GE MDS DS-CW500 CarrierWave 500 User Manual

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CarrierComm
CarrierWave-100/155
User Reference and Installation Manual
Document Number: MK-MAN-01 Rev: B
Date: 11 March 2003
CarrierWave Digital Radio Manual Dwg # MK-MAN-01; Revision Levels: A
Section
Drawing No:
REV
Revised /
Released
Reason
CW-100
MK-MAN-01
SN
Initial Release
CW-155
MK-MAN-01
Added antenna professional installation
and FCC clarification statements.
CarrierWave Digital Radio
Table of Contents
SAFETY PRECAUTIONS............................................................................................................. 1-1
SYSTEM DESCRIPTION.............................................................................................................. 2-1
2.1
About This Manual ...........................................................................................................................................................2-1
2.2
Introduction........................................................................................................................................................................2-1
2.3
System Features .................................................................................................................................................................2-4
2.4
Physical Description..........................................................................................................................................................2-5
2.4.1
Model Types ...............................................................................................................................................................2-5
2.4.2
Front Panel Indicators................................................................................................................................................2-6
2.4.3
Rear Panel Connections ............................................................................................................................................2-8
2.5
System Description......................................................................................................................................................... 2-10
2.6
Consecutive Point Architecture.................................................................................................................................. 2-12
2.7
Power Management........................................................................................................................................................ 2-15
2.8
CarrierWave iWareTM Software and Network Management............................................................................ 2-16
INSTALLATION........................................................................................................................... 3-1
3.1
Unpacking............................................................................................................................................................................3-1
3.2
Notices ..................................................................................................................................................................................3-2
3.3
PRE-INSTALLATION NOTES ....................................................................................................................................3-2
3.3.1
Back-to-Back Bench Testing....................................................................................................................................3-2
3.4
Overview of Installation and Testing Process ...........................................................................................................3-3
3.5
Site
3.5.1
3.5.2
3.5.3
3.5.4
Evaluation....................................................................................................................................................................3-5
Preparing for a Site Evaluation ................................................................................................................................3-5
Site Evaluation Process.............................................................................................................................................3-6
Critical System Calculations ....................................................................................................................................3-8
Documenting a Site Evaluation..............................................................................................................................3-11
3.6
Installation of the CarrierWave Digital Radio....................................................................................................... 3-14
3.6.1
Installing the CarrierWave IDU .............................................................................................................................3-14
3.6.2
Installing the CarrierWave ODU............................................................................................................................3-15
3.6.3
Routing the ODU/IDU Interconnect Cable ..........................................................................................................3-20
3.6.4
Grounding the System.............................................................................................................................................3-21
3.7
Configuration of the CarrierWave Digital Radio.................................................................................................. 3-23
3.7.1
Materials Required ...................................................................................................................................................3-23
3.7.2
IDU Configuration Process ....................................................................................................................................3-24
3.7.3
Documenting CarrierWave Digital Radio Configuration..................................................................................3-34
4.1
FRONT PANEL OPERATION....................................................................................................... 4-1
Introduction........................................................................................................................................................................4-1
4.2
Front Panel Operation.....................................................................................................................................................4-1
4.2.1
LCD Display................................................................................................................................................................4-1
4.2.2
Cursor and Screen Control Buttons.........................................................................................................................4-2
4.3
LED Status Indicators......................................................................................................................................................4-3
4.4
Screen Menus......................................................................................................................................................................4-4
4.4.1
Text Screens................................................................................................................................................................4-5
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4.4.2
4.5
Menu Screen................................................................................................................................................................4-5
Menu Tree Structure........................................................................................................................................................4-7
4.6
Screen Menu Summaries.............................................................................................................................................. 4-11
4.6.1
Modify Config/Link Params ...................................................................................................................................4-12
4.6.2
Modify Config/TX Control.....................................................................................................................................4-13
4.6.3
Modify Config/Adaptive Pwr Ctrl.........................................................................................................................4-14
4.6.4
Display Config/Display RX Config/Radio...........................................................................................................4-14
4.6.5
Display Config/Display Rx Config/Demod/Decoder.........................................................................................4-14
4.6.6
Display Config/Display TX Config/Radio...........................................................................................................4-15
4.6.7
Display Config/Display Tx Config/Mod/Encoder..............................................................................................4-15
4.6.8
Display Config/Adaptive Pwr Ctrl.........................................................................................................................4-16
4.6.9
Display Config/Network Config ............................................................................................................................4-16
4.6.10
Display Config/OA&M Params .............................................................................................................................4-17
4.6.11
Monitor Status/Display RX Status ........................................................................................................................4-17
4.6.12
Monitor Status/Display Cur Alarms ......................................................................................................................4-17
SUMMARY SPECIFICATION ....................................................................................................... 5-1
REAR PANEL CONNECTORS ..................................................................................................... 6-1
6.1
DC Input (Power) Connector .........................................................................................................................................6-1
6.2
CarrierWave-100 Ethernet 100BaseTX Payload LOC Connector ......................................................................6-1
6.3
CarrierWave-100 Ethernet 100BaseTX CPT Connector .......................................................................................6-3
6.4
CarrierWave-155 SONET Payload Connector .........................................................................................................6-3
6.5
NMS 10/100BaseTX LOC Connector ..........................................................................................................................6-4
6.6
NMS 10/100BaseTX CPT Connector ...........................................................................................................................6-5
6.7
Alarm Port Connector......................................................................................................................................................6-6
6.8
T1- A Wayside Channel Connector ..............................................................................................................................6-7
6.9
T1- B Wayside Channel Connector ..............................................................................................................................6-8
6.10
ODU Connector..................................................................................................................................................................6-8
APPENDIX.................................................................................................................................. 7-1
7.1
Abbreviations & Acronyms ............................................................................................................................................7-1
7.2
Conversion Chart..............................................................................................................................................................7-4
MK-MAN-01
CarrierWave Digital Radio
1 Safety Precautions
PLEASE READ THESE SAFETY PRECAUTIONS!
RF Energy Health Hazard
The radio equipment described in this guide uses radio frequency transmitters. Although the
power level is low, the concentrated energy from a directional antenna may pose a health hazard.
Do not allow people to come in close proximity to the front of the antenna while the transmitter is
operating. The antenna will be professional installed on fixed-mounted outdoor permanent
structures where the antenna will be 2 meters away from any other antenna and all persons.
Protection from Lightning
Article 810 of the US National Electric Department of Energy Handbook 1996 specifies that radio
and television lead-in cables must have adequate surge protection at or near the point of entry to
the building. The code specifies that any shielded cable from an external antenna must have the
shield directly connected to a 10 AWG wire that connects to the building ground electrode.
FCC Notice, USA
CarrierWave Digital Radios comply with Part 15 of the FCC rules. The radios are specifically
designed to be used under Part 15, Section 15.247 of the FCC rules and regulations. Operation is
subject to following conditions:
•
•
•
•
•
The device to utilize a fixed mount antenna, for use on a permanent outdoor structure.
The device to be installed by qualified installation/deployment personnel, and a minimum
of 2 meter of separation must exist between the device and persons, when the device is
operating.
The device installers and operators should be aware of the transmitter operating
conditions, specified in the installation manual and other associated user documentation,
as well as the antenna co-location requirements of Part 1.1307 (b) (3), of FCC rules,
pertaining to RF exposure.
The device may not cause harmful interference.
The device must accept interference received, including interference that may cause
undesired operation.
CarrierWave Digital Radio
MK-MAN-01
1-2
Safety Precautions
The device is intended to be used only when installed in accordance with instructions outlined in
this manual. Failure to comply with these instructions may void the user's authority to operate
this device and/or the manufacturer's warranty. Furthermore, any unauthorized modification or
changes to this device without the express approval of CarrierComm may also void the user's
authority to operate this device.
FCC Part 15 Notice
This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference to
radio communications. Operation of this equipment in a residential area may cause harmful
interference, in which case the user will be required to correct the interference at his expense.
Any external data or audio connection to this equipment must use shielded cables.
MK-MAN-01
CarrierWave Digital Radio
2 System Description
2.1 About This Manual
This manual is written for those who are involved in the “hands-on” installation of the CarrierWave
Digital Radio, such as installation technicians, site evaluators, project managers, and network
engineers. It assumes the reader has a basic understanding of how to install hardware, use
Windows based software, and operate test equipment.
2.2 Introduction
The CarrierWave family of digital license-free radios provides high capacity transmission,
flexibility, features, and convenience for wireless digital communications networks. The
CarrierWave digital radios are spectrum and data rate scalable, enabling service providers or
organizations to trade-off system gain with spectral efficiency and channel availability for optimal
network connectivity.
CarrierComm’s digital radio family enables service providers and
enterprises to offer a portfolio of secure, scalable wireless applications for data, video, and Voice
over IP (VoIP).
The CarrierWave digital radio family operates in the Industrial, Scientific, and Medical (ISM)
band of 5.725 to 5.850 GHz, which is typically referred generically as 5.8 GHz. The
CarrierWave Digital Radio family supports two types of user data payload connectivity:
•
SONET/SDH wireless bridging between two fixed coordinated locations without the delay
and expense of trenching fiber or the added costs of leasing dedicated OC-3 lines.
•
100Base-TX intelligent bridging between two locations without the delay and expense of
installing cable or traditional microwave
- Scalable Ethernet capability of 25 and 50 Mbps is included. These scalable radios
provide LAN connectivity and offer performance trade-offs between operational
bandwidths, data rates, and distance.
For customers such as cellular carriers requiring backhaul and backbone extension as well
as service providers requiring network redundancy, new Points of Presence (POPs), and last
mile access, the CarrierWave-155 radio is a cost effective alternative to leased lines with
carrier-class quality of performance. The CarrierWave-100 radio is a cost effective solution
to meet the growing demand for enterprise Local Area Network (LAN) connectivity between
buildings and campuses as well as service providers requiring reliable products for
infrastructure expansion, extending Metropolitan Area Network (MAN) fiber access, and
network redundancy.
CarrierWave Digital Radio
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2-2
System Description
The CarrierWave Digital Radio includes integrated Operations, Administration, Maintenance, and
Provisioning (OAM&P) functionality and design features enabling simple commissioning when the
radio network is initially set up in the field at the customer’s premises. Furthermore, a highlight of
CarrierComm’s radio products is scalability and the capability to support a ring-type architecture.
This ring or consecutive point radio architecture is self-healing in the event of an outage in the link
and automatically re-routes data traffic, thereby ensuring that service to the end user is not
interrupted.
The overall architecture consists of a single 2RU rack mount Indoor Unit (IDU) with a cable
connecting to an Outdoor Unit (ODU) with an integrated antenna. There is an option for
interfacing the ODU with an external antenna (contact factory for availability). The IDU/ODU
architecture is advantageous when compared to a single IDU with external mount antenna since
supporting a signal of 5.8 GHz from the IDU rack to the antenna will experience significant signal
degradation requiring expensive coaxial cable or waveguide.
Figure 2-1. CarrierWave IDU/ODU Architecture
Table 2-1 lists key features that CarrierWave technology offers to those involved in the design,
deployment and support of broadband fixed wireless networks.
Table 2-1. Key Benefits and Advantages of CarrierWave Digital Radios
Benefits
Advantages to Providers/Customers
Reference
Wireless license-exempt system
ISM bands do not require expensive
license band fees or incur licensing delays.
Fast return on investment.
2.2 – 2.4
Lower total cost of total ownership.
Wireless connectivity supplements existing
fiber (SONET) or cable (Ethernet).
MK-MAN-01
Media diversity avoids single points of
failure.
CarrierWave Digital Radio
User Reference and Installation Manual
2-3
Table 2-1. CarrierWave Digital Radio Benefits and Advantages to Providers
(continued)
Benefits
Advantages to Providers/Customers
Reference
Easy to install units
Straightforward modular system enables
fast deployment and activation.
Fast return on investment.
3.1
No monthly leased line fees.
Carrier-class reliability.
Complete support of payload capacity with additional wayside channels
Aggregate capacity beyond basic payload
(50 Mbps or 100 Mbps or 155 Mbps).
Scalable and spectrally efficient system.
Separate
networks
for
radio
overhead/management and user payload.
Increases available bandwidth of network.
2.2 – 2.5
Allows customer full use of revenuegenerating payload channel.
T1 wayside channels supports extension
of PBX connectivity between buildings
without additional leased-line costs.
Lowers total cost of ownership.
Ring Architecture
Supports a ring (consecutive point)
configuration, thus creating a self-healing
redundancy that is more reliable than
traditional point-to-point networks.
In the event of an outage, traffic is
automatically rerouted via another part of
the ring without service interruption.
Ring/consecutive point networks can
overcome line-of-sight issues and reach
more buildings than other traditional
wireless networks.
Enables network scalability.
2.4 – 2.5, 2.6,
3.7, 4.4
Increases deployment scenarios for initial
deployment as well as network expansion
with reduced line-of-sight issues.
Increases network reliability due to selfhealing redundancy of the network.
Minimizes total cost of ownership and
maintenance of the network.
Allows for mass deployment.
Networks can be expanded by adding
more CarrierWave Digital Radios or more
rings without interruption of service.
A separate management channel allows
for a dedicated maintenance ring with
connections to each CarrierWave Digital
Radio on the ring.
CarrierWave Digital Radio
MK-MAN-01
2-4
System Description
Table 2-1. CarrierWave Digital Radio Benefits and Advantages to Providers
(continued)
Benefits
Advantages to Providers/Customers
Reference
Adaptive Power Control
Automatically adjusts transmit power in
discrete increments in response to RF
interference
Enables dense deployment.
Simplifies
deployment
management.
2.5, 2.7
and
network
Comprehensive Link/Network Management Software
A graphical user interface offers security,
configuration, fault, and performance
management via standard craft interfaces.
Suite
of
SNMP-compatible
network
management tools that provide robust
local and remote management capabilities.
Simplifies management of radio network
and minimizes resources as entire network
can be centrally managed out of any
location.
2.8, 3.7, 4.5
Simplifies troubleshooting of single radios,
links, or entire networks.
Simplifies network upgrades with remote
software upgrades.
Allows for mass deployment.
2.3 System Features
§
Selectable Rates
CarrierWave-100/Ethernet: 25, 50, and 100 Mbps
CarrierWave-155/SONET: 155 Mbps
§
Selectable Spectral Efficiency of 5 bits/Hz
§
QPSK, 16 –64 QAM Modulation
§
Powerful Trellis Coded Modulation concatenated with Reed-Solomon Error Correction
§
Built-in Adaptive Equalizer
§
Support of T1 Wayside Channels
MK-MAN-01
CarrierWave-100: 2 T1 channels
CarrierWave-155: 1 T1 channel
CarrierWave Digital Radio
User Reference and Installation Manual
2-5
§
Peak output power: +30 dBm
§
Receive Sensitivity: -81 dBm (or lower, depending on data rate/modulation/FEC)
§
Adaptive Power Control
§
Built-in Network Management System (NMS)
§
Consecutive Point ring architecture
§
Built-in Bit Error Rate (BER) performance monitoring
2.4 Physical Description
The following section details the physical features of the CarrierWave digital radios
•
Model types
•
Front and rear panel configurations
•
LED descriptions
2.4.1 Model Types
Table 2-2 lists the CarrierWave digital radios according to model number and associated
capabilities of throughput, data interface, and wayside channel.
Table 2-2.CarrierWave Model Types
Product Name
Model Number
Throughput
Data Interface
Wayside
CarrierWave-100
5100
100 Mbps
full duplex
100 BaseTX
Two T1s
CarrierWave-155
5155
155 Mbps
full duplex
OC-3
One T1
CarrierWave Digital Radio
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2-6
System Description
2.4.2 Front Panel Indicators
All models of the CarrierWave Digital Radios have the following front panel configurations.
Figure 2-2. CarrierWave Digital Radio IDU Front Panel Configuration
The basic operation of the CarrierWave Digital Radio can be checked by viewing the LED
indicators on the front panel. Normally, only green LEDs should be lit. A yellow LED indicates
potential system degradation, though the link is still active and operational. A red LED is an
alarm indicator. If it is lit, it indicates a potential problem in the radio system. Refer to Figure 2-3
and the table that follows for a detailed explanation of the LED indicators.
ON-LINE
POWER
PAYLOAD
LOW SNR
IDU FLT
ODU FLT
T1 - A CH
T1 - B CH
RX FLT
RMT FLT
NMS - LOC
NMS - CPT
Figure 2-3. IDU Front Panel LEDs
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CarrierWave Digital Radio
User Reference and Installation Manual
2-7
Table 2-3. LED Status Indicator Functions
LED
Name
Function
ON-LINE
On-Line
When this LED is illuminated it indicates that the
modem is locked and a link has been established
with the far-end radio
PAYLOAD
Payload
When this LED is illuminated it indicates that the
payload port is connected.
IDU FLT
IDU Fault
When this LED is illuminated it indicates that there is
a fault detected in the IDU equipment. The menu
interface can then be used to show all current faults.
ODU FLT
ODU Fault
When this LED is illuminated it indicates that there is
a fault detected in the ODU equipment. The menu
interface can then be used to show all current faults.
T1- A
T1 – A Channel
When this LED is illuminated it indicates that there is
a T1 connection to the A port.
T1- B
T1 – B Channel
When this LED is illuminated it indicates that there is
a T1 connection to the B port.
Power
When this LED is illuminated it indicates that power is
on.
LOW SNR
Low Signal to
Noise Ratio
When this LED is illuminated it indicates that the SNR
is below the Error Free threshold.
RX FLT
Receive Fault
When this LED is illuminated it indicates that the
Receiver does not detect a valid signal indicating a
problem with the receiver or remote transmitter.
RMT FLT
Remote Fault
When this LED is illuminated it indicates that the farend radio has a fault condition.
NMS LOC
Local NMS Port
When this LED is illuminated it indicates that there is
a connection to the local NMS port.
NMS CPT
Consecutive
Point NMS Port
When this LED is illuminated it indicates that there is
a connection to the remote or Consecutive Point
NMS port.
POWER
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2-8
System Description
2.4.3 Rear Panel Connections
Please refer to the Figures 2-4 and 2-5 for a pictorial of the CarrierWave IDU rear panel followed
by a descriptive text of the connections.
Figure 2-4. CarrierWave-100 Ethernet: IDU Rear Panel Connections
Figure 2-5. CarrierWave-155 SONET: IDU Rear Panel Connections
The recommended maximum length for all cables to terminal equipment is a maximum of 3
meters. The exception to this recommendation is the length of the ODU/IDU Interconnect cable,
which connects the Outdoor Unit to the Indoor Unit.
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CarrierWave Digital Radio
User Reference and Installation Manual
2-9
Power Supply
DC Input
-48 VDC
-48v (Isolated Input); 2-pin captive power connector. The
CarrierWave Digital Radio requires an input of –37 to –60 volts
dc at the rear panel DC Input connector. The total required
power is a maximum of 70 W. The IDU rear panel power
connector pin numbering is 1 through 2, from left to right,
when facing the unit rear panel. Pin 1 is the power supply
return and is connected to unit chassis ground internally. Pin
2 should be supplied with a nominal –48 V dc, with respect to
the unit chassis (ground). A ground-isolated supply may be
used, provided it will tolerate grounding of its most positive
output.
The recommended power input is –44 to –52 V dc at 2 Amps
minimum. It is recommended that any power supply used be
able to supply a minimum of 100 W to the IDU.
A mating power cable connector is supplied with the
CarrierWave IDU. It is a 2-pin plug, 5 mm pitch, manufactured
by Phoenix Contact, P/N 17 86 83 1 (connector type MSTB
2,5/2-STF). This connector has screw clamp terminals that
accommodate 24 AWG to 12 AWG wire. The power cable
wire should be selected to provide the appropriate current with
minimal voltage drop, based on the power supply voltage and
length of cable required. The recommended wire size for
power cables under 10 feet in length supplying –48 Vdc is 18
AWG.
The IDU supplies the ODU with all required power via the
ODU/IDU Interconnect cable. The CarrierWave Digital Radio
IDU does not have a power on/off switch. When DC power is
connected to the IDU, the digital radio powers up and is
operational. There can be up to 200 mW of RF power present
at the antenna port (external antenna version). The antenna
should be directed safely when power is applied.
Chassis Ground
Chassis GND
Chassis ground stud.
Alarm Output Interface
Alarms
CarrierWave Digital Radio
DB-9 female connector for two Form-C relay alarm outputs
(rated load: 1A @ 30 VDC).
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2-10
System Description
CarrierWave-100/Ethernet Models: Ethernet 100BaseT Connection
100BaseTX
LOC
100Base-TX RJ-45 modular port connector for the local Fast
Ethernet interface.
100BaseT
CPT
100Base-TX RJ-45 modular port connector. This port to be
used for consecutive point networks.
CarrierWave-155/SONET Models: OC-3 Connection
OC-3 Out
OC-3 type SC connectors for the OC-3 interface.
OC-3 In
OC-3 type SC connectors for the OC-3 interface.
ODU/IDU Interconnect
To ODU
N-type female connector. Used to connect the ODU to the
IDU. Provides –48VDC and 2375 MHz Transmit IF to the
ODU and receives 1675 MHz Receive IF from the ODU.
NMS 10/100 Network Management System Connection
10/100BaseT
LOC
10/100BaseT
CPT
10/100Base-TX RJ-45 modular local port connector for access
to the CarrierWave Network Management System (SNMP or
iConductor, a CarrierWave proprietary system).
10/100BaseTX RJ-45 modular remote port connector for
access to the CarrierWave port Network Management System
(SNMP or iConductor, a CarrierWave proprietary system).
This port to be used for consecutive point networks.
T1 Wayside Channels
T1 – A
Wayside channel for T1 (RJ-48C) interface voice connection.
Operational for both CarrierWave-100 Ethernet and
CarrierWave-155 SONET models.
T1 – B
Wayside channel for T1 (RJ-48C) interface voice connection.
B channel option only available in CarrierWave-100 Ethernet
model.
2.5 System Description
The overall digital radio architecture consists of a single 2RU rack mount Indoor Unit (IDU) with a
cable connecting to an Outdoor Unit (ODU) with an integrated antenna. There is an option for
interfacing the ODU with an external antenna (consult factory for this option). This IDU/ODU
architecture is advantageous when compared to a single IDU with external mount antenna since
supporting a signal of 5.8 GHz from the IDU rack to the antenna will experience significant signal
degradation requiring expensive coaxial cable or waveguide.
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CarrierWave Digital Radio
User Reference and Installation Manual
2-11
Figure 2-6 shows a functional block diagram of the CarrierWave Digital Radio, which consists of
an antenna, ODU RF Up/Down Converter with HPA and LNA, IF Processor, 64-QAM Modem,
Multiplexer/Demultiplexer, and IDU Front Panel.
IDU
ODU
5.8 GHz Radio with
Integrated 23 dBi
Antenna
2375 MHz
2375 MHz
64-QAM
Modem
MUX
IF Processor
1675 MHz
Radio
Control/Status
1675 MHz
ODU Power
IDU/ODU
Comm Link
48 V
Framer
3.3V, 5V, 6V,-12V
Control
SNMP
Multiplexer/Demultiplexer
Ethernet Scaler
Front Panel
(Display)
Payload
Power (48 Vdc)
2 x OC-3
Note: OC-3 only available
on SONET IDUs and
100BaseT only available
on Ethernet IDUs. Single
T1 supported on SONET
IDUs
2 x 100BaseT
2 x 10BaseT
SNMP
2 x T1 RS232
Control
Figure 2-6. CarrierWave System Block Diagram
The IDU interfaces with the ODU to receive and provide modulated transmit and receive
waveforms. The IDU interfaces provide SONET OC-3 (CarrierWave-155) and Fast Ethernet
100Base-T (CarrierWave-100) connections to the network. In addition, one (SONET model) or
two (Ethernet model) T1 channels are provided for PBX extension. SNMP is provided on
10/100BaseT ports.
The ODU RF Up/Down Converter card provides the interface to the antenna. The transmit
section up converts and amplifies the modulated Intermediate Frequency (IF) of 2.375 GHz from
the IF Processor and provides additional filtering. The receive section down converts the
received signal, provides additional filtering, and outputs an IF of 1.675 GHz to the IF Processor.
The 64-QAM Modem performs the modulation and demodulation of the payload (OC-3 or Fast
Ethernet or Scalable Ethernet), and forward error correction using advanced modulation and
coding techniques. Using all-digital processing, the 64-QAM Modem uses robust modulation and
forward error correction coding to minimize the number of bit errors and optimize the radio and
network performance.
The 64-QAM Modem also scrambles, descrambles and
CarrierWave Digital Radio
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2-12
System Description
interleaves/deinterleaves the data stream in accordance with Intelsat standards to ensure
modulation efficiency and resilience to sustained burst errors. The modulation will vary by
application, data rate, and frequency spectrum. The highest order modulation mode supported is
64 Quadrature Amplitude Modulation (QAM). Table 2-4 summarizes the TCM/convolutional code
rates for each modulation type supported by the Digital Radio.
Table 2-4. CarrierWave Digital Radio TCM/Convolutional Code Rates
Modulation Type
Available Code
Rates
QPSK
½, 3/4, 7/8, 1/1
16-QAM
¾, 7/8, 11/12
32-QAM
4/5, 9/10
64-QAM
5/6, 11/12
The IDU also provides the physical interface for the user payload and network management. In
transmit mode, the Framer merges user payload (OC-3 or Fast Ethernet) with radio overheadencapsulated network management data. This combined data stream is transmitted without any
loss of user bandwidth. In the receive mode, the Framer separates the combined data stream
received from the 64-QAM Modem. The IDU supports Scalable Ethernet data rates, such as 25
or 50 Mbps via the 100BaseT data interface port. The IDU provides network management data
on 10 Mbps ports accessible via the 10/100BaseTX port. The Central Processor Unit (CPU)
provides the embedded control and network element functionality of the OAM&P. The CPU also
communicates with other functions within the IDU for configuration, control, and status
monitoring. The CPU passes appropriate status information to the IDU front panel display.
The power supply converts 48 Vdc to the DC voltage levels required by each component in the
system.
2.6 Consecutive Point Architecture
The consecutive point network architecture is based upon the proven SONET/SDH ring.
Telecommunications service providers traditionally use the SONET/SDH ring architecture to
implement their access networks. A typical SONET/SDH network consists of the service
provider’s Point of Presence (POP) site and several customer sites with fiber optic cables
connecting these sites in a ring configuration (see Figure 2-7). This architecture lets providers
deliver high bandwidth with high availability to their customers.
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User Reference and Installation Manual
2-13
Figure 2-7. Ring Configuration.
SONET/SDH rings are inherently self-healing. Each ring has both an active path and a standby
path. Network traffic normally uses the active path. Should one section of the ring fail, the network
will switch to the standby path. Switchover occurs in seconds. There may be a brief delay in
service, but no loss of payload, thus maintaining high levels of network availability.
The consecutive point architecture implemented in the CarrierWave Digital Radio family is based
on a point-to-point-to-point topology that mimics fiber rings, with broadband wireless links
replacing in-ground fiber cable. A typical consecutive point network consists of a POP and
several customer sites connected using CarrierWave units. These units are typically installed in
pairs in a building. Each unit installed at a customer site is logically connected to two other units.
These connections are as follows:
•
An over-the-air radio frequency (RF) link to a unit at an adjacent site
•
A back-to-back Ethernet cable link to another unit in the same building through a switch
Each consecutive point network typically starts and ends at a POP. A pattern of wireless links and
in-building connections is repeated at each site until all buildings in the network are connected in
a ring as shown in Figure 2-8.
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System Description
Figure 2-8. Consecutive Point Network
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User Reference and Installation Manual
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2.7 Power Management
RF power management is a radio design feature that controls the power level (typically expressed
in dBm) of the RF signal received from a transmitter by a receiver. The traditional goal of power
management is to ensure that the RF signal at a receiver is strong enough to maintain the radio
link under changing weather and link conditions.
Traditional power management techniques such as Constant Transmit Power Control (CTPC)
and Automatic Transmit Power Control (ATPC) transmit at a high power level to overcome the
effects of fading and interference. However, these techniques continue to operate at a higher
power level than needed to maintain the link in clear weather. Because transmit power remains
high when the weather clears, the level of system interference increases.
Radios operating at high transmit power will interfere with other radios, even if the interfering
source is miles away from the victim. High interference levels can degrade signal quality to the
point that wireless radio links become unreliable and network availability suffers. The traditional
solution to system interference is to increase the distance between radios. However, the resulting
sparse deployment model is inappropriate for metropolitan areas.
In response to the need for a high-density deployment model the CarrierWave use a unique
power control technique called AdTPC. AdTPC enables CarrierWave units to transmit at the
minimum power level necessary to maintain a link regardless of the prevailing weather and
interference conditions. The CarrierWave is designed and manufactured to not exceed the +30
dBm maximum power allowed. The purpose of power management is to minimize transmit power
level when lower power levels are sufficient. AdTPC also extends the concept of power
management by controlling not only the power (dBm) of the RF signal, but its quality (signal-tonoise ratio) as well.
In contrast to ATPC, the AdTPC technique dynamically adjusts the output power based on both
the actual strength and quality of the signal. Networked CarrierWave units constantly monitor
receive power and maintain 10-12 BER performance under varying interference and climate
conditions. Each CarrierWave unit can detect when there is a degradation in the received signal
level of quality and adjust the transmit power level of the far-end CarrierWave unit to correct for it.
AdTPC provides maximum power in periods of heavy interference and fading and minimum power
when conditions are clear. Minimal transmit power reduces potential for co-channel and adjacent
channel interference with other RF devices in the service area, thereby ensuring maximum
frequency re-use. The resulting benefit is that operators are able to deploy more CarrierWave
units in a smaller area.
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System Description
2.8 CarrierWave iWareTM Software and Network
Management
iWareTM is the software suite that is fully compatible with SNMP (v1) and standard NMS software.
All of the CarrierWave Digital Radio parameters are accessible through the fully featured MIB,
allowing for automation of data collection and network management.
iWareTM includes:
•
iPorterTM: capability to remotely manage the software. It enables the user to install, backup
and recover CarrierWave Digital Radio software
•
iConductorTM: a GUI-based management application that can be run locally, at the installation
site, from a PC connected directly to the CarrierWave IDU, or it may be operated remotely
from any from any point in a CarrierWave network.
Detailed descriptions of iWareTM are provided in a separate document.
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3 Installation
3.1 Unpacking
The following is a list of all included items.
Description
Quantity
Digital Radio IDU (2RU chassis)
ODU (with hardware)
Manual (or Soft copy on a CD)
Test Data Sheet (customer documentation)
ODU
IDU
Figure 3-1. CarrierWave Digital Radio Components
Be sure to retain the original boxes and packing material in case of return shipping. Inspect all
items for damage and/or loose parts. Contact the shipping company immediately if anything
CarrierWave Digital Radio
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Installation
appears damaged. If any of the listed parts are missing, call the distributor or the factory
immediately to resolve the problem.
3.2 Notices
CAUTION
IF USING EXTERNAL ANTENNA OPTION (SEE FACTORY FOR DETAILS), DO NOT
OPERATE UNITS WITHOUT AN ANTENNA, ATTENUATOR, OR LOAD CONNECTED TO THE
ANTENNA PORT. DAMAGE MAY OCCUR TO THE TRANSMITTER DUE TO EXCESSIVE
REFLECTED RF ENERGY.
ALWAYS ATTENUATE THE SIGNAL INTO THE RECEIVER ANTENNA PORT TO LESS THAN
–20 dBm. THIS WILL PREVENT OVERLOAD AND POSSIBLE DAMAGE TO THE RECEIVER
MODULE.
WARNING
HIGH VOLTAGE IS PRESENT INSIDE THE ODU and IDU WHEN THE UNIT IS PLUGGED IN.
TO PREVENT ELECTRICAL SHOCK, UNPLUG THE POWER CABLE BEFORE SERVICING.
UNIT SHOULD BE SERVICED BY QUALIFIED PERSONNEL ONLY.
3.3 PRE-INSTALLATION NOTES
It may be useful to gain familiarity with the CarrierWave Digital Radio via back-to-back bench
testing prior to final installation. We highly recommend installation of lightning protectors on the
ODU/IDU Interconnect Cable to prevent line surges from damaging expensive components.
3.3.1 Back-to-Back Bench Testing
Back-to-back bench testing prior to final installation is highly recommended in order to gain
familiarity with the product. This test requires external antenna support. The following additional
equipment is required for back-to-back testing:
•
Low-loss cables, N-male connectors on ODU interfaces.
•
Four Inline RF attenuators, 40 dB each (or replace two with single 80 dB attenuator), rated for
5.8 GHz.
The IDU and ODUs must be configured in an operational configuration and set-up as shown in
Figure 3-2. When equipment is connected in operational configuration, no errors should be
reported on the front panel.
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User Reference and Installation Manual
Ext Ant Tx
3-3
- 40 dB
- 40 dB
- 40 dB
- 40 dB
Ext Ant Tx
ODU - 1
ODU - 2
Ext Ant Rx
Ext Ant Rx
To IDU
IDU - 1
IDU - 2
Figure 3-2. CarrierWave Digital Radio Back-to-Back Testing Configuration
3.4 Overview of Installation and Testing
Process
The installation and testing process is accomplished by performing a series of separate, yet
interrelated, procedures, each of which is required for the successful implementation of a
production CarrierWave Digital Radio network. These procedures are as follows:
•
Site Evaluation: gathering specific information about potential CarrierWave Digital Radio
installation sites.
•
Cable and Installation: Testing and installing CarrierWave ODU cables and optional interface
devices at installation sites.
•
CarrierWave ODU Mounting and Alignment: Mounting ODUs to a pole or wall, performing link
alignment and radio frequency (RF) verification.
•
CarrierWave Digital Radio Configuration: Using CarrierWave Link Manager software to install
network- and site-specific parameters in the radios.
•
CarrierWave Digital Radio Testing: Performing cable continuity checks and RF tests for links,
the payload/radio overhead channel, and the management channel.
The following diagram shows where installation and commissioning resides within the
CarrierWave Digital Radio network deployment life cycle and defines the sequence in which the
processes that comprise installation and commissioning should be performed.
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Installation
Network Life Cycle
Customer
Requirements
RF Planning
& Network
Design
Site Selection
& Acquisition
Installation &
Commissioning
Network
Operation &
Maintenance
Network
Upgrade &
Expansion
Perform Site
Evaluation
Mount and Align
ODUs
Install Cables
Configure Digital
Radio IDU
Ethernet
Type of
Network?
SONET
Perform
SONET/SDH
Test
Perform Fast
Ethernet Test
Installation &
Commissioning
Complete
03-01-013a
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User Reference and Installation Manual
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3.5 Site Evaluation
A site evaluation consists of a series of procedures for gathering specific information about
potential CarrierWave Digital Radio locations. This information is critical to the successful design
and deployment of a network.
Site evaluations are required to confirm whether or not a building meets network design
requirements. The main objectives are as follows:
•
•
Confirm
•
Line of sight for each link
•
CarrierWave Digital Radio ODU mounting locations
•
Site equipment locations
•
Cable routes
•
Any other potential RF sources
Prepare site drawings and record site information
3.5.1 Preparing for a Site Evaluation
The following tools are required to perform a site evaluation:
•
RF and network design diagrams (as required)
•
Binoculars
•
Global positioning system (GPS) or range finder
•
Compass
•
Measuring tape and/or wheel
•
Digital camera
•
Area map
•
Aerial photograph (if available)
•
List of potential installation sites (“targeted buildings”)
The following tasks must be completed prior to performing a site evaluation:
•
Prepare the initial network design by performing the following:
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•
Installation
•
Identify potential buildings by identifying targeted customers (applicable if you’re a service
provider)
•
Identify potential links by selecting buildings based on the high probability of line of sight
Arrange for access with the facility personnel into the buildings, equipment rooms, and
architectural plans to become familiar with the location of all ducts, risers, etc.
3.5.2 Site Evaluation Process
The following steps must be completed to perform a successful site evaluation. Each step in the
process is detailed in the following subparagraphs:
•
Ensure RF Safety compliance: Ensure that appropriate warning signs are properly placed and
posted at the equipment site or access entry. For a complete list of warnings, refer the Safety
Precautions listed at the beginning of this manual.
•
Ensure Compliance with Laws, Regulations, Codes, and Agreements: Ensure that any
installation performed as a result of the site evaluation is in full compliance with applicable
federal and local laws, regulations, electrical codes, building codes, and fire codes.
•
Establish Line of Sight between CarrierWave Digital Radios: The most critical step in
conducting a site evaluation is confirming clear Line of Sight (LOS) between a near
CarrierWave Digital Radio and a far CarrierWave Digital Radio. If LOS does not exist,
another location must be used.
CarrierWave Radios in a link must have a clear view of each other, or “line of sight”.
Binoculars may be used evaluate the path from the desired location of the near CarrierWave
Radio to the desired location of the far CarrierWave Radio.
To confirm Line of Sight:
Ensure that no obstructions are close to the transmitting/receiving path. Take into
consideration trees, bridges, construction of new buildings, unexpected aerial traffic,
window washing units, etc.
Ensure that each CarrierWave Digital Radio can be mounted in the position required to
correctly align the CarrierWave Digital Radio with its link partner.
•
Determine CarrierWave ODU Mounting Requirements: CarrierWave ODUs can be mounted
on an antenna mast, brick, masonry or wall. Refer to detailed installation sections.
•
Determine CarrierWave IDU Installation Location: CarrierWave IDUs can be installed tabletop
or cabinet, wall mount, or rack mount. The site must provide DC power. Refer to detailed
installation sections.
•
Document Potential Sources of Colocation Interference: When CarrierWave ODUs are
located on a roof or pole with other transmitters and receivers, an interference analysis may
be required to determine and resolve potential interference issues. The interference analysis
needs to be performed by an RF engineer. The specific information required for each
transmitter and receiver includes the following:
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User Reference and Installation Manual
•
3-7
Transmitting and/or receiving frequency
Type of antenna
Distance from CarrierWave ODU (horizontal and vertical)
Polarity (horizontal or vertical)
Transmit power level
Antenna direction
Measure the Link Distance: The two ways to measure link distance are as follows:
GPS: record the latitude and longitude for the near and far CarrierWave ODU sites and
calculate the link distance. Record the mapping datum used by the GPS unit and ensure
the same mapping datum is used for all site evaluations in a given network.
Range finder: measure the link distance (imperial or metric units may be used).
Once the link distance has been measured, verify that the link distance meets the availability
requirements of the link.
•
•
Select the Grounding Location for both the CarrierWave ODU and IDU: The CarrierWave
Digital Radio must be properly grounded in order to protect it and the structure it is installed
on from lightning damage. This requires
Grounding all ODUs as specified in the Installation section
Grounding all IDUs to the rack.
Determine the Length of Interconnect Cable from ODU to IDU: The primary consideration for
the outdoor interconnect cable from the ODU to IDU is the distance and route between the
ODU and IDU. This cable should not exceed 300 feet using Times Microwave LMR-400
cable. Longer lengths and distances are possible, but require higher quality cable, as
illustrated in the table below.
Cable Type
Loss at 2.5 GHz
(dB/100 ft.)
Cable Length
Allowed (ft.)
LMR-200
16.9
120
LMR-300
10.4
200
LMR-400
6.8
300
LMR-600
4.4
450
LMR-900
3.0
650
Listed cable types are from Times Microwave, equivalent cable
from other manufacturers may be used
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Installation
•
Confirm the Presence of DC Power for the CarrierWave IDU.
•
Ensure Building Aesthetics: The CarrierWave ODU’s streamlined exterior is designed to
complement building aesthetics. Ensure that the ODU can be mounted so that it is
aesthetically pleasing to the environment and to the property owner. Aesthetics must be
approved by the property owner and the network engineer.
•
Take Site Photographs
•
Sketch the Site
3.5.3 Critical System Calculations
3.5.3.1
Received Signal Level (RSL) and Link Budget
The received signal level (RSL) can be estimated using the following formula:
RSL (dBm) = PTX + GTX ANT – LPath + GRX ANT
Where: PTX is the transmitter output power (in dBm)
GTX ANT is the gain of the transmit antenna (in dB), 23 dBi for ODU’s internal antenna
GRX ANT is the gain of the receive antenna (in dB), 23 dBi for ODU’s internal antenna
LPath is the Path loss, defined by:
LP (dB) = 36.6 + 20log 10(F*D)
Where: F is the Frequency in MHz (5800), D is the Distance of path in miles
This link budget is very important in determining any potential problems during installation.
expected RSL and measure RSL should be close (+/- 5 to 10 dB)
3.5.3.2
The
Fade Margin Calculation
The fade margin is the difference between the actual received signal and the CarrierWave Digital
Radio’s threshold for the modulation mode selected. The fade margin can be used to determine
availability and should be at least 10 dB.
3.5.3.3
Availability Calculation
Availability of the microwave path is a prediction of the percent of time that the link will operate
without producing an excessive BER due to multipath fading. Availability is affected by the
following:
•
Path length
•
Fade margin
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User Reference and Installation Manual
•
Frequency
•
Terrain (smooth, average, mountainous, valleys)
•
Climate (dry, temperate, hot, humid)
3-9
Depending on the type of traffic carried over the link and the overall network design redundancy,
fade margin should be included to support the desired availability rate. Critical data and voice
may require a very high availability rate (99.999% or 5.3 minutes of predicted outage per year).
To improve availability, the fade margin can be increased by shortening the path length,
transmitting at a higher power level, or by using higher gain antennas.
Availability can be computed using the following formula, which is known as the Vigants Barnett
Method.
Availability = 100 × (1 – P)
P = 2.5 × 10-9 × C × F × D3× 10(-FM/10)
Where F is the frequency in MHz (5800)
D is the distance in miles
FM is the fade margin in dB
C is the climate/terrain factor as defined below:
Humid/Over Water: C = 4 (worst case channel)
Average Conditions: C = 1
Dry/Mountains: C = 0.25 (best case channel)
Example: Assume 21 dB fade margin, over 5 miles with average climate/terrain. The availability
comes out to be 99.9986. This corresponds to the link being unavailable for 7.6 minutes per
year.
3.5.3.4
Frequency Plan Determination
When configuring CarrierWave Digital Radios in a point-to-point or consecutive point
configuration, careful engineering of the CarrierWave Digital Radio frequency plans and antenna
locations should be performed in order to minimize potential interference between nearby radios.
Nearby radios should operate on different frequencies, transmitting in the same band (high side
or low side). When designing multi-radio configurations, antenna size, antenna polarization, and
antenna location are critical.
The frequency plan must be selected based on desired data rate and expected link conditions. In
a high interference environment or with lower gain antennas, higher bandwidth, more robust
modulation formats must be employed. The available frequency plans are illustrated in Figure 33.
CarrierWave Digital Radio
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Installation
1 Channel Operation
A Tx
B Rx
A Rx
B Tx
F, MHz
5725
Duplexer
5750
5825
5850
2 Channel Operation
1A Tx
1B Rx
2A Tx
2B Rx
1A Rx
1B Tx
2A Rx
2B Tx
F, MHz
5725
5737.5
Duplexer
5762.5
5812.5
5837.5
5850
3 Channel Operation
1A Tx
1B Rx
2A Tx
2B Rx
1A Rx
1B Tx
3A Tx
3B Rx
2A Rx
2B Tx
3A Rx
3B Tx
F, MHz
5725 5733.3
5750
Duplexer
5766.7
5808.3
5825
5841.7 5850
4 Channel Operation
1A Tx
1B Rx
2A Tx
2B Rx
3A Tx
3B Rx
4A Tx
4B Rx
1A Rx
1B Tx
2A Rx
2B Tx
3A Rx
3B Tx
4A Rx
4B Tx
F, MHz
5731.3
5725
5743.7 5753.3
5768.7
Duplexer
5806.3 5818.7 5831.3
5843.7
5850
Figure 3-3. CarrierWave Digital Radio Channel Frequency Plans
3.5.3.5
Antenna Planning
The ODU comes with a built in 23 dBi gain antenna.
performance for most applications.
This should provide adequate link
Larger antennas have the advantage of providing narrower beamwidths and high isotropic gain,
which yields better link performance (higher fade margin, better availability), and improves
immunity to spatial interference (due to the smaller beamwidths). However, larger antennas are
more costly to purchase and install than smaller antennas and in some cases, they require
special equipment for installation due to narrower beamwidths. They are also more easily
affected by wind.
Only directional antennas can be used with the CarrierWave Digital Radios. Consult factory for
antenna manufacturer options.
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User Reference and Installation Manual
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The ISM band does not restrict antenna gain or EIRP, therefore there is no need to back off
transmit power due to excessive antenna gain.
1. Select where the cable will enter the building from the outside.
2. Determine the length of cable required. Allow three extra feet on each end to allow for strain
relief, as well as any bends and turns.
3.5.4 Documenting a Site Evaluation
Use the site evaluation form provided on the following pages to document the results of your site
evaluation. Optimally, this complete site form would be stored with the IDU for future reference.
CarrierWave Digital Radio
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Installation
Site Evaluation Form
Address
Site Engineer
Contact Person
Phone
Site No
Site Agent
Site Type
ODU Roof Location
Latitude
Longitude
Example
Information
Mapping Datum (ex. NDA27)
ODU
ODU#
Clear Line of Sight
Mounting Method
Yes
Wall or Pole
FCC Compliance
Collocation
Yes
Roof Requirements
Aesthetics
ODU Azimuth
GPS Reading
Information
Information
60 degrees
80 21' 48"
Cable Lengths
Alarm
Interconnect Cable
Grounding/Lighting
250 feet
Instructions
Photographs*
Photo 1
Photo 2
Photo 3
Sketches**
Sketch 1
Sketch 2
Recommendations for Site Photographs and Sketches
*Photographs
**Sketches
Photo 1 - ODU mounting location
Sketch 1- Roof and cable route to entry point
Phone 2 - View from the ODU mounting location to the link partner
Sketch 2 - Details for grounding and lighting protection
Photo 3 - IDU location
Sketch 3 - IDU room and cable routes from entry port
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User Reference and Installation Manual
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Site Evaluation Form
Colocated Antenna
Parameters
Source
Example Information
PCS
Tx and/or Rx
Frequency
Information
Information
Information
Information
Information
Tx/Rx
2.1 GHz
Distance from ODU
Owner
Azimuth
Elevation
Antenna Type
Power
Power
5 feet
Sprint PCS
210 degrees
2 degrees downtilt
14W
Parameters
Example Information
IDU room Identified
Yes
IDU
Information
Space for cabinet
Phone line
Yes
Need to install
48 VDC available?
Cables
Take Photo 3
Yes
Confirm cables
Front View
Top View
Side View
Equipment Dimensions
Equipment Cabinet
Batteries
Notes
Indoor Space Requirements
Sketch 3
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Installation
3.6 Installation of the CarrierWave Digital Radio
The following sections provide installation guides for:
•
IDU Installation
•
ODU Installation
3.6.1 Installing the CarrierWave IDU
The CarrierWave IDU can be installed in the following three options:
1. Table top or cabinet
2. Wall mount
3. Rack mount
The CarrierWave IDU should be:
•
Located where you can easily connect to a power supply and any other equipment used in
your network, such as a router or PC.
•
In a relatively clean, dust-free environment that allows easy access to the rear panel
connectors as well as the front panel controls and indicators. Air must be able to pass freely
over the chassis.
•
Accessible for service and troubleshooting.
•
Protected from rain and extremes of temperature (it is designed for indoor use).
3.6.1.1
Installing on a Table Top or Cabinet
The CarrierWave IDU can be placed on a tabletop or cabinet shelf. In order to prevent possible
disruption, it is recommended to use a strap to secure the IDU.
3.6.1.2
Installing on a Wall
An installation option for the IDU is mounting the unit to a wall. Consult factory for details.
If the wall mount option is being considered, plan to position the CarrierWave IDU at a height that
allows LEDs, the display on the front panel, and the rear connectors to be visible at all times and
easily accessible. Also, including plastic clamps to support and arrange the ODU/IDU
Interconnect Cable should also be considered.
3.6.1.3
Installing in a Rack
To maintain good airflow and cooling, it is preferred that the CarrierWave IDU in a slot that has
blank spaces above and below the unit.
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To rack-mount the IDU, use the supplied mounting brackets (CarrierComm part number 823184A01) to secure the chassis to the rack cabinet. As shown in Figure 3-4, the brackets can be
attached at any of four points on the sides of the enclosure – front, back, middle facing front, and
middle facing back. This flexibility ensures compatibility with most rack mounting arrangements.
Figure 3-4. CarrierWave IDU Dimensions
3.6.2 Installing the CarrierWave ODU
There are three options for mounting the CarrierWave ODU
•
Antenna mast
•
Pole
•
Building
Each site must be assessed for the mounting method, location, and height. After defining the
mounting location and height for the CarrierWave ODU, re-confirm the line of sight.
CarrierWave Digital Radio
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Installation
Tools and Equipment required for installation of the ODU:
Tools Required
Equipment Required
Compass and protractor
¼ inch grounding rod
Area map
Grounding clamp
Phillips-head screwdriver
Grounding wire
Flat-head screwdriver
Coaxial cable assembly
Hammer or mallet
#6 wood screws
Power drill
Cable clips
1/8 inch drill bit
Anchor sleeves
¼ inch masonry drill bit
5mm hex (Allen) wrench
Bubble level or plumb line
Adjustable wrench
Wire snake (if routing cable through interior walls)
3.6.2.1
Installing the Mounting Poles
First install the mounting poles, on which you will mount the CarrierWave ODU. The mounting
pole J bracket is optional equipment. Consult factory for supply and part number. It is important
to note the direction in which the ODU will point when installing the mounting pole.
The mounting pole must be mounted in a vertical position. Failure to do so may result in
improper alignment of the ODU. If you need to tilt the ODU to avoid self-interference, you should
use a tilt (optional) bracket. Consult factory for tilt bracket.
The mounting pole must be grounded.
3.6.2.1.1
Installing on an Antenna Mast
1. Position the mounting pole on the antenna mast. The mounting pole J-bracket is optional
equipment. Consult factory for supply and part number.
2. Insert the U-bolts around the mast and through the holes in the mounting pole. Install a
washer and nut to each side of the threaded U-bolt and hand tighten. Repeat this step for the
second U-bolt.
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User Reference and Installation Manual
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3. Tighten nuts equally until mounting pole is secure and cannot rotate.
Typically 2 ½
inch
Figure 3-5. Optional Mounting Pole J Bracket Installed on Pole or Antenna Mast
3.6.2.1.2
Installing on Brick or Masonry
1. Place the mounting plate against the wall. Use a level or plumb line to set the mounting pole
perpendicular to the ground (J-bracket is optional, consult factory for supply and part
number).
2. Mark the hole locations.
3. Set the pole aside.
4. Drill ¼ inch holes at the marked locations. Drill the holes approximately ½ inch deep.
5. Insert the expansion shields into the drilled holes and tap them home.
6. Align the mounting pole with the drilled holes and fix with the lag bolts.
Figure 3-6. Optional Mounting Pole J Bracket Installation
3.6.2.1.3
Installing on a Wall with Wood Siding
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Installation
1. Place the mounting plate against the wall.
2. Using a level, be sure that the mounting pole is perpendicular to the ground (J bracket is
optional. Consult factory for part number and supply). You may need to use spacers, as
shown in Figure 3-7.
3. Mark the hole locations for the drilled hole locations. Remove the mounting pole and set
aside.
4. Drill 1/8-inch holes in the places marked.
5. Use #10 or #12 wood screws to secure the mounting pole to the wall and tighten.
Figure 3-7. Optional Mounting Pole J Bracket on Clapboard Siding
Now that you have installed the mounting pole, you are ready to install the CarrierWave ODU
onto the mounting poles. Reference Figures 3-8 through 3-11.
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Figure 3-8. Mounting Parts for the CarrierWave ODU
2. Place the CarrierWave ODU on the mounting pole.
3. Align the pole clamp with the mounting holes.
4. Insert the mounting screws and hand tighten.
5. Rotate the CarrierWave ODU so it is pointing in the correct direction.
6. Tighten the mounting screws.
Figure 3-9. CarrierWave ODU Rear View
Figure 3-10. Tilt Bracket
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Installation
Figure 3-11. CarrierWave ODU with Mounted Tilt Bracket
3.6.3 Routing the ODU/IDU Interconnect Cable
1. Select where the cable will enter the building from outside.
2. Determine the length of cable required. Allow three extra feet on each end to allow for strain
relief, as well as any bends and turns.
3. Route the cable.
The ODU and IDU are equipped with N-type female connectors at their interconnecting ports. A
length of coaxial cable (such as Times Microwave Systems LMR-400, LMR-300 or LMR-200)
fitted with two N-type male connectors is required to connect the ODU to the IDU. This cable
assembly may be supplied in fixed lengths with the digital radio. Bulk coaxial cable of equivalent
specification may also be used, with terminating connectors applied during cable installation.
Based on an evaluation of the cable routing path, pull the ODU/IDU Interconnect cable from one
unit to the other, utilizing cable trays, ducts, or conduit as required. Take care that the ODU/IDU
Interconnect cable is not kinked or damaged in any way during installation. Be sure to protect the
N-type connectors from stress, damage and contamination during installation (do not pull the
cable by the connectors). If multiple ODU/IDU Interconnect cables are to be installed along the
same route, the cables should all be pulled at one time. Be sure the installed cable does not
have any bends that exceed the specified cable bend radius. The ODU/IDU Interconnect cable
should be adequately supported on horizontal runs and should be restrained by hangers or ties
on vertical runs to reduce stress on the cable. Outside the building, support and restrain the
cable as required by routing and environmental conditions (wind, ice).
The CarrierWave ODU/IDU and interconnection must be properly grounded in order to protect it
and the structure it is installed on from lightning damage. This requires that the ODU, any
mounting pole or mast and any exposed interconnect cable be grounded on the outside of the
structure. The IDU must be grounded to a rack or structure ground that also has direct path to
earth ground.
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The ODU must be directly connected to a ground rod or equivalent earth ground. The ODU/IDU
interconnect cable should also be grounded at the ODU, where the cable enters the structure and
at intermediate points if the exposed cable run is long (typically at intervals of 100 ft), with the
cable manufacturer’s grounding kits. Lightning protection devices used with the interconnect
cable must be appropriate for the transmission of the interconnect signals (DC to 2.4 GHz).
Provide a sufficient but not excessive length of cable at each end to allow easy connection to the
ODU and IDU without stress or tension on the cable. Excessive cable length, especially
outdoors, should be avoided to minimize signal attenuation and provide a more robust and
reliable installation. If installing using bulk coaxial cable, terminate the ODU/IDU Interconnect
cable at each end with an N-type male connector appropriate for the cable type. Use of
connectors, tools and termination procedures specified by the cable manufacturer is
recommended.
Once the cable has been installed but before connection has been made to either unit, a simple
DC continuity test should be made to verify the integrity of the installed cable. A DC continuity
tester or digital multimeter may be used verify a lack of DC continuity between the cable center
conductor and outer conductor, with the opposite end of the cable unconnected. With a
temporary test lead or shorting adapter connected to one end of the cable, DC continuity should
be verified between the center and outer conductors at the opposite end.
3.6.3.1
Installing the ODU/IDU Interconnect Cable
1. Screw on the ODU/IDU Interconnect cable with N-type connector.
Figure 3-12. N-type Connector Location – Underside of CarrierWave ODU
2. Insert the N-type connector into the receptacle located underneath the ODU. Make sure that
the connector tab engages the slot in the receptacle.
3. Slide the grommet up the cable and press it into the bottom of the ODU.
3.6.4 Grounding the System
The CarrierWave IDU/ODU System must be properly grounded in order to protect it and the
structure it is installed on from lightning damage. This requires:
1. Grounding all the ODUs as shown in Figure 3-13.
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2. Grounding the IDU to the rack.
3.6.4.1
Grounding the ODU
1. Place the grounding rod so as to allow for the shortest possible path from the grounding cable
to the ODU.
2. Drive the grounding rod into the ground at least eight inches from the ground surface.
3. Attach a grounding clamp to the grounding rod. You will use this clamp to attach grounding
wires for both the ODU and indoor junction box, reference Figure 3-13.
Figure 3-13. Ground Connections to ODU
4. Connect a ground lug to one end of the grounding wire.
5. Remove one of the lower mounting screws of the mounting pole. Insert a screw through the
grounding lug terminal and re-install it to the mounting pole.
6. Attach the grounding wire to the clamp on the grounding rod, reference Figure 3-14. If
necessary, use wire staples to secure the grounding wire to the outside wall.
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Figure 3-14. Mounting Pole with Ground Lug
7. Install a grounding wire from the junction box to the grounding rod.
3.6.4.2
Grounding the IDU
1. Remove the nut and ring lug terminal from the IDU Chassis GND stud.
2. The provided ring lug crimp terminal is intended to be used with 18 AWG wire (provided by
the customer). The IDU should be able to be connected to a system or building electrical
ground point (rack ground or power third-wire ground) with a cable of 36” or less.
3. Crimp the ring lug terminal to one end of the wire to be used as the IDU ground wire.
Connect the opposite end of the IDU ground wire to the local source of ground in an
appropriate manner.
4. Place the ring lug of the IDU ground cable on the IDU Chassis GND stud.
5. Place the nut on the IDU Chassis GND stud and tighten appropriately.
3.7 Configuration of the CarrierWave Digital
Radio
Configuration of the CarrierWave Digital Radio IDU does not require a connection to the ODU. It
is suggested to configure the IDU prior to connecting to the ODU.
3.7.1 Materials Required
The following items are needed to configure an IDU:
•
Power supply (-48 V DC @ 2 Amps)
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Installation
•
IDU power cable
•
Digital voltmeter with test leads
•
Computer with networking capability, consisting of either:
Laptop computer with Windows 98/2000/XP operating system, an Ethernet card with any
necessary adapters and a Cat-5 Ethernet crossover cable
or
Networked computer with Windows 98/2000/XP operating system and an additional
Ethernet cable providing access to the network.
•
CarrierWave iConductor TM software
•
Site engineering folder with site drawings, or equivalent IDU configuration information
3.7.2 IDU Configuration Process
Using the site attributes identified in the site assessment or equivalent configuration information,
configure each IDU by completing the following procedures:
Installing CarrierWave iConductor TM
Connecting the IDU to the PC and Power Source
Setting the IDU IP Address
Configuring the IDU
Logging Into the IDU Using CarrierWave iConductor TM
Configuring the IDU Site Attributes
3.7.2.1
Installing CarrierWave iConductor TM
If IDU iConductorTM software is not already installed on your PC, perform the following steps:
1. Insert the IDU iConductorTM CD into the CD-ROM drive on your personal computer (PC). Be
sure that the PC has Windows 98/2000/XP software installed.
2. Double click on the My Computer icon located on the desktop.
3. Double click on the CD-ROM drive associated with the computer.
4. Double click on the IC-vX-XX icon, where X-XX is the version of iConductor TM software
appropriate for your unit.
5. Follow the instructions of the installer.
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6. When the installation is complete, test the iConductorTM by going to the Windows Programs>CarrierComm->vX-XX->IC menu (or the appropriate menu or icon) and start the
iConductorTM software.
3.7.2.2
Connecting the IDU to the PC and Power Source
Perform the following steps to ensure the IDU is powered up and connected to you PC:
1. To connect to the IDU DC power connector (located on the IDU rear panel), an IDU power
cable is required. A mating power cable connector (Phoenix Contact P/N 17 86 83 1) is
provided with the CarrierWave IDU for construction of this cable. This connector has screw
clamp terminals that accommodate 24 AWG to 12 AWG wire. The recommended wire size
for construction of power cables under 10 feet in length, supplying –48 V dc, is 18 AWG. The
opposite end of the IDU power cable should have a termination appropriate for the power
supply being used. The IDU power cable should be of sufficient length to avoid tension in the
cable and provide a service loop for connection, but not be of excessive length. Stranded
wire should be used over a solid conductor to reduce tension on the IDU DC Power
connector. Using the supplied power cable connector, pin 2 (labeled -V) should be connected
to the power supply terminal supplying –48 V dc, while pin 1 (labeled RET) should be
connected to the power supply return. Refer to Figure 3-15. Note that pin 1 (RET) of the IDU
DC Power connector is connected to the IDU chassis ground internal to the IDU. Use of a
power supply with an inappropriate ground reference may cause damage to the IDU and / or
the supply.
2. Connect the IDU power cable to the –48 V dc power supply, and place the voltmeter probes
on the unconnected IDU end of the power cable, with the positive voltmeter probe on pin 2
(-V) of the cable connector and the negative probe on pin 1(RET). The connector screw
terminal screw heads may be used as convenient monitor points. Refer to Figure 3-15.
3. Turn on the –48 V dc supply. Verify that the digital voltmeter reads between –44 V dc and –
52 V dc when monitoring the cable points specified above. Adjust the power supply output
voltage and/or change the connections at the power supply to achieve this reading.
4. With the negative voltmeter probe still on pin 1 (RET) of the power cable connector (and the
power supply still on), press the positive voltmeter probe to the IDU chassis and verify a
potential of zero volts between the IDU chassis and cable pin 1 (RET). If the measured
potential is not zero, the power supply may be grounded incorrectly and should not be used in
this condition with an IDU. Note that this measurement assumes that the IDU is installed and
properly grounded. If this is not the case, the same measurement can be made between
cable pin 1 (RET) and a convenient ground (such as an ac outlet third-wire ground).
5. Turn the –48 V dc supply off.
6. Plug the IDU power cable into the IDU rear panel DC Power connector (DC Input). Place the
voltmeter probes on the cable connector screw terminal screw heads as per step 2 above.
Refer to Figure 3-15. Note that the CarrierWave Digital Radio IDU does not have a power
on/off switch. When DC power is connected, the digital radio powers up and is operational.
There can be up to 200 mW of RF power present at the antenna port. The antenna should be
directed safely when power is applied.
7. Turn on the –48 V dc power supply, and verify that the reading on the digital voltmeter is as
specified in step 3 above.
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8. Turn the –48 V dc supply off.
9. Connect the IDU to the laptop computer, using the Cat-5 Ethernet crossover cable or connect
the IDU to a computer network, using a normal Cat-5 Ethernet cable. Connect the Ethernet
cable to OAMP 10/100BaseTX Ch1 connector on the IDU rear panel. Refer to Figure 3-16
for the IDU rear panel connections.
Figure 3-15. IDU DC Power Cable Connector
Figure 3-16. IDU Rear Panel – CarrierWave-100/Ethernet
3.7.2.3
Setting the IDU IP Address
Use the Front Panel Menu to set the IDU IP address as follows:
1. Power up the IDU and wait for the main menu to appear on the front panel. The menu will be
titled “CarrierWave” and will have several elements, beginning with “Modify Config”.
2. Use the Down arrow key to move the cursor (asterisk or *) three times to scroll it down until it
is aligned with the “Super User” menu item. When the cursor is opposite the Super User
item, press the Enter key.
3. On the Super User menu, move the cursor down and select the “Chg OA&M Params” item.
4. On the “OA&M Params” menu, move the cursor down to the IP: line. Use the right arrow key
to move the cursor into the IP address area. When you see the underline cursor beneath a
character, you can use the up/down keys to change that character. Continue moving back
and forth with the left/right keys and changing the characters as necessary with the up/down
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keys. When the IP address is correct for your network (it must at least be in the same subnet
as the PC you have connected), use the left arrow key to move back to the menu (move left
until there are no flashing underlines).
5. Continue moving down in the “OA&M Params” menu and change the NM: (Netmask)
parameter to be compatible, in the same manner as the IP address. The GW: (gateway) and
FR: (far end) addresses do not need to be changed at this time.
6. When the IP and NM parameters are correct, move the cursor up to the “Save Changes” item
and press the enter key.
7. Use the escape key to back up to the Super User menu, then select the “Reboot IDU” item to
reboot. Press the Enter key to initiate the IDU reboot.
When the reboot process is complete, the IDU should be accessible from your PC.
3.7.2.4
Configuring the IDU
Use the Front Panel Menu to configure the IDU as follows:
1. From the main menu select “Modify Config”.
2. From the Modify Config menu select “Link Params”.
3. On the Link Parameters menu move the cursor to “Mode:” and use the left/right keys to select
from the list of available operating modes.
4. When the correct operating mode is visible, use the Enter key to save it.
5. Move the cursor down to the “Chan:” item and select the proper channel in the same manner.
6. Use the Escape key to back up to the Modify Config” menu and then select the “Adaptive Pwr
Ctrl” menu.
7. Move the cursor to the Start Power item and use left/right keys to select the desired output
power level. When Power Control is off, this will be the fixed output power level.
8. Navigate back up to the Modify Config menu and select the TX Control item.
9. On the TX Control menu, use the left/right arrows to turn the transmitter on or off, and then
use the Enter key to save the setting.
The CarrierWave Digital Radio is now ready for operation (assuming the ODU is connected to the
IDU via the ODU/IDU Interconnect cable (labeled To ODU).
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Installation
Logging Into the IDU Using CarrierWave iConductorTM
3.7.2.5
Use the following procedure to log into an IDU using CarrierWave iConductor TM:
1. On your desktop, click the Start button and select Programs. Then click on the MS-DOS
Prompt icon.
2. In the MS-DOS window, type ping xxx.xxx.xxx.xxx (where xxx.xxx.xxx.xxx represents the IP
address of the IDU) and press enter.
3. If the ping is successful, the following message will appear: Reply from xxx.xxx.xxx.xxx:
bytes=a. time=b ms, TTL=c. Refer to Figure 3-17 for an example of a ping. A successful
ping implies that the IDU and the PC can communicate with one another across an Ethernet
connection.
4. Close the MS-DOS prompt window.
5. Using the Windows Programs->CarrierComm->vX-XX->IC menu (or the appropriate menu or
icon), start up the iConductorTM application.
6. Select the IDU that you wish to login to from the drop-down menu (see Figure 3-18). If there
is not a network element for that IDU, simply select any IDU icon
Note: If there is not an IDU icon, one must be added. To add an IDU icon, use the
Network drop-down menu and select Add. Refer to IDU iConductorTM Online Help at
C:\Program Files\CarrierComm\help\TOC.html for additional information on how to add an
IDU.
7. Use the Network drop-down menu and select Connect (see Figure 3-19). In the IDU
Connect window, complete the following:
•
Verify the information in the IP Address field
•
Enter engineer in the User ID field
•
Enter the password assigned by the System Administrator in the Password field
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8. Click the Connect button to login to the IDU. Login should take less than 30 seconds and the
iConductorTM Workspace window will appear (see Figure 3-20).
Figure 3-17. IDU Ping Example
Figure 3-18. Login IDU Name Insert
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Figure 3-19. Login IDU Connect Screen
Figure 3-20. iConductor
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TM
Workspace Window (Typical) Insert
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3-31
Configuring the IDU Site Attributes
1. In the iConductorTM Workspace window, select Navigation > Administration > Network to
display the Network Administration window (see Figure 3-21).
2. Select the General tab (bottom tabs) and complete following:
•
Enter site information in the Site Name, Site Contact, and Site Location fields as required.
•
Click the Set button beside the Installation and/or In-Service fields to automatically generate
the system date and time. If you want to enter a date on your own, enter the date without
selecting set.
Note: If NTP has been defined on the Link Administration window, IDU iConductorTM will use the
time on the NTP server. If you do not have NTP running, IDU iConductorTM accesses the system
time and sets the text field to the value returned by the system clock
3. Click the Save icon to save the data and then select the Network tab (see Figure 3-22).
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Figure 3-21. Network Administration Window (General Tab) Insert
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Figure 3-22. Network Administration Window (Network Tab) Insert
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Installation
3.7.3 Documenting CarrierWave Digital Radio Configuration
Use the CarrierWave Digital Radio configuration form provided at the end of this section, or a
similar form, to document the results of the IDU configuration procedure. Optimally, this complete
site form would be stored with the IDU for future reference.
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CarrierWave Digital Radio Configuration Form
Link ID
Radio Type (A/B)
A=Low band, Horizontal polarization, odd serial number
B=High band & Vertical polarization, even serial number
Radio ID #
Radio S/N
Site Name
Network Administration - Radio
Addresses
Link Administration - Radio
Commissioning:
Near IP:
Far IP
Rain Model
Net Mask:
IP EMS 1
Grade of Service
NTP:
IP EMS 2
Rain Region
Gateway:
IP EMS 3
Routing
Frequency
IP EMS 4
SNMP Community Names
TX
RX
Link Distance
GPS Location
Distance (meters)
Trap:
Super User
Read/Write
Read:
OR
Radio Type (A/B)
Radio ID#
Near Latitude
deg
min
sec
Near Longitude
deg
min
sec
Far Latitude
deg
min
sec
Far Longitude
deg
min
sec
Radio S/N
Site Name
Network Administration - IFU
Addresses
Near IP:
Far IP
Rain Model
Net Mask:
IP EMS 1
Grade of Service
NTP:
IP EMS 2
Rain Region
Gateway:
IP EMS 3
Routing
Frequency
IP EMS 4
SNMP Community Names
MK-MAN-01
Link Administration - Radio
Commissioning:
TX
RX
Link Distance
GPS Location
Distance (meters)
Trap:
Super User
Read/Write
Read:
OR
Near Latitude
deg
min
sec
Near Longitude
deg
min
sec
Far Latitude
deg
min
sec
Far Longitude
deg
min
sec
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CarrierWave Digital Radio
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4 Front Panel Operation
4.1 Introduction
This section describes the front panel operation of the CarrierWave Digital Radio. This includes:
•
LCD display (including screen menus)
•
Cursor and screen control buttons
•
LED status indicators
4.2 Front Panel Operation
The CarrierWave IDU front panel is depicted in Figure 4-1 below. All models of the CarrierWave
Digital Radio family have this standardized front panel and chassis.
Figure 4-1. CarrierWave IDU Front Panel
4.2.1 LCD Display
The Liquid Crystal Display (LCD) on the CarrierWave IDU front panel provides status, control,
and configuration functionality. The front panel used on the CarrierWave IDU has a 20 character
wide by 4 character high LCD display that is capable of displaying ASCII characters in any
position on the screen. The menu navigation and various screens are explained in detail later in
this section.
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Front Panel Operation
4.2.2 Cursor and Screen Control Buttons
The buttons on the CarrierWave Digital Radio front panel are used for LCD screen interface and
control functions. The unit has 6 buttons for user input (Up, Down, Left, Right, Enter, and Escape)
as depicted in the figure below.
Used to accept an
entry (such as a value,
a condition, or a menu
choice.
,  Used to
scroll through valid values of a
selection element or to move a
blinking cursor within the data
field of an edit element.
Enter
Escape
Used to “back up” a level in
the menu structure without
saving any current changes.
MK-MAN-01
,  Used to
scroll between the menu
items. If the down arrow is
pressed when the cursor is
at the bottom of the screen
and there are more menu
items below, the screen will
scroll down one line.
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4.3 LED Status Indicators
The basic operation of the CarrierWave Digital Radio can be checked by viewing the LED
indicators on the front panel. Normally, only green LEDs should be lit. A yellow LED indicates
potential system degradation, though the link is still active and operational. A red LED is an
alarm indicator. If it is lit, it indicates a potential problem in the radio system. Refer to Figure 4-2
and the table that follows for a detailed explanation of the LED indicators.
ON-LINE
POWER
PAYLOAD
LOW SNR
IDU FLT
ODU FLT
T1 - A CH
T1 - B CH
RX FLT
RMT FLT
NMS - LOC
NMS - CPT
Figure 4-2. CarrierWave IDU Front Panel LEDs
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Front Panel Operation
Table 4-1. LED Status Indicator Functions
LED
Name
Function
ON-LINE
On-Line
When this LED is illuminated it indicates that the
modem is locked and a link has been established
with the far-end radio
PAYLOAD
Payload
When this LED is illuminated it indicates that the
payload port is connected.
IDU FLT
IDU Fault
When this LED is illuminated it indicates that there is
a fault detected in the IDU equipment. The menu
interface can then be used to show all current faults.
ODU FLT
ODU Fault
When this LED is illuminated it indicates that there is
a fault detected in the ODU equipment. The menu
interface can then be used to show all current faults.
T1- A
T1 – A Channel
When this LED is illuminated it indicates that there is
a T1 connection to the A port.
T1- B
T1 – B Channel
When this LED is illuminated it indicates that there is
a T1 connection to the B port.
Power
When this LED is illuminated it indicates that power is
on.
LOW SNR
Low Signal to
Noise Ratio
When this LED is illuminated it indicates that the SNR
is below the Error Free threshold.
RX FLT
Receive Fault
When this LED is illuminated it indicates that the
Receiver does not detect a valid signal indicating a
problem with the receiver or remote transmitter.
RMT FLT
Remote Fault
When this LED is illuminated it indicates that the farend radio has a fault condition.
NMS LOC
Local NMS Port
When this LED is illuminated it indicates that there is
a connection to the local NMS port.
NMS CPT
Consecutive
Point NMS Port
When this LED is illuminated it indicates that there is
a connection to the remote or Consecutive Point
NMS port.
POWER
4.4 Screen Menus
The front panel used on the CarrierWave IDU has a 20 character wide by 4 character high LCD
display that is capable of displaying ASCII characters in any position on the screen. The unit has
6 buttons for user input: Up, Down, Left, Right, Enter, and Escape.
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There are two basic screen types used to build the interface application, Text Screens and Menu
Screens.
4.4.1 Text Screens
Text screens are used to display information to the user, but do not allow for any user input.
4.4.1.1
Display
When the screen is displayed on the LCD panel the first four lines are visible, and if there are
more than four lines in the screen, a plus (+) sign is displayed in the lower right hand corner of
the display.
4.4.1.2
Buttons
The Enter, Left, and Right buttons do nothing on a text screen.
If the screen contains more than four lines the Up and Down buttons scroll up and down one line
at a time.
The Escape button navigates to the previously viewed screen.
4.4.1.3
Example
Figure 4-3. OA&M Parameter Display
4.4.2 Menu Screen
Menu screens are used to navigate around the system and for data entry. Each menu is
composed of menu elements that serve different purposes. There are currently four menu
element types, Text, Command, Selection, and Edit.
4.4.2.1
Display
Each line is one menu element as described above. Normally the first line is a Text element,
which is the title of the menu. When the menu is scrolled, the title remains fixed while the bottom
three lines scroll. The plus (+) sign is displayed in the bottom right corner to indicate that there
are more lines below just as in the Text Screen.
A menu screen has a cursor that is displayed as an asterisk (*) in the left most character position
and indicates the active element. When the screen is entered the cursor is on the second line
(first line below the title).
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Front Panel Operation
The display characteristics of the different menu element types differ slightly. The text element is
centered horizontally in the display. The command element is also text but is left justified with
room for the cursor. Both the selection and edit types have a label that is left justified, then a
colon, then the data field.
4.4.2.2
Buttons
All buttons are active on a menu screen, depending on the type of the active element. The Up
and Down buttons move the cursor up and down, changing the active element. If the cursor is on
the bottom row, there are more rows below, and the Down button is pressed, the bottom three
lines scroll upward exposing the next line. The Up button has the same behavior in the opposite
direction. The Escape button will always navigate to the previously viewed screen. The Enter,
Left, Right, Up, and Down button behaviors differ slightly depending on the type of the active
menu element and will be described below.
If the active element is a command element, the Left and Right buttons have no effect and the Up
and Down buttons will behave as detailed above. The Enter button executes the command
associated with that element. The command can be a navigation command that takes the user to
another screen, or action command that performs an action.
If the active element is a selection element, the Left and Right buttons scroll through a list of valid
values, displaying the currently selected value on the right side of the active line on the screen.
The Up and Down buttons still have their normal behavior of moving the cursor up or down to a
different element. The Enter button will execute a command passing the selected value.
If the active element is an edit element, the Up and Down buttons still have their normal behavior
until the Right button is pressed. The Left and Right buttons move a blinking cursor within the
data field to facilitate editing that field. Once the blinking cursor is in the data field, the Up and
Down buttons scroll through a list of valid characters for that field, allowing limited data entry. If
the blinking cursor is on the first character of the data field and the Left button is pressed, the
blinking cursor disappears and the Up and Down buttons behave normally again. As with the
selection element, the Enter button executes a command and passes the data field to the
command.
4.4.2.3
Examples
Figure 4-4. Menu Screen with Command elements
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Figure 4-5. Menu Screen with one Command and two Edit elements
4.5 Menu Tree Structure
This section shows the hierarchy of the menu system. In general,  will take you to the
next screen from a menu choice,  or  will scroll through screens within a menu
choice, and  will take you back up one menu level. The dashed lines indicate the bottom
of the screen – to show lower (or upper) entries, use  or .
CarrierWave Digital Radio
MK-MAN-01
4-8
Front Panel Operation
CarrierWave
*Modify Config
Current Config
Monitor Status
Super User
Modify Config
*Link Params
TX Control
Adaptive Pwr Ctrl
Display Config
*Receiver
Transmitter
Adaptive Pwr Ctrl
Network
OA&M
Branch 1
Display RX Config
*Radio
Demod/Decoder
Monitor Status
*Display RX Status
Display Cur Alarms
Branch 2
Display TX Config
*Radio
Mod/Codec
Adaptive Pwr Ctrl
Power Control Off
Start Power = 22
Super User
*Reboot IDU
Reboot ODU
Chg OA&M Params
Chg ODU Params
Chg Modem Params
Branch 3
OA&M Params
Local IP Address =
10.200.1.121
Subnet Mask =
255.255.255.0
Gateway Addr =
10.200.1.1
Far End IP =
0.0.0.0
Network Config
Branch 4
MK-MAN-01
Branch 5
CarrierWave Digital Radio
User Reference and Installation Manual
4-9
Branch 1
Link Parameters
*Mode: 100 FE 2 Ch
Chan: 1A
TX Control
*Transmitter: On
Alignment Mode: Off
Adaptive Pwr Ctrl
*Power Control: Off
Start Power: 22
Select Mode
from List
Turn
Transmitter On
or Off
Turn Power
Control On or
Off
Select Channel
from List
Turn Alignment
Mode On or Off
Select Start
Power from List
(13-23)
Branch 2
RX Status
RSSI
= -70.0
Eb/N0
25.5
CarrierWave Digital Radio
08.21 20:25 GMT
ODU RX LO Unlock
08.21 20:24 GMT
ODU Pwr Unlock
MK-MAN-01
4-10
Front Panel Operation
Branch 3
OA&M Params
*Save Changes
IP: 10.200.1.121
NM: 255.255.255.0
GW: 10.200.1.1
FR: 0.0.0.0
Execute
Reboot IDU
Chg ODU Params
Chg Modem Params
Not Implemented
Not Implemented
Execute
Reboot ODU
Execute
Save Changes to
IDU
Execute
Change Local IP
Address
Execute
Change Subnet
Mask
Execute
Change
Gateway
Address
Execute
Change Far
Radio IP Addr
Branch 4
RX Radio Params
Freq
= 5812.5
MK-MAN-01
Demod/Decoder
Bandwidth
25 Mhz
Modulation 64QAM
Coding
9/10
CarrierWave Digital Radio
User Reference and Installation Manual
4-11
Branch 5
TX Radio Params
TX State = On
Power
= 22
Freq
= 5737.5
Mod/Codec
Bandwidth
Modulation
Coding
25 Mhz
64QAM
9/10
4.6 Screen Menu Summaries
The following tables and text provide a screen view for that topic as well as the functions and
settings of that screen. The order of the descriptions below is from left to right from the menu tree
in the section above.
CarrierWave Digital Radio
MK-MAN-01
4-12
Front Panel Operation
4.6.1 Modify Config/Link Params
Link Parameters
*Mode: 100 FE 2 Ch
Chan: 1A
Function
Settings
Summary
Mode
155 OC-3 1 Ch
100 FE 1 Ch
100 FE 2 Ch
Selects the data rate in Mbps and number of channels in
system.
50 FE 1 Ch
50 FE 2 Ch
50 FE 3 Ch
25 FE 1 Ch
25 FE 2 Ch
25 FE 3 Ch
25 FE 4 Ch
Chan
1A
1B
For SONET OC-3 Digital Radios, the top entry is the only
setting shown. For Ethernet Digital Radios, all settings
other than OC-3 will be shown.
Selects the receive and transmit center frequency.
Choices depend on the channel mode selected above.
2A
2B
3A
3B
4A
4B
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
4-13
The configurations above correspond to the channel center frequencies in the table below:
Channel Group Name
Chan 1A TX Freq
Chan 1A RX Freq
Chan 1B TX Freq
Chan 1B RX Freq
Chan 2A TX Freq
Chan 2A RX Freq
Chan 2B TX Freq
Chan 2B RX Freq
Chan 3A TX Freq
Chan 3A RX Freq
Chan 3B TX Freq
Chan 3B RX Freq
Chan 4A TX Freq
Chan 4A RX Freq
Chan 4B TX Freq
Chan 4B RX Freq
1 Channel
5750
5825
5825
5750
2 Channel
5737.5
5812.5
5812.5
5737.5
5762.5
5837.5
5837.5
5762.5
3 Channel
5733.3
5808.3
5808.3
5733.3
5750
5825
5825
5750
5766.7
5841.7
5841.7
5766.7
4 Channel
5731.25
5806.25
5806.25
5731.25
5743.75
5818.75
5818.75
5743.75
5756.25
5831.25
5831.25
5756.25
5768.75
5843.75
5843.75
5768.75
4.6.2 Modify Config/TX Control
TX Control
*Transmitter: On
Alignment Mode: Off
Function
Settings
Summary
Transmitter
On
Off
Off
On
Turns transmitter on or off.
Alignment
Mode
CarrierWave Digital Radio
Set transmitter to alignment mode on or off.
MK-MAN-01
4-14
Front Panel Operation
4.6.3 Modify Config/Adaptive Pwr Ctrl
Adaptive Pwr Ctrl
*Power Control: Off
Start Power: 22
Function
Settings
Summary
Power
Control
On
Off
13 - 23
Turns adaptive power control on or off.
Start Power
Select Start Power
13 = Min power (short range)
23 = Max Power (long range)
4.6.4 Display Config/Display RX Config/Radio
RX Radio Params
Freq
= 5812.5
Function
Settings
Summary
Freq
5725 - 5850
Displays received center frequency
4.6.5 Display Config/Display Rx Config/Demod/Decoder
Demod/Decoder
Bandwidth
25 Mhz
Modulation 64QAM
Coding
9/10
Function
Settings
Summary
Bandwidth
12.5 MHz
Displays channel bandwidth.
16.7 MHz
25 MHz
50 MHz
Modulation
QPSK
Displays modulation type.
16-QAM
32-QAM
64-QAM
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
Coding
¾
4-15
Displays channel code rate.
7/8
4/5
9/10
5/6
11/12
4.6.6 Display Config/Display TX Config/Radio
TX Radio Params
TX State = On
Power
= 22
Freq
= 5737.5
Function
Settings
Summary
TX State
On
Displays transmitter on/off status.
Off
Power
Freq
13 - 23
5725 - 5850
Displays transmit power in dBm
Displays transmit center frequency
4.6.7 Display Config/Display Tx Config/Mod/Encoder
Mod/Codec
Bandwidth
Modulation
Coding
25 Mhz
64QAM
9/10
Function
Settings
Summary
Bandwidth
12.5 MHz
Displays channel bandwidth.
16.7 MHz
25 MHz
50 MHz
Modulation
QPSK
Displays modulation type.
16-QAM
32-QAM
64-QAM
Coding
¾
Displays channel code rate.
7/8
4/5
9/10
5/6
11/12
CarrierWave Digital Radio
MK-MAN-01
4-16
Front Panel Operation
4.6.8 Display Config/Adaptive Pwr Ctrl
Adaptive Pwr Ctrl
Power Control Off
Start Power = 22
Function
Settings
Summary
Power
Control
On
Off
13 - 23
Displays adaptive power control on or off.
Start Power
Displays adaptive power control initial power setting.
4.6.9 Display Config/Network Config
Network Config
Currently not used.
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
4-17
4.6.10 Display Config/OA&M Params
OA&M Params
Local IP Address =
10.200.1.121
Subnet Mask =
255.255.255.0
Gateway Addr =
10.200.1.1
Far End IP =
0.0.0.0
Function
Settings
Summary
Local IP
Address
xxx.xxx.xxx.xxx
Displays the IP address of the CarrierWave on the
OA&M LAN.
Subnet Mask
xxx.xxx.xxx.xxx
Displays the subnet mask of the CarrierWave on the
OA&M LAN.
Gateway
Addr
xxx.xxx.xxx.xxx
Displays the gateway (default router) used by the
CarrierWave on the OA&M LAN.
Far End IP
xxx.xxx.xxx.xxx
Displays the IP address of the CarrierWave unit at the
other end of the link.
4.6.11 Monitor Status/Display RX Status
RX Status
RSSI
= -70.0
Eb/N0
25.5
Function
Settings
Summary
RSSI
Eb/N0
-70 to -20
5 to 25.5
Displays received signal strength.
Displays received Eb/N0 in dB.
4.6.12 Monitor Status/Display Cur Alarms
08.21 20:25 GMT
ODU RX LO Unlock
08.21 20:24 GMT
ODU Pwr Unlock
CarrierWave Digital Radio
MK-MAN-01
4-18
Front Panel Operation
The table below describes the alarms.
Alarm Name
Severity
Description
Payload Offline
Critical
The link to the far-end radio is down.
Modem Unlock
Critical
The Modem has not achieved lock
ODU: TX LO Unlock
Critical
The ODU is reporting the TX LO is not locked
ODU: RX LO Unlock
Critical
The ODU is reporting the RX LO is not locked
ODU: TX Disabled
Critical
The transmitter has been commanded to the
Off state by either iConductor or the Front
Panel interface
ODU: PwrLoop Unlock
Critical
The internal power control loop in the ODU is
not functioning correctly
ODU: DC Pwr Err
Critical
There is a problem with the DC supply to the
ODU
ODU: Comm Failure
Critical
The IDU is unable to communicate with the
ODU
Pwr Mgmt Timeout
Major
Problem with the Adaptive Power Control
Internal Temp High
Major
The internal temperature of the IDU is above
the allowable threshold.
Internal Temp Low
Major
The internal temperature of the IDU is below
the allowable threshold.
Tx Power Max
Major
The transmitter output power is set at its
maximum value
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
4-19
Blank Page
CarrierWave Digital Radio
MK-MAN-01
5 Summary Specification
Parameter
Fast Ethernet
SONET OC-3
100/50/25 Mbps + 2 T1
155.52 Mbps + T1
13 to 23 dBm
13 to 23 dBm
Output Power - Peak
30 dBm
30 dBm
Input Sensitivity
-81 dBm
-72 dBm
Maximum Input Power
-20 dBm
-20 dBm
Internal Antenna
Flat Panel, G = 23 dBi
Flat Panel, G = 23 dBi
External Antenna
Optional
Optional
Compliance with: FCC Part
15.247 (ISM)
Compliance with: FCC Part
15.247 (ISM)
2 × N Type Female
2 × N Type Female
N Type Female
N Type Female
100Base-Tx, RJ-45 Female
OC-3, Fiber SC, multimode
LED (1300 nm)
DSX-1, RJ-48C Female
DSX-1, RJ-48C Female
Network Management
SNMP, Proprietary GUI
TM
(iConductor )
SNMP, Proprietary GUI
TM
(iConductor )
NMS Connector
10Base-T/100Base-Tx
10Base-T/100Base-Tx
Alarm Port
2 Form C (SPDT), DB9
2 Form C (SPDT), DB9
System
Capacity
Output Power - Average
Regulatory Compliance
Radio Interfaces
External Antenna
IDU/ODU Link
Data Interfaces
Payload
T1
Control
CarrierWave Digital Radio
MK-MAN-01
5-2
Summary Specification
Parameter
Fast Ethernet
SONET OC-3
±37 to ±60 Volts, <70 W
±37 to ±60 Volts, <70 W
IDU Operational Temperature
0º to 55º C
0º to 55º C
ODU Operational Temperature
-30º to 65º C
-30º to 65º C
IDU Humidity
0 to 95%, non-condensing
0 to 95%, non-condensing
ODU Humidity
Up to 100% at 45º C
Up to 100% at 45º C
15,000 feet/4572 meters,
maximum
15,000 feet/4572 meters,
maximum
17.2 x 3.5 x 14.5 inches
17.2 x 3.5 x 14.5 inches
10 lbs
10 lbs
19 inch/48.2 cm, 2 rack unit
19 inch/48.2 cm, 2 rack unit
14.6 x 15.4 x 2.6 inches
14.6 x 15.4 x 2.6 inches
15 lbs
15 lbs
Custom Bracket
Custom Bracket
Power/Environment
DC Power
Altitude
Physical Dimensions
IDU Size (WxHxD)
IDU Weight
IDU Mounting/Installation
EIA Rack Mount
ODU Size (WxHxD)
ODU Weight
ODU Mounting/Installation
Mounting
MK-MAN-01
CarrierWave Digital Radio
6 Rear Panel Connectors
6.1 DC Input (Power) Connector
Two-pin male
PIN
TYPE
SIGNAL
POWER
Power supply return / IDU chassis ground
POWER
-48 Vdc, nominal
6.2 CarrierWave-100 Ethernet 100BaseTX
Payload LOC Connector
RJ-45 Female
PIN
TYPE
SIGNAL
OUTPUT
TX+
OUTPUT
TX-
INPUT
RX+
N/A
N/A
N/A
N/A
INPUT
RX-
N/A
N/A
N/A
N/A
8 7 6 5 4 3 2 1
CarrierWave Digital Radio
MK-MAN-01
6-2
Rear Panel Connectors
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
6-3
6.3 CarrierWave-100 Ethernet 100BaseTX CPT
Connector
RJ-45 Female
PIN
TYPE
SIGNAL
OUTPUT
TX+
OUTPUT
TX-
INPUT
RX+
N/A
N/A
N/A
N/A
INPUT
RX-
N/A
N/A
N/A
N/A
8 7 6 5 4 3 2 1
6.4 CarrierWave-155 SONET Payload
Connector
SC Duplex Female Fiber
OUT
IN
PIN
TYPE
OUT
OUTPUT
SONET OC-3 payload output (optical)
INPUT
SONET OC-3 payload input (optical)
IN
CarrierWave Digital Radio
SIGNAL
MK-MAN-01
6-4
Rear Panel Connectors
6.5 NMS 10/100BaseTX LOC Connector
RJ-45 Female
PIN
TYPE
SIGNAL
OUTPUT
TX+
OUTPUT
TX-
INPUT
RX+
N/A
N/A
N/A
N/A
INPUT
RX-
N/A
N/A
N/A
N/A
8 7 6 5 4 3 2 1
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
6-5
6.6 NMS 10/100BaseTX CPT Connector
RJ-45 Female
PIN
TYPE
SIGNAL
OUTPUT
TX+
OUTPUT
TX-
INPUT
RX+
N/A
N/A
N/A
N/A
INPUT
RX-
N/A
N/A
N/A
N/A
8 7 6 5 4 3 2 1
CarrierWave Digital Radio
MK-MAN-01
6-6
Rear Panel Connectors
6.7 Alarm Port Connector
DB-9 Female
MK-MAN-01
PIN
TYPE
SIGNAL
I/O
Alarm 2 Form-C NO (Normally Open) relay contact
N/A
N/A
N/A
N/A
I/O
Alarm 1 Form-C common relay contact
N/A
GND
I/O
Alarm 2 Form-C common relay contact
I/O
Alarm 2 Form-C NC (Normally Closed) relay contact
I/O
Alarm 1 Form-C NO (Normally Open) relay contact
I/O
Alarm 1 Form-C NC (Normally Closed) relay contact
CarrierWave Digital Radio
User Reference and Installation Manual
6-7
6.8 T1- A Wayside Channel Connector
This is available in both Digital Radio models, CarrierWave-100 Ethernet and CarrierWave-155
SONET.
RJ-48C Female
12 3 4 5 6 7 8
CarrierWave Digital Radio
PIN
TYPE
SIGNAL
OUTPUT
TX+
OUTPUT
TX-
N/A
GND
INPUT
RX+
INPUT
RX-
N/A
GND
N/A
N/A
N/A
N/A
MK-MAN-01
6-8
Rear Panel Connectors
6.9 T1- B Wayside Channel Connector
This is available only in the CarrierWave-100 Ethernet Digital Radio.
RJ-48C Female
12 3 4 5 6 7 8
6.10
PIN
TYPE
SIGNAL
OUTPUT
TX+
OUTPUT
TX-
N/A
GND
INPUT
RX+
INPUT
RX-
N/A
GND
N/A
N/A
N/A
N/A
ODU Connector
Type N coaxial female
PIN
MK-MAN-01
TYPE
SIGNAL
Center
I/O
2375 MHz TX IF / 1675 MHz RX IF / -48 VDC
Shield
N/A
Shield / Chassis GND
CarrierWave Digital Radio
7 Appendix
7.1 Abbreviations & Acronyms
A/D, ADC
Analog-to-Digital, Analog-to-Digital Converter
ABAM
Designation of Lucent for twisted pair cable to connect ADM switch to T1
distribution panel
ADM
Add/Drop Multiplexer
ADPCM
Adaptive Differential Pulse Code Modulation
AdTPC
Adaptive Power Control
AGC
Auto Gain Control
AIS
Alarm Indication Signal
ATM
Asynchronous Transfer Mode
BER
Bit Error Rate
CLEC
Competitive Local Exchange Carrier
CMRR
Common Mode Rejection Ratio
CO
Central Office
Codec
Coder-Decoder
CPE
Customer Premise Equipment
CPU
Central Processing Unit
CPFSK
Continuous-Phase Frequency Shift Keying
CSU
Channel Service Unit
D/A, DAC
Digital-to-Analog, Digital-to-Analog Converter
DB
Decibel
DBc
Decibel relative to carrier
DBm
Decibel relative to 1 mW
DBu
Decibel relative to .775 Vrms
DCE
Data Circuit-Terminating Equipment
DMM
Digital Modem Module
DSP
Digital Signal Processing
DSTL
Digital Studio-Transmitter Link
DTE
Data Terminal Equipment
DVM
Digital Voltmeter
CarrierWave Digital Radio
MK-MAN-01
7-2
Appendix
EIRP
Effective Isotropic Radiated Power
EMI
Electromagnetic Interference
EMS
Element Management System
ESD
Electrostatic Discharge/Electrostatic Damage
FCC
Federal Communications Commission
FEC
Forward Error Correction
FET
Field effect transistor
FMO
Frequency Modulation Oscillator
FPGA
Field Programmable Gate Array
FSK
Frequency Shift Keying
FT1
Fractional T1
GPI
General Purpose Input
HP OpenView
Hewlett Packard’s network management product
IC
Integrated circuit
IDU
Indoor Unit
IEC
International Electrotechnical Commission
IF
Intermediate frequency
IMD
Intermodulation Distortion
IP
Internet Protocol
ISDN
Integrated-Services Digital Network
ISM
Industrial, Scientific, and Medical
ISP
Internet Service Provider
ITU
International Telecommunications Union
Kbps
Kilobits per second
kHz
Kilohertz
LAN
Local Area Network
LED
Light-emitting diode
LOS
Line of Sight
LO, LO1
Local oscillator, first local oscillator
LSB
Least significant bit
MAN
Metropolitan Area Network
Mbps
Megabits per second
MIB
Management Information Base
Modem
Modulator-demodulator
MMW
Millimeter Wave
ms
Millisecond
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
MSB
Most significant bit
MUX
Multiplex, Multiplexer
µs
Microsecond
µV
Microvolts
NC
Normally closed
NIC
Network Interface Card
NMS
Network Management System
NO
Normally open
NOC
Network Operations Center
OAM&P
Operations, Administration, Maintenance, and Provisioning
OC-3
Optical Carrier level 3
ODU
Outdoor Unit
OS
Operating System
PCB
Printed circuit board
PCM
Pulse Code Modulation
PGM
Program
PLL
Phase-Locked Loop
POP
Point of Presence
PRBS
Pseudo Random Bit Stream
QAM
Quadrature Amplitude Modulation
QPSK
Quadrature Phase Shift Keying
Transmission Rate
RF
Radio Frequency
ROH
Radio Overhead
RPTR
Repeater
RSL
Received Signal Level (in dBm)
RSSI
Received Signal Strength Indicator/Indication
RX
Receiver
SCA
Subsidiary Communications Authorization
SCADA
Security Control and Data Acquisition
SDH
Synchronous Digital Hierarchy
SNMP
Simple Network Management Protocol
SNR
Signal-to-Noise Ratio
SONET
Synchronous Optical Network
SQM
Signal Quality Metric
SRD
Step Recovery Diode
CarrierWave Digital Radio
7-3
MK-MAN-01
7-4
Appendix
STL
Studio-Transmitter Link
STM-1
Synchronous Transport Module 1
TCM
Trellis Coded Modulation
TCP/IP
Transmission Control Protocol/Internet Protocol
TDM
Time Division Multiplexing
THD
Total harmonic distortion
TP
Test Point
TTL
Transistor-transistor logic
TX
Transmitter
Vrms
Volts root-mean-square
Vp
Volts peak
Vp-p
Volts peak-to-peak
VOIP
Voice Over Internet Protocol
VPN
Virtual Private Network
VRMS
Volts, root-mean-square
VSWR
Voltage standing-wave ratio
WAN
Wide Area Network
ZIN
Input Impedance
ZOUT
Output Impedance
7.2 Conversion Chart
microvolts to dBm (impedance = 50 ohms)
microvolts
dBm
microvolts
dBm
0.10
-127.0
180
-61.9
0.25
-119.0
200
-61.0
0.50
-113.0
250
-59.0
0.70
-110.1
300
-57.4
1.0
-107.0
350
-56.1
1.4
-104.1
400
-54.9
2.0
-101.0
450
-53.9
2.5
-99.0
500
-53.0
3.0
-97.4
600
-51.4
3.5
-96.1
700
-50.1
4.0
-94.9
800
-48.9
MK-MAN-01
CarrierWave Digital Radio
User Reference and Installation Manual
7-5
microvolts
dBm
microvolts
dBm
4.5
-93.9
900
-47.9
5.0
-93.0
1,000
-47.0
6.0
-91.4
1,200
-45.4
7.0
-90.1
1,400
-44.1
8.0
-88.9
1,600
-42.9
9.0
-87.9
1,800
-41.9
10
-87.0
2,000
-41.0
11
-86.2
2,500
-39.0
12
-85.4
3,000
-37.4
14
-84.1
3,500
-36.1
16
-82.9
4,000
-34.9
18
-81.9
4,500
-33.9
20
-81.0
5,000
-33.0
25
-79.0
6,000
-31.4
30
-77.4
7,000
-30.1
35
-76.1
8,000
-28.9
40
-74.9
9,000
-27.9
45
-73.9
10,000
-27.0
50
-73.0
22.36 mV
-20 (10 mW)
60
-71.4
70.7 mV
-10(100 mW)
70
-70.1
223.6 mV
80
-68.9
707.1 mV
+10 (10mW)
90
-67.9
2.23 V
+20(100 mW)
100
-67.0
7.07 V
+30
(1 W)
120
-65.4
15.83 V
+37
(5 W)
140
-64.1
22.36 V
+40
(10 W)
160
-62.9
CarrierWave Digital Radio
(1 mW)
MK-MAN-01

---

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