1
D2
20
700-1001 Interface Module
CI Wireless Inc.
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700-1005 Hub Mother Board
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7.1 Left Panel Microcell (Single Band)
700-1003
Interconnect Module
RF Modem
FiberOptic Transmitter
and Receiver
Directional Coupler
7.2 Left Panel Microcell (Dual Band)
700-1003
Interconnect Module
RF Modem
FiberOptic Transmitter
and Receiver
Triplexer
LPF
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Attenuators
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23
RF Modem
Reference: Figure 7.1 and 7.2
INTRECONNECTION
RF Output - 2 way splitter, RF cable: BNC/A to SMA/M
D-sub
- 10 Conductor ribbon cable to 700-1003, J3
Fiber Transmitter
Reference: Figure 7.1 and 7.2
INTRECONNECTION
RF Input
D-sub
Triplexer Common or Directional Coupler , Output
10 Conductor ribbon cable to 700-1003, J2
Fiber Receiver
Reference: Figure 7.1 and 7.2
INTRECONNECTION
RF Output - Triplexer Common or Directional Coupler , Input
D-sub
- 10 Conductor ribbon cable to 700-1003, J1
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7.3 Door Panel Microcell
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7.4a Back, Heat Sink Microcell (EKO 800M) or (EKO 1.9R)
Fan Control /
Alarm Module
LNA
Power Supply
Power Amplifier
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7.4b Back, Heat Sink Microcell (EKO-1.9)
Power
Supply
LNA
DC Interface
Module
Power Amplifier
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7.5a Base Identification Microcell
7.5b Base Identification Microcell (diagram)
DOOR
Control
AC
X-Band RX
Fiber
Antenna
X-Band TX
DC IN
Note: Shown as a dual band unit. Control, x-band Rx and Tx connections are covered in single band systems.
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7.6 Triplexer
460 MHz
1850-1990
800-960
Common
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7.7 System Interconnect
700-1001 Board (2 required) Located on Control Module
700-1001 Board Assembly is the Ribbon Cable adapter interface to the controller module.
Caution: if replacing the 700-1001 interface, it has 24 interconnecting pins to the terminal strip
and the terminal strip actually has 25 pins on both sides.
Note when installing:
Pin 1 connects to 12VDC on the side nearest the display/power LED
Pin 1 connects to C2B on the side nearest the keypad
Refer to 700-1004 board assembly for proper interconnect to each assembly.
Ribbon Cable Assembly 700-1001 Connected
To Controller Display Side
Ribbon Cable Assembly 700-1001
Connected to Controller Key Pad Side
Pin
Pin
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
12 VDC *
Ground
Digital Output 1
Digital Output 2
Digital Output 3
Digital Output 4
Digital Output 5
Digital Output 6
Digital Output 7
Digital Output 8
Digital Output 9
Digital Output 10
Unused
Unused
NO
COM
Relay 2
NC
NO
COM
Relay 1
NC
U EXP
DAC
A/D +
A/D Ground
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
C2B C2B +
RX +
RX TX +
TX Ground
Ground
D7
D6
D5
D4
D3
Unused
Unused
+5
Ground
U1
U2
U3
U4
U5
U6
Ground
D1
D2
* Illustrated on controller as 24VDC, however controller has option for 12VDC operation installed.
700-1002 Board Located on Heat Sink(EKO-1.9 only)
Input Connectors
J1
J2
J3
J4
J5
J6
J7
- J3 DC Interconnect, located Duplexer/AC-DC Module Panel
- 12 VDC From AC Power Supply
- 13.6 VDC From External DC Input
- J3 on Board Ass’y 700-1004 Located on Controller Door Panel
- Power Amplifier Connection
- Unused
- 12 VDC to LNA Ass’y
700-1003 Interconnect Module Located on Fiber Optic/RF Modem Panel
Input Connectors
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J1 - Fiber Receive Ribbon Cable Connection
J2 - Fiber Transmitter Ribbon Cable Connection
J3 - RF Modem Ribbon Cable Connection
J4 - J4 on Board Assembly 700-1004 Located on Controller Door Panel Connection
Jumpers
Normal Operation with Fiber Transmitter Model AC221T
Jumper Pins
1 to 6
10 to 5
3 to 4
700-1004 Control Interface Located on Door
Input Connectors
J1 - Controller Connection with 26 conductor ribbon cable from LCD display side and Power Led
of controller
J2 - Controller Connection with 26 conductor ribbon cable from the Key pad side of the controller
J3 - 10 Conductor Ribbon Cable Connection to 700-1002 Board Assembly J4, located on Heat
Sink, between Power Supply & PA
J4 - 15 Conductor ribbon Cable Connection to 700-1003 Board assembly J4, located on Fiber
Optic / RF Modem Panel
RS-485- Cables to bulk head “control” Connector on base of the remote.
Jumpers
SW 1 - SLAVE ENABLE
SW 2 - Address Enable 5 through 8
Address Jumpers
SW
Address
R-1
R-2
R-3
R-4
* Monitor Test Point 1
Adjust
none
VR2
VR3
VR4
Voltage*
Setting
<0.7 VDC
1.75 VDC
2.4 VDC
3.0 VDC
SW
Address
Adjust
VR5
VR2
VR3
VR4
Voltage*
Setting
3.7 VDC
4.7 VDC
5.5 VDC
6 VDC
Controls
VR 1 - Calibration for PA detected output power, see calibration tables.(Test Point 2)
VR 6 - Calibration RSSI, DL optional/RF loss (Test Point 3)
800 MHz or 1.9 GHz remotes may be configured as Master or Slave units. Units are configured
at factory normally with the differential being. Master remote is equipped with Fiber Optic RF
modem panel and the controller interface module assembly is different for each unit.
700-1004-X1X
1.9 GHz Units address 1 - 4
700-1004-X2X
800 MHz units address 5 – 8
700-1004-X3X
1.9 GHz Expansion (slave) unit address 1 – 4
700-1004-X4X
800 MHz Expansion (slave) unit address 5 - 8
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700-1006-x2x 28VDC Power Supply + DC Distribution
Input Connectors
J1 - 28VDC @ 10 Amps output, connects to Power Amplifier + LNA/Driver modules
PINS 1
28 VDC
28 VDC
Ground
Ground
J2 - AC Input,
PINS 1
Line
Neutral
Chassis Ground
J3 - DC Input, Battery back up.
PINS 1
Ground Input
28 VDC
Control
28 VDC
J4 - 9 Pin D-sub Connects to 700-1004 Via 10 Conductor Ribbon Cable
J5 - Power Amplifier control signal inputs Direct connections to power Amplifier or to Fan Control
Module on units with heat exchangers.
J6 - 12 VDC Output, Connects to Fan Control Module.
PINS 1
Ground
Ground
12 VDC
12 VDC
LEDs
LED 1
LED 2
LED 3
LED 4
LED 5
Red, Primary power on, 28 VDC from power supply selected
Yellow, Battery Back Up power on, 28 VDC Input selected
Green, Battery Back Up Enabled.
Red, 28 VDC From power supply present
Red, 28 VDC from Battery Back up present
Switches
SW1 - Switch, Primary Power on-off
SW2 - Switch, Enable Battery Back up
(Overrides auto selecting AC supply, allows battery backup to be checked by technician)
700-1008-XXX Fan Control/Alarm Module
Input Connectors
J1 - 10 conductor ribbon cable, IDC Connection to Power Amplifier - 9pin D-sub
J2 - 10 conductor ribbon cable, IDC Connection to Power Supply - IDC Connector
J3 - 10 conductor ribbon cable, IDC Connection to Heat Exchanger - 9pin D-sub
LEDs
D1 - Fan 1 on
D2 - Fan 2 on
D3 - Fan 3 on
D4 - Alarm - Fan
D5 - Alarm - PA Temp
VR1- Sets temperature when fans will turn on.
Pin 2 of u4A, 10 mVDC = 1 Fahrenheit. Example: 1.0 VDC = 100 F
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700-1002x DC/Interface Module
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700-1003 Interconnect Module
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700-1004 Interface Module
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700-1006 DC Distribution And Power Supply, 28 VDC
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8.
Software Controls
8.1.1. BASIC INTERFACE, Microcell (Remote)
The interface of the EkoCel is based on a 12 key system with a 2x20 LCD screen. While a user is
not engaged in any system functions the controller is in a RUN MODE. By that meaning the
controller does most of its work while running outside of the user menus.
The 12 key interface is designed around the functions the controller performs continually. The
key lay out and functions of the keys are listed below.
menu
setup
F1
menu
item
F2
field
up
down
run pgm
pgm 19.2
pgm 38.4
F3
F4
del
help
add
12 Key Keypad
The menu key is used primarily to advance to another set of menus or in some
instances to exit or enter user menus all together.
item
The item key has the specific function of advancing through sub-menus of a
particular set of menus. For example to change the date or time after you enter the
Time/Date menu pressing the item key allows a change either in the time or date.
field
During the entry of any number or letter, the field key allows you to change the
position of the cursor.
up/down
These keys allow a character/number to be changed and may be held down to scroll
more quickly. They are also used in responding to a yes or no prompt or in changing
list items.
help
F1
F2
F3
F4
del
Displays a basic help message to aid in navigation through menus.
By pressing F1 the user is shown what password level is currently in use.
Displays the alarms, which are currently alarming.
Displays the local Power Output Reading.
Performs a Reset of all alarms.
Currently, this key displays software version and returns the controller to a
background state.
To engage the user menus, pressing the add key is required.
add
* - Only has functionality while user menus are engaged.
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8.1.2. SYSTEM SETUP on MICROCELL UNIT CONTROLLER
Setting up the Microcell unit is done in one of two ways, Manual setup or Auto setup.
A. Manual Setup
During the initial startup of the Microcell the very first menu prompt to be encountered is
the setup menu. By pressing the UP or Down key you can either select the manual or the
auto setup. After choosing the correct setup method simply press the MENU key to
continue with setup. During Manual setup the following parameters are necessary to set:
Time; Date; System Format; RF Channels; Load. To access the menus containing the
settings other than Time/Date, press the Menu key. Next to scroll through the settings
press the Item key. Pressing the menu key will only take you back to the TIME/DATE
menu. To EXIT the System Setup menus, press Item key until the prompt “Current
Settings?”, select yes and press the Menu key. The controller will then wait for up to one
minute for a network update. If the hub is not yet installed the unit will proceed to
normal operating status. If a connection is made, and the required input power from the
base station is present, the unit will prompt the user to set up local gain. At that time the
user can enter the desired DL Pwr Out. NOTE: If the gain is not set then, or in the user
menus, it must be set at the Hub end.
B. Auto Setup
By simply choosing the Auto setup option the EkoCel Remote waits for the Hub to send
current network settings and proceeds to set up itself accordingly. This does not mean
that the user has no other responsibilities.
C. General Notes on the Controller
Remember to RESET ALL ALARMS before finishing all operations with the unit.
To EXIT From ANY point simply press the DEL key.
8.1.3. USER SETTINGS on MICROCELL UNIT CONTROLLER
A. Accessing User Menus
To access the user menus, first the ADD key must be pressed. Due to background
functions operating sometimes you may have to hold the ADD key for nearly a second.
The result will be the Password Entry Screen. In order to proceed to other menus a valid
password must be entered. The controllers are delivered with a set of factory passwords.
The factory passwords can be altered by using the supervisor password only. Once the
desired password is entered press the MENU key to proceed or the DEL key to return to
normal functioning. Units are set with initial default Technician 4 password of 10000
and the password comes up as 10000 on the display each time. The following are preset
passwords:
Supervisor - 21314, Tech 1 - 11311, Tech 2 - 11312, Tech 3 - 11313,
Tech 4 - 1000
B. Readings / Controls
From the Microcell (remote) location, gain is adjusted by pressing the up and down
arrows and using the field key to change the digit to be edited. DL# Pwr Cntrl: is the
label for the gain control of the PA. All changes made here are NOT in real time. Once
the desired value is displayed, that menu screen MUST be changed, (by pressing the
MENU key), in order for the change to take effect. The controller will then display a
“PLEASE WAIT” message while it sets the PA power to give the desired selected output
of dB power. Depending on the amount the change, the controller process time may take
up to 10 minutes and may give the appearance of locking up. To change the Hub Gain
control, press the Item Key to access that menu item. UL Gain dB: is the label for the
Hub Gain control. Once there, to change the gain, simply use the Field Key to select the
digit and the UP and DOWN keys to alter the values. Once the desired value is
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displayed, that menu screen MUST be changed (by pressing the MENU key) in order for
the change to take effect remotely. The display will now read “UL Updating Please
Wait..” When the update is complete the display will automatically change to reflect the
Value at which it is set. Due to network latency, it may take up to 20 seconds to change
the display. Setting the peak power limit is done here. The default is 34 or 38(depending
on the technology type), which will prevent the power out of the Pa to exceed 34 dBm or
39dBm. To exit this set of menus, press the MENU KEY.
TX 800Bse Pwr:
TX 800Lzr Pwr:
Or
TX 1.9Bse Pwr:
TX 1.9Lzr Pwr:
XXXX Value corresponding to Power from Base Station to Hub unit
XXXX Represents the power from the base to the dl laser
DL Pwr dB:
UL Gain dB:
Peak Pwr SET:
XXXX Actual output power from PA at the antenna out of unit
XXXX The detected UL Signal strength at the hub
XXXX Refers to The Max Pwr Out the Unit will allow.
XXXX Value corresponding to Power from Base Station to Hub unit
XXXX Represents the power from the base to the dl laser
C. More Menus
By selecting ‘yes’ at the prompt, the user will have access to the following Menus. If not,
the menuing will loop back to the ‘Readings / Controls’ menu.
D. Maintenance Menu
This menu is used primarily for troubleshooting, maintenance and field calibration.
These readings are all network dependent, meaning that they only update when a
connection between the Hub and Microcell occur. If no connection is made then all
values found in this menu are invalid. The readings and their definitions are as follows:
Tx Pwr Lzr mV: XXXX
**
**
**
UL Gain Cntrl:
UL RF Loss:
UL Optc Los:
UL Atten Set:
DL Rssi mV:
DL RF Loss:
DL Optc Los:
DL PA Detct:
DL dac mV:
Box Temp C:
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
The voltage returned from the detector to the
controller to u3. Helps to determine the TX pwr.
The amount of UL attenuation at the Hub unit
The average amount of RF loss on the uplink path
The average amount of Optical Loss uplink path
Amount of direct Attenuation to the uplink path
Voltage returned from downlink Signal Strength
The average amount of RF loss on the downlink path
The average amount of Optical Loss downlink path
in mV the sensor output from the PA
Voltage being put out by controller to the PA
Tempeture in side the Remote unit in celcius
** = only available for the master remote unit.
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E. Date & Time
Only the supervisor’s password has access to this feature. To flip between setting the
time or the date, press the ITEM key. The FIELD key changes the digit to be edited and
again the arrow keys change the digit. Press the MENU key to enter when finished.
F. Event History Log
The event history log will store the last 50 events that took place on both the microcell
and hub side of the network. By selecting Yes, using the Up or Down arrow and enter by
pressing the menu key, scrolling through the event history will be possible by pressing
the ‘ITEM’ key. Events will be displayed with the most recent date at the top, the remote
number and the alarm or event originated on the second line. Remember, that the remote
number for the hub is “0”. To exit the menu, simply press the Menu key then select no,
using the Up or Down arrow and enter by pressing the Menu key again.
G. Set New Password
Only the supervisor’s password has access to this feature also. While it is possible to
access this menu from the Microcell unit, the changes made will be reset through to the
network standard within 20 seconds. This menu is only functional at the hub.
H. Remote Alarms Reset
To select between the “yes” or “no” simply press the UP or DOWN. To exit the menu,
press MENU. NOTE! Due to network latency it may take up to 20 seconds for the Hub
alarms to reset.
I. Exit Menu
“Current Settings: y/n “. Select YES and press MENU to exit all Menuing with current
settings. By pressing the ITEM key, will give access to the TOTAL RESET?: y/n
screen. CAUTION: By selecting YES and pressing menu, WILL RESET ALL Users
defined values to Factory Default, and the Microcell unit will require setting up again.
BE VERY CAREFUL with this menu.
J. AUX Controls Menu
The first prompt will be “More Controls?: y/n “ if yes is selected and the menu key is
pressed, then access to the System settings is given. These settings include: System Type
, RF Channels, Batt Backup. If Batt Backup has ‘Yes’ selected then controls for : Batt
Test Hour and Test for Min, will be accessible.
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8.1.4. ALARMS on MICROCELL UNIT CONTROLLER
A. Viewing
To view alarms currently alarming simply press the F2 key from any menu, or if not
engaged in a menu press the ADD key then press F2. After viewing, press DEL to return
to normal functioning. To return to menu items simply press the Menu key. To view the
alarm history log, enter menus and press the menu key until the “Event History…..View
log?” is displayed, then select Yes using the Up or Down arrow and enter by pressing the
menu key. The alarms will be displayed in log format. Format consists of: Date Remote
Number and Alarm. For example: 03-24-98 0 H! Optical 1. If the remote number is 0
then it must be the hub.
B. Resetting
Local: Press the F4 key form any menu. If not in menus press the ADD key then the F4
key. To resume menuing or enter menus press the MENU key other wise press
the DEL key.
Hub: Press the F4 key WAIT 10 seconds then press the F4 key again (no need to wait
on second push). To resume Menuing or enter menus press the MENU key other
wise press the DEL key.
C. Alarms
There are basically 12 alarms that could alarm at the Microcell unit. They are:
( # = Microcell Address)
!R# Laser
Laser Alarm
!R# Optical
Optical Loss Alarm
!R# Laser Temp
Laser Temperature
!R# Pa Temp
PA Temperature
!R# Box Temp
Box Temperature
!R# Intrusion
Door Alarm
!R# RF Pwr Out
RF Output Power Fail
!R# Ovrdr Pwr Aj
Overdriving Power Adjustment.
!R# Batt Power
Low or No Battery (only seen if Battery Enabled)
!R# Main Power
Drop or failure of Main power.
!R# Fan Fail
Fan Failure or Problem
!R# User 1
User 1 Hi/Lo from D6 On Remote Board
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8.2.1. BASIC INTERFACE of HUB UNIT CONTROLLER
The interface of the EkoCel is based on a 12 key system with a 2x20 LCD screen. While
a user is not engaged in any system functions the controller is in a RUN MODE. By that
meaning the controller does most of its work while running outside of the user menus.
The 12 key interface is designed around the functions the controller performs continually.
The key lay out and functions of the keys are listed below.
menu
setup
F1
item
F2
field
up
down
run pgm
pgm 19.2
pgm 38.4
F3
F4
del
help
add
12 Key Keypad
menu
The menu key is used primarily to advance to another set of menus or in
some cases to exit or enter user menus all together.
item
The item key has the specific function of advancing through sub-menus of a
particular set of menus. For example, to change the date or time after
entering the Time/Date menu , pressing the item key allows changes in either
the time or date.
field
During the entry of any number or letter, the field key allows you to change
the position of the cursor.
up/down
These keys allow a character/number to be changed and may be held down to
scroll more quickly. They are also used in responding to a yes or no prompt
or in changing list items.
help
F1
F2
F3
F4
del
add
Displays a basic help message to aid in navigation through menus.
By pressing F1 the user is shown what password level is currently in use.
Displays the alarms which are currently alarming.
Displays the UL Gains.
Performs a Reset of all alarms.
Currently, this key displays software version and returns the controller to a
background state.
To engage the user menus pressing the add key is required.
* - Only have functionality while user menus are engaged.
CI Wireless Inc.
Tel: 817 416 0583
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8.2.2. SYSTEM SETUP ON THE HUB CONTROLLER
Setting up the hub unit is done in one of two ways, Manual setup or Auto setup.
A. Manual Setup
During the initial startup of the Hub the very first menu prompt to be encountered
is the setup menu. By pressing the UP or Down key you can either select the
manual or the auto setup. After choosing the correct setup method simply press
the MENU key to continue with setup. During Manual setup the following
parameters are necessary to set: Time; Date; System Format; RF Channels;
Load. To access the menus containing the settings other than Time/Date, press
the Menu key. Next to scroll through the settings press the Item key. Pressing
the menu key will only take you back to the TIME/DATE menu. To EXIT the
System Setup menus, press Item key until the prompt: “USE CURRENT
SETTINGS? “ Select yes and press menu. It will also be necessary to manually
set the gain.
B. General Notes on the Controller
To EXIT From ANY point simply press the DEL key, or select “yes” at the “Exit Current
settings?” menu.
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8.2.3. USER SETTINGS on HUB CONTROLLER
A. Accessing User Menus
Hub - to access the user menus first the ADD key must be pressed. Due to background
functions operating sometimes you may have to hold the ADD key for nearly a second.
The result will be the Password Entry Screen. In order to proceed to other menus a valid
password must be entered. The controllers are delivered with a set of factory passwords.
The factory passwords can be altered by using the supervisor password only. Once the
desired password is entered press the MENU key to proceed or the DEL key to return to
normal functioning. Units are set with an initial default passwords: Supervisor - 21314,
Tech 1 - 11311, Tech 2 - 11312, Tech 3 - 11313, Tech 4 - 1000.
B. Readings / Controls
Hub - gain is adjusted by pressing the up and down arrows and using the field key to change the
digit to be edited. UL Gain Cntrl: is the label for the Hub Gain control. Changes made here are
NOT in real time, due to the digitally controlled attenuator. To change the Microcell Gain control,
press the Item Key to access that menu item. Once there, to change the gain, simply use the Field
Key to select the digit and the UP and DOWN keys to alter the values. Once the desired value is
displayed, that menu screen MUST be changed (by pressing the ITEM or MENU key) in order for
the change to take effect. DL# Pwr Cntrl: is the label for the gain control of the PA. Once the
desired value is displayed, that menu screen MUST be changed (by pressing the MENU key) in
order for the change to take affect remotely. Due to network latency, and control setting delay, it
may take up to 15 minutes to change the display. To exit this set of menus, press the MENU KEY.
If no remote detected, the up link gain control can still be adjusted by pressing the ITEM key to
advance from the no remotes on line screen to the appropriate up link gain control. Note: If there is
too little or no signal strength a menu screen will appear to alert the user of the fact and prohibit
him from changing the DL Gain on ANY remotes. You can also set the peak power limit here. The
default is 34, which will prevent the power out of the PA to exceed 34 dBm.
TX 1.9Bse Pwr: XXXX
TX 1.9Lzr Pwr: XXXX
AND / OR
TX 800Bse Pwr: XXXX
TX 800Lzr Pwr: XXXX
UL Gain # dB: XXXX
Value in dB corresponding to Power from Base Station to Hub
Value in dB representing power to the lasers during downlink
Value in dB corresponding to Power from Base Station to Hub
Value in dB representing power to the lasers during downlink
Value in dB corresponding to the signal strength from
Microcell to the Hub
DL # Pwr dB:
XXXX The approximate power in dB the PA is radiating at R#
DL # Peak Pwr: XXXX The Peak power setting for the R#
C. More Menus
By selecting ‘yes’ at the prompt the user will have access to the following Menus. If not,
the menuing will loop back to the ‘Control Menu’.
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D. Maintenance Menu
This set of menus contain many readings that will be useful during the calibration and or
trouble shooting after problems occur. Some of these readings update in real time, but
most are network related an update every 20-30 seconds. . If changes occur to the
readings the user will NOT see them unless the Item key is used to scroll around back to
it, then the value will be updated. If the second is true and the remote is not installed,
ANY information displayed will be invalid. The readings and their definitions are as
follows:
Tx Pwr Lzr mV: XXXX
**
**
**
UL # RF Loss:
UL # Optc Los:
UL # Atten Set:
UL # Rssi mV:
DL # Rssi mV
DL # RF Loss:
DL # Optc Los:
DL # Gain mV:
DL # Pwr SET:
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
XXXX
The voltage returned from the detector to the
controller to u3. Helps to determine the TX pwr.
The average amount of RF loss on the uplink path
The average amount of Optical Loss uplink path
Amount of direct Attenuation to the uplink path
Voltage returned from Uplink Signal Strength
Voltage returned from Downlink Signal Strength
The average amount of RF loss on the downlink path
The average amount of Optical Loss downlink path
Voltage being put out by controller to the PA.
User Defined in Gain Cntrls. Amount of PA output
power at #
E. Date & Time
Only the supervisor’s password has access to this feature. To flip between setting the
time or date, press the ITEM key. The FIELD key changes the digit to be edited and
again the arrow keys change the digit. Press the MENU key when finished.
F. Event History
The events history log will store the last 50 events to take place on both the microcell and
hub side of the network. By selecting “yes” at the menu prompt, scrolling through the
event history will be possible by pressing the ‘ITEM’ key. Events will be displayed with
the date at the top, the remote number and the alarm or event originated on the second
line. Remember that the remote number for the hub is “0”. If at any time you wish to
exit the menu simply press the Menu key then select no and press the Menu key again.
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G. Set New Password
Only the supervisor’s password has access to this feature also. While it is possible to
access this menu from the Microcell unit, the changes made will be reset through to the
network standard within 20 seconds. This menu is only functional at the hub. The
following are preset passwords: Supervisor - 21314, Tech 1 - 11311, Tech 2 - 11312,
Tech 3 - 11313, Tech 4 - 1000
H. Remote Alarms Reset
To reset specific Microcell’s alarms, press Item to select Microcell then “Yes” or “No”
selections are made by simply press the UP or DOWN. Exit the menu by pressing
MENU. NOTE! Due to network latency it may take up to 20 seconds for the Microcell
alarms to reset.
I. RS 232 PORT MODE
This menu is designed to allow communication to the controller through the RS 232 port.
Here, if ‘none’ is selected, the controller will not acknowledge any incoming data or
commands through the RS 232 port. If ‘Terminal’ is selected the controller will
continually monitor the 232 port for incoming commands. The passwords required to
access the controller through the terminal are the same as the passwords used to access
the controller through the keypad. A Modem will not work if in this state (Terminal
selected). If ‘modem’ is selected, the controller will initialize the modem and wait for it
auto answer. Only after carrier detection takes place will the controller acknowledge
incoming data. A terminal emulator will not work if in this state (modem selected).
J. Exit Menu
“Current Settings: y/n “. Select YES and press MENU to exit all Menuing with current
settings. By pressing the ITEM key, will give access to the TOTAL RESET?: y/n
screen. CAUTION: By selecting YES and pressing menu, WILL RESET ALL Users
defined values to Factory Default, and the Microcell unit will require setting up again.
BE VERY CAREFUL with this menu.
K. AUX Controls Menu
The first prompt will be “More Controls?: y/n “ if yes is selected and the menu key is
pressed, then access to the System settings is given. These settings include: System
Enable, R# System Type , R# RF Channels, R# Batt Backup. If Batt Backup has ‘Yes’
selected then controls for : R# Batt Test Hour and R# Test for Min, will be accessible.
** Will be displayed for the remote master only.
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8.2.4. ALARMS on HUB UNIT CONTROLLER
A. Viewing
To view alarms currently alarming simply press the F2 key from any menu, or if not
engaged in a menu, press F2 after pressing the ADD key. After viewing, press DEL to
return to normal functioning. Return to menu items by simply pressing the Menu key.
To view the alarm history log, first enter menus and press the menu key until the “Event
History…..View log?” Select Yes, using the Up or Down arrow and the menu key. The
alarms will be displayed in log format. Format consists of: Date, Remote Number and
Alarm. For example: 03-24-98 0 H! Optical 1. If the remote number is 0 then it must be
the hub.
B. Resetting
Hub:
Press the F4 key form any menu. If not in menus press the ADD key then the F4
key. To resume Menuing or enter menus press the MENU key other wise press
the DEL key.
ALL: Press the F4 key WAIT 10sec then press the F4 key again (no need to wait on
second push). To resume Menuing or enter menus press the MENU key other
wise press the DEL key.
Microcells: This can be done only by engaging the menu system and going to the Reset
Alarms specific menu.
C. Alarms (current as of 12/30/98)
Hub:
Alarms on the Hub unit will also display on any remote. Listing them:
!H Laser
!H Optical
!H Prime Pwr
!H Com Link #
!H Bs Pwr In
!H User1
CI Wireless Inc.
Tel: 817 416 0583
Laser Alarm
Optical Loss Alarm
Primary Power
Communications Link #
Insufficient Power from the base station.
User Alarm From External digital input
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8.3
RS 232 Port Communications.
A. Hyper Terminal Connection
To use the hyper terminal capabilities of the EkoCel™, you must have the enclosed adapter
attached to the controller. If no adapter was included please contact the factory for replacement.
This part # is 900-1000-072, consisting of the D-Sub/9 Pin Adapter, 6’ of cable and a RJ-12
connector.
Settings for your terminal emulator should be:
Direct connect to comport
9600 bps
8 bits
1 Stop bit
No parity
No flow control
Once the setup of the emulator is ensured and connection is made, go to the menu “RS 232 Port
Mode” and select Terminal from the list of choices, if a modem is being used, select MODEM.
To access the controls and menus of the EkoCel™, a VALID password MUST be entered. The
passwords are the same as the unit passwords supplied earlier in this manual. The following is a
list of all commands within the menus.
Note: All commands can be typed in all Lowercase or Uppercase But not a mixture(ie..Set Ul 23).
Terminal Interface Displays:
Maintenance Screen
Command to show:
MAIN
Shows below:
R1
Hub
Tx Base Station Input
Tx Laser Power
Remote
UPLINK
Attenuation
RSSI
RF Loss
Optical Loss
DOWNLINK
Dac
PA Detect
Peak Power
RF Loss
Optical Loss
TEMPERATURE
CI Wireless Inc.
Tel: 817 416 0583
1.9GHz
R2
R3
R4
R5
800MHz
R6
R7
R8
(dBm)
(dBm)
28.4
-1.6
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
(dB)
(mV)
(dB)
(dB)
23
1082
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
(mV)
(mV)
(dBm)
(dB)
(dB)
(C)
3122
2544
34
24.6
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
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Controls / Readings Screen:
Command to show:
PARM
Shows below.
R1
Hub
Uplink Gain
Downlink Power Output
Peak Power
(dB)
(dBm)
(dBm)
28.4
-1.6
34
1.9GHz
R2
R3
n/a
n/a
n/a
n/a
n/a
n/a
R4
R5
n/a
n/a
n/a
n/a
n/a
n/a
800MHz
R6
R7
n/a
n/a
n/a
R8
n/a
n/a
n/a
n/a
n/a
n/a
Commands To Change above:
SET UL [remote #] [value]
SET DL [remote #] [value]
SET PK [remote #] [value]
Passwords Screen
Command to show:
‘PASS’ or ‘pass’
Shows below.
System Passwords
User: 1
21314
Supervisor
11311
Tech1
11211
Tech2
Command to change above:
SET PW [id] [value]
number
CI Wireless Inc.
Tel: 817 416 0583
11011
Tech3
10000
Tech4
where id is user # and value is 5 digit
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Event History Screen
Command to show:
EVNT [address#]
EVNT
Displays alarm history only for address#1-8
Displays All alarm history at hub unit
Shows below.
>_____________________________System Log For Hub______________________________
Hub = not set
>ID# Date:
Time:
R# Event
Value Creator
> 1 06-05-1998 11:11:33 0 Pw :
10000 5
> 2 06-03-1998 14:54:04 1!R RF Pwr Out
> 3 06-03-1998 14:40:16 0 Total Rst
0 0
> 4 06-03-1998 14:40:16 0 Alarms Rst
0 6
Notes: the suffix ‘clrd’ means that the alarm has reset itself
Commands to Clear History:
CLR EVNT
clears entire log for ALL.
CLR EVNT [address#]
clears entire log for specified address
CLR ILOG [address#] [#id]clears specified event from the log of
address
Alarming Alarms Screen
Command to show:
ALRM [address#]
ALRM
Shows below.
>HubAlias
>Current Alarms:
>ID
12/12/98 13:31:33
>1
PA Temp
>0
AC Pwr
>0
LOW Input Pwr
>1
Intrusion
Commands to reset:
CLR ALRM [address#]
CLR ALRM
CI Wireless Inc.
Tel: 817 416 0583
Displays alarms from specified address#1-8
Displays All ALARMS
Clears only alarms at specified address#0-8
Clears all alarms in system
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Configuration Screen:
Command to show:
“CONF” or “conf”
Shows below.
______Configuration Screen________
Date: 05/05/98
Time: 12:12:12
System: alias
Remote 1 : alias
: Offline
Remote 2 : alias
: Online
System Type: CDMA
RF Channels : 2
Batt Enabled: yes
Batt hour: 12
Batt mins: 5
Remote 3 : alias
: Offline
Remote 4 : alias
: Offline
Remote 5 : alias
: Offline
Remote 6 : alias
: Offline
Remote 7 : alias
: Offline
Remote 8 : alias
: Offline
Commands to Change:
SET DT [value]
SET TM [value]
SET TY [tech type]
SET
SET
SET
SET
CH
BA
BH
BM
[value]
[yes/no]
[value]
[value]
Valid date format xx/xx/xx
Valid Time format XX:XX:XX
Technology type:
CDMA,GSM,TDMA,AMPS,ESMR,OTHER
valid number 1-24
If battery backup is available.
Valid hour in 24hr format(0-23)
(0-40) Amount of AutoExercise at Hour
Miscellaneous Commands:
BYE or EXIT
HELP
MENU
ALIS
SET AL [address#] [value]
TABL [address#]
CI Wireless Inc.
Tel: 817 416 0583
exit hyper terminal
Show help screen
Show main menu
Displays all the User defined Alias’s
Sets the Alias of specified address.
Displays Calibration tables for unit
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Section 9. Installation
INSTALLTION OF THE EKOCEL
 1.9 FIBER OPTIC MICROCELL:
NOTE 1: Installation and system set up should only be performed by qualified technicians. The user is
cautioned that modification or changes to this device not expressly approved by the party responsible for
compliance could void the user's authority to operate this equipment.
NOTE 2: Manufacture's rated output power of this equipment is for single carrier operation.
For situations when multiple carrier signals are present, the rating would have to be reduced by 3.5 dBm,
especially where the output signal is re-radiated and can cause interference to the adjacent band users. This
power reduction is to be determined by means of input power or gain reduction and not by an attenuator at
the output device.
Note 3 :This device complies with Part 15 of the FCC Rules. Operation is subject to the condition that this
device does not cause harnful interference.
9.1
Introduction
EkoCel is quick and easy to install, using a minimum set of common tools. This section
will provide the basic steps to performing the installation of EkoCel. Please read
complete instructions before beginning assembling.
9.2
Getting Started
Unpack all of the boxes and insure all of the material is included for your installation
requirements and undamaged in shipment. instructions before
List of Basic Equipment:
Hub Unit, 24 Vdc
Microcell Unit, 100-220 Vac
Additional Optional Hardware:
WDM- Hub Panel with WDM
WDM installed in Microcell Unit
Fiber Jumper cables, 4 each, 1 meter length
Hub AC Option- AC power supply installed in unit
Expansion Unit Control Cable
Battery Back Up Unit for Microcell Unit with interconnect Cable
Determine and secure additional material required, base station interconnect coaxial
cable, antenna, coaxial cable, fiber optic jumpers, etc.
Slave remote units will require two coaxial cable jumpers and one control cable.
9.3
Mounting Hub Hardware
-Mount Hub unit and secure in base station cabinet or another 19 inch EIA cabinet.
-Connect Base station transmit and receive cables.
-Connect primary power, 24 Vdc or optional 115 VAC.
-Connect fiber Optic cables.
-Wave Division Multiplexer (WDM) Option.
Mount WDM assembly directly above or below the Hub Rack assembly.
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Using the 1-meter fiber optic jumpers provided connect the Hub optical unit to
the WDM
Hub-FO Input to
WDM-1310
- FO Output to
-1550
Fiber Optic link cable will connect to WDM connection marked FC/APC
DANGER:
INVISIBLE LASER RADIATION AVOID DIRECT
EXPOSURE TO BEAM.
-Apply Power and follow set up instructions.
9.4
IMPORTANT! Before performing maintenance on any internal module, make
sure power is OFF.
Mounting the Microcell Unit
-Mount Microcell unit
-Connect coaxial cable to antenna
-Connect fiber Optic cables.
-Wave Division Multiplexer option:
WDM unit is mounted internally in the unit if it was ordered as an option.
Fiber Optic cables were shipped separately to avoid damage, connect as follows:
Fiber Module-Fiber Input
to
WDM-1550
- Fiber Output
to
WDM-1310
Fiber Optic link cable will connect to WDM connection marked FC/APC
-Connect Primary AC power.
Connect Back Up Battery option or DC power. (There is no switch on the DC
power connection to the unit. Power may be removed or connected with the
connector on the bottom of the unit or by removing the DC fuse.)
DANGER: INVISIBLE LASER RADIATION AVOID DIRECT
EXPOSURE TO BEAM.
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Remote
Ba t erytB ckup
-Apply Power and follow set up instructions.
IMPORTANT! Before performing maintenance on any internal module, make
sure power is OFF.
9.5
EkoCel 1.9 System Set Up Instructions:
Be sure to review the software section prior to proceeding with system set up this will
familiarize you with the different commands and operation of the system software.
CI Wireless Inc.
Tel: 817 416 0583
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54
9.5.1 Down Link Set Up for a CDMA System, EkoCel 1.9
Down Link Set Up for a CDMA System is completed with a single RF carrier with only
pilot, sync and paging channels active. Setting up the system with additional active
channels could result in, incorrect RF power level setttings.
Display, * Readings/Controls: Adjust base station input power to TX PWR IN. Set up
adjustments should always be made with a single RF carrier. The following table gives
the system set up levels for a multi carrier system.
For multi-carrier systems adjust this level as follows:
Controller Screen
or
DL RF Input
Tx 1.9Lzr Pwr:
Tx 800Lzr Pwr:
Base Station Input Power
Tx 1.9Bse Pwr:
Tx 800Bse Pwr:
Eko-1.9M
DL PA Detect
DL # Pwr dB:
Eko-1.9R
DL PA Detect
DL # Pwr dB
Single RF carrier
-0 dBm
31 dBm
27 dBm
39 dBm
Two RF carriers
-3 dBm
28 dBm
24 dBm
36 dBm
Four RF Carriers
-6 dBm
25 dBm
21 dBm
33 dBm
Adjustment to these levels will allow EkoCel to operate to the proper power level as
indicated above.
Display
DL # Pwr dB:
Set to XX dBm (set to desired output level in dBm
according to table) Press menu key, unit will self tune
within 10minutes. Typically within 2 – 3 minutes for
Peak Power levels settings.
DL # Peak Pwr:
This level should be set no more than 1dB above the
desired maximum output power limit. This feature will
reset the remote to the desired output power should the
power exceed the maimmum output power limit.
Note: # - indicates remote under setup.
CI Wireless Inc.
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9.5.2 Up Link System Set Up for the System
Up Link System Set Up for the System: The signal gain at the remote provides for 6 dB
of system gain with 0 dB RF link loss. CI Wireless suggests a up link gain level setting
of 4 – 6 dB to minimize system noise figure. Changing the gain setting causes the
controller to change the attenuation at the hub making UL system level adjustments (0-31
dB of adjustment)*. The RF modem detects the up link modem carrier RSSI level and
adjustments are made using this pilot carrier as a reference. (RSSI level is updated once
every 30 seconds).
Display
UL # Gain dB:
XX dB (set to desired signal gain level)
Set desired Up Link Gain and press the Menu key. We suggest a level for UL # Gain dB:
between 4 dB and 6 dB. This will minimize system noise figure contribution maintaining
EkoCel specified performance of <6 dB noise figure. Repeat steps for additional remote
units.
Note: Attenuation may be set from 0-31 dB. This may be monitored under the
maintenance menu. See Section 8.2.3 D. for details.
System Set Up is Complete.
Note: # indicates the remote link being set 1 through 4.
*- Hub attenuator setting with 0 dB link loss is 17-25 dB depending on the options the unit is
equipped with
CI Wireless Inc.
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9.5.3 Down Link Set Up for a GSM System, EkoCel-1.9
Down Link set up for a GSM system is completed with the primary RF carrier. All time
slots are active or filled in on this channel to provide a more accurate power setting.
Display, * Readings/Controls: Adjust base station input power to TX PWR IN Set up
adjustments are always made with a single RF carrier. The following table gives the
system set up levels for a multi carrier system.
For multi-carrier systems adjust this level as follows:
Controller Screen
or
DL RF Input
Tx 1.9Lzr Pwr:
Tx 800Lzr Pwr:
Base Station Input Power
Tx 1.9Bse Pwr:
Tx 800Bse Pwr:
Eko-1.9M
DL PA Detect
DL # Pwr dB:
Eko-1.9R
DL PA Detect
DL # Pwr dB
Single RF carrier
+3 dBm
34 dBm
36 dBm
39 dBm
Two RF carriers
-3 dBm
28 dBm
30 dBm
36 dBm
Four RF Carriers
-6 dBm
25 dBm
27 dBm
33 dBm
Adjustment to these levels will allow EkoCel to operate to the proper power level as
indicated above.
Display
DL # Pwr dB:
Set to XX dBm (set to desired output level in dBm
according to table) Press menu key, unit will self tune
within 10minutes. Typically within 2 – 3 minutes for
Peak Power levels settings.
DL # Peak Pwr:
This level should be set no more than 1dB above the
desired maximum output power limit. This feature will
reset the remote to the desired output power should the
power exceed the maimmum output power limit.
Note: # - indicates remote under setup.
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
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9.5.4 Up Link System Set Up for the System
Up Link system set up for the system: The gain at the remote is a fixed at maximum this
prevents system level changes from effecting the system noise figure at any optical path
loss up to 20 dB RF loss. Adding attenuation at the hub makes UL system level
adjustments. The RF modem detects the up link modem carrier RSSI level and
adjustments are made using this pilot carrier as a reference. (RSSI level is updated once
every 30 seconds).
Display
UL # Gain dB:
XX dB (set to desired signal gain level)
Set desired Up Link Gain and press the Menu key. We suggest a level for RF UL 1
Detect between 4 dB and 6 dB. This will minimize system noise figure contribution
maintaining EkoCel specified performance of <6 dB noise figure. Repeat steps for
additional remote units.
System Set Up is Complete.
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
58
9.5.5 Down Link Set Up for a TDMA System
Down Link set up for a TDMA system is completed with a single RF carrier with all time
slots active. Down link peak power feature will prevent inadvertently setting the output
power level too high. The unit will automatically readjust the down link gain to limit
output power below the selected thresh hold. (See software section on peak power limit.)
Display, * Readings/Controls: Adjust base station input power to TX PWR IN. Set up
adjustments are always made with a single RF carrier. The following table gives the
system set up levels for a multi carrier system.
For multi-carrier systems adjust this level as follows:
Controller Screen
or
DL RF Input
Tx 1.9Lzr Pwr:
Tx 800Lzr Pwr:
Base Station Input Power
Tx 1.9Bse Pwr:
Tx 800Bse Pwr:
Eko-1.9M
DL PA Detect
DL # Pwr dB:
Eko-1.9R
DL PA Detect
DL # Pwr dB
Single RF carrier
-0 dBm
31 dBm
33 dBm
39 dBm
Two RF carriers
-3 dBm
28 dBm
27 dBm
36 dBm
Four RF Carriers
-6 dBm
25 dBm
24 dBm
33 dBm
Adjustment to these levels will allow EkoCel to operate to the proper power level as
indicated above.
Display
DL # Pwr dB:
Set to XX dBm (set to desired output level in dBm
according to table) Press menu key, unit will self tune
within 10minutes. Typically within 2 – 3 minutes for
Peak Power levels settings.
DL # Peak Pwr:
This level should be set no more than 1dB above the
desired maximum output power limit. This feature will
reset the remote to the desired output power should the
power exceed the maimmum output power limit.
Note: # - indicates remote under setup.
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
59
9.5.6 Up Link System Set Up for the System
Up Link system set up for the system: The gain at the remote is a fixed at maximum this
prevents system level changes from effecting the system noise figure at any optical path
loss up to 20 dB RF loss. Adding attenuation at the hub makes UL system level
adjustments. The RF modem detects the up link modem carrier RSSI level and
adjustments are made using this pilot carrier as a reference. (RSSI level is updated once
every 15-30 seconds).
Display
UL # Gain dB:
XX dB (set to desired signal gain level)
Set desired Up Link Gain and press the Menu key. We suggest a level for RF UL 1
Detect between 4 dB and 6 dB. This will minimize system noise figure contribution
maintaining EkoCel specified performance of <6 dB noise figure. Repeat steps for
additional remote units.
System Set Up is Complete.
CI Wireless Inc.
Tel: 817 416 0583
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60
9.5.7 Down Link Set Up for EKO-8 System
Down Link set up for an 800MHz system may be completed with any known number of
RF channels transmitting. Determine the proper output power level.
Display, * Readings/Controls: Adjust base station input power to TX PWR IN.
800M
Number of Total Active
System RF Channels
4 or less
8 or less
16 or less
24 or less
Output Power
Per Channel
Watts
dBm
36
33
30
.4
26
.2
23
.125
21
Maximum Composite Power levels:
Lazer Power Input
Base Station Input Power
DL Power Out
0 dBm
31 dBm
36 dBm
Adjustment to these levels will allow EkoCel to operate to the proper power level as
indicated above.
Display
DL # Pwr dB:
Set to XX dBm (set to desired output level in dBm
according to table) Press menu key, unit will self tune
within 10minutes. Typically within 2 – 3 minutes for
Peak Power levels settings.
DL # Peak Pwr:
This level should be set no more than 1dB above the
desired maximum output power limit. This feature will
reset the remote to the desired output power should the
power exceed the maimmum output power limit.
Note: # - indicates remote under setup.
System will automatically reduce output power level if it exceeds 37dBm, which
is the Maximum peak limit setting,
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
61
9.5.8 Up Link System Set Up for the System
Up Link system set up for the system: The gain at the remote is a fixed at maximum this
prevents system level changes from effecting the system noise figure at any optical path
loss up to 20 dB RF loss. Adding attenuation at the hub makes UL system level
adjustments. The RF modem detects the up link modem carrier RSSI level and
adjustments are made using this pilot carrier as a reference. (RSSI level is updated once
every 10 seconds).
Display
UL # Gain dB:
XX dB (set to desired signal gain level)
Set desired Up Link Gain and press the Menu key. We suggest a level for RF UL 1
Detect between 4 dB and 6 dB. This will minimize system noise figure contribution
maintaining EkoCel specified performance of <6 dB noise figure. Repeat steps for
additional remote units.
System Set Up is Complete.
9.6.0 Calibration Table - U2
Remote RF Modem pilot level to Hub RF Modem RSSI
Refer to calibration tables provided with each unit OR Download tables Using terminal
mode at hub.
9.6.1 Calibration Table - U3
RF Input at Laser RF In. Tx 1.9Lzr Pwr: ,or Tx 800Lzr Pwr:
Refer to calibration tables provided with each unit OR Download tables Using terminal
mode at hub.
9.6.2 Calibration Table – U5
RF Output from PA at Remote Unit. DL # PA Detct:
Refer to calibration tables provided with each unit OR Download tables Using terminal
mode at hub.
Note: All values on Calibration Tables are in mV.
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
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62
10.0 Trouble Shooting
For additional technical support or questions regarding the application of EkoCel™,
please call 817 416-0583.
10.1 Trouble Shooting Guide
Hub
Problem
No Power
Hub Optical RX Alarm
Laser Alarm
Communications Alarm
Check
AC Fuse
24 VDC Fuse
12 VDC Fuse
Power Source
LED Indicator On front panel
Jumper Laser Output to Optical
Input, LED still not lit and/or
Alarm still present
LED lights with Jumper, check
Remotes laser optical output for
proper level, if Low or
Inoperative
Optical Output Good
LED Indicator on front panel,
good optical output low or zero
Fiber Laser and Optical receive
alarms (Refer to optical RX or
laser alarm for troubleshooting)
Failure on all remotes proceed
Failure on one remote go to
remote
Comm Link failure
Lasers Good, Check LED
Light Operation Sequence on
Hub RF Modem
Power On - Not lit check fuse, in
modem
Fuse good if power source checks
good
TX LED Lights - OK
Does not light - Check Input
signal J10 - Pin 3
Signal OK
No Signal
RX LED - Lights, check signal
J10 - P3
No Signal
No light (No response from
remote)
(If you have a signal source apply
-90 dBm RF signal to RF the
Modem, input RX LED should
light, reduce RF signal to <-105
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
Corrective Action
Replace
Replace
Replace
Reconnect or repair
Replace Fiber Transceiver at the
Hub
Replace Fiber Transmitter at the
Remote
Check for optical cable break or
loose cable
Replace Fiber Transceiver
Replace defective fiber
transceiver, transmitter or repair
optical cable
Replace fuse
Replace modem
Replace Modem
Refer to Controller trouble
shooting & 700-1005 Board Assy
Trouble shoot Controller & 7001005 Board Assy
Replace Modem
Trouble shoot Remote &/or
modem
63
700-1005
Commlink (RS 485)
485 Transmit
485 Receive
TX Power Input
-12 to +3 dBm
before RX LED turns off. This
checks squelch setting.) Modem
normally shipped set to 460 MHz.
Check for signal from controller
with oscilloscope across TS-485
terminals, if none
Signal on TS 485 but still no
signal on J-10 Pin3
Signal on J-10 Pin 2, no signal
across TS 485
Signal on TS 485, no response
from controller
Low RF detected Input
High
RF Up Link Signal Low /High
Down Link Power Output Low or
Alarm
Gain Low
Gain High
Gain Low cannot adjust one or
all Remote paths
Check Fiber Loss
Check Optical Loss
Check TX Power Input - if Low
Reprogram Controller
Still none
Replace Controller
Replace 700-1005
Replace 700-1005
Reprogram Controller
(no change-replace controller)
Check Base Station Output
Reduce Base Station output
power or add attenuation
Reset Up Link Gain Control
Set Up Link Gain Control
1st Go to proper Remote Link
path tests
2nd Go to Proper Remote Link
RF Modem path tests
Repair Fiber
Repair fiber cable, Go to optical
path tests
Re-adjust or repair source, if
good
Up Link Gain Control
Down Link Gain Control
Check Rf Output @ Duplexer TX
Input - If Low
Good - Check at Duplexer Output
Good Check CommLink
No Response, Check 700-1005
Refer to Down Link Power
Output
Refer to CommLink
If Ok, Check Controller is
adjusting DAC output , if DAC
Adjusting
No DAC adjusting at Remote
One Remote only
All remotes from hub
Replace PA
Replace Duplexer
Replace Polyphaser
Refer to CommLink Trouble
shooting
If defective, replace 700-1005
Refer to DL Power Output
Trouble shooting
Trouble shooting
Replace PA
Replace and/or reprogram remote
controller
Replace and/or reprogram Hub
controller
Trouble Shooting Table
Microcell (Remote)
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
64
Unit
Problem
Optical RX
Laser Alarm
Laser Temp
PA Temp Alarm
Check
Check LED on Fiber Optic RX
Jumper Laser out to optical input
- if failed
OK
Check Fiber transceiver optical
power & LED
Check if housing temperature is
between -30° & 70°C
Check current draw, High check Housing temperature
RF Power Output
Enclosure Temperature Alarm
No Up Link 1.9 GHz Signal
Intrusion Alarm
No Power
AC Power Alarm
Battery Back Up Alarm
CI Wireless Inc.
Tel: 817 416 0583
Check Housing Temp
Check Optical Path,
If ok - RF Signal test LNA, if fail
If ok - Test Duplexer , if fail
If ok - Test Polyphaser, if fail
Door Open
Defective Switch
AC Fuse
DC Fuse
Disconnect DC Cable on AC
Power Output, Measure with volt
meter , Turn Off AC Power for
90 seconds, check again, if BAD
Check Back up DC source or
recharge, if bad
1211 Ira E Woods Ave
Grapevine, TX 76051
Corrective Action
Replace Fiber Optic Rx
Trouble Shoot Hub laser and/or
optical cable
Replace Fiber transmitter
Replace fiber transmitter
Replace PA
Repeat Trouble shooting steps
under Hub section
If ok - Replace 700-1004
Trouble shoot Optical Path
Replace LNA
Replace Duplexer
Replace Polyphaser
Close Door
Replace Switch
Replace
Replace
Replace Power Supply
Replace battery and/or charger
unit
65
10.2 Understanding Setup and Alarms Information
Hub
Optical Receive
(Composite Alarms Optical Transceivers 1 to 4)
Laser Alarm
Communications Link R1
R2
R3
R4
(RF Modem link failure)
TX Lzr Power
RF Input Power to Laser
TX Base Power
RF Input Power from Base Station
RF Up Link
R1
R2
R3
R4
Down Link Power Out R1
R2
R3
R4
Down Link Power Set R1
R2
R3
R4
(As defined in Signal Gain over Optical Path Loss)
(Actual detected output power at remote as stated in
dBm)
(Last setting of output power made at remote)
Controls
Up Link Gain
Down Link Power dB
R1
R2
R3
R4
R1
R2
R3
(Sets Attenuator to desired RF Up Link Signal Gain)
(Adjusts Output Power to specified Level in dBm)
R4
*Remote Power
R1
R2
R3
(Main or Back Up Power select)
R4
Down Link
CI Wireless Inc.
Tel: 817 416 0583
R1
1211 Ira E Woods Ave
Grapevine, TX 76051
66
Peak Power Set
R2
R3
Set Peak Power level for RF output power. Limits
composite output power below this level. Default
R4
settings FCC licensed max levels
Maintenance Menu
Tx Pwr Lzr Mv
UL RF Los
UL Optic
UL Rssi Mv
DL dac Mv
UL Atten Set
R . Temp C
*DL RF Loss
*DL Optic
*DL PA Detect
CI Wireless Inc.
Tel: 817 416 0583
Detected RF Power in Mv
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
R3
R4
R1
R2
(Up Link RF Path Loss in dB)
(Up Link Optical Path Loss in dB)
(RSSI Voltage Signal Level Reading)
(PA Gain Setting in millivolts)
(Up Link Attenuator Setting)
(Remote Temperature of Cabinet ambient
in degrees C.)
(Down Link RF path Loss in dB)
(Down Link Optical path Loss in dB)
(Remote Unit Only, RF Output Power Level
1211 Ira E Woods Ave
Grapevine, TX 76051
67
R3
R4
detected, millivolts)
* Not equipped in all units prior to manufacture dates of 8-1-98
Remote Unit Alarms
Optical receive
Laser Alarm
Laser temperature Alarm
PA Temperature Alarm
RF Power Output Alarm
Enclosure Temperature Alarm
Intrusion Alarm
Primary Power
Battery Back up
Low TX Input Power
Output Power
Temperature Alarm
+75°C
6 dB below RF output setting
0 to 70°C
Door
Input signal <15 dBm @ Laser Input
Output power drop <10 dB
<10 or > 160 degrees F, Cabinet Temperature
Information
Down Link Power Out
TX Power In
RF Up Link Detect
Up Link Gain Control
TX Power In
Cabinet Temperature
RF Output Power, dBm
Input Power to Laser In dBm
RF Up Link signal Gain
Last Up Link Gain Setting command at Hub
Power From Base Station, dBm
Degrees C
Down Link Power dB
Up Link Gain dB
* Remote Power
Set RF output power in dBm
Sets Up Link Signal Path Gain to desired level
Main or BBU
Alarm History Log
Scholl last 100 alarms, displaying Date, Time
Alarm Type
Alarm Reset Menu
Select remote to reset alarms (F4 resets all
alarms all remotes)
RS 232 Port Mode
Activates RS 232 Port as Terminal Mode
Modem Mode, None - Programming Mode
Control
# Additional R5 - R8 Remote Alarms, controls and information if system is equipped for
dual band 800 MHz/1.9 GHz operation.
Additional Features for Future Product Releases
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
68
System Gain R1 - R4
Down Link Power Out (minus) Down Link RF
Input = System Gain
System Gain Alarm
Alarm if System Gain drops 3 dB below setup
level
Auto Loop Adjust Down Link
Resets Down System Gain to Setup level
(Factory set to adjust one time daily at 3 A.M.,
# user defined to setup to 4 times/day)
Auto Loop Adjust Up Link
Resets Up Link System Gain to set up level
(same as Down Link), (Factory set to adjust one
time daily at 3 A.M., # user defined to setup to
4 times/day)
Auto Battery Back Up Test Cycle
Exercises Battery Back Up daily for 10 minutes
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
69
10.3 Module Replacement Procedures
Microcell (Remote) Unit
Power Amplifier Replacement
• Turn off and disconnect power from the Remote Unit
• Remove Duplexer/AC-DC Panel
1. Disconnect AC Main Cable
2. Disconnect AC Power Supply Cable
3. Disconnect DC Interconnect Cable
4. Disconnect TX RF Input Cable from Duplexer
5. Disconnect RX Output Cable from Duplexer
6. Disconnect Antenna/Duplexer Output RX cable
7. Remove 4 screws which mounts the panel
8. Panel will now lift out of unit
• Remove 6 screws securing Power Amplifier
• Disconnect PA Input RF cable from coupler on Fiber Optic/RF Modem panel
• Unplug PA ribbon cable from 700-1002
Interconnect board assembly J5
• Lift PA out of Unit
• Remove PA Ribbon Cable, RF Input and Output cables and transfer to new
PA
• Reinstall by reversing procedure
• Check PA Output Power Calibration
Adjustment on 700-1004 Assembly on Controller door panel
Power Supply Replacement
• Turn off and disconnect power from the Remote Unit
• Remove Duplexer/AC-DC Panel
1. Disconnect AC Main Cable
2. Disconnect AC Power Supply Cable
3. Disconnect DC Interconnect Cable
4. Disconnect TX RF Input Cable from Duplexer
5. Disconnect RX Output Cable from Duplexer
6. Disconnect Antenna/Duplexer Output RX cable
7. Remove 4 screws which mounts the panel
8. Panel will now lift out of unit
• Disconnect 12 VDC Input cable from 700-1002 Interconnect assembly J2
• Remove 4 screws securing Power Supply Assembly
• Lift Power Supply ort of unit
• Remove Cable assemblies from defective unit and install on replacement
power supply
• Reinstall by reversing procedure
LNA Replacement
• Turn Off and Disconnect Power from the Unit
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
70
•
•
•
•
•
•
•
Remove Fiber Optic/RF Modem Panel
1. Disconnect Fiber Optic cables and carefully place where they will not be
damage
2. Disconnect RF cables from couplers, 2 each.
3. Remove 15 pin ribbon cable from J4 on 700-1003 Interconnect board
assembly on panel
4. Remove 4 Panel Mounting screws
5. Panel will now lift out of unit
Disconnect RF Cable from Duplexer, RX output
Remove 4 mounting screws securing LNA Module
Unplug DC Input from 700-1002 Interconnect assembly J7
Lift LNA Module from Unit
Remove Filter RF cables and reinstall replacement unit
Reinstall LNA Module by reversing the procedure
Replacement of any Module on the Fiber Optic/RF Modem Panel
• Turn Off and Disconnect Power from the Unit
• Remove Fiber Optic/RF Modem Panel
1. Disconnect Fiber Optic cables and carefully place where they will not be
damage
2. Disconnect RF cables from couplers, 2 each.
3. Remove 15 pin ribbon cable from J4 on 700-1003 Interconnect board
assembly on panel
4. Remove 4 Panel Mounting screws
5. Panel will now lift out of unit
• Remove and replace defective module on panel
Replacement of Duplexer or AC-DC Module
• Turn Off and Disconnect Power from the Unit
• Remove Fiber Optic/RF Modem Panel
1. Disconnect Fiber Optic cables and carefully place where they will not be
damage
2. Disconnect RF cables from couplers, 2 each.
3. Remove 15 pin ribbon cable from J4 on 700-1003 Interconnect board
assembly on panel
4. Remove 4 Panel Mounting screws
5. Panel will now lift out of unit
• Duplexer - Remove 5 mounting screws from the back of panel and reinstall
replacement assembly
• AC-DC Module
1. Remove 4 screws securing cover
(con’t on next page)
2. Remove 4 screws inside securing unit to panel
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
71
3. Reinstall replacement module. Caution: please secure with mounting
screw when reinstalling module on panel
4. Reinstall panel reversing procedure
Replacement of Control Module or 700-1004 Board Assembly
• Turn Off and Disconnect Power from the Remote Unit
• Assemblies can be replaced without removing panel.
• Replacing the Controller
1. Disconnect 26 conductor ribbon cables from J1 & J2 on 700-1004 board
assembly
2. Remove 4 mounting screws and lift controller from panel
3. Reinstall by reversing procedure. Caution: Be sure ribbon cables are
properly dressed to prevent damage when closing & opening door.
• Replacing 700-1004 Assembly
1. Disconnect cables from J1, J2, J3 and J4
2. Disconnect cables from terminal strips, RS-485, Door Intrusion switch and
10 Pin terminal
3. Remove 4 mounting screws and lift module from panel
4. Insure replacement board has proper Jumper placement and install
reversing procedure
5. Check PA Output for proper calibration adjustments are made using VR1
on board assembly
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
72
A1. EkoCel
, CDMA Fiber Optic Microcell
Specifications: CDMA
Model
Eko-19
Parameter
Operating Frequency, (MHz)
(Band Selective)
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, 1 channel, (dBm)
2 Channel/Channel, (dBm)
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power
Fc +/- 885 kHz (30 kHz BW), (dBc)
Fc +/- 1.25 Mhz (1.25 kHz BW), (dBm)
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
Forward
1930 to 1990
Reverse
1850 to 1910
Primary Power
Current Draw (AMPS)
Optional, Battery Backup
Optional, AC Supply
Ambient operating temperature, (Degrees C.)
Optional, with Heater
Enclosure
Enclosure Dimensions (HxWxD), inches
Weight
Color
Cooling
MTBF
Optional, Single optical fiber operation
OUTLINE DRAWING
12.00
30
40
33
30
15
30
>50
+/- 1
<5
1550
10
-55 to –105
-25
10
11.00
20
+/- 1
<5
1310
10
-45
<-26
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
90-130 VAC
18-36 VDC
1.2
1.5
12 VDC
N/A
N/A
90-130 VAC
-30 to +50
-30 to +50
-40 to +50
N/A
NEMA 3R , 12
Rack Mount
18x12x14
7x19x15
45 lbs.
12 lbs.
Gray
Convective
60,000 Hrs.
Wave Division Multiplexing (WDM)
15.50
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.00
N.B. The Manufacturer reserves the right to alter the specifications.
Eko, fiber optic microcell meets all applicable ANSI J STD 008 specifications.
FCC: NUW002EKO19
IC: CAN3056311165
FINS FOR
CONVECTIVE
COOLING
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
73
A2.
EkoCel
, GSM Fiber Optic Microcell
Specifications: GSM
Model
Eko-19
Parameter
Operating Frequency, (MHz)
(Band Selective)
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, 1 channel, (dBm)
2 Channel/Channel, (dBm)
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power
Out Of Band, dBm
Forward
1930 to 1990
Reverse
1850 to 1910
30
-55 to –105
-25
10
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
Primary Power
Current Draw (AMPS)
Optional, Battery Backup
Optional, AC Supply
Ambient operating temperature, (Degrees C.)
Optional, with Heater
Enclosure
Enclosure Dimensions (HxWxD), inches
Weight
Color
Cooling
MTBF
Optional, Single optical fiber operation
OUTLINE DRAWING
12.00
40
36
30
15
30
>50
+/- 1
<5
1550
10
11.00
20
+/- 1
<5
1310
10
15.50
>-26
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
90-130 VAC
18-36 VDC
1.2
1.5
12 VDC
N/A
N/A
90-130 VAC
-30 to +50
-30 to +50
-40 to +50
N/A
NEMA 3R , 12
Rack Mount
18x12x14
7x19x15
45 lbs.
12 lbs.
Gray
Convective
60,000 Hrs.
Wave Division Multiplexing (WDM)
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.00
N.B. The Manufacturer reserves the right to alter the specifications.
FCC: NUW002EKO19
IC: CAN3056311165
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
74
A3.
EkoCel
, TDMA Fiber Optic Microcell
Specifications: (IS-136)
Model
Eko-19
Parameter
Operating Frequency, (MHz)
(Band Selective)
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, 1 channel, (dBm)
2 Channel/Channel, (dBm)
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power
Out Of Band, dBm
Forward
1930 to 1990
Reverse
1850 to 1910
30
-35 to –105
-25
10
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
Primary Power
Current Draw (AMPS)
Optional, Battery Backup
Optional, AC Supply
Ambient operating temperature, (Degrees C.)
Optional, with Heater
Enclosure
Enclosure Dimensions (HxWxD), inches
Weight
Color
Cooling
MTBF
Optional, Single optical fiber operation
OUTLINE DRAWING
12.00
11.00
40
30
27
15
30
>50
+/- 1
<5
1550
10
20
+/- 1
<5
1310
10
15.50
>-26
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
90-130 VAC
18-36 VDC
1.2
1.5
12 VDC
N/A
N/A
90-130 VAC
-30 to +50
-30 to +50
-40 to +50
N/A
NEMA 3R , 12
Rack Mount
18x12x14
7x19x15
45 lbs.
12 lbs.
Gray
Convective
60,000 Hrs.
Wave Division Multiplexing (WDM)
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.00
N.B. The Manufacturer reserves the right to alter the specifications.
FCC: NUW002EKO19
IC: CAN3056311165
FINS FOR
CONVECTIVE
COOLING
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
75
A4. EkoCel
, 800mHz Fiber Optic Microcell
Specifications:
Model
Parameter
Operating Frequency, (MHz)
ESMR Frequency, (Band Selective)
1 dB Bandwith
Nominal 20 dB Bandwidth
Cellular Frequency, (Band Selective)
1 dB Bandwidth
Nominal 20 dB Bandwidth
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, Composite, (dBm)
RF Rated power composite
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power (dBm)
Forward
Reverse
851-894 / 930-960 806-849 / 870-915
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
Primary Power
Current Draw (AMPS)
Optional, Battery Backup
Optional, AC Supply
Ambient operating temperature, (Degrees C.)
Optional, with Heater
Enclosure
Enclosure Dimensions (HxWxD), inches
Weight
Color
Cooling
MTBF
Optional, Single optical fiber operation
Eko-800
OUTLINE DRAWING
12.00
851-866
35 MHz
806-821
35 MHz
869-894
35 MHz
824-849
35 MHz
20
30
40
36
FCC: 4 watt
15
30
>50
+/- 1
<5
1550
10
<-13
11.00
20
-60 to –115
-25
10
IC: 5 watt
30
15.50
+/- 1
<5
1310
10
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
90-130 VAC
18-36 VDC
1.5
28 VDC
N/A
N/A
90-130 VAC
-30 to +50
-30 to +50
-40 to +50
N/A
NEMA 3R , 12
Rack Mount
24x12x14
7x19x15
57 lbs.
12 lbs.
Gray
Heat Exchanger / Forced Air
60,000 Hrs.
Wave Division Multiplexing (WDM)
24 in.
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.0 0
N.B. The Manufacturer reserves the right to alter the specifications.
Heat
Exchanger
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
76
A5. EkoCel
, 8watt CDMA Fiber Optic Microcell
Specifications:
Model
Eko-1.9R
Parameter
Operating Frequency, (MHz)
CDMA Frequency, (Band Selective)
1 dB Bandwith
Nominal 20 dB Bandwidth
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, Composite, (dBm)
Forward
1930 to 1990
Reverse
1850 to 1910
1930 to 1990
70 MHz
>4
30
1850 to 1910
70 MHz
>4
-55 to –105
-25
10
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power
Fc +/- 885 kHz (dBc)
Out of Band (dBm)
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
19
30
OUTLINE DRAWING
12.00
11.00
40
39
>50
+/- 1
<5
1550
10
30
<6
15.50
24 in.
+/- 1
<5
1310
10
-45
< -13
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
Primary Power
90-130 VAC
18-36 VDC
Current Draw (AMPS)
1.5
Optional, Battery Backup
12 VDC / 20 A
N/A
Optional, AC Supply
N/A
90-130 VAC
Ambient operating temperature, (Degrees C.)
-30 to +50
-30 to +50
Optional, with Heater
-40 to +50
N/A
Enclosure
NEMA 3R , 12
Rack Mount
Enclosure Dimensions (HxWxD), inches
24 x12 x14
7 x19 x15
Weight
48 lbs.
12 lbs.
Color
Gray
Cooling
Heat Exchanger / Forced Air
MTBF
60,000 Hrs.
Optional, Single optical fiber operation
Wave Division Multiplexing (WDM)
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.00
Heat
Exchanger
N.B. The Manufacturer reserves the right to alter the specifications.
Note: This product has not received FCC Type Acceptance to this date 11/15/98
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
77
A6. EkoCel
, 8watt GSM Fiber Optic Microcell
Specifications:
Model
Eko-1.9R
Parameter
Operating Frequency, (MHz)
GSM Frequency, (Band Selective)
1 dB Bandwith
Nominal 20 dB Bandwidth
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, Composite, (dBm)
Forward
1930 to 1990
Reverse
1850 to 1910
1930 to 1990
70 MHz
>4
30
1850 to 1910
70 MHz
>4
-55 to –105
-25
10
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power
Fc +/- 885 kHz (dBc)
Out of Band (dBm)
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
19
30
OUTLINE DRAWING
12.00
11.00
40
39
>50
+/- 1
<5
1550
10
30
<6
15.50
24 in.
+/- 1
<5
1310
10
-45
< -13
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
Primary Power
90-130 VAC
18-36 VDC
Current Draw (AMPS)
1.5
Optional, Battery Backup
12 VDC / 20 A
N/A
Optional, AC Supply
N/A
90-130 VAC
Ambient operating temperature, (Degrees C.)
-30 to +50
-30 to +50
Optional, with Heater
-40 to +50
N/A
Enclosure
NEMA 3R , 12
Rack Mount
Enclosure Dimensions (HxWxD), inches
24 x12 x14
7 x19 x15
Weight
48 lbs.
12 lbs.
Color
Gray
Cooling
Heat Exchanger / Forced Air
MTBF
60,000 Hrs.
Optional, Single optical fiber operation
Wave Division Multiplexing (WDM)
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.00
Heat
Exchanger
N.B. The Manufacturer reserves the right to alter the specifications.
Note: This product has not received FCC Type Acceptance to this date 11/15/98
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
78
A7. EkoCel
, 8watt TDMA Fiber Optic Microcell
Specifications:
Model
Eko-1.9R
Parameter
Operating Frequency, (MHz)
TDMA Frequency, (Band Selective)
1 dB Bandwith
Nominal 20 dB Bandwidth
Number of Channels
RF Input Power, (dBm)
Interference signal, no desense, (dBm)
RF Input Maximum, No Damage (dBm)
RF Output Power, Composite, (dBm)
Forward
1930 to 1990
Reverse
1850 to 1910
1930 to 1990
70 MHz
>4
30
1850 to 1910
70 MHz
>4
-55 to –105
-25
10
RF Link gain, Max (dB)
Gain Adjustment, 1 dB Steps, (dB)
Noise Figure, Maximum any Gain, (dB)
C/N, over gain range, (dB)
Gain Flatness, Maximum, (dB)
Propagation delay, excluding fiber, (usec)
Optical Wavelength, (nm) (+/- 30 nm)
Optical Path Loss Maximum,, (dB)
Spurious Output @ rated output power
Fc +/- 885 kHz (dBc)
Out of Band (dBm)
Impedance, input and output, (ohms)
Return loss, input and output, (dB)
RF Connector, Antenna Port/Duplexed
Optical Connectors
Fiber Type
19
30
OUTLINE DRAWING
12.00
11.00
40
39
>50
+/- 1
<5
1550
10
30
<6
15.50
24 in.
+/- 1
<5
1310
10
-45
< -13
50
15
N/Female
FC/Angled PC
Single Mode 9/125 um
Microcell
Hub Unit
Primary Power
90-130 VAC
18-36 VDC
Current Draw (AMPS)
1.5
Optional, Battery Backup
12 VDC / 20 A
N/A
Optional, AC Supply
N/A
90-130 VAC
Ambient operating temperature, (Degrees C.)
-30 to +50
-30 to +50
Optional, with Heater
-40 to +50
N/A
Enclosure
NEMA 3R , 12
Rack Mount
Enclosure Dimensions (HxWxD), inches
24 x12 x14
7 x19 x15
Weight
48 lbs.
12 lbs.
Color
Gray
Cooling
Heat Exchanger / Forced Air
MTBF
60,000 Hrs.
Optional, Single optical fiber operation
Wave Division Multiplexing (WDM)
PRIMARY POWER
N/F RF CONNECTOR
8.875
6.00
Heat
Exchanger
N.B. The Manufacturer reserves the right to alter the specifications.
Note: This product has not received FCC Type Acceptance to this date 11/15/98
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
79
B.
Model Number Identification
1.9 Custom Hub
Eko-19H X X X - X X X X X X
Option Designators (Include only quipped options)
Combiner 0 2 4
Wave Division Multiplex Option
Heater Option (N/A for Hub)
Crossband Coupler Option
AC Power Option (DC Standard)
Duplexer Option
Standard Nomenclature
Designator Number of Channels (N/A Hub)
Channelized One Channel
Channelized Two Channels
Channelized Three Channels
Band Select
A thru F Band of Operation Designator
Expansion Configured Hub Unit
H - Hub Unit Only 1.9 GHz, Non-Expandable
Microcell (Remote)
Eko-19M X X X - X X X X X X
Option Designators (Include only quipped options)
Combiner 0 2 4 (N/A)
Wave Division Multiplex
Heater Option
Crossband Coupler Option
AC Power - Standard
Duplexer - Standard
Standard Nomenclature
Designator Number of Channels
Channelized One Channel
Channelized Two Channels
Channelized Three Channels
Band Select
A thru F Band of Operation Designator
Expansion or Slave Unit*
M - Microcell (Remote) Unit Only 1.9 NonExpandable *Slave unit is equipped to interconnect with
Eko-8M which includes Eko-M-X option
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
80
C.
Model Number Identification
800 Hub
Example:
Eko-8HEB0-0AC000
Eko-8H X X X - X X X X X X
Option Designators (Include only equipped options)
Combiner 0 2 4
Wave Division Multiplex Option
Heater Option (N/A for Hub)
Crossband Coupler Option(1.9 and 800)
AC Power Option (DC Standard)
Duplexer Option
Standard Nomenclature
Reserved
B-Both
C- Cellular
S - Trunking/Cellular
Expansion Configured Hub Unit
H - Hub Unit Only, Non-Expandable
Microcell (Remote)
Examples:
Eko-8M0C0-DAC000
Eko-8M0S0-DAC000
Eko-8M X X X - X X X X X X
Option Designators (Include only equipped options)
Combiner 0 2 4 (N/A)
Wave Division Multiplex
Heater Option
Crossband Coupler Option
AC Power - Standard
Duplexer - Standard
Standard Nomenclature
Reserved
C - Cellular
S - Trunking/ESMR
Expansion or Slave Unit*
M - Microcell (Remote) Unit Only NonExpandable *Slave unit is equipped to interconnect with
Eko-1.9M which includes Eko-M-X option
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
81
D.
Model Number Identification
1.9 Custom Hub
Eko-19H X X X - X X X X X X
Option Designators (Include only quipped options)
Combiner 0 2 4
Wave Division Multiplex Option
Heater Option (N/A for Hub)
Crossband Coupler Option
AC Power Option (DC Standard)
Duplexer Option
Standard Nomenclature
Designator Number of Channels (N/A Hub)
Channelized One Channel
Channelized Two Channels
Channelized Three Channels
Band Select
A thru F Band of Operation Designator
Expansion Configured Hub Unit
H - Hub Unit Only 1.9 GHz, Non-Expandable
Microcell (Remote) 8watt
Eko-19R X X X - X X X X X X
Option Designators (Include only quipped options)
Combiner 0 2 4 (N/A)
Wave Division Multiplex
Heater Option
Crossband Coupler Option
AC Power - Standard
Duplexer - Standard
Standard Nomenclature
Designator Number of Channels
10
Channelized One Channel
11
Channelized Two Channels
12
Channelized Three Channels
Band Select
A thru F Band of Operation Designator
Expansion or Slave Unit*
R - Microcell (Remote 8 watt) Unit Only 1.9 NonExpandable.
*Slave unit is equipped to interconnect with Eko-8M which
includes Eko-M-X option
CI Wireless Inc.
Tel: 817 416 0583
1211 Ira E Woods Ave
Grapevine, TX 76051
82
E.
PCS FREQUENCY BANDS
FREQUENCY BLOCKS
Block Designator
F.
CHANNEL PLANS
F1.
CDMA CHANNEL PLAN
Reverse
Channels
Forward
Channels
Reverse Frequency
1850 - 1865 MHz
1870 - 1885 MHz
1895 - 1910 MHz
1865 - 1870 MHz
1885 - 1890 MHz
1890 - 1895 MHz
Forward Frequency
1930 - 1945 MHz
1950 - 1965 MHz
1975 - 1990 MHz
1945 - 1950 MHz
1965 - 1970 MHz
1970 - 1975 MHz
CDMA Channel Number
0
Source Exif Data:
File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.2
Linearized                      : No
Page Count                      : 93
Creator                         : Microsoft Word
Create Date                     : Monday, February 15, 1999 2:42:40 PM
Title                           : MANUAL.PDF
Author                          : John O'Brien
Producer                        : Acrobat PDFWriter 3.0 for Windows
Subject                         : CI Wireless EkoCell Manual
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FCC ID Filing: NUW004SEKO8

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